Compression Springs

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Conical and cylindrical, ground or not.
Always finished as needed.

Garda molle produces many compression springs, versatile components used in various applications to absorb energy or exert force when compressed. When pushed towards their axis, these springs are designed to operate with opposing force. It is ideal for mechanisms requiring a precise response to compression, whether static or dynamic.

Many of the springs we manufacture require a pre-set treatment that compensates for length reduction during their working cycle.

Conical Springs

Conical compression springs, recognisable by their tapered shape, offer unique advantages, such as fully compressing without stacking.

Biconical Springs

Biconical cylindrical springs are an advanced solution for uniform compression and resistance to high mechanical stresses.
Their unique cylindrical shape with conical ends allows for optimal force distribution, reducing the risk of deformation and increasing durability.

Cylindrical Springs

Cylindrical compression springs, characterised by a uniform shape along the axis, are the preferred choice for most industrial applications. These springs provide constant force and are particularly effective for absorbing shocks and maintaining stability in mechanisms requiring uniform compression load.

Technical Production Notes

Wire Diameter

Round wire from 0.20 mm to 15 mm.

Processing and Surface Treatments

Zinc Coating

Nickel Plating

Shot Peening

Painting

Cataphoresis

Polishing

Tumbling

Bluing

Hardening

Materials

Every sector you explore, our springs are at the core

Automotive

Furniture

Filling

Vineyard

Sport

Agricolture

Packaging

Construction

Sectional doors

Lighting

Hydraulics

Textile

Industrial Closures

Labelling

Electromechanical

Karting

Motorbikes

Medical devices

Home appliances

Electronics

Aeronautics

Aerospace

Oil & Gas 

Nautical

A Form to Compress Distances.

You are one step away from the ideal “k” constant.

A Form to Compress Distances.

You are one step away from the ideal “k” constant.