Classification and efficacy of Pogo Pin Spring
Spring is this kind of elastic element widely used in the electromechanical industry. The Pogo pin spring will cause great elastic deformation when it is loaded, and convert mechanical work or kinetic energy into deformation energy, but after unloading, the deformation of the spring disappears and returns to its original state. At the same time, deformation energy is converted into mechanical work or kinetic energy. The ratio of spring load to deformation is called spring stiffness. The greater the stiffness, the harder the spring.
The effect of Pogo pin spring
Spring is an elastic object that stores mechanical energy. The spring is generally made of spring steel. There are many spring designs. Its elasticity can be used to control the movement of mechanical parts, reduce impact or vibration, save energy, and measure force. It is widely used in life, such as the suspension of automobiles, the damping springs of the lower part of trains, the spring scales in life, and the springs in dynamometers.
Classification of Pogo pin springs
Spring can be divided into extension spring, compression spring, torsion spring, and bending spring.
A tension spring is a coil spring that bears the axial tension. Extension springs are generally made of materials with a circular cross-section. When the load is not stressed, the tension spring coil and the spring coil are generally tightened without clearance.
Characteristics: Choose a variety of different terminal devices or hooks to ensure the tension source of the tension spring. The working principle of extension springs is opposite to that of compression springs. The compression spring has a reverse effect when pressed, and the tension spring has a reverse effect when stretched or opened. When the ends of the tension spring are pulled apart, the spring will try to pull them back together. Like compression springs, tension springs also absorb and store energy. But unlike compression springs, most extension springs are generally under the necessary degree of tension, even without any load. This kind of initial tension determines the compactness of the tension spring coil without any load.
Compression spring is this kind of helical spring that bears directional pressure. Its material cross-section is mostly round, and it is also made of rectangular and multi-strand steel. The pitch of the spring is generally equal. The shape of the compression spring is cylindrical, conical, convex, and concave, and a small amount of non-circular shape. There is a necessary gap between the compression spring ring and the compression spring ring. When subjected to an external load, the spring will contract and change. Shape, stores deformation energy.
Torsion springs are coil springs. The torsion spring can store and release angular energy, or it can statically fix the device by rotating the arm around the spring axis. The ends of the torsion spring are fixed to other parts. When the other parts rotate around the center of the spring, the spring pulls them back to their original positions to cause torque or rotational force. Coil springs are often used in the rear of cars.
Bending spring, according to the name, shows the characteristics of this kind of spring, which can be bent to a large extent, and has good flexibility and resilience.
