CN210490250U - High-voltage switch cabinet structure - Google Patents

Abstract

The utility model provides a high tension switchgear structure, is connected with the cabinet bottom plate bottom the cubical switchboard body, is provided with first pressure release passageway and second pressure release passageway on the intermediate position of cubical switchboard body, and first pressure release passageway and second pressure release passageway upper end all are connected with the pressure release top cap, from the top down has set gradually reserve bus-bar room, isolation chamber and the room of being qualified for the next round of competitions on the cubical switchboard body of first pressure release passageway one side. The utility model discloses be provided with main bus-bar room, reserve bus-bar room and two pressure release passageways on cubical switchboard body upper portion, cubical switchboard body middle part is provided with circuit breaker room and isolation room, cubical switchboard body lower part is provided with the control room and is qualified for the next round of competitions the room, good fault isolation performance has, circuit breaker room and isolation room can be respectively through first pressure release passageway and second pressure release passageway pressure release, the cubical switchboard can effectively release the high-pressure gas that the internal combustion arc trouble of cabinet produced, protection cabinet body component avoids the accident to enlarge.

Description

High-voltage switch cabinet structure

Technical Field

The utility model relates to a cubical switchboard for high-voltage distribution specifically is a high tension switchgear structure.

Background

At present, a plurality of problems are exposed in the actual operation of the high-voltage switch cabinet, and the improvement of the power supply reliability is restricted: firstly, the cabinet body space ventilation radiating effect is general, and when the operation reached more than 80% rated current, the temperature rise generally exceeded 70K's national standard requirement. Secondly, the switch cabinet needs to be maintained and overhauled when power is cut off; when components in the current transformer and the like are replaced, power failure is required. Thirdly, the load cannot be flexibly adjusted among all sections of buses. Fourthly, the switch cabinet fails to be isolated and restored quickly, and even the whole bus is powered off.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high tension switchgear structure has good fault isolation performance, can pass through the pressure release passageway pressure release, overhauls the advantage that does not influence the power supply, has solved the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a high tension switchgear structure, includes the cubical switchboard body, cubical switchboard body bottom is connected with the cabinet bottom plate, is provided with first pressure release passageway and second pressure release passageway on the intermediate position of cubical switchboard body, and first pressure release passageway and second pressure release passageway upper end all are connected with the pressure release top cap, and reserve bus-bar room, isolation chamber and the room of being qualified for the next round of competitions have set gradually under from the top on the cubical switchboard body of first pressure release passageway one side, are provided with main bus-bar room, circuit breaker room and control room on the cubical switchboard body of one side of second pressure release passageway, the lower extreme of the room of being qualified for the next round of competitions and control room links to each other with the upper.

Preferably, the spare bus chamber and the main bus chamber are respectively provided with a spare bus and a main bus.

Preferably, an isolating switch is installed in the isolating chamber, and the isolating switch is electrically connected with the standby bus.

Preferably, the breaker chamber is internally provided with a breaker, and the breaker is connected with a main bus wire.

Preferably, a mutual inductor is installed on one side of the control room, and the mutual inductor is electrically connected with the isolating switch and the circuit breaker.

Preferably, the isolating switch and the circuit breaker both adopt development type contacts.

Compared with the prior art, the utility model discloses be provided with main bus-bar room in cubical switchboard body upper portion, reserve bus-bar room and two pressure release passageways, cubical switchboard body middle part is provided with circuit breaker room and isolation room, cubical switchboard body lower part is provided with the control room and is qualified for the next round of competitions the room, each function room is separated, good fault isolation performance has, reserve bus-bar room and main bus-bar room can be through the cabinet top pressure release, the cabinet bottom plate is used for being qualified for the next round of competitions the room pressure release, circuit breaker room and isolation room can be respectively through first pressure release passageway and second pressure release passageway pressure release, the cubical switchboard can effectively release the high-pressure gas that the internal combustion arc trouble of cabinet produced, protection cabinet body component, avoid the accident to enlarge, when overhauing, the switching use of equipotential between main bus-.

Drawings

Fig. 1 is an overall structure diagram of the present invention.

In the figure: 1. a switch cabinet body; 11. a first pressure relief passage; 12. a second pressure relief passage; 13. a cabinet base plate; 14. a pressure relief cap; 2. a spare bus chamber; 21. a spare bus; 3. an isolation chamber; 31. an isolating switch; 4. a wire outlet chamber; 5. a main bus bar chamber; 51. a main bus; 6. a circuit breaker chamber; 61. a circuit breaker; 7. a control room; 71. a transformer.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, a high voltage switch cabinet structure comprises a switch cabinet body 1, a cabinet bottom plate 13 is connected to the bottom of the switch cabinet body 1, the cabinet bottom plate 13 is used for bottom pressure relief, a first pressure relief channel 11 and a second pressure relief channel 12 are arranged in the middle of the switch cabinet body 1, the upper ends of the first pressure relief channel 11 and the second pressure relief channel 12 are both connected with a pressure relief top cover 14, a top cover plate of the switch cabinet body 1 is used for upper pressure relief, a standby bus chamber 2, an isolation chamber 3 and a wire outlet chamber 4 are sequentially arranged on the switch cabinet body 1 at one side of the first pressure relief channel 11 from top to bottom, a main bus chamber 5, a breaker chamber 6 and a control chamber 7 are arranged on the switch cabinet body 1 at one side of the second pressure relief channel 12, each function chamber is separated and has good fault isolation performance, a standby bus 21 and a main bus 51 are respectively arranged in the standby bus chamber 2 and the main, during conventional power supply, the circuit breaker 61 and the mutual inductor 71 are connected to an outgoing cable through a main bus 51 for power supply, for example, the main bus 51 and the circuit breaker 61 are overhauled, the standby bus 21 can be used for power supply, the standby bus 21, the isolating switch 31 and the mutual inductor 71 are used for power supply to the outgoing cable, the isolating switch 31 is installed in the isolating chamber 3, the isolating switch 31 is electrically connected with the standby bus 21, the circuit breaker 61 is installed in the circuit breaker chamber 6, the circuit breaker 61 is in electric wire connection with the main bus 51, the circuit breaker chamber 6 and the isolating chamber 3 can be respectively decompressed through a first decompression channel 11 and a second decompression channel 12, the switch cabinet can effectively release high-pressure gas generated by an internal combustion arc fault of the cabinet body to protect the cabinet body elements and avoid accident enlargement, the mutual inductor 71 is installed on one side of the control chamber 7, the mutual inductor 71 is electrically connected with the, can the direct observation fracture, can direct infrared monitoring fracture temperature and cabinet body heat dissipation condition, the lower extreme of the room 4 and the control room 7 of being qualified for the next round of competitions links to each other with the upper surface of cabinet bottom plate 13, cabinet bottom plate 13 is used for being qualified for the next round of competitions 4 pressure release of room, when overhauing circuit breaker 61, can supply power with main bus 51 and reserve bus 21, equipotential and isolator 31 power supply, subdividing circuit breaker 61, shake out circuit breaker 61 handcart realization and not have a power failure and overhaul circuit breaker 61, realize the switching use of equipotential between main bus 51 and the reserve bus 21.

The working process is as follows: during conventional power supply, the circuit breaker 61 and the mutual inductor 71 are connected through the main bus 51 to supply power to an outgoing cable, if the main bus 51 and the circuit breaker 61 are overhauled, the standby bus 21 can be used for supplying power, the standby bus 21, the isolating switch 31 and the mutual inductor 71 are used for supplying power to the outgoing cable, when the circuit breaker 61 is overhauled, the main bus 51 and the standby bus 21 can be used for supplying power, the equipotential and isolating switch 31 and the circuit breaker 61 are separated, the handcart of the circuit breaker 61 is shaken out to realize the maintenance of the circuit breaker 61 without power outage, the equipotential between the main bus 51 and the standby bus 21 is switched for use, the standby bus chamber 2 and the main bus chamber 5 can be decompressed through the cabinet top, the cabinet bottom plate 13 is used for decompressing the outgoing chamber 4, the circuit breaker chamber 6 and the isolating chamber 3 can be decompressed through the first decompression channel 11 and the second decompression channel, the cabinet body elements are protected, and the accident is prevented from being expanded.

In summary, the following steps: the utility model discloses be provided with main bus-bar room 5 on 1 upper portion of cubical switchboard body, reserve bus-bar room 2 and two pressure release passageways, 1 middle part of cubical switchboard body is provided with circuit breaker room 6 and isolation room 3, 1 lower part of cubical switchboard body is provided with control room 7 and is qualified for the next round of competitions room 4, each function room is separated, good fault isolation performance has, reserve bus-bar room 2 and main bus-bar room 5 can be through the cabinet top pressure release, cabinet bottom plate 13 is used for being qualified for the next round of competitions room 4 pressure release, circuit breaker room 6 and isolation room 3 can be respectively through first pressure release passageway 11 and the 12 pressure releases of second pressure release passageway, the cubical switchboard can effectively release the high-pressure gas that cabinet body internal combustion arc trouble produced, protection cabinet body component, avoid the accident to enlarge, during the maintenance, the switching use of equipotential between main bus-bar 51 and.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a high tension switchgear structure, includes cubical switchboard body (1), its characterized in that: the switch cabinet is characterized in that a cabinet bottom plate (13) is connected to the bottom of a switch cabinet body (1), a first pressure relief channel (11) and a second pressure relief channel (12) are arranged in the middle of the switch cabinet body (1), the upper ends of the first pressure relief channel (11) and the second pressure relief channel (12) are connected with a pressure relief top cover (14), a standby bus chamber (2), an isolation chamber (3) and an outlet chamber (4) are sequentially arranged on the switch cabinet body (1) on one side of the first pressure relief channel (11), a main bus chamber (5), a breaker chamber (6) and a control chamber (7) are arranged on the switch cabinet body (1) on one side of the second pressure relief channel (12), and the lower ends of the outlet chamber (4) and the control chamber (7) are connected with the upper surface of the cabinet bottom plate (13).

2. A high voltage switchgear arrangement according to claim 1, characterized in that: and a standby bus (21) and a main bus (51) are respectively arranged in the standby bus chamber (2) and the main bus chamber (5).

3. A high voltage switchgear arrangement as claimed in claim 2, characterized in that: and an isolating switch (31) is installed in the isolating chamber (3), and the isolating switch (31) is electrically connected with the standby bus (21).

4. A high voltage switchgear arrangement according to claim 3, characterized in that: and a breaker (61) is installed in the breaker chamber (6), and the breaker (61) is in electric wire connection with the main bus (51).

5. The high-voltage switchgear structure according to claim 4, wherein: and a mutual inductor (71) is installed on one side of the control room (7), and the mutual inductor (71) is electrically connected with the isolating switch (31) and the circuit breaker (61).

6. A high voltage switchgear arrangement as claimed in any of claims 3 to 5, characterized in that: the isolating switch (31) and the breaker (61) both adopt open-type contacts.

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