Design method of slipper pair of a high pressure camshaft connecting-rod low speed high torque hydraulic motor

A high pressurized design method of slipper pairs of a new type camshaft connecting-rod low speed high torque motor was put forward. Compared with the traditional hydrostatic bearing structure, the area of slipper pair piston chamber is enlarged to ensure the formation of lubrication film while hydraulic motors starting, and a small diameter of damper is used to compensate the thermal viscidity effect. The process of lubrication film formation was simulated by numerical calculating Reynold equation. The experimental results prove the effectiveness of the new design method.