Torsion Spring/Micro Torsion Spring
A torsion spring is a type of spring that undergoes elastic deformation when subjected to a twisting force. Unlike conventional tension or compression springs, torsion springs operate by twisting; when a torque (moment) is applied, the spring undergoes an angular displacement.
As a type of special spring, torsion springs play an important role in mechanical engineering. Their unique structure and working principle enable them to perform exceptionally well in many applications.
If you plan to incorporate a torsion spring in your design, it is recommended to consult with a professional spring manufacturer to ensure you select the most suitable product. The load applied to a torsion spring is a torque or torsional force, causing the spring’s ends to rotate through an angle as the load is applied.
Characteristics of Torsion Springs
High torsional force: Compared to other types of springs, torsion springs can provide greater force in the twisting direction.
Compact structure: Torsion springs can be designed to be very compact, making them suitable for applications with limited space.
Wide range of applications: Torsion springs have a very broad range of uses and can meet various requirements.
The design and manufacturing of torsion springs involve multiple disciplines, including materials science, mechanics, and manufacturing processes. When designing a torsion spring, the following factors need to be considered:
Torque: The maximum torque the spring needs to provide.
Angular deflection: The maximum allowable angular deflection during operation.
Service life: The fatigue life of the spring during use.
Operating environment: The operating temperature, humidity, corrosion, and other environmental factors.
Manufacturing process: Cold coiling, hot coiling, forging, etc.
