We design and supply precision-engineered steel compression springs, which offer resistance to compressive forces. Compression springs are generally coiled with a constant body diameter, however, various other forms are also available, such as - conical, barrel and hourglass. Round wire is widely used for these steel compression springs, although, rectangular, square and special section wires are sometimes required.

We offer steel compression Springs in a wide range sizes and shapes, which include straight compression springs, conical compression springs, concave compression springs, and barrel compression springs, with open or closed ends, and either ground squared or unground.

Compression springs provide resistance to linear compressing forces (push), and one of the highly efficient energy storage devices available. Our compression metal Springs have found uses in various industrial applications, which range from automotive engines and large stamping presses to major appliances and lawn mowers to medical devices, cell phones, electronics and more.

We manufacture and supply high quality wire form springs that comply stringent industry standards and parameters and are capable of forming both round and flat wire from .003" diameter up to .375" diameter or larger, which depends on the type of material.

Our range of wire form springs come in a wide range of size, shapes and specifications to fulfill various industrial requirements. Designed to perfection, our range of wire form springs offer optimum performance, reliability and durability. Available at industry leading prices, our wire form springs has found uses in different industrial applications that require high quality parts with tight tolerances.

We design and manufacture a compressive range of high performance spiral springs for uses in different industrial applications and purposes. Superior in quality and performance, our spiral springs are formed from flat strip or wire wound in the shape of a spiral, loaded by torque around an axis normal to the plane of the spiral.

Spiral springs have a similar design as that of power spring by virtue of the coiled shape but are not under force in their natural free condition. This means, these are formed in a specific fixed free diameter ready to assemble. As a matter of fact, spiral springs generally have a much smaller width to thickness ratio as compared to power Springs

Some common applications where spiral springs have found uses include - Brush Springs in D.C. motors, drill presses, vertical mill, anti-backslash springs, alternators, counter balance springs and more.

The quality torsion springs manufactured by us work with precision in their desired application. Torsion spring provide resistance to twist or rotationally applied force. In the case, a force is applied to a torsion spring, the inside diameter reduces and the length of body increases.

The ends of torsion Springs are attached to other components, and when these components rotate around the center of spring, the spring tries to push them back to their initial position. Torsion Springs can store and release angular energy or statically hold a mechanism by deflecting the legs about the centerline axis of body. Depending on the requirement, torsion Springs can be designed to work in a clockwise or anti-clockwise rotation.

Some common examples of torsion Springs, include - uses in clothes pins, clipboards, swing-down tailgates and garage doors. These Springs are also used for hinges, counterbalances and applications of lever turn.

Our manufactured extension Springs are known for their superior performance, reliability, strength and durability. These springs are attached at both ends to other components & when these components move apart, the spring tries to again bring them together. We offer extension springs come in various sizes, from small medical devices to off-road machinery brake Springs.

Extension springs absorb and store energy and also create a resistance to a pulling force. It is the initial tension, which determines how tightly an extension spring is coiled. This initial tension can be manipulated to achieve the load requirements of a particular requirement. These Springs are wound to oppose extension and are often tightly wound in a no-load position and have eyes, hooks or other interface geometry at the ends to attach to the components, which they connect.

Extension springs are frequently used to offer return force to components, which extend in the actuated position. Some common examples of extension Springs, include - Garage Door Assemblies, Vise-Grip Pliers, Trampolines, Washing Devices, Automotive Interiors and Exteriors, Carburetors, Farm Machinery, Toys as well as various other requirements.