SU1029255A1 - Two-position selector switch with store - Google Patents

Abstract

DUAL POSITIONER WITH MEMORY, soc. Osh at least ozgga gezakon, placed inside the control winding, characterized in that, with a chain of simplified control of the junction by means of control & |. It is provided with a pvum - the first and the second - one of the most common areas of switching-type geograms and a limiting resistor; to one conclusion is SOURCE; Kick of open pulses, the closing contact of the first additional hezacon and the disconnecting contact of the second d (The additional hezacone is connected at the point intended for connecting the other source of the impulse to the other pulses, the switch I connected the contacts of the two additional geaacon (I, you need to connect the other impulses to the other pin of the source, the switch of the additional hezacon Began to control winding.

Description

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The invention is related to electrical engineering, automation and switching technology and can be applied as a pulsed and two-position memory switch with memory in automatic devices of other branches of technology. A two-way electrical circuit breaker is known, which contains two heaters, on which control windings are placed, and C1 3 shunt diodes. The switch has a complex to, in addition, a bipolar pulse generator is required to control the operation of such a switch. A two-way memory switch is also known, which contains at least one gezak placed inside the control winding 2. This switch has a simpler circuit, but is difficult to control, since this requires two sources of unipolar pulses. The aim of the invention is to simplify switch control by implementing control from a single source of half-wave pulses. The goal is achieved by the fact that a two-position memory switch is equipped with two — first and second — additional switching-type gezakonam and a limiting resistor, the second contact of the specified additional gezacon through the limiting resistor co-connected with the opening contact of the first additional shazon law at the point intended for connection to one to the source of unipolar pulses, the closing contact of the first additional gezacon and the opening contact of the second is connected in the point intended for the subcl. To another source of single-phase pulses, the switching contacts of both additional hexa- gons are separately connected to the beginning to the end of the control winding. The drawing shows the circuit switch. The switch consists of the gezakon 1-4, located coaxially. Two of them, 1 and 2, are of an additional, switching type, and are intended for the commutary own control winding 5. The latter covers all of the gezacons. Gezakons 3 and 4 are intended for switching external loads of 55 U and one of them, for example, gezakon 3 can be normally closed, and the other - gezakon 4 - normally open. The opening contact of the additional gezacon 1 and the opening contact of the additional gezacon 2 through the limiting resistor (RQ) 6 are connected to the positive terminal of the sources 7 of the control and ample pulses. The closing contact of the additional control switch 1 and the opening contact of the additional control switch 2 are connected and connected to the negative terminal of the source 7 of control pulses. The switching contact of the additional gezacon 1 is connected with the beginning of the control winding & 5, and the switching contact of the additional gezacon 2 is connected with its end. The switch works as follows. In the initial state, the winding is two-point, the contact of the component of all the hexacons 14 is demagnetized and is in the state shown in the drawing. The first impulse from the positive terminal of the source of 7 short-duration critical impulses of the generator of polar impulses (LI), comes through the closed contacts of the gezacon 1 to the control winding and then through the closed contacts of the gezacon 2 to the negative terminal. It causes magnetization to saturate the contact details of all the gezaquons, which leads to their closure. In this case, the switching contacts of additional gazakons 1 and 2, by closing their closure contacts, connect the control winding to the source 7 in the other device. In this case, the start of the winding is connected to the negative terminal, and the end through the limiting resistor to the positive one. The contacts of the load gesakon 3 and 4, respectively, turn off and turn on their loads R, and R. Limiting the resistance R is designed to reduce the current through the winding when demagnetizing the contacts of g & laws, so as not to cause their permadicity leading to failure. The second current pulse comes from the plus terminal of the source 7 through the limiting resistor 6 (Rg), and the closed contacts of the additional control switch 2 to the control winding in the opposite direction and then through the closed contacts of the additional control switch 31 of the control actuator 7, causes de-magnetisation of the contacts of all the control switches and their release is the return to the original cocTOsnoie of the Hzsakons 1 and 2, which are connected to the control winding in the forward direction, and the contacts of the load switches H1OV 3 and 4 switch their loads on and off. Further, the cycle of work is repeated. The technical and economic effect of the proposed solution is that 5 it allows to simplify the control of a pulsed electrical circuit and reduce the cost of control of the switch. In this case, instead of avukh of polarized sources or the OQ of a bipolar switch control switch, only the ocin source of the anopole pulses is required. In addition, the device itself, compared with the known remote location, is 25–30% smaller in size and mass.

Claims (1)

DOUBLE-POSITION SWITCH WITH MEMORY ^ containing at least one hezacon placed inside the control winding, characterized in that, with the circuit to simplify the control of the switch by controlling from one source of unipolar pulses, it is equipped with two - the first and second - additional switch-type hezakons and restrictive a resistor, the closing contact of the second of these additional hezakons through a limiting reeiotor is connected to the opening contact of the first additional hezako on at the point intended to switch on • to the same output of the unipolar pulse source, the make contact of the first additional hezakon and the make contact of the second additional hezakon are connected at the point intended to connect to the other output of the source of unipolar pulses, the switching contacts of both additional hezakons are separately connected to beginning and end of the control winding. SU. „> 1029255>