Customized SUS 0.07mm Flat Torsion Spring Right Hand Screw

Introduction
The torsion spring configuration is created for the purpose of storing and releasing angular energy or for the purpose of statically holding a mechanism in place by deflecting the legs around the axis of the body’s centerline. Such a spring will reduce the diameter of the body and slightly increase the length of the body when deflected in the preferred direction of the manufactured wind.
The direction of the fabricated wind can also be important for torsion spring applications because the location of the leg bearing/attachment must be on the left or right side during assembly.

Parament

Characteristics
The torsion spring configuration is created for the purpose of storing and releasing angular energy or for the purpose of statically holding a mechanism in place by deflecting the legs around the axis of the body’s centerline. Such a spring will reduce the diameter of the body and slightly increase the length of the body when deflected in the preferred direction of the manufactured wind.
The direction of the fabricated wind can also be important for torsion spring applications because the location of the leg bearing/attachment must be on the left or right side during assembly.
A torsion spring is normally supported by a rod (mandrel) that matches the theoretical hinge line of the final product.

Application
The ends of the torsion spring are fixed to other components, and when the other components rotate around the center of the spring, the spring pulls them back to their original positions, generating torque or rotational force. The torsion spring can store and release angular energy or rotate the arm around the central axis of the spring body to statically fix a device. This type of spring is usually dense, but there is a pitch between the dense rings to reduce friction. They generate resistance to rotation or external forces of rotation. According to the application requirements, design the direction of rotation of the torsion spring (clockwise or counterclockwise) to determine the direction of rotation of the spring. The dense rings are either tightly surrounding or separately surrounding, which can be suitable for torsional loads (at right angles to the spring axis). The end of the spring can be wound into a hook shape or a straight torsion arm.
1. Torsion springs are used as force measuring components, such as dynamometers, springs in spring scales, etc. The ratio of spring load to deformation is called spring stiffness. The greater the stiffness, the harder the spring.
2. Torsion springs store and output energy as power, such as clock springs.
3. Torsion springs control the movement of machinery, such as valve springs in internal combustion engines and control springs in clutches.
4. Torsion springs absorb vibration and impact energy, such as buffer springs under cars and trains, and vibration-absorbing springs in couplings.

FAQ
Q: Are you a factory?
A: We are a 32-year-old factory, we pick up OEM orders.
Q: When can I get a quote?
A: We will quote you within 24 hours after receiving your inquiry. If you are in urgent need of price, please call us or let us know in your email address so that we can respond to your inquiry first.
Q: How to customize (OEM/ODM)?
A: If you have product drawings or samples, please send them to us and we can customize them according to your requirements. We will also provide our professional advice on products to maximize design performance..
Q: How long is your delivery time?
A: It usually takes 5~15 days, depending on the quantity you need. If time is urgent, you can arrange it.