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Wave Springs

Wave Springs

Our wave springs can be used in almost any application. Savings of up to 60% during installation & smaller assemblies.

Retaining Rings

Retaining Rings

Multiple types of Retaining Rings are available & are widely applied to Pressure Gauge, Gear Assembly, Connector,....etc.


Tech Spring / TSI / TSMC Wave Springs Service Introduction

Tech Spring Manufacturing Corp. is Taiwan Wave Springs supplier and manufacturer with more than 31 years experence. Since 1987, in the Wave Springs, Retaining Rings and Constant Force Spring Manufacturer, Tech Spring / TSI / TSMC has been offering our customers high quality Wave Springs production service. With both advanced technology and 31 years experience, Tech Spring / TSI / TSMC always make sure to meet each customer's demand.

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  • Multi Turn Wave Springs
    Multi Turn Wave Springs

    Multi Turn (Peak-to Peak) Wave springs are formed by stacking successive round edges of wave layers. The peaks correspond to the peaks. Each peak is neatly aligned in a straight line and maintains its overall appearance. Therefore, its performance can be achieved without additional assistance. The elastic coefficient of the Multi Turn (Peak-to Peak) Wave springs is inversely proportional to the number of turns of the spring, and is suitable for a large stroke, low/medium elasticity coefficient and medium/low load environment. Multi Turn (Peak-to Peak) Wave springs can replace coil helical compression springs, requiring only one-half or less of axial space to provide the same force, making them ideal for use in space-constrained environments. It is not only keep the function of the compression spring but also reduces the free high, operating high and closeness. Our Engineering team pride themselves developed production machines and on to offering comprehensive flexible personal services, they will be more than happy to work closely with you from the preliminary design phase to fabrication that meet customer's needs and propose custom solution thru our finite element analysis calculation.

  • Multi Turn Wave Springs with Shim Ends
    Multi Turn Wave Springs with Shim Ends

    TSMC Multi Turn Wave springs are available with squared-shim ends. In comparison to the plain ends, this shim ends enables contact pressures to be more evenly distributed across all the contact surface. Ideal when uniform force distribution and/or rotational pressure is required over 360°. The characteristics of Shim ends is similar to a concept of double-disc grinding springs for a flat surface as the flat end surface allow a consistent distribution of the spring forces, therefore an indentation of the wave heights while mounting parts is avoided thus eliminate an assembly step. TSMC Multi-turn wave springs include plain-end (wavy) and shim-ends (flat) types. Both types are normally used in low force applications with large deflections which are particularly useful for extremely compact installations and in application where weight needs to be minimized.

  • Interlaced Wave Springs
    Interlaced Wave Springs

    An Interlaced Wave Spring is consisted of two wave springs with similar thickness, amplitude and frequency. The two constituent wave springs are combined together by interlacing them so that the spring turns of each spring abut other for substantially the length of the Interlaced Spring. This design can increase the thickness of the spring each turn to provide a greater load and gives a greater fatigue resistance property.

  • Single Turn Wave Spring
    Single Turn Wave Spring

    Single-turn wave springs are used for several applications, mainly designed for short deflection and low to medium forces. Technology enables to provide a dependable and accurate fit. The free ends of a wave spring with either gap or overlap type are allowed for the spring outside diameter grows during compression, which if constrained in a bore prevents binding of comparable stamped wave washers, this design has dramatically improved the fatigue resistance and lifetimes. Thus reduces costs effectively. Basically there are two types of Single turn wave spring: "The Gap Type" and "The Overlap Type" The Gap Type: As its name implies there is a small gap in the wave circumference. And the overlap type are two ends of the material strip lay on the top of each other.

  • Nested Wave Springs
    Nested Wave Springs

    Nested Wave Springs is similar to several springs are stacked together to achieve a high load effect. But different to tradition, we directly coiled and stacked layers of flat wire to achieve high accuracy and high load. Under the action of pressing down, the inner diameter and external diameter will become larger and can move freely in the circumferential direction, which greatly improves the fatigue resistance and increases the service life. In many applications, Nested Wave Springs can replace disk spring.

  • Round Wire Wave Springs
    Round Wire Wave Springs

    TSMC Round Wire Wave Springs are manufactured from round-section wire, it can develop higher loads while maintaining the more accurate spring rates. TSMC Round Wire Wave Springs are designed to meet heavy loads and used to get more pretension to prevent vibration. TSMC Round Wire Wave Springs are ideal for limited space application. As an alternative to Belleville or Disc Springs there is a high, accurate force applied with greater suspension travel.

  • Linear Wave Springs
    Linear Wave Springs

    TSMC Linear Wave Springs are a strip-shaped spring by continuously wave shapes, which has the same characteristics of load capacity and deformation as a high-loading device. Acts in the direction of a straight line to generate axial pressure. If TSMC Linear Wave Spring is wound into a ring, it generates a radial or outward force.

  • Wave Springs
    Wave Springs

    TSMC Wave Spring offer the strong advantage of space savings when used to replace coil springs. By reducing the operating height, the height of Wave Spring is reduced. With the smaller assembly size, the client product can be more miniaturization and high precision. Wave Spring only needs to occupy minimal working area in the action, so it has outstanding features in the axial and radial space, and is not only limited to use of axial and radial space, but also can be used in other more sophisticated space . Wave Spring can reach a predetermined working height gradually or instantaneously, and it can generate a range of almost no-force limited, and it can have a precise elastic coefficient through the proportional relationship between the load and the deformation.

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