CN205565499U - Gas -insulated high pressure switchgear assembly - Google Patents

Abstract

The utility model provides a gas -insulated high pressure switchgear assembly, is equipped with bus -bar room, circuit breaker room and cable chamber, and the bus -bar room is equipped with pressure and releases and press window (A), circuit breaker room to be equipped with pressure to release and press window (B), releases and presses window (A and B) all to feed through a pressure releasing pathway upwards, and pressure releasing pathway is through top cap pressure release hole intercommunication atmosphere, bus -bar room pressure release mouth is told in top cap pressure release hole, bus -bar room pressure is equipped with a tubaeform pressure release passageway outside releasing the pressure window, the circuit breaker room is released and is pressed the window to be equipped with first bending outward to subtract one -way division of closing means of power, and the cable chamber is equipped with the pressure release mouth, and the bending of pressure release antilinear second subtracts and feeds through pressure releasing pathway behind one -way division of closing means of power, the closing means structure does: the cover release press window or pressure release mouth on, fixed box or board on one side, on the face within the fixed limit, it has a plurality of bendings that are on a parallel with fixed limit to subtract power square hole bars to open. The utility model discloses when it produced inside electric arc, the operation is mutual between the cubical switchboard mutual independence compartment and between the adjacent cubical switchboard did not influence equipment safe and reliable.

Description

A kind of gas insulated high voltage switchgear assembly

Technical field

This utility model relates to a kind of gas insulated high voltage switchgear assembly, is specifically related to a kind of gas insulated high voltage switchgear assembly with separate pressure release passage.

Background technology

Requiring according to national standard and the requirement of user: the key index that should be designed as switchgear by IAC hierarchy level (internal fault current size and the duration of short-circuit), Internal faults arc allows the persistent period to be not less than 0.5 second.Breaker chamber, bus-bar room and cable vault all should be provided with independent pressure release passage and pressure relief device, and pressure relief device spout is towards avoiding tour passage and miscellaneous equipment.The personnel being only limitted to authorize due to switchgear are accessible, before switch cubicle, rear and side all be disposed with operation or maintenance channel, the personnel authorized may touch before switch cubicle, rear and side, so the internal arc degree of protection of switch cubicle (IAC level) preferably selects AFLR.

Metal enclosed switchgear and control equipment should be able to prevent internal fault in principle, it should select suitable switchgear according to characteristic, operating standard and the use condition of electrical network；Switchgear should carry out installing, run and safeguarding according to the description of maker.Due to the defect of high-tension switch cabinet itself, or the working condition of exception, or the reason such as maloperation, cause the fault of inside, internal arc may be caused；When producing internal arc, should not injure people, the most should not affect the operation of adjacent high-tension switch cabinet；The most farthest reduce the impact of this cabinet other operation compartment interior.The design of metal enclosed switchgear and control equipment and structure must take into the technology of anti-internal fault protection, breaker chamber, bus-bar room, cable vault arrange independent pressure relief channels, if generation Internal faults arc, pressure can be discharged by gas by exhaust passage；And to take the safeguard procedures of necessity, it is ensured that personal safety.

Existing Cubicle Gas-Insulated Switchgear, it is provided with the release of pressure window A towards cabinet rear at bus-bar room, is provided with the release of pressure window B above cabinet at breaker chamber, release of pressure window A with B the most directly connects a pressure release passage upwards being located at cabinet rear portion, and the pressure release passage top cover relief hole through cabinet top connects air；Cable vault is then not provided with stretching into the pressure release passage on cabinet top.

From the point of view of the angle of design, pressure release window is the safety guarantee of each cell pressure, and it is functionally similar to relief valve, and rupture pressure disc explosion under the pressure higher than gas tank certain numerical value of pressure release window, with the damage protecting casing itself not to be stressed.

Seeing Fig. 1, for existing Cubicle Gas-Insulated Switchgear, its cabinet shell is fastened to connect with bolt after typically using aluminizing zinc steel plate bending and is formed, and is generally divided into: bus-bar room 10, breaker chamber 4, cable vault 1 and control room 7 in cabinet；Bus-bar room 10, breaker chamber 4 use corrosion resistant plate to be welded, with corrosion resistant plate be conductively connected flange 11 and separate between bus-bar room, breaker chamber；Between tri-station isolating switch and cabinet, bus is installed on bus-bar room, one second part of chopper is loaded on breaker chamber, chopper upper connecting terminal is connected with the binding post of tri-station isolating switch by being conductively connected flange, and the lower connecting terminal of chopper is connected with current transformer 13 and extends to outlet cable cone 14；Cable is transported to other equipment by outlet cable cone electric current, and the enclosed compartment of cable process is referred to as cable vault 1.

So, when breaker chamber produces internal arc, after high temperature and high pressure gas is discharged by pressure release window B, when the portion gas of High Temperature High Pressure can not be discharged in time by the relief hole of top cover, can expand downwards, the gas of High Temperature High Pressure can damage the pressure release window A of bus-bar room, causes bus-bar room fault；Equally, when bus-bar room produces internal arc, after gases at high pressure are discharged by pressure release window A, when the gas of High Temperature High Pressure can not be discharged in time by the relief hole of top cover, can expand downwards, damage chopper pressure release orifice B, cause breaker chamber fault.Namely when breaker chamber and any one compartment of bus-bar room generation internal arc, all can influence each other, accident scope even can be made to expand further, not reach equipment rapid-maintenance and the purpose quickly resumed operation.

Also having and be exactly, when cable vault occurs internal fault, owing to the cable vault of existing equipment is not provided with stretching into the pressure release passage on cabinet top, the gas of High Temperature High Pressure expands in cable vault, can damage the link that cable vault is weak；The gas of High Temperature High Pressure is discharged cable vault, and when the gas of High Temperature High Pressure is discharged from bonnet direction, cable vault, because back shroud position, cable vault is relatively low, the gas of High Temperature High Pressure can injure the personnel of maintenance channel after cabinet, there is potential safety hazard；If the gas of High Temperature High Pressure from cable vault forward cabinet direction discharge time, the gas of High Temperature High Pressure can scurry into front cabinet, and then damage front cabinet breaker operating mechanism, disconnecting switch operating mechanism and control room, cause secondary line short circuit or initiation fire, pressure produced by the gas of High Temperature High Pressure even can wash Qianmen open, injure the personnel of maintenance channel before cabinet, it is impossible to meeting standard-required and user's requirement, potential safety hazard is more prominent；Even can affect adjacent cabinet or the operation of whole station switch cubicle.

Utility model content

Technical problem to be solved in the utility model, it is simply that provide a kind of Cubicle Gas-Insulated Switchgear, when it produces internal arc, the operation between separate compartment and between adjacent switch cubicle is independent of each other, and equipment is safe and reliable.

For solving above-mentioned technical problem, the technical scheme that this utility model is taked is as follows:

A kind of Cubicle Gas-Insulated Switchgear, it is provided with bus-bar room, breaker chamber and cable vault, described bus-bar room is provided with bus-bar room pressure release of pressure window (A), breaker chamber is provided with chopper pressure release of pressure window (B), release of pressure window (A with B) all connects a pressure release passage upwards, and the pressure release passage top cover relief hole through cabinet top connects air；It is characterized in that: described bus-bar room, breaker chamber and cable vault directly use separating device or cooperate by locking device that to realize respective pressure release passage separate, are independent of each other.

Described top cover relief hole separates a bus-bar room pressure release orifice；Outside described bus-bar room pressure release of pressure window A, it is provided with a tubaeform pressure relief channels and forms separating device, bus-bar room pressure release of pressure window A is directly directed to described bus-bar room pressure release orifice；Described breaker chamber release of pressure window is externally provided with the first bending and subtracts the unidirectional locking device of opening of power, and described cable vault is provided with pressure relief opening, and pressure relief opening connects described pressure release passage after the second bending subtracts that power is unidirectional to drive locking device；

Described bending subtracts the unidirectional Kaifeng of power closes apparatus structure and is: the box-like or tabular cover plate cover on described release of pressure window or pressure relief opening, being fixed on described equipment cabinet, on plate face within cover plate fixed edge, have and be parallel to the multiple bending of string of fixed edge and subtract power square hole grid.

On described bus-bar room pressure release orifice, it is provided with the 3rd bending and subtracts that power is unidirectional drives locking device.

Described top cover relief hole aperture removes on the remaining part of bus-bar room pressure release orifice, is provided with the 4th bending and subtracts that power is unidirectional drives locking device.

Described whole top cover relief hole apertures are provided with support lamina tecti, and it is netted isolated gate, are positioned at bending and subtract that power is unidirectional to be opened under locking device.

Described all passages all metals metal sheet, the electric arc that internal fault produces is touching the metallic plate of pressure relief channels closest to place, can be rapidly introduced into greatly by electric arc by grounding shell.

Thus; bus-bar room, breaker chamber, the pressure release passage of cable vault are exactly separate; do not affect the operation between the compartment that switch cubicle is separate and between adjacent switch cubicle; each pressure relief channels and protective cover plate cooperate and protect, and meet the requirement of Cubicle Gas-Insulated Switchgear internal fault protection.

When bus-bar room generation internal fault, gases at high pressure are directly discharged outside cabinet by flaring pressure relief channels by top cover；The internal fault that bus-bar room occurs on breaker chamber and cable vault without impact；When breaker chamber generation internal fault, the portion gas of High Temperature High Pressure can not be discharged in time by top cover when expanding downwards, and the protective plate that cable vault's pressure relief channels is arranged prevents High Temperature High Pressure portion gas to scurry into cable, plays the effect of protection cable vault；The safety of flaring pressure relief channels protection bus-bar room.When cable vault occurs internal fault, when the gas of High Temperature High Pressure can not be discharged in time by top cover, the safety of protection box protective breaker room release of pressure window, prevent the pressure release window of breaker chamber from damaging under the impact of high temperature and high pressure gas；The safety of flaring pressure relief channels protection bus-bar room.

The pressure release passage of bus-bar room is subtracted the unidirectional locking device of opening of power by flaring bus-bar room pressure relief channels lid with the 3rd bending being arranged on top cover and forms, flaring bus-bar room pressure relief channels lid has the effect booting up air-flow, make gases at high pressure rapid increase, reduce the gases at high pressure impact to pressure relief channels lid, prevent from damaging and producing bigger deformation；4th bending subtracts that power is unidirectional to be opened the bending arranged on locking device and subtract power square hole grid, the most quickly opens, and to needing the direction Quick bending of bending, the pressure that quickly release bus-bar room chamber interior fault produces.

First bending subtracts that power unidirectional drives locking device, the second bending subtracts that power unidirectional drives locking device, the 3rd bending subtracts that power is unidirectional drives locking device and the 4th bending subtracts that power is unidirectional to be opened the bending arranged on locking device and subtract power square hole grid, make them to the bending direction Quick bending needed, quickly discharge the pressure that each compartment interior fault produces, bending subtracts the unification of power square hole grid bore size, easily processes, can quick-recovery, repeatable utilization soon after deformation.

Support and be provided with netted isolated gate on lamina tecti; netted isolated gate does not affect the release of each cell pressure; when internal fault may damage the components and parts in Cubicle Gas-Insulated Switchgear; from cable vault under gas pressure effect, the pressure release window B of the pressure of bus-bar room release window A or breaker chamber flies out; and rise to top cover along air-flow; netted isolated gate intercepts these damage components and parts and flies out outside cabinet; effectively during protection internal fault, damage components and parts and fly out cabinet outward to people and the injury of other article.

All passages all metals metal sheet, the electric arc that internal fault produces is touching the metallic plate of pressure relief channels closest to place, can be rapidly introduced into greatly by electric arc by grounding shell.

Mechanism:

1 when bus-bar room generation internal fault, the gases at high pressure that bus-bar room produces are discharged by pressure release window, it is provided with flaring pressure relief channels at pressure release window, pressure can be discharged by gas by this passage, when gases at high pressure rise to top cover, the 3rd bending on top cover subtracts that power is unidirectional to be driven locking device and the most quickly open, and is discharged from Cubicle Gas-Insulated Switchgear top by pressure；When the electric arc that internal fault produces touches the metal partion (metp) of flaring pressure relief channels, the earth can be rapidly introduced into by grounding shell, fault electric arc can be limited in flaring pressure relief channels.3rd bending subtracts power shrouding, the most also can have dust-proof, and the effect that anti-toy enters improves the degree of protection performance of whole cabinet.

2 when breaker chamber generation internal fault, the gases at high pressure that breaker chamber produces are discharged by pressure release window, the pressure relief channels protection box arranged at pressure release window is quickly opened, pressure is discharged when gases at high pressure rise to top cover by liberation port, the 4th bending on top cover subtracts that power is unidirectional to be driven locking device and the most quickly open, and is discharged from Cubicle Gas-Insulated Switchgear top by pressure；When the electric arc that internal fault produces touches on the metallic plate of pressure relief channels protection box, the earth can be rapidly introduced into by grounding shell.

3 when there is internal fault in cable vault, the gases at high pressure that cable vault produces are discharged by the pressure relief channels after cabinet, the pressure relief channels protective plate arranged on pressure relief channels is the most quickly opened, pressure passes through release channel rapid increase, when gases at high pressure rise to top cover, cover plate on top cover is the most quickly opened, and is discharged from Cubicle Gas-Insulated Switchgear top by pressure；When the electric arc that internal fault produces touches on the metallic plate of pressure relief channels, the earth can be rapidly introduced into by grounding shell.

4 when bus-bar room generation internal fault, and gases at high pressure are directly discharged outside cabinet by flaring pressure relief channels by top cover；The internal fault that bus-bar room occurs on breaker chamber and cable vault without impact.When breaker chamber generation internal fault; when the portion gas of High Temperature High Pressure can not be discharged in time by top cover; when can expand downwards, the room when protective plate that pressure relief channels is arranged prevents High Temperature High Pressure portion gas to scurry into cable, play the effect of protection cable vault；The safety of flaring pressure relief channels protection bus-bar room.When cable vault occurs internal fault, when the gas of High Temperature High Pressure can not be discharged in time by top cover, the safety of protection box protective breaker room release of pressure window, prevent the pressure release window of breaker chamber from damaging under the impact of high temperature and high pressure gas；The safety of flaring pressure relief channels protection bus-bar room.

The beneficial effects of the utility model are:

When any high pressure compartment (breaker chamber, bus-bar room, cable vault) produces internal arc, the gas of High Temperature High Pressure all discharges from cabinet top under the water conservancy diversion of pressure relief channels, does not injure people；Ensure that breaker chamber, bus-bar room, the pressure release passage of cable vault are separate simultaneously, do not affect the operation between the compartment that switch cubicle is separate and between adjacent switch cubicle, it is ensured that equipment safe and reliable；Each pressure relief channels and protection cover plate cooperate, and meet the requirement of Cubicle Gas-Insulated Switchgear internal fault protection with the material saved most and minimum switch cubicle overall dimensions.

Flaring bus-bar room pressure relief channels lid has the effect booting up air-flow, makes gases at high pressure rapid increase, reduces the gases at high pressure impact to pressure relief channels lid, prevents from damaging and producing bigger deformation.

First bending subtracts that power unidirectional drives locking device, the second bending subtracts that power unidirectional drives locking device, the 3rd bending subtracts that power is unidirectional drives locking device and other the 4th bendings subtract that power is unidirectional to be opened the bending arranged on locking device and subtract power square hole grid, make them to the bending direction Quick bending needed, quickly discharge the pressure that each compartment interior fault produces, bending subtracts the unification of power square hole grid bore size, easily processes, can quick-recovery, repeatable utilization soon after deformation.

Support and be provided with netted isolated gate on lamina tecti; netted isolated gate does not affect the release of each cell pressure; when internal fault may damage the components and parts in Cubicle Gas-Insulated Switchgear; from cable vault under gas pressure effect, the pressure release window B of the pressure of bus-bar room release window A or breaker chamber flies out; and rise to top cover along air-flow; netted isolated gate intercepts these damage components and parts and flies out outside cabinet; effectively during protection internal fault, damage components and parts and fly out cabinet outward to people and the injury of other article.

Accompanying drawing explanation

The Cubicle Gas-Insulated Switchgear assembling schematic diagram of Fig. 1: prior art；

Fig. 2: the Cubicle Gas-Insulated Switchgear with independent pressure release channel of the present utility model；

The bus-bar room pressure release schematic diagram of Fig. 3: this utility model equipment；

The breaker chamber pressure release schematic diagram of Fig. 4: this utility model equipment；

Cable vault's pressure release schematic diagram of Fig. 5: this utility model equipment；

The bus-bar room pressure relief channels front view of Fig. 6-1: this utility model equipment；

The bus-bar room pressure relief channels left view of Fig. 6-2: this utility model equipment；

The bus-bar room pressure relief channels top view of Fig. 6-3: this utility model equipment；

First bending of Fig. 7-1: this utility model equipment subtracts that power is unidirectional opens locking device top view；

First bending of Fig. 7-2: this utility model equipment subtracts that power is unidirectional opens locking device left view；

First bending of Fig. 7-3: this utility model equipment subtracts that power is unidirectional opens locking device top view；

Second bending of Fig. 8-1: this utility model equipment subtracts that power is unidirectional opens locking device top view；

Second bending of Fig. 8-2: this utility model equipment subtracts that power is unidirectional opens locking device left view；

3rd bending of Fig. 9-1: this utility model equipment subtracts that power is unidirectional opens locking device left view；

3rd bending of Fig. 9-2: this utility model equipment subtracts that power is unidirectional opens the attached view of locking device；

4th bending of Figure 10-1: this utility model equipment subtracts that power is unidirectional opens the attached view of locking device；

4th bending of Figure 10-2: this utility model equipment subtracts that power is unidirectional opens locking device left view；

The support lamina tecti top view of Figure 11-1: this utility model equipment；

The support lamina tecti left view of Figure 11-2: this utility model equipment；

The support lamina tecti front view of Figure 11-3: this utility model equipment.

In figure, reference represents: 1-cable vault, 2-cable vault front shroud, cabinet before 3-, 4-breaker chamber, 5-breaker operation mechanism, 6-disconnecting switch operating mechanism, 7-control room, 8-connects bus, 9-three-station, 10-bus-bar room, 11-is conductively connected flange, 12-chopper, 13-current transformer, 14-outlet cable cone, 15-cable, 16-cable vault back shroud

21-the 3rd bending subtracts the unidirectional locking device of opening of power, 22-the 4th bending subtracts the unidirectional locking device of opening of power, 23-supports lamina tecti, 24-bus-bar room pressure relief channels, 25-breaker chamber release pressure channel, 26-first bending subtracts that power is unidirectional drives locking device, 27-second bending subtracts that power is unidirectional drives locking device, 28-cable vault pressure relief channels, A-bus-bar room pressure release window, B-breaker chamber pressure release window.

Detailed description of the invention

With embodiment, this utility model is further illustrated below in conjunction with the accompanying drawings.

As shown in Figures 2 to 11, Cubicle Gas-Insulated Switchgear embodiment of the present utility model, it is provided with bus-bar room 10, breaker chamber 4 and cable vault 1.Bus-bar room 10 is provided with bus-bar room pressure release of pressure window A, breaker chamber is provided with chopper pressure release of pressure window B, and release of pressure window A with B connects a pressure release passage upwards, and the pressure release passage top cover relief hole through cabinet top connects air.

See Fig. 2 and Fig. 6-1 to Fig. 6-3, separate a bus-bar room pressure release orifice at top cover relief hole, and outside bus-bar room pressure release of pressure window A, be provided with a tubaeform pressure relief channels 24 and bus-bar room pressure release of pressure window A is directly directed to bus-bar room pressure release orifice.

Being externally provided with the first bending at breaker chamber release of pressure window B and subtract the unidirectional locking device 26 of opening of power, cable vault 1 is provided with pressure relief opening, and pressure relief opening connects aforesaid pressure release passage after the second bending subtracts that power is unidirectional to drive locking device 27.

See Fig. 7-1 to Figure 10-2, each bending subtracts the unidirectional Kaifeng of power closes apparatus structure and is: the box-like or tabular cover plate cover on release of pressure window or pressure relief opening, being fixed on equipment cabinet, on plate face within cover plate fixed edge, have and be parallel to the multiple bending of string of fixed edge and subtract power square hole grid.

On bus-bar room pressure release orifice, it is provided with the 3rd bending and subtracts that power is unidirectional drives locking device 21, being provided with the 4th bending on the top cover relief hole aperture removing bus-bar room pressure release orifice and subtract the unidirectional locking device 22 of opening of power, whole top cover relief hole apertures are provided with support lamina tecti 23, and it is netted isolated gate.

When there is internal fault in bus-bar room 10, after the gases at high pressure that bus-bar room produces are discharged by pressure release window A, it is provided with flaring bus-bar room pressure relief channels lid 24 outside pressure release window A, by this passage, pressure can be discharged, flaring bus-bar room pressure relief channels lid 24 has the effect booting up air-flow, make gases at high pressure rapid increase, reduce the gases at high pressure impact to pressure relief channels lid, prevent from damaging and producing bigger deformation.When gases at high pressure rise to support lamina tecti 23, the 3rd bending installed and support on lamina tecti 23 subtracts the unidirectional locking device 21 of opening of power and the most quickly opens, pressure is discharged from Cubicle Gas-Insulated Switchgear top, as shown in Fig. 3 bus-bar room pressure release schematic diagram.3rd bending subtracts that power is unidirectional to be opened the bending that locking device 21 arranges and subtract power square hole grid and make its Quick bending, quickly discharges the pressure of bus-bar room.

When there is internal fault in breaker chamber 4, the gases at high pressure that breaker chamber produces are discharged by pressure release window B, the pressure relief channels protection box 20 arranged at pressure release window B is quickly opened, pressure is discharged by liberation port, when gases at high pressure rise to support lamina tecti 23, the 4th bending installed and support on lamina tecti 23 subtracts the unidirectional locking device 22 of opening of power and the most quickly opens, pressure is discharged from Cubicle Gas-Insulated Switchgear top, as shown in Fig. 4 breaker chamber pressure release schematic diagram.4th bending subtracts that power is unidirectional to be opened the bending that locking device 22 arranges and subtract power square hole grid and make its Quick bending, quickly discharges the pressure of breaker chamber.

When there is internal fault in cable vault 1, the gases at high pressure that cable vault 1 produces are discharged by the cable vault's pressure relief channels 28 after cabinet, the pressure relief channels protective plate 27 arranged on cable vault's pressure relief channels 28 is quickly opened, pressure passes through release channel rapid increase, when gases at high pressure rise to support lamina tecti 23, the 4th bending installed and support on lamina tecti 23 subtracts the unidirectional locking device 22 of opening of power and the most quickly opens, and is discharged from Cubicle Gas-Insulated Switchgear top by pressure；As shown in Fig. 5 cable vault pressure release schematic diagram；Pressure relief channels protective plate the 27, the 3rd bending subtracts that power is unidirectional to be opened the bending that locking device 22 arranges and subtract power square hole grid and make its Quick bending, quickly discharges the pressure of bus-bar room；

When bus-bar room 10 occurs internal fault, gases at high pressure are directly discharged outside cabinet by flaring bus-bar room pressure relief channels lid 24 by top cover；The internal fault that bus-bar room occurs on breaker chamber 4 and cable vault 1 without impact.When there is internal fault in breaker chamber 4; the portion gas of High Temperature High Pressure by support lamina tecti 23 and install with the 3rd bending supported on lamina tecti 23 subtract power unidirectional open locking device 21 can not discharge in time and when expanding downwards; when the pressure relief channels protective plate 27 arranged on pressure relief channels 28 stops High Temperature High Pressure portion gas to scurry into cable vault; and there is the effect booting up air-flow, play the effect of protection cable vault 1；Flaring pressure relief channels lid 24 protects the safety of bus-bar room.When there is internal fault in cable vault 1; the gas of High Temperature High Pressure by support lamina tecti 23 and install with the 3rd bending supported on lamina tecti 23 subtract power unidirectional open locking device 21 can not discharge in time and when expanding; first bending subtracts the unidirectional Kaifeng of power and closes the safety of unit protection breaker chamber release of pressure window, prevents the pressure release window of breaker chamber 4 from damaging under the impact of high temperature and high pressure gas；Same flaring pressure relief channels lid 24 protects the safety of bus-bar room 10.Therefore when producing internal arc, the gas of High Temperature High Pressure all discharges from cabinet top under the water conservancy diversion of pressure relief channels, do not injure people, simultaneously ensure breaker chamber 4, bus-bar room 10, cable vault 1 relief passage separate, do not affect the operation between the compartment that switch cubicle is separate and between adjacent switch cubicle, it is ensured that equipment safe and reliable.The all metallic elements of all passages, when the electric arc that internal fault produces touches on the metallic plate of pressure relief channels, can be rapidly introduced into the earth by grounding shell.

As shown in Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 11, the accompanying drawing for each metallic element illustrates:

As shown in Figure 6, bus-bar room pressure relief channels lid, for flaring pressure relief channels, tubaeform hypotenuse has the effect booting up air-flow, make gases at high pressure rapid increase, reduce the gases at high pressure impact to pressure relief channels lid, prevent from damaging and producing bigger deformation.

As shown in Fig. 7, Fig. 8, Fig. 9, Figure 10, the bending that each cover plate is arranged subtracts power square hole grid makes its Quick bending, the electric arc of quickly release internal fault generation and pressure, it is possible to quickly restore to the original state, reuse.

As shown in figure 11; support and be provided with netted isolated gate on lamina tecti; netted isolated gate does not affect the release of each cell pressure; when internal fault may damage the components and parts in Cubicle Gas-Insulated Switchgear; from cable vault under gas pressure effect, the pressure release window B of the pressure of bus-bar room release window A or breaker chamber flies out; and rise to top cover along air-flow; netted isolated gate intercepts these damage components and parts etc. and flies out outside cabinet; effectively during protection internal fault, damage components and parts and fly out cabinet outward to people and the injury of other things.

Claims (6)

1. a Cubicle Gas-Insulated Switchgear, it is provided with bus-bar room, breaker chamber and cable vault, described bus-bar room is provided with bus-bar room pressure release of pressure window (A), breaker chamber is provided with chopper pressure release of pressure window (B), release of pressure window (A with B) all connects a pressure release passage upwards, and the pressure release passage top cover relief hole through cabinet top connects air；It is characterized in that: described bus-bar room, breaker chamber and cable vault directly use separating device or cooperate by locking device that to realize respective pressure release passage separate, are independent of each other.

Cubicle Gas-Insulated Switchgear the most according to claim 1, is characterized in that: described top cover relief hole separates a bus-bar room pressure release orifice；Described bus-bar room pressure release of pressure window (A) outward, is provided with a tubaeform pressure relief channels and forms separating device, bus-bar room pressure release of pressure window (A) is directly directed to described bus-bar room pressure release orifice；Described breaker chamber release of pressure window is externally provided with the first bending and subtracts the unidirectional locking device of opening of power, and described cable vault is provided with pressure relief opening, and pressure relief opening connects described pressure release passage after the second bending subtracts that power is unidirectional to drive locking device；Described bending subtracts the unidirectional Kaifeng of power closes apparatus structure and is: the box-like or tabular cover plate cover on described release of pressure window or pressure relief opening, being fixed on described equipment cabinet, on plate face within cover plate fixed edge, have and be parallel to the multiple bending of string of fixed edge and subtract power square hole grid.

Cubicle Gas-Insulated Switchgear the most according to claim 2, is characterized in that: on described bus-bar room pressure release orifice, is provided with the 3rd bending and subtracts that power is unidirectional drives locking device.

Cubicle Gas-Insulated Switchgear the most according to claim 3, is characterized in that: described top cover relief hole aperture removes on the remaining part of bus-bar room pressure release orifice, is provided with the 4th bending and subtracts that power is unidirectional drives locking device.

Cubicle Gas-Insulated Switchgear the most according to claim 4, is characterized in that: described top cover relief hole aperture is provided with support lamina tecti, and it is netted isolated gate, is positioned at bending and subtracts that power is unidirectional to be opened under locking device.

Cubicle Gas-Insulated Switchgear the most according to claim 5, is characterized in that: all passages all metals metal sheet.