The expansion of the application range of robots has led to an increase in the number of internal configured motors and a more complex number and relationship of motion axes. In order to improve the collaborative control ability of multiple motors in robots, a remote control robot multi motor collaborative control system based on wireless technology is designed. Build a multi motor collaborative control framework for remote control robots, and complete the hardware system design through wireless technology hardware equipment units (transmitters, receivers, enabling state devices, and frequency synthesis devices), position sensor units, speed and acceleration sensor units, processor units, and collaborative controller units. Based on wireless technology to perceive surrounding signals and obtain relevant information of the signals, filtering algorithms and similarity calculation methods are used to preprocess the data, eliminate redundant data, and achieve collaborative control of multiple motors of the robot through fuzzy control theory and speed compensator methods. The experimental results show that the minimum delay of multi motor collaborative control for robots obtained by applying the design system is 0.45 seconds, the motor speed is closer to the rated speed, and the robot running trajectory is consistent with the expected trajectory, fully confirming the better application effect of the design system.