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We produce a wide variety of springs:

COMPRESSION

EXTENSION

TORSION

WIRE & FLAT STRIP

CONSTANT FORCE & POWER
The most recognizable torsion spring can be found in a mouse trap. Its ends are rotated in angular deflection to provide forces of applied torque. They can also be designed to provide compression and torsion together.
Torsion Springs Capability: 004” diameter to .125” diameter
   
Torsion Springs Materials: A wide variety of materials including music wire, hard drawn, oil tempered, galvanized wire, stainless steels, and phosphor bronze, as well as exotics such as pre-plated materials (gold, silver, tin), inconel, chrome vanadium and many others.
   
Equipment: State of the art CNC wire forming capability as well as conventional coiling machines including: Itaya, Nu Coil, Torrington, and many more.

Torsion Springs

Our Engineering Department can assist you from the design stage through prototype to production.

We have a secure FTP website and welcome the use of electronic mail.

Send us your drawing or sample and we will be pleased to quote

 

Helical springs

used to apply a torque or store rotational energy are commonly referred to as "torsion springs." The two most common types are single and double-bodied springs. Torsion springs are found in clothespins, window shades, counterbalance mechanisms, ratchets and various types of machine components. They are also used as couplings between concentric shafts, such as in a motor and pump assembly. Torsion springs are generally mounted around a shaft or arbor, and must be supported at three or more points. Various kinds of ends are available to facilitate mounting and custom torsion springs can be made to your specifications.

Torsion springs

are stressed in bending. Rectangular wire is more efficient in bending than round wire, but due to the premium cost of rectangular wire, round wire is preferred. If possible, a torsion spring should always be loaded in a direction that causes its body diameter to decrease. The residual forming stresses are favorable in this direction, but unfavorable when the spring is loaded in a direction that increases body diameter. Unless there are unfavorable residual stresses in the end bends, springmakers normally heat-treat these springs at a low temperature to stabilize the end positions rather than to fully stress relieve them. If the direction of loading tends to increase body diameter, the springmaker should be advised to stress relieve the springs.

 
Industries Include:
AUTOMOTIVE • COMPUTERS • DEFENSE • ELECTRONICS • HARDWARE • IRRIGATION
MEDICAL EQUIPMENT & DEVICES • RECREATION • TELECOMMUNICATIONS


Contact Information:
Bazz Houston Co., 12700 Western Avenue, Garden Grove, California 92841
(714) 898-2666 • (866) 434-2977 • Fax: (714) 898-1389 • Email: insidesales@bazz-houston.com