RU2629958C1 - Device for current protection of electrical installation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device for current protection of the electrical installation contains a reed switch installed in the magnetic field of the current-carrying bus of the electrical installation. The closing contact of the reed switch through the first resistor is connected to the relay contact of the reed switch, to the first end of the intermediate relay control winding and to the first cover of the first capacitor. The reed contact of the reed switch, the first end of the reed switch control winding and the first cover of the second capacitor are connected to the positive pole of the constant operational current source. The reed contact of the reed switch, the second end of the reed switch control winding and the second electrode of the second capacitor through the second resistor are connected to the negative pole of the constant operational current source to which the second end of the intermediate relay control winding and the second electrode of the first capacitor are connected. The closing contact of the reed switch is connected to the signal lamp. The breaker contact of the reed relay through the NO contact of the intermediate relay is connected to the circuit breaker of the electrical installation switch.

EFFECT: improving device reliability.

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Description

The invention relates to electrical engineering, in particular to a relay protection technique, and can be used as current protection of open and closed complete current conductors.

A device for current protection of electrical installations [Andreev V.A. Relay protection and automation of power supply systems. Textbook for universities, 4th ed. reslave. and add. - M .: Higher. Шк., 2006. - 639 p.: ill.], containing a current relay connected to the secondary winding of the current transformer, the primary winding of which is connected in series to the current-carrying bus circuit. The actuator is connected to the current relay by the input, and into the circuit breaker circuit breaker by the output.

The disadvantage of this device is the need to use current transformers, which, especially at high voltages, have significant mass and dimensions.

A device for current protection of electrical installations [RU 2024141, НН Н 3/08, publ. November 30, 1994], selected as a prototype, containing the first and second current sensors made on reed switches installed in the zone of influence of the magnetic field and current of the input and output circuits of the electrical installation, respectively. The outputs of the reed switches are connected to the first and second inputs of the Executive unit. The first terminal of the first input of the Executive unit through the first resistor is connected to the first output of the DC power source. The second terminal of the first input and the first terminal of the second input of the executive unit are combined and connected through the second resistor to the first capacitor plate and to the zener diode cathode. The zener diode anode is connected to the first terminal of the third resistor and to the base of a semiconductor amplifier element made on a transistor, the emitter-collector junction of which is connected in series with the relay control winding on the reed switch between the poles of the DC power source. The second terminal of the second input of the Executive unit, the second lining of the capacitor, the second terminal of the third resistor are combined and connected to the pole of the DC source. The relay contact on the reed switch is included in the control circuit of the output relay.

The disadvantage of this device is the low reliability associated with the possibility of its false operation due to sticking of the contacts of the reed switch after a short circuit and turning off the electrical switch during the subsequent operation of the automatic re-enable device or automatic reserve enable device.

The objective of the invention is to increase the reliability of the device by preventing its false operation when sticking the contacts of the reed switch.

The proposed device for current protection of an electrical installation, as well as in the prototype, contains a reed switch mounted in a magnetic field of a current-carrying bus of an electrical installation, two resistors, a reed switch, a first capacitor, and a source of direct operational current.

According to the invention, the reed contact of the reed switch through the first resistor is connected to the switching contact of the reed switch, to the first end of the control coil of the intermediate relay and to the first lining of the first capacitor. The switching contact of the reed switch, the first end of the control coil of the reed switch and the first lining of the second capacitor are connected to the positive pole of the direct current source. The reed contact of the reed switch, the second end of the reed relay control winding and the second lining of the second capacitor are connected through the second resistor to the negative pole of the DC direct current source, to which the second end of the intermediate relay control winding and the second lining of the first capacitor are connected. The make contact of the reed relay is connected to the signal lamp. The NC contact of the reed relay through the NC contact of the intermediate relay is connected to the circuit breaker circuit breaker.

The use of a second capacitor, an intermediate relay and the corresponding connection of all elements allows, in comparison with the prototype, to increase the reliability of the device due to its blocking when sticking the contacts of the reed switch after a short circuit and turning off the electrical switch. This prevents false triggering during the subsequent operation of the re-enable machine or automatic reserve enable device.

In FIG. 1 shows a functional diagram of the device.

A device for current protection of an electrical installation (Fig. 1) contains a reed switch 1 installed in the magnetic field of a live bus 2 of an electrical installation. The closing contact 3 of the reed switch 1 through the first resistor 4 is connected to the switching contact 5 of the reed relay 6 (GR), to the first end of the control winding 7 of the intermediate relay 8 (PR) and to the first lining of the first capacitor 9. Switching contact 10 of the reed switch 1, the first end of the winding the control 11 of the reed relay 6 (GR) and the first lining of the second capacitor 12 are connected to the positive pole of the DC direct current source 13. The opening contact 14 of the reed switch 1, the second end of the control winding 11 of the reed relay 6 (GR) and the second lining of the second about the capacitor 12 through the second resistor 15 are connected to the negative pole of the source of direct current control 13, to which the second end of the control winding 7 of the intermediate relay 8 (PR) and the second lining of the first capacitor 9 are connected. The make contact 16 of the reed relay 6 (GR) is connected to the signal the lamp 17. The NC contact 18 of the reed relay 6 (GR) through the NC contact 19 of the intermediate relay 8 (PR) is connected to the disconnection circuit of the switch 20 of the electrical installation.

As a reed switch 1 can be used, for example, a reed switch type MKS-27701. As a reed relay 6 (GR), a relay of the RGK-50 type can be used. As the first 4 and second 15 resistors, resistors of the MON-0.5 type can be used; as the first 9 and second 12 capacitors - capacitors of type K 50-12. As an intermediate relay 8 (PR), an intermediate relay RP 16-1 can be used.

The device operates as follows. In the load mode on the reed switch 1 acts a magnetic field created by the current in the current-carrying bus 2 of the electrical installation. However, the reed switch 1 does not work, since the magnitude of the induction of this field does not exceed the induction necessary for the operation of the reed switch. Therefore, its contacts remain stationary, and the device does not work.

During short circuits in the electrical installation, the currents flowing through its current-carrying bus 2 create a magnetic field with an induction sufficient to operate the reed switch 1, and it trips, as a result of which contact 3 closes, and contact 14 opens. The first 9 and second 12 capacitors begin to charge. To ensure the correct operation of the device, the charge time of the second capacitor 12 is chosen to be longer than the charge time of the first capacitor 9. After charging the first capacitor 9, the voltage at the control winding 7 of the intermediate relay 8 (PR) is sufficient to operate, contact 19 closes and gives a shutdown signal switch 20 electrical installation.

After disconnecting the electrical installation, if the switching 10 and closing 3 contacts of the reed switch 1 are not stuck, then they return to their original state. The opening contact 14 closes and shunts the second capacitor 12, which begins to discharge to the control winding 11 of the reed relay 6 (GR). However, the contact 18 does not open, since the voltage across the plates of the second capacitor 12 is not enough to operate the reed relay 6 (GR). If the switching 10 and the closing 3 contacts of the reed switch 1 are stuck, then the opening contact 14 remains open. The second capacitor 12 is recharged to the operating voltage of the reed relay 6 (GR), which, having tripped, opens contact 18 in the power circuit of the intermediate relay 8 (PR) and closes contact 16. From contact 16, the signal enters the signal lamp 17, which lights up and indicates sticking the contacts of the reed switch 1. Since the contact 18 is open, from the make contact 19 of the intermediate relay 8 (PR), the signal does not come to the switch 20 of the electrical installation, and the device does not work falsely when the automatic switch is turned on or the device automatically reserve inclusion.

Claims (1)

A device for overcurrent protection of an electrical installation, comprising a reed switch installed in the magnetic field of the current-carrying bus of the electrical installation, two resistors, a reed switch, a first capacitor, a constant current source, characterized in that the make contact of the reed switch through the first resistor is connected to the switching contact of the reed switch, to the first the end of the control relay coil of the intermediate relay and to the first lining of the first capacitor, the switching contact of the reed switch, the first end of the control coil of the reed relay and the first lining of the second capacitor is connected to the positive pole of the direct current source, and the opening contact of the reed switch, the second end of the reed relay control winding and the second lining of the second capacitor are connected through the second resistor to the negative pole of the constant current source to which the second end of the intermediate relay control winding is connected and the second lining of the first capacitor, and the make contact of the reed relay is connected to the signal lamp, and the disconnect to tact reed relay make contact through the intermediate relay is connected in electrical circuit breaker tripping.

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