SU1713009A1 - Device for current protection of power lines with single- side supply - Google Patents

Abstract

The invention relates to electrical engineering and is intended to protect power lines from short-circuits between phases and to earth in cases where increased demands are placed on the reliability of operation and when to implement se-. Duration of time is not allowed. The purpose of the invention is to eliminate the failure of protection in the event of a communication link interruption — with its low resistance. isolation The goal is achieved by monitoring the transfer of a constant operating current in a direction opposite to the direction of transfer of power energy. 1 il. ^

Description

The invention relates to electrical engineering and is intended to protect power lines from short-circuits between phases and to earth in cases where increased demands are placed on the reliability of operation and when, for the realization of selectivity, time delays are unacceptable.

A device for selective protection of a line against short-circuit currents, which in adjacent areas contains protection half-sets on current transformers, a relay and a maximum release and a wired communication channel with a constant-voltage source, which electroplate separates half-sets, is known. The exchange of information on the value of secondary currents carried out by a wired communication channel reveals a damaged part of the network.

A disadvantage of the device preventing the use in underground networks of mining enterprises is a decrease in the reliability of operation when the communication channel is broken, accompanied by simultaneous r.3. in the protected line, which is quite possible when blasting, damage to the network by a moving vehicle.

The closest to the present invention is a device for current protection of a power line with one-sided power supply, which contains in its adjacent areas semi-protective equipment intended for installation at opposite ends of the line, connected by a wired communication channel and each of them is designed as a line current transformer, secondary the winding of which is connected with a rectifier, to the output of which a capacitor and a direct current amplifier are connected, to the output of the latter is connected a reacting organ, an actuator, connected It is connected to the secondary winding of the current transformer of the line, the transistor amplifier, the base-emitter junction of which is juggled with a resistor, a control relay, a constant voltage source, a zener diode and a switch.

The disadvantage of this device is the possibility of failures in the event of a communication link breakdown with low isolation resistance on the condition that the breakage occurs near the receiving end of the protected line.

When k.z. in the zone of action of only a half-set and a communication link breakage near the receiving end of the protected line, the control relay of the communication channel is no longer active and the actuator operates, which acts on the disconnecting device. If the resistance of the isolation of the communication channel does not exceed the resistance of the resistor, but there is no break, then the executive body is activated regardless of the location of the short circuit. in line, i.e. no selectivity is provided.

With simultaneous reduction of the insulation resistance to a value exceeding the resistance of the resistor, and the interruption of the communication channel near the receiving end of the protected disconnection line of the short circuit. a half-set of protection does not occur, because the resistance of the isolation of the communication channel is included in the circuit of the executive body, so the relay does not disappear, and the executive body does not operate. Consequently, there is a failure in the operation of protection, which is especially dangerous for explosive areas (mine, mines). is unacceptable.

The aim of the invention is to eliminate the failure of protection in case of a communication link breakdown with a low resistance to its isolation.

This goal is achieved by the fact that in the device for current protection of a power line with one-sided power supply, in adjacent areas, protection semi-kits intended for installation at opposite ends of the line are connected by a wired communication channel and each of them is made in the form of a line current transformer, secondary winding

which is connected to a rectifier, to the output of which is connected a parallel-connected capacitor and a DC amplifier, to the output of which is connected

the first output winding of the reacting authority, the disconnecting contact of which is connected in parallel to the winding of the actuator connected to the secondary winding of the current transformer of the line, transistor amplifier whose base-emitter junction is bounded by a resistor, and the collector is connected to the first output winding of the control relay with a closing contact of a constant source stress

the Zener diode and the switch, the latter is made in the form of an optocoupler, the light emitter of which is connected between the reference winding terminal of the reacting and the second winding terminal of the control relay connected to

The first output of the rectifier, to the second output of which is connected the emitter of the transistor amplifier, the base of which through a zener diode and a resistor is connected to the output of the communication channel, the output of the constant voltage source through the light receiver is connected to the output of the communication channel on the side of the receiving end of the line, the shorting relay contact The control is connected. In parallel with the disconnecting contact of the reacting body.

Single line diagram of the proposed device is shown in the Drawing.

The device contains half sets 1

and 2 protections installed at opposite ends of the transmission line 3 and connected by a wired communication channel 4. Each semi-kit is made in the form of a current transformer of the line 5, rectifier

6, a capacitor 7, a DC amplifier 8, a reacting organ 9 with a break contact 10, an executive organ 11, a transistor amplifier 12 with a resistor 13 that shunts its base-emitter

transition, control relay 14 with pin 15, constant voltage source 16, zener diode 17 and switch 18, made in the form of an optocoupler.

As can be seen from the above diagram, a constant voltage source 16 of the protection half set 2 is connected to communication channel 4 via an optocoupler 16 light detector at the end of the protected line 3, at the beginning of which the base of the thermistor 12 of the protection half set 1 through the zener diode 17 and the resistor 13 is connected to to the input of the communication channel 4, the light emitter of the optocoupler 18 is connected to the winding circuit of the reacting body 9, and the closing 15 and disconnecting 10 contacts, respectively, of the control relay 14 and

Reacting Authority 9 is included in parallel with the executive body 11.

The device works as follows.

If there is a voltage in the protected line and there are no short circuits between the phases and to earth, the current in the wired communication channel 4 does not flow, despite the presence of a constant voltage at source 16, the reason is the locked state of the switch 18, which does not open because the transistor amplifier 12 is locked due to the absence or insufficient amount of current in the transformer 5. The opening contact 10 of the reacting organ 9 remains closed, thereby shunting the actuator 11.

In the event of a short circuit in the protected line (point K1), the secondary current of the transformer 5 of the half-set 1 reaches a value sufficient to switch the DC amplifier 8. Opening, it closes part of the rectified secondary current relay through the input of the optocoupler 18 and the reacting element 9. Therefore, the breaker contact 10 of the latter is opened, thus deadening the maximum release 11, due to the operation of which the current of the short-circuit is cut off. Lines. The transistor amplifier 12 in this mode remains locked due to the absence of current 8 channel 4, since the optocoupler 18 of the semi-kit 2 and the amplifier 8 controlling it, are closed and the closing contact 15 is open.

In the event of a short circuit at point K2, the amplifiers 8 of both semi-sets 1 and 2 first open, and after a short time microseconds and both optocouples 18. Closing the direct current through the wired communication channel 4 opens therefore the transistor amplifier 12 of the half-set 1, which is connected to the rectifier 5 control relay 14. Last triggered and closes its contact 15 almost simultaneously with the opening of the contact 10 of the reacting body 9. The executive body 11 of the half-set 1 therefore remains shunted by the contact 15 and shut-off operation pro zvesti can not. The situation is different with the executive unit 11 of the half-set 2, which is desunked by the opening contact 10 of the reacting body 9, since the closing contact 15 belonging to the control relay 14 does not close due to the absence of communication link 4 in the connecting half of the set of protection kit 2 with the half-complex - protection installed further along the line.

Consequently, the thus constructed circuit: 1: with maximum current protection has a longitudinal selectivity, which is achieved without introducing otver 5 times.

When the communication link 4 is broken between the half sets 1 and 2, the transistor amplifier 12 loses the input bias current, as a result of which the control relay 14 triggers

0 can not. Its contact 15 therefore remains open and does not prevent the actuation of the actuator 11.

The same result occurs during a short circuit in the wired communication channel 4, because the input of amplifier 12 also in this mode loses the bias current.

A decrease in the insulation resistance in the wired communication channel is matched by a decrease in the bias current of the amplifier input.

0 12. However, despite this device, it progresses, to function selectively due to the high gain factor of the amplifier 12. And only in the case when the voltage drop across the resistance

5 isolation of ka1: ala communication will be lower voltage of breakdown of zener diode 17 amplifier 12 at short circuit. in the protected line will remain locked, and the control relay 14 will be unable to operate.

0 It is not accompanied by a malfunction and interruption of the communication channel in combination with a low insulation resistance at any mutual placement.

The short-circuit current mode is accompanied, as is well known, by a decrease in the mains voltage, as a result of which it is possible, under certain conditions, to reduce and dc voltage at source 16. To prevent this, the capacitor capacitance in

0 the source of the constant voltage 16 is chosen such that its discharge time through the input of the transistor amplifier 12 is longer than the cut-off time of the short-circuit current not exceeding according to the standard of the CMEA CT

5 SEV 3462-81 0.2s.

To perform a protective disconnection according to the scheme shown in the drawing, it is necessary that the power transformers. current was sufficient to bring in

Claims (1)

0 action of the mechanical system of the executive body. In cases where ispol-. The body requires a power source, which the current transformers do not produce, instead of the de-shunting circuit, they resort to powering the executive body from the energy of a precharged capacitor or an automatic source of voltage. The proposed technical solution achieves the goal and in this case. For this, the control relay trip contact is connected in series with the closing contact of the reacting body and the maximum release. Thus, due to the control of the transmission of a constant operating current in the direction opposite to the direction of transfer of power energy, any damage to the communication channels is not accompanied by failures of protection, the structural connections in which are built according to the above scheme. The invention device for current protection of the electric line (one-way power transmission, containing protection half sets intended for installation at opposite ends of the line, connected by a wired communication channel and each of which is made in the form of a line current transformer, the secondary winding of which is connected to a rectifier by the driver, to the output of which there are connected in parallel a generator and a DC amplifier, to the output of which is connected the first winding of the winding of the reacting body, which is open connected to the secondary winding of the current transformer of the line, transistor amplifier whose emitter junction is bounded by a resistor, and the collector is connected to the first output winding of the control relay with a closing contact, a constant voltage source, a zener diode and a switch, that, in order to avoid protection failure in the event of a communication link interruption with a low resistance of its isolation, the switch is designed as an optocoupler, the light emitter of which includes between the second output winding of the reacting organ and the second output winding of the control relay, connected to the first output of the rectifier, to the second output of which is connected the emitter of the transistor amplifier, whose base through the zener diode and the resistor is connected to the input of the communication channel, the output of the direct voltage source through The optocoupler light detector is connected to the output of the communication channel on the side of the receiving end of the line, the control relay contact is connected in parallel with the disconnecting member of the reaction element.