SU528515A1 - Device for monitoring open and short circuits in an electromagnetic load circuit - Google Patents

Description

one

The invention relates to the field of electrical engineering, in particular, to devices that perform coitrol over the state of cesium, containing electrolytic load, and the load to be used to control the breakage and short circuit of the load with electromagnetic load.

Similar devices are known for automatically monitoring the integrity of control circuits of electromagnetic actuators operating on direct current, containing sensitive control elements made in the form of various transformers inductively connected to the controlled circuit, or in the form of magnetic amplifiers 1, 2, 3 .

Most circuits of this kind control only open circuits; monitoring with a short circuit requires additional measures.

The closest in technical essence to the proposed device is device 3.

In order to simplify and extend the functionality, in the proposed device, the control signal connection unit is connected in parallel with the operating signal commutation unit, and the second diode in the control relay circuit is switched in opposite to the first diode.

In this scheme, the control relay does not work directly from the source of the control voltage, but due to the emf of self-induction by electromagnetic loading, which ensures that the entire circuit, including the electromagnet winding, is sufficiently simple to control the whole circuit.

On the other hand, such a circuit ensures the isolation of the control signal supply circuit from the operating signal supply circuit to the electromagnetic load.

The scheme of the proposed device is shown in the drawing, where indicated:

I is the operating voltage source of direct current; 2 — operating signal switching unit; 3 - the source of the control voltage of the alternating current; 4 - pilot signal connection unit; 5 - electromagnetic load; 6 — a control assembly consisting of a control relay 7, a capacitor 8, and a diode 9; 10 - diode.

Control relay 7, shunted by capacitor 8, is connected via diode 9 in parallel with load 5, connected via working voltage block 2 to operating voltage source 1. Test voltage source 3 through diode 10 and control signal connection unit 4 is connected in parallel with block 2 and diode 10 is counter to diode 9 of node 0 control.

The device works as follows.

When applied to a controlled circuit with electromagnetics (electromagnet, relay, etc.), the alternating voltage is from the source 3 but the circuit: source 3 - diode 10 - control signal connection unit 4 - load 5 in one of the half periods determined by the diode 10, a control current will flow.

In the next half-period, a self-induction EMF arising on the winding of an electromagnet causes current to flow through the shunting electromagnet through the diode Y, the winding of relay 7, and provides charge to the capacitor 8.

Further, due to the counter-switching of the diodes 9 and 10, in each half-period of the current cycle of the current-controlled load circuit, a current simultaneously flows through the discharge circuit of the capacitor 8 through the relay coil 7.

Thus, the winding of the relay 7 of the control unit 6 is continuously flowed around the current: in one of the control voltage un-periods — due to the EMF of self-induced electromagnetic load 5, in the other — due to the discharge of the QF of the depressor 8.

This leads to the triggering of the relay 7 and the closure of its contacts, which can be included in the circuit of the indicator of conductivity and co-polarization of my circuit.

In the case of a break of a controlled circuit or short circuit of the battery, the electromotive force of self-induction does not occur, the control relay winding is de-energized, and its closing contacts

break the chain of the health indicator circuit. When a part of the electromagnet turns short-circuits, the EMF self-1H) duccin decreases, which is also fixed by the control unit.

Formula of invention

A device for monitoring the interruption and short circuit in an electromagnetic load, containing a working sigal switching unit connected to a direct current source, the output of which is connected to an electromagnetic load, a control connection unit connected through a diode to the control signal. voltage of an alternating current n electromagnetic control relay, the winding of which is bridged by a capacitor, is connected through a second diode to an electromagnetic load, characterized in that, for the purpose simplicity and functionality expansion unit connecting the pilot unit included narallelno switching operation signal, and the second diode switch control circuit included counter nerve diode.

Sources of information taken into account during the examination:

1. Ilyin V. A. Telecontrol n teleuprazlenpe. Energie, M., 1969, p. 268, fig. 10-2 (analog).

2. Author's certificate N ° 470795, M. KL.2 G 01R 31/02, 1970 (aialog).

3. Author's certificate No. 230969, M. KL.2 G OSH 31/02, 1973 (prototype).

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