Stainless Steel Coil Spring Compression Spring
Introduction
Compression Springs are open-coil helical springs wound or constructed to oppose compression along the axis of wind. Helical Compression is the most common metal spring configuration. These coil springs can work independently, though often assembled over a guide rod or fitted inside a hole. When you put a load on a compression coil spring, making it shorter, it pushes back against the load and tries to get back to its original length. Compression springs offer resistance to linear compressing forces (push), and are in fact one of the most efficient energy storage devices available.
The conventional compression spring, the straight metal coil spring, has the same diameter and pitch for the entire length. This configuration is the standard coil type for Stock Compression Springs. Custom configurations can have variable diameter, pitch, or both such as hourglass (concave), conical, and barrel (convex) types.
Advantages and Services
Various hardware types and materials for selection.
Customized special hardware and sizes are welcomed.
Technical service and consultation are supported.
Advanced production equipment and production technology
Competitive price (factory direct price) with professional service.
Strict quality inspection for both materials and finished products.
Focus on every details throughout service, production, packing and shipment.
Extensive sales network with exporting to more than 30 countries.
Parameters
Material | Stainless Steel |
OD | 0.6mm-0.81mm |
Shape of End | Closed or Open |
Surface | Clean |
OEM | Available |
Application
Compression Springs are found in a wide variety of applications ranging from automotive engines and large stamping presses to major appliances and lawn mowers to medical devices, ball point pens,vehicles,cell phones, electronics and sensitive instrumentation devices. The most basic installation is anywhere requiring a push button. Conical type springs are generally used in applications requiring low solid height and increased resistance to surging.