Spiral Structure: Extension springs are made by coiling spring steel or stainless steel wire into a spiral shape.
Tight Coils: In the absence of external force, the coils of an extension spring are typically in close contact with each other.
Tensile Force: When the two ends of the spring are pulled apart, they generate an opposing tensile force.
Initial Tension: Extension springs have an inherent tension between the coils, even when no external force is applied. This is known as the initial tension.
Elastic Recovery: When the external force is removed, the extension spring can return to its original shape.
Versatility: The shape, size, material, and spring constant of an extension spring can be customized to meet different application requirements.
Applications of Extension Springs
The applications of extension springs are very broad, commonly used in automobiles, appliances, bicycles, motorcycles, computer printers, and scanners. Essentially, many electronic devices and appliances used in daily life rely on extension springs.
Applications of Extension Springs
The applications of extension springs are very diverse, commonly used in automobiles, appliances, bicycles, motorcycles, computer printers, and scanners. Essentially, extension springs are used in many electrical and electronic devices and equipment that are part of daily life.
