RU2017176C1 - Magnet-controlled switching element - Google Patents

Abstract

FIELD: automatic control. SUBSTANCE: device has pressurized housing, two light guides which have polished ends and which are placed overhanging and opposite one to another inside opposite parts of housing. In addition device has L-shaped shutter which is mounted overhanging in one face of housing so that its smaller part is between ends of light guides. At last, device has ferromagnetic plate mounted in opposite face of housing for contact with bigger part of shutter. Housing is made of two caps shaped as plates and at least two side shells. In addition device has at least one pair of light guides, L-shaped shutter and ferromagnetic plate which are mounted inside housing in same way as main members. All light guides and ends of shutters and plates are mounted in holes in opposite faces of housing. Holes are produced by mutually opposite grooves in adjacent side shells. EFFECT: increased functional capabilities. 4 dwg

Description

 The invention relates to automation, radio, electrical and computer engineering and may find application in automatic control, monitoring and communication systems.

 Known multi-contact reed switch, which contains at least two pairs of contact parts and a detachable housing.

 However, the known design of a multi-contact reed switch excludes visual control of the gap between the contacts and between the optical fibers after gluing the housing. The known design does not provide a high percentage of yield.

 The closest technical solution is an element that contains a sealed container for a fiber with polished ends mounted cantileverly and counter to each other inside the container at its opposite ends, an L-shaped shutter mounted in one of the ends of the sealed container so that its smaller section is located in the gap between the ends of the optical fibers, and a ferromagnetic plate mounted in the opposite end of the container so that its free end is located above a large portion of the curtain with a gap.

 However, the known element has limited functionality — it can only switch one electric circuit and one light circuit.

 The aim of the invention is to increase the manufacturability while expanding functionality by increasing the number of switched circuits.

 This is achieved by the fact that in a magnetically controlled switching element containing a sealed housing, two optical fibers with polished ends mounted cantileverly and counter to each other in the housing openings at its opposite ends, a L-shaped curtain mounted cantilever in the hole of one of the ends of the housing so that its smaller portion is placed in the gap between the ends of the optical fibers, and a ferromagnetic plate mounted in the opposite end of the housing, with the possibility of contact with a large portion of the curtain, the housing is made in the form e two covers in the form of plates, and at least two shells placed between them, while the element is additionally equipped with at least one pair of optical fibers, one L-shaped curtain and one ferromagnetic plate mounted on the body like the first parts, and in the grooves are grooves for placing parts.

 In FIG. 1 shows a switching element in which the axes of all optical fibers and contact parts are located in the same plane; figure 2 is the same side view; in FIG. 3 - switching element, in which the axis of all contact parts are located in one plane, and the axis of the optical fibers in another plane; figure 4 is the same side view.

 The switching element has a flat housing consisting of covers 1 and 2 and two shells 3 and 4. The findings of the contact parts 5-8 are located in the holes formed by grooves made against each other in the shells 3 and 4. The leads of the optical fibers 9-12 are also located in the holes formed by the grooves in the shells.

 The cross section of the holes can have a different configuration (depending on the shape of the placed terminals (round, rectangular, etc.). In the initial state, a smaller section of each L-shaped curtain 5 and 7 is inserted into the gap between the respective ends of the optical fibers and blocks the luminous flux between the ends of the optical fibers.

 The axes of all the optical fibers and the contact details are located in the sectional plane of the shells 3 and 4. The plates 6 and 8 are placed under the blinds 5 and 7 with a gap of 100-200 μm with overlapping. The protruding ends of the contact parts 5-8 act as conclusions for connecting an external electrical circuit.

 The covers 1 and 2, as well as the shells of the housing 3 and 4 can be made of electrical insulating material, for example, glass, ceramics, etc. The use of glass is most preferable for the manufacture of these parts, since it allows them to be produced by pressing in graphite forms in which flat blanks are formed. In this case, the dimensions of the grooves in the shells for the leads and other geometric dimensions are performed with high accuracy and do not require further machining or calibration.

 Contact parts are made of ferromagnetic material, for example, permalloy type 50 N. The contact zones of the parts have a special coating that is resistant to erosion and with low electrical resistance.

 The sealing of a multi-contact switching element can be carried out, for example, using adhesives based on epoxy resins.

 In the absence of a control magnetic field, the opaque curtains 5 and 7 block the luminous flux between the optical fibers 9-12 (the state is “Off”), the contacts of the elements 5-8 are open.

 Under the influence of an external magnetic field, the ferromagnetic curtains 5 and 7 are deflected fully into the plates 6 and 7, while the path of the light flux between the respective optical fibers opens (the state is “On”) and the contacts of the elements 5-8 are closed.

 For the embodiment of the switching element in figure 3, the housing consists of covers 1 and 2 and three shells (at least) of 3.4 and 13. The shell 14 has grooves on both sides, in which are placed on one side of the contact part, and the other side of the fibers.

 The switching element can be multi-storey while increasing the number of shells.

Claims (1)

 MAGNETIC CONTROLLED ELEMENT, comprising a sealed housing, two light guides with polished ends, mounted cantileverly and counter to each other in the holes of the housing at its opposite ends, an L-shaped curtain fixed cantilever in the hole of one of the ends of the housing so that its smaller portion is placed in the gap between the ends of the optical fibers, and a ferromagnetic plate mounted in the opposite end of the housing with the possibility of contact with a large portion of the curtain, characterized in that, in order to increase the technology In order to increase the functionality by expanding the number of switching circuits, the housing is made in the form of two covers having the form of plates and at least two shells placed between them, while the element is additionally equipped with at least one pair of optical fibers, one L-shaped curtain and one ferromagnetic plate installed in the housing, like the first parts, and grooves are made in the shells to accommodate the parts.

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