What is the function of the spring collet
September 01, 2021
Spring collets are made of high-quality alloy steel with good elasticity. Heat treatment makes the outer cone of the head and the inner wall of the collet have high hardness to ensure rigidity and wear resistance. Spring collets of various sizes can clamp workpieces in the field of small size. Therefore, they are mostly used in safe automatic machine tools. Such as automatic lathe. The spring collet has conventional composition, good rigidity, can withstand large torsion and eliminate looseness in operation. The special effect of alloy steel quality is applied, with good durability and strong durability. Spring collet is widely used in warhead components in machinery and industry, but the spring can absolutely produce large elastic deformation under the action of load, mechanical work or kinetic energy. After unloading, the deformation of the spring disappears and returns to the original state.
Spring collet is a kind of commodity with fast speed, but there are many factors affecting its use. The friction ratio between the commodity clamped under the ordinary gas mine and the collet is an important factor affecting whether the collet is clamped or not. In general, the greater the friction, the tighter the fixture, the smaller the friction, and vice versa. First, it is the subject of axis coordination. It can only coordinate the action points of the large and small axes well. Super large clamping force can be displayed. The clamping force of the large shaft is greater than that of the small shaft. Therefore, the positioning size of the coordination shaft is often very important. It is also a common phenomenon that commodities are too small and not tightly clamped.
Spring collet is a kind of commodity with fast speed, but there are many factors affecting its use. The friction ratio between the commodity clamped under the ordinary gas mine and the collet is an important factor affecting whether the collet is clamped or not. In general, the greater the friction, the tighter the fixture, the smaller the friction, and vice versa. First, it is the subject of axis coordination. It can only coordinate the action points of the large and small axes well. Super large clamping force can be displayed. The clamping force of the large shaft is greater than that of the small shaft. Therefore, the positioning size of the coordination shaft is often very important. It is also a common phenomenon that commodities are too small and not tightly clamped.