JP2012257420A - Line separation-type two system transmission line protection relay - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a line separation-type two system transmission line protection relay for protecting a line even if the relay is constituted of one CPU.SOLUTION: In a first two system transmission line protection relay 10, a first A system transmission line protection relay 10and a failsafe first B system transmission line protection relay 10of the first A system transmission line protection relay 10are constituted of one CPU. The first B system transmission line protection relay 10includes: a switch circuit functioning as adjacent line protection means for functioning as protection of a second line 2L when a second two system transmission line protection relay 10which is installed on the second line 2L and in which a second A system transmission protection relay 10and a failsafe second B system transmission line protection relay 10of the second A system transmission protection relay 10are constituted of one CPU cannot be used; a display circuit; a trip circuit; a voltage circuit; and a current circuit.

Description

  BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a line-separated two-series transmission line protection relay, and more particularly, an A-system transmission line protection relay and a B-system transmission line protection relay constituting a line-separated two-series transmission line protection relay. The present invention relates to a line-separated two-series power transmission line protection relay suitable for configuring with a CPU.

Conventionally, as shown in FIG. 8A, the first and second lines 1L and 2L for protecting the first and second lines 1L and 2L branched from the first or second buses 1 and 2 via the line switch 3 are used. The two-series transmission line protection relays 100 ₁ and 100 ₂ (digital relay in which the main protection relay and the rear protection relay are integrated) are configured in an independent form (that is, a line separation type) for each line.
In order to improve reliability, the first two-series transmission line protection relay 100 ₁ is a 1LA system first A system transmission line protection relay 100 _1A and a 1LB system first B system transmission line protection relay 100 _1B. (For fail-safe use of the first A-system transmission line protection relay 100 _1A ), the second 2-series transmission line protection relay 100 ₂ is similarly a 2LA-system second A-system transmission. The electric wire protection relay 100 _2A and the 2LB system second B system power transmission line protection relay 100 _2B (for fail-safe of the second system A power transmission line protection relay 100 _2A ) are composed of two systems.

In such a line-separated two-series transmission line protection relay, the first A-system transmission line protection relay 100 _1A , the first B-system transmission line protection relay 100 _1B , the second A-system transmission line protection relay 100 _2A and the first Since each of the second B-system power transmission line protection relays 100 _2B is configured by using one CPU, in order to reduce the number of CPUs and reduce the cost, as shown in FIG. 1 a system transmission line protection relay 100 _1A and the second main protection relay and back-up of the a-system transmission line protection relay 100 _2A one a power networks protection relay configured in CPU 110 _a (for the first line 1L And a first B-system transmission line protection relay 100 _1B and a second B-system transmission line protection relay 100. _2B One B system transmission line protection relay configured in CPU 110 _B (A power networks protection relay 110 _A and for fail-safe) and first and second line 1L with two series transmission line protection for 2L protection The relay is also comprised (for example, refer the following patent document 1).

  In Patent Document 2 below, the self-line current, the self-line voltage, and the adjacent line current are used as inputs so that the line is not stopped when a single digital relay is defective in protecting two parallel lines. In a two-line transmission line protection relay device having a digital relay having a self-line distance protection relay function, a self-line line selection protection relay function, and an adjacent line selection protection relay function, one for each line, Each digital relay uses its own line distance protection relay function and its own line selection protection relay function to protect each line individually. When one of the digital relays is defective or out of function, the adjacent line selection of the other digital relay is selected. There is disclosed a power transmission line protection relay device that performs both line protection by a protection relay function.

JP-A-9-284980 Japanese Patent Laid-Open No. 5-146052

However, since the two-series transmission line protection relay shown in FIG. 8B is a complete two-series, for example, even if the A-system transmission line protection relay 110 _A stops due to a failure, the B-system transmission line protection relay 110 _B The first and second lines 1L and 2L can be continuously protected, and there is a sufficient merit in the normal operation state. However, the first and second lines 1L and 2L are configured with one CPU. The main / rear protection function and the test / normal switching switch (43TL) are shared by the first and second lines 1L and 2L. The relationship between 1L and 2L is honey.
Therefore, it is necessary to always consider the influence (protective surface, mistrip, etc.) on the second line 2L (sound line) when stopping the two-line transmission line protection relay for the work of the first line 1L, for example. Because there are precautions at the time of work, when working with a relay panel of this configuration, it is necessary to fully examine the work method and stop method in advance, and it is difficult for daily maintenance such as operational restrictions. There was a problem that there was a point to do.

In order to reduce the number of CPUs in the line separation type system shown in FIG. 8A, the first two-series transmission line protection relays 100 ₁ (first A-system and B-system transmission line protection relays 100 _1A , 100 _1B ) is configured by one CPU and the second two-series transmission line protection relay 100 ₂ (second A-system and B-system transmission line protection relays 100 _2A and 100 _2B ) is configured by one CPU. Then, for example, when the CPU of the first two-series transmission line protection relay 100 ₁ fails, both the first A-system and B-system transmission line protection relays 100 _1A and 100 _1B do not operate. There was a problem that the line 1L could not be protected.

  An object of the present invention is to provide a line-separated two-series power transmission line protection relay that can protect a line even with a single CPU.

The line-separated two-series transmission line protection relay of the present invention includes a system A transmission line protection relay (10 _1A ) and a fail-safe B system transmission line protection relay (10 _1B ) for the system A transmission line protection relay. A line-separated two-series power transmission line protection relay (10 ₁ ) composed of a _single central processing unit, wherein the B system power transmission line protection relay is installed in the adjacent circuit (2L) and another A system transmission The wire protection relay (10 _2A ) and the other B system power transmission line protection relay (10 _2B ) for fail-safe of the other system A power transmission line protection relay are composed of one other central processing unit. It is characterized by comprising an adjacent line protection means for functioning for protecting the adjacent line when the separated line type two-line transmission line protection relay (10 ₂ ) cannot be used.
Here, the adjacent line protection means includes a switching circuit (20) for switching the B-system transmission line protection relay to fail-safe of the A-system transmission line protection relay or to protect the adjacent line, and the switching When the circuit is normally switched to operate the B-system transmission line protection relay for fail-safe use of the A-system transmission line protection relay, and when the other line-separated two-series transmission line protection relay is not usable, The B-system power transmission line protection relay may be switched to operate to protect the adjacent line instead of the other line separation type two-series power transmission line protection relay.
The adjacent line protection means includes a self-line display contact (31a, 31b, 31c, 31d, 31e) which is a contact for displaying the self-line where the line-separated two-series power transmission line protection relay is installed, and the other line. A display circuit (30) having adjacent line display contacts (32a, 32b, 32c, 32d, 32e), which are display contacts of the adjacent line, on which a separate two-system transmission line protection relay is installed, However, it is switched by the switching circuit so that the contact for displaying the own line operates in a normal state, while the contact for displaying the adjacent line operates when the other line separation type two-series transmission line protection relay cannot be used. May be.
The adjacent line protection means includes a trip circuit (40) having a trip circuit section and a seal-in circuit section, and the trip circuit section is configured to operate an operation command from the central processing unit of the line-separated two-series transmission line protection relay. Accordingly, the circuit breaker (4 ₁ ) installed in the own line is cut off in normal times, while the other circuit installed in the adjacent line is disconnected when the other line-separated two-series transmission line protection relay is not available. The circuit is switched by the switching circuit so as to shut off the circuit breaker (4 ₂ ), and the seal-in circuit unit is normally operated in response to an operation command from the central processing unit of the line-separated two-series power transmission line protection relay. Sometimes it operates to close the pallet switch of the circuit breaker, while other pallet switch of the other circuit breaker when the other line separation type two-series transmission line protection relay is unavailable Close As may be switched by the switching circuit.
The adjacent line protection means includes a voltage circuit (50) and a current circuit (70), and the voltage circuit is configured such that the bus voltage (V _1L ) of the buses (1, 2) to which the own line is connected is normally The voltage input converter (52) of the B-system power transmission line protection relay is input. On the other hand, when the other line separation type two-series power transmission line protection relay cannot be used, the bus voltage of the other bus to which the adjacent line is connected ( V _2L ) is switched by the switching circuit so that it is input to the voltage input converter of the B-system transmission line protection relay, and the current circuit (I _1L ) flowing through the own line in the normal state is On the other hand, the other current (I _2L ) flowing in the adjacent line is input to the current input converter (72) of the B-system transmission line protection relay, while the other line separation type two-series transmission line protection relay is unavailable. In front of B system power line protection relay Switching may be performed depending on whether or not the plug (90) is inserted into the current switching terminals (73, 83) so as to be input to the current input converter.

The line-separated two-series power transmission line protection relay of the present invention has the following effects.
(1) The B-system transmission line protection relay has a neighboring line protection means for functioning as a protection for the neighboring line when another line separation type two-series transmission line protection relay installed in the neighboring line becomes unusable. As a result, the own line can be protected by the A-system transmission line protection relay and the adjacent line can be protected by the B-system transmission line protection relay.
(2) Since it is a line separation type, it becomes possible to improve operational restrictions such as enabling safe work without considering the effect on the sound line during work.

It is a figure for demonstrating the circuit separation type | mold 2 series power transmission line protection relay by one Example of this invention. It is a figure for demonstrating the switching circuit 20 with which the 1st B system power transmission line protection relay _101B shown in FIG. ₁ is provided. It is a figure for demonstrating the display circuit 30 with which the 1st B type power transmission line protection relay _101B shown in FIG. ₁ is provided. It is a figure for demonstrating the trip circuit 40 with which the 1st B system power transmission line protection relay _101B shown in FIG. ₁ is provided. It is a figure for demonstrating 1L type | system | group and 2L type | system | group voltage circuit 50,60 with which the 1st and 2nd 2 series power transmission line protection relays 10 ₁ and 10 ₂ shown in FIG. 1 are each provided. It is a figure for demonstrating 1L type | system | group and 2L type | system | group current circuit 70,80 with which the 1st and 2nd 2 series power transmission line protection relays 10 ₁ and 10 ₂ shown in FIG. It is a figure for demonstrating the 8 pole plug 90 inserted in the terminal 73 for 1 L type | system | group electric current switching shown to Fig.6 (a). It is a figure for demonstrating the conventional power transmission line protection relay system for 1st and 2nd circuit | line 1L, 2L protection.

  For the above purpose, when another line separation type two-series transmission line protection relay installed in the adjacent line cannot be used, the adjacent line protection means for functioning as a protection for the adjacent line is used as a B-system transmission line protection relay. Realized by preparing for.

Embodiments of the line separation type two-series power transmission line protection relay of the present invention will be described below with reference to the drawings.
A first two-series transmission line protection relay 10 ₁ (a digital relay in which a main protection relay and a rear-end protection relay are integrated), which is a line-separated two-series transmission line protection relay according to an embodiment of the present invention, is connected to the first line 1L. Installed. The first A-system transmission line protection relay 10 _1A and the first B-system transmission line protection relay 10 _1B (first A-system transmission line protection relay 10 constituting the first two-series transmission line protection relay 10 _{1 1A (} for fail-safe) is composed of one CPU as shown in FIG.
Similarly, the second two-series transmission line protection relay 10 ₂ (a digital relay in which the main protection relay and the rear-end protection relay are integrated), which is a line-separated two-series transmission line protection relay according to this embodiment, is the second line 2L. Installed. Further, the second A-system transmission line protection relay 10 _2A and the second B-system transmission line protection relay 10 _2B (second A-system transmission line protection relay 10 constituting the second two-series transmission line protection relay 10 ₂ are used. _As shown in FIG. 1, the _2A fail-safe) is composed of one CPU.

The first B-based transmission line protection relay 10 _1B is to function as a protection for the second line 2L when the second 2-series transmission line protection relay 10 ₂ becomes unavailable as a result of a malfunction of the CPU Similarly, the second line B power transmission line protection relay 10 _2B includes the first line 1L when the first two-system power transmission line protection relay 10 ₁ cannot be used due to a failure of the CPU or the like. Next line protection means for functioning for protection of the network is provided.

Therefore, the first and second B-system power transmission line protection relays 10 _1B and 10 _2B need to change the connection of the display circuit, trip circuit, and AC circuit (voltage circuit and current circuit). The protection line can be easily switched by the switch operation and plug operation.

Specifically, the first B-system power transmission line protection relay _101B includes a switching circuit 20, a display circuit 30, a trip circuit 40, a voltage circuit, and a current circuit described below as adjacent line protection means.

(1) Switching circuit 20
The switching circuit 20 operates the first B-system power transmission line protection relay 10 _1B for use as a fail-safe for the first A-system power transmission line protection relay 10 _1A during normal times, and the second two-series power transmission line protection relay 10 _2. of the time not used to operate as a protection of the second line 2L the first B system transmission line protection relay 10 _1B in place of the second two series transmission line protection relay 10 _2, the first B-system transmission line it is intended for switching the operation mode of the protection relay 10 _1B.

Therefore, as shown in FIG. 2 (a), the switching circuit 20 includes 1L side and 2L side trip circuit switching contacts 21 _T1 and 21 _T2 and 1L side and 2L side seal-in circuit switching contacts 21 _S1 and 21 _S2 . 1L side and 2L side display circuit switching contacts 21 _D1 and 21 _D2 , 1L side and 2L side voltage circuit switching contacts 21 _V1 and 21 _V2, and a voltage circuit switching keep relay 22 are provided. ing.

Here, the 1L side and 2L side trip circuit switching contacts 21 _T1 and 21 _T2 and the 1L side and 2L side seal-in circuit switching contacts 21 _S1 and 21 _S2 and the 1L side and 2L side display circuit switching contacts 21 _D1 and 21 _D2 and the 1L side and 2L side voltage circuit switching contacts 21 _V1 and 21 _V2 are interlocked. When the twisting switch is turned to the 1L side, as shown in FIG. Contact 21 _T1 , 1L side seal-in circuit switching contact 21 _S1 , 1L side display circuit switching contact 21 _D1 and 1L side voltage circuit switching contact 21 _V1 are closed and 2L side trip circuit switching contact 21 _T2 and 2L side seal When the in-circuit switching contact 21 _S2 , the 2L-side display circuit switching contact 21 _D2 and the 2L-side voltage circuit switching contact 21 _V2 are opened, while the twist type switch is turned to the 2L side, it is shown in FIG. like L side trip circuit switching contacts 21 _T2, 2L side seal-in circuit switching contact 21 _S2, 2L side display circuit switching contacts 21 _D2 and 2L side voltage circuit 1L side trip circuit switching contacts with switching contacts 21 _V2 is closed 21 _T1 , 1 L side seal-in circuit switching contact 21 _{S 1} , 1 L side display circuit switching contact 21 _{D 1} and 1 L side voltage circuit switching contact 21 _{V 1} are opened.

The voltage circuit is switched by receiving the 1L side and 2L side voltage circuit switching contacts 21 _V1 and 21 _V2 by the voltage circuit switching keep relay 22.
That is, when the twist type switch is turned to the 1L side, the 1L side voltage circuit switching contact 21 _V1 is closed and the 2L side voltage circuit switching contact 21 _V2 is opened as shown in FIG. When a current flows through the relay and the switch in the voltage circuit switching keep relay 22 falls to the 2L side keep relay side, when the twist switch is turned to the 2L side, as shown in FIG. When the circuit switching contact 21 _V2 is closed and the 1L side voltage circuit switching contact 21 _V1 is opened, a current flows through the 2L side keep relay so that the switch in the voltage circuit switching keep relay 22 falls to the 1L side keep relay side. Has been.

Incidentally, the normal times twisting switch are turned to 1L side, the second two series transmission line protection twisting switch when the relay 10 ₂ unavailable referred for 2L side.

(2) Display circuit 30
The display circuit 30 is mounted with the minimum necessary items such as a short-circuit accident and a ground fault, and is not basically mounted for oscilloscope or FL start to reduce the space and the number of parts, but the ARE start circuit is mounted if necessary. Has been.

  Therefore, as shown in FIG. 3, the display circuit 30 is connected to the external display disconnect terminal UTT1 (usually closed and opened during the test) and the test / normal for the first line 1L display. The changeover switch 43TL1 (normally closed and opened during the test) and various display contacts connected in parallel (short-circuit display contact 31a, ground fault display contact 31b, final trip display contact 31c, line name A display contact 31d and another display contact 31e), and for the display of the second line 2L, the external display disconnect terminal UTT2 and the test / normal switch 43TL2 connected in parallel, and various displays connected in parallel Contacts (short-circuit display contact 32a, ground fault display contact 32b, final trip display contact 32c, line name display contact 32d and other display displays It provided with a point 32e) and.

Further, the 1L side display circuit switching contact 21 _D1 is connected to the external display disconnect terminal UTT1, the test / normal switch 43TL1, and various display contacts (short-circuit display contact 31a, ground fault display contact 31b, final trip display contact 31c. The 2L-side display circuit switching contact 21 _D2 is connected to the external display disconnecting terminal UTT2 and the test / normal switching switch 43TL2 in various ways, between the line name display contact 31d and the other display contact 31e). It is provided between display contacts (short-circuit display contact 32a, ground fault display contact 32b, final trip display contact 32c, line name display contact 32d, and other display contact 32e).
As a result, since the 1L side display circuit switching contact 21 _D1 is closed and the 2L side display circuit switching contact 21 _D2 is opened during normal operation, the first line 1L display operation operates, while the second two series since 2L side display circuit switching contact 21 _D2 is closed with 1L side display circuit switching contacts 21 _D1 is opened at the time of disabling of the transmission line protection relay 10 _2, second line 2L for display is to operate Yes.

(3) Trip circuit 40
The trip circuit 40 includes a trip circuit section shown on the left side of FIG. 4 and a seal-in circuit section shown on the right side of FIG.

Trip circuit portion includes a trip auxiliary relay 41 which is closed by the operation command from the first two series of transmission line protection relay 10 _first CPU, a first circuit breaker installed in the first line 1L 4 ₁ (Fig. 1 a first trip circuit side trip lock pin 42 ₁ for preventing the malfunction of the reference), ₁ and the first breaker 4 ₁ of the first trip coil (TC) 43, installed in the second line 2L The second trip circuit portion side trip lock terminal 42 ₂ for preventing the malfunction of the second circuit breaker 4 ₂ (see FIG. 1), and the second trip coil (TC) of the second circuit breaker 4 ₂ 43 ₂ .
Here, the trip auxiliary relay 41, the first trip circuit section side trip lock terminal 42 ₁ and the first trip coil 43 ₁ are connected in series, and the second trip circuit section side trip lock terminal 42 ₂ The second trip coil 43 ₂ is connected in series, and the _second trip circuit connected in series with the first trip circuit section side trip lock terminal 42 ₁ and the first trip coil 43 ₁ connected in series. The part-side trip lock terminal 42 ₂ and the second trip coil 43 ₂ are connected in parallel.

A 1L side trip circuit switching contact 21 _T1 is provided between the trip auxiliary relay 41 and the first trip circuit side trip lock terminal 42 _1, and a 2L side trip circuit switching contact 21 _T2 is provided. It is provided between the trip auxiliary relay 41 and the second trip circuit side trip lock pin 42 _2.
Thus, the trip circuit unit, a normal time, since with 1L side trip circuit switching contacts 21 _T1 is closed 2L side trip circuit switching contacts 21 _T2 is opened, the first two series transmission line protection relay 10 ₁ operates to cut off the first breaker 4 ₁ in accordance with an operation command from the CPU, whereas, during the second two series transmission line protection relay 10 ₂ unavailable, 1L side trip circuit switching contacts 21 _T1 since the 2L side trip circuit switching contacts 21 _T2 is closed with opened so as to cut off the second circuit breaker 4 ₂ in response to an operation command from the first two series of transmission line protection relay 10 _first CPU Operate.

Seal-in circuit from the first two series of transmission line protection relay 10 of _the main relay operation contacts (MTX) 44 which is operated by an operation command from CPU, fail-safe operation contacts (FDX) 45 and the trip auxiliary relay 46 a seal-in unit comprising, a first seal-in unit side trip lock pin 47 ₁ to prevent a malfunction of the first circuit breaker 4 ₁ pallets switch, the operating the first breaker 4 ₁ of the pallet a breaker pallet switch 48 ₁ of 1, the second seal-in unit side trip lock pin 47 ₂ for preventing the malfunction of the second circuit breaker 4 ₂ pallets switch, the second circuit breakers 4 ₂ pallets and a second circuit breaker pallet switches 48 ₂ to operate the.
Here, the main relay operation contact 44 and the fail safe operation contact 45 are connected in series, and the main relay operation contact 44 connected in series and the fail safe operation contact 45 and the trip auxiliary relay 46 are connected in series. The contacts TX1 and 52TX2 are connected in parallel. Further, the first seal-in part side trip lock terminal 47 ₁ and the first circuit breaker pallet switch 48 ₁ are connected in series, and the second seal-in part side trip lock terminal 47 ₂ and the second circuit breaker are connected. with the pallet switch 48 ₂ are connected in series, the first seal-in unit side trip lock pin 47 ₁ and the first breaker pallet switches 48 ₁ connected in series with the second seal-in portions which are connected in series The side trip lock terminal 47 ₂ and the second circuit breaker pallet switch 48 ₂ are connected in parallel.

Further, the 1L-side seal-in circuit switching contacts 21 _S1 is provided between the seal-in portion and the first seal-in unit side trip lock terminal 47 _1, the 2L-side seal-in circuit switching contact 21 _S2 It is provided between the seal-in portion and the second seal-in unit side trip lock pin 47 _2.
As a result, the seal-in circuit portion normally closes the 1L-side seal-in circuit switching contact 21 _{S1 and} opens the 2L-side seal-in circuit switching contact 21 _S2. 10 in response to an operation command from the _first CPU operating first blocks palette switches 48 ₁ to close so, whereas, during the second two series transmission line protection relay 10 ₂ unavailable, 1L-side seal-in circuit since the switching contacts 21 _S1 is 2L side seal-in circuit switching contact 21 _S2 is closed with opened, the second pallet switch 48 in response to an operation command from the first two series of transmission line protection relay 10 _first CPU _Operates to close ₂ .

The 1L side and 2L side trip circuit switching contacts 21 _T1 and 21 _T2 and the 1L side and 2L side seal-in circuit switching contacts 21 _S1 and 21 _S2 are preferably a twist switch and a lock T.P. It is configured so that double circuit switching by T is performed.

(4) 1L system voltage circuit 50
1L system voltage circuit 50 in which the first two series transmission line protection relay 10 ₁ is provided, as shown in FIG. 5 (a), the voltage input converter 51 in which the first A system transmission line protection relay 10 _1A comprises, A voltage input converter 52 and a 1L system changeover switch 53 provided in the first B system power transmission line protection relay _101B are provided.
Here, the first A system transmission line protection relay 10 _1A of the voltage input transducers 51, first bus bar 2 series transmission line protection relay 10 ₁ is connected via a line switch 3 (the first or The bus voltage of the second buses 1 and 2 (hereinafter referred to as “1L bus voltage V _1L ”) is input via a first instrument transformer (not shown).
In addition, the voltage input converter 52 of the first B-system transmission line protection relay _101B is input from the 1L-system bus voltage _V1L or the second B-system transmission line protection relay _102B and the second two series. bus voltage of the bus of power transmission line protection relay 10 ₂ is connected via a line switch 3 (the first or second busbar 1) (hereinafter, referred to as "2L-based bus voltage V _2L".) is 1L It is input via the system switch 53.

Incidentally, 1L system bus voltage V _1L is, R-phase of the bus by the first two series of transmission line protection relay 10 ₁ is connected, S-phase, T-phase and N-phase bus voltage (hereinafter, "1L-based R-phase bus referred voltage V _1LR, 1L-based S-phase bus voltage V _1LS, and 1L-based T-phase bus voltage V _1LT and 1L system N phase bus voltage V _1LN ".) made, 2L system bus voltage V _2L is second 2 R-phase, S-phase, T-phase and N-phase bus voltage (hereinafter referred to as “2L system R phase bus voltage V _2LR , 2L system S phase bus voltage V _2LS , 2L) of the bus to which series transmission line protection relay 10 ₂ is connected. System T-phase bus voltage V _2LT and 2L system N-phase bus voltage V _2LN ”).

The 1L system changeover switch 53 is switched by the voltage circuit switching keep relay 22 (see FIG. 2A), and in normal times, as shown in FIG. 5A, the 1L system R phase, S phase, T phase and N phase bus voltage _{V 1LR, V 1LS, V 1LT} , V 1LN is input to the voltage input converter 52 of the first B-based transmission line protection relay 10 _1B, whereas, the use of a second two series transmission line protection relay 10 ₂ during impossible, 2L system R phase, S phase, T and N phases bus voltage _{V 2LR, V 2LS, V 2LT} , V 2LN is input to the voltage input converter 52 of the first B-based transmission line protection relay 10 _1B It is supposed to be.

(5) 1L system current circuit 70
1L system current circuit 70 in which the first two series transmission line protection relay 10 ₁ is provided, as shown in FIG. 6 (a), a current input transducer 71 provided in the first A system transmission line protection relay 10 _1A, and a current input transducer 72 and 1L-based current switching terminal 73 provided in the first B-based transmission line protection relay 10 _1B.
Here, in the current input converter 71 of the first A-system transmission line protection relay 10 _1A, a current flowing through the first line 1L (hereinafter referred to as “1L-system current I _1L ”) is a first current transformation. It is input via the device 5 ₁ (see FIG. 1).
Further, the current input converter 72 of the first B-system transmission line protection relay 10 _1B is input from the 1L-system current I _1L or the second B-system transmission line protection relay 10 _2B and flows through the second line 2L. A current (hereinafter referred to as “2L system current I _2L ”) is input via the 1L system current switching terminal 73.

Incidentally, 1L-based current I _1L is, R-phase of the first line 1L, S phase, T phase and N-phase current (hereinafter, "1L-based R-phase current I _1LR, 1L-based S-phase current I _1LS, 1L system T phase referred to as the current I _1LT and 1L-based N-phase current I _1LN ".) made, 2L-based current I _2L is, R-phase of the second line 2L, S phase, T phase and N-phase current (hereinafter," 2L system R phase current I _2LR, 2L-based S-phase current I _2LS, 2L system T phase current I _2LT and 2L based N-phase current I _2LN "and referred.) consists.

1L-based current switching terminal 73, a normal time, by inserting the 8-pole plug 90 shown in FIG. 7 (a), 1L-based R-phase current I _1LR, 1L-based S-phase current I _1LS, 1L-based T-phase current The I _1LT and the 1L system N phase current I _1LN are input to the current input converter 72 included in the first B system power line protection relay 10 _1B via the 1L system current switching terminal 73 and the 2L system R phase current. I _2LR, 2L-based S-phase current I _2LS, is short-circuited 2L system T phase current I _2LT and 2L based N-phase current I _2LN, whereas, during the second two series transmission line protection relay 10 ₂ unavailable, 8-pole by pulling out the plug 90, the through 2L-based R-phase current I _2LR, 2L-based S-phase current I _2LS, 2L system T phase current I _2LT and 2L based N-phase current I _2LN is 1L system current switching terminal 73 current provided to the first B-based transmission line protection relay 10 _1B Is input to a force transducer 72, is configured to 1L system R-phase current I _1LR, 1L-based S-phase current I _1LS, 1L-based T-phase currents I _1LT and 1L-based N-phase current I _1LN is shorted Yes.

  Specifically, the 1L system current switching terminal 73 is composed of a 4-pole test terminal for current circuit (model HR6-C4B) manufactured by Toshiba and a 4-pole test terminal for current circuit manufactured by Miwa Electric (model TS). -111).

The 8-pole plug 90 is used for the 4-pole plug (type HR5-C4) used for Toshiba's constant plug insertion type 4-pole test terminal for current circuit and the 4-pole test terminal for current circuit made by Miwa Electric. And a four-pole plug (TP-111).
That is, as shown in FIG. 7A, the octupole plug 90 is formed on the upper surface of the insulator 91 with a predetermined distance from the bottom surface of the insulator 91 toward the tip surface and with the adjacent conductor. 1L system R phase upper conductor 92 _RU , 1L system S phase upper conductor 92 _SU , 1L system T phase upper conductor 92 _TU , 1L system N phase upper conductor 92 _NU , 2L system R phase upper conductor 93 _RU , 2L system S Phase upper side conductor 93 _SU , 2L type T phase upper side conductor 93 _TU, 2L type N phase upper side conductor 93 _NU, and 1L type R phase upper side conductor 92 _{RU on} the lower surface of insulator 91, 1L type S phase upper side conductor 92 _SU , 1L System T phase upper conductor 92 _TU , 1L system N phase upper conductor 92 _NU , 2L system R phase upper conductor 93 _RU , 2L system S phase upper conductor 93 _SU , 2L system T phase upper conductor 93 _TU and 2L system N phase upper conductor 93 _TU 93 _NU and 1L-based R-phase lower electrically formed to respectively face 92 _RL, 1L-based S-phase lower conductor 92 _SL, 1L-based T-phase lower conductor 92 _TL, 1L-based N-phase lower conductor 92 _NL, 2L-based R-phase lower conductor 93 _RL, 2L-based S-phase lower conductor 93 _SL , 2L system T phase lower conductor 93 _TL and 2L system N phase lower conductor 93 _NL , 1L system N phase upper conductor 92 _NU and 2L system R phase upper conductor 93 _RU on the upper surface of the insulating support 91 A convex portion 94 formed therebetween and an insulating support 95 to which the bottom surface of the insulator 91 is attached are provided.

Here, the 1 L system R phase, S phase, T phase, and N phase upper conductors 92 _RU , 92 _SU , 92 _TU , 92 _{NU and} 1 L system R phase, S phase, T phase, and N phase lower conductors 92 _RL , 92 _SL , 92 _TL , 92 _NL have longitudinal lengths of 2L R phase, S phase, T phase and N phase upper conductors 93 _RU , 93 _SU , 93 _TU , 93 _{NU and} 2L R phase, S phase, The _{length of} the T-phase and N-phase lower conductors 93 _RL , 93 _SL , 93 _TL , and 93 _NL is about half of the length in the longitudinal direction.

Further, the front end surface of the 1L system R phase upper conductor _{92RU and} the front end surface of the 1L system R phase lower conductor _92RL are electrically short-circuited as shown in FIG. 7B. 1L system S phase upper conductor 92 _SU and 1L system S phase lower conductor 92 _SL , 1L system T phase upper conductor 92 _TU and 1L system T phase lower conductor 92 _TL and 1L system N phase upper conductor 92 _NU and 1L system N The same applies to the phase lower conductor 92 _NL .
On the contrary, the tip surface of the 2L system R phase upper conductor 93 _{RU and} the tip surface of the 3L system R phase lower conductor 93 _RL are electrically open as shown in FIG. . 2L system S phase upper conductor 93 _SU and 2L system S phase lower conductor 93 _SL , 2L system T phase upper conductor 93 _TU and 2L system T phase lower conductor 93 _TL and 2L system N phase upper conductor 93 _NU and 2L system N The same applies to the phase lower conductor 93 _NL .

  The convex portion 94 is for preventing the 8-pole plug 90 from being inserted upside down into the 1L system current switching terminal 73. The 8L plug is inserted into the plug insertion port of the 1L system current switching terminal 73. A concave portion (not shown) is formed into which the convex portion 94 is inserted when 90 is inserted into the 1 L system current switching terminal 73.

The second B-system transmission line protection relay 10 _2B is configured in the same manner as the first B-system transmission line protection relay 10 _1B described above except for the following points.

(1) switching circuits provided in the second B-based transmission line protection relay 10 _2B is normal at the time of a fail-safe of the second B-based transmission line protection relay 10 _2B second A power networks protection relay 10 _2A On the other hand, when the first two-series transmission line protection relay 10 ₁ cannot be used, the second B-system transmission line protection relay 10 _2B is replaced by the first line instead of the first two-series transmission line protection relay 10 _1. It is different from the switching circuit 20 shown in FIGS. 2A and _{2B in that} the operation mode of the second B-system power transmission line protection relay 102B is switched so as to operate for 1L protection.

(2) The display circuit included in the second B-system power transmission line protection relay _102B is normally closed because the 2L-side display circuit switching contact _21D2 is closed and the 1L-side display circuit switching contact _21D1 is opened. second line 2L for display operates, whereas, at the time of the first two series transmission line protection relay 10 ₁ disabled, the contact for 1L side display circuit switching with 2L side display circuit switching contact 21 _D2 is opened 21 _D1 Is different from the switching circuit 30 shown in FIG. 3 in that the display for the first line 1L operates.

(3) the trip circuit comprising a second B-based transmission line protection relay 10 _2B is trip circuit portion, a normal time, 2L side trip circuit switching contact 21 _T2 1L side trip circuit switching contact 21 with the closed _T1 since is opened, the second the second circuit breaker 4 ₂ operates to shut off in response to an operation command from the 2-series transmission line protection relay 10 _second CPU, whereas the protective first two series transmission line when disabled relays 10 _1, for 1L side trip circuit switching contacts 21 _T1 is closed with 2L side trip circuit switching contacts 21 _T2 is opened, from the second two series transmission line protection relay 10 ₂ of the CPU and that operates to cut off the first breaker 4 ₁ in response to an operation command, the seal-in circuit is normal times, 1L side sea with 2L side seal-in circuit switching contact 21 _S2 is closed Since Lewin circuit switching contacts 21 _S1 is opened, the second breaker pallet switch 48 ₂ operates close as a response to an operation command from the second two series transmission line protection relay 10 _second CPU, whereas, during the first two series transmission line protection relay 10 ₁ unusable, for 1L-side seal-in circuit switching contacts 21 _S1 is closed with 2L side seal-in circuit switching contact 21 _S2 is opened, the second two sequences in that operate to close the first circuit breaker pallet switch 48 ₁ in response to an operation command from the power transmission line protection relay 10 _second CPU, different from the trip circuit 40 shown in FIG.

(4) 2L system voltage circuit 60 provided in the second B-based transmission line protection relay 10 _2B, see Figure 5 2L system changeover switch 63 shown in (b) the voltage circuit switching keep relay 22 (FIGS. 2 (a) ) is switched by a normal time, 2L-based R-phase as shown in FIG. 5 (b), S phase, T and N phases bus voltage _{V 2LR, V 2LS, V 2LT} , the V _2LN feeding the second B system is input to the voltage input transducers 62 of the wire protection relay 10 _2B, whereas, at the time of the first two series transmission line protection relay 10 ₁ disabled, 1L-based R phase, S phase, T and N phases bus voltage V _{1LR , V 1LS, V 1LT, V} 1LN is the point that is to be input to the voltage input transducers 62 of the second B-based transmission line protection relay 10 _2B, 1L system voltage shown in FIGS. 5 (a) Different from the circuit 50.

(5) 2L system current circuit 80 provided in the second B-based transmission line protection relay 10 _2B is, 2L-based current switching terminal 83 shown in FIG. 6 (b), a normal time, 2L-based R-phase current I _2LR, 2L-based S-phase current I _2LS, 2L system T phase current I _2LT and 2L based N-phase current I _2LN second B system transmission line protection relay 10 _2B current input transducer via the 2L-based current switching terminal 83 is input to 82, 1L-based R-phase current I _1LR, 1L-based S-phase current I _1LS, 1L-based T-phase currents I _1LT and 1L-based N-phase current I _1LN are short-circuited, while feeding the first two series when disabled of the wire protection relay 10 _1, 1L-based R-phase current I _1LR, 1L-based S-phase current I _1LS, 1L-based T-phase currents I _1LT and 1L-based N-phase current I _1LN is a 2L-based current switching terminal 83 current input transducer 82 of the second B-based transmission line protection relay 10 _2B via With the force, in that 2L-based R-phase current I _2LR, 2L-based S-phase current I _2LS, 2L system T phase current I _2LT and 2L based N-phase current I _2LN is configured to be short-circuited, Fig. Different from the 1L system current circuit 70 shown in FIG.

Since the first B system transmission line protection relay 10 _1B and second B-series transmission line protection relay 10 _2B is configured as described above, normal times, the first B system transmission line protection relay 10 _1B Use as a fail-safe for the first A-system transmission line protection relay 10 _1A and use the second B-series transmission-line protection relay 10 _2B as a fail-safe for the second A-system transmission line protection relay 10 _2A can be, on the other hand, if the first two series of transmission line protection relay 10 ₁ becomes unavailable as a result of a malfunction of the CPU, the second B-based transmission line protection relay 10 _2B as for protecting the first line 1L with use, when the second 2-series transmission line protection relay 10 ₂ becomes unavailable as a result of a malfunction of the CPU, using a first B system transmission line protection relay 10 _1B for the protection of the second line 2L To do You can.

1, 2 1st and 2nd buses 1L, 2L 1st and 2nd line 3 Line switches 4 ₁ , 4 ₂ 1st and 2nd circuit breakers 5 ₁ , 5 ₂ 1st and 2nd current transformer 10 ₁ , 10 ₂ , 100 ₁ , 100 ₂ first and second two-series transmission line protection relays 10 _1A , 10 _1B , 100 _1A , 100 _1B first A system and B system transmission line protection relays 10 _2A , 10 _2B , 100 _2A , 100 _2B Second A-system and B-system transmission line protection relay 20 switching circuit 21 _T1 , 21 _T2 1L side and 2L side trip circuit switching contact 21 _S1 , 21 _S2 1L side and 2L side seal-in circuit switching Contact 21 _D1 , 21 _D2 1L side and 2L side display circuit switching contact 21 _V1 , 21 _V2 1L side and 2L side voltage circuit switching contact 22 Voltage circuit switching keep relay 30 Display circuit UTT1, UTT2 External display disconnect terminal 43TL1 , 43TL2 test / normal switch 31a, 32a Short-circuit display contact 31b, 32b Ground fault display contact 31c, 32c Final trip display contact 31d, 32d Line name display contact 31e, 32e Other display contact 40 Trip circuit 41 Trip Auxiliary relays 42 ₁ , 42 ₂ first and second trip circuit side trip lock terminals 43 ₁ , 43 ₂ first and second trip coils 44 main relay operating contact 45 failsafe operating contact 46 auxiliary relay 47 for tripping ₁ , 47 ₂ First and second seal-in portion side trip lock terminals 48 ₁ , 48 ₂ First and second circuit breaker pallet switches 50, 60 1L system and 2L system voltage circuits 51, 52, 61, 62 Voltage Input conversion circuit 53, 63 1L system and 2L system switch 70, 80 1L system and 2L Current circuit 71, 72, 81, 82 current input conversion circuit 73 and 83 1L system and 2L based current switching terminal 90 8-pole plug 91 insulator _{92 RU, 92 SU, 92 TU} , 92 NU 1L system R phase, S phase , T phase and N phase upper conductors 92 _RL , 92 _SL , 92 _TL , 92 _NL 1L system R phase, S phase, T phase and N phase lower conductor 93 _RU , 93 _SU , 93 _TU , 93 _NU 2L system R phase , S-phase, T-phase and N-phase upper conductors 93 _RL , 93 _SL , 93 _TL , 93 _NL 2L R-phase, S-phase, T-phase and N-phase lower conductors 94 Protrusions 95 Insulating supports 110 _A , 110 _B A system and the B system transmission line protection relay V _1L, V _2L 1L system and 2L system bus voltage _{V 1LR, V 1LS, V 1LT} , V 1LN, V 2LR, V 2LS, V 2LT, V 2LN 1L system and 2L system R Phase, S phase, T phase and N phase bus voltage I _1L , I _2L 1L system and 2L system current I _{1 LR, I 1LS, I 1LT,} I 1LN, I 2LR, I 2LS, I 2LT, I 2LN 1L system and 2L system R phase, S phase, T phase and N-phase current

Claims (5)

Line separation type two series in which the A system transmission line protection relay (10 _1A ) and the B system transmission line protection relay (10 _1B ) for fail-safe of the A system transmission line protection relay are constituted by one central processing unit Transmission line protection relay (10 ₁ )
The B system transmission line protection relay is installed in the adjacent line (2L), and another B system for fail-safe of the other A system transmission line protection relay (10 _2A ) and the other A system transmission line protection relay When the other line separation type two-series transmission line protection relay (10 ₂ ) composed of one other central processing unit and the transmission line protection relay (10 _2B ) cannot be used, it protects the adjacent line. With adjacent line protection means to function as
A line-separated two-series transmission line protection relay characterized by the above. The adjacent line protection means includes a switching circuit (20) for switching the B-system transmission line protection relay to fail-safe of the A-system transmission line protection relay or to protect the adjacent line,
The switching circuit is
During normal times, the B system power line protection relay is switched to operate as a fail safe for the A system power line protection relay,
When the other line-separated two-series transmission line protection relay cannot be used, the B-system power transmission line protection relay is operated to protect the adjacent line instead of the other line-separated two-series transmission line protection relay. Switch to
The line-separated two-series power transmission line protection relay according to claim 1, wherein: The adjacent line protection means includes a self-line display contact (31a, 31b, 31c, 31d, 31e) which is a contact for displaying the self-line where the line-separated two-series power transmission line protection relay is installed, and the other line. A display circuit (30) having adjacent line display contacts (32a, 32b, 32c, 32d, 32e), which are display contacts of the adjacent line, on which a separate two-series transmission line protection relay is installed;
The display circuit is
The normal line display contact is operated in a normal state, while the adjacent line display contact is operated by the switching circuit when the other line separation type two-series transmission line protection relay cannot be used.
The line-separated two-series power transmission line protection relay according to claim 2, wherein: The adjacent line protection means includes a trip circuit (40) having a trip circuit section and a seal-in circuit section,
In response to an operation command from the central processing unit of the line separation type two-line transmission line protection relay, the trip circuit unit,
During normal operation, the circuit breaker (4 ₁ ) installed on the own line is cut off. On the other hand, when the other line separation type two-series transmission line protection relay is not available, the other circuit breaker (4 ₁ ) installed on the adjacent line is used. ₂ ) is switched by the switching circuit so as to shut off,
In response to an operation command from the central processing unit of the line-separated two-series power transmission line protection relay, the seal-in circuit unit,
During normal operation, it operates to close the pallet switch of the circuit breaker. On the other hand, when the other line separation type two-series transmission line protection relay is not usable, the other pallet switch of the other circuit breaker is closed. Switched by a switching circuit,
The line-separated two-series power transmission line protection relay according to claim 3, wherein: The adjacent line protection means includes a voltage circuit (50) and a current circuit (70),
The voltage circuit is
In normal times, the bus voltage (V _1L ) of the bus (1, 2) to which the own line is connected is input to the voltage input converter (52) of the B-system transmission line protection relay, while the other line separation type The switching is performed so that the bus voltage (V _2L ) of the other bus to which the adjacent line is connected is input to the voltage input converter of the B-system power line protection relay when the two-line power line protection relay is not usable. Switched by circuit,
The current circuit is
In normal times, the current (I _1L ) flowing through the own line is input to the current input converter (72) of the B-system transmission line protection relay, while the other line-separated two-series transmission line protection relay is not available. A plug (90) is inserted into the current switching terminals (73, 83) so that another current (I _2L ) flowing through the adjacent line is input to the current input converter of the B-system transmission line protection relay. Can be switched depending on whether or not
The line-separated two-series power transmission line protection relay according to claim 4, wherein:

Images