SU1181006A1 - Relay based on sealed relay contacts - Google Patents

Abstract

RELAYS ON HERMONES, containing at least two control windings, reed switches located inside the control winding, reed switches located outside the control winding, and magnetic conductors, so as to increase sensitivity and increase; neither the number of switching elements while reducing the size, it is equipped with two parallel insulating plates with holes, the control windings are placed between the plates, the reed switches located outside the control windings are placed between the control windings, and the number of reed switches located between the control windings does not exceed the number reed switches located inside one of the control windings, all reed switches i are located perpendicular to the insulation plates, contact details (L reed s pass through the openings of the insulating plate, the magnetic cores are arranged on the outer sides of the insulating plates and the control winding includes oppositely. About 00 of about

Description

The invention relates to electrical engineering, in particular, to switching devices of electrical circuits of automatic control and measurement systems. The purpose of the invention is to increase the sensitivity and increase the number of switching elements while reducing the size. The drawing schematically shows a relay on reed switches. The relay on reed switches contains at least two windings 1 and 2 of control, connected oppositely, reed switches 3-8, with reed 3 and 4 placed between windings 1 and 2, reed switches 5 and 6 are located inside control winding 1, and reed switches 7 and 8 - inside the winding 2 controls. The control windings are located between two parallel-arranged insulation plates 9 and 10, on the outer side of which magnetic cores 11 and 12 are placed. Insulation plates 9 and 10 have holes 13 and 14 through which contact parts 15 and 16 of reed switches 3 pass -eight. The relay works as follows. When current is supplied to the oppositely connected control windings 1 and 2 (connected in series or parallel), control magnetic fluxes, whose directions are shown by arrows, pass through the contact parts 15 and 16 of the reed switches 3-8. When the control magnetic fluxes reach a level, the flow of the accumulator reed switches 3-8 work. The release of all reed switches occurs when the current is turned off in windings 1 and 2 of the control. Due to this mutual arrangement of reed switches, control windings and insulating plates with magnetic cores in the relay, the marching conductivity is high by reducing the length of the magnetic cores, the magnetic flux of the scattering is reduced due to the fact that most of the control magnetic fluxes go completely solid volume of reed switches, and thus ensures high sensitivity of the relay. In order to maintain a high sensitivity of the relay, it is advisable that the number of rows of reed switches located inside the control windings be taken to be no more than two. With large quantities of reed switch rows, the conductivity of the magnetic circuit is reduced. The number of reed switches located between the control windings must be chosen such that it does not exceed the number of reed switches located inside one of the control windings. This is necessary in order to exclude the placement of the extreme in a series of reed switches in the region of space with a low magnetic field strength, i.e. thereby eliminate the decrease in the sensitivity of the relay. The proposed relay on reed switches allows an increase in the number of switching elements by adding new control windings as well as adding reed switches located inside the control windings with a corresponding change in the size of the control winding window. Due to the described arrangement of the elements of the relay, its dimensions have decreased.

Claims (1)

RELAYS ON REEDS, containing at least two control windings, reed switches located inside the control winding, reed switches located outside the control winding, and magnetic cores, which, in order to increase the sensitivity and increasing the number of switching elements while reducing dimensions, it is equipped with two parallel insulating plates with holes, control windings are located between the plates, reed switches located outside the control windings are placed between the control windings the number of reed switches located between the control windings does not exceed the number of reed switches located inside one of the control windings, all reed switches are perpendicular to the insulating plates, the contact details of the reed switches pass through the holes of the insulating plates, the magnetic circuits are located on the outside of the insulating plates, and the windings controls are included counter. 1 118 1006 2