Carbon fiber composite materials are used in many industries because of their high performance and strength advantages and very light weight, especially in the fields with high lightweight requirements. With the current increase in labor costs, the application requirements of automated robots have also increased. The robotic arm of the automated robot is the main work object, and the carbon fiber robotic arm has emerged as the times require, which can also make the accuracy of the robotic arm higher. The corresponding work requirements are better completed, and the reasons for this will be explained in this article.

First understand the product of the robotic arm. The robotic arm is an important part of the robotic equipment. After the robot sends out instructions, the robotic arm quickly and accurately completes the relative positioning layout, and then completes the relative work. The normal working condition of the robotic arm It is the work of telescopic, rotating and lifting, and then making the hand card can quickly move to the required position to complete the grab. In fact, the area of ​​grabbing judgment and working range needs to be processed here in the arm, so a robotic arm is required. The overall accuracy is high enough to bring better performance.

There are several reasons why the accuracy of the carbon fiber manipulator is better.

The first is that the carbon fiber manipulator is very light in weight. The lightweight material of carbon fiber can be said to be the key performance advantage. With a density of 1.6g/cm3, the carbon fiber manipulator is at least 50% lighter than the traditional metal manipulator. When such a light carbon fiber manipulator is applied, it can quickly complete the response to the specified area, which is also an important reason why the carbon fiber manipulator can operate more sensitively and accurately.

In addition, the carbon fiber manipulator has a very high tensile strength, which makes the manipulator in use, after grabbing the product, still will not deform or break. In this case, the carbon fiber manipulator can make the grasped object It has better stability and can be transported better and faster to reach the place where it is needed. The tensile strength of carbon fiber can reach 3500Mpa, which is much higher than that of metal materials, which also makes the carbon fiber robotic arm stronger to use.

Then there is the higher fatigue resistance of carbon fiber materials. One of the advantages of robots being banned is that robots can work for a long time, which is different from manual work. This requires carbon fiber manipulators to have very good fatigue resistance and not easy to deform. Bending, which is also the reason for ensuring better overall accuracy of the carbon fiber robotic arm.

Including the carbon fiber manipulator, the thermal expansion coefficient is lower, and it can still maintain good fatigue resistance in various environments. For example, in a clean room, it can well meet these requirements, and it can also be better guaranteed. The overall accuracy, these are the reasons for the relatively high accuracy of the carbon fiber manipulator.