Their turns (loops) are not touching in the unloaded position, and they need no attachment points. Compression springs are designed to become shorter when loaded.Their turns (loops) are normally touching in the unloaded position, and they have a hook, eye or some other means of attachment at each end. Tension or extension springs are designed to become longer under load.A spring (made by winding a wire around a cylinder) is of two types: Coil spring Also known as a helical spring. Common types Ĭantilever spring A flat spring fixed only at one end like a cantilever, while the free-hanging end takes the load. Garter spring A coiled steel spring that is connected at each end to create a circular shape. Serpentine spring A zig-zag of thick wire, often used in modern upholstery/furniture. Machined springs can be made in the typical load cases of compression/extension, torsion, etc. Since it is machined, the spring may incorporate features in addition to the elastic element. Machined spring Manufactured by machining bar stock with a lathe and/or milling operation rather than a coiling operation. They can also be classified based on their shape:įlat spring Made of a flat spring steel. Constant spring Supported load remains the same throughout deflection cycle Variable spring Resistance of the coil to load varies during compression Variable stiffness spring Resistance of the coil to load can be dynamically varied for example by the control system, some types of these springs also vary their length thereby providing actuation capability as well Torsion spring Unlike the above types in which the load is an axial force, the load applied to a torsion spring is a torque or twisting force, and the end of the spring rotates through an angle as the load is applied. Compression spring Designed to operate with a compression load, so the spring gets shorter as the load is applied to it. Tension/extension spring The spring is designed to operate with a tension load, so the spring stretches as the load is applied to it. Springs can be classified depending on how the load force is applied to them: In 1676 British physicist Robert Hooke postulated Hooke's law, which states that the force a spring exerts is proportional to its extension. The first spring powered-clocks appeared in that century and evolved into the first large watches by the 16th century. Ctesibius of Alexandria developed a method for making springs out of an alloy of bronze with an increased proportion of tin, hardened by hammering after it was cast.Ĭoiled springs appeared early in the 15th century, in door locks. In the Bronze Age more sophisticated spring devices were used, as shown by the spread of tweezers in many cultures. Simple non-coiled springs have been used throughout human history, e.g. Some non-ferrous metals are also used, including phosphor bronze and titanium for parts requiring corrosion resistance, and low- resistance beryllium copper for springs carrying electrical current. Small springs can be wound from pre-hardened stock, while larger ones are made from annealed steel and hardened after manufacture. Springs are made from a variety of elastic materials, the most common being spring steel. The stiffness (or rate) of springs in parallel is additive, as is the compliance of springs in series. The inverse of spring rate is compliance, that is: if a spring has a rate of 10 N/mm, it has a compliance of 0.1 mm/N. A torsion spring's rate is in units of torque divided by angle, such as N A torsion spring is a spring that works by twisting when it is twisted about its axis by an angle, it produces a torque proportional to the angle. An extension or compression spring's rate is expressed in units of force divided by distance, for example or N/m or lbf/in. That is, it is the gradient of the force versus deflection curve. The rate or spring constant of a spring is the change in the force it exerts, divided by the change in deflection of the spring. When a conventional spring, without stiffness variability features, is compressed or stretched from its resting position, it exerts an opposing force approximately proportional to its change in length (this approximation breaks down for larger deflections). An example of a non-metallic spring is the bow, made traditionally of flexible yew wood, which when drawn stores energy to propel an arrow. Modern springs are typically manufactured from spring steel. In everyday use the term often refers to coil springs, but there are many different spring designs. Springs can store energy when compressed. Military booby trap firing device from USSR (normally connected to a tripwire) showing spring-loaded firing pinĪ spring is a device consisting of an elastic but largely rigid material (typically metal) bent or molded into a form (especially a coil) that can return into shape after being compressed or extended.
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