Tension Spring Can Meet Different Requirements

- Sep 11, 2017 -


Tension Spring (also called tensile Spring, abbreviated as pull spring) is a helical spring which is subjected to axial tension, and the tension spring is generally made of circular cross-section material. In the absence of load, tension spring between the circle and the circle is generally tight and there is no gap. Many different terminal devices or "hooks" are used to keep tension springs from pulling. The tension spring is contrary to the working principle of the compression spring. The compression spring is reversed when pressed, and the tension spring is reversed when stretching or pulling. When the tension spring ends, the spring will try to pull them back together. Like compression springs, tension springs are also absorbed and stored energy. But unlike compression springs, most tension springs are usually under a certain degree of tension, Tension Spring even in the absence of any load. This initial tension determines the tightness of the tension spring coiled in the absence of any load.

Many different terminal devices or ' hooks ' are used to keep tension springs from pulling. The tension spring is contrary to the working principle of the compression spring. The compression spring is reversed when pressed, and the tension spring is reversed when stretching or pulling. When the tension spring ends, Tension Spring the spring will try to pull them back together. Like compression springs, tension springs are also absorbed and stored energy. But unlike compression springs, most tension springs are usually under a certain degree of tension, Tension Spring even in the absence of any load. This initial tension determines the tightness of the tension spring coiled in the absence of any load.

The working principle of the tension spring is just like the working principle of the compression spring, the compression spring has the reverse effect when the pressure is exerted, and the tension spring is reversed when it is stretched. When the tension spring to open the spring to pull back, so that the force.

Tension springs can absorb and store energy, tension springs and compression springs are different in that tension spring under a certain tension or no tension, the initial state of the tension spring is determined by the degree of tightness. Tension Spring This control of the initial force can meet the requirements of different conditions.

The tension springs are fixed on the other components, and then when the components are separated, the tension springs are acting, and the rings are tightly joined together to produce a strong tensile force that connects the components together. These coils are tightly connected in the absence of tension, the spring's cover includes a hook on the other components, a small hole, Tension Spring and a geometrical interface, which is not a problem with the components that need to be connected, so that they provide a certain resilience to these components when the pull is on.