Draw-out type switch cabinet
Technical Field
The invention relates to the field of electrical equipment, in particular to a draw-out type switch cabinet.
Background
The switch cabinet is an electrical device and mainly used for opening, closing, controlling and protecting the electrical device in the process of generating, transmitting, distributing and converting electric energy of an electric power system. The components in the switch cabinet mainly comprise a circuit breaker, an isolating switch, a load switch, an operating mechanism, a mutual inductor, various protection devices and the like. The classification methods of the switch cabinets are various, for example, the switch cabinets can be divided into movable switch cabinets and fixed switch cabinets by the installation mode of the circuit breaker; or according to different cabinet body structures, the cabinet body can be divided into an open type switch cabinet, a metal closed switch cabinet and a metal closed armored switch cabinet; the high-voltage switch cabinet, the medium-voltage switch cabinet, the low-voltage switch cabinet and the like can be divided according to different voltage grades. The method is mainly suitable for various occasions such as power plants, transformer substations, petrochemical industry, metallurgical steel rolling, light industrial textile, industrial and mining enterprises, residential districts, high-rise buildings and the like.
The functional chambers of the draw-out switch cabinet are mutually isolated, the compartments are divided into a functional unit chamber, a bus chamber and a cable chamber, and the functions of the chambers are relatively independent. The frame comprises a fully assembled structure and a partially (side frame and cross beam) welded structure. The drawing structure has regular size, and the drawers with the same functional units have good interchangeability. The using environment is mostly used for the environment with the temperature of not higher than +50 ℃ and not lower than-10 ℃. The inclination of the cabinet to the vertical plane is not more than 5% when the cabinet is installed, and the whole group of cabinet rows are relatively flat (in accordance with the GBJ232-82 standard).
The draw-out switch cabinet is suitable for power conversion, distribution and control of power, distribution and control centers, compensation and the like of low-voltage distribution systems of power plants, substations, petrochemical departments, factories and mining enterprises, high-rise buildings and the like. In the using process of the draw-out switch cabinet, the short circuit of a loop caused by internal arc faults is the most serious fault of the switch cabinet, and the electric arc generates heat effect and pressure effect and generates a large amount of high-temperature high-pressure gas in a short period. If the release can not be effectively realized in a very short time, the switch cabinet can be exploded.
The existing pressure relief device is generally provided with a cover plate at the top of a switch cabinet, and the cover plate is fixed through nylon screws. When a short-circuit accident occurs in the switch cabinet, the temperature and the pressure of gas in the switch cabinet are increased, and the nylon screw melts due to high-temperature gas in the switch cabinet to open the cover plate for pressure relief. However, the conventional pressure relief device is affected by the size of the cover plate, and the danger that high-temperature and high-pressure gas cannot be timely discharged to cause deformation and even explosion of the switch cabinet due to the small pressure relief channel is often caused; in addition, during the process of melting the nylon screw, high-temperature and high-pressure gas in the switch cabinet is further accumulated, so that the nylon screw is not completely melted, but the switch cabinet cannot bear the pressure of the high-temperature and high-pressure gas in the switch cabinet, so that explosion occurs. In addition, because need guarantee that the apron can effective pressure release, can't set up sealed measure in apron frame department, easily make the dust get into high-voltage compartment and pollute high-voltage conductor, especially when outdoor use, the rainwater can directly invade inside the cubical switchboard, influences inside dielectric strength, increases short circuit fault.
Disclosure of Invention
The invention aims to provide a draw-out switch cabinet, which can quickly and effectively release a large amount of high-temperature and high-pressure gas accumulated in the draw-out switch cabinet in a short period, and prevent the switch cabinet from being cracked.
In order to achieve the purpose, the invention adopts the following technical scheme: the draw-out switch cabinet comprises a cabinet body, wherein a plurality of cabinet openings are formed in the front surface of the cabinet body, the cabinet openings are used for placing corresponding drawer cabinets, the cabinet openings of the cabinet body are mutually communicated, and channels communicated with the cabinet openings are formed between a back plate of the cabinet body and a back plate of the drawer cabinet after the corresponding drawer cabinets are placed in the cabinet openings; the top surface, the back surface and the side surfaces of the cabinet body are all of an integral sealing structure; the drawer cabinet at the lowest layer of the cabinet body is a pressure relief drawer cabinet, and the pressure relief drawer cabinet is arranged in the cabinet opening in a sliding mode.
When adopting above-mentioned technical scheme: because each cabinet opening of the cabinet body is mutually communicated, a channel communicated with each cabinet opening is formed between the back plate of the cabinet body and the back plate of the drawer cabinet after each cabinet opening is placed in the corresponding drawer cabinet, and thus a communicated channel is formed between the back plate and the back plate. When a short-circuit accident occurs in the draw-out type switch cabinet, the temperature and the pressure of gas in the switch cabinet are increased, and due to the channel between the back plate and the rear plate, high-temperature and high-pressure gas can be gathered in the channel and quickly diffused outwards to release energy. Because the drawer cabinet of the lowest layer of the cabinet body is specially set as the pressure relief drawer cabinet, and the pressure relief drawer cabinet is arranged in the cabinet opening in a sliding manner, the pressure relief drawer cabinet slides out of the cabinet body under the action of high-temperature high-pressure gas, and the cabinet opening is opened to form a pressure relief channel opening, so that the high-temperature high-pressure gas gathered due to short-circuit accidents can be quickly discharged, and the deformation and even the explosion of the draw-out switch cabinet are avoided. In the scheme, the cabinet body structure of the draw-out switch cabinet is utilized, and the drawer cabinet at the lowest layer of the cabinet body is innovatively used as the emergency pressure relief opening, so that the safety is higher, and the design structure of the cabinet body cannot be changed integrally. Moreover, the top surface, the back and the side of the cabinet body are all of an integral sealing structure, so that dust cannot enter a high-voltage compartment on the upper portion of the cabinet body to pollute a high-voltage conductor, particularly when the cabinet is used outdoors, rainwater cannot directly invade the inside of the switch cabinet, the insulating strength of the inside is increased, and the occurrence probability of short-circuit faults is reduced.
Preferably, as an improvement, the sizes of the cabinet openings on the front surface of the cabinet body are the same. The drawer cabinet and the pressure relief drawer cabinet are convenient to process in a unified size, and the processing cost is reduced.
Preferably, as an improvement, the cabinet body is provided with at least four layers of cabinet openings, and each layer of cabinet openings is provided with at least two.
Preferably, as an improvement, the rear plate of the pressure relief drawer cabinet fills the section of the cabinet opening where the pressure relief drawer cabinet is located. The rear plate is filled with the section of the cabinet opening, so that the pressure of pushing the pressure relief drawer cabinet by air in the cabinet body can be increased, and the pressure relief drawer cabinet can slide out conveniently.
Preferably, as an improvement, the pressure release drawer cabinet is a closed cube, and a vertical support plate is arranged in the pressure release drawer cabinet. The closed structure is convenient for the pressure relief drawer cabinet to be stressed and slide out, the vertical supporting plate arranged inside can increase the structural strength of the pressure relief drawer cabinet, and meanwhile, the heat dissipation can be increased as a cooling fin.
Preferably, as an improvement, a separation plate is arranged above the pressure relief drawer cabinet in the cabinet body, and the separation plate separates the pressure relief drawer cabinet from the drawer cabinet adjacent to the upper side.
Preferably, as an improvement, a pressure spring is fixed at a position, corresponding to the rear plate of the pressure relief drawer cabinet, of the back plate of the cabinet body, and the free end of the pressure spring is fixed on the back plate after being compressed by hot melt adhesive. This setting can be through pressure spring compression energy storage, and under high temperature high-pressure gas effect, the hot melt adhesive melts rapidly, releases the pressure spring, pops out the pressure release drawer cabinet fast through the pressure spring to further avoid taking place because of the cabinet body deformation that the pressure release caused untimely explodes and splits even.
Preferably, as an improvement, sealing rubber strips are arranged around the panel of the pressure relief drawer cabinet. The sealing rubber strip is arranged, so that the sealing performance of the gap can be effectively improved, and particularly, the rainwater can be prevented from being invaded when the outdoor water heater is used outdoors.
Preferably, as an improvement, a heat dissipation opening inclined towards the lower side of the outside is formed in a panel of the pressure relief drawer cabinet. The heat dissipation opening inclined towards the lower side of the outer side is arranged, so that the heat dissipation effect in use can be improved, and the gas heat dissipation in the cabinet body is facilitated.
Preferably, as an improvement, the heat radiation opening is provided with a one-way baffle opened outwards. The one-way baffle is arranged, so that the one-way baffle can only be pushed away after the pressure is increased by gas from the inside, the heat dissipation of the inside is facilitated, and meanwhile, the external dust is prevented from entering the cabinet body for a long time.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of a drawout switchgear of the present invention.
Detailed Description
The following is further detailed by way of specific embodiments:
reference numerals in the drawings of the specification include: the cabinet body 1, the drawer cabinet 2, the pressure release drawer cabinet 3.
Example 1 is substantially as shown in figure 1: draw-out type cubical switchboard, including the cabinet body 1, 6 cabinet mouths have been seted up in the front of the cabinet body 1, and every cabinet mouth is used for putting into corresponding drawer cabinet 2, and each cabinet mouth of the cabinet body 1 communicates each other, and each cabinet mouth forms the passageway that communicates each cabinet mouth between the backplate of the cabinet body 1 and the back plate of drawer cabinet 2 after putting into corresponding drawer cabinet 2. The top surface, the back surface and the side surface of the cabinet body 1 are all integral stainless steel plates and are fixed with each other in a welding and sealing way. The two drawer cabinets at the lowest layer of the cabinet body 1 are pressure relief drawer cabinets 3, and the pressure relief drawer cabinets 3 can be directly arranged in the cabinet opening in a sliding mode and can also be installed through a slide way, so that the pressure relief drawer cabinets 3 are not influenced to be completely drawn out. The pressure relief drawer cabinet 3 is the same as the upper drawer cabinet 2 in size, so that the drawer cabinet 2 and the pressure relief drawer cabinet 3 can be machined in a unified size, and machining cost is reduced. The rear plate of the decompression drawer cabinet 3 can fill the section of the cabinet opening. Of course, the pressure-releasing drawer cabinet 3 may also be made into a closed cubic structure, and the vertical stainless steel support plate is fixed inside the pressure-releasing drawer cabinet 3, so that the structural strength of the pressure-releasing drawer cabinet 3 can be increased, and meanwhile, the stainless steel support plate can be used as a heat sink to increase heat dissipation. A partition board is arranged in the cabinet body 1 above the pressure relief drawer cabinet 3, and the partition board separates the pressure relief drawer cabinet 3 from the adjacent drawer cabinet 2.
In the specific implementation process, because the cabinet openings of the cabinet body 1 are communicated with each other, a channel communicated with each cabinet opening is formed between the back plate of the cabinet body 1 and the back plate of the drawer cabinet 2 after each cabinet opening is placed in the corresponding drawer cabinet 2, so that a communicated channel is formed between the back plate and the back plate. When a short-circuit accident occurs in the draw-out type switch cabinet, the temperature and the pressure of gas in the switch cabinet are increased, and due to the channel between the back plate and the rear plate, high-temperature and high-pressure gas can be gathered in the channel and quickly diffused outwards to release energy. Because the drawer cabinet of the lowest layer of the cabinet body 1 is specially set as the pressure relief drawer cabinet 3, and the pressure relief drawer cabinet 3 is arranged in the cabinet opening in a sliding manner, the pressure relief drawer cabinet 3 slides out of the cabinet body 1 under the action of high-temperature high-pressure gas, and opens the cabinet opening to form a pressure relief channel opening, so that the high-temperature high-pressure gas gathered due to short-circuit accidents can be quickly discharged, and the deformation and even the explosion of the draw-out switch cabinet are avoided. In the scheme, the structure of the cabinet body 1 of the draw-out switch cabinet is utilized, and the drawer cabinet at the lowest layer of the cabinet body 1 is innovatively used as an emergency pressure relief opening, so that the safety is higher, and the design structure of the cabinet body 1 cannot be changed integrally. Moreover, the top surface, the back and the side of the cabinet body 1 are all of an integral sealing structure, so that dust cannot enter a high-voltage compartment on the upper part of the cabinet body 1 to pollute a high-voltage electric conductor, particularly when the cabinet is used outdoors, rainwater cannot directly invade the inside of the cabinet body 1, the insulation strength of the inside is increased, and the occurrence probability of short-circuit faults is reduced.
Example 2
Example 2 is substantially as shown in figure 1: draw-out type cubical switchboard, including the cabinet body 1, 6 cabinet mouths have been seted up in the front of the cabinet body 1, and every cabinet mouth is used for putting into corresponding drawer cabinet 2, and each cabinet mouth of the cabinet body 1 communicates each other, and each cabinet mouth forms the passageway that communicates each cabinet mouth between the backplate of the cabinet body 1 and the back plate of drawer cabinet 2 after putting into corresponding drawer cabinet 2. The top surface, the back surface and the side surface of the cabinet body 1 are all integral stainless steel plates and are fixed with each other in a welding and sealing way. The two drawer cabinets at the lowest layer of the cabinet body 1 are pressure relief drawer cabinets 3, and the pressure relief drawer cabinets 3 can be directly arranged in the cabinet opening in a sliding mode and can also be installed through a slide way, so that the pressure relief drawer cabinets 3 are not influenced to be completely drawn out. The pressure relief drawer cabinet 3 is the same as the upper drawer cabinet 2 in size, so that the drawer cabinet 2 and the pressure relief drawer cabinet 3 can be machined in a unified size, and machining cost is reduced. The rear plate of the decompression drawer cabinet 3 can fill the section of the cabinet opening. Of course, the pressure-releasing drawer cabinet 3 may also be made into a closed cubic structure, and the vertical stainless steel support plate is fixed inside the pressure-releasing drawer cabinet 3, so that the structural strength of the pressure-releasing drawer cabinet 3 can be increased, and meanwhile, the stainless steel support plate can be used as a heat sink to increase heat dissipation. A partition board is arranged in the cabinet body 1 above the pressure relief drawer cabinet 3, and the partition board separates the pressure relief drawer cabinet 3 from the adjacent drawer cabinet 2.
As an improvement, a pressure spring is fixed at a position, corresponding to the rear plate of the pressure relief drawer cabinet 3, of the back plate of the cabinet body 1, and the free end of the pressure spring is fixed on the back plate after being compressed by hot melt adhesive. This setting can be through pressure spring compression energy storage, and under high temperature high-pressure gas effect, the hot melt adhesive melts rapidly, releases the pressure spring, pops out pressure release drawer cabinet 3 fast through the pressure spring to further avoid taking place because of the untimely cabinet body 1 that causes of pressure release warp and take place to explode and split even.
In the specific implementation process, because the cabinet openings of the cabinet body 1 are communicated with each other, a channel communicated with each cabinet opening is formed between the back plate of the cabinet body 1 and the back plate of the drawer cabinet 2 after each cabinet opening is placed in the corresponding drawer cabinet 2, so that a communicated channel is formed between the back plate and the back plate. When a short-circuit accident occurs in the draw-out type switch cabinet, the temperature and the pressure of gas in the switch cabinet are increased, and due to the channel between the back plate and the rear plate, high-temperature and high-pressure gas can be gathered in the channel and quickly diffused outwards to release energy. Because the drawer cabinet of cabinet body 1 lower floor sets up to pressure release drawer cabinet 3 specially, and this pressure release drawer cabinet 3 slides and arranges in its cabinet mouth, under the high temperature high-pressure gas effect, the hot melt adhesive melts rapidly, release the pressure spring, pop out pressure release drawer cabinet 3 fast under the combined action through pressure spring and high temperature high-pressure gas and deviate from cabinet body 1, open the cabinet mouth and form the pressure release passway, like this, the high temperature high-pressure gas that gathers because of taking place the short circuit accident will discharge fast, avoid pull-out type cubical switchboard to warp and take place to explode and split even. In the scheme, the structure of the cabinet body 1 of the draw-out switch cabinet is utilized, and the drawer cabinet at the lowest layer of the cabinet body 1 is innovatively used as an emergency pressure relief opening, so that the safety is higher, and the design structure of the cabinet body 1 cannot be changed integrally. Moreover, the top surface, the back and the side of the cabinet body 1 are all of an integral sealing structure, so that dust cannot enter a high-voltage compartment on the upper part of the cabinet body 1 to pollute a high-voltage electric conductor, particularly when the cabinet is used outdoors, rainwater cannot directly invade the inside of the cabinet body 1, the insulation strength of the inside is increased, and the occurrence probability of short-circuit faults is reduced.
Example 3
Example 3 is substantially as shown in figure 1: draw-out type cubical switchboard, including the cabinet body 1, 6 cabinet mouths have been seted up in the front of the cabinet body 1, and every cabinet mouth is used for putting into corresponding drawer cabinet 2, and each cabinet mouth of the cabinet body 1 communicates each other, and each cabinet mouth forms the passageway that communicates each cabinet mouth between the backplate of the cabinet body 1 and the back plate of drawer cabinet 2 after putting into corresponding drawer cabinet 2. The top surface, the back surface and the side surface of the cabinet body 1 are all integral stainless steel plates and are fixed with each other in a welding and sealing way. The two drawer cabinets at the lowest layer of the cabinet body 1 are pressure relief drawer cabinets 3, and the pressure relief drawer cabinets 3 can be directly arranged in the cabinet opening in a sliding mode and can also be installed through a slide way, so that the pressure relief drawer cabinets 3 are not influenced to be completely drawn out. The pressure relief drawer cabinet 3 is the same as the upper drawer cabinet 2 in size, so that the drawer cabinet 2 and the pressure relief drawer cabinet 3 can be machined in a unified size, and machining cost is reduced. The rear plate of the decompression drawer cabinet 3 can fill the section of the cabinet opening. Of course, the pressure-releasing drawer cabinet 3 may also be made into a closed cubic structure, and the vertical stainless steel support plate is fixed inside the pressure-releasing drawer cabinet 3, so that the structural strength of the pressure-releasing drawer cabinet 3 can be increased, and meanwhile, the stainless steel support plate can be used as a heat sink to increase heat dissipation. A partition board is arranged in the cabinet body 1 above the pressure relief drawer cabinet 3, and the partition board separates the pressure relief drawer cabinet 3 from the adjacent drawer cabinet 2. Sealing rubber strips are arranged around the panel of the pressure relief drawer cabinet 3. The sealing rubber strip is arranged, so that the sealing performance of the gap can be effectively improved, and particularly, the rainwater can be prevented from being invaded when the outdoor water heater is used outdoors. A heat dissipation opening inclined towards the lower side is formed in the panel of the pressure relief drawer cabinet 3. The heat dissipation opening inclined towards the lower side of the outer side is arranged, so that the heat dissipation effect in use can be improved, and the gas heat dissipation in the cabinet body 1 is facilitated. The heat dissipation opening is provided with a one-way baffle which is opened outwards.
In the specific implementation process, because the cabinet openings of the cabinet body 1 are communicated with each other, a channel communicated with each cabinet opening is formed between the back plate of the cabinet body 1 and the back plate of the drawer cabinet 2 after each cabinet opening is placed in the corresponding drawer cabinet 2, so that a communicated channel is formed between the back plate and the back plate. When a short-circuit accident occurs in the draw-out type switch cabinet, the temperature and the pressure of gas in the switch cabinet are increased, and due to the channel between the back plate and the rear plate, high-temperature and high-pressure gas can be gathered in the channel and quickly diffused outwards to release energy. Because the drawer cabinet of the lowest layer of the cabinet body 1 is specially set as the pressure relief drawer cabinet 3, and the pressure relief drawer cabinet 3 is arranged in the cabinet opening in a sliding manner, the pressure relief drawer cabinet 3 slides out of the cabinet body 1 under the action of high-temperature high-pressure gas, and opens the cabinet opening to form a pressure relief channel opening, so that the high-temperature high-pressure gas gathered due to short-circuit accidents can be quickly discharged, and the deformation and even the explosion of the draw-out switch cabinet are avoided. In the scheme, the structure of the cabinet body 1 of the draw-out switch cabinet is utilized, and the drawer cabinet at the lowest layer of the cabinet body 1 is innovatively used as an emergency pressure relief opening, so that the safety is higher, and the design structure of the cabinet body 1 cannot be changed integrally. Moreover, the top surface, the back surface and the side surface of the cabinet body 1 are all of an integral sealing structure, a heat dissipation opening inclined towards the lower side of the outer side is formed in the panel of the pressure relief drawer cabinet 3, and a one-way baffle opened towards the outer side is arranged at the heat dissipation opening. Set up one-way baffle for can only push away one-way baffle after stepping up by gas from inside, do benefit to inside heat dissipation, do not fear outside dust and get into the high-voltage compartment on 1 upper portion of the cabinet body and pollute high-voltage conductor, especially when outdoor use, the rainwater can not directly invade 1 insides of the cabinet body, has increased inside dielectric strength, reduces short-circuit fault's probability of appearance.
The foregoing is merely an example of the present invention and common general knowledge in the art of designing and/or characterizing particular aspects and/or features is not described in any greater detail herein. It should be noted that, for those skilled in the art, variations and modifications can be made without departing from the technical solution of the present invention, and unless otherwise specifically stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, may be fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.