RU1715075C - Optical commutator - Google Patents

Abstract

FIELD: communication equipment. SUBSTANCE: optical commutator has body housing two electromagnetic drives having common pole-piece tip 3. It carries two pairs of flat parallel springs placed one above other with mobile commutation elements 6 and 7 located in U-shaped part of common pole-piece tip between spring-loaded rests 9-12 made from magnetic material. Optical fibers 21-25 are mounted on working surfaces of commutation elements 6 and 7 in opposition. EFFECT: increased number of commutation channels. 3 dwg

Description

 The invention relates to communication technology, in particular to the design of means for switching optical circuits in fiber-optic transmission systems.

 The aim of the invention is to increase the switching channels.

 Figure 1 shows an optical switch, front view; figure 2 is the same, a top view (case conventionally not shown); figure 3 drive (coils and pole pieces conventionally not shown), axonometry.

 The optical switch includes a housing 1, a flat base 2, made of non-magnetic material, on which an electromagnetic drive is mounted. The drive is made as follows: on the base 2, the pole piece 3 is rigidly fixed. It is made of complex shape, and the plane parallel to the plane of the base has limbs forming the U-shaped part of the tip 3.

 A bracket 4 is attached to another plane perpendicular to the base plane along the axis of symmetry, to which movable switching parts 6 and 7 are attached using two parallel pairs of plane springs 5.

 The springs are installed in pairs one above the other with a gap a, which allows independent movement of one switching part relative to another. The switching parts 6 and 7 are made of magnetically sensitive material have a U-shape with working petals and are installed one above the other, and the petals are located one above the other on both sides along the axis of symmetry of the pole piece 3.

 In addition, the petals of the switching parts 6 and 7 are at different heights relative to the base 2 in accordance with the position of the flat springs 5, in addition, the lower switching part 6 has a vertical protrusion 8, allowing you to arrange the working surfaces of the switching parts 6 and 7 in one plane.

 In the perpendicular bends of the pole piece 3, spring-loaded adjustable stops are installed in pairs in accordance with the position of the switching parts 6 and 7, for example, screws 9-12.

 High operational characteristics are ensured by high accuracy of the joining of optical fibers, measured in tenths of a micron, therefore, the amount of instability of the introduced optical losses is affected by play in the threaded fastening of adjustable stops. To eliminate this kind of influence, the adjustable stops are spring loaded. They are made of magnetically sensitive material, which eliminates the loss of magnetic flux in the gap between the switching parts 6 and 7 and the pole piece 3.

Adjustable stops are installed so that the switching parts 6 and 7, moving from one extreme position to another, make a movement equal to 2 α and α, respectively
Two cores with coils 13, 14 are installed to the plane of the pole tip 3 perpendicular to the plane of the base 2 equidistant from the axis of symmetry of the pole tip 3, pole tips 15-18 with permanent magnets 19 and 20 between them are symmetrically placed.

 Pole lugs 15-18 are made of magnetically sensitive material, have a L-shaped shape and are arranged in pairs. Their working sections pass at different heights in accordance with the position of the petals of the switching parts, which are located between the working sections of the pole pieces 15-18.

 The pole piece 3 is a common magnetically conducting element for two independent magnetic circuits formed on one side of the core of the coil 13, pole pieces 15 and 16, the switching part 6, on the other hand, the core of the coil 14, the pole pieces 17 and 18, the switching part 7.

 Optical fibers 21-25 are fixed on the working surfaces of the switching parts 6 and 7 counter. The working surfaces of the switching parts 6, 7 are processed in one technological operation, for example, by grinding.

The working surface of the switching part 6 contains at least one fiber 21, called the input, and the working surface of the switching part 7 contains, for example, four output optical fibers 22-25, fixed to each other at a strictly defined distance α
On the working surface of the switching part 6 can be fixed n optical fibers, and then on the switching part 7, respectively, 4n optical fibers. On the side walls of the housing there are means 26 and 27 for fixing optical fibers. The mounted drive is placed in the housing 1 and is closed by a cover 28.

 The optical switch is based on the principle of accurate positioning, i.e., the exact position of the movable drive elements with optical fibers fixed to them relative to each other, which allows for stable optical attenuation during multiple switching cycles.

Claims (1)

 OPTICAL SWITCH, comprising a housing inside which a first electromagnetic drive with adjustable stops is mounted, optical fibers fixed in the same plane in the opposite direction, and two flat parallel springs with a first switching element, characterized in that, in order to increase the switching channels, a second an electromagnetic drive having a common pole piece with the first, a second pair of flat parallel springs with a second switching element, both switching elements are located in the P-mod communication part in common pole piece between adjustable stops, made spring-loaded.

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