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A wire spring relay is a type of relay, that has springs made from drawn wires of phosphor bronze, rather than cut from flat sheet metal as in the flat spring relay. It provided greater reliability than other types of relays. Wire spring relays entered mass production in the early 1950s. 〔(A New General Purpose Relay for Telephone Switching Systems ) by Arthur C Keller, Bell System Technical Journal, July, 1952〕 〔(Automatic Contact Welding in Wire Spring Relay Manufacture ) by A L Quinlan. Bell System Technical Journal, January 19, 1954〕 Wire spring relays were the most suitable relays for logic and computing functions. They were used extensively in markers, which were special purpose computers used to route calls in crossbar switch central offices. Wire spring relays were primarily manufactured by the Western Electric Company for use by the Bell System in electromechanical telephone exchanges. The design was licensed for use around the world, and was commonplace in Japan. Manufacturing of wire spring relays greatly declined in the late 20th century due to the introduction of digital electronic switching systems that used them in very small numbers. ==Description== A wire spring relay has two major parts, the electromagnet and the contacts. The electromagnet can have a resistance of between 15 and 200 ohms, and is often designed to operate satisfactorily at a common telephony voltage, such as 24 or 48 volts. The electromagnet can also be modified, by the insertion of metallic slugs (lumps) to create a brief delay before pulling in the contacts, or hold the contacts in place briefly after power is removed. A wire spring relay typically has many contacts, each plated with precious metals such as palladium. Each contact is either a fixed contact, which does not move, or is a moving contact, and is made from a short piece of wire. The majority of the wire spring relays manufactured in the 1960s had twelve fixed contacts. Each fixed contact, in the shape of a square box, is mounted on the end of a thick wire stem. A "make" contact, a "break" contact, or both can be provided for each fixed contact. A moving contact consists of two wires projecting out of the base of the relay, bent slightly inwards in order to exert pressure against the armature. The moving contacts are held away from the fixed contacts by a phenolic paper pattern called a "card". By changing the depth of the cuts on this form, the contacts can be made to make or break earlier or later than others. This can be used to transfer electrical control or power from one source to another by having a "make" contact operate before the corresponding "break" contact does. Rough adjustments can be made to the fixed contacts as a whole by inserting a screwdriver blade into a slot in the front support structure and twisting as appropriate. This usually suffices to cause the contacts to make and break when they should. In some cases a special tool, known as a "spring bender"〔(telephone switching tools )〕 to adjust the bend of the springs may be applied to adjust individual fixed or moving contacts. For the stored program control exchanges of the early 1970s, many relays were made with steel cores that remained magnetized after current ceased to flow in the winding. This magnetic latching feature, different from the use of slugs to delay relay operation, was used in the arrays of reed relays that switched connection paths in the early models of electronic switching systems. A miniature wire spring relay was also produced, starting in approximately 1974 as part of the 1A redesign of the 1ESS switch. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Wire spring relay」の詳細全文を読む スポンサード リンク
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