SU661426A1 - Arrangement for monitoring break and short-circuiting in a network with electromagnetic load - Google Patents

Description

The drawing shows the functionality of the device.

The device contains a source of operating voltage of direct current 1, switching unit of operating signal 2, source of control voltage of alternating current 3, unit for connecting control signal 4, electromagnetic load 5, control unit 6, consisting of control relay 7, capacitor 8 and diode 9, diode 10, and the sub-key control unit 4 contains a switch 1 i with movable contacts 12 and 13, fixed disconnecting contacts 14, 15 and closing contacts 16, 17.

Control relay 7, shunted by capacitor 8, is connected via diode 9 in parallel with electromagnetic load 5, connected via operating-voltage switching unit 2 to operating voltage source 1. Control voltage source 3 through diode 10. connected to combined contacts 14, 17 and contacts, respectively 15, 6 of the switch 4. The movable contacts 12, 13 of the switch 11 are connected in parallel with the block 2.

The device works as follows; - ----- - X

At the first position of the switch

11, shown in the drawing, contacts 12-14 and 13-15 are closed. Here, with respect to the source of the control voltage 3, the diodes 9 and 10 are switched on according to polarity and in series. As a result of a full-wave signal in this mode, in the absence of failures in the control node 6 and the diode 10, the control relay 7 is triggered regardless of the integrity of the electromagnetic load circuit 5. Thus, the control mode of the correct functioning of the control node and

the health of diode 10. If in this mode the control relay 7 does not work, its contact turns off the health indicator (not shown in the drawing). Since, usually, the diode reliability significantly exceeds the reliability of the control unit, and units 6 are combined into functional modules, changing my modules containing the failed control unit 6 leads to a quick elimination of the device failure and does not require the definition of a specific faulty element inside the control unit.

In the working and second control modes, the switch 11 is transferred to the second position when the contacts are closed.

12, 16 and 13, 17. In this case, diodes 9 and 10 are switched in opposite. In the operating mode, when the switching unit of the operating signal 2 is turned on to the electromagnetic load 5, the voltage from the DC source 1 is applied. In the operating mode, the electromagnetic load 5 is activated, and the control relay is free of current, since diode 9 is turned on oppositely to the polarity of the source of the operating voltage of direct current 1. In the second control mode, when the switching unit is turned off, the operating signal 2 is applied to the electromagnetic load 5, a half-wave voltage is applied from the source 3. In this case April AC voltage source 3 is much lower voltage DC source current ennogo 1 and level insufficient to actuate the electromagnetic at 5 ° Booting in the control mode.

In one of the half-periods of the voltage source 3, determined by the diode 10, in the second control mode, the control current flows through the circuit from the source 3 through

5 diode 10, closed contacts 12, 16, 13, 17 of switch 11 and electromagnetic load 5. In the next half-period, the EMF arising on the winding of the electromagnetic load causes current to flow through the load-shunting circuit through diode 9, the winding of the relay 7 and provide a charge to the capacitor 8. Due to the counter-switching of the diodes 9 and 10 in the considered mode in each half-period of the passage of the current control through the electromagnetic load circuit

5 5 current-through diode 9 does not leak and the capacitor 8 is discharged through the control relay 7 winding. Thus, when the electromagnetic load 5 is intact, the control assembly 6 relay 7 winds continuously flowing around the current: in one of the half-periods of the test voltage due to The EMF of self-induction of the electromagnetic load 5, in the other, due to the discharge of the capacitor 8. This triggers the relay 7 and closes its contacts in the health indicator circuit of the controlled circuit.

In the event of an interruption or short circuit in a controlled circuit of an electromagnetic load of 5 EMF, self-induction does not occur when the control signal is applied. As a result, the relay control 7 does not work, and its closing contact disables the circuit health indicator. When a short circuit of a part of the turns of the electromagnet 5, the self-induction EMF decreases, which is also fixed by the control unit.

5 Thus, the device provides, along with the operating mode of the electromagnet control and the control mode of the open circuit and short circuit in the circuit with electromagnetic load, an additional mode

Q control the correct functioning of the node control. As a result, the functionality of the device is expanded, and the reliability and amount of information about the state of the monitored circuits is increased.

Claims (2)

Invention Formula A device for monitoring open and short circuits in an electrical circuit with a .666 load; containing a working signal switching unit connected to a DC voltage source, the output of which is connected to an electromagnetic load, an electromagnetic control relay, the winding of which is bridged by a capacitor and connected via a first diode parallel to an electromagnetic load, and a control signal connecting unit connected through a second diode to a control source voltage and connected in parallel with the switching unit of the operating signal, characterized in that, in order to increase the reliability of control, the power supply unit The control signal is switched on two connected switches, each of them / which contains one mobile and two jC- / 2); 2 .. l-bMSftt -if (, G (And, I nyr-y vrf V 1-movable contact while the movable contacts are connected to the outputs of the control signal connection unit, the fixed disconnecting contact of the first switch is connected to the fixed closing contact of the second, and the fixed disconnecting contact of the second switch is connected to the fixed closing contact, the contact of the first and connecting point of the fixed contacts are connected to connecting the input unit of the pilot signal. Sources of information taken into account in the examination 1. US patent number 3648103, cl. 315-136, 07.03.72. 2. USSR author's certificate number 528515, cl. G 01 R 31/02, 11.09.73. .//.l ({-fff., / C-A / v f jt, i,