Should We Add A Robot to The Spinning Machine? The current society is a mechanized society, and more and more factories prefer to use robot instead of manual operation for the repetitive work of loading and unloading materials on machines. Adding a robot to a spinning machine can bring multiple benefits, 1)It can improve production efficiency. The robot automatically loads and unloads materials instead of manual operation, which can effectively control the production cycle and avoid the impact of human factors on the production cycle, greatly improving production efficiency. 2) Flexible process modification: By modifying the program and manipulator claw, the production process can be quickly changed, and the debugging speed is fast, eliminating the need for training employees and enabling rapid production. 3)Improving the workpieces quality : Robot automated production line, from loading, clamping, to unloading, is completely completed by robots, reducing intermediate links. The robot can accurately control the processing process, reduce human operation errors, and improve product accuracy and quality. Although robots can improve efficiency and safety in many spinning applications, they may not be the best choice for some products with special requirements. When deciding whether to use robot, it is necessary to comprehensively consider product characteristics, production requirements, and the technical capabilities of the robot. 1) Although robots have advantages in repeatability and strength, they may find it difficult to achieve the required operational accuracy and flexibility for spinning products that require high flexibility and fine operation. 2) For spinning products with irregular shapes or easy deformation during processing, the robot may not be able to effectively grasp or fix them, resulting in processing difficulties. 3)Some spinning products may require processing in special environments such as high temperature, high pressure, or corrosive gases, and the robot may not be able to adapt to such environmental conditions. 4) For small batches and multiple varieties of spinning products, programming and adjusting the robot may be too time-consuming and have low economic benefits. 5) In the spinning process, if the product requires manual quality judgment or intervention during the process, the robot may not be able to replace manual operation 6. Some spinning products may be very sensitive to gripping force, and the gripping force of the robot may cause damage to the product, especially for fragile or precision components 7) If spinning products require complex trajectory control and the control system of the robot cannot meet these requirements, such products may not be suitable for using robots.
