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How to Spiral spring design method

원천:Qianye 정밀 시각:2023-4-6

Spiral springs are a type of compression spring that features a cylindrical shape with helical coils. They are commonly used in a variety of applications, including automotive, aerospace, medical devices, and industrial equipment. With the right design method and technique, it’s possible to create a high-quality, reliable spiral spring that meets the specific performance requirements of your application.

In this article, we will discuss the spiral spring design method, including the steps involved in designing and manufacturing a custom spring.

Understanding Spiral Springs

Spiral springs are designed to provide resistance to compressive forces, making them ideal for applications that require precise tension control. They have a cylindrical shape with a helical form that allows for a more even distribution of the load over the length of the spring. This unique design also allows for greater deflection, which can be useful in applications such as shock absorbers and vibration dampers.

Designing a Spiral Spring

The process of designing a spiral spring involves several key steps, including:

Determining the Load Requirements
The first step in designing a spiral spring is to determine the load requirements for the application. This includes understanding the amount of force the spring will need to support, as well as any factors that may impact its performance, such as temperature, humidity, and corrosive environments.

Calculating the Stress and Deflection of the Spring
Once you have determined the load requirements, you’ll need to calculate the stress and deflection of the spring. This involves using mathematical equations to determine the necessary dimensions and properties of the spring, such as the pitch of the helix, the number of coils, and the diameter of the wire. Computer software can also be used to aid in the design and simulation of the spring’s performance.

 

 

Selecting the Appropriate Wire Size and Material
Selecting the right wire size and material is critical to the performance of the spring. The wire size and material will impact the spring’s strength, fatigue resistance, and corrosion resistance. Common materials used for spiral springs include stainless steel, music wire, and phosphor bronze.

Designing the End Attachments
The end attachments of a spiral spring can have a significant impact on its performance. The design of the end attachments will depend on the specific application and the mounting requirements. Common end attachment designs for spiral springs include hooks, loops, and tangs.

Manufacturing a Spiral Spring

Once you have completed the design process, it’s time to manufacture the spiral spring. This can be accomplished using several different methods, including hot or cold winding, stamping, or wire forming.

Hot or Cold Winding
Hot or cold winding involves coiling the wire around a mandrel while it is either hot or cold. Once the coil is formed, it is heat-treated to improve its strength and durability.

Stamping
Stamping involves cutting the wire into a flat strip and then stamping it into the desired shape. This method is typically used for small springs with low load requirements.

Wire Forming
Wire forming involves bending and shaping the wire into the desired shape using specialized machinery. This method is useful for creating complex shapes and designs.

Conclusion

Spiral spring design requires careful consideration of the load requirements, stress and deflection calculations, wire size and material selection, and end attachment design. With the right design method and manufacturing technique, it’s possible to create a high-quality, reliable spring that meets the specific performance requirements of your application. The manufacturing method selected will depend on the specific design of the spring, as well as the volume and budget requirements. If you’re uncertain about the best design method or manufacturing technique for your spiral spring, consult with a trusted supplier who specializes in custom spring manufacturing.

 

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