Child Restraint Systems, 10396-10421 [2014-03984]
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Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
Subpart C—Basic Hospital Functions
§ 482.42
[Corrected]
2. In § 482.42, remove paragraphs
(a)(1) and (a)(2).
■
(Catalog of Federal Domestic Assistance
Program No. 93.778, Medical Assistance
Program No. 93.773, Medicare—Hospital
Insurance; and Program No. 93.774,
Medicare—Supplementary Medical
Insurance Program)
Dated: February 18, 2014.
Jennifer Cannistra,
Executive Secretary to the Department.
[FR Doc. 2014–04024 Filed 2–24–14; 8:45 am]
BILLING CODE 4120–01–P
DEPARTMENT OF TRANSPORTATION
National Highway Traffic Safety
Administration
49 CFR Part 571
[Docket No. NHTSA–2014–0026]
RIN 2127–AL35
Child Restraint Systems
National Highway Traffic
Safety Administration (NHTSA), U.S.
Department of Transportation (DOT).
ACTION: Final rule; response to petition
for reconsideration.
AGENCY:
This final rule denies most
aspects of a petition for reconsideration
of a February 27, 2012, final rule that
expanded the applicability of the
Federal motor vehicle safety standard
for child restraint systems to child
restraints sold for children weighing up
to 36 kilograms (kg) (80 pounds (lb)).
The petition stated, among other things,
that a label that was required by the
2012 rule for certain child restraints was
unclear and could be misunderstood. In
response, NHTSA is making minor
adjustments to the labeling requirement
to make it clearer and more readerfriendly. For a year, manufacturers have
the option of meeting the requirements
of the February 27, 2012 rule or the rule
as modified today. All other requests for
substantive changes to the 2012 rule are
denied.
DATES: Effective date: The amendments
made by this final rule are effective
February 27, 2014.
Compliance dates: The compliance
date of the amendments of this final rule
is February 27, 2015. Optional early
compliance is permitted. Accordingly,
child restraints manufactured on or after
February 27, 2014 until February 26,
2015, may comply by meeting either the
requirements specified in the February
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SUMMARY:
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27, 2012, final rule (77 FR 11626) or
those requirements as amended by
today’s final rule. Child restraints
manufactured on or after February 27,
2015 must meet the requirements as
amended by today’s final rule.
If you wish to petition for
reconsideration of this rule, your
petition must be received by April 11,
2014.
ADDRESSES: If you wish to petition for
reconsideration of this rule, refer in
your petition to the docket number of
this document and submit your petition
to: Administrator, National Highway
Traffic Safety Administration, 1200 New
Jersey Avenue SE., West Building,
Washington, DC 20590. For information
on the Privacy Act, see Rulemaking
Analyses and Notices section.
For access to the docket to read
background documents or comments
received, go to https://
www.regulations.gov and follow the
online instructions for accessing the
docket. You may also visit DOT’s
Docket Management Facility, 1200 New
Jersey Avenue SE., West Building
Ground Floor, Room W12–140,
Washington, DC 20590–0001 for on-line
access to the docket.
FOR FURTHER INFORMATION CONTACT: For
technical issues, you may call Ms.
Cristina Echemendia, Office of
Rulemaking (Telephone: 202–366–6345)
(Fax: 202–493–2990). For legal issues,
you may call Ms. Deirdre Fujita, Office
of Chief Counsel (Telephone: 202–366–
2992) (Fax: 202–366–3820). The mailing
address of the National Highway Traffic
Safety Administration is: 1200 New
Jersey Avenue SE., West Building,
Washington, DC 20590.
SUPPLEMENTARY INFORMATION:
Table of Contents
I. Introduction
II. Petition for Reconsideration
III. Correspondence
a. The Label
b. Other Issues
IV. Agency Response
a. The Label
b. Other Issues
V. Rulemaking Analyses and Notices
I. Introduction
This final rule denies most aspects of
a petition for reconsideration of a
February 27, 2012, final rule (77 FR
11626) that expanded the applicability
of Federal Motor Vehicle Safety
Standard (FMVSS) No. 213, ‘‘Child
restraint systems,’’ from child restraint
systems (CRSs) for children weighing up
to 65 lb to CRSs for children weighing
up to 80 lb. The final rule also adopted
use of a 10-year-old child (10YO) test
dummy (HIII–10C) to test CRSs
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manufactured for children weighing 65
to 80 lb. The test dummy weighs about
78 lb.
Generally speaking, in NHTSA’s
compliance test for FMVSS No. 213,
NHTSA has the choice of assessing the
performance of a CRS when installed on
a bench seat by way of the simulated
lower anchorages of the ‘‘child restraint
anchorage system’’ 1 of the standard seat
assembly or by a seat belt. That is, child
restraint manufacturers must ensure that
their products meet the requirements of
FMVSS No. 213 when NHTSA tests the
CRS attached by the child restraint
anchorage system connectors and when
the agency tests the CRS attached by the
seat belt. During the course of this
particular rulemaking, the Alliance of
Automobile Manufacturers (Alliance)
submitted a comment 2 on an aspect of
the rulemaking proposal relating to how
NHTSA would use the 10YO dummy in
compliance tests, particularly with
respect to an issue concerning attaching
CRSs by the child restraint anchorage
system.3 The Alliance pointed out that
the child restraint anchorage system was
developed by NHTSA to withstand
crash forces in a crash generated by a
mass on the system of 65 lb (mass of
child plus that of CRS).4 Given such a
design parameter, the group stated that
vehicle manufacturers would never
recommend that a CRS be installed
using the vehicle child restraint
anchorage system when used to restrain
1 In 1999, NHTSA issued FMVSS No. 225, ‘‘Child
restraint anchorage systems,’’ which requires
vehicle manufacturers to equip vehicles with child
restraint anchorage systems that are standardized
and independent of the vehicle seat belts. The child
restraint anchorage system required by FMVSS No.
225 is a 3-point system consisting of two lower
anchorage points and an upper anchorage point.
Each lower anchorage consists of a six millimeter
(mm) diameter straight rod, or ‘‘bar,’’ onto which a
CRS connector can be attached. The two lower
anchorage bars are typically located at or near the
seat bight. The upper anchorage (‘‘tether
anchorage’’) is a part to which a tether hook of a
CRS can be attached. The 1999 rule also amended
FMVSS No. 213, ‘‘Child restraint systems,’’ to
require CRSs to be equipped with connectors that
enable the CRS to attach to the vehicle’s lower
anchorages of the child restraint anchorage system.
A new head excursion performance requirement
was added for forward-facing child restraints (other
than booster seats), and to meet it, child restraints
universally use a top tether strap affixed to the top
of the restraints.
2 NHTSA–2007–0048–0008.
3 These are CRSs equipped with an internal
harness (webbing) to restrain the child (‘‘harnessequipped CRSs’’). Forces from the mass of the
child+CRS are imposed on the child restraint
anchorage system. These are not ‘‘belt-positioning
seats’’ used with a vehicle’s Type II seat belt
system.
4 Assuming the mass of the CRS is about 17 lb,
which is approximately the average mass of a CRS,
the child restraint anchorage system is designed for
children weighing up to about 48 lb (for a combined
weight of 65 lb, from the weight of the CRS plus
the weight of the child).
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children represented by the 10YO
dummy (the dummy alone weighs about
78 lb). Subsequently, the Alliance and
the Association of Global Automakers
(Global Automakers) submitted a joint
comment stating that ‘‘review of the
actual supporting test data and load
calculations reveals that the LATCH
load requirements were developed using
a combined maximum child+CRS
weight of 65 pounds.’’ 5 6 The vehicle
manufacturer groups also expressed
concern about ‘‘a trend toward
increased weight of child restraints . . .
[that] could call into question the
validity of the 48 pound estimate for
appropriate maximum child weight
capacity.’’ 7
The information from the vehicle
manufacturers was important to NHTSA
in determining how we should use the
new 10YO test dummy in compliance
testing. After assessing all available
information, NHTSA decided that it
would not subject child restraints with
internal harnesses to compliance testing
using the 10YO test dummy while the
CRS is attached by the child restraint
anchorage system anchorages, since that
scenario would be contrary to vehicle
manufacturers’ instructions for using
child restraint anchorage systems and
inconsistent with the design parameters
of the anchorage system.
Furthermore, the agency determined
that, given that NHTSA will not test a
child restraint with the child restraint
anchorage system on the standard seat
assembly using the 10YO dummy for
the above reasons, there is a need to
inform consumers on the use of child
restraint anchorage systems to reduce
the likelihood that a CRS would be used
in a manner that is inconsistent with the
assessed performance of the harnessequipped CRS and the design limits of
child restraint anchorage systems. Some
new harness-equipped CRSs have been
produced that are heavier than all CRSs
made in the past, and some are
recommended for children weighing
more than 48 lb.
In the 2012 final rule, we adopted a
labeling instruction informing
consumers not to use the child restraint
anchorage system when restraining a
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5 NHTSA–2010–0158–0016.
6 NHTSA notes: Many in the child passenger
safety community refer to the child restraint
anchorage system as the ‘‘LATCH’’ system, an
abbreviation of the phrase ‘‘Lower Anchors and
Tethers for Children.’’ The term was developed by
a group of manufacturers and retailers soon after the
1999 final rule establishing FMVSS No. 225 for use
in educating consumers on the availability and use
of the anchorage system and for marketing
purposes.
7 NHTSA–2010–0158–0016.
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total weight of more than 65 lb.8
NHTSA determined that a label is
needed to reduce the likelihood that
consumers will use the child restraint
anchorage system lower anchorages
with a child+CRS weight that is too
heavy for the anchorages, which would
pose an unreasonable risk of
overloading the vehicle anchorage
system in a crash. Overloading the
vehicle lower anchorages could be
catastrophic for the child occupant, as
the CRS could dislodge from the vehicle
seat. The instruction provided a clear
and consistent message regarding the
use of the child restraint anchorage
system and improved the current
situation where consumers are provided
inconsistent or no information about the
child weight limit for the lower bars.
The information helps to ensure that the
child restraint anchorage systems
(particularly the lower anchorages) are
used in a manner that comports with the
design parameters of the vehicle system.
II. Petition for Reconsideration
NHTSA received a petition for
reconsideration on the label from
several consumer advocates.9 The
petitioners did not oppose informing
consumers of the weight limits of the
lower anchorages per se, but instead did
not support a 65 lb limit. They
requested that the 65 lb combined
weight should be increased to 80 to 85
lb, believing this is needed to ‘‘preserve
the extended use of lower anchors.’’
Petitioners believe that when NHTSA
developed FMVSS No. 225, the agency
referred several times in the preamble to
a child weight of 65 lb. Petitioners
‘‘surmise that FMVSS 213 [sic] rule was
for anchors to be strong enough to
accommodate [CRSs] that would in
themselves weigh at least 15, possibly
20 pounds, which implies a combined
weight of at least 80 to 85 lbs.’’ The
petitioners state that ‘‘the decision to
adopt 65 pounds as the combined
maximum weight . . . will
unnecessarily restrict the use of the
LATCH system and force caregivers
back to using seat belts for anchoring
forward-facing [CRSs].’’ The petitioners
also state that their intent in petitioning
for reconsideration of the rule was to
‘‘minimize the likelihood that vehicle
8 The 3 points of child restraint anchorage
systems are required to meet strength requirements
designed around a ‘‘combined’’ weight of 65 lb
(combined weight of the child plus the CRS’s
weight) (‘‘child+CRS weight’’).
9 D. Stewart and D. Donaldson (Safe Ride News),
S. Tombrello (SafetyBeltSafe), J. Colella (Traffic
Safety Projects) and B. Hoffman (Oregon Health
Sciences University).
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manufacturers will apply the same
formula’’ to tether anchorages.10
III. Correspondence
a. The Label
A number of persons sent letters or
met with NHTSA in support of the
petition for reconsideration or to ask
questions about the labeling
requirement.11 Several suggest that
NHTSA suspend the requirement for the
label, increase the 65 lb combined
weight limit on the label, or require
vehicle manufacturers to increase the
strength of child restraint anchorage
systems to accommodate a higher
combined weight. Several letter writers
express the view that the final rule
should have addressed tether weight
limits.
Several of the letters and other
submissions are summarized below.
Representatives from the Dorel
Juvenile Group (Dorel) and others met
with NHTSA to express their view that
the new labeling requirement reduces
use of child restraint anchorage systems.
They believe that the current status quo
(current recommendations and practice)
is to use child restraint anchorage
systems for installing child restraints
with internal harnesses for a child
weight up to 48 lb. They also add that
child safety seats now weigh between 15
to 33 lb, so the new label would exclude
the use of child restraint anchorage
systems for a ‘‘large’’ number of
children who are still in harnessedCRSs. They state that because child
restraint anchorage systems are easier to
use and have a higher rate of correct
installation than seat belts, a child
restraint anchorage system installation
is safer than a belt installation. They
suggest that in the short term, NHTSA
should suspend the new label
requirement, and that in the long term,
NHTSA should increase the strength of
the child restraint anchorage system.
Safe Ride News (SRN) wrote in a
letter that the agency should suspend
the labeling requirement because the
label will ‘‘cause a lot of confusion’’ and
affect public perception of the safety of
child restraint anchorage systems
‘‘without improving actual safety in any
significant way.’’ The letter writer
believes that public education messages
10 The petitioners also suggested that NHTSA
undertake a number of initiatives to upgrade
various child restraint anchorage system
requirements or improve CRS safety. Most of the
suggestions were beyond the scope of this
rulemaking and will not be discussed further in this
document.
11 Copies of letters are in the docket for the final
rule: Docket No. NHTSA–2011–0176. NHTSA has
also placed in the docket memoranda describing
various meetings.
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will become ‘‘extremely muddied due to
the variability from CR [child restraint]
to CR.’’ SRN also states its concern that
‘‘lower-anchor weight limits will spill
over to tether-anchor weight limits.’’
Further, in another letter, SRN suggests
that NHTSA require a child-weight limit
of 50 lb as a ‘‘compromise’’ that
‘‘eliminates the formula of child-weight
plus CR-weight.’’ Under SRN’s
suggestion, child restraint
manufacturers may set their own weight
limits for the use of child restraint
anchorage systems up to that ceiling
with a possible lower weight limit for
extremely heavy child restraint models.
The Juvenile Products Manufacturers
Association (JPMA) submitted a letter in
support of Dorel’s submission and Safe
Ride News’ letter, repeating many
points of earlier correspondence.12
Those points include that the extended
use of lower anchorages should be
preserved; that use of tethers should be
increased; that efforts should be made to
minimize the likelihood that vehicle
manufacturers will similarly restrict
tether anchor use; that parents might not
remember or even initially know to
switch to the seat belt during the
several-year course of a CRS’s use; and,
that innovation by CRS manufacturers
to reduce loads on anchors through
energy management features should be
supported. JPMA also expressed the
view that NHTSA should suspend the
label and ‘‘consider strengthening the
anchorage strength requirements of
FMVSS 225 immediately.’’ In a later
submission, JPMA states that the label
will result in ‘‘lack of trust in LATCH’’
because it results in varying weight
limits, and in some cases weight limits
lower than the 40 or 48 lb currently
used in the field. JPMA also believes
that the label will lead to early
graduation to boosters due to the
wording on the label and because CRSs
might not achieve a tight fit with a seat
belt or may be too difficult to install
with a seat belt.
An individual, Alisa Baer, wrote that
introducing ‘‘strict lower anchor weight
limits of CR + child = 65 pounds will
further complicate’’ child restraint
anchorage systems. The letter writer
states that parents typically do not
understand how fast a child grows and
that a parent may opt not to use a CRS
when their child is on the cusp of the
weight limit out of fear that the child
will soon outgrow the CRS, when in
reality the child could have much more
time before exceeding the weight limit.
12 NHTSA had discussed many of these points in
the preamble to the February 27, 2012 final rule.
For the most part, no new information bearing on
the discussion was provided by JPMA’s post final
rule submissions.
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The writer states that ‘‘ugly numbers—
like 37 or 41 [lb]—are scary to parents
& technicians,’’ and ‘‘will likely erode
confidence in the LATCH system’’
because people may ‘‘[think] ‘is the
LATCH system so fragile that if the
child was 38 pounds instead of 37 it
might not hold in a crash?’ ’’
Consumers Union sent a letter stating
that it was ‘‘worried that the new rules
may encourage parents to secure heavier
child seats using standard safety belts
instead of the LATCH system.’’
Consumers Union states that ‘‘each CRS
will still feature a different maximum
recommended child weight limit, based
on the differences between the seat’s
weight and the 65 lb limit of the lower
LATCH anchors,’’ which, the letter
writer believes, will confuse caregivers.
Diono 13 sent a letter expressing its
belief that the 65-lb combined weight
threshold was ‘‘far too conservative a
limitation given the dynamic capacity of
the lower anchors in vehicles’’ and asks
that NHTSA ‘‘allow a maximum weight
of CRS plus occupant to be limited to
80 lbs with the use of lower anchors.’’
These are the same arguments that
Diono made in response to the NPRM
when the company was named
Sunshine Kids. Diono believes that
there is ‘‘much data from testing
analysis that has shown lower anchors
support total masses larger than the
proposed limit of 30.5 kg,’’ and states
that it has data from its sled testing
which ‘‘show that with a combined
mass of 78 lbs to ∼110 lbs the lower
anchors see dynamic loads well within
the dynamic capacity of the lower
anchors.’’ Diono also states that ‘‘ECE–
R44 has recommended the combined
weight limit be 33 kgs (Combined mass
of CRS plus occupant) or 72.6 lbs.’’
The Alliance submitted
correspondence focused on the need for
the label to address rear-facing child
restraints equipped with an internal
harness that are sold for heavier
children, which are used without a
tether. The Alliance highlights that it
reviewed ‘‘some of the heavier 3-in-1
child restraints currently on the market,
especially those which have been
certified for use up to 40/45 lbs
rearward-facing,’’ and notes that ‘‘a
potential weight combination of up [sic]
73.8 lbs becomes apparent—without use
of a tether.’’ The Alliance seeks ‘‘to
ensure that the label is also applied to
rear-facing child restraints.’’
b. Other Issues
NHTSA also received correspondence
from Graco asking that harness13 A
child restraint manufacturer previously
known as ‘‘Sunshine Kids.’’
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equipped CRSs recommended for
children up to 70 lb in weight should be
excluded from the head excursion
requirements if the CRS height
restrictions do not accommodate the
HIII–10C dummy.
Graco also raises a question about
S5(f) of the final rule, which applies to
harness-equipped CRSs. S5(f) refers to
the weight of the test dummy used to
test the CRS. Graco suggests that
NHTSA publish a list of the weights for
each test dummy to make it ‘‘easy for
manufacturers to determine which
[anthropomorphic test device] and CRS
combinations need to be tested with
each type of belt and provide more
standardized results for consumers.’’
IV. Agency Response
NHTSA has evaluated all relevant
issues presented above and has made
the following decisions in responding to
those issues.
a. The Label
A Label Is Necessary To Address a
Safety Need
NHTSA has determined that the
information presented by the label in
question is necessary to address a safety
need. The information reduces the
likelihood that consumers will use the
child restraint anchorage system with a
combined weight of child plus CRS
weight too high for the anchorages in a
crash. FMVSS No. 225 requires the
anchorage system to withstand crash
forces resulting from a combined
(child+CRS) mass of 65 lb.14 Not having
information about the weight limits
poses an unreasonable risk of
overloading the child restraint
anchorage system given that CRS
weights are increasing (currently there
is no limit on the size and mass of
CRSs), harness-equipped CRSs are being
produced that are marketed for children
of heavier masses than 40 lb, and peak
vehicle accelerations are much higher
now (some exceed 60 g) than the 48 g
the agency had assumed in 1999 when
designing the strength requirements of
FMVSS No. 225. We believe that
information about child weight limits
needs to be provided on the CRS, given
the design limits of child restraint
anchorage systems and the changing
physical demands on the system from
modern child restraint and vehicle
designs.
In an April 11, 2011 letter to NHTSA,
the Alliance and Global Automakers
expressed support for a label such as
that adopted by the 2012 rule. These
14 At the time FMVSS No. 225 was established,
forward-facing harness-equipped CRSs weighed
about 15 lb on average.
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vehicle manufacturer groups expressed
concern ‘‘that there appears to be a
trend toward increased weight of child
restraints. This trend, if it continues,
could call into question the validity of
the 48 pound estimate for appropriate
maximum child weight capacity.’’
NHTSA agrees that this development is
a cause for concern, and believes that
the labeling requirement addresses this
potential safety problem.
The market has not provided the
information consumers need. Vehicle
and CRS users’ manuals have
conflicting or a lack of information on
the maximum child weight limit for
lower anchor use. Most vehicle
manufacturers do not include a child
weight limit for lower anchor use in
their vehicle owner’s manual. A 2011
manual developed by SRN, ‘‘LATCH
Manual,’’15 indicates that only about 54
percent of vehicle ‘‘makes’’ provides
information on the weight limits of
child restraint anchorage systems.16
Child restraint manufacturers’
recommendations for using the child
restraint anchorage system are also
varied and generally unhelpful. NHTSA
reviewed approximately 40 CRS
manuals from different CRS
manufacturers to see the current
recommendations of CRS
manufacturers. In our sample, Dorel and
Evenflo did not specify a maximum
child weight for use with the child
restraint anchorage system. Graco and
Recaro specified using the vehicle
manufacturer’s weight limits for use of
the child restraint anchorage system and
also specified a maximum child weight
of 48 lb for use of the anchorages. Britax
recommended that consumers follow
vehicle manufacturers’ instructions and
that, if a vehicle manufacturer does not
provide a limit, consumers should
assume a 40 lb maximum child weight
limit for lower anchors. Diono
recommended use of the child restraint
anchorage system for children weighing
up to 65 lb (corresponding to the weight
of a 50th percentile 9.5 year-old) and
even, for some models, 80 lb
15 The ‘‘LATCH Manual,’’ developed by SRN
(www.saferidenews.com), compiles material such as
the vehicle manufacturers’ recommendations for the
maximum child weight limit for using the child
restraint anchorage system. The manual is used by
child passenger safety technicians participating in
a child seat checkup program run by a nonprofit
organization called SafeKids as a look-up tool for
installing child restraints in vehicles.
16 In the 2011 LATCH Manual, 12 percent of
vehicle makes recommended 40 lb as the child
weight limit for lower anchor use and 42 percent
recommended 48 lb. In the 2013 LATCH Manual,
8 percent of vehicle manufacturers recommended a
child weight limit of 48 lb while 64 percent
recommended the combined CRS+child weight
limit of 65 lb for lower anchor use.
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(corresponding to the weight of a 50th
percentile 11 year-old).
Since most vehicles do not specify a
child weight limit for lower anchor use,
and since CRS instruction manuals
generally have no information (e.g.,
Dorel and Evenflo), refer to the vehicle
owner’s manual (Graco, Britax, Recaro),
or have conflicting information on the
child weight limit for using the lower
anchorages (Graco, Recaro), many
consumers are unaware or unsure as to
the weight limits of child restraint
anchorage systems. A consumer looking
in the CRS manual might be referred to
a non-existent vehicle owner’s manual
instruction on child weight limits for
lower anchor use, or might be informed
that the anchorage system may be used
to a weight beyond the intended design
limit of many if not most vehicles’
anchorage systems.
This problematic situation can be
fixed if the CRS has the required
information about the weight limits.
With the information, consumers will
have convenient access to facts about
the child weight limit for lower anchor
use. A label with the information will
provide clear and consistent
information for determining the child
weight limit for lower anchor use,
which will be easily accessible to the
caregiver at all times.17 Consumers
following this information will virtually
eliminate the risk of anchorage failure in
a crash.18
We do not believe that specifying a
combined (child+CRS) weight limit in
the vehicle owners’ manual rather than
on a CRS label would be as effective at
communicating the information as
placing a label on the CRS. First, the
consumer will need to determine the
weight of the CRS and then calculate the
maximum child weight limit. We
believe that these additional actions
required by the consumer are
unreasonable; the consumer is unlikely
to take the step of assessing the CRS
weight or may not bother to make the
17 In addition, the agency has plans to promote
the label and provide consumer education regarding
the new label.
18 We recognize that currently there are no
reported anchorage failures in on the road vehicles.
However, the risk of anchorage failure exists to such
an extent today that NHTSA would like to be
proactive in addressing this risk. In the past, there
has been a low incidence of heavier children in
CRSs with internal harnesses. This could very well
change in the future as NHTSA and other groups
are encouraging caregivers to keep children in
harness-equipped CRSs for a longer time. Moreover,
CRSs are being produced for children of
increasingly heavier weights. Also, crash pulses of
newer vehicles are higher and child restraints
themselves are getting heavier. We believe that a
problem of anchorage failures is in the making, so
we are addressing the situation now before the
problem comes to fruition.
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calculation. Second, a recent survey 19
conducted by the agency showed that
only 14 percent of caregivers use the
vehicle owners’ manuals for information
about installing CRSs. This indicates
that most consumers will not learn of
the instruction by way of the vehicle
owner’s manual.
We disagree with JPMA’s and Diono’s
assertion that the label will result in
lack of confidence in child restraint
anchorage systems. We believe that the
label will provide clear and consistent
information on the use of child restraint
anchorage systems and will thereby
promote more trust in child restraint
anchorage systems. More importantly,
the information will virtually eliminate
the risk of a failure of an anchorage
system in attaching a CRS to the
vehicle.20 Such failures, not the label,
would reduce consumer confidence in
child restraint anchorage systems. We
are taking action now to instruct
consumers of the intended use of the
anchorage system to avoid failures in
the field.
The Strength Was Based on a 65-lb
Combined Weight Limit
The petitioners state that they wish to
‘‘preserve the extended use of lower
anchors.’’ They state that the preamble
for the final rule establishing FMVSS
No. 225 refers to a child weight of 65 lb,
and that the intent of the agency in
establishing the standard was ‘‘for
anchors to be strong enough to
accommodate CRs [sic] that would in
themselves weigh at least 15, possibly
20 pounds, which implies a combined
weight of at least 80 to 85 lbs.’’
Agency Response: The petitioners’
view is incorrect. The preambles 21
analyzing, explaining, and developing
the rationale for FMVSS No. 225’s
strength requirement overwhelmingly
refer to a combined weight (child+CRS)
of 65 lb. The entire engineering analysis
upon which the strength requirement
19 National Child Restraint Use Special Study
(NCRUSS), DOT HS 811 679, https://wwwnrd.nhtsa.dot.gov/Pubs/811679.pdf.
20 As noted earlier, we recognize that there are no
reported anchorage failures in on the road vehicles.
However, the risk of anchorage failure exists. In the
past, there has been a low incidence of heavier
children in CRSs with internal harnesses. This
could change in the future as NHTSA and other
groups are encouraging caregivers to keep children
in harness-equipped CRSs for longer time, and
CRSs are being produced for heavier and heavier
children. Also, crash pulses of newer vehicles are
higher and child restraints themselves are getting
heavier. We believe that a problem of anchorage
failures is in the making, so we are addressing the
situation now before the problem arises.
21 See, e.g., final rule, response to petitions for
reconsideration, 68 FR 38208, June 27, 2003.
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Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
referencing combined weight
(child+CRS).
Moreover, the weight to which the
label refers was an issue well within the
scope of the present rulemaking. The
question of the weight limits of child
restraint anchorage systems and the safe
use of the anchorage system with
heavier children were crucial aspects of
the 2010 SNPRM (see section VII.a. of
on an analysis of the forces that are likely to
the SNPRM, 75 FR at 71659). Upon
be imposed on a LATCH system in a crash.
proposing a label to inform consumers
NHTSA agrees [with a petitioner] that the
maximum expected force acting on the center of the limits of the child restraint
anchorage system, the SNPRM
of gravity of a child in a child restraint is
specifically asked for comment on the
calculated as the total mass of the child and
the child restraint system (‘‘the child/CRS
child weight variable: ‘‘Comments are
system’’) multiplied by the acceleration of the requested on the label’s reference to the
system. . . . Assuming a child and child
65 lb (29.5 kg) threshold.’’ 75 FR at
restraint mass of 29.7 kg (65 lb), the dynamic 71659.
force expected to act through the center of
In addition, vehicle manufacturer
gravity of the child/CRS system in a 48.4 g
groups (Alliance and Global
crash is approximately 14,100 N. [Emphasis
Automakers) and JPMA commented on
added.] 68 FR 38208, 39218–38219, June 27,
the SNPRM, informing NHTSA that the
2003.
proposed wording that referred to a 65References to a ‘‘child’’ weight of 65
lb child weight alone did not adequately
lb rather than to a ‘‘combined’’ weight
account for the weight of the CRS and
in the 2010 SNPRM were in error, as the was thus providing incorrect
Alliance, JPMA and others have pointed information. NHTSA benefited from the
out. Such references were imprecise and comments and corrected the weight
limited in describing the assumptions
limit to reflect the weight of the
underlying the strength requirement of
child+CRS, as designed by FMVSS No.
child restraint anchorage systems. The
225, in the final rule. The agency was
Alliance explained that the load
not required to reissue another proposal
calculations for the 15 kN strength
for notice and comment to make this
requirement were based on a combined
correction.
maximum (child+CRS) weight of 65
Diono believes that there is ‘‘much
lb.22 The Alliance and others were
data from testing analysis that has
concerned that the proposed wording
shown lower anchors support total
that referred to a 65-lb child weight did
masses larger than the proposed limit of
not adequately account for the weight of 30.5 kg’’ and states that it has data from
its sled testing which ‘‘show that with
the CRS and thus would be providing
misinformation. NHTSA agreed with the a combined mass of 78 lbs to ∼ 110 lbs
commenters and made the correction in the lower anchors see dynamic loads
well within the dynamic capacity of the
the final rule.
lower anchors.’’ Diono believes that its
The present petitioners state that
‘‘What is proposed [sic] in the final rule, tests show that, with a combined child
and child restraint weight of 80 lb, the
is, in effect, a major change of
dynamic loads on the anchors are in the
interpretation of anchor weight limits
without any opportunity for assessment range of 9 kN at each lower anchor.
and comment that is usual in regulatory Diono also states that NHTSA has tested
CRSs (some weighing 30 lb) for many
changes.’’
years using the Hybrid III 6-year-old
This assertion is without merit. As
(HIII–6C) dummy weighing 48 lb (for a
explained above, the agency did not
combined weight of 78 lb) as part of its
make a ‘‘change of interpretation of
compliance program with no anchorage
anchor weight limits’’ by basing the
failures. Based on this information,
final rule on a combined child+CRS
Diono concludes that there is a very safe
weight of 65 lb. A 65 lb combined
margin with the use of lower anchorages
weight limit was the established
for a combined child and CRS weight of
engineering basis for the strength
requirement of FMVSS No. 225 from the 80 lb.
The agency disagrees that Diono’s test
beginning of the standard. The 2010
data indicate that NHTSA should
SNPRM was in error in referring to a
amend the labeling requirement in such
child weight alone of 65 lb. The 2012
a way that condones the use of the
final rule remedied the error by
lower anchorages with a combined child
and CRS weight of 80 lb. Diono’s testing
consisted of sled tests using the FMVSS
22 In its comment JPMA also supported using the
No. 213 test bench and a sled pulse (47
combined weight (child+CRS), rather than child
weight alone, to avoid overloading the anchorages.
G pulse and a 35 mph velocity)
tkelley on DSK3SPTVN1PROD with RULES
was based uses a combined weight of 65
lb.
To illustrate, NHTSA explained the
basis for FMVSS No. 225’s 15 kN
strength requirement in a 2003
document responding to petitions for
reconsideration of various aspects of the
1999 final rule. NHTSA stated that the
agency based the strength requirement—
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representing the crash pulse of a 2001
Toyota Echo in an NCAP frontal crash
test. The docket submissions from
Diono show that for sled tests performed
with the 47 G pulse and combined child
and CRS weight of 82 lb (65 lb dummy
+ estimated 17 lb CRS) and 97 lb (80 lb
dummy + estimated 17 lb CRS), the
peak total load on the child restraint
anchorages were 25.7–27.3 kN. Those
loads clearly exceed the 15 kN quasistatic load minimum strength
requirement of the anchorage system per
FMVSS No. 225.
Furthermore, while the Toyota Echo
pulse at 48 G in an NCAP test was
considered a severe pulse in early
2000s, current NCAP data shows that
many recent vehicle models have stiffer
front ends than the Echo, with peak
accelerations in excess of 50 G.
Additionally, Diono’s data are
inadequate because the data were
obtained from sled tests conducted with
an FMVSS No. 213 test bench seat. The
child restraint anchorage system bars on
the bench seat are designed and
constructed to withstand repeated
loading in 30–35 mph sled tests, i.e.,
they are reinforced over and above the
anchorages of actual vehicles. Diono did
not provide any actual vehicle test data
(static or dynamic). The strength of
child restraint anchorage systems in
vehicles is evaluated according to
specifications in FMVSS No. 225, which
include a quasi-static load test of 15 kN
applied to the lower anchors and tethers
and a quasi-static load test of 11 kN
applied only to the lower anchors. The
lack of anchorage failures on NHTSA’s
test bench does not indicate that realworld vehicles’ anchorages are strong
enough to hold the force generated by
higher weight children.
Diono referred to Economic
Commission for Europe Regulation No.
44 (ECE R.44), ‘‘Restraining Devices for
Child Occupants of Power-Driven
Vehicles,’’ and ECE R.14, ‘‘Safety Belt
Anchorages, ISOFIX Anchorages, and
Top Tether Anchorages,’’ stating that
these regulations limit to 72.6 lb the
combined weight of child and child
restraint for ISOFIX use, even though
ECE R.14 has slightly less stringent
requirements on the ISOFIX anchors
than FMVSS No. 225.
NHTSA does not find this view
persuasive. For one thing, ECE R.44
limits the maximum child weight for
CRSs with harnesses and CRSs
equipped with ISOFIX to 40 lb, and
specifies that the CRS weight be less
than or equal to 33 lb. FMVSS No. 213
does not have such limitations on CRS
design at this time. Thus, the overall
risk of overloading the anchors in
Europe is inherently lower than in the
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Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
U.S. In this country, a label is needed
to limit the weight on the anchorages to
within design parameters.
Second, no showing has been made
by Diono that the ECE requirements are
sufficient to meet the safety need in the
U.S. that is met by FMVSS No. 225. In
a 2010 Transportation Research
Laboratory (TRL) contract report, Hynd
et al.23 noted that there is evidence that
the current ECE R.14 anchorage strength
test requirements may be inadequate for
some dummy and CRS combinations
allowed in ECE R.44. We are not
convinced that FMVSS No. 225’s
requirements should be made similar to
those of ECE R.14.
Diono also states that the 2012 final
rule’s labeling requirement on lower
anchor use contradicts Transport
Canada’s recent update of Canadian
Motor Vehicle Safety Standard (CMVSS)
No. 213, ‘‘Child restraint systems,’’
which permits the use of lower anchors
to install child restraints with harnesses
for children weighing up to 65 lb.
We do not agree. Transport Canada
has yet to consider the recent updates to
FMVSS No. 213 incorporating the 10year-old dummy for testing child
restraints. We expect Canada to have
similar issues as the U.S. regarding
child restraint misuse, incorrect
installations, and consumer confusion
as to the child restraint anchorage
systems. Transport Canada may be
considering the merits of the label in the
future.
tkelley on DSK3SPTVN1PROD with RULES
Empirical Data
The petitioners request that NHTSA
‘‘provide any test or field data
suggesting the need for a
reinterpretation of the original statement
that FMVSS 225 was devised for a child
weighing 65 to 80 . . . lbs.’’ As
explained above, FMVSS No. 225 was
developed to ensure that crash forces
generated by a 65 lb combined weight
will be withstood; it did not presume a
child weight alone of 65 to 80 lb. The
label is intended to inform consumers
about the design limits of child restraint
anchorage systems and to keep use of
the lower anchorages to within the
anchorage system’s design limits. The
engineering analyses underlying the
FMVSS No. 225 strength requirement
have been fully discussed. The agency
is not obligated to provide ‘‘test or field
23 Hynd, M., Pitcher, M., Hynd, D., Robinson, B.,
Carroll, J.A., ‘‘Analysis for the development of
legislation on child occupant protection,’’
Transportation Research Laboratory (TRL) Report,
Prepared for the European Commission under the
specific contract no. SI2:555655 and in the
framework contract no. ENTR/05/17.01, July 2010.
https://ec.europa.eu/enterprise/sectors/automotive/
files/projects/report-child-occupant-protection_
en.pdf.
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data’’ to justify why we disagree with
the petitioners’ view that the weight
limit should be based on a child weight
alone of 65 to 80 lb.
Nonetheless, there are empirical data
on this issue. There has been failure of
a child restraint anchorage system in
testing conducted by Transport Canada
(30–35 mph) involving full frontal rigid
barrier crash tests of model year (MY)
2009 and 2010 vehicles. Transport
Canada placed child restraints in the
outboard rear seating positions using the
child restraint anchorage system
(including the top tether).24 The
program involved 28 crash tests with
the HIII–6C dummy and 4 crash tests
with the HIII–10C dummy. The weight
of the CRSs used in the tests ranged
from 11.4 lb to 25.11 lb. The peak
vehicle acceleration in these crash tests
ranged from 30 g to 68 g. The total
anchorage loads (sum of forces on the
lower anchors and the tether anchor)
ranged from 7.5 kN to 20.8 kN with the
HIII–6C dummy, and from 13.3 kN to
20.4 kN with the HIII–10C dummy (see
Tables A1(a) and A1(b) in the Appendix
to this preamble).
The failure occurred in a 35 mph
frontal crash test of a 2010 Kia Forte
with the HIII–10C dummy restrained in
Safety 1st Apex 65 child restraint. The
CRS was installed in the right outboard
rear seat with lower and top tether
anchorages. The CRS weighed about 13
lb. The combined weight (child+CRS) in
this test was 90 lb, the peak vehicle
acceleration was 46 G. The total
maximum anchorage loads measured in
this test was 20,395 N. During the test,
the inboard anchor, which was held in
place by two bolts, pulled through the
sheet metal resulting in a failure at the
attachment point. The anchorage failure
demonstrates a finite limit to the
strength of the child restraint
anchorages.
We are concerned that there are
factors in play that have developed in
recent years that raise the possibility
that the limits of the child restraint
anchorage system will be surpassed in
more and more vehicles by the ordinary
use of modern day CRSs in modern
vehicles if measures are not in place to
prevent this from happening. CRSs with
internal harnesses are being produced
that are recommended for children
weighing 65 lb or more. The average
weight of CRSs was 15 lb when FMVSS
No. 225 was first issued; now CRSs are
marketed that weigh more than 30 lb.
Further, the strength requirements of the
child restraint anchorage system were
based on a 48 g vehicle acceleration,
24 Details of the Transport Canada tests are
available in the docket for this document.
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10401
which is a level being surpassed among
current vehicle models in a 35 mph
frontal crash. In contrast, there are
vehicle models in the current fleet that
have peak vehicle acceleration in excess
of 50 g in a 35 mph frontal crash.
Also presented in the Appendix in
Tables A1(a) and A1(b) are the results of
NHTSA’s computed maximum total
inertial loads on the child restraint
anchorage system (F) using the
combined weight of the child dummy
and the CRS (m) and the peak vehicle
acceleration (a),25 using Newton’s
second law of motion (F=ma).26 A
comparison of the measured and
computed total anchorage loads
indicates that in 13 of 32 tests (41
percent), the computed anchorage loads
were within 10 percent of the measured
anchorage loads. In an additional 13
tests (40 percent), computed anchorage
loads were within 20 percent of the
measured loads. The general similarity
between the measured and computed
values provides a source of confidence
in the anchorage strength requirements
in FMVSS No. 225, which was based on
a similar inertial load computation
using a combined CRS+child weight of
65 lb and a peak acceleration of 48 G.
Almost all of the tests showed the
integrity of present day child restraint
anchorage systems in vehicles. The
relatively low rate of anchorage failures
in the Transport Canada vehicle crash
tests may be because many vehicle
manufacturers are designing the child
restraint anchorage systems to be
stronger than that required by FMVSS
No. 225; the anchorage loads from the
combined CRS+dummy weight and the
peak vehicle acceleration were within
the strength capabilities of vehicle
anchorages.
Diono suggests a combined child+CRS
weight limit of 80 lb. We believe that
this suggestion raises an unreasonable
risk that the lower anchorages would be
overloaded, resulting in anchorage
failure. The computed total child
restraint anchorage load for a peak
25 The vehicle accelerations were filtered in
accordance with Society of Automotive Engineers
(SAE) J211, ‘‘Instrumentation for Impact Test—Part1-Electronic Instrumentation,’’ with SAE channel
filter class (CFC) 60 (100 Hz).
26 This is the same methodology used in the June
27, 2003 final rule (68 FR 38208) responding to
petitions for reconsideration of the March 5, 1999,
rule establishing FMVSS No. 225 (see 68 FR at
38218 for the rationale for this method of analysis).
This analysis assumes that the child restraint is
fully coupled to the vehicle and ignores friction
between the CRS and the vehicle seat. It also
assumes that the child dummy is coupled to the
child restraint and ignores friction between the
dummy and CRS surface. These are reasonable
assumptions if the child restraint is securely
attached to the lower anchors and tether anchor and
the CRS internal harnesses are snugly attached.
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Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
these CRSs were tested in the vehicle
crash tests at Transport Canada. The two
vehicle bucks were selected because
both the Kia Forte and the Ford Focus
had high measured anchorage loads in
the Transport Canada frontal vehicle
crash test program.
The agency selected two 35 mph, 35
g and 100 millisecond (ms) pulses to
simulate a frontal crash. One of the
pulses was front loaded while the
second one was rear loaded (see Figure
1).30 These two acceleration pulses were
selected to cover the different vehicle
acceleration pulse shapes observed in
35 mph full frontal rigid barrier crash
tests.
weighted HIII–6C dummy (66 lb), for a
combined weight of approximately 79
lb.
VRTC conducted a sled test with the
Kia Forte buck and a front loaded sled
pulse (shown in Figure 1), with the CRS
installed in the right rear outboard
seating position using the lower anchors
and the top tether. Post-test evaluation
showed some deformation of the sheet
metal with some forward pull of the
lower anchorages but not a complete
failure of the anchorages. The total
anchorage loads (lower anchors+tether)
was measured to be 17,330 N and the
total load on the lower anchors
(inboard+outboard) was 11,666 N (See
Table A2 in the Appendix). However,
VRTC later conducted another test,
identical to the first except the tether
was not attached. In that test, there was
complete failure of the lower anchor
27 The peak vehicle acceleration of the 2012 Ford
500 is 73 g and that of the Toyota Scion IQ is 68
g in the NCAP 35 mph full frontal rigid barrier
crash test.
28 National Child Restraint Use Special Study,
DOT HS 811 679, https://www-nrd.nhtsa.dot.gov/
Pubs/811679.pdf.
29 Amenson, T; Sullivan, L. ‘‘Frontal Sled Tests to
Measure and Evaluate Loads on Child Restraint
Anchorages,’’ NHTSA Report, copy placed in the
docket for this final rule.
30 A front or rear loaded pulse is defined by the
location of the peak acceleration relative to the
midpoint of the pulse. If the peak is before the
midpoint of the pulse, the pulse is front loaded and
if it is after the midpoint, the pulse is rear loaded.
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approximately 30 percent of forwardfacing child restraints that are installed
using the lower anchorages do not have
the tether attached. To study this and
other issues, NHTSA performed sled
tests at the agency’s Vehicle Research
and Test Center (VRTC) to measure the
loads experienced by child restraint
anchorages in a simulated crash. VRTC
conducted 24 sled tests using the
weighted 6-year-old Hybrid III dummy
and three child seat models (Safety 1st
Apex 65, Sunshine Kids Radian 65 and
Britax Frontier 85) in two vehicle bucks
(2010 Kia Forte and 2010 Ford Focus).29
The child restraint models were selected
because these models are marketed for
heavier/older children, and because
The agency specifically selected the
Kia Forte because of the lower
anchorage failure observed in the
vehicle crash test conducted by
Transport Canada (discussed in the
previous section). Transport Canada’s
tests used the Safety 1st Apex 65 CRS
(approximately 13 lb) and the HIII–10C
dummy (77 lb), for a combined weight
of about 90 lb. VRTC’s test used the
same Safety 1st CRS model and a
tkelley on DSK3SPTVN1PROD with RULES
vehicle acceleration of 65 g and a
combined child+CRS weight of 80 lb is
23,187 N, which is significantly higher
than the measured total anchorage loads
in the Transport Canada test series.
Since there are vehicle models with
peak vehicle accelerations of
approximately 60–70 g,27 having total
anchorage loads exceeding 23,000 N is
a distinct possibility if the combined
weight limit is increased to 80 lb as
suggested. Thus, we decline the request.
Another matter of concern to us is the
low usage rate of the tether anchor and
how nonuse of the tether, among other
things, results in higher loads being
imposed on the lower anchorages. Our
survey data 28 indicates that
Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
10403
misunderstand the instruction, remove
the harness from the CRS before they
should, or otherwise not follow the
instruction. NHTSA is thus amending
S5.5.2(g)(1)(ii) of the 2012 final rule to
remove the instruction from that
section. Instead, the instruction will be
placed on a diagram that FMVSS No.
213 presently requires to be on CRSs
under S5.5.2(l) of the standard.
S5.5.2(l)(3) requires CRSs to be labeled
with an installation diagram showing
the CRS installed in a seating position
equipped with a child restraint
anchorage system (S5.5.2(l)(3)). We are
adding a provision to S5.5.2(l)(3) to
specify that a statement about child
weight be included with the diagram.
The statement consists of a phrase,
‘‘Do not install by this method for a
child weighing more than * lb.’’ The ‘‘*’’
value is the difference between 65 lb
and the CRS weight, as discussed in the
2012 final rule. Alternatively, as
discussed in the next section, the ‘‘*’’
value may be rounded up, subject to
certain conditions.
An example of the installation
diagram with the information for the
child weight limit for lower anchor use
and for promoting tether use is shown
below in Figure 2.
The petitioners would like to
‘‘preserve the extended use of lower
anchors.’’ Ms. Baer said in
correspondence to NHTSA that ‘‘ugly
numbers—like 37 or 41 [lb]—are scary
to parents & technicians,’’ and ‘‘will
likely erode confidence in the LATCH
system.’’ Consumers Union stated its
belief that it will confuse caregivers
when ‘‘each CRS will still feature a
different maximum recommended child
weight limit, based on the differences
between the seat’s weight and the 65 lb
limit of the lower LATCH anchors.’’
Agency Response: NHTSA has
evaluated the petition and the related
correspondence and has decided to
partially grant the petition. NHTSA is
making two primary changes to the
labeling requirement.
First, we agree with the view that the
wording of the label specified in the
2012 final rule could lead consumers to
The advantage of using the diagram is
that it separates the child weight limit
for lower anchor use from all the other
information on the label in
S5.5.2(g)(1)(ii) and puts it in a location
where relevant installation information
is provided. It is also advantageous to
use diagrams over words to
communicate information. The
instruction on weight limits is concise
and clear. This change will add more
clarity regarding the child weight limits
and will also be easily available to the
caregiver installing the CRS.
Second, NHTSA concurs that the
uniquely specific weight values
provided on each CRS, based on the
difference between 65 lb and the actual
weight of the CRS, could be confusing
to some consumers. For this reason, the
agency is amending the final rule to add
some flexibility in the maximum child
weight calculation so that the label
could be rounded up to display a child
weight that is a multiple of five lb,
which will be easier for consumers to
remember, possibly less confusing to
them, and appropriate from a safety
point of view. This ‘‘rounding up’’ of
31 National Child Restraint Use Special Study,
DOT HS 811 679, https://www-nrd.nhtsa.dot.gov/
Pubs/811679.pdf.
32 The following discussion pertains to
requirements that apply only to CRSs equipped
with an internal harness to restrain the child and
with components to attach to the lower anchorages
of a child restraint anchorage system, and for which
the combined weight of the CRS and the maximum
recommended child weight for use with the internal
harness exceeds 65 lb.
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16:07 Feb 24, 2014
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requirement reduces the possibility of
field failure of lower anchorages, such
as that observed in the sled test with the
Kia Forte buck, when the combined
(child and child restraint) weight
approaches 80 lb.
Amendments To Revise the Labeling
Requirement 32
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tkelley on DSK3SPTVN1PROD with RULES
hardware. The entire bolt and nut
assembly pulled through the sheet
metal. The total measured force on the
lower anchors in this test was 14,922 N,
which is 30 percent higher than the total
lower anchor load in the earlier test
with the tether attached.
NHTSA has reviewed all the sled tests
conducted at VRTC (three child
restraints in two vehicle bucks) and has
determined that the ratio of lower
anchor loads (when the tether is not
attached) to lower anchor loads (when
the tether is attached) ranges from 1.3 to
1.6. That is, these sled test results
indicate that the loads on the lower
anchorages are 30–60 percent higher
when the tether is not used to install the
CRS than when the full child restraint
anchorage system (lower anchors+tether
anchor) are used to install the CRS.
Thus, in further answer to Diono and
others as to why we disagree with the
suggested approach to increase weights
to 80 lb, there is evidence of lower
anchor failure when the tether was not
attached at a combined weight of only
78 lb. Since we have evidence that 30
percent of forward-facing child
restraints installed using the lower
anchorages do not have the tether
attached in the real world,31 the labeling
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Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
the value is at the option of the
manufacturer.
To provide this flexibility, the agency
balanced the merits of allowing the
child weight limit to be rounded up
with the need to avoid an unreasonable
risk of potentially overloading the
anchorages. We also recognized the
need to give different accommodation
for CRSs in the forward-facing and
rearward-facing modes.
CRSs in the Forward-Facing Mode 33
NHTSA is amending the February 27,
2012 final rule to permit CRS
manufacturers some flexibility in the
calculated child weight limit for use
with child restraint anchorage systems.
We are retaining the requirement that
the CRS must specify a maximum child
weight for lower anchor use unique to
each CRS model. Under the 2012 final
rule, the maximum child weight that
must be specified on the label is less
than or equal to the difference between
65 lb and the weight of the CRS in
pounds. Under today’s final rule, that
requirement is retained, but we are also
providing manufacturers an option of
rounding the value up to the next
multiple of 5 lb. We are adding a
provision in FMVSS No. 213 that
specifies a lookup table for the
maximum child weight limit in
multiples of 5 lb for different weight
ranges (65 ¥ CRS weight (lb)) and are
providing manufacturers the option of
employing the table to round up the
child weights. See Table 1, below.
TABLE 1—FOR CRSS IN FORWARDFACING MODE
x = 65 minus CRS Weight
(lb)
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20
25
30
35
40
45
50
55
<
<
<
<
<
<
<
<
x
x
x
x
x
x
x
x
≤
≤
≤
≤
≤
≤
≤
≤
25
30
35
40
45
50
55
60
Child weight
limit on label
(lb)
...........................
...........................
...........................
...........................
...........................
...........................
...........................
...........................
25
30
35
40
45
50
55
60
We recognize that there is a
possibility that this amendment will
permit a manufacturer to indicate a
child weight limit on the label that,
when combined with the CRS weight,
the combined (child+CRS weight limit)
could marginally exceed 65 lb. For
instance, if the CRS weighed 19 lb, then
x = 65 lb minus 19 lb = 46 lb; rounding
33 Again, this requirement applies only to
forward-facing CRSs with internal harnesses for
which the combined weight of the CRS and the
maximum recommended child weight for use with
internal harness exceeds 65 lb.
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up results in a child weight limit on the
label) = 50 lb. This would lead to a
combined (CRS + child) weight = 50 lb
+ 19 lb = 69 lb. Although this combined
weight is greater to a slight degree than
65 lb, we believe this situation is
acceptable for the following reasons.
First, data indicate that vehicles are
equipped with child restraint anchorage
systems (lower anchorages plus tether
anchorage) that sufficiently surpass the
minimum strength requirement of
FMVSS No. 225 such that the
anchorages will withstand crash forces
generated by a combined (child+CRS)
weight of 70 lb. NHTSA performed
quasi-static tests on the child restraint
anchorages in eleven MY 2006–2011 34
vehicle models and 18 MY 2013 vehicle
models 35 to explore the strength of the
anchorages in the current fleet. (These
vehicles were previously crash-tested,
but NHTSA examined the vehicles to
assess the condition of the child
restraint anchorage systems to
determine the suitability of the vehicles
for inclusion in the quasi-static test
program.) The tests consisted of pulling
the lower anchorages alone at the two
outboard rear seating positions using the
Static Force Application Device 2
(SFAD 2) 36 as specified in FMVSS No.
225, using the same loading rate but to
higher loads or to anchorage failure. A
static pull test was also conducted on
the tether anchors alone in three rear
seating positions using a cable at
loading rates similar to that specified in
FMVSS No. 225, but again to higher
loads or to anchorage failure.37
Among the 11 MY 2006–2011 vehicle
models tested, 19 lower anchor sets
(comprising two lower anchor bars) and
27 tether anchors were subjected to
quasi-static loads. Of these, 14 lower
anchor sets had strengths greater or
34 Velentin-Ruiz, et al. ‘‘Quasi-static load tests to
evaluate the strength of child restraint anchorage
systems in MY 2006–2011 vehicles,’’ NHTSA
Report, December 2013. See docket for this final
rule.
35 ‘‘Quasi-static load tests to evaluate the strength
of child restraint anchorage systems in MY 2013
vehicles,’’ ALPHA Technology Associates, Inc.,
December 2013. See docket for this final rule.
36 Shown in Figure 17 and 18 of FMVSS No. 225,
‘‘Child restraint anchorage systems.’’
37 The agency had planned to test all the
anchorages to failure. However, when the SFAD 2
broke in one of the tests before the vehicle
anchorages failed, the agency decided to limit the
quasi-static load to 20 kN for the lower anchors in
the remaining tests to prevent continuously
damaging and repairing the SFAD 2. In addition,
the tether loads were limited to 10 kN to prevent
damage to the equipment. Since the tether
anchorage tests were performed after the lower
anchorage tests, and because some of the vehicle
seats experienced excessive seat damage and
deformation during the lower anchorage tests,
achieving target loads in the tether anchorage tests
was not possible in some vehicles.
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Sfmt 4700
equal to 20 kN, and all the tether
anchors had strengths greater than 10
kN. Among the 18 MY 2013 vehicle
models tested, 37 lower anchor sets and
46 tether anchors were subjected to
quasi-static loads, among which 24
lower anchor sets had strengths greater
than 20 kN and 25 tether anchors had
strengths greater than 10 kN.38
The test results are set forth in a
technical document placed in the
docket. All in all, the results indicate
that the quasi-static lower anchorage
strength in current vehicles is
significantly higher that required by
FMVSS No. 225. The lowest force that
produced lower anchor failure was 19.7
kN (2010 Kia Forte).39 Our testing
suggests that child restraint anchorage
systems as currently manufactured are
capable of withstanding the forces from
a combined weight of 70 lb in a crash.
Second, although there is no
consistent and direct correlation
between dynamic to static strength of
anchorage systems and the dynamic to
static strength ratio is vehicle specific,
data show that child restraint anchorage
systems are able to withstand higher
loads dynamically than statically. Our
test data demonstrate that the dynamic
strength of the child restraint anchorage
systems (lower anchors+tether anchor)
in our tests was greater than the 15 kN
load required by FMVSS No. 225. In the
Alliance’s petition for reconsideration of
the strength requirements of the 1999
final rule, the Alliance indicated that
the quasi-static test load of FMVSS No.
225 simulating a high-speed impact
should be approximately 50 percent of
the expected dynamic load.40 As
discussed in the 2003 final rule
responding to petitions for
reconsiderations (68 FR 38218), Toyota
determined that the tether anchorage
was able to withstand about 30 percent
greater loads dynamically than
statically. NHTSA has considered these
findings and believes that data indicate
that the child restraint anchorage system
will be able to withstand the crash
38 In some tests, even though there was no
anchorage failure, there was significant
displacement and deformation of adjoining
structures including the seat. In some cases, the
target loads could not be achieved without failure
of the anchorages because of significant
deformation of the seat structure.
39 However, some vehicles may sustain significant
rear seat movement at higher loads (such as that of
the Toyota Yaris), which may result in an increase
in the forward excursion of the CRS in a frontal
crash. This suggests that while current child
restraint anchorage designs are more robust than the
minimum required designs, they do have strength
limits and so may not be adequate for installing
heavy child restraint models with very heavy or
older children.
40 See 68 FR 38208, 38218; June 27, 2003.
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forces generated by the combined child
weight (rounded up) + CRS weight.
CRSs in the Rear-Facing Mode 41
Rear-facing CRSs typically do not
have a top tether attachment. When
FMVSS No. 225 became effective in
1999, rear-facing child restraints were
generally recommended for children
weighing up to 20 lb. Currently in the
market, there are ‘‘3-in-1’’ child
restraints that alone weigh more than 20
lb that are recommended to use rearfacing with children weighing up to 45
lb. Thus, for these CRSs, the combined
weight of CRS and the maximum weight
of child recommended for the CRS
exceeds 65 lb. Since these rear-facing
child restraints are only attached using
the lower anchorages without a tether,
the lower anchorages are subjected to
greater loads in a crash than if a similar
weight child and CRS were in the
forward-facing mode with the tether
attached.
In its correspondence sent to the
agency, the Alliance requested that
NHTSA make clear that the label
limiting the combined (child+CRS)
weight to 65 lb for lower anchor use also
must be placed on rear-facing child
restraints.
In response, we agree to reiterate that
the labeling requirement of the February
2012 final rule applies to those CRSs
using lower anchorages in the rearfacing mode. There is good reason for
the applicability to these CRSs, as the
safety need addressed by the label is
relevant to rear-facing CRSs as it is to
forward-facing CRSs. However, we
believe that the combined child+CRS
weight should not exceed 65 lb for CRSs
in the rear-facing mode under any
circumstances, unlike the potential 70
lb limit for forward-facing restraints
using the 3-point anchorage attachment
(lower anchors plus tether anchor). This
is because FMVSS No. 225 requires the
minimum strength of lower anchorages
alone to be only 11 kN (compared to the
15 kN strength of the full 3-point
anchorage system).
Accordingly, manufacturers of
covered rear-facing CRSs must specify a
maximum child weight limit for lower
anchor use. (Again, the covered CRSs
are those that are recommended for use
in the rear-facing mode, for which the
combined weight of the CRS and the
maximum recommended child weight
for the rear-facing mode exceeds 65 lb.)
We are retaining the provision that each
covered CRS must be labeled with the
41 Again,
this requirement applies only to rearfacing CRSs with internal harnesses for which the
combined weight of the CRS and the maximum
recommended child weight for use with internal
harness exceeds 65 lb.
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maximum child weight for use with the
lower anchors, which is less than or
equal to the difference between 65 lb
and the weight of the CRS in pounds.
The CRS manufacturer is to provide the
child weight on the installation diagram
specified by S5.5.2(l).
However, under today’s final rule, we
are also providing manufacturers an
alternative of using a maximum child
weight value that is a multiple of 5 lb
by way of a lookup table. This
alternative is adopted to enable
manufacturers to avoid displaying an
‘‘ugly number’’ for the child weight. We
are adding a provision in FMVSS No.
213 that specifies the lookup table for
the maximum child weight limit in
multiples of 5 lb for different weight
ranges (60 ¥ CRS weight (lb)) and are
providing manufacturers the option of
employing the table to obtain the
maximum child weight limit. The
maximum child weight limit is based on
a calculation of 60 lb minus the weight
of the CRS. We are using 60 lb rather
than 65 lb as a starting point to ensure
that the rounded value does not exceed
65 lb. This is important because for rearfacing restraints, the top tether will not
be employed so the lower anchorages
will be experiencing more crash forces
than the full child restraint anchorage
system. See Table 2, below.
TABLE 2—FOR CRSS IN REAR-FACING
MODE
x = 60 ¥ CRS weight (lb)
15
20
25
30
35
40
45
50
<
<
<
<
<
<
<
<
x
x
x
x
x
x
x
x
≤20
≤25
≤30
≤35
≤40
≤45
≤50
≤55
Child weight
limit on label
(lb)
............................
............................
............................
............................
............................
............................
............................
............................
20
25
30
35
40
45
50
55
Based on our testing experience, we
believe that a set of minimally
compliant lower anchorages (with a
quasi-static strength of 11 kN) has
sufficient dynamic strength to withstand
inertial loads from a combined weight of
65 lb in a 35 mph frontal crash.42
CRSs Used Both Rear- and ForwardFacing
For CRSs that have a rear-facing and
forward-facing mode with internal
harnesses, we prefer that the CRS
42 Since the child restraint is not tightly coupled
to the vehicle when the tether is not attached, we
are unable to determine the combined child weight
limit using Newtonian principles since the peak
acceleration of the child restraint cannot be
assumed to be that of the vehicle.
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10405
provide installation diagrams in both
modes along with a corresponding
maximum child weight limit for lower
anchor use, if such a limit is required.
However, we are not requiring
installation diagrams in both modes at
this time. If a CRS manufacturer only
provides one installation diagram and if
a child weight limit is required in only
one of the modes (rear-facing or
forward-facing), then the diagram shall
depict the installation in that particular
mode along with the corresponding
child weight limit. Alternatively, if a
child weight limit is required in both
modes and only one installation
diagram is provided, then the child
weight limit is either less than or equal
to the difference between 65 and the
CRS weight (lb) or the lesser of the child
weight limits determined by way of
Table 1 for the forward-facing mode and
Table 2 for the rear-facing mode.
The Label’s Effect on Current Weight
Recommendations
The petitioners express concern that
the 65 lb combined maximum weight
limit ‘‘will unnecessarily restrict the use
of the LATCH system and force
caregivers back to using seat belts for
anchoring forward-facing’’ child
restraints.
We do not agree that the new label
will significantly reduce the number of
CRSs that are installed with the lower
anchorages of child restraint anchorage
systems. Currently, technicians at child
seat inspection stations recommend use
of the child restraint anchorage system
for children weighing between 40–48 lb,
which corresponds to about a 6-year-old
(see Table 3, below).43 We reviewed the
weights of harness-equipped CRSs in
the market since 2008 44 to assess what
the child weight limit for lower anchor
use would be per the new labeling
43 We understand that fitting station technicians
currently use a child weight limit of 40 lb
(corresponding to the weight of a 50th percentile 5year-old child) if the child weight limit for lower
anchor use is not provided by the vehicle
manufacturer. Because most vehicle manufacturers
and CRS manufacturers have not provided a
maximum child weight limit for lower anchor use,
technicians in the field have been applying a child
weight limit of 40 lb. Thus, a 40 lb maximum child
weight for lower anchor use represents one end of
the range of current ‘‘industry’’ recommendations.
Further, the manual used by technicians indicates
that 42 percent of vehicle makes specifies a child
weight limit of 48 lb for lower anchor use. (A child
weight of 48 lb corresponds to an 85th percentile
5-year-old, 60th percentile 6-year-old, and 40th
percentile 7-year-old child by weight, according to
the 2000 CDC growth charts (see Table 3).) The 48
lb weight represents another part of the range of
current industry recommendations for lower
anchorage use.
44 All CRSs evaluated under NHTSA’s CRS Easeof-Use rating program for the years 2008–2012 were
further evaluated to determine the maximum child
weight for lower anchor use.
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Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
requirement. The detailed data are
provided in Table A3 in the appendix
to this preamble. Our review of 69
forward-facing harness-equipped CRSs
showed that only 3 percent (2/69) of
CRS models would have a child weight
limit less than 40 lb. A child weight of
40 lb corresponds to a 50th percentile 5year-old child by weight (see Table 3,
below). Twenty-nine (29) percent (20/
69) would have a child weight limit of
40 or 45 lb. Thirty-six (36) percent (25/
69) would have a child weight limit
greater or equal to 50 lb for lower
anchor use per the new labeling
requirement, which corresponds to
approximately a 40th percentile 7-yearold child, by weight. Finally, 32 percent
(22/69) would not require a label
specifying maximum child weight for
lower anchor use since the combined
CRS and maximum recommended child
weight in harness-equipped CRSs is less
than 65 lb (17 of these CRSs have a
recommended child weight of 40 lb and
for the remaining 5 CRSs it is 50 lb).
Thus, the label will expand lower
anchor use past the 48 lb child weight
limit for forty-four (44) percent of child
restraints, and only restricts
approximately 3 percent of CRS models
to a child weight limit less than 40 lb
for lower anchor use. Overall, the label
will not reduce current lower anchor
use but will provide clarity and
assurance that the anchors can be used
as the child grows, which may in fact
increase use of the anchors.
TABLE 3—5TH, 50TH, AND 95TH PERCENTILE WEIGHT AND HEIGHT OF CHILDREN BY AGE (CDC GROWTH CHARTS 2000)
Weight (lb)
Height (in)
Age
5th percentile
1
2
3
4
5
6
7
8
50th percentile
95th percentile
5th percentile
19
23
28
30
33
37
41
45
22
28
31
36
41
45
51
58
28
34
39
45
51
60
68
77
28
32
35
38
40
43
45
47
...............................................................
...............................................................
...............................................................
...............................................................
...............................................................
...............................................................
...............................................................
...............................................................
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The agency found no infant carriers
for which the combined CRS+child
weight (CRS weight + maximum child
weight recommended for infant seat)
exceeded 65 lb; therefore, no infant
carrier will currently need the label.
Among 46 CRS convertible and 3-in1 models which can be used in rearfacing mode, only 4 CRS models (8.7
percent) had a combined child+CRS
weight (maximum child weight + CRS
weight recommended for rear-facing
mode) in excess of 65 lb, which requires
a label specifying the maximum child
weight for lower anchor use (See Table
A3 in the Appendix to this preamble).
Among these 4 CRSs, one CRS weighs
33.8 lb with a recommended child
weight in rear-facing mode of 40 lb, and
the remaining 3 CRSs weighed between
22.3–25.8 lb with a recommended child
weight in rear-facing mode of 45 lb.45 It
is unlikely that these CRSs will be used
in rear-facing mode to the maximum
recommended child weight of 40–45 lb
since, as discussed in the next section,
the child may get too tall to sit
comfortably rear-facing or may exceed
the height requirement before the
weight limit is reached.
Permitting the calculated child weight
limit to be a multiple of 5 lb will result
in values that will be easier for the
consumer to understand. The agency
will incorporate this label in education
material so that consumers are aware
that there is a maximum child weight
limit for lower anchor use and to look
for this information on the CRS.
45 For reference, a 50th percentile 5 year-old
weighs about 40 lb and a 50th percentile 6 year-old
weighs 45 lb.
46 NCRUSS is a large-scale nationallyrepresentative survey that contains both an
inspection of the child passenger’s restraint system
(or lack thereof) by a certified Child Passenger
Safety Technician (CPST) and a detailed interview
of the driver conducted by a highly trained
investigation specialist.46 The survey collected
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50 percentile
95 percentile
30
35
38
40
43
46
48
51
32
37
40
43
46
49
52
55
Practical Implications
Field data show that harnessequipped CRSs are not now being
widely used by consumers for children
weighing more than 50 lb. The agency
analyzed data from the National Child
Restraint Use Special Study
(NCRUSS) 46 to examine this issue. The
survey data show that among children
restrained in forward-facing harnessequipped CRSs (for both seat belt and
lower anchor installation), 92.3 percent
of the children weighed 40 lb or less, 5.9
percent weighed 41 to 50 lb, and only
1.5 percent weighed more than 50 lb
(see Figure 3). Data suggest that children
are outgrowing CRSs by height rather
than by weight.
information on drivers and their child passengers
0–8 years old between June and August 2011.
National Child Restraint Use Special study, DOT
HS 811 679, https://www-nrd.nhtsa.dot.gov/Pubs/
811679.pdf.
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or less, 13.2 percent weighed 26 to 30
lb, 3.2 percent weighed 30 to 35 lb
(corresponding to a 50th percentile 4year-old or 75th percentile 3-year-old),
and 0.2 percent weighed more than 35
lb. The NCRUSS survey also show that
85.1 percent of children in rear-facing
infant seats weighed 25 lb
(corresponding to a 50th percentile 18
month old) or less, 13.9 percent
weighed 26 to 30 lb,47 and 1 percent
weighed more than 30 lb (see Figure 4).
The NCRUSS survey show that children
weighing more than 35 lb are almost
never restrained in rear-facing child
restraints.
47 A 30 lb child corresponds to a 50th percentile
3-year-old.
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Since rear-facing harness-equipped
CRSs are now designed for older/
heavier children, the agency also used
the NCRUSS survey to explore how
these CRSs are used in the field. The
NCRUSS survey show that 83.4 percent
of children in rear-facing convertible or
all-in-one seats (both of which are
equipped with harnesses) weighed 25 lb
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Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
recent field data 49 shows that most
children graduate to booster seats when
they reach approximately 40 lb, which
corresponds to a 95th percentile 3-yearold or a 50th percentile 5-year-old.
Thus, it appears unlikely that the label
will ‘‘force caregivers back to using seat
belts for anchoring forward-facing’’
CRSs since many children do not now
use harness-equipped CRSs when they
reach 40 lb in weight.
The arguments that new seat belt
designs are incompatible with CRS
installation are speculative. Views are
evolving regarding the compatibility of
new belt designs, such as inflatable seat
belts, with CRS installation. For
instance, Britax initially recommended
against CRS installation using inflatable
belts, but has changed its mind and now
permits CRS installations with the belts.
We do not have reason to believe that
seat belts with advanced technologies
cannot be designed to install CRSs. We
also note that SAE J1819 is undergoing
revisions to improve compatibility of
seat belts and child restraint anchorages
with CRSs.50 It would be premature for
NHTSA to conclude that changes in seat
belt design render installation of CRSs
by seat belts unfeasible.
Regarding Dorel’s statement, NHTSA
believes that the statement is not
germane to the issue of the design limits
of child restraint anchorage systems. If
the anchorages are used in a manner
that results in material failure because
the design limits of the anchorage
system were exceeded, the child
passenger is at risk regardless of the
relative ease of using child restraint
anchorage systems or the tightness of
the installation of CRSs on the
anchorages.
48 It does not make sense to us that we should
suspend the label because parents might not
remember to switch to the seat belt during the
course of a CRS’s use, as suggested by JPMA. It
seems to us that it makes more sense to try to
instruct consumers of the design limits of child
restraint anchorage systems so that they may be
informed to correctly use of the systems, than to
forgo informing them about the 65 lb limit because
it is presumed that the consumer is unlikely to
switch to the seat belt at the appropriate time.
49 NCRUSS, DOT HS 811 679, https://wwwnrd.nhtsa.dot.gov/Pubs/811679.pdf.
50 Society of Automotive Engineers (SAE) J1819,
‘‘Securing Child Restraint Systems in Motor
Vehicles.’’ This SAE recommended practice is
meant to promote compatibility between child
restraint systems and vehicle seats and seat belts.
The recommended practice provides design
guidelines to vehicle manufacturers for certain
characteristics of seats and seat belts, and to CRS
manufacturers for corresponding CRS features so
The petitioners believe that NHTSA
should require vehicle manufacturers to
increase the strength of child restraint
anchorage systems to accommodate a
higher combined weight. This issue is
out of scope of this rulemaking.
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Tether Anchorages
The petitioners also state that their
intent in petitioning for reconsideration
of the rule was to ‘‘minimize the
likelihood that vehicle manufacturers
will apply the same formula’’ to tether
anchorages. Issues relating to weight
limits for the top tether anchorage are
out of scope of this rulemaking.
Increasing the Strength of the
Anchorage System
that each can be made more compatible with the
other. https://standards.sae.org/wip/j1819/.
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Using Seat Belts
The petitioners state that ‘‘the
decision to adopt 65 pounds as the
combined maximum weight . . . will
unnecessarily restrict the use of the
LATCH system and force caregivers
back to using seat belts for anchoring
forward-facing [CRSs].’’ JPMA states
that CRSs might not achieve a tight fit
with a seat belt or may be too difficult
to install with a seat belt and that
parents might not know to switch to the
seat belt during the several-year course
of a CRS’s use. Dorel states that child
restraint anchorage systems are easier to
use and have a higher rate of correct
installation than seat belts, so an
installation by the former is safer than
a belt installation.
Agency Response: These arguments
are speculative and unsupported. Field
data show a high percentage of children
weighing over 40 lb restrained in
forward-facing CRSs installed with seat
belts, i.e., consumers are now attaching
CRSs with seat belts at a high rate. The
consumers will not be ‘‘forced back’’ to
doing something different.48 Moreover,
Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
b. Other Issues
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Head Excursion
Graco requests that the 10YO test
dummy only be used to test CRSs when
the dummy fits in the seat as per the
manufacturer’s recommended usage.
Graco states that it produces a harnessequipped CRS recommended for a 70 lb
child, but limits the recommended
seated height of the child occupant and
limits the head height relative to the
seat. Graco asks that the 10YO dummy
not be used to evaluate performance of
the CRS if the dummy exceeds the
recommended limits on seating height.
Graco believes that in the real world, the
seat would not be used with a child of
this stature, and as a result, the 10YO
dummy may give inaccurate readings.
Alternatively, Graco suggests that the
dummy be used to evaluate CRSs to
assess structural integrity, chest
resultant, and knee excursion limits but
not the head excursion requirement.
Graco states that the head excursion
measurement resulting from the use of
the 10YO dummy would not represent
the real world due to the dummy being
significantly taller than the
recommended child occupant.
Agency Response
The agency is denying Graco’s
request. It is not in the public interest
to exclude testing those CRSs
recommended for children of a weight
range represented by the 10YO dummy
but whose height may be lower than
that of the dummy.
The agency indirectly addressed this
issue in the rulemaking. In the 2008
SNPRM (73 FR 3908), we had
considered whether FMVSS No. 213
should expressly require that each CRS
be capable of fitting the test dummy that
is specified in S7 of the standard to
evaluate the CRS. The agency only
received comments from JPMA, which
stated that child restraints are designed
to accommodate the dummies with
which they will be tested and that an
explicit ‘‘fit’’ requirement is not
required. After reviewing the comment,
the agency decided not to pursue a fit
requirement, assuming it was not
needed because manufacturers already
ensure that CRSs accommodate/fit the
appropriate child dummies.
Graco is now indicating that a CRS it
has produced is recommended for
children represented by the 10YO
dummy weight-wise, but does not fit the
dummy height-wise. We do not believe
it would be in the interest of safety to
exclude the CRS from testing with the
10YO dummy, or exclude the CRS from
a performance requirement, because the
CRS does not actually fit the dummy.
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We believe that a better approach would
be to subject the CRS to testing with the
dummy if the manufacturer
recommends the CRS for use with
children represented by the dummy, as
designated by S7 of FMVSS No. 213.
We have not been provided with any
compelling information to exclude
Graco’s CRS from testing with the
dummy. Graco has the option to lower
the child weight recommendation of the
CRS in question from 70 lb to 65 lb to
avoid testing with the dummy, or it
could continue to market the CRS for
children over 65 lb and ensure that the
CRS meets the FMVSS No. 213
requirements when tested with the
10YO (such as by redesigning the CRS
to have a harness slot that can properly
accommodate the 10YO dummy and/or
making any structural changes needed
to ensure integrity and performance
using this dummy).
Weights of the Anthropomorphic Test
Devices
The February 2012 final rule adopted
a provision (S5(f)) that basically
excludes CRSs equipped with an
internal harness from FMVSS No. 213
while attached to the lower anchors of
the child restraint anchorage system
under certain circumstances. The
circumstances are: The test dummy
used to test the CRS is of a weight such
that the dummy’s weight plus the CRS
weight exceeds 65 lb. In a March 29,
2012 letter on this provision, Graco
states that:
[T]esting will be required with LATCH if
the combined ATD and CRS weight is under
the 65 lb limit. Therefore, the weight of the
ATD will be important in determining what
testing is required for any CRS. Since ATD
weights vary and the addition of clothing,
shoes, and instrumentation can add
significant weight to the ATD, . . . [NHTSA
should] publish a list of the useful weight for
each ATD to be used for testing.
In response, NHTSA agrees that the
provision in the 2012 final rule implies
a need for information on the test
dummy weights. However, as Graco
notes, the test dummy weights vary, and
the addition of clothing, shoes, and
instrumentation (the weights for which
are not specified in NHTSA’s
regulations) can affect the ‘‘weight’’ of
the test dummy and add undue
uncertainty to the test provisions of the
standard. Uncertainty results from
variability in the weight of the dummy
due to variances in the clothing, shoes,
and instrumentation used with a
particular dummy. We conclude that, to
avoid this uncertainty, S5(f) should be
slightly revised to move from a
reference of ‘‘a test dummy of a weight’’
to ‘‘the average weight of the child
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10409
represented by the test dummy.’’ The
average weight of the child represented
by the dummy can be specified in
FMVSS No. 213—which NHTSA is
specifying in this final rule 51—and is
not subject to the same degree of
variation as the ‘‘test dummy of a
weight’’ provision. Thus, we will
reword S5(f) to exclude from lower
anchor testing CRSs tested with a
dummy that results in the combined
weight of the CRS and the average
weight of child represented by the test
dummy (shown in a table in the
standard) to exceed 65 pounds in the
forward-facing mode and 65 pounds in
the rear-facing mode.52
Using the average child weight
represented by the test dummy
eliminates the variability of dummy
weights due to differences in
instrumentation and clothing. The
average child weights are within the
weight range for dummy selection
specified in S7.1.2 and so would not
change the method of testing CRSs. In
addition, using the average child weight
in the referenced table ensures that the
child restraint system is tested using
lower anchors with the test dummy
closest to the maximum child weight
limit on the label for lower anchor use.
An example illustrating this is as
follows. If a CRS weighing 19 lb has a
label specifying 50 lb as the maximum
child weight for lower anchor use, this
CRS will be tested using the lower
anchors with the Hybrid III 6-year-old
dummy. The average weight of the child
represented by this test dummy is 45 lb.
V. Rulemaking Analyses and Notices
Executive Order (E.O.) 12866, E.O.
13563 and DOT Regulatory Policies and
Procedures
The agency has considered the impact
of this regulatory action under E.O.
12866 and E.O. 13563 and the
Department of Transportation’s (DOT’s)
regulatory policies and procedures. This
rulemaking action was not reviewed by
the Office of Management and Budget
under E.O. 12866. This rulemaking is
also not significant under DOT’s
regulatory policies and procedures (44
FR 11034, February 26, 1979).
This response to a petition for
reconsideration mostly denies the
petition. The few changes that are being
made are minor, mostly to clarify a
labeling requirement and to provide
51 The average weight of child represented by the
various test dummies in the table is obtained from
the Centers for Disease Control (CDC) 2000 Growth
Charts.
52 Such a child restraint must meet the standard
when tested using its internal harnesses to restrain
such a test dummy while attached to the standard
seat assembly using the belt system.
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flexibility to CRS manufacturers
regarding the wording of the label. We
estimate that today’s final rule has no
effect on the estimated costs and
benefits and other economic impacts of
the February 27, 2012 final rule.
Regulatory Flexibility Act
The Regulatory Flexibility Act of
1980, as amended, requires agencies to
evaluate the potential effects of their
proposed and final rules on small
businesses, small organizations and
small governmental jurisdictions. I
hereby certify that this final rule will
not have a significant economic impact
on a substantial number of small
entities. Small organizations and small
governmental units will not be
significantly affected since the potential
cost impacts associated with this final
rule will not significantly affect the
price of child restraints.
This final rule denies most of the
petition for reconsideration of the
February 2012 final rule. To the extent
we are amending the original final rule,
the amendments are minor, mostly to
clarify a labeling requirement, and
adequate lead time is provided. The cost
of revising the label is minimal.
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National Environmental Policy Act
NHTSA has analyzed this rulemaking
action for the purposes of the National
Environmental Policy Act. The agency
has determined that implementation of
this action would not have any
significant impact on the quality of the
human environment.
Executive Order 13132 (Federalism)
NHTSA has examined this final rule
pursuant to Executive Order 13132 (64
FR 43255, August 10, 1999) and
concluded that no additional
consultation with States, local
governments or their representatives is
mandated beyond the rulemaking
process. The agency has concluded that
the rulemaking would not have
sufficient federalism implications to
warrant consultation with State and
local officials or the preparation of a
federalism summary impact statement.
The final rule would not have
‘‘substantial direct effects on the States,
on the relationship between the national
government and the States, or on the
distribution of power and
responsibilities among the various
levels of government.’’
NHTSA rules can preempt in two
ways. First, the National Traffic and
Motor Vehicle Safety Act contains an
express preemption provision: When a
motor vehicle safety standard is in effect
under this chapter, a State or a political
subdivision of a State may prescribe or
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continue in effect a standard applicable
to the same aspect of performance of a
motor vehicle or motor vehicle
equipment only if the standard is
identical to the standard prescribed
under this chapter. 49 U.S.C.
30103(b)(1). It is this statutory command
by Congress that preempts any nonidentical State legislative and
administrative law addressing the same
aspect of performance.
The express preemption provision
described above is subject to a savings
clause under which ‘‘[c]ompliance with
a motor vehicle safety standard
prescribed under this chapter does not
exempt a person from liability at
common law.’’ 49 U.S.C. 30103(e)
Pursuant to this provision, State
common law tort causes of action
against motor vehicle or equipment
manufacturers that might otherwise be
preempted by the express preemption
provision are generally preserved.
However, the Supreme Court has
recognized the possibility, in some
instances, of implied preemption of
such State common law tort causes of
action by virtue of NHTSA’s rules, even
if not expressly preempted. This second
way that NHTSA rules can preempt is
dependent upon there being an actual
conflict between an FMVSS and the
higher standard that would effectively
be imposed on motor vehicle or
equipment manufacturers if someone
obtained a State common law tort
judgment against the manufacturer,
notwithstanding the manufacturer’s
compliance with the NHTSA standard.
Because most NHTSA standards
established by an FMVSS are minimum
standards, a State common law tort
cause of action that seeks to impose a
higher standard on motor vehicle or
equipment manufacturers will generally
not be preempted. However, if and
when such a conflict does exist—for
example, when the standard at issue is
both a minimum and a maximum
standard—the State common law tort
cause of action is impliedly preempted.
See Geier v. American Honda Motor Co.,
529 U.S. 861 (2000).
Pursuant to Executive Order 13132
and 12988, NHTSA has considered
whether this rule could or should
preempt State common law causes of
action. The agency’s ability to announce
its conclusion regarding the preemptive
effect of one of its rules reduces the
likelihood that preemption will be an
issue in any subsequent tort litigation.
To this end, the agency has examined
the nature (e.g., the language and
structure of the regulatory text) and
objectives of this rule and finds that this
rule, like many NHTSA rules, prescribes
only a minimum safety standard. As
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such, NHTSA does not intend that this
rule preempt state tort law that would
effectively impose a higher standard on
motor vehicle or equipment
manufacturers than that established by
this rule. Establishment of a higher
standard by means of State tort law
would not conflict with the minimum
standard announced here. Without any
conflict, there could not be any implied
preemption of a State common law tort
cause of action.
Executive Order 12988 (Civil Justice
Reform)
With respect to the review of the
promulgation of a new regulation,
section 3(b) of Executive Order 12988,
‘‘Civil Justice Reform’’ (61 FR 4729,
February 7, 1996) requires that
Executive agencies make every
reasonable effort to ensure that the
regulation: (1) Clearly specifies the
preemptive effect; (2) clearly specifies
the effect on existing Federal law or
regulation; (3) provides a clear legal
standard for affected conduct, while
promoting simplification and burden
reduction; (4) clearly specifies the
retroactive effect, if any; (5) adequately
defines key terms; and (6) addresses
other important issues affecting clarity
and general draftsmanship under any
guidelines issued by the Attorney
General. This document is consistent
with that requirement.
Pursuant to this Order, NHTSA notes
as follows. The preemptive effect of this
rule is discussed above. NHTSA notes
further that there is no requirement that
individuals submit a petition for
reconsideration or pursue other
administrative proceeding before they
may file suit in court.
Paperwork Reduction Act
NHTSA has provided a 60-day
comment period (77 FR at 11645) and a
30-day comment period (78 FR at
77554) on the collection of information
requirement in the previous final rule.53
The agency asked for public comments
on a collection of information titled,
‘‘Consolidated Child Restraint System
Registration, Labeling and Defect
Notifications.’’ OMB Control Number:
2127–0576. The requested expiration
date of approval is 3 years from the
approval date. We requested approval of
a revision to a currently approved
collection, and for revising an existing
label and adding a sentence to the
printed instructions of certain child
restraint systems (CRSs with internal
harnesses for which the combined
53 Under the Paperwork Reduction Act of 1995, a
person is not required to respond to a collection of
information by a Federal agency unless the
collection displays a valid OMB control number.
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weight of the CRS and the maximum
recommended child weight for use with
internal harness exceeds 65 lb). The
added sentences will inform the
consumer that the lower anchors of a
child restraint anchorage system may be
used up to a combined weight of child
and harnessed-child restraint of 65 lb.
The purpose of this label is to reduce
consumer confusion about using the
lower anchors and to reduce the risk
that the lower anchors will be used in
a way that is beyond the design
limitations of the anchorage system.
National Technology Transfer and
Advancement Act
Section 12(d) of the National
Technology Transfer and Advancement
Act of 1995 (NTTAA), Public Law 104–
113, section 12(d) (15 U.S.C. 272)
directs NHTSA to use voluntary
consensus standards in its regulatory
activities unless doing so would be
inconsistent with applicable law or
otherwise impractical. Voluntary
consensus standards are technical
standards (e.g., materials specifications,
test methods, sampling procedures, and
business practices) that are developed or
adopted by voluntary consensus
standards bodies, such as the Society of
Automotive Engineers (SAE). The
NTTAA directs the agency to provide
Congress, through the OMB,
explanations when we decide not to use
available and applicable voluntary
consensus standards.
NHTSA has reviewed available
information and has determined that
there are no voluntary consensus
standards relevant to this rulemaking.
tkelley on DSK3SPTVN1PROD with RULES
Unfunded Mandates Reform Act
Section 202 of the Unfunded
Mandates Reform Act of 1995 (UMRA)
requires Federal agencies to prepare a
written assessment of the costs, benefits,
and other effects of proposed or final
rules that include a Federal mandate
likely to result in the expenditure by
State, local or tribal governments, in the
aggregate, or by the private sector, of
more than $100 million in any one year
(adjusted for inflation with base year of
1995). This final rule would not result
in the expenditure by State, local, or
tribal governments, in the aggregate, or
by the private sector of more than $100
million annually.
Executive Order 13045
Executive Order 13045 (62 FR 19885,
April 23, 1997) applies to any rule that:
(1) Is determined to be ‘‘economically
significant’’ as defined under E.O.
12866, and (2) concerns an
environmental, health, or safety risk that
NHTSA has reason to believe may have
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a disproportionate effect on children.
This rulemaking is not subject to the
Executive Order because it is not
economically significant as defined in
E.O. 12866.
Executive Order 13211
Executive Order 13211 (66 FR 28355,
May 18, 2001) applies to any
rulemaking that: (1) Is determined to be
economically significant as defined
under E.O. 12866, and is likely to have
a significantly adverse effect on the
supply of, distribution of, or use of
energy; or (2) that is designated by the
Administrator of the Office of
Information and Regulatory Affairs as a
significant energy action. This
rulemaking is not subject to E.O. 13211.
Plain Language
The Plain Language Writing Act of
2010 (P. L. 111–274) and Executive
Order 12866 require each agency to
write all rules in plain language.
Application of the principles of plain
language includes consideration of the
following questions:
—Have we organized the material to
suit the public’s needs?
—Are the requirements in the rule
clearly stated?
—Does the rule contain technical
language or jargon that is not clear?
—Would a different format (grouping
and order of sections, use of headings,
paragraphing) make the rule easier to
understand?
—Would more (but shorter) sections
be better?
—Could we improve clarity by adding
tables, lists, or diagrams?
—What else could we do to make this
rulemaking easier to understand?
If you have any responses to these
questions, please send them to NHTSA
at the ADDRESSES section in the heading
of this final rule.
Regulation Identifier Number (RIN)
The Department of Transportation
assigns a regulation identifier number
(RIN) to each regulatory action listed in
the Unified Agenda of Federal
Regulations. The Regulatory Information
Service Center publishes the Unified
Agenda in April and October of each
year. You may use the RIN contained in
the heading at the beginning of this
document to find this action in the
Unified Agenda.
Privacy Act
Anyone is able to search the
electronic form of all material received
into any of our dockets, including
petitions for reconsideration of this rule
(a copy of which will be placed in the
docket), by the name of the individual
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submitting the comment (or signing the
comment, if submitted on behalf of an
association, business, labor union, etc.).
You may review DOT’s complete
Privacy Act Statement in the Federal
Register published on April 11, 2000
(65 FR 19477 at 19478).
List of Subjects in 49 CFR Part 571
Labeling, Motor vehicle safety,
Reporting and recordkeeping
requirements, Tires.
In consideration of the foregoing,
NHTSA amends 49 CFR part 571 as
follows:
PART 571—FEDERAL MOTOR
VEHICLE SAFETY STANDARDS
1. The authority citation for part 571
continues to read as follows:
■
Authority: 49 U.S.C. 322, 30111, 30115,
30117 and 30166; delegation of authority at
49 CFR 1.95.
2. Section 571.213 is amended by
revising S5(f), S5.5.2(g)(1)(ii),
S5.5.2(l)(3), and S5.6.1.12, to read as
follows:
■
§ 571.213
systems.
Standard No. 213: Child restraint
*
*
*
*
*
S5 * * *
(f) Each child restraint system that is
equipped with an internal harness or
other internal components to restrain
the child need not meet this standard
when attached to the lower anchors of
the child restraint anchorage system on
the standard seat assembly if the sum of
the weight of the child restraint system
(in pounds) and the average weight of
child represented by the test dummy
used to test the child restraint in
accordance with S7 of this standard,
shown in the table below, exceeds 65
pounds. Such a child restraint must
meet this standard when tested using its
internal harness or components to
restrain such a test dummy while
installed using the standard seat belt
assembly specified in S5.3.2 of this
standard.
TABLE TO S5(F)—AVERAGE WEIGHT
OF CHILD REPRESENTED BY VARIOUS TEST DUMMIES
Test dummy
(specified in S7 of this
standard)
CRABI 12-month-old infant
dummy (49 CFR Part 572,
Subpart R) .........................
Hybrid III 3-year-old dummy
(49 CFR Part 572, Subpart
P) .......................................
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Average
weight of child
represented by
test dummy
(pounds)
22
31
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TABLE TO S5(F)—AVERAGE WEIGHT anchorage system according to S5.3.2,
OF CHILD REPRESENTED BY VAR- and if the sum of the weight of the child
restraint and the maximum child weight
IOUS TEST DUMMIES—Continued
recommended for the child restraint
when used with the restraint’s internal
Test dummy
harness or components is greater than
(specified in S7 of this
65 lb when used forward-facing or rearstandard)
facing, include the following statement
on this installation diagram: ‘‘Do not
install by this method for a child
Hybrid III 6-year-old dummy
weighing more than *.’’ At the
49 CFR Part 572, Subpart
N) ......................................
45 manufacturer’s option, ‘‘*’’ is the child
Hybrid III 6-year-old weightweight limit in English units in
ed child test dummy (49
accordance with S5.5.2(l)(3)(A)(i), (ii),
CFR Part 572 Subpart S)
62 or (iii). The corresponding child weight
Hybrid II 6-year-old dummy
limit in metric units may also be
(49, CFR Part 572, Subpart I) .................................
45 included in the statement at the
manufacturer’s option.
(A) For forward-facing and rear-facing
*
*
*
*
*
child restraints, * is less than or equal
S5.5.2 * * *
to 65 minus child restraint weight
(g) * * *
(pounds).
(1) * * *
(ii) Secure this child restraint with the
(B) For forward-facing child restraints,
vehicle’s child restraint anchorage
* is the child weight limit specified in
system, if available, or with a vehicle
the following table corresponding to the
belt. [For car beds, harnesses, and belt
value CW, calculated as 65 minus child
positioning seats, the first part of the
restraint weight (pounds).
statement regarding attachment by the
child restraint anchorage system is
TABLE TO S5.5.2(L)(3)(I)(B)—MAXoptional.] [For belt-positioning seats, the
IMUM CHILD WEIGHT LIMIT FOR
second part of the statement regarding
LOWER ANCHOR USE FOR FORattachment by the vehicle belt does not
WARD-FACING
CHILD RESTRAINT
apply.] [For child restraints
SYSTEM—ROUNDING
manufactured from February 27, 2014 to
February 26, 2015, the following
Child weight
CW = 65—child restaint
statement applies.] Child restraint
limit ‘‘*’’
weight (pounds)
(pounds)
systems equipped with internal
harnesses to restrain the child and with
25
components to attach to a child restraint 20 < CW ≤ 25 .......................
25 < CW ≤ 30 .......................
30
anchorage system and for which the
30 < CW ≤ 35 .......................
35
combined weight of the child restraint
35 < CW ≤ 40 .......................
40
system and the maximum recommended 40 < CW ≤ 45 .......................
45
child weight for use with internal
45 < CW ≤ 50 .......................
50
harnesses exceeds 65 pounds, must be
50 < CW ≤ 55 .......................
55
55 < CW ≤ 60 .......................
60
labeled with the following statement:
‘‘Do not use the lower anchors of the
child restraint anchorage system
(C) For rear-facing child restraints, *
(LATCH system) to attach this child
is the child weight limit specified in the
restraint when restraining a child
following table corresponding to the
weighing more than * [*insert a
value CW, calculated as 60 minus child
recommended weight value in English
restraint weight (pounds).
and metric units such that the sum of
the recommended weight value and the
TABLE TO S5.5.2(L)(3)(I)(C)—MAXweight of the child restraint system does
IMUM CHILD WEIGHT LIMIT FOR
not exceed 65 pounds (29.5 kg)] with
LOWER ANCHOR USE FOR REARthe internal harnesses of the child
FACING CHILD RESTRAINT SYSTEM—
restraint.’’
ROUNDING
*
*
*
*
*
(l) * * *
Child weight
CW = 60—child restraint
limit ‘‘*’’
(3) A seating position equipped with
weight (pounds)
(pounds)
a child restraint anchorage system. For
child restraint systems manufactured on
15 < CW ≤ 20 .......................
20
or after February 27, 2015, the following 20 < CW ≤ 25 .......................
25
paragraphs (l)(3)(i) and (ii) apply, as
25 < CW ≤ 30 .......................
30
appropriate.
30 < CW ≤ 35 .......................
35
(i) If the child restraint is designed to
35 < CW ≤ 40 .......................
40
meet the requirements of this standard
40 < CW ≤ 45 .......................
45
45 < CW ≤ 50 .......................
50
when installed by the child restraint
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Average
weight of child
represented by
test dummy
(pounds)
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TABLE TO S5.5.2(L)(3)(I)(C)—MAXIMUM CHILD WEIGHT LIMIT FOR
LOWER ANCHOR USE FOR REARFACING CHILD RESTRAINT SYSTEM—
ROUNDING—Continued
CW = 60—child restraint
weight (pounds)
50 < CW ≤ 55 .......................
Child weight
limit ‘‘*’’
(pounds)
55
(ii) For child restraints designed to
meet the requirements of this standard
when installed forward-facing and rearfacing by the child restraint anchorage
system according to S5.3.2, the
following applies:
(A) If separate installation diagrams
are provided for the child restraint
installed forward-facing and rear-facing,
S5.5.2(l)(3)(i) applies to each of the
installation diagrams.
(B) If only one installation diagram is
provided and if a statement specifying
a child weight limit is required in only
rear-facing or forward-facing mode
pursuant to S5.5.2(l)(3)(i), then the
diagram shall depict installation in that
mode along with the corresponding
child weight limit in accordance with
S5.5.2(l)(3)(i).
(C) If a statement specifying a child
weight limit is required for the child
restraint installed forward-facing and
rear-facing pursuant to S5.5.2(l)(3)(i)
and only one installation diagram is
provided, then the child weight limit
shall be in accordance with
S5.5.2(l)(3)(i)(A) or the lesser of the
child weight limits described in
S5.5.2(l)(3)(i)(B) and (C).
*
*
*
*
*
S5.6.1.12(a) Child restraint systems
manufactured from February 27, 2014 to
February 26, 2015. The instructions for
child restraint systems equipped with
an internal harness to restrain the child
and with components to attach to a
child restraint anchorage system, and
for which the combined weight of the
child restraint system and the maximum
recommended child weight for use with
the internal harness exceeds 65 pounds,
must include the following statement:
‘‘Do not use the lower anchors of the
child restraint anchorage system
(LATCH system) to attach this child
restraint when restraining a child
weighing more than ‘‘*’’ [*insert a
recommended weight value in English
and metric units such that the sum of
the recommended weight value and the
weight of the child restraint system does
not exceed 65 pounds (29.5 kg)] with
the internal harness of the child
restraint.’’
(b) Child restraint systems
manufactured on or after February 27,
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2015. If the child restraint is designed
to meet the requirements of this
standard when installed by the child
restraint anchorage system according to
S5.3.2, the installation diagram showing
the child restraint system installed
using a child restraint anchorage system
must meet the specifications in
S5.5.2(l)(3).
*
*
*
*
*
Issued on: February 14, 2014.
David J. Friedman,
Acting Administrator.
Note: The following Appendix will not
appear in the Code of Federal Regulations:
BILLING CODE 4910–59–P
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Tests with the HIII-6 Year Old Dummy (51Ib)1
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Number
MY
MakelModel
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E:\FR\FM\25FER1.SGM
25FER1
TC09-215
TC09-215
TC09-139
TC09-247
TC 10-20 I
2009 PontiacNibe
2009 PontiacNibe
2009 Nissan/MURANO
2010 PontiaclMontana
2010 KiaIFORTE
TC09-143
2009
PontiacNibe
TCIO-208
2010
Ford/FOCUS
TC09-236
2010
Suzuki/Swift
TC09-229
TC09-140
TC09-242
TC09-258
TC09-236
TCIO-204
2010 Ford/FOCUS
2009 Pontiac/G3Wave
2010 HyundailEntourage
2010 NissaniCUBE
2010 Suzuki/Swift
2010 MazdaIMAZDA 3
CRS Model
Cosco Ventura
Evenflo Traditions
Evenflo Traditions
Safety 1st Apex65
Safety 1st Apex65
Safety I st Alpha
Omega
Safety I st Alpha
Omega
Safety Ixt Complete
Air
Safety I st Complete
Air
Evenflo Titan Elite
Graco MyRide65
Graco MyRide65
Graco MyRide65
Graco MyRide65
Lower
Anchor
Average
Load
[N]
Total
Anchor
Loads
(N)
Calculated
Loads
with
Combined
Weight
Using 5lb
Dummy
11,270
13,301
11,462
7,557
15,240
13,020
13,208
16,249
8,404
12,947
Combined
Weight
(with 51
Ib 6YO)
Test
Speed
(km/h)
Vehicle
Peak
Acce1.
[G'sf
Tether
Load
[N]
62.4
63.3
63.3
63.8
63.8
47.0
47.0
47.0
47.0
56.0
46.9
46.9
57.7
29.6
45.6
2,544
3,460
1,773
1,093
5,627
4,363
4,920
4,845
3,232
4,806
42.4
3,277
5,180
13,637
12,304
62.1
5,546
4,237
14,020
18,021
48.4
4,220
3,759
11,738
14,052
52.5
40.6
39.0
45.9
48.4
67.5
5,186
3,905
1,029
1,074
4,312
6,258
4,040
3,137
5,048
4,734
3,792
3,833
13,266
10,179
11,124
10,542
11,895
13,924
15,242
11,921
11,562
13,608
14,349
20,012
65.2
65.2
65.3
65.3
66.0
66.6
66.6
66.6
66.6
47.0
55.5
54.5
55.5
47.0
47.0
56.0
54.5
56.0
Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
16:07 Feb 24, 2014
ER25FE14.004</GPH>
Table Al(a). Peak Measured and Computed Lower Anchor and Tether Anchor Loads in
30-35 moh Frontal Vehicle Crash Tests into a Fixed Rh!id B .
tkelley on DSK3SPTVN1PROD with RULES
VerDate Mar<15>2010
-
-------
-
--------
Jkt 232001
PO 00000
Frm 00085
Fmt 4700
MY
MakelModel
TC09-239
TC09-245
2010
2010
Hyundai/ELANTRA
Toyota/COROLLA
TC09-247
2010
PontiaclMontana
TC09-213
TC09-211
TC09-136
2009
2009
Pontiac/G3Wave
Sfmt 4725
2009
2010
2009
2010
MazdaIMAZDA6
MazdaIMAZDA6
HyundailELANTRA
E:\FR\FM\25FER1.SGM
25FER1
TC09-239
TC09-213
TC09-229
TC09-145
2009
Pontiac/G3Wave
Ford/FOCUS
ToyotaiMatrix
TC09-140
2009
Pontiac/G3Wave
TC09-143
TC09-255
2009
2010
PontiacNibe
Kia/SPORTAGE
TC1O-204
2010
MazdaIMAZDA 3
1
CRS Model
Britax Marathon
Britax Marathon
Learning Curve True
Fit
Learning Curve True
Fit
Evenflo Triumph
Evenflo Triumph
Evenflo Triumph
Graco Nautilus
Graco Nautilus
Graco Nautilus
Eddie Bauer Delux 3in-l
Cosco Alpha Omega
Elite
Combined
Weight
(with 51
lb 6YO)
Test
Speed
(km/h)
67.2
67.2
56.0
56.0
68.1
68.1
69.7
69.7
69.7
70.4
70.4
70.4
70.8
71.0
56.0
47.0
47.0
47.0
56.0
47.0
55.5
47.0
47.0
47.0
Vehicle
Peak
Accel.
[G'sf
44.1
Tether
Load
[N]
5,123
Total
Anchor
Loads
(N)
Calculated
Loads
with
Combined
Weight
Using 5lb
Dummy
13,190
16,121
53.9
4,628
5,163
6,710
14,875
18,582
29.6
677
3,972
8,621
8,961
37.4
3,592
6,006
5,777
2,981
3,031
3,693
3,291
2,974
4,470
4,256
6,227
10,978
12,589
11,725
8,940
11,492
15,485
11,323
11,294
12,286
13,683
11,710
16,438
39.5
2,450
5,208
12,865
12,370
40.6
3,892
3,470
10,832
12,788
42.4
3,057
4,271
11,599
36.4
39.6
44.1
37.4
52.5
Britax Frontier
73.1
56.0
44.4
1,598
6,677
14,951
13,393
14,441
Britax Frontier
73.1
56.0
67.5
5,861
7,479
20,819
21,955
The weight of the instrumented HIII-6 year old dummy used in these vehicle crash tests was 51 lb.
2 The vehicle accelerations were filtered with SAE CFC60 54
ER25FE14.005</GPH>
10415
54 The vehicle accelerations were filtered in accordance with the Society of Automotive Engineers (SAE) J211, "Instrumentation for Impact Test-Part-1Electronic Instrumentation," with SAE Channel Filter Class (CFC) 60 (100 Hz).
Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
16:07 Feb 24, 2014
Test
Number
Lower
Anchor
Average
Load
[N]
tkelley on DSK3SPTVN1PROD with RULES
10416
VerDate Mar<15>2010
Jkt 232001
PO 00000
Frm 00086
Tests with the HIII-10 Year Old Dummy (77Ibs)
Fmt 4700
Sfmt 4725
E:\FR\FM\25FER1.SGM
25FER1
ER25FE14.006</GPH>
Tether
Load
[N]
Lower
Anchor
Average
Load
[N]
Total
Anchor
age
Loads
(N)
Calculated
Loads
with
Combined
Weight
Using 77
lbDummy
Combined
Weight
(with 77
lb 10 YO)
Test
Speed
(km/h)
Test
Peak
Acceler
ation
[G's]!
102.1
89.8
47.0
56.0
39.5
45.6
1,760
7,759
7,338
6,318
16,436
20,395
17,944
18,222
Ford/FOCUS
Britax Regent
Safety 1st Apex65
Safety 1st Alpha
Omega
62.1
5,995
6,194
18,383
25,204
NissaniCUBE
Graco MyRide65
92.6
45.9
1,081
6,140
13,361
18,917
Test
Number
MY
TC09-145
TC10-201
2009
2010
Toyota/Matrix
Kia/FORTE
TC10-208
2010
TC09-258
2010
MakelModel
CRS Model
1 The vehicle accelerations were filtered with SAE CFC60
91.2
55.5
56.0
Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
16:07 Feb 24, 2014
Table A1(b). Peak Measured and Computed Lower Anchor and Tether Anchor Loads in
30-35 mph Frontal Vehicle Crash Tests into a Fixed Rigid Barrier
tkelley on DSK3SPTVN1PROD with RULES
VerDate Mar<15>2010
Jkt 232001
Peak Loads With Tether (N)
PO 00000
Buck
Type
CRS Modell
Inboard
Lower
Anchor
Outboard
Lower
anchor
Total
Lower
Anchor
Tether
Anchor
Peak Loads without Tether (N)
Total
tether +
Lower
Anchor
Inboard
Lower
Anchor
Outboard
Lower
Anchor
Total
Lower
Anchor
Ratio of Lower
Anchor Load
with and
without Tether
Frm 00087
Front Loaded Sled Pulse
Apex 65
2010
Fmt 4700
Kia
Forte
Sfmt 4725
2010
Radian 65
Frontier 85
Apex 65
E:\FR\FM\25FER1.SGM
Ford
Focus
Radian 65
Frontier 85
25FER1
5833
6343
5767
5833
6088
5194
11666
12431
10961
5664
8698
4473
17330
21129
15434
7418
9629
8245
7504
8866
7613
14922
18495
15858
1.3
1.5
1.4
4657
6542
5539
4276
5966
5424
8933
12508
10963
NA2
NA
NA
NA
NA
NA
7036
8538
7490
7328
10137
9060
14364
18675
16550
1.6
1.5
1.5
14490
16897
16832
14170
18086
16456
1.3
1.3
1.4
1.4
1.5
1.5
Rear Loaded Sled Pulse
7333
7157
Radian 65
7789
9108
Kia
Forte
Frontier 85
7863
8969
Apex 65
NA
NA
7045
7125
2010
Radian 65
NA
NA
9862
8224
Ford
Focus Frontier 85
NA
NA
7628
8828
1 Apex 65: Safety !st Apex 65; Radian 65: Sunshine Kids Radian 65; Frontier 85: Britax Frontier 85
2010
Apex 65
5202
6818
6294
5185
6461
6033
5919
6015
5366
4748
5433
4918
11121
12833
11660
9933
11894
10951
6468
8088
4537
17589
20921
16197
2 NA implies tether loads not measured because of insufficient space to attach load cell to the tether.
Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
16:07 Feb 24, 2014
Table A2. Measures Anchorage Loads in Sled Tests Using the 2010 Kia Forte and Ford Focus
Vehicle Bucks with Front and Rear Loaded Sled Pulses and the Weighted HIII-6C Dummy
10417
ER25FE14.007</GPH>
tkelley on DSK3SPTVN1PROD with RULES
10418
VerDate Mar<15>2010
16:07 Feb 24, 2014
..
Make/Model
Seat Type
rou
Year
Jkt 232001
Fotward-Facing 2009
Graco/CozyCline
CRS
Weight
(lb)
21
Max. Child Wt.
for CRS (lb)
CRS Wt.+
Max. Child Wt.
(lb)
RF
Mode
FF
Mode
RF
Mode
FF
Mode
NA
40
NA
61
RFMode
65-CRS
wt. (lb)
NA
Max. Child Wt. for Lower Anchor Use
FFMode RFModein FFModein
65-CRS multiple of Mnltile of5
wt. (lb)
SIb
lb
NR
NA
NR
Combination
2012
28.3
NA
70
NA
98.3
NA
36.7
NA
40
BritaxlFrontier 85 SICT
Combination
2012
22.5
NA
85
NA
107.5
NA
42.5
NA
45
BritaxlFrontier
Combination
2008
22.3
NA
80
NA
102.3
NA
42.7
NA
45
Frm 00088
Graco/Nautilus Iilite
Combination
2010
21.5
NA
65
NA
86.5
NA
43.5
NA
45
Graco/Nautilus
Combination
2008
20.8
NA
65
NA
85.8
NA
44.2
NA
45
Graco/Argos 70
Combination
2012
20.4
NA
70
NA
90.4
NA
44.6
NA
45
Safety 1st/Essential Air
Combination
2011
19.6
NA
65
NA
84.6
NA
45.4
NA
50
NA
45.4
NA
50
NR
NA
NR
Fmt 4700
PO 00000
TrendZlFas tBack
Sfmt 4725
E:\FR\FM\25FER1.SGM
25FER1
BritaxlFrontier 85
Combination
2010
19.6
NA
85
NA
104.6
Safety 1st/Summit Deluxe
Combination
2008
NA
40
NA
54.9
NA
Dorel/Eddie Bauer Deluxe High Back
Combination
2009
14.9
14.7
NA
40
NA
54.7
NA
NR
NA
NR
Dorel/Safety 1st Apex 65
Combination
2009
13.8
NA
65
NA
78.8
NA
51.2
NA
55
Safety 1st/Apex 65
Combination
2008
13.8
NA
65
NA
78.8
NA
51.2
NA
55
~nOo/SecureKidE3
Combination
2012
13.2
NA
65
NA
78.2
NA
51.8
NA
55
TrendZlEUroSport
Combination
2012
12.7
NA
50
nla
62.7
NA
NR
NA
NR
65
Combination
2010
12.3
NA
65
NA
77.3
NA
52.7
NA
55
~nOo/SecureKid 300
Combination
2012
12.3
NA
65
NA
77.3
NA
52.7
NA
55
NA
NR
NA
NR
NA
NR
~nOo/Generations
~nOo/Maestro
Combination
2010
NA
50
NA
Graco/Cargo
Combination
2009
10.7
10.6
60.7
NA
40
NA
50.6
NA
NR
Combination
2008
9.9
NA
40
NA
49.9
NA
NR
NA
NR
48.3
NA
NR
NA
NR
Eddie Bauer/Comfort High Back Booster
~nOo/Chase
Comfort Touch
NA
40
2009
8.3
8.3
NA
NA
40
NA
48.3
NA
NR
NA
NR
2008
8.2
NA
60
NA
68.2
NA
56.8
NA
60
Combination
2008
~nOo/Chase
Combination
Safeguard! Go
Combination
RF - rear-facing; FF - forward-facing; EOU - CRS Ease-of-Use Program; NR -label not required; NA - not applicable
ER25FE14.008</GPH>
Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
Table A3. Child Weight Limit for Lower Anchor Use for Child Restraint Models
Evaluated in NHTSA's 2008-2012 CRS Ease-of-Use P -- - ---
tkelley on DSK3SPTVN1PROD with RULES
VerDate Mar<15>2010
Table A3. Continued
Jkt 232001
PO 00000
Frm 00089
Fmt 4700
Sfmt 4725
E:\FR\FM\25FER1.SGM
25FER1
CombilZeus 360
Orbit Baby/G2
Sunshine KidslRadian XT
Peg Perego !Primo Viaggio 5-70
Britax/Advocate CS
Sunshine KidslRadian 65
Sunshine KidslRadian 80
Maxi-Cosi !Pria 70
BritaxIBoulevard
BritaxIBoulevard CS
Compas sITrue Fit
Learning CurvelFirst Years True
Fit Premier
RecarolEuro
Graco/MyRide65 (1757133)
Safety lst/Chart 65 Air
Graco/MyRide 65 (1756291)
BritaxlRoundabout 50
Graco/Classic Ride 50
EddieBauerlXRS 65
CombilCoccoro
Cosco/Scenera
Graco/ComfortSport
Safety lstlUptown
Seat Type
rou
Year
CRS Wt.+
Max. Child Wt.
(lb)
RF
Mode
FF
Mode
RF
Mode
FF
Mode
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
2010
2012
2009
2012
2009
2009
2009
2012
2009
2009
2008
30.6
24.5
23.8
22.3
22.1
21.2
21.2
20.3
20.2
20.2
18.3
33
35
35
45
35
35
35
40
35
35
35
40
65
80
70
65
65
80
70
65
65
65
63.6
59.5
58.8
67.3
57.1
56.2
56.2
60.3
55.2
55.2
53.3
70.6
89.5
103.8
92.3
87.1
86.2
101.2
90.3
85.2
85.2
83.3
Convertible
2009
18.3
35
65
53.3
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
Convertible
2012
2012
2012
2010
2009
2012
2012
2009
2008
2010
2008
18.1
16.2
16
15.4
14.4
12.4
12.1
12
10.5
10.4
10.4
35
40
40
40
40
40
40
33
40
30
35
70
65
65
65
50
50
65
40
40
40
40
53.1
56.2
56
55.4
54.4
52.4
52.1
45
50.5
40.4
45.4
Max. Child Wt. for Lower Anchor Use
RFMode
6S-CRS
wt. (lb)
NR
NR
NR
FFMode RFModein FFModein
6S-CRS multiple of Multile ofS
wt. (lb)
Sib
Ib
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
34.4
40.5
41.2
42.7
42.9
43.8
43.8
44.7
44.8
44.8
46.7
NR
NR
NR
NR
NR
NR
NR
35
45
45
45
45
45
45
45
45
45
50
83.3
NR
46.7
NR
50
88.1
81.2
81
80.4
64.4
62.4
77.1
52
50.5
50.4
50.4
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
46.9
48.8
49
49.6
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
50
50
50
50
42.7
NR
NR
52.9
NR
NR
NR
NR
40
NR
NR
55
NR
NR
NR
NR
Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
16:07 Feb 24, 2014
Make/Model
CRS
Weight
(lb)
Max. Child Wt.
for CRS (lb)
10419
ER25FE14.009</GPH>
tkelley on DSK3SPTVN1PROD with RULES
Make/Model
Seat Type
Jkt 232001
PO 00000
Frm 00090
Fmt 4700
Sfmt 9990
E:\FR\FM\25FER1.SGM
25FER1
EvenDo!Tribute 5
Convertible
Cos co /Apt 40RF
Convertible
Orbitbaby!Toddler
Convertible
BritaxlBoulevard 70 CS
Convertible
Safety lst /Complete Air
Convertible
Safety lst/onSide Air
Convertible
Cosco/Scenera 40RF
Convertible
Safety lst/Guide 65
Covertible
Graco/Smart Se at
3-in-1
DionolRadianRXT
3-in-l
DionolRadianRlOO
3-in-1
DionoIRadian120
3-in-1
EvenDo/Symphony
3-in-1
EvenDo/Symphony 65 E3
3-in-1
EvenDo/Symphony 65
3-in-1
DorellEddie Bauer Deluxe 3-in-l
3-in-1
Eddie BauerlDeluxe 3-in-l
3-in-1
Dorel/Alpha Omega Elite
3-in-1
Dorel/Safety lst Alpha Omega
3-in-1
Elite
Safety lst/Alpha Omega Elite
3-in-1
Dorel/Alpha Omega*
3-in-1
Safety lst/All-in-One
3-in-1
Eddie BauerlDeluxe Convertible
3-in-1
Car Seat
RF - rear-facing; FF - forward-facing; EOU -
rou
Year
CRS
Weight
(Ib)
for CRS (Ib)
CRS Wt.+
Max. Child wt.
Max. ChildWt. for Lower Anchor Use
(Ib)
RF
Mode
FF
Mode
RF
Mode
FF
Mode
2008
2012
2011
2011
2011
2011
2011
2012
2011
2012
2012
2012
2009
2012
2012
2009
2008
2009
9.7
8
23.9
19.1
14.8
9.3
8.6
12.1
33.8
25.8
24.2
24.2
21.7
20.8
19.4
16.8
16.8
16.6
35
40
35
40
40
40
40
40
40
45
40
45
35
40
40
35
35
35
40
40
50
70
50
40
40
65
65
80
65
80
40
65
65
50
50
50
44.7
48
58.9
59.1
54.8
49.3
48.6
52.1
73.8
70.8
64.2
69.2
56.7
60.8
59.4
51.8
51.8
51.6
49.7
48
73.9
89.1
64.8
49.3
48.6
77.1
98.8
105.8
89.2
104.2
61.7
85.8
84.4
66.8
66.8
66.6
2009
16.6
35
50
51.6
2008
2009
2008
16.6
15.3
14.4
35
35
35
50
50
50
2008
10.9
35
40
RFMode
6S-CRS
wt. (Ib)
NR
NR
NR
NR
NR
NR
NR
NR
31.2
39.2
NR
40.8
NR
NR
NR
NR
NR
NR
66.6
51.6
50.3
49.4
45.9
FFMode RFModein FFModein
6S-CRS multiple of Multile of 5
wi. (Ib)
Sib
Ib
NR
NR
41.1
45.9
NR
NR
NR
52.9
31.2
39.2
40.8
40.8
NR
NR
NR
NR
NR
NR
NR
NR
NR
30
35
NR
40
NR
NR
45
50
NR
NR
NR
55
35
40
45
45
NR
44.2
45.6
48.2
48.2
48.4
NR
NR
NR
NR
NR
NR
NR
48.4
NR
50
66.6
65.3
64.4
NR
NR
NR
48.4
49.7
50
50
NR
NR
NR
NR
NR
50.9
NR
NR
NR
NR
45
50
50
50
50
NCAP CRS Ease-of-Use Program; NR -label not required; NA - not applicable
Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
16:07 Feb 24, 2014
Max. Child wt.
10420
VerDate Mar<15>2010
ER25FE14.010</GPH>
RF - rear-facing; FF - forward-facing; EOU - NCAP CRS Ease-of-Use Program; NR -label not required; NA - not applicable
Table A3. Continued
Federal Register / Vol. 79, No. 37 / Tuesday, February 25, 2014 / Rules and Regulations
SNE/MA yellowtail flounder are
available for the scallop fishery.
DATES: Effective February 20, 2014,
through April 30, 2014.
FOR FURTHER INFORMATION CONTACT: Liz
Sullivan, Fisheries Management
Specialist, (978) 282–8493.
SUPPLEMENTARY INFORMATION:
[FR Doc. 2014–03984 Filed 2–20–14; 4:15 pm]
BILLING CODE 4910–59–C
DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric
Administration
50 CFR Part 648
[Docket No. 140113030–4109–01]
RIN 0648–XD081
Fisheries of the Northeastern United
States; Northeast Multispecies
Fishery; Adjustment of Georges Bank
and Southern New England/MidAtlantic Yellowtail Flounder Annual
Catch Limits
National Marine Fisheries
Service (NMFS), National Oceanic and
Atmospheric Administration (NOAA),
Commerce.
ACTION: Temporary rule; adjustment of
annual catch limits.
AGENCY:
NMFS announces a transfer of
unused quota for the remainder of the
2013 fishing year (FY) of Georges Bank
(GB) and Southern New England/Mid
Atlantic (SNE/MA) yellowtail flounder
from the Atlantic scallop fishery to the
Northeast (NE) multispecies fishery.
This action is being taken because the
scallop fishery is not expected to catch
its entire allocation of GB and SNE/MA
yellowtail flounder. The intent is to
provide additional harvest opportunity
to the NE multispecies fishery while
ensuring sufficient amounts of GB and
SUMMARY:
Background
NMFS regulations at 50 CFR
648.90(a)(4)(iii)(C) authorize the
Regional Administrator (RA) to reduce
the scallop fishery sub-ACL to the
amount projected to be caught, and
increase the groundfish fishery sub-ACL
up to the amount reduced from the
scallop fishery if, by January 15 of each
year, the scallop fishery is expected to
catch less than 90 percent of its GB or
SNE/MA yellowtail flounder sub-annual
catch limit (sub-ACL). This adjustment
is intended to help achieve optimum
yield, while not threatening an overage
of the ACLs for the stocks.
Based on the most current available
data, NMFS projects that the scallop
fishery will have unused quota in the
2013 fishing year (FY). Although for the
first time starting in FY 2013, three
Scallop Access Areas will remain open
during the month of February, NMFS’
analysis assumed similar scallop fleet
effort and behavior to past years. It is
possible that the additional open areas
will increase effort and potentially
result in higher yellowtail flounder
bycatch. However, NMFS accounted for
this uncertainty by using the high-end
estimates of the catch projections. As of
January 15, the projections indicate that
10421
the scallop fishery is expected to catch
41.5 mt of GB yellowtail, or 49.8 percent
of its FY 2013 sub-ACL, and 43.6 mt of
SNE/MA yellowtail, or 71.4 percent of
its FY 2013 sub-ACL. Because the
scallop fishery is not expected to catch
its entire allocation of GB and SNE/MA
yellowtail flounder, this rule transfers
the unused quota for the remainder of
the 2013 FY of GB and SNE/MA
yellowtail flounder from the Atlantic
scallop fishery to the NE multispecies
fishery. The intent is to provide
additional harvest opportunity to the NE
multispecies fishery while ensuring
sufficient amounts of GB and SNE/MA
yellowtail flounder are available for the
scallop fishery.
Based on the new projections of GB
and SNE/MA yellowtail flounder catch
by the scallop fishery, effective February
20, 2014, through April 30, 2014, NMFS
reduces the scallop sub-ACL for both
stocks to the amount projected to be
caught, and increases the groundfish
sub-ACLs. To account for uncertainty in
inseason catch projections, NMFS
increases the groundfish sub-ACLs by
90 percent of the amount reduced from
the scallop sub-ACLs. This results in an
additional 37.7 mt of GB yellowtail
flounder, and 15.7 mt of SNE/MA
yellowtail flounder, for the groundfish
fishery. Table 1 summarizes the
revisions to the FY 2013 sub-ACLs, and
Table 2 shows the revised allocations
for the NE multispecies fishery as
allocated between the sectors and
common pool based on final sector
membership for FY 2013.
TABLE 1—GEORGES BANK AND SOUTHERN NEW ENGLAND/MID-ATLANTIC YELLOWTAIL FLOUNDER SUB-ACLS
[In metric tons]
Initial sub-ACL
(mt)
Stock
Fishery
GB Yellowtail Flounder .....................................
Groundfish ........................................................
Scallop ..............................................................
Groundfish ........................................................
Scallop ..............................................................
SNE/MA Yellowtail Flounder ............................
Revised
sub-ACL
(mt)
116.8
83.4
570
61
154.5
41.5
585.7
43.6
Percent
change
+32
¥50
+3
¥29
TABLE 2—ALLOCATIONS FOR SECTORS AND THE COMMON POOL
[In pounds]
Stock
GB Yellowtail flounder
tkelley on DSK3SPTVN1PROD with RULES
Sector name
Original
Fixed Gear Sector ...........................................................................................
Maine Coast Community Sector ......................................................................
Maine Permit Bank ..........................................................................................
New Hampshire Permit Bank ..........................................................................
Northeast Coast Communities Sector .............................................................
Northeast Fishery Sector II .......................................................................
Northeast Fishery Sector III ......................................................................
Northeast Fishery Sector IV .....................................................................
Northeast Fishery Sector V ......................................................................
VerDate Mar<15>2010
16:07 Feb 24, 2014
Jkt 232001
PO 00000
Frm 00091
Fmt 4700
Sfmt 4700
SNE/MA Yellowtail flounder
Revised
32
9
35
0
2,161
5,037
25
5,567
4,151
E:\FR\FM\25FER1.SGM
42
12
47
0
2,859
6,662
33
7,364
5,491
25FER1
Original
3,820
8,321
401
0
9,115
18,921
4,482
28,512
288,809
Revised
3,926
8,550
412
0
9,366
19,442
4,605
29,298
296,764
]]>Agencies
[Federal Register Volume 79, Number 37 (Tuesday, February 25, 2014)]
[Rules and Regulations]
[Pages 10396-10421]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: 2014-03984]
=======================================================================
-----------------------------------------------------------------------
DEPARTMENT OF TRANSPORTATION
National Highway Traffic Safety Administration
49 CFR Part 571
[Docket No. NHTSA-2014-0026]
RIN 2127-AL35
Child Restraint Systems
AGENCY: National Highway Traffic Safety Administration (NHTSA), U.S.
Department of Transportation (DOT).
ACTION: Final rule; response to petition for reconsideration.
-----------------------------------------------------------------------
SUMMARY: This final rule denies most aspects of a petition for
reconsideration of a February 27, 2012, final rule that expanded the
applicability of the Federal motor vehicle safety standard for child
restraint systems to child restraints sold for children weighing up to
36 kilograms (kg) (80 pounds (lb)). The petition stated, among other
things, that a label that was required by the 2012 rule for certain
child restraints was unclear and could be misunderstood. In response,
NHTSA is making minor adjustments to the labeling requirement to make
it clearer and more reader-friendly. For a year, manufacturers have the
option of meeting the requirements of the February 27, 2012 rule or the
rule as modified today. All other requests for substantive changes to
the 2012 rule are denied.
DATES: Effective date: The amendments made by this final rule are
effective February 27, 2014.
Compliance dates: The compliance date of the amendments of this
final rule is February 27, 2015. Optional early compliance is
permitted. Accordingly, child restraints manufactured on or after
February 27, 2014 until February 26, 2015, may comply by meeting either
the requirements specified in the February 27, 2012, final rule (77 FR
11626) or those requirements as amended by today's final rule. Child
restraints manufactured on or after February 27, 2015 must meet the
requirements as amended by today's final rule.
If you wish to petition for reconsideration of this rule, your
petition must be received by April 11, 2014.
ADDRESSES: If you wish to petition for reconsideration of this rule,
refer in your petition to the docket number of this document and submit
your petition to: Administrator, National Highway Traffic Safety
Administration, 1200 New Jersey Avenue SE., West Building, Washington,
DC 20590. For information on the Privacy Act, see Rulemaking Analyses
and Notices section.
For access to the docket to read background documents or comments
received, go to https://www.regulations.gov and follow the online
instructions for accessing the docket. You may also visit DOT's Docket
Management Facility, 1200 New Jersey Avenue SE., West Building Ground
Floor, Room W12-140, Washington, DC 20590-0001 for on-line access to
the docket.
FOR FURTHER INFORMATION CONTACT: For technical issues, you may call Ms.
Cristina Echemendia, Office of Rulemaking (Telephone: 202-366-6345)
(Fax: 202-493-2990). For legal issues, you may call Ms. Deirdre Fujita,
Office of Chief Counsel (Telephone: 202-366-2992) (Fax: 202-366-3820).
The mailing address of the National Highway Traffic Safety
Administration is: 1200 New Jersey Avenue SE., West Building,
Washington, DC 20590.
SUPPLEMENTARY INFORMATION:
Table of Contents
I. Introduction
II. Petition for Reconsideration
III. Correspondence
a. The Label
b. Other Issues
IV. Agency Response
a. The Label
b. Other Issues
V. Rulemaking Analyses and Notices
I. Introduction
This final rule denies most aspects of a petition for
reconsideration of a February 27, 2012, final rule (77 FR 11626) that
expanded the applicability of Federal Motor Vehicle Safety Standard
(FMVSS) No. 213, ``Child restraint systems,'' from child restraint
systems (CRSs) for children weighing up to 65 lb to CRSs for children
weighing up to 80 lb. The final rule also adopted use of a 10-year-old
child (10YO) test dummy (HIII-10C) to test CRSs manufactured for
children weighing 65 to 80 lb. The test dummy weighs about 78 lb.
Generally speaking, in NHTSA's compliance test for FMVSS No. 213,
NHTSA has the choice of assessing the performance of a CRS when
installed on a bench seat by way of the simulated lower anchorages of
the ``child restraint anchorage system'' \1\ of the standard seat
assembly or by a seat belt. That is, child restraint manufacturers must
ensure that their products meet the requirements of FMVSS No. 213 when
NHTSA tests the CRS attached by the child restraint anchorage system
connectors and when the agency tests the CRS attached by the seat belt.
During the course of this particular rulemaking, the Alliance of
Automobile Manufacturers (Alliance) submitted a comment \2\ on an
aspect of the rulemaking proposal relating to how NHTSA would use the
10YO dummy in compliance tests, particularly with respect to an issue
concerning attaching CRSs by the child restraint anchorage system.\3\
The Alliance pointed out that the child restraint anchorage system was
developed by NHTSA to withstand crash forces in a crash generated by a
mass on the system of 65 lb (mass of child plus that of CRS).\4\ Given
such a design parameter, the group stated that vehicle manufacturers
would never recommend that a CRS be installed using the vehicle child
restraint anchorage system when used to restrain
[[Page 10397]]
children represented by the 10YO dummy (the dummy alone weighs about 78
lb). Subsequently, the Alliance and the Association of Global
Automakers (Global Automakers) submitted a joint comment stating that
``review of the actual supporting test data and load calculations
reveals that the LATCH load requirements were developed using a
combined maximum child+CRS weight of 65 pounds.'' 5 6 The
vehicle manufacturer groups also expressed concern about ``a trend
toward increased weight of child restraints . . . [that] could call
into question the validity of the 48 pound estimate for appropriate
maximum child weight capacity.'' \7\
---------------------------------------------------------------------------
\1\ In 1999, NHTSA issued FMVSS No. 225, ``Child restraint
anchorage systems,'' which requires vehicle manufacturers to equip
vehicles with child restraint anchorage systems that are
standardized and independent of the vehicle seat belts. The child
restraint anchorage system required by FMVSS No. 225 is a 3-point
system consisting of two lower anchorage points and an upper
anchorage point. Each lower anchorage consists of a six millimeter
(mm) diameter straight rod, or ``bar,'' onto which a CRS connector
can be attached. The two lower anchorage bars are typically located
at or near the seat bight. The upper anchorage (``tether
anchorage'') is a part to which a tether hook of a CRS can be
attached. The 1999 rule also amended FMVSS No. 213, ``Child
restraint systems,'' to require CRSs to be equipped with connectors
that enable the CRS to attach to the vehicle's lower anchorages of
the child restraint anchorage system. A new head excursion
performance requirement was added for forward-facing child
restraints (other than booster seats), and to meet it, child
restraints universally use a top tether strap affixed to the top of
the restraints.
\2\ NHTSA-2007-0048-0008.
\3\ These are CRSs equipped with an internal harness (webbing)
to restrain the child (``harness-equipped CRSs''). Forces from the
mass of the child+CRS are imposed on the child restraint anchorage
system. These are not ``belt-positioning seats'' used with a
vehicle's Type II seat belt system.
\4\ Assuming the mass of the CRS is about 17 lb, which is
approximately the average mass of a CRS, the child restraint
anchorage system is designed for children weighing up to about 48 lb
(for a combined weight of 65 lb, from the weight of the CRS plus the
weight of the child).
\5\ NHTSA-2010-0158-0016.
\6\ NHTSA notes: Many in the child passenger safety community
refer to the child restraint anchorage system as the ``LATCH''
system, an abbreviation of the phrase ``Lower Anchors and Tethers
for Children.'' The term was developed by a group of manufacturers
and retailers soon after the 1999 final rule establishing FMVSS No.
225 for use in educating consumers on the availability and use of
the anchorage system and for marketing purposes.
\7\ NHTSA-2010-0158-0016.
---------------------------------------------------------------------------
The information from the vehicle manufacturers was important to
NHTSA in determining how we should use the new 10YO test dummy in
compliance testing. After assessing all available information, NHTSA
decided that it would not subject child restraints with internal
harnesses to compliance testing using the 10YO test dummy while the CRS
is attached by the child restraint anchorage system anchorages, since
that scenario would be contrary to vehicle manufacturers' instructions
for using child restraint anchorage systems and inconsistent with the
design parameters of the anchorage system.
Furthermore, the agency determined that, given that NHTSA will not
test a child restraint with the child restraint anchorage system on the
standard seat assembly using the 10YO dummy for the above reasons,
there is a need to inform consumers on the use of child restraint
anchorage systems to reduce the likelihood that a CRS would be used in
a manner that is inconsistent with the assessed performance of the
harness-equipped CRS and the design limits of child restraint anchorage
systems. Some new harness-equipped CRSs have been produced that are
heavier than all CRSs made in the past, and some are recommended for
children weighing more than 48 lb.
In the 2012 final rule, we adopted a labeling instruction informing
consumers not to use the child restraint anchorage system when
restraining a total weight of more than 65 lb.\8\ NHTSA determined that
a label is needed to reduce the likelihood that consumers will use the
child restraint anchorage system lower anchorages with a child+CRS
weight that is too heavy for the anchorages, which would pose an
unreasonable risk of overloading the vehicle anchorage system in a
crash. Overloading the vehicle lower anchorages could be catastrophic
for the child occupant, as the CRS could dislodge from the vehicle
seat. The instruction provided a clear and consistent message regarding
the use of the child restraint anchorage system and improved the
current situation where consumers are provided inconsistent or no
information about the child weight limit for the lower bars. The
information helps to ensure that the child restraint anchorage systems
(particularly the lower anchorages) are used in a manner that comports
with the design parameters of the vehicle system.
---------------------------------------------------------------------------
\8\ The 3 points of child restraint anchorage systems are
required to meet strength requirements designed around a
``combined'' weight of 65 lb (combined weight of the child plus the
CRS's weight) (``child+CRS weight'').
---------------------------------------------------------------------------
II. Petition for Reconsideration
NHTSA received a petition for reconsideration on the label from
several consumer advocates.\9\ The petitioners did not oppose informing
consumers of the weight limits of the lower anchorages per se, but
instead did not support a 65 lb limit. They requested that the 65 lb
combined weight should be increased to 80 to 85 lb, believing this is
needed to ``preserve the extended use of lower anchors.''
---------------------------------------------------------------------------
\9\ D. Stewart and D. Donaldson (Safe Ride News), S. Tombrello
(SafetyBeltSafe), J. Colella (Traffic Safety Projects) and B.
Hoffman (Oregon Health Sciences University).
---------------------------------------------------------------------------
Petitioners believe that when NHTSA developed FMVSS No. 225, the
agency referred several times in the preamble to a child weight of 65
lb. Petitioners ``surmise that FMVSS 213 [sic] rule was for anchors to
be strong enough to accommodate [CRSs] that would in themselves weigh
at least 15, possibly 20 pounds, which implies a combined weight of at
least 80 to 85 lbs.'' The petitioners state that ``the decision to
adopt 65 pounds as the combined maximum weight . . . will unnecessarily
restrict the use of the LATCH system and force caregivers back to using
seat belts for anchoring forward-facing [CRSs].'' The petitioners also
state that their intent in petitioning for reconsideration of the rule
was to ``minimize the likelihood that vehicle manufacturers will apply
the same formula'' to tether anchorages.\10\
---------------------------------------------------------------------------
\10\ The petitioners also suggested that NHTSA undertake a
number of initiatives to upgrade various child restraint anchorage
system requirements or improve CRS safety. Most of the suggestions
were beyond the scope of this rulemaking and will not be discussed
further in this document.
---------------------------------------------------------------------------
III. Correspondence
a. The Label
A number of persons sent letters or met with NHTSA in support of
the petition for reconsideration or to ask questions about the labeling
requirement.\11\ Several suggest that NHTSA suspend the requirement for
the label, increase the 65 lb combined weight limit on the label, or
require vehicle manufacturers to increase the strength of child
restraint anchorage systems to accommodate a higher combined weight.
Several letter writers express the view that the final rule should have
addressed tether weight limits.
---------------------------------------------------------------------------
\11\ Copies of letters are in the docket for the final rule:
Docket No. NHTSA-2011-0176. NHTSA has also placed in the docket
memoranda describing various meetings.
---------------------------------------------------------------------------
Several of the letters and other submissions are summarized below.
Representatives from the Dorel Juvenile Group (Dorel) and others
met with NHTSA to express their view that the new labeling requirement
reduces use of child restraint anchorage systems. They believe that the
current status quo (current recommendations and practice) is to use
child restraint anchorage systems for installing child restraints with
internal harnesses for a child weight up to 48 lb. They also add that
child safety seats now weigh between 15 to 33 lb, so the new label
would exclude the use of child restraint anchorage systems for a
``large'' number of children who are still in harnessed-CRSs. They
state that because child restraint anchorage systems are easier to use
and have a higher rate of correct installation than seat belts, a child
restraint anchorage system installation is safer than a belt
installation. They suggest that in the short term, NHTSA should suspend
the new label requirement, and that in the long term, NHTSA should
increase the strength of the child restraint anchorage system.
Safe Ride News (SRN) wrote in a letter that the agency should
suspend the labeling requirement because the label will ``cause a lot
of confusion'' and affect public perception of the safety of child
restraint anchorage systems ``without improving actual safety in any
significant way.'' The letter writer believes that public education
messages
[[Page 10398]]
will become ``extremely muddied due to the variability from CR [child
restraint] to CR.'' SRN also states its concern that ``lower-anchor
weight limits will spill over to tether-anchor weight limits.''
Further, in another letter, SRN suggests that NHTSA require a child-
weight limit of 50 lb as a ``compromise'' that ``eliminates the formula
of child-weight plus CR-weight.'' Under SRN's suggestion, child
restraint manufacturers may set their own weight limits for the use of
child restraint anchorage systems up to that ceiling with a possible
lower weight limit for extremely heavy child restraint models.
The Juvenile Products Manufacturers Association (JPMA) submitted a
letter in support of Dorel's submission and Safe Ride News' letter,
repeating many points of earlier correspondence.\12\ Those points
include that the extended use of lower anchorages should be preserved;
that use of tethers should be increased; that efforts should be made to
minimize the likelihood that vehicle manufacturers will similarly
restrict tether anchor use; that parents might not remember or even
initially know to switch to the seat belt during the several-year
course of a CRS's use; and, that innovation by CRS manufacturers to
reduce loads on anchors through energy management features should be
supported. JPMA also expressed the view that NHTSA should suspend the
label and ``consider strengthening the anchorage strength requirements
of FMVSS 225 immediately.'' In a later submission, JPMA states that the
label will result in ``lack of trust in LATCH'' because it results in
varying weight limits, and in some cases weight limits lower than the
40 or 48 lb currently used in the field. JPMA also believes that the
label will lead to early graduation to boosters due to the wording on
the label and because CRSs might not achieve a tight fit with a seat
belt or may be too difficult to install with a seat belt.
---------------------------------------------------------------------------
\12\ NHTSA had discussed many of these points in the preamble to
the February 27, 2012 final rule. For the most part, no new
information bearing on the discussion was provided by JPMA's post
final rule submissions.
---------------------------------------------------------------------------
An individual, Alisa Baer, wrote that introducing ``strict lower
anchor weight limits of CR + child = 65 pounds will further
complicate'' child restraint anchorage systems. The letter writer
states that parents typically do not understand how fast a child grows
and that a parent may opt not to use a CRS when their child is on the
cusp of the weight limit out of fear that the child will soon outgrow
the CRS, when in reality the child could have much more time before
exceeding the weight limit. The writer states that ``ugly numbers--like
37 or 41 [lb]--are scary to parents & technicians,'' and ``will likely
erode confidence in the LATCH system'' because people may ``[think] `is
the LATCH system so fragile that if the child was 38 pounds instead of
37 it might not hold in a crash?' ''
Consumers Union sent a letter stating that it was ``worried that
the new rules may encourage parents to secure heavier child seats using
standard safety belts instead of the LATCH system.'' Consumers Union
states that ``each CRS will still feature a different maximum
recommended child weight limit, based on the differences between the
seat's weight and the 65 lb limit of the lower LATCH anchors,'' which,
the letter writer believes, will confuse caregivers.
Diono \13\ sent a letter expressing its belief that the 65-lb
combined weight threshold was ``far too conservative a limitation given
the dynamic capacity of the lower anchors in vehicles'' and asks that
NHTSA ``allow a maximum weight of CRS plus occupant to be limited to 80
lbs with the use of lower anchors.'' These are the same arguments that
Diono made in response to the NPRM when the company was named Sunshine
Kids. Diono believes that there is ``much data from testing analysis
that has shown lower anchors support total masses larger than the
proposed limit of 30.5 kg,'' and states that it has data from its sled
testing which ``show that with a combined mass of 78 lbs to ~110 lbs
the lower anchors see dynamic loads well within the dynamic capacity of
the lower anchors.'' Diono also states that ``ECE-R44 has recommended
the combined weight limit be 33 kgs (Combined mass of CRS plus
occupant) or 72.6 lbs.''
---------------------------------------------------------------------------
\13\ A child restraint manufacturer previously known as
``Sunshine Kids.''
---------------------------------------------------------------------------
The Alliance submitted correspondence focused on the need for the
label to address rear-facing child restraints equipped with an internal
harness that are sold for heavier children, which are used without a
tether. The Alliance highlights that it reviewed ``some of the heavier
3-in-1 child restraints currently on the market, especially those which
have been certified for use up to 40/45 lbs rearward-facing,'' and
notes that ``a potential weight combination of up [sic] 73.8 lbs
becomes apparent--without use of a tether.'' The Alliance seeks ``to
ensure that the label is also applied to rear-facing child
restraints.''
b. Other Issues
NHTSA also received correspondence from Graco asking that harness-
equipped CRSs recommended for children up to 70 lb in weight should be
excluded from the head excursion requirements if the CRS height
restrictions do not accommodate the HIII-10C dummy.
Graco also raises a question about S5(f) of the final rule, which
applies to harness-equipped CRSs. S5(f) refers to the weight of the
test dummy used to test the CRS. Graco suggests that NHTSA publish a
list of the weights for each test dummy to make it ``easy for
manufacturers to determine which [anthropomorphic test device] and CRS
combinations need to be tested with each type of belt and provide more
standardized results for consumers.''
IV. Agency Response
NHTSA has evaluated all relevant issues presented above and has
made the following decisions in responding to those issues.
a. The Label
A Label Is Necessary To Address a Safety Need
NHTSA has determined that the information presented by the label in
question is necessary to address a safety need. The information reduces
the likelihood that consumers will use the child restraint anchorage
system with a combined weight of child plus CRS weight too high for the
anchorages in a crash. FMVSS No. 225 requires the anchorage system to
withstand crash forces resulting from a combined (child+CRS) mass of 65
lb.\14\ Not having information about the weight limits poses an
unreasonable risk of overloading the child restraint anchorage system
given that CRS weights are increasing (currently there is no limit on
the size and mass of CRSs), harness-equipped CRSs are being produced
that are marketed for children of heavier masses than 40 lb, and peak
vehicle accelerations are much higher now (some exceed 60 g) than the
48 g the agency had assumed in 1999 when designing the strength
requirements of FMVSS No. 225. We believe that information about child
weight limits needs to be provided on the CRS, given the design limits
of child restraint anchorage systems and the changing physical demands
on the system from modern child restraint and vehicle designs.
---------------------------------------------------------------------------
\14\ At the time FMVSS No. 225 was established, forward-facing
harness-equipped CRSs weighed about 15 lb on average.
---------------------------------------------------------------------------
In an April 11, 2011 letter to NHTSA, the Alliance and Global
Automakers expressed support for a label such as that adopted by the
2012 rule. These
[[Page 10399]]
vehicle manufacturer groups expressed concern ``that there appears to
be a trend toward increased weight of child restraints. This trend, if
it continues, could call into question the validity of the 48 pound
estimate for appropriate maximum child weight capacity.'' NHTSA agrees
that this development is a cause for concern, and believes that the
labeling requirement addresses this potential safety problem.
The market has not provided the information consumers need. Vehicle
and CRS users' manuals have conflicting or a lack of information on the
maximum child weight limit for lower anchor use. Most vehicle
manufacturers do not include a child weight limit for lower anchor use
in their vehicle owner's manual. A 2011 manual developed by SRN,
``LATCH Manual,''\15\ indicates that only about 54 percent of vehicle
``makes'' provides information on the weight limits of child restraint
anchorage systems.\16\
---------------------------------------------------------------------------
\15\ The ``LATCH Manual,'' developed by SRN
(www.saferidenews.com), compiles material such as the vehicle
manufacturers' recommendations for the maximum child weight limit
for using the child restraint anchorage system. The manual is used
by child passenger safety technicians participating in a child seat
checkup program run by a nonprofit organization called SafeKids as a
look-up tool for installing child restraints in vehicles.
\16\ In the 2011 LATCH Manual, 12 percent of vehicle makes
recommended 40 lb as the child weight limit for lower anchor use and
42 percent recommended 48 lb. In the 2013 LATCH Manual, 8 percent of
vehicle manufacturers recommended a child weight limit of 48 lb
while 64 percent recommended the combined CRS+child weight limit of
65 lb for lower anchor use.
---------------------------------------------------------------------------
Child restraint manufacturers' recommendations for using the child
restraint anchorage system are also varied and generally unhelpful.
NHTSA reviewed approximately 40 CRS manuals from different CRS
manufacturers to see the current recommendations of CRS manufacturers.
In our sample, Dorel and Evenflo did not specify a maximum child weight
for use with the child restraint anchorage system. Graco and Recaro
specified using the vehicle manufacturer's weight limits for use of the
child restraint anchorage system and also specified a maximum child
weight of 48 lb for use of the anchorages. Britax recommended that
consumers follow vehicle manufacturers' instructions and that, if a
vehicle manufacturer does not provide a limit, consumers should assume
a 40 lb maximum child weight limit for lower anchors. Diono recommended
use of the child restraint anchorage system for children weighing up to
65 lb (corresponding to the weight of a 50th percentile 9.5 year-old)
and even, for some models, 80 lb (corresponding to the weight of a 50th
percentile 11 year-old).
Since most vehicles do not specify a child weight limit for lower
anchor use, and since CRS instruction manuals generally have no
information (e.g., Dorel and Evenflo), refer to the vehicle owner's
manual (Graco, Britax, Recaro), or have conflicting information on the
child weight limit for using the lower anchorages (Graco, Recaro), many
consumers are unaware or unsure as to the weight limits of child
restraint anchorage systems. A consumer looking in the CRS manual might
be referred to a non-existent vehicle owner's manual instruction on
child weight limits for lower anchor use, or might be informed that the
anchorage system may be used to a weight beyond the intended design
limit of many if not most vehicles' anchorage systems.
This problematic situation can be fixed if the CRS has the required
information about the weight limits. With the information, consumers
will have convenient access to facts about the child weight limit for
lower anchor use. A label with the information will provide clear and
consistent information for determining the child weight limit for lower
anchor use, which will be easily accessible to the caregiver at all
times.\17\ Consumers following this information will virtually
eliminate the risk of anchorage failure in a crash.\18\
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\17\ In addition, the agency has plans to promote the label and
provide consumer education regarding the new label.
\18\ We recognize that currently there are no reported anchorage
failures in on the road vehicles. However, the risk of anchorage
failure exists to such an extent today that NHTSA would like to be
proactive in addressing this risk. In the past, there has been a low
incidence of heavier children in CRSs with internal harnesses. This
could very well change in the future as NHTSA and other groups are
encouraging caregivers to keep children in harness-equipped CRSs for
a longer time. Moreover, CRSs are being produced for children of
increasingly heavier weights. Also, crash pulses of newer vehicles
are higher and child restraints themselves are getting heavier. We
believe that a problem of anchorage failures is in the making, so we
are addressing the situation now before the problem comes to
fruition.
---------------------------------------------------------------------------
We do not believe that specifying a combined (child+CRS) weight
limit in the vehicle owners' manual rather than on a CRS label would be
as effective at communicating the information as placing a label on the
CRS. First, the consumer will need to determine the weight of the CRS
and then calculate the maximum child weight limit. We believe that
these additional actions required by the consumer are unreasonable; the
consumer is unlikely to take the step of assessing the CRS weight or
may not bother to make the calculation. Second, a recent survey \19\
conducted by the agency showed that only 14 percent of caregivers use
the vehicle owners' manuals for information about installing CRSs. This
indicates that most consumers will not learn of the instruction by way
of the vehicle owner's manual.
---------------------------------------------------------------------------
\19\ National Child Restraint Use Special Study (NCRUSS), DOT HS
811 679, https://www-nrd.nhtsa.dot.gov/Pubs/811679.pdf.
---------------------------------------------------------------------------
We disagree with JPMA's and Diono's assertion that the label will
result in lack of confidence in child restraint anchorage systems. We
believe that the label will provide clear and consistent information on
the use of child restraint anchorage systems and will thereby promote
more trust in child restraint anchorage systems. More importantly, the
information will virtually eliminate the risk of a failure of an
anchorage system in attaching a CRS to the vehicle.\20\ Such failures,
not the label, would reduce consumer confidence in child restraint
anchorage systems. We are taking action now to instruct consumers of
the intended use of the anchorage system to avoid failures in the
field.
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\20\ As noted earlier, we recognize that there are no reported
anchorage failures in on the road vehicles. However, the risk of
anchorage failure exists. In the past, there has been a low
incidence of heavier children in CRSs with internal harnesses. This
could change in the future as NHTSA and other groups are encouraging
caregivers to keep children in harness-equipped CRSs for longer
time, and CRSs are being produced for heavier and heavier children.
Also, crash pulses of newer vehicles are higher and child restraints
themselves are getting heavier. We believe that a problem of
anchorage failures is in the making, so we are addressing the
situation now before the problem arises.
---------------------------------------------------------------------------
The Strength Was Based on a 65-lb Combined Weight Limit
The petitioners state that they wish to ``preserve the extended use
of lower anchors.'' They state that the preamble for the final rule
establishing FMVSS No. 225 refers to a child weight of 65 lb, and that
the intent of the agency in establishing the standard was ``for anchors
to be strong enough to accommodate CRs [sic] that would in themselves
weigh at least 15, possibly 20 pounds, which implies a combined weight
of at least 80 to 85 lbs.''
Agency Response: The petitioners' view is incorrect. The preambles
\21\ analyzing, explaining, and developing the rationale for FMVSS No.
225's strength requirement overwhelmingly refer to a combined weight
(child+CRS) of 65 lb. The entire engineering analysis upon which the
strength requirement
[[Page 10400]]
was based uses a combined weight of 65 lb.
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\21\ See, e.g., final rule, response to petitions for
reconsideration, 68 FR 38208, June 27, 2003.
---------------------------------------------------------------------------
To illustrate, NHTSA explained the basis for FMVSS No. 225's 15 kN
strength requirement in a 2003 document responding to petitions for
reconsideration of various aspects of the 1999 final rule. NHTSA stated
that the agency based the strength requirement--
on an analysis of the forces that are likely to be imposed on a
LATCH system in a crash. NHTSA agrees [with a petitioner] that the
maximum expected force acting on the center of gravity of a child in
a child restraint is calculated as the total mass of the child and
the child restraint system (``the child/CRS system'') multiplied by
the acceleration of the system. . . . Assuming a child and child
restraint mass of 29.7 kg (65 lb), the dynamic force expected to act
through the center of gravity of the child/CRS system in a 48.4 g
crash is approximately 14,100 N. [Emphasis added.] 68 FR 38208,
39218-38219, June 27, 2003.
References to a ``child'' weight of 65 lb rather than to a
``combined'' weight in the 2010 SNPRM were in error, as the Alliance,
JPMA and others have pointed out. Such references were imprecise and
limited in describing the assumptions underlying the strength
requirement of child restraint anchorage systems. The Alliance
explained that the load calculations for the 15 kN strength requirement
were based on a combined maximum (child+CRS) weight of 65 lb.\22\ The
Alliance and others were concerned that the proposed wording that
referred to a 65-lb child weight did not adequately account for the
weight of the CRS and thus would be providing misinformation. NHTSA
agreed with the commenters and made the correction in the final rule.
---------------------------------------------------------------------------
\22\ In its comment JPMA also supported using the combined
weight (child+CRS), rather than child weight alone, to avoid
overloading the anchorages.
---------------------------------------------------------------------------
The present petitioners state that ``What is proposed [sic] in the
final rule, is, in effect, a major change of interpretation of anchor
weight limits without any opportunity for assessment and comment that
is usual in regulatory changes.''
This assertion is without merit. As explained above, the agency did
not make a ``change of interpretation of anchor weight limits'' by
basing the final rule on a combined child+CRS weight of 65 lb. A 65 lb
combined weight limit was the established engineering basis for the
strength requirement of FMVSS No. 225 from the beginning of the
standard. The 2010 SNPRM was in error in referring to a child weight
alone of 65 lb. The 2012 final rule remedied the error by referencing
combined weight (child+CRS).
Moreover, the weight to which the label refers was an issue well
within the scope of the present rulemaking. The question of the weight
limits of child restraint anchorage systems and the safe use of the
anchorage system with heavier children were crucial aspects of the 2010
SNPRM (see section VII.a. of the SNPRM, 75 FR at 71659). Upon proposing
a label to inform consumers of the limits of the child restraint
anchorage system, the SNPRM specifically asked for comment on the child
weight variable: ``Comments are requested on the label's reference to
the 65 lb (29.5 kg) threshold.'' 75 FR at 71659.
In addition, vehicle manufacturer groups (Alliance and Global
Automakers) and JPMA commented on the SNPRM, informing NHTSA that the
proposed wording that referred to a 65-lb child weight alone did not
adequately account for the weight of the CRS and was thus providing
incorrect information. NHTSA benefited from the comments and corrected
the weight limit to reflect the weight of the child+CRS, as designed by
FMVSS No. 225, in the final rule. The agency was not required to
reissue another proposal for notice and comment to make this
correction.
Diono believes that there is ``much data from testing analysis that
has shown lower anchors support total masses larger than the proposed
limit of 30.5 kg'' and states that it has data from its sled testing
which ``show that with a combined mass of 78 lbs to ~ 110 lbs the lower
anchors see dynamic loads well within the dynamic capacity of the lower
anchors.'' Diono believes that its tests show that, with a combined
child and child restraint weight of 80 lb, the dynamic loads on the
anchors are in the range of 9 kN at each lower anchor. Diono also
states that NHTSA has tested CRSs (some weighing 30 lb) for many years
using the Hybrid III 6-year-old (HIII-6C) dummy weighing 48 lb (for a
combined weight of 78 lb) as part of its compliance program with no
anchorage failures. Based on this information, Diono concludes that
there is a very safe margin with the use of lower anchorages for a
combined child and CRS weight of 80 lb.
The agency disagrees that Diono's test data indicate that NHTSA
should amend the labeling requirement in such a way that condones the
use of the lower anchorages with a combined child and CRS weight of 80
lb. Diono's testing consisted of sled tests using the FMVSS No. 213
test bench and a sled pulse (47 G pulse and a 35 mph velocity)
representing the crash pulse of a 2001 Toyota Echo in an NCAP frontal
crash test. The docket submissions from Diono show that for sled tests
performed with the 47 G pulse and combined child and CRS weight of 82
lb (65 lb dummy + estimated 17 lb CRS) and 97 lb (80 lb dummy +
estimated 17 lb CRS), the peak total load on the child restraint
anchorages were 25.7-27.3 kN. Those loads clearly exceed the 15 kN
quasi-static load minimum strength requirement of the anchorage system
per FMVSS No. 225.
Furthermore, while the Toyota Echo pulse at 48 G in an NCAP test
was considered a severe pulse in early 2000s, current NCAP data shows
that many recent vehicle models have stiffer front ends than the Echo,
with peak accelerations in excess of 50 G.
Additionally, Diono's data are inadequate because the data were
obtained from sled tests conducted with an FMVSS No. 213 test bench
seat. The child restraint anchorage system bars on the bench seat are
designed and constructed to withstand repeated loading in 30-35 mph
sled tests, i.e., they are reinforced over and above the anchorages of
actual vehicles. Diono did not provide any actual vehicle test data
(static or dynamic). The strength of child restraint anchorage systems
in vehicles is evaluated according to specifications in FMVSS No. 225,
which include a quasi-static load test of 15 kN applied to the lower
anchors and tethers and a quasi-static load test of 11 kN applied only
to the lower anchors. The lack of anchorage failures on NHTSA's test
bench does not indicate that real-world vehicles' anchorages are strong
enough to hold the force generated by higher weight children.
Diono referred to Economic Commission for Europe Regulation No. 44
(ECE R.44), ``Restraining Devices for Child Occupants of Power-Driven
Vehicles,'' and ECE R.14, ``Safety Belt Anchorages, ISOFIX Anchorages,
and Top Tether Anchorages,'' stating that these regulations limit to
72.6 lb the combined weight of child and child restraint for ISOFIX
use, even though ECE R.14 has slightly less stringent requirements on
the ISOFIX anchors than FMVSS No. 225.
NHTSA does not find this view persuasive. For one thing, ECE R.44
limits the maximum child weight for CRSs with harnesses and CRSs
equipped with ISOFIX to 40 lb, and specifies that the CRS weight be
less than or equal to 33 lb. FMVSS No. 213 does not have such
limitations on CRS design at this time. Thus, the overall risk of
overloading the anchors in Europe is inherently lower than in the
[[Page 10401]]
U.S. In this country, a label is needed to limit the weight on the
anchorages to within design parameters.
Second, no showing has been made by Diono that the ECE requirements
are sufficient to meet the safety need in the U.S. that is met by FMVSS
No. 225. In a 2010 Transportation Research Laboratory (TRL) contract
report, Hynd et al.\23\ noted that there is evidence that the current
ECE R.14 anchorage strength test requirements may be inadequate for
some dummy and CRS combinations allowed in ECE R.44. We are not
convinced that FMVSS No. 225's requirements should be made similar to
those of ECE R.14.
---------------------------------------------------------------------------
\23\ Hynd, M., Pitcher, M., Hynd, D., Robinson, B., Carroll,
J.A., ``Analysis for the development of legislation on child
occupant protection,'' Transportation Research Laboratory (TRL)
Report, Prepared for the European Commission under the specific
contract no. SI2:555655 and in the framework contract no. ENTR/05/
17.01, July 2010. https://ec.europa.eu/enterprise/sectors/automotive/files/projects/report-child-occupant-protection_en.pdf.
---------------------------------------------------------------------------
Diono also states that the 2012 final rule's labeling requirement
on lower anchor use contradicts Transport Canada's recent update of
Canadian Motor Vehicle Safety Standard (CMVSS) No. 213, ``Child
restraint systems,'' which permits the use of lower anchors to install
child restraints with harnesses for children weighing up to 65 lb.
We do not agree. Transport Canada has yet to consider the recent
updates to FMVSS No. 213 incorporating the 10-year-old dummy for
testing child restraints. We expect Canada to have similar issues as
the U.S. regarding child restraint misuse, incorrect installations, and
consumer confusion as to the child restraint anchorage systems.
Transport Canada may be considering the merits of the label in the
future.
Empirical Data
The petitioners request that NHTSA ``provide any test or field data
suggesting the need for a reinterpretation of the original statement
that FMVSS 225 was devised for a child weighing 65 to 80 . . . lbs.''
As explained above, FMVSS No. 225 was developed to ensure that crash
forces generated by a 65 lb combined weight will be withstood; it did
not presume a child weight alone of 65 to 80 lb. The label is intended
to inform consumers about the design limits of child restraint
anchorage systems and to keep use of the lower anchorages to within the
anchorage system's design limits. The engineering analyses underlying
the FMVSS No. 225 strength requirement have been fully discussed. The
agency is not obligated to provide ``test or field data'' to justify
why we disagree with the petitioners' view that the weight limit should
be based on a child weight alone of 65 to 80 lb.
Nonetheless, there are empirical data on this issue. There has been
failure of a child restraint anchorage system in testing conducted by
Transport Canada (30-35 mph) involving full frontal rigid barrier crash
tests of model year (MY) 2009 and 2010 vehicles. Transport Canada
placed child restraints in the outboard rear seating positions using
the child restraint anchorage system (including the top tether).\24\
The program involved 28 crash tests with the HIII-6C dummy and 4 crash
tests with the HIII-10C dummy. The weight of the CRSs used in the tests
ranged from 11.4 lb to 25.11 lb. The peak vehicle acceleration in these
crash tests ranged from 30 g to 68 g. The total anchorage loads (sum of
forces on the lower anchors and the tether anchor) ranged from 7.5 kN
to 20.8 kN with the HIII-6C dummy, and from 13.3 kN to 20.4 kN with the
HIII-10C dummy (see Tables A1(a) and A1(b) in the Appendix to this
preamble).
---------------------------------------------------------------------------
\24\ Details of the Transport Canada tests are available in the
docket for this document.
---------------------------------------------------------------------------
The failure occurred in a 35 mph frontal crash test of a 2010 Kia
Forte with the HIII-10C dummy restrained in Safety 1st Apex 65 child
restraint. The CRS was installed in the right outboard rear seat with
lower and top tether anchorages. The CRS weighed about 13 lb. The
combined weight (child+CRS) in this test was 90 lb, the peak vehicle
acceleration was 46 G. The total maximum anchorage loads measured in
this test was 20,395 N. During the test, the inboard anchor, which was
held in place by two bolts, pulled through the sheet metal resulting in
a failure at the attachment point. The anchorage failure demonstrates a
finite limit to the strength of the child restraint anchorages.
We are concerned that there are factors in play that have developed
in recent years that raise the possibility that the limits of the child
restraint anchorage system will be surpassed in more and more vehicles
by the ordinary use of modern day CRSs in modern vehicles if measures
are not in place to prevent this from happening. CRSs with internal
harnesses are being produced that are recommended for children weighing
65 lb or more. The average weight of CRSs was 15 lb when FMVSS No. 225
was first issued; now CRSs are marketed that weigh more than 30 lb.
Further, the strength requirements of the child restraint anchorage
system were based on a 48 g vehicle acceleration, which is a level
being surpassed among current vehicle models in a 35 mph frontal crash.
In contrast, there are vehicle models in the current fleet that have
peak vehicle acceleration in excess of 50 g in a 35 mph frontal crash.
Also presented in the Appendix in Tables A1(a) and A1(b) are the
results of NHTSA's computed maximum total inertial loads on the child
restraint anchorage system (F) using the combined weight of the child
dummy and the CRS (m) and the peak vehicle acceleration (a),\25\ using
Newton's second law of motion (F=ma).\26\ A comparison of the measured
and computed total anchorage loads indicates that in 13 of 32 tests (41
percent), the computed anchorage loads were within 10 percent of the
measured anchorage loads. In an additional 13 tests (40 percent),
computed anchorage loads were within 20 percent of the measured loads.
The general similarity between the measured and computed values
provides a source of confidence in the anchorage strength requirements
in FMVSS No. 225, which was based on a similar inertial load
computation using a combined CRS+child weight of 65 lb and a peak
acceleration of 48 G.
---------------------------------------------------------------------------
\25\ The vehicle accelerations were filtered in accordance with
Society of Automotive Engineers (SAE) J211, ``Instrumentation for
Impact Test--Part-1-Electronic Instrumentation,'' with SAE channel
filter class (CFC) 60 (100 Hz).
\26\ This is the same methodology used in the June 27, 2003
final rule (68 FR 38208) responding to petitions for reconsideration
of the March 5, 1999, rule establishing FMVSS No. 225 (see 68 FR at
38218 for the rationale for this method of analysis). This analysis
assumes that the child restraint is fully coupled to the vehicle and
ignores friction between the CRS and the vehicle seat. It also
assumes that the child dummy is coupled to the child restraint and
ignores friction between the dummy and CRS surface. These are
reasonable assumptions if the child restraint is securely attached
to the lower anchors and tether anchor and the CRS internal
harnesses are snugly attached.
---------------------------------------------------------------------------
Almost all of the tests showed the integrity of present day child
restraint anchorage systems in vehicles. The relatively low rate of
anchorage failures in the Transport Canada vehicle crash tests may be
because many vehicle manufacturers are designing the child restraint
anchorage systems to be stronger than that required by FMVSS No. 225;
the anchorage loads from the combined CRS+dummy weight and the peak
vehicle acceleration were within the strength capabilities of vehicle
anchorages.
Diono suggests a combined child+CRS weight limit of 80 lb. We
believe that this suggestion raises an unreasonable risk that the lower
anchorages would be overloaded, resulting in anchorage failure. The
computed total child restraint anchorage load for a peak
[[Page 10402]]
vehicle acceleration of 65 g and a combined child+CRS weight of 80 lb
is 23,187 N, which is significantly higher than the measured total
anchorage loads in the Transport Canada test series. Since there are
vehicle models with peak vehicle accelerations of approximately 60-70
g,\27\ having total anchorage loads exceeding 23,000 N is a distinct
possibility if the combined weight limit is increased to 80 lb as
suggested. Thus, we decline the request.
---------------------------------------------------------------------------
\27\ The peak vehicle acceleration of the 2012 Ford 500 is 73 g
and that of the Toyota Scion IQ is 68 g in the NCAP 35 mph full
frontal rigid barrier crash test.
---------------------------------------------------------------------------
Another matter of concern to us is the low usage rate of the tether
anchor and how nonuse of the tether, among other things, results in
higher loads being imposed on the lower anchorages. Our survey data
\28\ indicates that approximately 30 percent of forward-facing child
restraints that are installed using the lower anchorages do not have
the tether attached. To study this and other issues, NHTSA performed
sled tests at the agency's Vehicle Research and Test Center (VRTC) to
measure the loads experienced by child restraint anchorages in a
simulated crash. VRTC conducted 24 sled tests using the weighted 6-
year-old Hybrid III dummy and three child seat models (Safety 1st Apex
65, Sunshine Kids Radian 65 and Britax Frontier 85) in two vehicle
bucks (2010 Kia Forte and 2010 Ford Focus).\29\ The child restraint
models were selected because these models are marketed for heavier/
older children, and because these CRSs were tested in the vehicle crash
tests at Transport Canada. The two vehicle bucks were selected because
both the Kia Forte and the Ford Focus had high measured anchorage loads
in the Transport Canada frontal vehicle crash test program.
---------------------------------------------------------------------------
\28\ National Child Restraint Use Special Study, DOT HS 811 679,
https://www-nrd.nhtsa.dot.gov/Pubs/811679.pdf.
\29\ Amenson, T; Sullivan, L. ``Frontal Sled Tests to Measure
and Evaluate Loads on Child Restraint Anchorages,'' NHTSA Report,
copy placed in the docket for this final rule.
---------------------------------------------------------------------------
The agency selected two 35 mph, 35 g and 100 millisecond (ms)
pulses to simulate a frontal crash. One of the pulses was front loaded
while the second one was rear loaded (see Figure 1).\30\ These two
acceleration pulses were selected to cover the different vehicle
acceleration pulse shapes observed in 35 mph full frontal rigid barrier
crash tests.
---------------------------------------------------------------------------
\30\ A front or rear loaded pulse is defined by the location of
the peak acceleration relative to the midpoint of the pulse. If the
peak is before the midpoint of the pulse, the pulse is front loaded
and if it is after the midpoint, the pulse is rear loaded.
[GRAPHIC] [TIFF OMITTED] TR25FE14.000
The agency specifically selected the Kia Forte because of the lower
anchorage failure observed in the vehicle crash test conducted by
Transport Canada (discussed in the previous section). Transport
Canada's tests used the Safety 1st Apex 65 CRS (approximately 13 lb)
and the HIII-10C dummy (77 lb), for a combined weight of about 90 lb.
VRTC's test used the same Safety 1st CRS model and a weighted HIII-6C
dummy (66 lb), for a combined weight of approximately 79 lb.
VRTC conducted a sled test with the Kia Forte buck and a front
loaded sled pulse (shown in Figure 1), with the CRS installed in the
right rear outboard seating position using the lower anchors and the
top tether. Post-test evaluation showed some deformation of the sheet
metal with some forward pull of the lower anchorages but not a complete
failure of the anchorages. The total anchorage loads (lower
anchors+tether) was measured to be 17,330 N and the total load on the
lower anchors (inboard+outboard) was 11,666 N (See Table A2 in the
Appendix). However, VRTC later conducted another test, identical to the
first except the tether was not attached. In that test, there was
complete failure of the lower anchor
[[Page 10403]]
hardware. The entire bolt and nut assembly pulled through the sheet
metal. The total measured force on the lower anchors in this test was
14,922 N, which is 30 percent higher than the total lower anchor load
in the earlier test with the tether attached.
NHTSA has reviewed all the sled tests conducted at VRTC (three
child restraints in two vehicle bucks) and has determined that the
ratio of lower anchor loads (when the tether is not attached) to lower
anchor loads (when the tether is attached) ranges from 1.3 to 1.6. That
is, these sled test results indicate that the loads on the lower
anchorages are 30-60 percent higher when the tether is not used to
install the CRS than when the full child restraint anchorage system
(lower anchors+tether anchor) are used to install the CRS.
Thus, in further answer to Diono and others as to why we disagree
with the suggested approach to increase weights to 80 lb, there is
evidence of lower anchor failure when the tether was not attached at a
combined weight of only 78 lb. Since we have evidence that 30 percent
of forward-facing child restraints installed using the lower anchorages
do not have the tether attached in the real world,\31\ the labeling
requirement reduces the possibility of field failure of lower
anchorages, such as that observed in the sled test with the Kia Forte
buck, when the combined (child and child restraint) weight approaches
80 lb.
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\31\ National Child Restraint Use Special Study, DOT HS 811 679,
https://www-nrd.nhtsa.dot.gov/Pubs/811679.pdf.
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Amendments To Revise the Labeling Requirement \32\
---------------------------------------------------------------------------
\32\ The following discussion pertains to requirements that
apply only to CRSs equipped with an internal harness to restrain the
child and with components to attach to the lower anchorages of a
child restraint anchorage system, and for which the combined weight
of the CRS and the maximum recommended child weight for use with the
internal harness exceeds 65 lb.
---------------------------------------------------------------------------
The petitioners would like to ``preserve the extended use of lower
anchors.'' Ms. Baer said in correspondence to NHTSA that ``ugly
numbers--like 37 or 41 [lb]--are scary to parents & technicians,'' and
``will likely erode confidence in the LATCH system.'' Consumers Union
stated its belief that it will confuse caregivers when ``each CRS will
still feature a different maximum recommended child weight limit, based
on the differences between the seat's weight and the 65 lb limit of the
lower LATCH anchors.''
Agency Response: NHTSA has evaluated the petition and the related
correspondence and has decided to partially grant the petition. NHTSA
is making two primary changes to the labeling requirement.
First, we agree with the view that the wording of the label
specified in the 2012 final rule could lead consumers to misunderstand
the instruction, remove the harness from the CRS before they should, or
otherwise not follow the instruction. NHTSA is thus amending
S5.5.2(g)(1)(ii) of the 2012 final rule to remove the instruction from
that section. Instead, the instruction will be placed on a diagram that
FMVSS No. 213 presently requires to be on CRSs under S5.5.2(l) of the
standard. S5.5.2(l)(3) requires CRSs to be labeled with an installation
diagram showing the CRS installed in a seating position equipped with a
child restraint anchorage system (S5.5.2(l)(3)). We are adding a
provision to S5.5.2(l)(3) to specify that a statement about child
weight be included with the diagram.
The statement consists of a phrase, ``Do not install by this method
for a child weighing more than * lb.'' The ``*'' value is the
difference between 65 lb and the CRS weight, as discussed in the 2012
final rule. Alternatively, as discussed in the next section, the ``*''
value may be rounded up, subject to certain conditions.
An example of the installation diagram with the information for the
child weight limit for lower anchor use and for promoting tether use is
shown below in Figure 2.
[GRAPHIC] [TIFF OMITTED] TR25FE14.001
The advantage of using the diagram is that it separates the child
weight limit for lower anchor use from all the other information on the
label in S5.5.2(g)(1)(ii) and puts it in a location where relevant
installation information is provided. It is also advantageous to use
diagrams over words to communicate information. The instruction on
weight limits is concise and clear. This change will add more clarity
regarding the child weight limits and will also be easily available to
the caregiver installing the CRS.
Second, NHTSA concurs that the uniquely specific weight values
provided on each CRS, based on the difference between 65 lb and the
actual weight of the CRS, could be confusing to some consumers. For
this reason, the agency is amending the final rule to add some
flexibility in the maximum child weight calculation so that the label
could be rounded up to display a child weight that is a multiple of
five lb, which will be easier for consumers to remember, possibly less
confusing to them, and appropriate from a safety point of view. This
``rounding up'' of
[[Page 10404]]
the value is at the option of the manufacturer.
To provide this flexibility, the agency balanced the merits of
allowing the child weight limit to be rounded up with the need to avoid
an unreasonable risk of potentially overloading the anchorages. We also
recognized the need to give different accommodation for CRSs in the
forward-facing and rearward-facing modes.
CRSs in the Forward-Facing Mode \33\
---------------------------------------------------------------------------
\33\ Again, this requirement applies only to forward-facing CRSs
with internal harnesses for which the combined weight of the CRS and
the maximum recommended child weight for use with internal harness
exceeds 65 lb.
---------------------------------------------------------------------------
NHTSA is amending the February 27, 2012 final rule to permit CRS
manufacturers some flexibility in the calculated child weight limit for
use with child restraint anchorage systems. We are retaining the
requirement that the CRS must specify a maximum child weight for lower
anchor use unique to each CRS model. Under the 2012 final rule, the
maximum child weight that must be specified on the label is less than
or equal to the difference between 65 lb and the weight of the CRS in
pounds. Under today's final rule, that requirement is retained, but we
are also providing manufacturers an option of rounding the value up to
the next multiple of 5 lb. We are adding a provision in FMVSS No. 213
that specifies a lookup table for the maximum child weight limit in
multiples of 5 lb for different weight ranges (65 - CRS weight (lb))
and are providing manufacturers the option of employing the table to
round up the child weights. See Table 1, below.
Table 1--For CRSs in Forward-Facing Mode
------------------------------------------------------------------------
Child weight
x = 65 minus CRS Weight (lb) limit on label
(lb)
------------------------------------------------------------------------
20 < x <= 25............................................ 25
25 < x <= 30............................................ 30
30 < x <= 35............................................ 35
35 < x <= 40............................................ 40
40 < x <= 45............................................ 45
45 < x <= 50............................................ 50
50 < x <= 55............................................ 55
55 < x <= 60............................................ 60
------------------------------------------------------------------------
We recognize that there is a possibility that this amendment will
permit a manufacturer to indicate a child weight limit on the label
that, when combined with the CRS weight, the combined (child+CRS weight
limit) could marginally exceed 65 lb. For instance, if the CRS weighed
19 lb, then x = 65 lb minus 19 lb = 46 lb; rounding up results in a
child weight limit on the label) = 50 lb. This would lead to a combined
(CRS + child) weight = 50 lb + 19 lb = 69 lb. Although this combined
weight is greater to a slight degree than 65 lb, we believe this
situation is acceptable for the following reasons.
First, data indicate that vehicles are equipped with child
restraint anchorage systems (lower anchorages plus tether anchorage)
that sufficiently surpass the minimum strength requirement of FMVSS No.
225 such that the anchorages will withstand crash forces generated by a
combined (child+CRS) weight of 70 lb. NHTSA performed quasi-static
tests on the child restraint anchorages in eleven MY 2006-2011 \34\
vehicle models and 18 MY 2013 vehicle models \35\ to explore the
strength of the anchorages in the current fleet. (These vehicles were
previously crash-tested, but NHTSA examined the vehicles to assess the
condition of the child restraint anchorage systems to determine the
suitability of the vehicles for inclusion in the quasi-static test
program.) The tests consisted of pulling the lower anchorages alone at
the two outboard rear seating positions using the Static Force
Application Device 2 (SFAD 2) \36\ as specified in FMVSS No. 225, using
the same loading rate but to higher loads or to anchorage failure. A
static pull test was also conducted on the tether anchors alone in
three rear seating positions using a cable at loading rates similar to
that specified in FMVSS No. 225, but again to higher loads or to
anchorage failure.\37\
---------------------------------------------------------------------------
\34\ Velentin-Ruiz, et al. ``Quasi-static load tests to evaluate
the strength of child restraint anchorage systems in MY 2006-2011
vehicles,'' NHTSA Report, December 2013. See docket for this final
rule.
\35\ ``Quasi-static load tests to evaluate the strength of child
restraint anchorage systems in MY 2013 vehicles,'' ALPHA Technology
Associates, Inc., December 2013. See docket for this final rule.
\36\ Shown in Figure 17 and 18 of FMVSS No. 225, ``Child
restraint anchorage systems.''
\37\ The agency had planned to test all the anchorages to
failure. However, when the SFAD 2 broke in one of the tests before
the vehicle anchorages failed, the agency decided to limit the
quasi-static load to 20 kN for the lower anchors in the remaining
tests to prevent continuously damaging and repairing the SFAD 2. In
addition, the tether loads were limited to 10 kN to prevent damage
to the equipment. Since the tether anchorage tests were performed
after the lower anchorage tests, and because some of the vehicle
seats experienced excessive seat damage and deformation during the
lower anchorage tests, achieving target loads in the tether
anchorage tests was not possible in some vehicles.
---------------------------------------------------------------------------
Among the 11 MY 2006-2011 vehicle models tested, 19 lower anchor
sets (comprising two lower anchor bars) and 27 tether anchors were
subjected to quasi-static loads. Of these, 14 lower anchor sets had
strengths greater or equal to 20 kN, and all the tether anchors had
strengths greater than 10 kN. Among the 18 MY 2013 vehicle models
tested, 37 lower anchor sets and 46 tether anchors were subjected to
quasi-static loads, among which 24 lower anchor sets had strengths
greater than 20 kN and 25 tether anchors had strengths greater than 10
kN.\38\
---------------------------------------------------------------------------
\38\ In some tests, even though there was no anchorage failure,
there was significant displacement and deformation of adjoining
structures including the seat. In some cases, the target loads could
not be achieved without failure of the anchorages because of
significant deformation of the seat structure.
---------------------------------------------------------------------------
The test results are set forth in a technical document placed in
the docket. All in all, the results indicate that the quasi-static
lower anchorage strength in current vehicles is significantly higher
that required by FMVSS No. 225. The lowest force that produced lower
anchor failure was 19.7 kN (2010 Kia Forte).\39\ Our testing suggests
that child restraint anchorage systems as currently manufactured are
capable of withstanding the forces from a combined weight of 70 lb in a
crash.
---------------------------------------------------------------------------
\39\ However, some vehicles may sustain significant rear seat
movement at higher loads (such as that of the Toyota Yaris), which
may result in an increase in the forward excursion of the CRS in a
frontal crash. This suggests that while current child restraint
anchorage designs are more robust than the minimum required designs,
they do have strength limits and so may not be adequate for
installing heavy child restraint models with very heavy or older
children.
---------------------------------------------------------------------------
Second, although there is no consistent and direct correlation
between dynamic to static strength of anchorage systems and the dynamic
to static strength ratio is vehicle specific, data show that child
restraint anchorage systems are able to withstand higher loads
dynamically than statically. Our test data demonstrate that the dynamic
strength of the child restraint anchorage systems (lower anchors+tether
anchor) in our tests was greater than the 15 kN load required by FMVSS
No. 225. In the Alliance's petition for reconsideration of the strength
requirements of the 1999 final rule, the Alliance indicated that the
quasi-static test load of FMVSS No. 225 simulating a high-speed impact
should be approximately 50 percent of the expected dynamic load.\40\ As
discussed in the 2003 final rule responding to petitions for
reconsiderations (68 FR 38218), Toyota determined that the tether
anchorage was able to withstand about 30 percent greater loads
dynamically than statically. NHTSA has considered these findings and
believes that data indicate that the child restraint anchorage system
will be able to withstand the crash
[[Page 10405]]
forces generated by the combined child weight (rounded up) + CRS
weight.
---------------------------------------------------------------------------
\40\ See 68 FR 38208, 38218; June 27, 2003.
---------------------------------------------------------------------------
CRSs in the Rear-Facing Mode \41\
---------------------------------------------------------------------------
\41\ Again, this requirement applies only to rear-facing CRSs
with internal harnesses for which the combined weight of the CRS and
the maximum recommended child weight for use with internal harness
exceeds 65 lb.
---------------------------------------------------------------------------
Rear-facing CRSs typically do not have a top tether attachment.
When FMVSS No. 225 became effective in 1999, rear-facing child
restraints were generally recommended for children weighing up to 20
lb. Currently in the market, there are ``3-in-1'' child restraints that
alone weigh more than 20 lb that are recommended to use rear-facing
with children weighing up to 45 lb. Thus, for these CRSs, the combined
weight of CRS and the maximum weight of child recommended for the CRS
exceeds 65 lb. Since these rear-facing child restraints are only
attached using the lower anchorages without a tether, the lower
anchorages are subjected to greater loads in a crash than if a similar
weight child and CRS were in the forward-facing mode with the tether
attached.
In its correspondence sent to the agency, the Alliance requested
that NHTSA make clear that the label limiting the combined (child+CRS)
weight to 65 lb for lower anchor use also must be placed on rear-facing
child restraints.
In response, we agree to reiterate that the labeling requirement of
the February 2012 final rule applies to those CRSs using lower
anchorages in the rear-facing mode. There is good reason for the
applicability to these CRSs, as the safety need addressed by the label
is relevant to rear-facing CRSs as it is to forward-facing CRSs.
However, we believe that the combined child+CRS weight should not
exceed 65 lb for CRSs in the rear-facing mode under any circumstances,
unlike the potential 70 lb limit for forward-facing restraints using
the 3-point anchorage attachment (lower anchors plus tether anchor).
This is because FMVSS No. 225 requires the minimum strength of lower
anchorages alone to be only 11 kN (compared to the 15 kN strength of
the full 3-point anchorage system).
Accordingly, manufacturers of covered rear-facing CRSs must specify
a maximum child weight limit for lower anchor use. (Again, the covered
CRSs are those that are recommended for use in the rear-facing mode,
for which the combined weight of the CRS and the maximum recommended
child weight for the rear-facing mode exceeds 65 lb.) We are retaining
the provision that each covered CRS must be labeled with the maximum
child weight for use with the lower anchors, which is less than or
equal to the difference between 65 lb and the weight of the CRS in
pounds. The CRS manufacturer is to provide the child weight on the
installation diagram specified by S5.5.2(l).
However, under today's final rule, we are also providing
manufacturers an alternative of using a maximum child weight value that
is a multiple of 5 lb by way of a lookup table. This alternative is
adopted to enable manufacturers to avoid displaying an ``ugly number''
for the child weight. We are adding a provision in FMVSS No. 213 that
specifies the lookup table for the maximum child weight limit in
multiples of 5 lb for different weight ranges (60 - CRS weight (lb))
and are providing manufacturers the option of employing the table to
obtain the maximum child weight limit. The maximum child weight limit
is based on a calculation of 60 lb minus the weight of the CRS. We are
using 60 lb rather than 65 lb as a starting point to ensure that the
rounded value does not exceed 65 lb. This is important because for
rear-facing restraints, the top tether will not be employed so the
lower anchorages will be experiencing more crash forces than the full
child restraint anchorage system. See Table 2, below.
Table 2--for CRSs in Rear-Facing Mode
------------------------------------------------------------------------
Child weight
x = 60 - CRS weight (lb) limit on label
(lb)
------------------------------------------------------------------------
15 < x <=20............................................. 20
20 < x <=25............................................. 25
25 < x <=30............................................. 30
30 < x <=35............................................. 35
35 < x <=40............................................. 40
40 < x <=45............................................. 45
45 < x <=50............................................. 50
50 < x <=55............................................. 55
------------------------------------------------------------------------
Based on our testing experience, we believe that a set of minimally
compliant lower anchorages (with a quasi-static strength of 11 kN) has
sufficient dynamic strength to withstand inertial loads from a combined
weight of 65 lb in a 35 mph frontal crash.\42\
---------------------------------------------------------------------------
\42\ Since the child restraint is not tightly coupled to the
vehicle when the tether is not attached, we are unable to determine
the combined child weight limit using Newtonian principles since the
peak acceleration of the child restraint cannot be assumed to be
that of the vehicle.
---------------------------------------------------------------------------
CRSs Used Both Rear- and Forward-Facing
For CRSs that have a rear-facing and forward-facing mode with
internal harnesses, we prefer that the CRS provide installation
diagrams in both modes along with a corresponding maximum child weight
limit for lower anchor use, if such a limit is required. However, we
are not requiring installation diagrams in both modes at this time. If
a CRS manufacturer only provides one installation diagram and if a
child weight limit is required in only one of the modes (rear-facing or
forward-facing), then the diagram shall depict the installation in that
particular mode along with the corresponding child weight limit.
Alternatively, if a child weight limit is required in both modes and
only one installation diagram is provided, then the child weight limit
is either less than or equal to the difference between 65 and the CRS
weight (lb) or the lesser of the child weight limits determined by way
of Table 1 for the forward-facing mode and Table 2 for the rear-facing
mode.
The Label's Effect on Current Weight Recommendations
The petitioners express concern that the 65 lb combined maximum
weight limit ``will unnecessarily restrict the use of the LATCH system
and force caregivers back to using seat belts for anchoring forward-
facing'' child restraints.
We do not agree that the new label will significantly reduce the
number of CRSs that are installed with the lower anchorages of child
restraint anchorage systems. Currently, technicians at child seat
inspection stations recommend use of the child restraint anchorage
system for children weighing between 40-48 lb, which corresponds to
about a 6-year-old (see Table 3, below).\43\ We reviewed the weights of
harness-equipped CRSs in the market since 2008 \44\ to assess what the
child weight limit for lower anchor use would be per the new labeling
[[Page 10406]]
requirement. The detailed data are provided in Table A3 in the appendix
to this preamble. Our review of 69 forward-facing harness-equipped CRSs
showed that only 3 percent (2/69) of CRS models would have a child
weight limit less than 40 lb. A child weight of 40 lb corresponds to a
50th percentile 5-year-old child by weight (see Table 3, below).
Twenty-nine (29) percent (20/69) would have a child weight limit of 40
or 45 lb. Thirty-six (36) percent (25/69) would have a child weight
limit greater or equal to 50 lb for lower anchor use per the new
labeling requirement, which corresponds to approximately a 40th
percentile 7-year-old child, by weight. Finally, 32 percent (22/69)
would not require a label specifying maximum child weight for lower
anchor use since the combined CRS and maximum recommended child weight
in harness-equipped CRSs is less than 65 lb (17 of these CRSs have a
recommended child weight of 40 lb and for the remaining 5 CRSs it is 50
lb). Thus, the label will expand lower anchor use past the 48 lb child
weight limit for forty-four (44) percent of child restraints, and only
restricts approximately 3 percent of CRS models to a child weight limit
less than 40 lb for lower anchor use. Overall, the label will not
reduce current lower anchor use but will provide clarity and assurance
that the anchors can be used as the child grows, which may in fact
increase use of the anchors.
---------------------------------------------------------------------------
\43\ We understand that fitting station technicians currently
use a child weight limit of 40 lb (corresponding to the weight of a
50th percentile 5-year-old child) if the child weight limit for
lower anchor use is not provided by the vehicle manufacturer.
Because most vehicle manufacturers and CRS manufacturers have not
provided a maximum child weight limit for lower anchor use,
technicians in the field have been applying a child weight limit of
40 lb. Thus, a 40 lb maximum child weight for lower anchor use
represents one end of the range of current ``industry''
recommendations. Further, the manual used by technicians indicates
that 42 percent of vehicle makes specifies a child weight limit of
48 lb for lower anchor use. (A child weight of 48 lb corresponds to
an 85th percentile 5-year-old, 60th percentile 6-year-old, and 40th
percentile 7-year-old child by weight, according to the 2000 CDC
growth charts (see Table 3).) The 48 lb weight represents another
part of the range of current industry recommendations for lower
anchorage use.
\44\ All CRSs evaluated under NHTSA's CRS Ease-of-Use rating
program for the years 2008-2012 were further evaluated to determine
the maximum child weight for lower anchor use.
Table 3--5th, 50th, and 95th Percentile Weight and Height of Children by Age (CDC Growth Charts 2000)
--------------------------------------------------------------------------------------------------------------------------------------------------------
Weight (lb) Height (in)
-----------------------------------------------------------------------------------------------
Age 50th 95th
5th percentile percentile percentile 5th percentile 50 percentile 95 percentile
--------------------------------------------------------------------------------------------------------------------------------------------------------
1....................................................... 19 22 28 28 30 32
2....................................................... 23 28 34 32 35 37
3....................................................... 28 31 39 35 38 40
4....................................................... 30 36 45 38 40 43
5....................................................... 33 41 51 40 43 46
6....................................................... 37 45 60 43 46 49
7....................................................... 41 51 68 45 48 52
8....................................................... 45 58 77 47 51 55
--------------------------------------------------------------------------------------------------------------------------------------------------------
The agency found no infant carriers for which the combined
CRS+child weight (CRS weight + maximum child weight recommended for
infant seat) exceeded 65 lb; therefore, no infant carrier will
currently need the label.
Among 46 CRS convertible and 3-in-1 models which can be used in
rear-facing mode, only 4 CRS models (8.7 percent) had a combined
child+CRS weight (maximum child weight + CRS weight recommended for
rear-facing mode) in excess of 65 lb, which requires a label specifying
the maximum child weight for lower anchor use (See Table A3 in the
Appendix to this preamble). Among these 4 CRSs, one CRS weighs 33.8 lb
with a recommended child weight in rear-facing mode of 40 lb, and the
remaining 3 CRSs weighed between 22.3-25.8 lb with a recommended child
weight in rear-facing mode of 45 lb.\45\ It is unlikely that these CRSs
will be used in rear-facing mode to the maximum recommended child
weight of 40-45 lb since, as discussed in the next section, the child
may get too tall to sit comfortably rear-facing or may exceed the
height requirement before the weight limit is reached.
---------------------------------------------------------------------------
\45\ For reference, a 50th percentile 5 year-old weighs about 40
lb and a 50th percentile 6 year-old weighs 45 lb.
---------------------------------------------------------------------------
Permitting the calculated child weight limit to be a multiple of 5
lb will result in values that will be easier for the consumer to
understand. The agency will incorporate this label in education
material so that consumers are aware that there is a maximum child
weight limit for lower anchor use and to look for this information on
the CRS.
Practical Implications
Field data show that harness-equipped CRSs are not now being widely
used by consumers for children weighing more than 50 lb. The agency
analyzed data from the National Child Restraint Use Special Study
(NCRUSS) \46\ to examine this issue. The survey data show that among
children restrained in forward-facing harness-equipped CRSs (for both
seat belt and lower anchor installation), 92.3 percent of the children
weighed 40 lb or less, 5.9 percent weighed 41 to 50 lb, and only 1.5
percent weighed more than 50 lb (see Figure 3). Data suggest that
children are outgrowing CRSs by height rather than by weight.
---------------------------------------------------------------------------
\46\ NCRUSS is a large-scale nationally-representative survey
that contains both an inspection of the child passenger's restraint
system (or lack thereof) by a certified Child Passenger Safety
Technician (CPST) and a detailed interview of the driver conducted
by a highly trained investigation specialist.\46\ The survey
collected information on drivers and their child passengers 0-8
years old between June and August 2011. National Child Restraint Use
Special study, DOT HS 811 679, https://www-nrd.nhtsa.dot.gov/Pubs/811679.pdf.
---------------------------------------------------------------------------
[[Page 10407]]
[GRAPHIC] [TIFF OMITTED] TR25FE14.002
Since rear-facing harness-equipped CRSs are now designed for older/
heavier children, the agency also used the NCRUSS survey to explore how
these CRSs are used in the field. The NCRUSS survey show that 83.4
percent of children in rear-facing convertible or all-in-one seats
(both of which are equipped with harnesses) weighed 25 lb or less, 13.2
percent weighed 26 to 30 lb, 3.2 percent weighed 30 to 35 lb
(corresponding to a 50th percentile 4-year-old or 75th percentile 3-
year-old), and 0.2 percent weighed more than 35 lb. The NCRUSS survey
also show that 85.1 percent of children in rear-facing infant seats
weighed 25 lb (corresponding to a 50th percentile 18 month old) or
less, 13.9 percent weighed 26 to 30 lb,\47\ and 1 percent weighed more
than 30 lb (see Figure 4). The NCRUSS survey show that children
weighing more than 35 lb are almost never restrained in rear-facing
child restraints.
---------------------------------------------------------------------------
\47\ A 30 lb child corresponds to a 50th percentile 3-year-old.
---------------------------------------------------------------------------
[[Page 10408]]
[GRAPHIC] [TIFF OMITTED] TR25FE14.003
Using Seat Belts
The petitioners state that ``the decision to adopt 65 pounds as the
combined maximum weight . . . will unnecessarily restrict the use of
the LATCH system and force caregivers back to using seat belts for
anchoring forward-facing [CRSs].'' JPMA states that CRSs might not
achieve a tight fit with a seat belt or may be too difficult to install
with a seat belt and that parents might not know to switch to the seat
belt during the several-year course of a CRS's use. Dorel states that
child restraint anchorage systems are easier to use and have a higher
rate of correct installation than seat belts, so an installation by the
former is safer than a belt installation.
Agency Response: These arguments are speculative and unsupported.
Field data show a high percentage of children weighing over 40 lb
restrained in forward-facing CRSs installed with seat belts, i.e.,
consumers are now attaching CRSs with seat belts at a high rate. The
consumers will not be ``forced back'' to doing something different.\48\
Moreover, recent field data \49\ shows that most children graduate to
booster seats when they reach approximately 40 lb, which corresponds to
a 95th percentile 3-year-old or a 50th percentile 5-year-old. Thus, it
appears unlikely that the label will ``force caregivers back to using
seat belts for anchoring forward-facing'' CRSs since many children do
not now use harness-equipped CRSs when they reach 40 lb in weight.
---------------------------------------------------------------------------
\48\ It does not make sense to us that we should suspend the
label because parents might not remember to switch to the seat belt
during the course of a CRS's use, as suggested by JPMA. It seems to
us that it makes more sense to try to instruct consumers of the
design limits of child restraint anchorage systems so that they may
be informed to correctly use of the systems, than to forgo informing
them about the 65 lb limit because it is presumed that the consumer
is unlikely to switch to the seat belt at the appropriate time.
\49\ NCRUSS, DOT HS 811 679, https://www-nrd.nhtsa.dot.gov/Pubs/811679.pdf.
---------------------------------------------------------------------------
The arguments that new seat belt designs are incompatible with CRS
installation are speculative. Views are evolving regarding the
compatibility of new belt designs, such as inflatable seat belts, with
CRS installation. For instance, Britax initially recommended against
CRS installation using inflatable belts, but has changed its mind and
now permits CRS installations with the belts. We do not have reason to
believe that seat belts with advanced technologies cannot be designed
to install CRSs. We also note that SAE J1819 is undergoing revisions to
improve compatibility of seat belts and child restraint anchorages with
CRSs.\50\ It would be premature for NHTSA to conclude that changes in
seat belt design render installation of CRSs by seat belts unfeasible.
---------------------------------------------------------------------------
\50\ Society of Automotive Engineers (SAE) J1819, ``Securing
Child Restraint Systems in Motor Vehicles.'' This SAE recommended
practice is meant to promote compatibility between child restraint
systems and vehicle seats and seat belts. The recommended practice
provides design guidelines to vehicle manufacturers for certain
characteristics of seats and seat belts, and to CRS manufacturers
for corresponding CRS features so that each can be made more
compatible with the other. https://standards.sae.org/wip/j1819/.
---------------------------------------------------------------------------
Regarding Dorel's statement, NHTSA believes that the statement is
not germane to the issue of the design limits of child restraint
anchorage systems. If the anchorages are used in a manner that results
in material failure because the design limits of the anchorage system
were exceeded, the child passenger is at risk regardless of the
relative ease of using child restraint anchorage systems or the
tightness of the installation of CRSs on the anchorages.
Tether Anchorages
The petitioners also state that their intent in petitioning for
reconsideration of the rule was to ``minimize the likelihood that
vehicle manufacturers will apply the same formula'' to tether
anchorages. Issues relating to weight limits for the top tether
anchorage are out of scope of this rulemaking.
Increasing the Strength of the Anchorage System
The petitioners believe that NHTSA should require vehicle
manufacturers to increase the strength of child restraint anchorage
systems to accommodate a higher combined weight. This issue is out of
scope of this rulemaking.
[[Page 10409]]
b. Other Issues
Head Excursion
Graco requests that the 10YO test dummy only be used to test CRSs
when the dummy fits in the seat as per the manufacturer's recommended
usage. Graco states that it produces a harness-equipped CRS recommended
for a 70 lb child, but limits the recommended seated height of the
child occupant and limits the head height relative to the seat. Graco
asks that the 10YO dummy not be used to evaluate performance of the CRS
if the dummy exceeds the recommended limits on seating height. Graco
believes that in the real world, the seat would not be used with a
child of this stature, and as a result, the 10YO dummy may give
inaccurate readings. Alternatively, Graco suggests that the dummy be
used to evaluate CRSs to assess structural integrity, chest resultant,
and knee excursion limits but not the head excursion requirement. Graco
states that the head excursion measurement resulting from the use of
the 10YO dummy would not represent the real world due to the dummy
being significantly taller than the recommended child occupant.
Agency Response
The agency is denying Graco's request. It is not in the public
interest to exclude testing those CRSs recommended for children of a
weight range represented by the 10YO dummy but whose height may be
lower than that of the dummy.
The agency indirectly addressed this issue in the rulemaking. In
the 2008 SNPRM (73 FR 3908), we had considered whether FMVSS No. 213
should expressly require that each CRS be capable of fitting the test
dummy that is specified in S7 of the standard to evaluate the CRS. The
agency only received comments from JPMA, which stated that child
restraints are designed to accommodate the dummies with which they will
be tested and that an explicit ``fit'' requirement is not required.
After reviewing the comment, the agency decided not to pursue a fit
requirement, assuming it was not needed because manufacturers already
ensure that CRSs accommodate/fit the appropriate child dummies.
Graco is now indicating that a CRS it has produced is recommended
for children represented by the 10YO dummy weight-wise, but does not
fit the dummy height-wise. We do not believe it would be in the
interest of safety to exclude the CRS from testing with the 10YO dummy,
or exclude the CRS from a performance requirement, because the CRS does
not actually fit the dummy. We believe that a better approach would be
to subject the CRS to testing with the dummy if the manufacturer
recommends the CRS for use with children represented by the dummy, as
designated by S7 of FMVSS No. 213.
We have not been provided with any compelling information to
exclude Graco's CRS from testing with the dummy. Graco has the option
to lower the child weight recommendation of the CRS in question from 70
lb to 65 lb to avoid testing with the dummy, or it could continue to
market the CRS for children over 65 lb and ensure that the CRS meets
the FMVSS No. 213 requirements when tested with the 10YO (such as by
redesigning the CRS to have a harness slot that can properly
accommodate the 10YO dummy and/or making any structural changes needed
to ensure integrity and performance using this dummy).
Weights of the Anthropomorphic Test Devices
The February 2012 final rule adopted a provision (S5(f)) that
basically excludes CRSs equipped with an internal harness from FMVSS
No. 213 while attached to the lower anchors of the child restraint
anchorage system under certain circumstances. The circumstances are:
The test dummy used to test the CRS is of a weight such that the
dummy's weight plus the CRS weight exceeds 65 lb. In a March 29, 2012
letter on this provision, Graco states that:
[T]esting will be required with LATCH if the combined ATD and
CRS weight is under the 65 lb limit. Therefore, the weight of the
ATD will be important in determining what testing is required for
any CRS. Since ATD weights vary and the addition of clothing, shoes,
and instrumentation can add significant weight to the ATD, . . .
[NHTSA should] publish a list of the useful weight for each ATD to
be used for testing.
In response, NHTSA agrees that the provision in the 2012 final rule
implies a need for information on the test dummy weights. However, as
Graco notes, the test dummy weights vary, and the addition of clothing,
shoes, and instrumentation (the weights for which are not specified in
NHTSA's regulations) can affect the ``weight'' of the test dummy and
add undue uncertainty to the test provisions of the standard.
Uncertainty results from variability in the weight of the dummy due to
variances in the clothing, shoes, and instrumentation used with a
particular dummy. We conclude that, to avoid this uncertainty, S5(f)
should be slightly revised to move from a reference of ``a test dummy
of a weight'' to ``the average weight of the child represented by the
test dummy.'' The average weight of the child represented by the dummy
can be specified in FMVSS No. 213--which NHTSA is specifying in this
final rule \51\--and is not subject to the same degree of variation as
the ``test dummy of a weight'' provision. Thus, we will reword S5(f) to
exclude from lower anchor testing CRSs tested with a dummy that results
in the combined weight of the CRS and the average weight of child
represented by the test dummy (shown in a table in the standard) to
exceed 65 pounds in the forward-facing mode and 65 pounds in the rear-
facing mode.\52\
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\51\ The average weight of child represented by the various test
dummies in the table is obtained from the Centers for Disease
Control (CDC) 2000 Growth Charts.
\52\ Such a child restraint must meet the standard when tested
using its internal harnesses to restrain such a test dummy while
attached to the standard seat assembly using the belt system.
---------------------------------------------------------------------------
Using the average child weight represented by the test dummy
eliminates the variability of dummy weights due to differences in
instrumentation and clothing. The average child weights are within the
weight range for dummy selection specified in S7.1.2 and so would not
change the method of testing CRSs. In addition, using the average child
weight in the referenced table ensures that the child restraint system
is tested using lower anchors with the test dummy closest to the
maximum child weight limit on the label for lower anchor use.
An example illustrating this is as follows. If a CRS weighing 19 lb
has a label specifying 50 lb as the maximum child weight for lower
anchor use, this CRS will be tested using the lower anchors with the
Hybrid III 6-year-old dummy. The average weight of the child
represented by this test dummy is 45 lb.
V. Rulemaking Analyses and Notices
Executive Order (E.O.) 12866, E.O. 13563 and DOT Regulatory Policies
and Procedures
The agency has considered the impact of this regulatory action
under E.O. 12866 and E.O. 13563 and the Department of Transportation's
(DOT's) regulatory policies and procedures. This rulemaking action was
not reviewed by the Office of Management and Budget under E.O. 12866.
This rulemaking is also not significant under DOT's regulatory policies
and procedures (44 FR 11034, February 26, 1979).
This response to a petition for reconsideration mostly denies the
petition. The few changes that are being made are minor, mostly to
clarify a labeling requirement and to provide
[[Page 10410]]
flexibility to CRS manufacturers regarding the wording of the label. We
estimate that today's final rule has no effect on the estimated costs
and benefits and other economic impacts of the February 27, 2012 final
rule.
Regulatory Flexibility Act
The Regulatory Flexibility Act of 1980, as amended, requires
agencies to evaluate the potential effects of their proposed and final
rules on small businesses, small organizations and small governmental
jurisdictions. I hereby certify that this final rule will not have a
significant economic impact on a substantial number of small entities.
Small organizations and small governmental units will not be
significantly affected since the potential cost impacts associated with
this final rule will not significantly affect the price of child
restraints.
This final rule denies most of the petition for reconsideration of
the February 2012 final rule. To the extent we are amending the
original final rule, the amendments are minor, mostly to clarify a
labeling requirement, and adequate lead time is provided. The cost of
revising the label is minimal.
National Environmental Policy Act
NHTSA has analyzed this rulemaking action for the purposes of the
National Environmental Policy Act. The agency has determined that
implementation of this action would not have any significant impact on
the quality of the human environment.
Executive Order 13132 (Federalism)
NHTSA has examined this final rule pursuant to Executive Order
13132 (64 FR 43255, August 10, 1999) and concluded that no additional
consultation with States, local governments or their representatives is
mandated beyond the rulemaking process. The agency has concluded that
the rulemaking would not have sufficient federalism implications to
warrant consultation with State and local officials or the preparation
of a federalism summary impact statement. The final rule would not have
``substantial direct effects on the States, on the relationship between
the national government and the States, or on the distribution of power
and responsibilities among the various levels of government.''
NHTSA rules can preempt in two ways. First, the National Traffic
and Motor Vehicle Safety Act contains an express preemption provision:
When a motor vehicle safety standard is in effect under this chapter, a
State or a political subdivision of a State may prescribe or continue
in effect a standard applicable to the same aspect of performance of a
motor vehicle or motor vehicle equipment only if the standard is
identical to the standard prescribed under this chapter. 49 U.S.C.
30103(b)(1). It is this statutory command by Congress that preempts any
non-identical State legislative and administrative law addressing the
same aspect of performance.
The express preemption provision described above is subject to a
savings clause under which ``[c]ompliance with a motor vehicle safety
standard prescribed under this chapter does not exempt a person from
liability at common law.'' 49 U.S.C. 30103(e) Pursuant to this
provision, State common law tort causes of action against motor vehicle
or equipment manufacturers that might otherwise be preempted by the
express preemption provision are generally preserved. However, the
Supreme Court has recognized the possibility, in some instances, of
implied preemption of such State common law tort causes of action by
virtue of NHTSA's rules, even if not expressly preempted. This second
way that NHTSA rules can preempt is dependent upon there being an
actual conflict between an FMVSS and the higher standard that would
effectively be imposed on motor vehicle or equipment manufacturers if
someone obtained a State common law tort judgment against the
manufacturer, notwithstanding the manufacturer's compliance with the
NHTSA standard. Because most NHTSA standards established by an FMVSS
are minimum standards, a State common law tort cause of action that
seeks to impose a higher standard on motor vehicle or equipment
manufacturers will generally not be preempted. However, if and when
such a conflict does exist--for example, when the standard at issue is
both a minimum and a maximum standard--the State common law tort cause
of action is impliedly preempted. See Geier v. American Honda Motor
Co., 529 U.S. 861 (2000).
Pursuant to Executive Order 13132 and 12988, NHTSA has considered
whether this rule could or should preempt State common law causes of
action. The agency's ability to announce its conclusion regarding the
preemptive effect of one of its rules reduces the likelihood that
preemption will be an issue in any subsequent tort litigation.
To this end, the agency has examined the nature (e.g., the language
and structure of the regulatory text) and objectives of this rule and
finds that this rule, like many NHTSA rules, prescribes only a minimum
safety standard. As such, NHTSA does not intend that this rule preempt
state tort law that would effectively impose a higher standard on motor
vehicle or equipment manufacturers than that established by this rule.
Establishment of a higher standard by means of State tort law would not
conflict with the minimum standard announced here. Without any
conflict, there could not be any implied preemption of a State common
law tort cause of action.
Executive Order 12988 (Civil Justice Reform)
With respect to the review of the promulgation of a new regulation,
section 3(b) of Executive Order 12988, ``Civil Justice Reform'' (61 FR
4729, February 7, 1996) requires that Executive agencies make every
reasonable effort to ensure that the regulation: (1) Clearly specifies
the preemptive effect; (2) clearly specifies the effect on existing
Federal law or regulation; (3) provides a clear legal standard for
affected conduct, while promoting simplification and burden reduction;
(4) clearly specifies the retroactive effect, if any; (5) adequately
defines key terms; and (6) addresses other important issues affecting
clarity and general draftsmanship under any guidelines issued by the
Attorney General. This document is consistent with that requirement.
Pursuant to this Order, NHTSA notes as follows. The preemptive
effect of this rule is discussed above. NHTSA notes further that there
is no requirement that individuals submit a petition for
reconsideration or pursue other administrative proceeding before they
may file suit in court.
Paperwork Reduction Act
NHTSA has provided a 60-day comment period (77 FR at 11645) and a
30-day comment period (78 FR at 77554) on the collection of information
requirement in the previous final rule.\53\ The agency asked for public
comments on a collection of information titled, ``Consolidated Child
Restraint System Registration, Labeling and Defect Notifications.'' OMB
Control Number: 2127-0576. The requested expiration date of approval is
3 years from the approval date. We requested approval of a revision to
a currently approved collection, and for revising an existing label and
adding a sentence to the printed instructions of certain child
restraint systems (CRSs with internal harnesses for which the combined
[[Page 10411]]
weight of the CRS and the maximum recommended child weight for use with
internal harness exceeds 65 lb). The added sentences will inform the
consumer that the lower anchors of a child restraint anchorage system
may be used up to a combined weight of child and harnessed-child
restraint of 65 lb. The purpose of this label is to reduce consumer
confusion about using the lower anchors and to reduce the risk that the
lower anchors will be used in a way that is beyond the design
limitations of the anchorage system.
---------------------------------------------------------------------------
\53\ Under the Paperwork Reduction Act of 1995, a person is not
required to respond to a collection of information by a Federal
agency unless the collection displays a valid OMB control number.
---------------------------------------------------------------------------
National Technology Transfer and Advancement Act
Section 12(d) of the National Technology Transfer and Advancement
Act of 1995 (NTTAA), Public Law 104-113, section 12(d) (15 U.S.C. 272)
directs NHTSA to use voluntary consensus standards in its regulatory
activities unless doing so would be inconsistent with applicable law or
otherwise impractical. Voluntary consensus standards are technical
standards (e.g., materials specifications, test methods, sampling
procedures, and business practices) that are developed or adopted by
voluntary consensus standards bodies, such as the Society of Automotive
Engineers (SAE). The NTTAA directs the agency to provide Congress,
through the OMB, explanations when we decide not to use available and
applicable voluntary consensus standards.
NHTSA has reviewed available information and has determined that
there are no voluntary consensus standards relevant to this rulemaking.
Unfunded Mandates Reform Act
Section 202 of the Unfunded Mandates Reform Act of 1995 (UMRA)
requires Federal agencies to prepare a written assessment of the costs,
benefits, and other effects of proposed or final rules that include a
Federal mandate likely to result in the expenditure by State, local or
tribal governments, in the aggregate, or by the private sector, of more
than $100 million in any one year (adjusted for inflation with base
year of 1995). This final rule would not result in the expenditure by
State, local, or tribal governments, in the aggregate, or by the
private sector of more than $100 million annually.
Executive Order 13045
Executive Order 13045 (62 FR 19885, April 23, 1997) applies to any
rule that: (1) Is determined to be ``economically significant'' as
defined under E.O. 12866, and (2) concerns an environmental, health, or
safety risk that NHTSA has reason to believe may have a
disproportionate effect on children. This rulemaking is not subject to
the Executive Order because it is not economically significant as
defined in E.O. 12866.
Executive Order 13211
Executive Order 13211 (66 FR 28355, May 18, 2001) applies to any
rulemaking that: (1) Is determined to be economically significant as
defined under E.O. 12866, and is likely to have a significantly adverse
effect on the supply of, distribution of, or use of energy; or (2) that
is designated by the Administrator of the Office of Information and
Regulatory Affairs as a significant energy action. This rulemaking is
not subject to E.O. 13211.
Plain Language
The Plain Language Writing Act of 2010 (P. L. 111-274) and
Executive Order 12866 require each agency to write all rules in plain
language. Application of the principles of plain language includes
consideration of the following questions:
--Have we organized the material to suit the public's needs?
--Are the requirements in the rule clearly stated?
--Does the rule contain technical language or jargon that is not
clear?
--Would a different format (grouping and order of sections, use of
headings, paragraphing) make the rule easier to understand?
--Would more (but shorter) sections be better?
--Could we improve clarity by adding tables, lists, or diagrams?
--What else could we do to make this rulemaking easier to
understand?
If you have any responses to these questions, please send them to
NHTSA at the ADDRESSES section in the heading of this final rule.
Regulation Identifier Number (RIN)
The Department of Transportation assigns a regulation identifier
number (RIN) to each regulatory action listed in the Unified Agenda of
Federal Regulations. The Regulatory Information Service Center
publishes the Unified Agenda in April and October of each year. You may
use the RIN contained in the heading at the beginning of this document
to find this action in the Unified Agenda.
Privacy Act
Anyone is able to search the electronic form of all material
received into any of our dockets, including petitions for
reconsideration of this rule (a copy of which will be placed in the
docket), by the name of the individual submitting the comment (or
signing the comment, if submitted on behalf of an association,
business, labor union, etc.). You may review DOT's complete Privacy Act
Statement in the Federal Register published on April 11, 2000 (65 FR
19477 at 19478).
List of Subjects in 49 CFR Part 571
Labeling, Motor vehicle safety, Reporting and recordkeeping
requirements, Tires.
In consideration of the foregoing, NHTSA amends 49 CFR part 571 as
follows:
PART 571--FEDERAL MOTOR VEHICLE SAFETY STANDARDS
0
1. The authority citation for part 571 continues to read as follows:
Authority: 49 U.S.C. 322, 30111, 30115, 30117 and 30166;
delegation of authority at 49 CFR 1.95.
0
2. Section 571.213 is amended by revising S5(f), S5.5.2(g)(1)(ii),
S5.5.2(l)(3), and S5.6.1.12, to read as follows:
Sec. 571.213 Standard No. 213: Child restraint systems.
* * * * *
S5 * * *
(f) Each child restraint system that is equipped with an internal
harness or other internal components to restrain the child need not
meet this standard when attached to the lower anchors of the child
restraint anchorage system on the standard seat assembly if the sum of
the weight of the child restraint system (in pounds) and the average
weight of child represented by the test dummy used to test the child
restraint in accordance with S7 of this standard, shown in the table
below, exceeds 65 pounds. Such a child restraint must meet this
standard when tested using its internal harness or components to
restrain such a test dummy while installed using the standard seat belt
assembly specified in S5.3.2 of this standard.
Table to S5(f)--Average Weight of Child Represented by Various Test
Dummies
------------------------------------------------------------------------
Average weight
of child
Test dummy (specified in S7 of this standard) represented by
test dummy
(pounds)
------------------------------------------------------------------------
CRABI 12-month-old infant dummy (49 CFR Part 572, 22
Subpart R).............................................
Hybrid III 3-year-old dummy............................. 31
(49 CFR Part 572, Subpart P)............................
[[Page 10412]]
Hybrid III 6-year-old dummy 49 CFR Part 572, Subpart N). 45
Hybrid III 6-year-old weighted child test dummy (49 CFR 62
Part 572 Subpart S)....................................
Hybrid II 6-year-old dummy (49, CFR Part 572, Subpart I) 45
------------------------------------------------------------------------
* * * * *
S5.5.2 * * *
(g) * * *
(1) * * *
(ii) Secure this child restraint with the vehicle's child restraint
anchorage system, if available, or with a vehicle belt. [For car beds,
harnesses, and belt positioning seats, the first part of the statement
regarding attachment by the child restraint anchorage system is
optional.] [For belt-positioning seats, the second part of the
statement regarding attachment by the vehicle belt does not apply.]
[For child restraints manufactured from February 27, 2014 to February
26, 2015, the following statement applies.] Child restraint systems
equipped with internal harnesses to restrain the child and with
components to attach to a child restraint anchorage system and for
which the combined weight of the child restraint system and the maximum
recommended child weight for use with internal harnesses exceeds 65
pounds, must be labeled with the following statement: ``Do not use the
lower anchors of the child restraint anchorage system (LATCH system) to
attach this child restraint when restraining a child weighing more than
* [*insert a recommended weight value in English and metric units such
that the sum of the recommended weight value and the weight of the
child restraint system does not exceed 65 pounds (29.5 kg)] with the
internal harnesses of the child restraint.''
* * * * *
(l) * * *
(3) A seating position equipped with a child restraint anchorage
system. For child restraint systems manufactured on or after February
27, 2015, the following paragraphs (l)(3)(i) and (ii) apply, as
appropriate.
(i) If the child restraint is designed to meet the requirements of
this standard when installed by the child restraint anchorage system
according to S5.3.2, and if the sum of the weight of the child
restraint and the maximum child weight recommended for the child
restraint when used with the restraint's internal harness or components
is greater than 65 lb when used forward-facing or rear-facing, include
the following statement on this installation diagram: ``Do not install
by this method for a child weighing more than *.'' At the
manufacturer's option, ``*'' is the child weight limit in English units
in accordance with S5.5.2(l)(3)(A)(i), (ii), or (iii). The
corresponding child weight limit in metric units may also be included
in the statement at the manufacturer's option.
(A) For forward-facing and rear-facing child restraints, * is less
than or equal to 65 minus child restraint weight (pounds).
(B) For forward-facing child restraints, * is the child weight
limit specified in the following table corresponding to the value CW,
calculated as 65 minus child restraint weight (pounds).
Table to S5.5.2(l)(3)(i)(B)--Maximum Child Weight Limit for Lower Anchor
Use for Forward-Facing Child Restraint System--Rounding
------------------------------------------------------------------------
Child weight
CW = 65--child restaint weight (pounds) limit ``*''
(pounds)
------------------------------------------------------------------------
20 < CW <= 25........................................... 25
25 < CW <= 30........................................... 30
30 < CW <= 35........................................... 35
35 < CW <= 40........................................... 40
40 < CW <= 45........................................... 45
45 < CW <= 50........................................... 50
50 < CW <= 55........................................... 55
55 < CW <= 60........................................... 60
------------------------------------------------------------------------
(C) For rear-facing child restraints, * is the child weight limit
specified in the following table corresponding to the value CW,
calculated as 60 minus child restraint weight (pounds).
Table to S5.5.2(l)(3)(i)(C)--Maximum Child Weight Limit for Lower Anchor
Use for Rear-Facing Child Restraint System--Rounding
------------------------------------------------------------------------
Child weight
CW = 60--child restraint weight (pounds) limit ``*''
(pounds)
------------------------------------------------------------------------
15 < CW <= 20........................................... 20
20 < CW <= 25........................................... 25
25 < CW <= 30........................................... 30
30 < CW <= 35........................................... 35
35 < CW <= 40........................................... 40
40 < CW <= 45........................................... 45
45 < CW <= 50........................................... 50
50 < CW <= 55........................................... 55
------------------------------------------------------------------------
(ii) For child restraints designed to meet the requirements of this
standard when installed forward-facing and rear-facing by the child
restraint anchorage system according to S5.3.2, the following applies:
(A) If separate installation diagrams are provided for the child
restraint installed forward-facing and rear-facing, S5.5.2(l)(3)(i)
applies to each of the installation diagrams.
(B) If only one installation diagram is provided and if a statement
specifying a child weight limit is required in only rear-facing or
forward-facing mode pursuant to S5.5.2(l)(3)(i), then the diagram shall
depict installation in that mode along with the corresponding child
weight limit in accordance with S5.5.2(l)(3)(i).
(C) If a statement specifying a child weight limit is required for
the child restraint installed forward-facing and rear-facing pursuant
to S5.5.2(l)(3)(i) and only one installation diagram is provided, then
the child weight limit shall be in accordance with S5.5.2(l)(3)(i)(A)
or the lesser of the child weight limits described in
S5.5.2(l)(3)(i)(B) and (C).
* * * * *
S5.6.1.12(a) Child restraint systems manufactured from February 27,
2014 to February 26, 2015. The instructions for child restraint systems
equipped with an internal harness to restrain the child and with
components to attach to a child restraint anchorage system, and for
which the combined weight of the child restraint system and the maximum
recommended child weight for use with the internal harness exceeds 65
pounds, must include the following statement: ``Do not use the lower
anchors of the child restraint anchorage system (LATCH system) to
attach this child restraint when restraining a child weighing more than
``*'' [*insert a recommended weight value in English and metric units
such that the sum of the recommended weight value and the weight of the
child restraint system does not exceed 65 pounds (29.5 kg)] with the
internal harness of the child restraint.''
(b) Child restraint systems manufactured on or after February 27,
[[Page 10413]]
2015. If the child restraint is designed to meet the requirements of
this standard when installed by the child restraint anchorage system
according to S5.3.2, the installation diagram showing the child
restraint system installed using a child restraint anchorage system
must meet the specifications in S5.5.2(l)(3).
* * * * *
Issued on: February 14, 2014.
David J. Friedman,
Acting Administrator.
Note: The following Appendix will not appear in the Code of
Federal Regulations:
BILLING CODE 4910-59-P
Appendix to the Final Rule
[[Page 10414]]
[GRAPHIC] [TIFF OMITTED] TR25FE14.004
[[Page 10415]]
[GRAPHIC] [TIFF OMITTED] TR25FE14.005
[[Page 10416]]
[GRAPHIC] [TIFF OMITTED] TR25FE14.006
[[Page 10417]]
[GRAPHIC] [TIFF OMITTED] TR25FE14.007
[[Page 10418]]
[GRAPHIC] [TIFF OMITTED] TR25FE14.008
[[Page 10419]]
[GRAPHIC] [TIFF OMITTED] TR25FE14.009
[[Page 10420]]
[GRAPHIC] [TIFF OMITTED] TR25FE14.010
[[Page 10421]]
[FR Doc. 2014-03984 Filed 2-20-14; 4:15 pm]
BILLING CODE 4910-59-C
