SU1690020A1 - High-voltage hermetically sealed reed relay - Google Patents

Abstract

The invention relates to the field of electrical engineering, in particular to an electromagnetic relay with reed switches with high voltage insulation. The purpose of the invention is to expand the scope. In order to increase the device operation current, a short-time current is passed through the coil (K) 11 in such a direction that a magnetic field of one polarity is created at the contact details of the 9 K 11 coils and the permanent magnet 13. Depending on the magnitude of this current, the required number of reed switches 9 is opened. The opening of the reed switches 9 is accompanied by the inclusion of the resistance of the required value. An increase in the resistance of the control winding circuit 7 will reduce the current flowing through it. and the sensitivity of the device will be 1 sludge.

Description

The invention relates to electrical engineering, namely to electromagnetic relays with sealed magnetically controlled contacts and high-voltage insulation between them and the field winding.

The purpose of the invention is the expansion of the scope.

The drawing shows a high voltage reed switch with a control element, a longitudinal section.

The relay contains a housing 1, a stationary insulator 2 located in it, in the inner cavity of which there is a reed switch 3, enclosed in a non-magnetic metal ampoule 4, a control element and a 5MDS source, made in the form of a U-shaped ferromagnetic core 6 of a flat shape with a control coil 7 (winding ), a stationary insulator 2 is placed inside a non-magnetic metal screen 8, and the indicated MDS source is installed in such a way that the poles of the ferromagnetic core 6 are in contact with the non-magnetic metal screen 8. I adjust The main element is made in the form of two additional MDS sources, a group of additional reed switches 9 and resistors 10, the number of resistors corresponding to the number of reed switches.

One of the additional sources of MDS is made in the form of a control coil 11 with a ferromagnetic core 12 and is installed inside a non-magnetic metal ampoule 4 with a reed switch 3 so that the longitudinal axis of the ferromagnetic core is perpendicular to the longitudinal axis of the device. The second MDS source is made in the form of a rod-mounted permanent magnet 13 installed in the housing near the fixed insulator 2 with a non-magnetic metal screen 8 so that its longitudinal axis is also perpendicular to the longitudinal axis of the device. Additional reed switches 9 are connected in series with each other and with the terminals of the MDS source, each resistor 10 is connected in parallel with the corresponding reed switch 9, and these additional reed switches 9 are installed in a row so that one of the additional reed switches 9 is in contact with a non-magnetic metal screen 8. All additional reed switches are placed relative to additional sources of MDS, that one of the contact parts of each reed switch 9 is located opposite the ferromagnetic core 12, and the second contact part of the mentioned reed switch and is located opposite the pole 14 of the permanent magnet 13. The housing 1 is filled with epoxy resin 15.

The relay operates as follows.

The current of the control coil 7 creates a magnetic field, which, closing through the magnetic circuit and contact-datals of the reed switch 3, causes the operation of this reed switch. With a short-term supply of current to the control coil 11, the direction of which will create a magnetic field in the ferromagnetic core 12 opposite to the field created by the permanent magnet 13 on the contact details of the reed switch 9, all the reed switches 9 will be closed.

After turning off the coils 11, the triggered reed switches 9 will remain closed, since the permanent magnet 13 is placed in relation to the reed switches 9 so that it is not capable of triggering them, but it can keep all triggered reed switches closed. With this position of the reed switches 9, the device will be configured for maximum sensitivity. If it is necessary to blow off the sensitivity (increase the response current), the relay passes a short-term current through coil 11 in such a direction that a magnetic field of the same polarity is created on the contact details of the reed switches 9 by coil 11 and a permanent magnet 13. Depending on the magnitude of this current, which will be known in advance, the required number of reed switches will open 9. The opening of the reed switches is accompanied by the inclusion of the resistance of the required value in series with the winding 7. Increasing the resistance of the circuit of the control winding 7 will reduce the current flowing through it, i.e. the sensitivity of the relay will be roughened.

. Thus, a relay with a regulating element allows you to expand the scope by expanding the control range, increasing reliability and sensitivity, reducing the size.

Claims (1)

Claim A high-voltage reed switch containing a housing, a fixed insulator located in it, a reed switch located in a non-magnetic metal ampoule, a regulating element and an MDC source made in the form of a U-shaped flat-shaped ferromagnetic core with a control coil, a fixed insulator is located inside non-magnetic metal screen, and the indicated source of MDS is installed. so that the poles of the U-shaped ferromagnetic core are in contact with a non-magnetic metal screen, which is available in that, in order to expand the scope, the regulating element is made in the form of two additional MDS sources, a group of additional reed switches and resistors, the number of resistors being selected corresponding to the number of reed switches, one of the 5 additional MDS sources is made in the form of a control coil with a ferromagnetic core and is installed inside a non-magnetic metal ampoule with a reed switch so that the longitudinal the axis of the ferromagnetic core of the 10 core is perpendicular to the longitudinal axis of the device, and the second additional source of MDS is made in the form of a rod permanent magnet, mounted in the housing near the stationary 15 insulator so that its magnetization axis is also perpendicular to the longitudinal axis of the device, additional reed switches are connected in series with each other and with the terminals of the MDS source, each resistor is connected in parallel with the corresponding reed switch, and these additional reed switches are installed in a row so that one of the additional reed switches is in contact with a non-magnetic metal screen, all the additional reed switches are located relative to the additional sources of MDS, so that one. The contact parts of each reed switch are located opposite the ferromagnetic core located inside the non-magnetic metal ampoule, and the second contact part of the reed switch is located opposite one pole of the said permanent magnet.