Working principle of high-speed toothbrush tufting machine
by:MX machinery 2021-04-27
The current society has developed into healthy and beautiful teeth as a sign of good health, and the demand for toothbrushes is gradually increasing. According to statistics, the global annual demand for toothbrushes has far exceeded 9 billion, and it is increasing at an annual rate of 10%. With a large population in China, toothbrushes are in great demand as a necessity for modern life. Although the toothbrush is small, it is a mature commodity with a huge consumption market. With the improvement of the quality of life, the quality of toothbrushes has also improved. The production efficiency and production quality requirements of high-quality health toothbrush equipment promote the development of high-speed toothbrush hair transplanting machines. . Shantou Chuangyan Machinery Equipment is a professional manufacturer of toothbrush machinery and brush-making machinery and equipment. It has a large number of professional management and production technicians who have long been engaged in the design and production of toothbrush machinery and brush-making machinery. They are committed to the production and development of toothbrush machinery and brush-making machinery. Manufacturers of toothbrush equipment used to use the same brand of single-chip control system and servo motor electric control system in the past, and most of the servo systems are imported from Japan. In recent years, Delta's servo products have been increasing their share in the high-speed toothbrush tufting machine industry with their excellent performance and competitive price advantages. Brief description of working principle of high-speed toothbrush tufting machine The transmission structure of high-speed toothbrush tufting machine is composed of a main drive shaft and four servo drive shaft systems. The four servo axes are the horizontal X axis, the vertical Y axis, the flap Z axis and the hair changing U axis. The XY two-axis coordinates determine the position of the toothbrush hole, the Z-axis plays the role of changing to the next toothbrush, and the U-axis plays the role of changing the toothbrush hair color. When the spindle motor is running, the four electronically controlled servo axes will follow-up and the remaining four axes will follow-up and stop when the spindle stops. The rotation speed of the main shaft determines the speed of planting hair, and the four servo axes respond to the coordinated drive, otherwise there will be hair loss or uneven hair. Using Delta's high-precision electrical servo control can achieve 1,000 times per minute of hair transplanting speed, and can achieve skip hole transplanting.