Common forms include hydraulic wheel lifts, which use cylinders and arms to cradle the wheel and raise the vehicle; wheel dollies or skates, which support individual wheels and permit rolling to reposition a vehicle without lifting the whole frame; and integrated four-wheel lift platforms that lift all wheels evenly for full undercarriage access. Portable or stationary units vary in power source, with hand-operated, hydraulic, or electric options, and in mounting, from free-standing to floor- or frame-mounted designs.
Uses span automotive repair and maintenance, such as brake service, tire rotation, suspension work, and wheel replacement, to vehicle relocation within workshops or shipping yards. In industrial contexts, wheellifts can move heavy machinery or components by lifting from the wheel cradle, aiding alignment and installation. Specialized applications exist in aviation, rail yards, and film or theater stage rigs, where precise wheel-based lifting and positioning are required.
Safety and training are essential. Devices have rated load capacities and require regular inspection, proper wheel seating, and the use of wheel chocks, locking mechanisms, and redundant supports where appropriate. Operators should never exceed rated loads and should avoid working under a raised load without suitable supports.
Wheellifts are devices designed to raise a vehicle or other load by engaging its wheels, applying lifting force at the wheel contact points to provide stable support for maintenance, inspection, relocation, or assembly without lifting the entire chassis. Common forms include hydraulic wheel lifts, which cradle the wheel with arms and hydraulic power; wheel dollies or skates, which support individual wheels and allow rolling repositioning; and integrated four-wheel lift platforms that lift all wheels evenly for full undercarriage access. They can be portable or stationary and powered by hand, hydraulic, or electric systems, with mounting options ranging from free-standing to floor- or frame-mounted designs.
Uses span automotive repair and maintenance—such as brake service, tire rotation, suspension work, and wheel replacement—and vehicle relocation within workshops or shipping yards. In industrial contexts, wheellifts can move heavy machinery or components by lifting from the wheel cradle, aiding alignment and installation. Specialized applications exist in aviation, rail yards, and stage or theatre productions, where precise wheel-based lifting and positioning are required.
Safety and training are essential. Devices have rated load capacities and require regular inspection, proper wheel seating, and the use of wheel chocks, locking mechanisms, and redundant supports where appropriate. Operators should never exceed rated loads and should avoid working under a raised load without suitable supports. Adherence to manufacturer guidelines and appropriate instruction help mitigate risk, alongside attention to floor condition and wheel integrity.