[Project sharing]

Multi-connection industrial robot connection solution

If you are looking for a connection solution for multi-joint industrial robots, this article will provide you with a complete solution, bringing convenience and efficiency to everyone. Industrial robots and automated assembly systems are an integral part of modern industrial production. In an industrial automation environment, robots can achieve efficient operations and ensure stable high quality at every step. Robots are widely used in applications such as flexible welding, spraying, assembly, packaging and transportation.

However, there have always been some difficulties in the connection scheme of robots. Traditional robot gripper and fixture signal integration methods usually add many signal connection cables, which is not conducive to later maintenance and replacement. In flexible multi-robot integration applications, it is often necessary to replace the end clamp. If fixtures cannot be changed quickly, efficient operations will be affected. In addition, how to reduce the load-bearing load of robots is a key topic in the integration of many assembly systems.

Fuyansheng IO-Link technology can effectively solve the connection problems of multi-joint industrial robots. This technology can simplify the installation and maintenance of robots, reduce the number of cables, and improve the stability and operating efficiency of the entire system. It is believed that with the popularization and development of industrial automation, Fuyansheng IO-Link technology will be more widely used.

In view of the above difficulties, we recommend Fuyansheng IO-Link technology, which can solve the above problems in one fell swoop from the following two aspects

Robot gripper integration and main station fixed position

1. Load-bearing of the robot body: We can set up a fixed frame at the elbow joint of the robot. This can achieve a transitional connection between the gripper, fixture end signal and controller end. This approach can not only effectively reduce the space required to install the robot, but also reduce the need for torsion-resistant cables in the pipeline package. Therefore, the number of cables can be reduced and installation is made simpler.

2. Signal integration at the gripper and fixture end: In terms of the connection method for integrating the signals at the robot base end into the control cabinet, we use a combination of compact designs such as M12, 7/8” flange base, heavy-duty connectors, and wiring boards. components, which can adapt to power, data and signal transmission, and can also cope with harsh environmental conditions. At the control cabinet side, we usually use front panel connection cables, which can achieve quick connection and facilitate isolation and maintenance.