Network optimization information:

When the rotor and stator are engaged, seven seal cavities are formed. The cavity on one side of the stator and rotor centerline is connected with the inlet and outlet, and the oil return port on the other side is connected. When high-pressure oil enters cavities 1, 2 and 3 through the oil distribution mechanism, these cavities gradually become larger, the rotor rotates clockwise in the stator, and cavities 4, 5, 6 and 7 become smaller. The oil in these cavities is discharged, thus ensuring the continuity of high-pressure oil distribution and the normal operation of the rotor and motor.

Changing the position of the oil inlet and outlet can change the rotation direction of the motor. The rotor makes planetary motion in the stator. When the rotor rotates for one circle, the volume of the seven cavities changes once, BM-D cycloidal motor They have greater displacement, lower speed and greater output torque. Similarly, in this design, the base circle of the cycloid gear is taken as the circle, Variable cycloid motor Taking the base circle of the cycloid needle wheel as a circle, the locus of any point forms the cycloid contour. Cycloid hydraulic motor It is a mechanism that converts the injected high-pressure oil into torque through the seamless meshing of cycloidal gear and pin gear. It is changed from the original structure of cycloidal transmission gear.