The mold used in
Robot Micro Screws is called a stamping mold, or simply a stamping die. A stamping die is a special tool that processes materials (metal or non-metal) into the required stamping parts in batches. The stamping die is crucial in stamping. Without a stamping die that meets the requirements, it is difficult to stamp in batches; without improving the technology of the stamping die, it is impossible to improve the stamping process. The stamping process, the mold, the stamping equipment, and the stamping material constitute the three elements of stamping processing. Only when they are combined with each other can Robot
Micro Screws be produced.
Compared with other processing forms such as mechanical processing and plastic processing, metal stamping processing has many advantages both in terms of technology and economy. The main performance is as follows:
(1) Stamping generally does not produce chips and debris, the material consumption is low, and no other heating equipment is required. Therefore, it is a material-saving and energy-saving processing method, and the cost of producing Robot Micro Screws is low.
(2) Since the mold ensures the size and shape accuracy of the Robot Micro Screws during the stamping process, and generally does not damage the surface quality of the Robot Micro Screws under normal circumstances, and the mold life is generally long, the stamping quality is not bad, the exchangeability is good, and it has the characteristics of "exactly the same".
(3) Robot Micro Screws can produce parts with a large size range and complex shapes, such as stopwatches as small as clocks, and as large as automobile longitudinal beams and cage covers. In addition, the cold deformation hardening effect of the material during stamping makes the strength and rigidity of stamping high.
(4) Robot Micro Screws processing has high production efficiency and is easy to operate, and easy to mechanize and automate. Since stamping relies on dies and stamping equipment to complete processing, the stroke frequency of ordinary presses can reach dozens of times per minute, and high-speed presses can reach hundreds or even thousands of times per minute. Moreover, each stamping stroke can produce a stamped part, so the production of Robot Micro Screws can achieve efficient mass production.
