RU2148282C1 - Thermal switch for electric lighting systems - Google Patents

Abstract

FIELD: lighting engineering. SUBSTANCE: switch has reed relay with fixed contacts and contact closer made in the form of electricity conducting material with low evaporating temperature; reed relay is mounted for coming in thermal contact with piece of equipment to be switched off. EFFECT: improved reliability of switch. 3 dwg

Description

 The invention relates to electrical engineering, and more particularly to devices for turning off light sources in a power network, and can be used in lighting electrical networks.

 A high-voltage reed switch is known, comprising a housing, a fixed insulator located in it, in the inner cavity of which a reed switch is located, which can be used as a thermal switch for electric lighting (aut. St. USSR N 1690020, 1991, H 01 H 51/28).

 The disadvantage of such a thermal switch of electric lighting is the limited reliability of operation, due to the fact that the movable contact is subject to alternating power load (alternating deflection of it in opposite directions) of the magnetomotive force. This limits the possible period of reliable operation of the thermal switch.

 Also known is a thermal switch for electric lighting, containing reed switches, a permanent magnet, a fixture of complex shape, having sections of complex shape with a nonlinear path in the shape of an arc (aut. St. USSR N 1815990, 1993, H 01 H).

 The disadvantage of this thermal switch is its low reliability, and in this case, due to the operation of the contacts under alternating power load, which reduces the term of reliable operation of the thermal switch.

 The objective of the invention is to increase reliability by eliminating the impact on the contacts of alternating power load.

 The technical result is an increase in the time of reliability of the thermal switch.

 To do this, in the thermal switch of electric lighting containing the reed switch and its contact closure, the latter are fixed, the contact closure is in the form of an electrically conductive substance with a low evaporation temperature, and the reed switch is installed with the possibility of thermal contact with the switch-off object. Since in the inventive thermal switch of electric lighting the contacts of the reed switch remain stationary during operation, do not experience any power load, then its reliability will be higher.

 In FIG. 1 shows a general view of a thermal switch for electric lighting (main view); in FIG. 2 is a side view of FIG. 1; in FIG. 3 is a circuit diagram explaining its operation in an electric lighting network.

The thermal switch of electric lighting is arranged as follows. Reed switch 1, containing contacts 2 hermetically inserted into it, is partially filled with an electrically conductive substance 3 (of the Guthrie alloy type with a melting point below 45 ^o C) and has the possibility of thermal contact with the shutdown object. In its usual state, the substance 3 closes the contacts 2. Reed switch 1 is installed vertically in the hole 4 of the contact rack 5, made of non-conductive material (plastic, ceramic). The conclusions of the contacts 2 by means of screws 6 are connected to the metal squares 7 and 8. The ends of the mains cable (that is, electric lighting) are connected to the same squares by screws 9. Thus, the thermal switch is included in the wire break 10. In the cover 11 (it is necessary for user safety), grooves 12 are made for input and output of the ends of the wire 10. The thermal switch has brackets 13 connected to the contact rack 5 and having the shape of the shape of the heating surface of the shutdown object, for example, an electric cartridge 14 of an incandescent lamp Ania 15 power, which is subject to shutdown. The brackets 13 thermal switch is mounted on the cartridge 14.

 The thermal switch works as follows.

 In the initial state, the power circuit of the regulated object 15 (for example, the glow plugs of the electric lighting network) is closed by contacts 2 through the electrically conductive substance 3. When the electric lamp is turned on, the reed switch 1 is heated by the electric cartridge 14. At the same time, the easily volatile substance 3 reaches its critical state, at which its flash evaporation occurs . In this case, the contacts 2 open, and the electric circuit of the lamp is de-energized. But then the elec- tron cartridge 14, and with it the reed switch 1, are cooled and the vapors of substances 3 instantly condense, and this substance again closes contacts 2 — the electric circuit is ready again for the next inclusion.

 In FIG. 3 shows one of the possible applications of the inventive thermal switch - lighting circuit of a long darkened corridor. Here, the numbers 15 and 16 indicate the incandescent bulbs, in particular the position 15 that, on the electric cartridge of which the inventive thermal lighting switch is installed.

 The reed switch 1 is installed in the contact rack 5 in such a way that its bottom is in contact with the electric cartridge 14. The electrically conductive substance 3 closing the contacts 2 has a sufficiently low boiling point (so that within 5-10 minutes, under the influence of heat from the electric cartridge, the pairs reach critical parameters, and all the substance in the reed switch 1 instantly turned into a vapor state, opening the contacts 2).

 In FIG. 3, in addition to the previously mentioned, the magnetic relay 17 and the buttons 18 are turned on. When any of the buttons 18 is pressed, the relay 17 is activated and closes the contacts 19, including the electric lamps 15, 16. When the reed switch 1 is heated in it, the contacts 2 open, all the lamps will be turned off , open also under the action of the spring of the relay 17, contacts 19. When the electric lamp 15 cools, the vapors of substance 3 are condensed, and again the contacts 2 are closed, the circuit will again be ready to operate from any button 18.

Claims (1)

 An electric lighting thermal switch containing a reed switch and a contact closure of its contacts, characterized in that the contacts are fixed, the contact closure is in the form of an electrically conductive substance with a low evaporation temperature, and the reed switch is installed with the possibility of thermal contact with the shutdown object.

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