Ohio Administrative Code
Title 4123:1 - Division of Safety and Hygiene
Chapter 4123:1-5 - Workshops and Factories
Section 4123:1-5-25 - Vehicle-mounted elevating and rotating work platforms
Current through all regulations passed and filed through September 16, 2024
(A) Vehicle stability.
The employer will provide a vehicle that will assure a stable support for the aerial device.
Each aerial device when mounted on a vehicle and used in a specific configuration, will be capable of sustaining a static load one and one-half times its rated capacity when the vehicle is on a firm and level surface.
Each aerial device, when mounted on a vehicle and used in a specific configuration, will comprise a unit capable of sustaining a static load one and one-third times the rated capacity for that specific configuration in every position in which the load can be placed within the definition of the specific configuration, when the vehicle is on a slope of five degrees downward in the direction most likely to cause overturning. If having the outriggers extended to a firm footing is a part of the definition of the configuration, then outriggers will be extended to provide maximum leveling for the purpose of determining whether the unit meets the stability specifications. If other facilities, such as means of turntable leveling are provided to minimize the effect of sloping terrain, then those facilities will be utilized for the purpose of determining whether the unit meets the stability specification.
(B) Operating instruction plates.
Operating instruction plates will be provided and attached to all aerial devices. The plate or plates will be located in a readily accessible area, shall be clearly visible, and will state the following: make, model and manufacturer's serial number; rated capacity; platform height, manufacturer's recommended operating pressure of pneumatic and hydraulic systems; caution and restrictions of operation; operating instructions and manufacturer's rated line voltage. Alternative configurations (see paragraph (A)(1) of this rule) will need in addition to the above: chart, schematic or scale showing capacities of all combinations in their operating position, and caution and restrictions of operation of all alternate or combinations of alternate configurations.
Platform height will be measured at its maximum elevation from the floor of the platform to the ground.
The load, in calculating the capacity rating, will be the platform load and supplemental loads which may be affixed directly to the boom. The capacity rating will be designated with boom or booms extended to the maximum horizontal reach attainable throughout full rotation of its pedestal. Capacities of the equipment in other positions will be specified separately.
Reach will be measured from the center line of pedestal (rotation) to outer edge (rail) of the platform.
The operating instruction plate(s) shall state whether the aerial device is insulated or noninsulated. A label (minimum one-fourth-inch letters) will be placed at each operating control station.
In the case of insulated units, the operating instruction plate(s) will clearly state the rate line voltage for which the aerial device is designed.
(C) Design.
The basic structural elements of the aerial device which support the platform will be designed such that the yield point of the materials used for any such elements will not be exceeded with three times the rated load(s) on the aerial device. The same structural factor of safety will apply to the platform.
Articulating boom and extensible platforms, specifically designed as personnel carriers, will have both platform (upper) and lower controls. Upper controls will be in or beside the platform within easy reach of the operator. Lower controls will provide for overriding the upper controls. All controls will be guarded or will be of such type that they cannot be accidentally actuated. They will be plainly marked as to their function.
Where the elevation of the boom or operation of the outriggers is accomplished by means of a hydraulic cylinder assembly, a pneumatic system or an electrically operated system, pilot operated check valves or other appropriate "fail safe" devices will be provided to prevent free fall of the boom or collapse of the outriggers in the event of power failure.
Each platform will be provided with a guardrail no more than forty-five inches and no less than thirty-nine inches above the floor of the platform, an intermediate rail, and a toeboard, or its equivalent, around the periphery.
All critical components of hydraulic or pneumatic systems will withstand a pressure of no less than four times the normal operating pressure of the system. Critical components are those in which a failure would result in a free fall or free rotation of the boom. All noncritical components will have a bursting safety factor of two.
Test electrodes will be permanently located on the inside and outside surfaces of the insulated portion of the boom. Insulated units under sixty-nine kilovolts do not need permanent test electrodes. These electrodes will be two to six inches from the metal portion of the lower end of the insulated upper boom. All hydraulic and air lines bridging the insulated portion of the boom will have metallic couplings adjacent to the test electrodes. Couplings will be insulated from the metal portion of the boom and electrically connected to the test electrodes.
(D) Testing.
(E) Transfer to or from aerial basket.
Employees of the electric utility and telecommunications industries and their contractors and subcontractors will not be required to transfer from an aerial basket to any object or structure, or from any object or structure to an aerial basket, while the aerial basket is elevated above the ground. This does not apply to operations where the aerial basket is extended over a flat surface and where the hazard of falling has been eliminated.
(F) Flasher lights.
Vehicles upon which elevating or rotating work platform are mounted will be provided with flasher lights.