SU1361670A1 - Device for preventing check of resistance of electric installation insulation - Google Patents

Abstract

This invention relates to electrical engineering and is intended to protect against switching on electrical installations with an unacceptable reduction in insulation resistance. The purpose of the invention is to increase sensitivity. When the power is turned off, the leakage current sensor 7 is connected to the zero point of the connection of the phase windings of the electric motor. When a leakage current of a certain value flows, the reed switch 8 is activated and connects the coil of relay 3 to zero. mains lead 2. The closing contact 4 of the relay 3 shunts the reed switch 8. The opening contact 5 disconnects the current sensor from the monitored electrical installation. The opening contact 6 of the relay 3 and the power supply circuit of the coil of the switching device 1 is open, the latter cannot be switched on. 1 hp f-lg, 2 ill. and (L from 05 Nii 05 Figure 1

Description

The invention relates to electrical engineering, and to protection devices from switching on electrical installations with unacceptably low insulation resistance, and is intended to protect electric motors in a humid environment, such as conveyor motors and auger pumps for manure, dairy pumps, submersible pumps in water supply wells used in agricultural production.

The purpose of the invention is to increase the sensitivity.

FIG. 1 shows the scheme of the device; in fig. 2 - leakage current flow and control current relay control circuits.

The power supply cable 2 is disconnected. Z. The interrupting contact 4 of relay 3 closes and shunts the magnetically controlled contact 8, the interrupting contact 5 of relay 3 disconnects the leakage current sensor from resistance 16 of the motor insulation. The opening contact 6 of relay 3 in the coil power supply circuit of the switching device 1 is open, the latter cannot be turned on. Diodes 11 and 12 are used to separate the leakage current and pulses of different polarity, since for the magnetic control 15 of the terminal 8 to operate, it is necessary to create a magnetic field with constant poles. The induction coil 9 of the control is filled with a certain number of turns to ensure the operation

The device contains a switching 20 magnetic contact 8 at

a device 1, for example a magnetic starter, which includes a coil with power supply from two phases of an electrical network, main contacts, auxiliary contacts, a supply electric network 2, an intermediate relay 3 with closing 4 and disconnecting 5 and 6 contacts, a leakage current sensor 7 whose composition includes a hermetic magnet control pin 8, a control induction coil 9, a leveling capacitor 10, a diode 11 and 12, a resistor 13, a stop control button 14, a start control button 15. The diagram conventionally shows the insulation resistances 16 of the phase windings of an electric motor. The leakage current sensor 7 is connected to the coil circuit of the relay 3 and the closing contacts 4 of the relay 3 and the switching device is connected to the resistance from the electrical installation at the Star of the motor phase winding connection point.

The device works as follows.

When the switching device is disconnected from the power supply network 1, one of its disconnecting auxiliary contact in the isolation control circuit connects the leakage current sensor 7 to the zero point of the Star of connection of the phase windings of the electric motor circuit. Magnetically controlled make contact 8

triggered by the flow of the total gc ° monitoring of the insulation resistance of the leakage current of three windings or the current of the electrical installation, containing the leakage of one winding through the induction coil 9 of the control, closes

relay relay, the first terminal of the winding of which is intended to be connected to the phase conductor of the network

and connects the relay coil 3 to zero

The power supply wire 2. Z. The interrupting contact 4 of relay 3 closes and shunts the magnetically controlled contact 8, the interrupting contact 5 of relay 3 disconnects the leakage current sensor from the resistance 16 of the motor insulation. The opening contact 6 of the relay 3 in the power supply circuit of the coil of the switching apparatus 1 is open, the latter cannot be switched on. Diodes 11 and 12 serve to separate the leakage current into pulses of different polarity, since for the magnetic control of contact 8 to operate, it is necessary to create a magnetic field with constant poles. The induction coil 9 is controlled with a certain number of turns to ensure operation.

a specific leakage current, for different values of the leakage current from its winding, taps are performed. The capacitor 10 is set to equalize the pulsed leakage current in the induction coil 9 of the control. The resistance of the resistor 13 is equal to the active resistance of the induction coil 9 of the control; when performing taps from the winding, the additional resistance of the resistor 13 is divided into parts according to the active resistance of the winding parts .:

The magnetically controlled contact 8 can be placed in the coil of the relay 3, which ensures its operation by a number of turns of the winding.

The application of the invention will make it possible to use intermediate-relay relays with a power consumption of up to 15 W to control the insulation, since the sealed magnetic-controlled contact 8 switches the maximum AC power. 15 W without any restrictions on the minimum leakage current, since The magnetomotive actuation force of the magnetically controlled contact 8 is provided by the amperages of the induction coil 9 of the control.

Claims (1)

1. A device for pre-monitoring the insulation resistance of an electrical installation, containing relay relay, the first terminal of the winding of which is intended to be connected to the phase conductor of the network power supply, an intermediate relay contact is included in the power supply circuit of the switching device, a capacitor, a resistor and the first diode, so that, in order to increase the sensitivity, it is supplied with a magnetic control sealed contact with a control coil, the second diode, This second output winding of the intermediate relay is connected through the first diode to the control coil, which is bridged by a capacitor, the other output of which is connected to the series-connected disconnecting contacts of the intermediate relay and to the second device’s output is designed to connect the zero point of the monitored electrical ki In addition, a series-connected resistor and a second diode with reverse polarity with respect to the first diode are connected parallel to the first diode and the control coil, and the second output winding of the intermediate relay is also connected to its own closing contact and a magnetically controlled sealed contact, the other outputs of which are intended connection to the net wire network. 2; A device according to claim 1, characterized in that, in order to expand the range of operation, the control coil of the reed switch is made with tapping from the winding, and the resistor is made variable. ". Editor I.Gorn Compiled by L.Vas.kova Tehred L. Serdyukova Proofreader L. Patay Order 6300/54 Circulation 618 Subscription VNIIL of the USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk-n. b., d. 4/5 Production and printing company, Uzhgorod, Projecto st., 4