JP4377320B2 - Vacuum switchgear system - Google Patents

Description

  The present invention relates to a vacuum switchgear system and an assembly of component devices constituting the vacuum switchgear, and in particular, a plurality of switches of a predetermined type housed in a vacuum vessel, and for operating each switch The present invention relates to a vacuum switchgear system that includes a plurality of vacuum switchgears having operating devices and that is suitable for use as power distribution equipment for a power system.

Among the power systems, the distribution system is provided with a switch gear as an element of the power receiving and distribution equipment. Conventionally, as this type of switchgear, there are many air-insulation type devices that connect conductors and busbars that connect devices such as circuit breakers and disconnectors in the air and insulate them in the air. . In this case, in order to reduce the size, a gas insulation type using SF ₆ gas is often employed as an insulating medium. However, if SF ₆ gas is used as an insulating medium, there is a risk of adverse effects on the environment. In recent years, a vacuum insulating type using vacuum insulation has been proposed as an insulating medium.

  As a vacuum insulation type switchgear, for example, a plurality of main circuit open / close sections in which a fixed electrode and a movable electrode are arranged to face each other are housed in a vacuum vessel, and the movable electrode is connected to a bus-side conductor and fixed. There is an electrode that is connected to a load-side conductor, each main circuit switching part is covered with an arc shield, and each bus-side conductor is connected via a flexible conductor (flexible conductor) (Patent) Reference 1, page 3-6, see FIGS. 1-3). According to this vacuum switch gear, since the vacuum insulation system is adopted, the insulation distance can be made shorter than that of the gas insulation system, and the vacuum switch gear can be made compact.

JP 2000-268685 A

  In the above prior art, since each main circuit opening / closing part is covered with an arc shield, when a trip operation is executed in the event of a short circuit accident or the like, and the movable electrode and the fixed electrode are separated from each other, the metal is removed from each electrode. Even when steam is generated, the metal steam can be shielded by the arc shield. However, when constructing a power receiving side distribution board or a power transmission side distribution board using a vacuum switch gear, it is not sufficiently considered to combine a vacuum vessel containing various switches according to various circuit specifications.

  In the conventional vacuum switchgear system, necessary switches are accommodated in one vacuum vessel, and each switchgear is configured to achieve all necessary functions. However, for example, in a power transmission / distribution system, needs are often different depending on users and conditions. If all the vacuum switchgears have all the necessary elements for the circuit, they will have more elements than necessary. Furthermore, if all the switch gears are provided with many elements, the volume of the switch gears becomes large and expensive.

  An object of the present invention is to provide a vacuum switchgear system and an assembly of main components for constituting the system, and an object thereof is to reduce the size and cost of the vacuum switchgear system.

  The present invention has a plurality of vacuum switch gears having a vacuum container that accommodates a plurality of switches selected from a disconnect switch or load switch, a ground switch, and a vacuum circuit breaker, and the vacuum switch gear has a connection terminal. The vacuum switch gear constitutes a different type of vacuum switch gear, the vacuum switch gear is divided into a power receiving side and a power distribution side, and the vacuum switch gear is selected from the adjacent vacuum switch gear, lightning arrester and PCT. It is intended to provide a vacuum switchgear system, which is connected to each other element via an insulating connection conductor having connection terminals at both ends, which can be connected to or disconnected from the terminals of the vacuum switchgear. In the vacuum switchgear system, it is desirable that the insulator surrounding the connection conductor has a length sufficient to ensure the dielectric strength between the adjacent vacuum vessel and / or the element.

  Further, the different types of vacuum switch gears include an A type vacuum switch gear having two disconnector switches or a load switch linked to a ground switch and a vacuum circuit breaker, one ground switch and a vacuum circuit breaker, respectively. B-type vacuum switchgear having, C-type vacuum switchgear having three disconnectors or load switches each linked to a ground switch, and D-type having two disconnectors or load switches each linked to a ground switch It is desirable to provide a vacuum switchgear.

  The present invention also provides an A-type vacuum switchgear having two disconnector switches or load switches, each associated with a ground switch and a vacuum circuit breaker, and a B-type vacuum switchgear having one ground switch and a vacuum circuit breaker, A vacuum switch including a C-type vacuum switchgear having three disconnectors or load switches each linked to a ground switch, and a D-type vacuum switchgear having two disconnectors or load switches linked respectively to a ground switch An assembly for assembling a gear system is provided.

  Further, the present invention provides an A type vacuum switchgear having two disconnect switch or load switch respectively linked to a ground switch and a vacuum circuit breaker, and a B type vacuum switch gear having a ground switch and a vacuum circuit breaker. And an assembly for assembling a vacuum switchgear system including a D-type vacuum switchgear having two disconnectors or load switches each associated with a ground switch.

  According to the present invention, a vacuum switchgear A type having a plurality of vacuum switchgears having two disconnector switches or load switches each linked to a ground switch and a vacuum circuit breaker housed in a vacuum vessel. Vacuum switchgear, B type vacuum switchgear for vacuum switchgear having a plurality of vacuum switchgears, each having a single earthing switch and vacuum circuit breaker housed in the vacuum container, and grounding housed in each vacuum container C type vacuum switch gear for vacuum switchgear having a plurality of vacuum switchgears, having three disconnectors or load switches linked to the switch, and two linked to the grounded switch accommodated in each vacuum vessel A vacuum switchgear D-type vacuum switchgear having a plurality of vacuum switchgears having a disconnector or a load switch is provided.

  The present invention further includes different types of vacuum switch gears, each vacuum switch gear being housed in one vacuum vessel, and the different types of vacuum switch gears each associated with a ground switch and a vacuum circuit breaker. A type vacuum switchgear having two disconnector switches or load switches, a type B vacuum switchgear having one ground switch and a vacuum circuit breaker, and three disconnectors or load switches each linked to a ground switch. There is provided a vacuum switchgear system which is a D-type vacuum switchgear having a C-type vacuum switchgear having two disconnectors or load switches each linked with a ground switch.

  In the vacuum switchgear system, it is desirable that elements selected from adjacent vacuum vessels and / or lightning arresters or PCTs are detachably electrically connected to an insulated connection conductor. Further, the vacuum switchgear system has a power receiving side and a power distribution side, both of which can be connected via PCT.

  In addition, the present invention provides a type A vacuum switchgear having two types of disconnect switch or load switch each having a different type of vacuum switchgear in one vacuum vessel, each linked with a ground switch and a vacuum circuit breaker. Provided is a vacuum switchgear system having a B-type vacuum switchgear having one earthing switch and a vacuum circuit breaker, and a D-type vacuum switchgear having two disconnectors or load switches each linked to the grounding switch. . In the vacuum switchgear system, elements selected from adjacent vacuum vessels and / or lightning arresters or PCTs can be detachably electrically connected to each other with insulated connection conductors. The switchgear system has a power receiving side and a power distribution side, and both may be connected via PCT.

  The present invention provides a plurality of vacuum containers for accommodating a plurality of switches and a plurality of internal conductors connecting the switches with each other according to circuit specifications, and each switch is provided with an operation device via an operation rod. A cable head is connected to a designated internal conductor and a part of the cable head is projected out of the vacuum container, and a power receiving side circuit or a power transmitting side circuit is configured according to the combination of the vacuum containers.

  According to the above-mentioned means, each vacuum vessel accommodates a plurality of switches and internal conductors connecting each switch according to the circuit specifications, and combines the vacuum vessels according to various circuit specifications (circuit configurations). Therefore, it is possible to construct a system that meets the needs.

  According to the present invention, a system that meets the needs can be constructed, and the vacuum switchgear system can be reduced in size and cost.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. One of the typical specific configurations of the vacuum switchgear of the present invention is that the vacuum switchgears 16 and 18 are alternately arranged on the power receiving side distribution board 12 with the PCT 10 in between, and the vacuum switchgear is arranged on the power transmission side distribution board 14. 22, 18, and 20, and in the vacuum containers 24, 30, 40, and 42 of the vacuum switch gears 16 to 22, a load switch 44 and a grounding switch 46 are provided as various switches according to circuit specifications. The breaker 48 is housed, the operation device 26 is connected to each switch, the lightning arrester 34 is connected to the cable head 28 protruding from the vacuum vessel 24 via the connection conductor 32, and each vacuum vessel 24, 30, 40 is connected. 42, the cables 38a to 38i are connected to the designated cable head 28, and the vacuum containers are connected to each other via the cable head 28 and the external connection conductor 36. Is shall.

  As described above, in the present invention, four or three types of vacuum switch gears are used. A desired vacuum switchgear system is constructed from the plurality of types of vacuum switchgears according to the user's needs.

  In the first type vacuum switchgear system, an A type vacuum switchgear, a B type vacuum switchgear, a C type vacuum switchgear, and a D type vacuum switchgear are used. This first type vacuum switchgear system is used for a loop power receiving line. This is mainly used in semiconductor manufacturing factories and the like. This type of power line is used in cases where power outages are not allowed.

  The second type of switch is used in a single line power receiving system and is used in a field where a power failure is allowed.

  The first type of vacuum switchgear system is composed of a combination of A, B, C and D type vacuum switchgears. The second type of vacuum switchgear system is composed of A, B and D type vacuum switchgears.

  The A type vacuum switch gear includes two disconnectors or load side circuit breakers and one vacuum circuit breaker. Each disconnector or load-side circuit breaker is connected to a ground switch. Therefore, in the A type vacuum switch gear, five switches are accommodated in one vacuum vessel.

  A type vacuum switchgear is used on the power receiving side, (i) receives power, (ii) works with a lightning arrester to protect the system from lightning strikes, and (iii) when there are two or more power receiving wires, type C It has the function of being connected to the vacuum switchgear.

  The B type vacuum switch gear has one vacuum circuit breaker associated with a ground switch, which transmits power through the vacuum circuit breaker.

  The C type vacuum switchgear has three disconnectors or vacuum circuit breakers. The C type vacuum switch gear has a function of connecting the A type vacuum switch gear, the PCT or D type vacuum switch gear, and the B type vacuum switch gear. If the line is one line, the C type vacuum switchgear is unnecessary. Each disconnector or vacuum circuit breaker is associated with a ground switch.

  The D type vacuum switchgear has two disconnectors or load-side circuit breakers, which are linked to a ground switch. The D type vacuum switchgear is used on the power distribution side. The function of the D type empty switchgear is to connect to the PCT. Unless the power line is one line, the A and C types are used on the power receiving side, and the B, C, and D types are used on the power transmitting side.

In summary, the configuration of the vacuum switchgear system of the present invention is shown as follows.
(1) One circuit is composed of an A type vacuum switch gear, a PCT / D type vacuum switch gear, and a B type vacuum switch gear (see FIG. 9).
(2) The loop receiving wire or main line includes a pair of units connected to the PCT, including an A type vacuum switch gear and a C type vacuum switch gear, and the PCT is a D type vacuum switch gear. And connected to a C-type vacuum switchgear. The C type vacuum switch gear is connected in parallel with the B type vacuum switch gear (see FIG. 10).

  In the case of (2) above, the number of C-type vacuum switch gears on the power transmission side increases according to the number of lines. Therefore, the number of units C-2 (B) increases according to the number of lines.

According to the present invention, the main advantages of the present invention are as follows.
(I) A vacuum switchgear system can be constructed to meet user needs. (Ii) Since the number of elements accommodated in one vacuum vessel is small, the volume of the vacuum vessel is reduced. Therefore, the reliability of the vacuum switch gear is higher than that of the conventional integrated vacuum switch gear. (Iii) Various vacuum switchgear systems can be constructed according to user needs.
(Iv) Since only the minimum necessary elements can be accommodated in the vacuum vessel, the vacuum switchgear system is downsized.
(V) Since the vacuum switchgear is composed of few elements, the cost can be reduced.
(Vi) Since the vacuum switch gear is small and lightweight, the system can be easily assembled as compared with the one described in Patent Document 1.
(Vii) Since the power receiving side and the power transmitting side are separated, the reliability is improved.
(Viii) Since inspection and repair can be performed easily and it is easy to replace or repair a defective vacuum switchgear, the maintenance work is simplified and the cost is reduced.

  1 is an internal configuration diagram of a power receiving / distributing facility constituting a vacuum switchgear system according to the present invention, FIG. 2 is a circuit configuration diagram of the power receiving / distributing facility shown in FIG. 1, and FIG. 3 is a power receiving / distributing facility shown in FIG. FIG.

  In FIG. 1 to FIG. 3, the power receiving / distributing facility includes a power receiving side distribution board 12 and a power transmission side distribution board 14 via a PCT 10. The power receiving side switchboard 12 has two types (A type and C type) of vacuum switch gears 16 and 18 arranged in accordance with the circuit specifications (circuit configuration), and three types (B Type, C type, and D type) vacuum switch gears 18, 20, and 22 are arranged in accordance with circuit specifications (circuit configuration).

  The A type vacuum switch gear 16 includes a power receiving side vacuum container 24, a plurality of operating devices 26, and a plurality of cable heads 28, and the C type vacuum switch gear 18 includes a power receiving side vacuum container 30 and a plurality of power receiving side vacuum containers 30. The operation unit 26 and a plurality of cable heads 28 are provided. The A type vacuum switch gear 16 and the C type vacuum switch gear 18 are alternately arranged. Among the cable heads 28 attached to the vacuum switch gears 16 and 18, a specific cable head 28 at the left end of the vacuum switch gear 16 has a lightning arrester via a lightning arrester connection conductor 32 whose periphery is protected by a solid insulator. The cable head 28 at the right end of the other cable heads 28 is connected to the (arrestor) 34 and the cable head of the vacuum switch gear 18 adjacent to each other via the external connection conductor 36 whose periphery is protected by a solid insulator. 28.

  Of the cable heads 28 of the vacuum switch gear 16, the cable head 28 disposed substantially in the middle is connected to the bus-side conductor via cables 38 a and 38 b whose periphery is protected by a flexible insulator. The cable heads 28 located in the middle of the cable heads 28 of the vacuum switch gear 18 are connected to each other via a cable 38c whose periphery is protected by a flexible insulator. The cable head 28 at the right end of one of the vacuum switch gears 18 is connected to the coil terminal of the PCT 10 via a cable 38d whose periphery is protected by a flexible insulator. The cable head 28 at the right end of the vacuum switch gear 18 adjacent to the PCT 10 is connected to the cable head 28 of the vacuum switch gear 22 via a cable 38e.

  On the other hand, the B type vacuum switch gear 20 on the power transmission side includes a power transmission side vacuum vessel 40, a plurality of operating devices 26, and a plurality of cable heads 28, and the D type vacuum switch gear 22 has a power transmission side vacuum. The container 42 includes a plurality of operating devices 26 and a plurality of cable heads 28. The C-type vacuum switch gear 18 on the power transmission side has the same configuration as the vacuum switch gear 18 on the power reception side. In this case, the vacuum container 30 is configured as a power transmission side vacuum container.

  The cable head 28 arranged at the left end of the cable heads 28 of the vacuum switch gear 18 is connected to the cable heads 28 of the adjacent vacuum switch gears 22 via the external connection conductors 36, and is located between the vacuum switch gears 18. The cable head 28 located is connected to the coil terminal of the PCT 10 via the cable 38f, and the cable head 28 arranged at the right end is connected to the cable head 28 of the adjacent vacuum switch gear 20 via the external connection conductor 36. It is connected. The cable head 28 disposed at the left end of the cable heads 28 in the D type vacuum switch gear 22 is connected to the cable 38e, and the cable head 28 located in the middle is connected to the vacuum switch gear 20 at the right end via the cable 38g. The cable head 28 is connected. The cable head 28 disposed at the right end of each vacuum switch gear 20 is connected to the load side conductor via cables 38h and 38i, respectively.

  A plurality of switches and switches are connected to the power receiving side vacuum vessels 24, 30 in each vacuum switch gear 16, 18 and the power transmission side vacuum vessels 30, 40, 42 in each vacuum switch gear 18, 20, 22 to each other. A plurality of internal conductors are accommodated in accordance with the specification of the power receiving side circuit or the power transmitting side circuit, that is, the circuit specification of any one of 2, 3, or 4 circuits.

  Specifically, as shown in FIG. 4, a load switch 44, a grounding switch 46, and a circuit breaker 48 are provided in the vacuum container 24 of the vacuum switch gear 16 as a plurality of switches. ) And internal conductors 50, 52, 54, 56, 58, 60, 62 for connecting the respective switches to each other according to the circuit specifications (circuit configuration). The load switch 44, the grounding switch 46, and the circuit breaker 48 are connected to the operating unit 26 via an operating rod 26a that is arranged to be able to reciprocate (up and down).

  The pair of load switches 44 includes a movable electrode 44a and a fixed electrode 44b. Each movable electrode 44 a is connected to the internal conductor 50 via a flexible conductor (flexible conductor) 64, one fixed electrode 44 b is connected to the internal conductor 56, and the other fixed electrode 44 b is connected to the internal conductor 60. Has been. The inner conductor 60 is supported by the lower plate member 68 via an insulating support member 66.

  The pair of grounding switches 46 includes a movable electrode 46a and a fixed electrode 46b. Each movable electrode 46a is connected to the internal conductor 52 through a flexible conductor 64, and the internal conductor 52 is connected to a ground terminal ( (Not shown). In addition, one of the fixed electrodes 46 b is connected to the internal conductor 58, and the other fixed electrode 46 b is connected to the internal conductor 60. The inner conductor 58 is supported by the lower plate 68 through the support member 66 and is connected to the conductive rod 70, and the rod 70 is connected to the inner conductor 50. The upper side of the rod 70 is connected to the upper plate member 76 through an insulating support rod 72 and a rod 74.

  The circuit breaker 48 includes a movable electrode 48a and a fixed electrode 48b. The movable electrode 48a is connected to the internal conductor 54 via a flexible conductor 64, and the internal conductor 54 is connected to the internal conductor 60 via a rod 78. It is connected. The fixed electrode 48 b is connected to the internal conductor 62.

  In addition, a cable head 28 is arranged in the vacuum container 24 corresponding to one load switch 44, rod 70, and circuit breaker 48, and each cable head 28 is connected to one of the through holes 80 of the lower plate member 68. The portion is fixed to the lower plate 68 in a state where the portion protrudes outside the vacuum vessel 24 and is insulated from the vacuum vessel 24.

  Each cable head 28 includes a conductor 82 formed in a cylindrical shape using copper, and an insulating bushing 84 made of ceramics that covers the periphery of the conductor 82. A screw portion 86 is formed. As shown in FIG. 5, the screw portions 86 of the cable heads 28 are connected to the screw portions of the connection conductor 32, the cables 38 a to 38 i, and the external connection conductor 36. That is, the connection portions of the connection conductor 32 and the cables 38a to 38i and the cable head 28 of the external connection conductor 36 are formed in the same shape, and any of the connection conductor 32, the cables 38a to 38i, and the external connection conductor 36 is arbitrary. The cable head 28 can be connected.

  The upper side of the operation rod 26 a is covered with a cylindrical bellows 88 and a disc-shaped base 90, and the bellows 88 is fixed to the inner wall surface of the upper plate member 76, and the bellows 88 is fixed to the surface of the upper plate member 76. ing.

  In the vacuum container 30 of the vacuum switch gear 18, as shown in FIG. 6, three load switches 44 and three grounding switches 46 are accommodated, and a plurality of internal conductors 58, 92, and 94 are accommodated. Has been. The movable electrodes 46 a of each grounding switch 46 are connected to each other via an internal conductor 92, and the fixed electrode 46 b is connected to the fixed electrode 44 b of the adjacent load switch 44 via an internal conductor 58. The movable electrode 44 a of each load switch 44 is connected to the internal conductor 94 via the flexible conductor 64, and the fixed electrode 44 b is connected to the conductor 82 of the cable head 28.

  As shown in FIG. 7, the vacuum switch gear 20 includes a grounding switch 46 and a circuit breaker 48, and internal conductors 56, 58, 96, and 98. Yes. The movable electrode 46 a of the grounding switch 46 is connected to a grounding terminal via a flexible conductor 64 and an internal conductor 96. The movable electrode 48 a of the circuit breaker 48 is connected to the conductor 82 of the cable head 28 via the flexible conductor 64, the inner conductor 98, and the rod 70.

  The fixed electrode 48 b is connected to the conductor 82 of the cable head 28 and is connected to the fixed electrode 46 b of the grounding switch 46 via the internal conductor 58.

  As shown in FIG. 8, the load chamber 44 and the grounding switch 46 are housed in the vacuum container 42 of the vacuum switch gear 22, and the internal conductors 56, 58, 96, and 98 are housed. ing. The movable electrode 44 a of each load switch 44 is connected to the internal conductor 98 via the flexible conductor 64, and the internal conductor 98 is connected to the conductor 82 of the cable head 28 via the rod 70. The fixed electrode 44b of each load switch 44 is connected to the fixed electrode 46b of the grounding switch 46 via the internal conductor 58 and to the conductor 82 of the cable head 28. The movable electrode 46 a of each grounding switch 46 is connected to a grounding terminal via a flexible conductor 64 and an internal conductor 96, respectively.

  According to the present embodiment, the load switch 44, the grounding switch 46, and the shut-off are provided in the vacuum containers 24, 30, 40, and 42 of the vacuum switch gears 16, 18, 20, and 22 according to the circuit specifications (circuit configuration). 48, internal conductors 50, 54, 56, 58, 60, 62, etc. are accommodated, so that each vacuum switch gear can be arbitrarily combined according to the circuit specifications (circuit configuration) to meet customer needs. be able to.

  Moreover, since various switches are accommodated in the vacuum containers 24, 30, 40, and 42, the vacuum switch gear can be reduced in size. Further, since the connection conductor 32, the cables 38a to 38i, and the external connection conductor 36 are connected to the cable head 28, the conductive exposed portion or the charge exposed portion can be eliminated, and a highly safe vacuum switch gear is provided. can do.

  Further, since the connecting portions of the connecting conductor 32 and the cables 38a to 38i and the cable head 28 of the external connecting conductor 36 have the same shape, the connecting conductor 32, the cables 38a to 38i, and the external connecting conductor 36 can be arbitrarily set according to the circuit specifications. A cable head 28 can be connected.

  Further, according to the present embodiment, since a container that can withstand high-pressure gas is not required like a gas insulation unit, the vacuum container can be reduced in size, and as a result, the vacuum switch gear can be reduced in size. It is possible to contribute to downsizing of the entire system.

It is an internal block diagram of the power distribution equipment using the vacuum switchgear system which concerns on this invention, Comprising: (a) is a front side internal block diagram, (b) is a side side internal block diagram. It is a circuit block diagram of the power distribution equipment shown in FIG. It is a front view of the power distribution equipment shown in FIG. (A) Front sectional drawing of A type vacuum switchgear, (b) is side sectional drawing. It is a figure for demonstrating the relationship between a cable head, a connection conductor, and a cable. (A) Front sectional drawing of C type vacuum switch gear, (b) It is side sectional drawing similarly. (A) Front sectional drawing of B type vacuum switch gear, (b) is side sectional drawing. (A) Front sectional drawing of D type vacuum switch gear, (b) It is side sectional drawing similarly. 1 is a connection skeleton of a one-line switchgear system according to the present invention; 1 is a skeleton of a main circuit-auxiliary line of a vacuum switchgear system for loop power reception according to the present invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Transformer, 12 ... Power receiving side switchboard, 14 ... Power transmission side switchboard, 16, 18, 20, 22 ... Vacuum switchgear, 24, 30, 40, 42 ... Vacuum container, 26 ... Controller, 26a ... Control rod, 28 DESCRIPTION OF SYMBOLS ... Cable head, 32 ... Connection conductor, 36 ... External connection conductor, 38a-38i ... Cable, 44 ... Load switch, 46 ... Grounding switch, 48 ... Circuit breaker, 50, 52, 54, 56, 58, 60 62 ... Internal conductor, 64 ... Flexible conductor.

Claims (2)

Having a plurality of vacuum switch gears having a vacuum container that houses a plurality of switches consisting of a disconnector or load switch, a ground switch, and a vacuum circuit breaker;
The vacuum switch gear has a connection terminal,
The vacuum switchgear constitutes different types of vacuum switchgear,
The vacuum switch gear is divided into a power receiving side and a power distribution side,
The vacuum switch gear is connected to an element selected from the adjacent vacuum switch gear, lightning arrester and PCT via an insulating connection conductor having connection terminals at both ends,
The terminal is a vacuum switchgear system that can be connected to or disconnected from the terminal of the vacuum switchgear,
The different types of vacuum switchgear are:
A type vacuum switchgear with two disconnectors or load switches each linked with two earthing switches and one vacuum circuit breaker;
B-type vacuum switchgear with one ground switch and one vacuum circuit breaker,
A C-type vacuum switchgear with three disconnectors or load switches each linked to a ground switch;
D-type vacuum switchgear with two disconnectors or load switches each linked with two earthing switches,
The A-type vacuum switchgear has one end of the first circuit breaker or load switch connected to the power receiving cable, the other end connected to the vacuum circuit breaker, and one end of the second disconnector or load switch The other end is connected to the bus bar,
In addition, the first grounding switch is installed between the first disconnector or load switch and the vacuum circuit breaker, and the second grounding switch is installed between the receiving cable and the bus.
In the B-type vacuum switchgear, the ground switch is installed between the vacuum circuit breaker and the power transmission side cable,
On the power receiving side, the C-type switchgear has a first disconnector or load switch via a connection cable, a first disconnector or load switch, or a PCT panel or connection via a connection cable. Connected to the D-type vacuum switch ear installed on the power transmission side via a PCT panel or connection cable via a cable, and the second disconnector or load switch is connected to another power-receiving side C-type via a connection cable Connected to the vacuum switchgear, the third disconnector or load switch is connected to the A-type vacuum switchgear through the external connection conductor,
On the power transmission side of the C-type vacuum switch gear, the first disconnector or load switch is connected to the B-type vacuum switchgear via an external connection conductor, and the second disconnector or load switch is Connected to the PCT board via a connection cable, the third disconnector or load switch is connected to the D-type vacuum switchgear installed on the power transmission side via an external connection conductor,
Further, the D-type vacuum switch gear has a first disconnector or load switch connected to the B-type vacuum switch gear via a connection cable, and a second disconnector or load switch via a connection cable. Connected to the C-type vacuum switchgear provided on the power transmission side,
A vacuum switchgear system characterized by that.   Having a plurality of vacuum switch gears having a vacuum container that houses a plurality of switches consisting of a disconnector or load switch, a ground switch, and a vacuum circuit breaker;
The vacuum switch gear has a connection terminal,
The vacuum switchgear constitutes different types of vacuum switchgear,
The vacuum switch gear is divided into a power receiving side and a power distribution side,
The vacuum switch gear is connected to an element selected from the adjacent vacuum switch gear, lightning arrester and PCT via an insulating connection conductor having connection terminals at both ends,
The terminal is a vacuum switchgear system that can be connected to or disconnected from the terminal of the vacuum switchgear,
The different types of vacuum switchgear are:
A type vacuum switchgear with two disconnectors or load switches each linked with two earthing switches and one vacuum circuit breaker;
B-type vacuum switchgear with one ground switch and one vacuum circuit breaker,
D-type vacuum switchgear with two disconnectors or load switches each linked with two earthing switches,
The A-type vacuum switch gear is provided on the power receiving side, one end of the first circuit breaker or load switch is connected to the power receiving cable, the other end is connected to the vacuum circuit breaker, and the vacuum circuit breaker is connected It is connected to the PCT panel via a cable, one end of the second disconnector or load switch is connected to the bus, the other end is connected to the lightning arrester,
In addition, the first earthing switch is installed between the first disconnector or load switch and the vacuum circuit breaker, the second disconnector or load switch is installed between the power receiving cable and the bus,
The B-type vacuum switch gear is provided on the power transmission side, the grounding switch is installed between the vacuum circuit breaker and the power transmission side cable, the vacuum circuit breaker has one end connected to the power transmission side cable and the other end connected externally Connected to the D-type vacuum switchgear through a conductor,
Further, the D-type vacuum switch gear is provided on the power transmission side, one end of the first disconnector or load switch is connected to the bus, and the other end is connected to the B-type vacuum switch gear via an external connection conductor And one end of the second disconnector or load switch is connected to the power transmission side cable, and the other end is connected to the PCT panel via the connection cable.
A vacuum switchgear system characterized by that.

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