JPH0515020A - Gas insulating switch - Google Patents

Abstract

PURPOSE:To get a phase isolating gas insulating switch which can sharply make the installation area small and cut down the cost and improve reliability. CONSTITUTION:A and B main buses are arranged vertically so that the main buses of the same phase, for example, the phase A 1A of the main bus A and the phase A of the main bus B may be adjacent to each other. Transformers units T1-T3, branch nuts consisting of transmission line units L1 and L2, and a bus communication unit BT are lead out horizontally from the main bus, and are arranged in three-stage arrangement structure on the frame 34.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the equipment layout of a phase-separated gas-insulated switchgear used in, for example, substation equipment.

[0002]

2. Description of the Related Art FIG. 5 shows, for example, Mitsubishi Electric Technical Report (P.378, Vol.
51, No. 6, 1977), which is a plan view showing a conventional gas insulated switchgear, in which 1 _A , 1 _B and 1 _C are A, B and C phase main busbars, 2 _{A, respectively.} 2 _B and 2 _C
Are A-, B- and C-phase B-buses, respectively, and these A- and B-buses 1 _A to 1 _C , 2 _A to 2 _C (subscripts A, B and C are A, B and C, respectively). C phase) is arranged horizontally. 3 _A , 3 _B and 3
_C is branch busbars 4 _A , 4 _B and 4 _C connected to instep busbars 1 _A , 1 _B and 1 _C by vertical branch busbars m, and _B is main busbars 2 _A , 2 _B and 2 _C , respectively. These are branch busbars connected by vertical branch busbars n, and these branch busbars 3 _A to
3 _C , 4 _A to 4 _C are instep A and the main bus 1 _A to 1 _C , 2 _A to 2 _C
It is located on a higher plane.

T ₁ , T ₂ and T ₃ are branch busbars 3 _A, respectively.
˜3 _C , 4 _A ˜4 _C , transformer units installed side by side, L ₁ and L ₂ are branch bus lines 3 _A ˜3 _C , 4 _A ˜, respectively.
It is a power transmission line unit attached to the other end of 4 _C , and the transformer units T ₁ , T ₂ , T ₃ and the power transmission line unit L ₁ L ₂ form a branch unit. BT is a branch bus 3 _A ~
It is a bus bar communication unit arranged on the other end side of 3 _C , 4 _A to 4 _C.

5 _A and 6 _A are branch buses 3 _A and 4 _A , respectively
_A disconnector connected to one end of the, 7 _A is a connecting portion connecting the disconnectors 5 _A , 6 _A and the current transformer 8 _A , 9 _A is between the current transformer 8 _A and the current transformer 10 _A Arranged circuit breaker, 11 _A is current transformer 10 _A
Is a connection tank that connects the cable head tank 12 _A and the disconnector 13 _A , 14 _A is a lightning arrester connected to the disconnector 13 _A , and 15 _A is a cable head provided in the cable head tank 12 _{A. A} cable 16 _A is connected to the head 15 _A , an insulated copper wire or a gas insulated transmission line is used for the cable 16 _A , and a transformer (not shown) is connected to the tip of the cable. Here, the B and C phases are configured similarly to the above A phase, and the disconnector 5
_The transformer unit T ₁ is composed of the devices from _A , 5 _B , 5 _C to cables 16 _A , 16 _B , 16 _C. Also,
This transformer unit T ₁ and the transformer units T ₂ and T ₃ that are installed together have the same configuration.

Reference numerals 17 _A and 18 _A denote disconnectors connected to the other ends of the branch buses 3 _A and 4 _A , respectively, and 19 _A denotes a disconnector 1.
7 _A , 18 _A and a connecting portion connecting the current transformer 20 _A , 21 _A is a circuit breaker arranged between the current transformer 20 _A and the current transformer 22 _A ,
23 _A is a disconnector connected to the current transformer 22 _A , 24 _A is a bushing tank disposed between the disconnector 23 _A and the disconnector 25 _A, and 26 _A is a lightning arrester connected to the disconnector 25 _A And
_A bushing 27 _A is erected on the bushing tank 24 _A and is connected to the power transmission line 28 _A. Here, the B and C phases are configured similarly to the above A phase, and the disconnector 17
_The transmission line unit L ₁ is composed of the devices from _A , 17 _B , 17 _C to bushing 27 _A , 27 _B , 27 _C.
In addition, the power transmission line unit L ₁ and the power transmission line unit L ₂ that are installed side by side have the same configuration.

Reference numeral 29 _A is a disconnector provided between the branch bus 3 _A and current transformer 30 _A, and 31 _A is current transformer 30 _A and current transformer 32.
Breaker disposed between the _A, 33 _A is a breaker disposed between the current transformer 32 _A and the branch bus 4 _A. here,
The B and C phases are configured in the same manner as the above A phase, and include the disconnectors 29 _A , 29 _B , 29 _C to the disconnectors 33 _A , 33 _B , 3
Constitute a busbar unit by each device up to 3 _C.

Next, the operation of the above conventional gas insulated switchgear will be described. For example, electric power is sent from a generator (not shown) to the transformer units T ₁ and T ₂ via a transformer, branch busbars 3 _{A to} 3 _C , 4 _A to 4 _C , a vertical branch busbar m,
n, it is sent to other units via the instep and Otsunushi bus _{1 A ~1 C, 2 A ~2} C. Here, the transformer disconnector 5 _A to 5 constituting the unit T _{3 C,} open the 6 _A to 6 _C and breaker 9 _A to 9 _C, closing the disconnector or circuit breaker other units, the transformer The electric power sent to the units T ₁ and T ₂ is sent to the power transmission lines 28 _{A to} 28 _C from the power transmission line units L ₁ and L ₂ .

Further, the disconnectors 17 _{A to} 17 _C and 18 _A to 1 constituting the transmission line units L ₁ and L ₂ and the transformer unit T ₃ are formed.
8 _C , 5 _{A to} 5 _C , 6 _{A to} 6 _C and circuit breakers 21 _{A to} 21 _C , 9 _A to
When 9 _C is closed and the disconnectors and circuit breakers of other units are opened, the electric power sent from the power transmission lines 28 _{A to} 28 _C to the power transmission line units L ₁ and L ₂ is divided into branch bus lines 3 _{A to} 3 _C and 4 _{B. A} to 4 _C , vertical branch buses m and n, instep A and _{B main} bus 1 _A to 1 _C , 2 _A
It may be sent to the transformer unit T ₃ via 2 _C and used as a power receiving facility.

The busbar connecting unit BT is operated or disconnected by connecting and disconnecting the main bus and the second main bus by opening and closing the disconnectors 29 _{A to} 29 _C and the circuit breakers 31 _{A to} 31 _C. It is used for driving. Furthermore, in the case of accidents, the breaker 9 _A ~9C, 20 _A ~
20 _C opens to isolate the accident point, protect transmission lines and equipment, and continue to operate healthy parts.
The conventional gas-insulated switchgear described above is a SF with excellent insulation characteristics.
Since it uses ₆ gases, it is much smaller than an air-insulated switchgear.

[0010]

[Problems that the Invention is to Solve], as described above conventional gas insulated switchgear, instep and Otsunushi bus 1 _A ~1 _C, 2 _A ~
Since 2 _C and branch buses 3 _{A to} 3 _C and 4 _A to 4 _C are arranged horizontally, not only a relatively large installation area is required, but also the instep and the main busbars 1 _A to 1 _C , 2 There is a problem in that the _{A to} 2 _C and the branch buses 3 _{A to} 3 _C and 4 _A to 4 _C become long and the cost increases, and the electrical insulating portion becomes long and the failure rate increases. In addition, there is a problem that the horizontally arranged busbar portion is easily affected by the minute metal pieces mixed in the insulating gas, and the dielectric strength is lowered.

The present invention has been made to solve the above problems, and an object thereof is to obtain a gas-insulated switchgear capable of greatly reducing the installation area, reducing the cost, and improving the reliability. To do.

[0012]

In a gas-insulated switchgear according to the present invention, a plurality of sets of main busbars are vertically arranged so that main busbars of the same phase are adjacent to each other, and are connected to each of the main busbars of the same phase. A disconnecting switch, a branching unit including a current transformer that collectively connects the disconnecting switches connected to each of the in-phase main busbars, a main device having a circuit breaker, and a disconnecting switch, and different sets of in-phase A busbar connecting unit including a disconnector, a circuit breaker, and a current transformer connected between main busbars is drawn out from the main busbar in multiple stages in the horizontal direction.

[0013]

In the present invention, since the main busbars are arranged vertically, the fine metal pieces mixed in the insulating gas fall between the main busbars, and the deterioration of the dielectric strength due to the fine metal pieces is suppressed. Further, since the main busbars of the same phase are arranged vertically adjacent to each other and the branching unit and the busbar connecting unit are drawn out in multiple stages in the horizontal direction from the main busbar, the length of the main busbar is significantly shortened and the cost can be reduced. At the same time, the failure rate can be reduced, and the installation area can be significantly reduced.

[0014]

Embodiments of the present invention will be described below with reference to the drawings. Example 1. 1 is a side view of a gas-insulated switchgear showing Embodiment 1 of the present invention, FIG. 2 is a plan view of a second floor portion of FIG. 1, and FIG.
Is a partial plan view of the third floor portion of FIG. 1, and in FIG.
The same or corresponding parts as those of the conventional gas-insulated switchgear shown in FIG. In the figure, 34 is a three-stage structure mount for arranging the units, and 35
_{A to} 35 _C are branch buses.

Here, the structure of the gas-insulated switchgear according to the first embodiment will be described. Instep A and the main bus 1 _A to 1 _C ,
2 _{A to} 2 _C are adjacent to each other in phase, are arranged in parallel with each other, penetrate through the gantry 34, and are vertically arranged. First, in the second stage portion of the gantry 34, branch busbars horizontally drawn out from the instep and the second main busbars 1 _A , 2 _A to one side are connected to the disconnectors 5 _A , 6 _A , respectively, and further the connecting portions. 7 _A , current transformer 8 _A , circuit breaker 9 _A , current transformer 10 _A , connection tank 11 _A , cable head tank 12 _A , disconnector 13 _A , and lightning arrester 14 _A are connected. Further, the B and C phases are similarly configured,
The transformer unit T ₁ is arranged on _one side of the instep and the main bus 1 _A to 1 _C , 2 _A to 2 _C.

Further, a branch bus which is horizontally drawn from the second main bus 1 _A to the other side is connected to the disconnector 29 _A ,
Are further connected current transformer 30 _A, breaker 31 _A, a current transformer 32 _A, disconnector 33 _A, the instep main bus 2 _A through the branch bus 4 _A. B, is similarly constructed for the C-phase, upper and Otsunushi bus _{1 A ~1 C, 2 A ~2} C busbar unit BT to the side the other of is disposed.

Then, also in the first stage portion of the gantry 34, the transformer units T ₁ and T ₂ are similarly arranged so as to face each other via the instep and the second main bus 1 _A to 1 _C and 2 _A to 2 _C. Has been done.

At the third stage of the pedestal 34, branch busbars horizontally drawn out from the instep and the main busbars 1 _A and 2 _A to one side are connected to disconnectors 17 _A and 18 _A , respectively. Part 19 _A , current transformer 20 _A , circuit breaker 21 _A , current transformer 2
2 _A , disconnector 23 _A , branch bus 35 _A , disconnector 25 _A , lightning arrester 26 _A , bushing tank 24 _A , bushing 27 _A ,
The transmission line 28 _A is connected. Where bushing 2
Since the tip of 7 _A is an air insulation part, branch bus bar 35 _A
Although a predetermined insulation distance is secured by using, the branch busbar 35 _A may be omitted by inclining the bushing tank 24 _A and the bushing 27 _A to secure the distance at the tip of the bushing 27 _A. it can. The same applies to the B and C phases, and the upper and second main buses 1 _A to 1 _C , 2
_The transmission line unit L ₁ is arranged on _one side of _{A to} 2 _C. Also, in the same manner, the former and second main buses 1 _A to 1 _C , 2 _A
The power transmission line unit L ₂ is disposed on the other side of 2 _C.

As described above, in the gas insulated switchgear according to the first embodiment, the transformer units T ₂ , T ₃ and 2 are provided in the first stage portion.
Transformer unit T ₁ and busbar connecting unit B at the stage
The transmission line units L ₁ and L ₂ are connected to
And the main bus 1 _A to 1 _C , 2 _A to 2 _C are arranged in a horizontal multi-stage configuration, and the operation is similar to that of the conventional gas-insulated switchgear shown in FIG. To do.

According to the first embodiment, upper and Otsunushi bus 1 _A to 1 _C, the length of 2 _A to 2 _C can be much shorter, branch busbars _{3 A ~3 C, 4 A ~4} C is , The transmission line units L ₁ and L ₂ and the transformer units T ₁ , T ₂ and T ₃ can be omitted, the busbar connecting unit BT can be shortened, and even if the cost of the pedestal 34 is added, a significant cost reduction can be achieved. Further, since the portion to which a voltage is applied (electrical insulating portion) is further shortened, the probability of occurrence of failure is reduced and reliability is improved.

Further, according to the first embodiment, the metal fine pieces mixed in the insulating gas, which causes the deterioration of the dielectric strength, are
Disposed vertically upper and Otsunushi bus _{1 A ~1 C, 2 A ~2} C
It falls in the space and is captured by the low electric field portion formed under the instep and the main bus 1 _A to 1 _C , 2 _A to 2 _C and does not levitate again due to the electrostatic force, and high insulation performance is obtained. Be done. Here, the low electric field portion is formed by slightly lengthening the lower part of the main busbar, and a wire mesh-like shield is provided at the lower part of the main busbar, and metal fine pieces are dropped from the mesh of the shield and captured at the lower part of the main busbar. You may do it.

Furthermore, according to the first embodiment, branch units (transformer units T _{1 to} T ₃ , transmission line unit L ₁ ,
L ₂ ) and the busbar connecting unit BT have a three-stage arrangement structure, so that the branch unit and the busbar connecting unit BT have a planar arrangement structure, compared to the conventional gas-insulated switchgear shown in FIG. Insulation switchgear installation area is 1 /
It can be 3 or less.

Further, according to the first embodiment, since the main busbars are arranged vertically and the total length of the main busbars is shortened, there is no significant increase in cost, and the entire apparatus is protected in the event of an accident. For example, the main busbar that has the greatest influence on the diameter can be made thicker to have a higher insulation performance, and a highly reliable gas-insulated switchgear can be obtained.

Example 2. In Embodiment 1, although it is assumed that arranging the units on either side of the instep and Otsunushi bus _{1 A ~1 C, 2 A ~2} C, in the second embodiment, the frame 34 and multiple stages, each unit _A and B main bus 1 _A to 1 _C , 2 _A
Since it is arranged on one side of ~ 2 _C , the installation area can be further reduced.

Example 3. In the third embodiment, the transformer units T ₁ , T ₂ , T ₃ and the transmission line units L ₁ , L are arranged on both sides of the instep and the second main bus 1 _A to 1 _C , 2 _A to 2 _C which are vertically arranged. ₂ and the busbar connecting unit BT are arranged in a three-stage structure, and the gas-insulated switchgear shown in the first embodiment is used as one block.
Two blocks P and Q are installed next to each other side by side, and a pedestal 3 with a four-stage structure
4, the in-phase main buses forming the blocks P and Q are connected to each other by the bus bar segmenting units BS ₁ and BS ₂ at the fourth stage as shown in FIG.

In the third embodiment, as shown in FIG. 4, the branch bus bar 3 _A drawn horizontally from the main bus bar 1 _A of the block P has a disconnector 36 _A , a current transformer 37 _A , and a circuit breaker 38. _A ,
Current transformer 39 _A, the disconnector 40 _A, and is connected to the upper main bus 101 _A of block Q via a branch bus 4 _A. The same applies to the B and C phases, and by the busbar segmenting unit BS ₁ composed of the branch busbars 3 _{A to} 3 _C to the branch busbars 4 _A to 4 _C , the main busbars 1 _A to 1 _C of the block P and the blocks. The main bus of Q, 101 _{A to} 101 _C , is connected in the same phase. Further, the same configuration busbar section unit BS _2, has a Party B main bus 102 _A to 102 _C for Party B main bus 2 _A to 2 _C and the block Q of the block P to be connected in phase. Here, when the insulation distance from the bushings 27 _{A to} 27 _C is not sufficient, it is preferable to provide the bus bar segmenting units BS ₁ and BS ₂ in the lower stage. Further, the disconnectors 36 _A , 40 _A, etc. may be installed in the vertical direction so that the branch bus bar 4 _A does not collide with the circuit breaker 38 _B and the current transformer 37 _C.

As described above, according to the third embodiment, it is possible to obtain a large-scale gas-insulated switchgear which is inexpensive, has high reliability in insulation, and has a small installation area.

Example 4. In the third embodiment, the main busbars of the blocks P and Q are connected by the busbar segmenting units BS ₁ and BS ₂ , but in the fourth embodiment, the main busbars of the blocks P and Q are gas-insulated busbars. It is supposed to connect. According to the fourth embodiment, since there is no division between the main busbars of the blocks P and Q and one busbar connecting unit BT can be removed, the structure is simplified.

In each of the above embodiments, a unit (bushing tank 24, bushing 27) connected to the power transmission line 28 is provided in each of the power transmission line units L ₁ and L ₂ , and power is supplied and discharged via the overhead power transmission line. Although it is described as doing
The present invention is not limited to this, and if the power lead-in portion of the power transmission line unit L has the same structure as the cable lead-in portion (the cable head tank 12, the cable head 15, and the cable 16) in the transformer unit T. ,
It can be applied when a substation is installed in the basement of the building and electric power is drawn through the underground cable. In this case, it is not necessary to secure the air insulation distance of the bushing 27, the branch bus bar 35 is omitted, and the devices of each phase can be arranged close to each other, so that the installation area can be further reduced.

In the third embodiment, the large-scale gas-insulated switchgear in which two blocks are arranged side by side has been described. However, the present invention is directed to the number of blocks arranged in parallel by adding the bus bar sorting unit BS. It is also applicable to large-scale gas-insulated switchgear.

Further, in each of the above-mentioned embodiments, the double busbar arrangement consisting of A and B main buses 1 and 2 has been described, but the present invention is also applied to the triple busbar arrangement consisting of A, B and A main bus. In this case, the A, B and C phases of A, B and C main buses are arranged so that the in-phase components are close to each other, and three disconnecting switches are connected to each of the phase components,
It is sufficient to combine them for each phase and connect them to a current transformer, circuit breaker, etc. to form a branch unit.The busbar connecting unit and busbar segmenting unit are placed between different main busbars in the same way as the double busbar arrangement. Get burned.

[0032]

As described above, according to the present invention, the same phase of the main busbars are vertically arranged adjacent to each other, and the branching units and the busbar connecting units are drawn out from the main busbars in multiple stages in the horizontal direction. There is an effect that a gas-insulated switchgear can be obtained in which the installation area can be significantly reduced, cost can be reduced, and reliability can be improved.

[Brief description of drawings]

FIG. 1 is a side view of a gas insulated switchgear showing a first embodiment of the present invention.

FIG. 2 is a plan view of a second stage portion of the gas insulated switchgear of FIG.

FIG. 3 is a partial plan view of a third stage portion of the gas insulated switchgear of FIG.

FIG. 4 is a plan view of a bus bar section unit portion of a gas insulated switchgear according to a third embodiment of the present invention.

FIG. 5 is a plan view showing an example of a conventional gas insulated switchgear.

[Explanation of symbols]

1 _A , 1 _B , 1 _C Main bus 2 _A , 2 _B , 2 _C B main bus L ₁ , L ₂ Transmission line unit (branch unit) T ₁ , T ₂ , T ₃ Transformer unit (branch unit) BT Busbar contact unit

Claims (1)

Claim: What is claimed is: 1. A plurality of sets of main buses that are phase-separated and are vertically adjacent to each other in the same phase, a disconnector connected to each of the main buses of the same phase, and a current transformer. Between the main busbars of different phases, and a branching unit that includes a main device that has a circuit breaker, a circuit breaker, and a disconnector, and that connects the disconnector switches that are connected to each of the main busbars of the same phase. A busbar connecting unit including a main device having a disconnecting switch, a circuit breaker, and a current transformer, and the branching unit and the busbar connecting unit being pulled out from the main busbar in multiple stages in a horizontal direction. Characteristic gas-insulated switchgear.