Extension springs are designed to absorb and store energy and create a resistance to a pulling force. It is initial tension that determines how tightly together an extension spring is coiled. This initial tension can be manipulated to achieve the load requirements of your particular application.
End loops or hook designs vary widely. Many different configurations are normally used such as machine hooks, cross-over center loops, hooks or loops extended away from the body, centered hooks or eyes, swivel hooks, but any design that fits your application can be used.
Torsion Springs:- Torsion springs are designed to offer resistance to externally applied torque. The ends of a torsion spring are rotated in an angular deflection, Although the name implies otherwise, a torsion spring is subjected to bending stress rather than torsional stress. A torsion spring performs at its best when supported by a rod or tube. This type of spring is normally close wound but can have pitch to reduce friction between the coils.
End loops or hook designs vary widely. Many different configurations are normally used such as machine hooks, cross-over center loops, hooks or loops extended away from the body, centered hooks or eyes, swivel hooks, but any design that fits your application can be used.
Torsion Springs:- Torsion springs are designed to offer resistance to externally applied torque. The ends of a torsion spring are rotated in an angular deflection, Although the name implies otherwise, a torsion spring is subjected to bending stress rather than torsional stress. A torsion spring performs at its best when supported by a rod or tube. This type of spring is normally close wound but can have pitch to reduce friction between the coils.
Features
.Usefull in many machines.Main Products
Compression Springs, Extension Springs, Torjan , Valve & Wire Forms