KR200435050Y1 - Interlock apparatus for line earthing switch - Google Patents

Abstract

The present invention relates to a device for preventing misoperation of a line grounding switch, and more particularly, a line providing a double interlock function to check the state and line current of a line breaker of a transmission line to prevent the line from being incorrectly grounded. It relates to a ground fault switch device.

To this end, the line grounding switch misoperation prevention device according to the present invention receives a status signal of the opposite end line breaker transmitted from the relative substation side, and a signal for transmitting the magnetic end line breaker state signal of the magnetic substation side to the relative substation side. Detects the opposite ground synchronous interlock switch, which is turned on only when a signal indicating that the opposite end circuit breaker is operated through the signal receiving section, and the shield ground current of the magnetic end power cable on the substation side are detected. A ground current detecting unit and a ground current interlock switch which is turned on when the current value detected by the ground current detecting unit is equal to or larger than a set value, and the line ground Characterized in that, preferably the signal transmitting / receiving unit DT It is characterized in that the dual tone multi-frequency (MF) type.

Ground Switch, Line Switch, DTMF, Shield Ground Current, Interlock, Light Emitting Part

Description

Interlock apparatus for line earthing switch

1 is a schematic configuration diagram for explaining the operation of the line grounding breaker including a potential transformer according to the prior art.

2 is a schematic structural diagram of a device using a communication card according to the prior art.

3 is a schematic configuration diagram for explaining the operation of the line grounding switch according to the present invention.

Figure 4 is a block diagram for explaining a device for preventing misoperation of the line grounding switch according to the present invention.

Figure 5 is a block diagram for explaining the line breaker state detection unit of the earth ground breaker misoperation prevention device according to the present invention.

{Description of symbols for main parts of the drawing}

110, 110 ': Line breaker 120, 120': Synchronous interlock switch

132, 132 ': DTMF tone generator 133, 133': Hybrid circuit

134, 134 ': DTMF tone decoder 140, 140': ground current interlock switch

141a, 141b, and 141c: ground current detector 142: analog interface

143a, 143b, and 143c: display unit

The present invention relates to a device for preventing misoperation of a line grounding switch, and in particular, a line grounding breaker that provides a double interlock function to check the state and line current of a line breaker of a transmission line to prevent the line from being incorrectly grounded. An operation prevention device.

In general, a gas insulated switchgear (GIS) that uses SF ₆ gas as a main insulating medium is composed of devices such as a circuit breaker, a disconnecting switch, a grounding switch, and a bus bar according to its function. It is divided into a grounding switch for equipment for promoting the safety of the operator by performing the grounding function for the circuit during maintenance, and a grounding switch for the line which performs the input function for the fault current in addition to the grounding function for the above maintenance.

At this time, as a method of checking the life and death state of the transmission line side for the operation of the grounding switch, as shown in FIG. 1, a single-phase potential transformer (L-PD) is provided on the cable head side of the gas insulated switchgear, and therefrom. A method of detecting an abnormal occurrence by the induced secondary voltage (AC 110V) has been used.

That is, when the secondary voltage is induced through the single-phase potential transformer (L-PD), it is determined that the underground transmission line is in a normal state so that the grounding-circuit relay relay 96ES is not excited, while the single-phase potential transformer (L-PD) is excited. If the secondary voltage is not induced through the PD), it is determined to be in an abnormal state, so that the relay 96ES for the line grounding switch is excited to discharge the abnormal current through the line grounding breaker.

However, according to the configuration as described above, the cost-dependent single phase potential transformer (L-PD) is used only for the purpose of displaying the life and death of the line side and the operation of the line grounding switch. There was a problem of poor utilization.

Accordingly, Korean Utility Model Registration No. 20-332550 proposes a transmission line protection relay device capable of controlling the life and death display of a transmission line and an operation state of an automatic grounding disconnector without using the single-phase potential transformer described above.

That is, as shown in Figure 2, the first switch 4 is opened when the maintenance relay 3 is excited, the second switch 5 is shorted when the maintenance relay 3 is excited, and 154kV underground transmission line A substation breaker (11) for determining whether there is an abnormality in a road and transmitting a line abnormality signal using an optical communication cable, an optical end station device (13a, 13b) for receiving a line abnormality signal and transmitting the signal to the other station; The operation state of the automatic grounding disconnector 7 is controlled by using the line abnormality signal received through the optical end station devices 13a and 13b, and the switching switching signal is output so that the life and death of the line is displayed through the lamp 8. A transmission line protection relay including a communication device 12a, 12b, and a third switch 6, etc., which is shorted in accordance with the switching switching signals of the communication devices 12a, 12b to cause the maintenance relay 3 to be excited. The device is presented.

However, according to the transmission line protection relay device as described above, the self-sided grounding breaker 7 is turned on or off depending on the operation signal of the other side grounding breaker 7 received from the other end station devices 13a and 13b. As it is configured, there is a problem that the probability of malfunction due to the communication environment exposed to various noises is high, and the system stability and supply reliability are lowered.

Accordingly, the present invention solves the problems described above, by checking the state and the line current of the line switch of the transmission line to provide a double interlock function to prevent the live line is incorrectly grounded, system stability And to provide a line grounding switch malfunction prevention device that can improve the supply reliability.

To this end, the line grounding switch misoperation prevention device according to the present invention, receiving the status signal of the opposite end line breaker transmitted from the counter substation side, and transmits the self-station line breaker state signal of the substation side to the counter substation side. A signal transmitter / receiver, a counterpart synchronous interlock switch that remains on only when a signal indicating that the opposing line breaker operates is received through the signal receiver, and a shield of a magnetic end power cable on the magnetic substation side. A ground current detector for detecting a ground current, a ground current interlock switch that remains on only when the current value detected by the ground current detector is greater than or equal to a set value, and both the synchronous interlock switch and the ground current interlock switch are turned on. It characterized in that it comprises a line grounding switch operating only in the state.

Here, it is preferable to further include a manual control switch connected in parallel to the ground current interlock switch so that the line ground can be manually released by the manager.

The signal transmitter / receiver is preferably a DTMF type that transmits and receives a low frequency or high frequency signal according to the state of the line breaker.

In addition, it is preferable to further include a display unit for displaying the current value detected from the ground current detection unit.

The apparatus may further include a light emitting unit that displays a state of a power transmission line according to a state of the line breaker or a current value detected from the ground current detector.

Hereinafter, with reference to the accompanying drawings to be described in detail with respect to the device for preventing misoperation of the line grounding switch according to a preferred embodiment of the present invention.

3 is a schematic configuration diagram for explaining the operation of the line grounding switch according to the present invention, Figure 4 is a block diagram for explaining a device for preventing misoperation of the line grounding switch according to the present invention, Figure 5 is It is a block diagram for demonstrating the line breaker state detection part of a line grounding breaker misoperation prevention apparatus.

First, as shown in Figure 3, the line grounding switch malfunction operation prevention device 100 according to the present invention is a device of the opposite stage synchronous interlock switch 120 and the ground current interlock switch 140 differently from the prior art It is configured to prevent erroneous operation of the line grounding switch.

That is, the counter-station synchronous interlock switch 120, which is composed of a b-contact switch and maintains an ON state only when the relative substation side line breaker is operated, and is also composed of a b-contact switch, but the substation side power cable The ground current interlock switch 140, which is kept on only when the shield ground current value of the controller is greater than or equal to the set value (that is, in case of an abnormality), is provided so that the relays 96ES and 150 that operate the line grounding breaker It is configured to double the prevention of excitation in the normal state.

In addition, if necessary, a manual control switch 140a is installed in parallel to the ground current interlock switch 140, and an administrator operates the manual control switch 140a to manually turn off the ground current interlock switch 140. As a result, it is preferable that the counter-terminal synchronous interlock switch 120 and the ground current interlock switch 140 be forced to re-enter the line in case of malfunction even by the double interlock function.

The main structure of the line grounding switch misoperation prevention device 100 according to the present invention for this purpose, as shown in Figure 4, to transmit and receive the status signal of the line breaker 110 between the magnetic substation and the relative substation A display unit 143a to 143a, which displays a signal transmission / reception unit, ground current detection units 141a to 141c for detecting the ground current of the power cable of the magnetic substation, and current values detected through the ground current detection units 141a to 141c. 143c), the opposite end synchronous interlock switch 120 which performs interlock control in accordance with the state of the other end line breaker (see 110 'in FIG. 5) installed in the opposite substation, and the shield ground current value of the magnetic end power cable. A ground current interlock switch 140 for performing interlock control and a status signal received through the signal receiver to control the opposite end interlock switch (see 120 ′ in FIG. 5). Of course, the processor is configured to include logic 150 to control a ground current interlock switch 140 in response to the shield ground current value.

In more detail, the signal transmitting / receiving unit detects the line state of the magnetic substation side and transmits the state signal of the line breaker 110 to the relative substation side, and transmits the state signal of the other end line breaker (see 110 ′ in FIG. 5). In order to be able to receive at the magnetic substation side, it preferably comprises a DTMF (Dual Tone Multi Frequency) tone generator 132 and DTMF tone decoder 134.

That is, the DTMF tone generator generates a low tone or a high tone according to the state of the line breaker 110, using a DTMF communication method that enables communication in two tones of dual frequency, low frequency and high frequency. A status signal is transmitted using 132, and the relative phase interlock switch 120 can be controlled as the status signal of the transmitted DTMF tone is decoded and read by the DTMF tone decoder 134.

For example, as shown in FIG. 5, when the line breaker 110 on the side of the magnetic substation (substation A) does not operate, the DTMF tone generator 132 generates a low tone signal of 800 Hz, and the line breaker 110. In operation, the DTMT tone generator 132 generates a signal having a high tone of 1800 Hz, amplifies a signal having a predetermined size through an amplifier AMP, and then uses a hybrid substation 133 through a hybrid circuit 133. It is configured to be transmitted to the substation B) side.

In the substation B, the DTMF tone signal received through the hybrid circuit 133 'is amplified to a predetermined size through an amplifier AMP, and the DTMF tone decoder 134' decodes the DTMF tone signal. As configured to be input to the processor logic 150, when the received state signal is a low tone of 800 Hz, the processor logic 150 turns off (or opens) the synchronous interlock switch 120 at the opposite end. Control so that is not injected.

However, in the substation B (substation B), the above-described control may be performed by transmitting the state of the magnetic end line switch 110 ', but the description thereof will be omitted below.

Meanwhile, the ground current detectors 141a to 141c are installed in respective substations to detect the ground current of the power cable of the magnetic substation. A clamp type current transformer CT can be used, and is preferably installed for each phase ø _A , ø _B , ø _C of the power cable.

The display units 143a to 143c are provided to allow an administrator to easily check the current value detected through the ground current detectors 141a to 141c. Various display devices including LEDs and LCDs may be used.

However, the display units 143a to 143c may check the sheath ground current to determine whether an abnormality occurs. However, a light emitting unit (not shown) or line breaker 110 emits light when the sheath ground current exceeds a set value. It may be desirable to further include a light emitting unit (not shown) during opening and closing of the manager so as to easily check whether or not an abnormality occurs.

The other end synchronous interlock switch 120 receives the DTMF tone signal as described above according to the state of the other end line breaker 110, and maintains an ON state only when an error occurs in the underground transmission line, as will be described later. Allow line ground breakers to be inserted.

The ground current interlock switch 140 is to allow the interlock of the line grounding switch to be doubled together with the counterpart synchronous interlock switch 120, and the ground current interlock switch 140 is detected from a magnetic end power cable. Only when the sheath ground current value is larger than the current value set by the administrator, the line grounding switch can be turned on.

That is, the line grounding switch is input only when both the counter-end synchronous interlock switch 140 and the ground current interlock switch 140 are in an on state, thereby preventing malfunction.

On the other hand, the processor logic 150 reads the status signal received through the signal transmitting / receiving unit to control the synchronous interlock switch 120 of the opposite end, as well as the ground current interlock switch 140 in accordance with the shield ground current value. For the purpose of control, if it is determined by the received DTMF tone signal that the other end line breaker (110 'of FIG. 5) is in a normal state without operation, the other end synchronous interlock switch relay is excited to activate the other end of the b-contact. When the synchronous interlock switch 120 is turned off and similarly, when it is determined that the sheath ground current value of the magnetic stage does not exceed the set value and is in a normal state, the ground current interlock switch 140 is excited to excite the ground current interlock switch 140. It can be turned off.

Therefore, by determining whether the abnormality of the line is double, by controlling the relative synchronous interlock switch 140 and the ground current interlock switch 140 as described above, it is possible to prevent the line grounding switch from malfunctioning. .

It has been described above the device for preventing misoperation of the line grounding switch according to the present invention. Such a technical configuration of the present invention will be understood by those skilled in the art that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is represented by the utility model registration claims described below rather than the foregoing detailed description, and the utility model registration claims. All changes or modifications derived from the meaning and scope of the present invention and equivalent concepts thereof should be construed as being included in the scope of the present invention.

According to the above-described line grounding breaker malfunction prevention device of the present invention, it is possible to control the line grounding breaker without a single-phase potential transformer, thereby lowering the cost of the equipment, and providing a double interlock function. It is possible to prevent erroneous operation of the line grounding breaker that protects the power system from abnormal occurrences, thereby improving system stability and supply reliability.

Claims (5)

A signal transmitting / receiving unit for receiving a status signal of the opposite end line breaker transmitted from the opposite substation side and transmitting the self end line breaker state signal of the substation side to the relative substation side; A counterpart synchronous interlock switch which maintains an ON state only when a signal indicating that the counterpart line breaker is operated is received through the signal receiver; A ground current detector for detecting a shield ground current of a magnetic end power cable on the substation side; A ground current interlock switch which maintains an ON state only when the current value detected by the ground current detector is equal to or greater than a set value; And And a line grounding switch operating only when both the synchronous interlock switch and the ground current interlock switch are in an on state. The method of claim 1, And a manual control switch connected to the ground current interlock switch in parallel so as to manually release the line ground by a manager. The method according to claim 1 or 2, The signal transmitting / receiving unit is a line to earth breaker malfunction prevention device, characterized in that the DTMF (Dual Tone Multi-frequency) type for transmitting and receiving low-frequency or high-frequency signals according to the state of the line breaker. The method according to claim 1 or 2, And a display unit for displaying a current value detected from the ground current detection unit. The method according to claim 1 or 2, And a light emitting unit which displays a state of a transmission line according to the state of the line breaker or the current value detected from the ground current detector.

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