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Overview: TORSION SPRINGS are helical springs that exert a torque or rotary force. The ends of torsion springs are attached to other components, and when those components rotate around the center of the spring, the spring tries to push them back to their original position. Although the name implies otherwise, torsion springs are subjected to bending stress rather than torsional stress. They can store and release angular energy or statically hold a mechanism in place by deflecting the legs about the body centerline axis.
The Inner Diameter is specified when the spring is required to slip over a mandrel with sufficient clearance to operate freely.
The Outer Diameter is specified when the spring is required to fit into a circular hole with sufficient exterior clearance to operate freely, or if there are outer housing clearance issues.
The Spring Length is the length of the spring coil.
This type of torsion spring is normally close wound but can have pitch to reduce friction between the coils. They offer resistance to twist or rotationally applied force. Depending on the application, torsion springs can be designed to work in a clockwise or counter-clockwise rotation, thus determining the direction of the wind.
Applications: Common torsion springs are used in clothes pins, clipboards, swing-down tailgates and garage doors,. Torsion springs are used for hinges, counterbalances and lever return applications. Sizes range from miniature, used in electronic devices, to large torsion springs used in chair control units. Load should be applied in the direction of wind; unwinding from the free position is not recommended. As they wind up, torsion springs reduce in diameter and their body length becomes longer. This should be considered when design space is limited. Torsion Springs perform best when supported by a rod or tube. The designer should consider the effects of friction and arm deflection on the torque.
Configurations: Torsion springs are designed and wound to be actuated rotationally, and to provide an angular return force. There are many options for leg configuration so the spring can be attached in different ways. Leg specifications to consider for torsion springs include leg angle, equal leg length, and leg end style. Springs that are straight or parallel on the same side are considered to have a 0º leg angle the increasing angle is in the unwinding direction. Leg end style choices include straight torsion, straight offset, hinged, short hook ends, and hook ends. Torsion spring ends can be bent, twisted, hooked or looped to suit your project needs. Lee Torsion Stock Springs are offered in a choice of 90°, 120°, 180°, 210°, 270°, 300° and 360° free leg position
The double torsion spring consists of one set of coils coiled right hand and one set of coils coiled left hand. These coils are connected, usually with an unwound section between the winds and work in parallel. The sections are designed separately with the total torque being the sum of the two.
Dimensions: Inner Diameter, Outer Diameter, Wire Diameter, and Spring Length.
Performance factors: Spring Rate, Maximum Deflection, Maximum Load and Wind Specifications.
Spring Rate is the angular return torque provided per unit of angular displacement.
Maximum Deflection is the maximum rated angular deflection of spring before damage.
The Wind of the torsion spring can be right hand, left hand, or double torsion.
Lee Spring Stock Torsion Springs are offered with legs of equal length oriented at varying unloaded angles.
Unit of Measure
Lee Spring's Stock Torsion Springs are specified in both English (Imperial) or metric units. Be sure to specify the preferred unit of measure when looking for a Stock Torsion Spring using Lee Spring's search engines.