The cycloidal pinwheel reducer, with its unique meshing principle and precision structural design, can achieve micro-arc graded backlash or even approach zero, becoming an indispensable key component in high-precision equipment.

The pin teeth are evenly arranged along the inner circumference of the pin tooth shell, and the ratio of the distribution circle diameter to the pin tooth diameter is optimized by the pin diameter coefficient.

In modern industrial automation systems, the power transmission requirements for precision equipment have long gone beyond simple "rotation" or "drive," pursuing precise control of every degree of rotation and every newton-meter of torque.

In industrial transmission systems, gear reducers are not only devices for speed reduction and torque amplification, but also play a crucial role in maintaining positional stability and preventing accidental movement in some critical applications.

In modern industrial automation systems, RV worm gear reducers are highly valued for their high precision, high rigidity, and high torque output.

The cycloidal pinwheel reducer achieves ultra-low backlash under high loads thanks to the synergistic effects of its multi-tooth meshing, rolling transmission, high-rigidity structure, and precision assembly.