SU982133A2 - Device for protective disconnection of electric installation in ac network - Google Patents

Description

(54) DEVICE FOR SECURE DISABLE ELECTRICAL INSTALLATION IN AC POWER SUPPLY

one

The invention relates to electrical engineering, in particular, to devices for protecting three-phase electrical equipment, for example electric motors, from earth fault and against overheating.

According to the main author. St. No. 705587, there is a known device for the protective disconnection of an electrical installation in an AC network, which contains an input signal sensor connected to its output by a three-stage amplifier, in an output circuit of which a release winding is connected, and its contacts are connected to a control circuit of a switching device of a switching device C1 I15

The known device provides a highly sensitive protection against leakage of current to the ground, but does not allow the motor to be protected from overheating, which leads to its release as a system. For safe and reliable operation of an electric motor, it is necessary to have two protective blocks, one for protection from

leakage currents and short circuits, the other - to protect against overheating.

The aim of the invention is to expand the functional capabilities of the device by providing electrical disconnection of ghy overheating. .

This goal is achieved by additionally introducing a temperature protection unit into the device for protective disconnection of an electrical installation in the AC network; , nch) the positive pole of the top of the receiver is connected to the cathode of the Zener diode through the pos1; Torahs - to the connecting electrode of the triac, and the rectifier is connected to the newly entered Additional winding transformer nakhr marriages.

On 15) an electrical circuit 15) of the attached protective shut-down device with a motor thermal protection unit is installed.

The device contains a zero-sequence current transformer 1, a current sensor, a three-stage transistor amplifier 2 with transistors 3-5; winding of the incisor cell 6, shunted by protective diode 7, power supply unit of amplifier, including load transformer 8, rectifying bridge 9 and smoothing filter Y. Contacts 11 and 12 of release 6 and buttons 13 and 14 of control unit type 15 switching device 15. (

The built-in temperature protection unit contains a seven-switch 16 connected in series with the contact 12 of the release 6. The output of the rectifier 17 is connected in parallel to the smoothing capacitor 18 and through the series-connected {Zener diode 19 and Posistor 20 connected to the control transistor of the triac 16.

 When the supply voltage is applied, the transistor 5 is in the open state, the transistor 4 is closed, and the transistor 3 is in the amplifying mode. On the release winding the operating current flows, its contacts 11 and 12 are closed. Power is supplied to the electrical installation. When a ground fault occurs, the signal from the current sensor 1 opens the transistor 3 with its negative half-wave. Transistor 4 also opens and transistor 5 closes. As a result, the release coil 6 is de-energized, its contacts are opened and the power supply is removed from the electrical installation.

At the normal temperature of the motor windings, the resistance of the posistor 2O is small and under the action of the voltage of the rectifier 17 through the zener diode 19, the posistor 2O and the control switch of the triac 16 the overcurrent flows, which keep the triac 16 in the open state. As a result, a supply voltage is applied to the transformer 8 of the nahf supply. On the winding of the ramps, the current 6 is ignited, its contacts 11 and 12 are closed, thus the electric motor is kept in the on state.

When the temperature of the motor windings exceeds the magnitude at which there is a sharp increase in the resistance of the posistor, the current in the control electrode circuit decreases sharply, the triac 16 closes, which causes the supply voltage on the transformer 8 to disappear. The tripping winding 6 de-energizes and the release opens its contacts 11 and 12 in the control circuit of the switching device, disconnecting the motor from the mains. For a clearer closing of the triac and, therefore, clearer operation

protection in the circuit of the control electrode introduced Zener diode 19 as a threshold element.

Thus, the additionally introduced temperature protection unit expands the functions of the device, providing electrical disconnection in case of overheating.

Claims (1)

1. USSR author's certificate No. 705587, cl. H 02 H 3/16, 1977.