What are the benefits of using industrial robots

2021-04-08 14:55:27

 Before the popularity of industrial robots, factories in various fields used manual methods for daily processing. This is not only time-consuming, but also laborious. However, with the continuous improvement and popularization of robot technology, more and more factories will choose to use industrial robots for daily processing, which can improve daily processing efficiency. So, what are the benefits of using industrial robots? This article will tell you through the following snippets.
 
  First of all, industrial robots have a high learning ability, so the machine can process various types of products. In the daily operation process, the operator can use professional equipment to program the necessary paths and coordinates in the processing process. At the same time, the machine will perform the necessary learning according to the program, and will remember these paths and coordinates.
 
  In addition, in the daily processing process, the robot will build its joint torque sensor for daily processing. The sensor can check all contact points in the processing process, so that daily processing can be carried out with the correct force and speed. At the same time, its position and compliance performance control its ability to handle delicate parts, so as not to cause the danger of extrusion and shearing.
Before robots were popularized on a large scale, factories used manual welding to complete daily truss work. This is not only time-consuming and labor-intensive, but also can not improve the processing efficiency of the factory. However, with the continuous progress and completion of technology, robot technology has been popularized and developed accordingly. Therefore, more and more factories will choose to use truss robots for daily processing, and the robot can automatically and quickly complete daily processing.
 
  The welding unit in the general truss robot is composed of three professional industrial robots, and each robot has its own welding equipment. And also has a professional truss positioner, so that the truss to be welded by the robot can be continuously fed. Subsequently, the operator needs to put the appropriate steel parts that constitute the truss into the positioner fixture, and then the robot will start daily processing.
 
  Secondly, when the robot completes the assigned program, the robot controller will seek the ready signal from the operator station. When the signal is sent, the robot will index the locator and start the next welding procedure. And at this point, the operator can unload the welded truss assembly before loading parts for the next assembly.