SU1078362A2 - Device for continuous checking of ac network insulation resistance - Google Patents

Abstract

DEVICE FOR CONTINUOUS MONITORING THE RESISTANCE OF THE INSULATION OF THE AC NETWORK CURRENT BY AUTH. 568027, about tl and h a yu. -E: so that, in order to expand the functional capabilities due to the detection of intermittent Csi alsies of the controlled network, the LED is switched on in the forward direction, parallel to the limiting the resistor included a pushbutton switch with a break contact. V §. O 00 00 P N0

Description

The invention relates to electrical measuring equipment, in particular, to automatic devices that control the insulation resistance of electrical control circuits, automation, etc.

According to the main auth. No. 568027, a device is known for continuous monitoring of the insulation resistance of an AC network, comprising a rectifying bridge connected to the monitored network, a signal element, a switching diode, the control output of which through a resistor is connected to the grounding bus, a limiting resistor, an additional resistor and a capacitor, moreover, the signal element, the switching diode and the limiting resistor form a series-connected circuit connected to the diagonal clamps. It is connected in parallel circuit consisting of the signaling element, and the switching diode and the additional resistor is connected in parallel circuit consisting of a resistor and a restricting pereklyuchamshego ij.

A disadvantage of the known device is that it does not allow monitoring of intermittent leakage of the short circuits of the {controlled network to earth.

This is especially true if the leakage to the ground is short-lived and occurs after a long period of time.

The aim of the invention is to expand the functionality of the device by detecting intermittent closures monitored. my net to the ground.

The goal is achieved by the fact that in the device for continuous monitoring of the insulation resistance of the AC network, a LED is connected in the forward direction in series with the additional resistor, and a pushbutton switch with an open contact is connected in parallel with the limiting resistor.

The drawing shows electrical. device schema.

The device consists of a full-wave rectifying bridge assembled on diodes 1-4 and connected to the monitored wires 5 and 6 of the monitored network, signal element 7, for example, incandescent lamp, switching diode 8 and limiting resistor 9 connected in series and connected to the output of the rectifier tormenting bridge. In parallel with the incandescent lamp 7 and the switching diode 8, a capacitor 10 is connected, and a series-connected LED 11 in the forward direction and an additional resistor 12 are connected to a pair of switching diode 8 and a limiting resistor 9, in parallel with which a push-button switch 13 is opened. the control electrode of the switching diode 8 through a resistor 14 is connected to the common terminal 15.

To clarify the operation of the device in the drawing, the actuator 5 of the monitored line is connected through a series connected insulation resistance 16 and contact resistance 17 is connected to the common output of the device. Controlled, the network is loaded on the load 18.

The device works as follows.

Under normal isolation conditions, the switching diode 8 is closed, the capacitor 10 is charged to a voltage, a lower voltage that unlocks the switching diode 8. The auxiliary resistor 12 is selected so that only the LED 11 is lit, indicating a voltage. The incandescent lamp 7 does not light up in this case.

The insulation resistance is monitored by a rectifying operating code flowing through the circuit: line wire 5 - insulation resistance 16 - transition resistance 17 - common output 15 - resistor 14 - control electrode - cathode of the switching diode 8 - disconnecting pin 13 switch - diode 2 - line wire 6

As the insulation resistance drops to a predetermined value, the operating current rises to the value at which diode 8 opens and lamp 7 lights up, signaling an insulation fault.

A short leakage (short circuit) to ground also causes the opening of the switching diode 8 and the ignition of the lamp 7. This is due to the fact that the capacitor 10 smoothes the pulsation of the rectified voltage and eliminates the possibility of locking the switching diode 8.

To determine the nature of the damage to the insulation of monitored lines, it is necessary to turn off the pushbutton switch 1.3 for a while.

If the reduction in insulation resistance is stable, then capacitor 10 is in Zar d-bit mode.

In this case, in one half-cycle the charge occurs along the circuit: wire 6, diode 1 - capacitor 10 - limiting resistor 9 - diode 4 - wire 5. In the other half-period charge occurs through the circuit: wire 5 - diode 3 - capacitor 10 - resistor 9 - diode 2 - wire 6.

The discharge of the capacitor 10 due to the unlocking of the switching diode 8 occurs along the circuit: the positive terminal of the capacitor - the incandescent lamp 7, the switching diode 8 - the negative terminal of the capacitor. Due to the fact that the resistor 9 limits the current in the power circuit to a value lower than the switching current of the switching diode 8, after the discharge of the capacitor, the diode 8 is closed and the lamp 7 goes out. Then, the capacitor 10 is charged again to the magnitude required to unlock the switching diode 8 and the process repeats.

Thus, when a steady leakage occurs, the lamp 7 is in blinking mode, the frequency of which depends on the insulation resistance. If the leak is intermittent

character, immediately after switching on the push-button switch 13, the capacitor 10 discharges until the switching diode B is turned off and the next charge on the above-mentioned circuits.

If the next short-term decrease in the insulation resistance, intermittent leakage) did not follow 6, the switching diode 6 remains locked and the incandescent lamp 7 does not die. ,

The device allows the monitoring of sustained insulation failure as well as intermittent leakage to the ground, and there is the possibility of not. only to record the fact of the occurrence of a violation, but also to determine its nature. As a result, the reliability of monitoring the resistance of the insulation of the AC circuits is increased.

Claims (1)

DEVICE FOR CONTINUOUS · 'GO MONITORING RESISTANCE OF AC NETWORK INSULATION by ed. No. 568027, characterized in that, in order to expand functionality by detecting intermittent short circuits of the monitored network, a LED is connected in a forward direction in series with an additional resistor, and a push-button switch with an NC contact is connected in parallel with the limiting resistor. SU „„ 1078362