SU951195A1 - Device for automatic checking of electric circuit insulation resistance - Google Patents

Description

(54) DEVICE FOR AUTOMATIC

CONTROL OF RESISTANCE ISOLATION

ELECTRICAL CIRCUITS

one

The invention relates to instrumentation technology and can be used to automatically control the insulation resistance of electrical circuits of various electrical and radio devices.

A device for automatically monitoring the insulation resistance of electrical circuits, comprising a voltage source, a switch, a meter and a control unit 1, is known.

A disadvantage of the known device is the low reliability of the control, due to the lack of protection of the measuring circuits from interference and interference.

Closest to the invention by technical essence is a device for automatically controlling the resistance of electric circuits, comprising a voltage source, a meter, a software unit, a stepper finder control unit, the first second and third resist t21.

A disadvantage of the known device is the low reliability of the insulation resistance monitoring due to the influence of various electrical pickups and interference from third-party field sources creating false currents in the circuits.

control device. The significance of the effect of these interferences creating a current in. circuits of the order of several microamperes, due to the fact that the operating current of the control through the load resistor of the control device when testing an electrical circuit with a voltage of 100 V and with an insulation resistance of, for example, 5 mΩ is

10 20 micros. Those. The value in the NHX control for the effects of interference and interference is commensurate with the operating current of the device. This effect naturally reduces the reliability of the result of the insulation resistance monitoring.

The purpose of the invention is to increase the reliability of control of insulation resistance.

20

The goal is achieved by the fact that in a device for automatic control of the insulation resistance of electrical circuits containing a step finder connected

25 first rods with corresponding monitored electric circuits and with the first terminals of the first resistors connected by the second terminals with the corresponding second inputs

Claims (2)

30 step finder connected by the third input to the first output of the stepper finder control unit connected by the first and second inputs to the first output of the program block and the meter output, respectively, the second output to the input of the voltage source connected to the first output of the first outputs of the second and third resistors , the first capacitor, the time relay, the first and the second relay, the second capacitor, connected to the first terminal through the normally closed contacts of the first contact group of the first relay with the second output of the second through the first normally open contacts of the second relay to the first output of the voltage source, through the normally open contacts of the first group of contacts of the first relay to the first input of the meter connected to the second input through the normally open contacts the second group of contacts of the second relay with the first output of the first capacitor connected by the first output through the normally closed contacts of the second group of contacts of the first relay with the second output of the third resistor and A common bus device, through the second normally open contacts of the input relay, to the first output of the power source connected to the second output of the second output of the step finder by the first output to the second terminals of the first and second capacitors, the first input of the time relay, the output is with the winding of the first relay, the second input is with the third output of the stepper finder control unit connected by the fourth output with the winding of the second relay. The drawing shows the structural scheme of the device. The device contains a source of voltage 1, a step finder 2, a winding of the first relay 3, a winding of the second relay 4, a meter 5, controlled electrical circuits 6-16-2, a program block 7, a block 8 controlling a step finder, a time relay 9, the first 10 - and the second group of contacts of the first relay, the first 2 and second 3 normally open contacts of the second relay, the first 14 and second 15 capacitors, the first 16-1-6-p, the second 7 and the third 18 resistors, the first 9 and the second 20 brushes of the paging seeker 2, common bus. 2. The device operates as follows. The control circuit of the insulation resistance of electrical circuits b begins with the formation of a signal by software block 7, which enters the time relay 9, starts it, and the stepper finder control unit 8, which broadcasts this signal to the input of voltage source 1 and to the control winding of the step finder 2 Under the influence of a signal from the voltage source 1, the brush 19 of the step finder 2 receives the test voltage (100 or 500 V) necessary to test the first electrical control circuit 6-1. The step finder 2 itself is set to the position at. wherein this voltage is connected to the first tested electric circuit 6-1 and to the additional resistor 6-1. The resistance value of the resistor 16-1 corresponds to the lower acceptable value of the insulation resistance of the first circuit to be tested. The test voltage is applied to two parallel electric circuits. The first circuit is a controlled electrical circuit, its insulation resistance is relative to the common bus 21, the resistor 18 with the 3 capacitor 14 connected to it through the opening contacts 11. The electric current flowing through this circuit is determined by the leakage current of the insulated electric circuit 6-1. The second circuit consists of a resistor 16-1 and a resistor 17 with a capacitor 15 connected to it through the opening contacts 0 of relay 3 .. In this circuit, the electric current is determined by the resistance of resistor 16-1. Thus, the resistors 17 and 8, the resistance values of which are the same, form a voltage proportional to the current in each of the circuits considered. Up to these voltages, capacitors 14 and 15 are charged. In this case, the voltage on the capacitor 15 corresponds to the minimum allowable insulation resistance value of the circuit under test, which is determined by the reference resistor 16-1. . The voltage on the capacitor 14 is determined by the true value of the insulation resistance of the monitored circuit 6-1 relative to the common bus 2. The insulation resistance of the monitored electrical circuit 6-1 is equal to or higher than it, if the voltage on the capacitor 14 is equal to or less than capacitor 15. In this case, if the voltage on the capacitor 4 is greater than the voltage on the capacitor 15, the insulation resistance of the monitored circuit is below the minimum allowable rate. Interference in the controlled circuit 6- due to the influence of third-party sources is filtered by capacitors 14 and 15 and does not affect the formation of a good condition of the electrical circuit 6-1 After a time interval equal to five, six constant charge times of capacitors 14 and 1, t. e. after the transition time expires after the application of the test voltage, in the controlled circuit 6-1 a time relay 9 is activated, which sends a control signal to the relay 3 relay, the relay 3 operates and connects the capacitors 14 and 15 to the comparison inputs of the meter 5. the voltage on the capacitor 15 is larger than the capacitor 14; at the output of the meter 5, a signal is generated for the circuit to be correct, which is fed to the control unit 8, which forms a signal that returns the relay 3 to its initial state and briefly turns on the relay 4. Relay 4 MIs following contacts 12 and 13 shunt capacitors 14 and 15, as a result of which they are quickly discharged. In addition, block 8 transmits a signal from the program a lot of block 7 to the control input of the step finder by the command of block 5, switching it to the position for checking the second controlled circuit 6-2. The test cycle repeats. In the case where the voltage on the capacitor 15 is less than the voltage on the capacitor 15, a fault signal is generated at the output of the meter 5. When this signal arrives at block 8, this block signals a fault with fixing the address of the faulty circuit and establishes a control process. A subsequent automatic or manual start of the device repeats the monitoring cycle for the next monitored circuit. Thus, the introduction of relays 3, 4, and 9 and capacitors 14 and 15 makes it possible to increase the reliability of the control, increasing the accuracy of rejecting the monitored circuits when exposed to external electrical interference and interference by filtering them. Claim 1. Device for automatic monitoring of insulation resistance of electric circuits, comprising a step finder connected by first inputs to corresponding controlled electric circuits and to the first terminals of the first resistors connected by second leads to corresponding second inputs of a step finder connected by a third input the first output of the step finder control unit, connected by the first and second inputs to the first outputs of the program block and the meter output, respectively , The second output - to an input voltage source, a first output connected to first terminals of the second and third resistors, characterized in that, in order to increase reliability of control, it introduced first capacitor, timer, first and second. relay, second capacitor connected by the first output through the normally closed contacts of the first group of contacts of the first relay to the second output of the second resistor and to the first output of the step finder, through the first normally open contacts of the second relay to the first output of the voltage source, through normally open contacts of the first group of contacts the first relay - with the first input of the meter connected to the second input through the normally open contacts of the second group of contacts of the second relay with the first output of the first condensate pa connected by the first output through the normally closed contacts of the second group of contacts of the first relay to the second output of the third resistor and to the common bus of the device, through the second normally open contacts of the second relay to the first output of the power source connected by the second output to the second output of the step finder, the first output with the second terminals of the first and second capacitors, the first input of the time relay is connected to the second output of the program block, the output is connected to the winding of the first relay, the second input to the third output of the control unit stepping finder connected to the fourth output with the winding of the second relay. Sources of information taken into account during the examination 1. USSR author's certificate No. 699452, cl. G 01 R 31/02, 1979. 2. USSR author's certificate number 717669, CL. G 01 R 31/02, 1980 (prototype).