CN115663654A

CN115663654A - Power distribution cabinet for anti-power generation treatment of oil well

Info

Publication number: CN115663654A
Application number: CN202211700416.5A
Authority: CN
Inventors: 刘志强; 傅瑞军; 刘宝磊; 张阳; 魏鑫; 丁雨成; 劳海涛; 冯志杰; 苑彦鹏; 褚秀杰
Original assignee: Dongying Jinfeng Zhengyang Technology Development Co ltd
Current assignee: Dongying Jinfeng Zhengyang Technology Development Co ltd
Priority date: 2022-12-29
Filing date: 2022-12-29
Publication date: 2023-01-31
Anticipated expiration: 2042-12-29
Also published as: CN115663654B

Abstract

The invention relates to the technical field of power distribution cabinets, in particular to a power distribution cabinet for anti-power generation treatment of an oil well. According to the invention, the gas in the power generation power distribution cabinet body is replaced, so that the gas in the power generation power distribution cabinet body is diffused out of the power generation power distribution cabinet body with heat, the cooling and heat dissipation of the interior of the power generation power distribution cabinet body are realized, when the interior of the power generation power distribution cabinet body catches fire, the power generation power distribution cabinet body is automatically sealed, and the gas in the power generation power distribution cabinet body is replaced by the fire extinguishing gas, so that the fire can be quickly extinguished.

Description

Power distribution cabinet for anti-power generation treatment of oil well

Technical Field

The invention relates to the technical field of power distribution cabinets, in particular to a power distribution cabinet for anti-power generation treatment of an oil well.

Background

A well is a borehole drilled by a drilling method. After drilling oil layer, the oil layer casing is set in the oil well, and the cement is injected into the annular space between the casing and the well wall to maintain the well wall and seal oil, gas and water layers, and then the oil layer is jetted with perforating gun to form passage and oil pipe.

At present, the inside of oil well electricity generation switch board is provided with a large amount of electrical parts, and the inside of generating heat when oil well electricity generation switch board is out of control or the circuit short circuit, when leading to the protective layer to be punctured by electric arc, very easily the conflagration takes place, and the switch board once takes place the conflagration, and the consequence that causes can't imagine, and when oil well electricity generation switch board took place the conflagration among the prior art, its method of putting out a fire is mostly the personnel of putting out a fire and fills the fine sand to the switch board inside that catches fire, but the effect is not good, and the personnel safety of the personnel of just putting out a fire can't be ensured.

Therefore, the invention is urgently needed to solve the problems by inventing the power distribution cabinet for the anti-power generation treatment of the oil well.

Disclosure of Invention

In order to solve the above problems, the present invention provides the following technical solutions: a power distribution cabinet for anti-power generation treatment of an oil well comprises a power generation power distribution cabinet body, wherein two power distribution fans are uniformly arranged on the power generation power distribution cabinet body, air inlets of the power distribution fans are communicated with the inside of the upper side of the power generation power distribution cabinet body, a power distribution cabinet air inlet groove is formed in the inner wall of the bottom of the power generation power distribution cabinet body, a power distribution cabinet transmission pipe with a hollow inner part is uniformly hinged to the inner wall of the power distribution cabinet air inlet groove through a torsion spring, a power distribution cabinet louver board with a hollow inner part is fixedly connected to the outer wall of the power distribution cabinet transmission pipe, the inner part of the power distribution cabinet louver board is communicated with the inner part of the power distribution cabinet transmission pipe, power distribution through holes are uniformly formed in the outer wall of the power distribution cabinet louver board, a first groove is formed in the inner wall of the bottom of the power generation power distribution cabinet body, an air cavity is fixedly connected to the inner wall of the first groove, and high-pressure fire extinguishing gas is filled in the air cavity, one end of the power distribution cabinet transmission pipe penetrates into the air cavity, the outer ring wall of the power distribution cabinet transmission pipe is provided with an air hole, the inner wall of the air cavity is uniformly and fixedly connected with a baffle, the inner wall of the baffle is attached to the outer wall of the air cavity extended to the power distribution cabinet transmission pipe, the air hole is covered and sealed, the inner wall of the bottom of the power generation power distribution cabinet body is provided with a second groove, the other end of the power distribution cabinet transmission pipe penetrates into the second groove, the outer ring wall of the power distribution cabinet transmission pipe is fixedly connected with a first torsion plate, the inner wall of the second groove is fixedly connected with an electromagnet, the inner wall of the second groove is slidably connected with an iron plate, the iron plate can be adsorbed by the electromagnet, one end of the first torsion plate can be extruded when the iron plate slides down, and the inner wall of the bottom of the power generation cabinet body is fixedly connected with an olfactory sensor, the smell sensor with the electro-magnet carries out electric connection, the inner wall fixedly connected with of the power generation switch board cabinet body with the remote terminal module that the smell sensor carries out electric connection.

Preferably, the bottom of the power generation power distribution cabinet body is fixedly connected with a connecting pipe, the inside of the connecting pipe is communicated with the power distribution cabinet air inlet groove, the outer wall of the bottom of the power generation power distribution cabinet body is symmetrically and fixedly connected with guide pillars, the outer wall of each guide pillar is connected with a floating sealing plate in a sliding mode, the sealing plate can be inserted into the bottom of the connecting pipe and seal the connecting pipe, the inner wall of the bottom of the power generation power distribution cabinet body is fixedly connected with a water flooding sensor, double probes of the water flooding sensor penetrate through the inner wall of the bottom of the power generation power distribution cabinet body to the outside of the power generation power distribution cabinet body, and the water flooding sensor is electrically connected with the remote terminal module.

Preferably, the inner wall of the connecting pipe is fixedly connected with a pipe sleeve, a gap is formed between the outer wall of the pipe sleeve and the inner wall of the connecting pipe, the inner wall of the lower side of the connecting pipe is fixedly connected with an inner pipe, the inner pipe is sleeved with the pipe sleeve, and a gap is formed between the inner wall of the pipe sleeve and the outer wall of the inner pipe.

Preferably, the right side outer wall fixedly connected with first water box of the electricity generation switch board cabinet body, the left side outer wall fixedly connected with second water box of the electricity generation switch board cabinet body, just the level of second water box is higher than the level of first water box, the air outlet of distribution fan pass through the pipeline with the inside intercommunication of the upside of first water box, just the inner wall fixedly connected with body of the electricity generation switch board cabinet body is the water-cooling tube of many places bending design, the one end of water-cooling tube runs through to inside the downside of first water box, its other end runs through to inside the downside of second water box, just the inner wall sliding connection of first water box has the cystosepiment, the pressure release hole has been seted up to the outer wall of first water box, the inner wall sliding connection of first water box has the second to turn round the board, the second turn round the one end of board pass through the rope with the top of cystosepiment is connected, just the second turn round the board can with the pressure release hole covers sealedly.

Preferably, the inner wall of the connecting pipe is fixedly connected with a sponge ring, and the inner wall of the sponge ring is fixedly connected with the outer wall of the pipe sleeve.

Preferably, the outer wall of the water-cooling pipe is uniformly provided with grooves.

Preferably, the inner wall of the bottom of the power generation power distribution cabinet body is fixedly connected with a blocking pipe, and the blocking pipe is used for sleeving the double probes of the flooding sensor.

Preferably, the fire extinguishing gas is a mixture of nitrogen, argon and carbon dioxide in proportions of 52%, 40% and 8%.

The invention has the technical effects and advantages that:

1. according to the invention, through arranging the power generation power distribution cabinet body, the power distribution fan, the power distribution cabinet air inlet groove, the power distribution cabinet transmission pipe, the power distribution cabinet louver board, the power distribution through hole, the first groove, the air cavity, the air hole, the baffle, the second groove, the first torsion board, the electromagnet, the iron plate, the olfactory sensor and the remote terminal module, when the power generation power distribution cabinet is in normal use, gas in the power generation power distribution cabinet body is replaced, so that the gas in the power generation power distribution cabinet body is dispersed out of the power generation power distribution cabinet body with heat, the cooling and heat dissipation in the power generation power distribution cabinet body are realized, when the interior of the power generation power distribution cabinet body catches fire, the power generation power distribution cabinet body is automatically sealed, and the gas in the power generation power distribution cabinet body is replaced into fire extinguishing gas, and the fire behavior can be rapidly extinguished.

2. According to the invention, through arranging the connecting pipe, the pipe sleeve and the inner pipe, air passes through water in a bubble form, and dust in the air passing through the water in the bubble form is adsorbed by the water, so that external dust cannot enter the interior of the power generation power distribution cabinet body, and the influence is caused on electric devices in the power generation power distribution cabinet body.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention, the object and other advantages of the invention being realized and attained by the structure particularly pointed out in the specification and the drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an internal structural view of the present invention;

FIG. 3 is a first partial cross-sectional view of the invention;

FIG. 4 is a second partial cross-sectional view of the present invention;

FIG. 5 is a view showing the internal structure of an air chamber in the present invention;

FIG. 6 is an internal structure view of a shutter plate of a power distribution cabinet in the invention;

FIG. 7 is an internal structure view of a first water box according to the present invention;

fig. 8 is an internal structure view of a connection pipe in the present invention.

In the figure: 1. a power generation power distribution cabinet body; 2. a distribution fan; 3. an air inlet groove of the power distribution cabinet; 4. a power distribution cabinet transmission pipe; 5. shutter plates of the power distribution cabinet; 6. a power distribution via; 7. a first groove; 8. an air cavity; 9. air holes; 10. a baffle plate; 11. a second groove; 12. a first torsion plate; 13. an electromagnet; 14. an iron plate; 15. an olfactory sensor; 16. a remote terminal module; 17. a connecting pipe; 18. a guide post; 19. a sealing plate; 20. a flooding sensor; 21. pipe sleeve; 22. an inner tube; 23. a first water box; 24. a second water box; 25. a water-cooled tube; 26. a foam board; 27. a pressure relief vent; 28. a second torsion plate; 29. a sponge ring; 30. a groove; 31. and (4) blocking the pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

As shown in fig. 1-6; a power distribution cabinet for anti-power generation treatment of an oil well comprises a power generation power distribution cabinet body 1, wherein two power distribution fans 2 are uniformly arranged on the power generation power distribution cabinet body 1, air inlets of the power distribution fans 2 are communicated with the inside of the upper side of the power generation power distribution cabinet body 1, a power distribution cabinet air inlet groove 3 is formed in the inner wall of the bottom of the power generation power distribution cabinet body 1, a power distribution cabinet transmission pipe 4 with a hollow inner part is uniformly hinged to the inner wall of the power distribution cabinet air inlet groove 3 through a torsion spring, a power distribution cabinet louver board 5 with a hollow inner part is fixedly connected to the outer wall of the power distribution cabinet transmission pipe 4, the inner part of the power distribution cabinet louver board 5 is communicated with the inner part of the power distribution cabinet transmission pipe 4, a power distribution through hole 6 is uniformly formed in the outer wall of the power distribution cabinet louver board 5, a first groove 7 is formed in the inner wall of the power generation power distribution cabinet body 1, and an air cavity 8 is fixedly connected to the inner wall of the first groove 7, the interior of the air cavity 8 is filled with high-pressure fire extinguishing gas, one end of the power distribution cabinet transmission tube 4 penetrates into the air cavity 8, the outer ring wall of the power distribution cabinet transmission tube 4 is provided with an air hole 9, the inner wall of the air cavity 8 is uniformly and fixedly connected with a baffle plate 10, the inner wall of the baffle plate 10 is attached to the outer wall of the power distribution cabinet transmission tube 4 extending into the air cavity 8 and covers and seals the air hole 9, the inner wall of the bottom of the power generation power distribution cabinet body 1 is provided with a second groove 11, the other end of the power distribution cabinet transmission tube 4 penetrates into the second groove 11, the outer ring wall of the power distribution cabinet transmission tube 4 is fixedly connected with a first torsion plate 12, the inner wall of the second groove 11 is fixedly connected with an electromagnet 13, the inner wall of the second groove 11 is slidably connected with an iron plate 14, the iron plate 14 can be adsorbed by the electromagnet 13, and one end of the first torsion plate 12 can be extruded when the iron plate 14 slides down, the bottom inner wall of the power generation power distribution cabinet body 1 is fixedly connected with an olfactory sensor 15, the olfactory sensor 15 is electrically connected with the electromagnet 13, and the inner wall of the power generation power distribution cabinet body 1 is fixedly connected with a remote terminal module 16 which is electrically connected with the olfactory sensor 15;

when the device is used, the device is arranged outdoors, one multifunctional electric meter, one frequency converter, one feedback unit, one main breaker, two alternating current contactors, one anti-interference relay and one other auxiliary electric element in the prior art are arranged inside the device, a worker starts two distribution fans 2 to operate, the distribution fans 2 operate to start air suction, so that gas with heat inside the power generation distribution cabinet body 1 is sucked out and discharged out of the power generation distribution cabinet body 1, in the air suction process of the distribution fans 2, outside cold air can enter the power generation distribution cabinet body 1 from a power distribution cabinet air inlet groove 3 at the bottom of the power generation distribution cabinet body 1, so that the replacement of the gas with heat inside the power generation distribution cabinet body 1 is completed, the purpose of heat dissipation and temperature reduction of the inside of the power generation distribution cabinet body 1 is achieved, when a fire disaster occurs inside the power generation distribution cabinet body 1, the insulating protective sleeve of the internal circuit is punctured and burned to generate toxic and harmful irritant gas, the olfactory sensor 15 senses the gas at the moment, the signal is transmitted to the electromagnet 13 and the remote terminal module 16 which are electrically connected with the electromagnet, then the remote terminal module 16 transmits the signal to the PC end or the mobile end used by an operator, meanwhile, the electromagnet 13 is powered off, when the electromagnet 13 is powered off, the electromagnet 13 does not perform magnetic adsorption on the iron plate 14, at the moment, the iron plate 14 slides downwards along the inner wall of the second groove 11, the first torsion plate 12 is pushed in the process that the iron plate 14 slides downwards, at the moment, the pushed first torsion plate 12 can drive the power distribution cabinet transmission pipe 4 fixedly connected with the first torsion plate to be twisted together, when the power distribution cabinet transmission pipe 4 is twisted, the position of the air hole 9 formed in the power distribution cabinet transmission pipe 4 changes along with the first torsion plate, along with the transmission of the transmission tube 4 of the power distribution cabinet, the baffle 10 does not cover and seal the air hole 9 any more, and when the transmission tube 4 of the power distribution cabinet rotates, the louver boards 5 of the power distribution cabinet rotate together, and along with the rotation of the louver boards 5 of the power distribution cabinet, the louver boards 5 of the power distribution cabinet are attached to seal the air inlet grooves 3 of the power distribution cabinet, so that outside air can not enter the interior of the cabinet body 1 of the power generation distribution cabinet, when the air hole 9 is no longer sealed by the baffle 10, the fire extinguishing gas in the air cavity 8 enters the inside of the power distribution cabinet transmission tube 4 from the air hole 9, then enters the inside of the power distribution cabinet louver 5 communicated with the inside of the power distribution cabinet transmission tube 4 from the power distribution cabinet transmission tube 4, and then is discharged from the power distribution through holes 6 uniformly formed in the power distribution cabinet louver 5 and enters the inside of the power generation power distribution cabinet body 1, while the distribution fan 2 continuously operates, the distribution fan 2 extracts the air in the power generation distribution cabinet body 1, meanwhile, the fire extinguishing gas in the air cavity 8 enters the power generation distribution cabinet body 1, thereby completing the replacement of the air inside the cabinet body 1 of the power generation distribution cabinet, so that the inside of the cabinet body 1 of the power generation distribution cabinet is filled with fire extinguishing gas, so that the flame burning in the cabinet body 1 of the power generation distribution cabinet can not obtain oxygen and then is extinguished, thereby preventing the fire in the cabinet body 1 of the power generation distribution cabinet from spreading, when the flame inside the cabinet body 1 of the power generation distribution cabinet is extinguished, the coming staff electrifys the electromagnet 13, the electromagnet 13 is electrified to adsorb the iron plate 14, so that the iron plate slides and resets on the inner wall of the second groove 11, the iron plate 14 does not extrude the first torsion plate 12 after resetting, make switch board transmission tube 4 reset under the torsion of self and rotate to make switch board shutter plate 5 reset and not sealing switch board air inlet duct 3.

As shown in fig. 2, 3, 4 and 8; the bottom of the power generation and distribution cabinet body 1 is fixedly connected with a connecting pipe 17, the inside of the connecting pipe 17 is communicated with the power distribution cabinet air inlet groove 3, the outer wall of the bottom of the power generation and distribution cabinet body 1 is symmetrically and fixedly connected with guide pillars 18, the outer wall of each guide pillar 18 is slidably connected with a floating sealing plate 19, the sealing plate 19 can be inserted into the bottom of the connecting pipe 17 and seals the connecting pipe, the inner wall of the bottom of the power generation and distribution cabinet body 1 is fixedly connected with a water flooding sensor 20, double probes of the water flooding sensor 20 penetrate through the inner wall of the bottom of the power generation and distribution cabinet body 1 to the outside of the power generation and distribution cabinet body 1, and the water flooding sensor 20 is electrically connected with the remote terminal module 16;

when the power distribution cabinet is used, because the power distribution cabinet is outdoors, in order to prevent flood in rainy seasons, water enters the power generation power distribution cabinet body 1 from the power distribution cabinet air inlet groove 3, and electric devices inside the power generation power distribution cabinet body 1 are damaged by short circuit, the connecting pipe 17 is fixedly connected to the outer wall of the bottom of the power generation power distribution cabinet body 1, the guide posts 18 are symmetrically and fixedly connected to the outer wall of the bottom of the power generation power distribution cabinet body 1, the sealing plate 19 is also slidably connected to the outer wall of the guide posts 18, and the sealing plate 19 has buoyancy and can be inserted into the bottom of the connecting pipe 17, so when water is accumulated at the bottom of the power distribution cabinet body 1, the sealing plate 19 can slide upwards along the guide posts 18 under the buoyancy of water and is inserted into the bottom of the connecting pipe 17 to seal the connecting pipe 17, so that the water is prevented from entering the inside of the power generation power distribution cabinet body 1 from the power distribution cabinet air inlet groove 3 and affecting the electric devices inside the power generation power distribution cabinet body 1, the inner wall of the bottom of the power distribution cabinet body 1 is also fixedly connected to the water flooding sensor 20, and the flooding sensor 20 penetrates through the bottom of the power distribution cabinet body 1 to the bottom of the power distribution cabinet body 1, and sends out remote warning to the remote flooding information module 16 of the PC terminal of the PC working personnel.

As shown in fig. 8; a pipe sleeve 21 is fixedly connected to the inner wall of the connecting pipe 17, a gap is formed between the outer wall of the pipe sleeve 21 and the inner wall of the connecting pipe 17, an inner pipe 22 is fixedly connected to the inner wall of the lower side of the connecting pipe 17, the inner pipe 22 is sleeved by the pipe sleeve 21, and a gap is formed between the inner wall of the pipe sleeve 21 and the outer wall of the inner pipe 22;

during the use, in order to prevent external dust from entering the inside of the power generation distribution cabinet body 1 from the connecting pipe 17, thereby causing the dust to affect the electric devices inside the power generation distribution cabinet body 1, so the inner wall fixedly connected with pipe sleeve 21 at the connecting pipe 17, and the inner wall at the lower side of the connecting pipe 17 is also fixedly connected with the inner pipe 22, and the gap between the connecting pipe 17 and the inner pipe 22 is filled with water, which enables the distribution fan 2 to operate, so that the external air can pass through the inner pipe 22 when entering the inside of the connecting pipe 17, and then enter the gap between the outer wall of the inner pipe 22 and the inner wall of the pipe sleeve 21, and then the gap between the outer wall of the pipe sleeve 21 and the inner wall of the connecting pipe 17, in this process, the air can contact the water existing between the inner wall of the connecting pipe 17 and the outer wall of the inner pipe 22, so that the air passes through the water in the form of bubbles, and the dust in the air passing through the water in the form of bubbles can be adsorbed by the water, thereby the external dust can not enter the inside of the power generation distribution cabinet body 1, and the electric devices inside the power generation distribution cabinet body 1 are affected.

As shown in fig. 1, 2, 4 and 7; a first water box 23 is fixedly connected to the outer wall of the right side of the power generation and distribution cabinet body 1, a second water box 24 is fixedly connected to the outer wall of the left side of the power generation and distribution cabinet body 1, the horizontal height of the second water box 24 is higher than that of the first water box 23, an air outlet of the power distribution fan 2 is communicated with the inside of the upper side of the first water box 23 through a pipeline, a water-cooling pipe 25 with a bent pipe body is fixedly connected to the inner wall of the power generation and distribution cabinet body 1, one end of the water-cooling pipe 25 penetrates through the inside of the lower side of the first water box 23, the other end of the water-cooling pipe penetrates through the inside of the lower side of the second water box 24, a foam plate 26 is slidably connected to the inner wall of the first water box 23, a pressure relief hole 27 is formed in the outer wall of the first water box 23, a second torsion plate 28 is slidably connected to the inner wall of the first water box 23, one end of the second torsion plate 28 is connected to the top of the foam plate 26 through a rope, and the second torsion plate 28 can cover and seal the pressure relief hole 27;

when the power generation distribution cabinet is used, the first water box 23 is fixedly connected to the outer wall of the right side of the power generation distribution cabinet body 1, the air outlets of the two distribution fans 2 are communicated with the inside of the upper side of the first water box 23 through a pipeline, so that exhaust gas of the distribution fans 2 can enter the inside of the upper side of the first water box 23, more and more gas enters the first water box 23, at the moment, the gas entering the inside of the first water box 23 can push the foam plate 26, the foam plate 26 slides downwards along the inner wall of the first water box 23, the foam plate 26 can push water in the first water box 23 in the process of sliding downwards along the inner wall of the first water box 23, as water in the first water box 23 is pushed, water in the first water box 23 can continuously enter the inside of the water cooling pipe 25 communicated with the water cooling pipe 25, then flows to the inside of the second water box 24 in the inside of the water cooling pipe 25, more and more gas enters the inside the first water box 23, the downward sliding distance of the foam plate 26 is larger and larger, so that more and more water enters the second water box 24 from the inside of the first water box 23, the heat inside the power generation distribution cabinet body 1 can be transferred to the pipe wall of the water cooling pipe 25, the circulating water inside the water cooling pipe 25 can absorb the heat inside the power generation distribution cabinet body 1 absorbed by the pipe wall of the water cooling pipe 25, the purpose of cooling the inside of the power generation distribution cabinet body 1 is achieved, in the downward sliding process of the foam plate 26, the foam plate 26 pulls the second torsion plate 28 through a rope, along with the downward sliding of the foam plate 26 to a certain distance, the second torsion plate 28 cannot seal the pressure relief holes 27 after being pulled and displaced, at the moment, the gas inside the first water box 23 can be discharged from the pressure relief holes 27, and the gas inside the first water box 23 cannot push the foam plate 26, the horizontal height of the second water box 24 is far higher than that of the first water box 23, so that water in the second water box 24 flows back along the water cooling pipe 25 under the self gravity, and the flowing back water absorbs the temperature of the pipe wall of the water cooling pipe 25, so that the purpose of cooling the inside of the power generation power distribution cabinet body 1 is achieved, more and more water flows back into the first water box 23, at the moment, the foam plate 26 also resets and slides along the inner wall of the first water box 23 under the self buoyancy, in the process of resetting and sliding of the foam plate 26, the top of the foam plate 26 pushes the second torsion plate 28, the second torsion plate 28 resets to seal the pressure relief holes 27, after the pressure relief holes 27 are sealed, exhaust gas of the power distribution fan 2 can gather inside the first water box 23 again, and accordingly circulation is achieved, and the effect of cooling the inside of the power generation power distribution cabinet body 1 is improved.

As shown in fig. 8; the inner wall of the connecting pipe 17 is fixedly connected with a sponge ring 29, and the inner wall of the sponge ring 29 is fixedly connected with the outer wall of the pipe sleeve 21;

when the gas filtering device is used, gas entering the connecting pipe 17 passes through the sponge ring 29 when passing through water, the bubbles formed when the gas passes through the water are scattered by the sponge ring 29, so that the bubbles become fine and dense, dust in the fine bubbles is adsorbed by the water, and the filtering effect on the dust in the gas is improved.

As shown in fig. 2 and 3; the outer wall of the water cooling pipe 25 is uniformly provided with grooves 30;

during the use, the recess 30 that the water-cooled tube 25 outer wall was evenly seted up can be so that the inside area of contact that has between thermal gas and the pipe wall of water-cooled tube 25 of generating switch cabinet body 1 to this makes the cooling radiating effect of water-cooled tube 25 to the inside of generating switch cabinet body 1.

As shown in fig. 1; a blocking pipe 31 is fixedly connected to the inner wall of the bottom of the power generation power distribution cabinet body 1, and the double probes of the flooding sensor 20 are sleeved in the blocking pipe 31;

during the use, be connected with in the bottom outer wall fixed connection of power generation switch board cabinet body 1 and keep off pipe 31 to keep off pipe 31 and establish including the two probe cover of flood detector, can prevent that external rivers from sputtering on the two probes of flood sensor 20, thereby prevent that flood sensor 20 from with wrong signal transmission.

As shown in fig. 2, 3 and 5; the fire extinguishing gas is formed by mixing 52%, 40% and 8% of nitrogen, argon and carbon dioxide;

when in use, the gases naturally exist in the atmosphere, have rich sources, no loss of ozone and no greenhouse effect, and the mixed gas is non-toxic, colorless, tasteless, non-corrosive and non-conductive, does not support combustion, and does not react with most substances.

The working principle of the invention is as follows:

referring to the attached drawings 1-6 of the specification, the invention is installed outdoors, one multifunctional electric meter, one frequency converter, one feedback unit, one main breaker, two alternating current contactors, one anti-interference relay and one other auxiliary electric element set in the prior art are installed inside, a worker starts two distribution fans 2 to operate, the distribution fans 2 operate to start air suction, so that gas with heat inside the power generation and distribution cabinet body 1 is sucked out, the power generation and distribution cabinet body 1 is discharged, in the air suction process of the distribution fans 2, outside cold air can enter the power generation and distribution cabinet body 1 from an air inlet groove 3 of the power distribution cabinet body 1 at the bottom of the power generation and distribution cabinet body 1, so that the replacement of the gas with heat inside the power generation and distribution cabinet body 1 is completed, and the purpose of heat dissipation and temperature reduction of the inside the power generation and distribution cabinet body 1 is achieved, when a fire disaster happens inside the power generation power distribution cabinet body 1, the insulating protective sleeve of the internal circuit is punctured and burned to generate toxic and harmful irritant gas, the olfactory sensor 15 senses the gas and transmits a signal to the electromagnet 13 and the remote terminal module 16 which are electrically connected with the signal, then the remote terminal module 16 transmits the signal to a PC end or a mobile end used by a worker, and the electromagnet 13 is powered off, when the electromagnet 13 is powered off, the electromagnet 13 does not perform magnetic adsorption on the iron plate 14, the iron plate 14 slides downwards along the inner wall of the second groove 11, the first torsion plate 12 is pushed in the process that the iron plate 14 slides downwards, the pushed first torsion plate 12 can drive the power distribution cabinet transmission pipe 4 fixedly connected with the torsion plate to be twisted together, and when the power distribution cabinet transmission pipe 4 is twisted, the position of an air hole 9 formed in a power distribution cabinet transmission tube 4 is changed along with the change of the position, a baffle plate 10 does not cover and seal the air hole 9 along with the transmission of the power distribution cabinet transmission tube 4, the power distribution cabinet louver boards 5 rotate along with the rotation of the power distribution cabinet louver boards 5, the power distribution cabinet air inlet grooves 3 are sealed by the attachment of the power distribution cabinet louver boards 5, so that outside air cannot enter the interior of a power generation power distribution cabinet body 1, when the air hole 9 is not sealed by the baffle plate 10, fire extinguishing gas in an air cavity 8 can enter the interior of the power distribution cabinet transmission tube 4 from the air hole 9, then enter the interior of the power distribution cabinet louver boards 5 communicated with the interior of the power generation cabinet body from the power distribution cabinet transmission tube 4, and then is discharged from power distribution through holes 6 uniformly formed in the power distribution cabinet louver boards 5 to enter the interior of the power generation power distribution cabinet body 1, along with the continuous operation of the distribution fan 2, while the distribution fan 2 extracts the air in the power generation distribution cabinet body 1, the fire extinguishing gas in the air cavity 8 enters the power generation distribution cabinet body 1, so as to complete the replacement of the air in the power generation distribution cabinet body 1, so that the power generation distribution cabinet body 1 is filled with the fire extinguishing gas, the flame burning in the power generation distribution cabinet body 1 cannot acquire oxygen and then extinguishes, the fire spreading in the power generation distribution cabinet body 1 is prevented, after the flame in the power generation distribution cabinet body 1 is extinguished, the rushed worker energizes the electromagnet 13, the electromagnet 13 is energized to adsorb the iron plate 14, the iron plate is slid and reset on the inner wall of the second groove 11, the iron plate 14 is not extruded on the first torsion plate 12 after being reset, and the power distribution cabinet transmission pipe 4 is reset and rotates under the torsion of the distribution cabinet body itself, therefore, the louver boards 5 of the power distribution cabinet reset and do not seal the air inlet grooves 3 of the power distribution cabinet.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A switch board is administered in anti-electricity generation of oil well, including the electricity generation switch board cabinet body (1), evenly be provided with two distribution fan (2) of the electricity generation switch board cabinet body (1), the air intake of distribution fan (2) all with the inside intercommunication of upside of the electricity generation switch board cabinet body (1), its characterized in that: the power generation power distribution cabinet is characterized in that a power distribution cabinet air inlet groove (3) is formed in the inner wall of the bottom of a power distribution cabinet body (1), the inner wall of the power distribution cabinet air inlet groove (3) is uniformly hinged with a power distribution cabinet transmission pipe (4) with a hollow inner part, the outer wall of the power distribution cabinet transmission pipe (4) is fixedly connected with a power distribution cabinet louver board (5) with a hollow inner part, the inner part of the power distribution cabinet louver board (5) is communicated with the inner part of the power distribution cabinet transmission pipe (4), power distribution through holes (6) are uniformly formed in the outer wall of the power distribution cabinet transmission pipe (5), a first groove (7) is formed in the inner wall of the bottom of the power generation power distribution cabinet body (1), an air cavity (8) is fixedly connected with the inner wall of the first groove (7), high-pressure fire extinguishing gas is filled in the air cavity (8), one end of the power distribution cabinet transmission pipe (4) penetrates into the inner part of the air cavity (8), an air hole (9) is formed in the outer ring wall of the power distribution cabinet transmission pipe, a baffle plate (10) is uniformly and the inner wall of the air cavity (8) is bonded with a second groove (11) which covers the power distribution cabinet body (11), and the equal fixedly connected with first board (12) of twisting of its outer lane wall, the inner wall fixedly connected with electro-magnet (13) of No. two grooves (11), the inner wall sliding connection in No. two grooves (11) has iron plate (14), iron plate (14) can by electro-magnet (13) adsorb, just can be right during iron plate (14) landing the one end of first board (12) is extruded, the bottom inner wall fixedly connected with sense of smell sensor (15) of the power generation switch board cabinet body (1), sense of smell sensor (15) with electro-magnet (13) carry out electric connection, the inner wall fixedly connected with of the power generation switch board cabinet body (1) with sense of smell sensor (15) carry out electric connection's remote terminal module (16).

2. The power distribution cabinet for oil well reverse power generation treatment according to claim 1, wherein: the power generation power distribution cabinet is characterized in that a connecting pipe (17) is fixedly connected to the bottom of the power generation power distribution cabinet body (1), the inside of the connecting pipe (17) is communicated with the power distribution cabinet air inlet groove (3), guide pillars (18) are fixedly connected to the outer wall of the bottom of the power generation power distribution cabinet body (1) in a symmetrical mode, a sealing plate (19) with buoyancy is connected to the outer wall of each guide pillar (18) in a sliding mode, the sealing plate (19) can be inserted into the bottom of the connecting pipe (17) and seals the connecting pipe, a water flooding sensor (20) is fixedly connected to the inner wall of the bottom of the power generation power distribution cabinet body (1), double probes of the water flooding sensor (20) penetrate through the inner wall of the bottom of the power generation power distribution cabinet body (1) to the outer portion of the power generation power distribution cabinet body, and the water flooding sensor (20) is electrically connected with the remote terminal module (16).

3. The power distribution cabinet for oil well reverse power generation treatment according to claim 2, wherein: the inner wall fixedly connected with pipe box (21) of connecting pipe (17), the outer wall of pipe box (21) with have the space between the inner wall of connecting pipe (17), the downside inner wall fixedly connected with inner tube (22) of connecting pipe (17), inner tube (22) quilt including pipe box (21) cover is established, just the inner wall of pipe box (21) with have the space between the outer wall of inner tube (22).

4. The power distribution cabinet for oil well reverse power generation treatment according to claim 1, wherein: the power generation power distribution cabinet is characterized in that a first water box (23) is fixedly connected to the outer wall of the right side of a power generation power distribution cabinet body (1), a second water box (24) is fixedly connected to the outer wall of the left side of the power generation power distribution cabinet body (1), the horizontal height of the second water box (24) is higher than the horizontal height of the first water box (23), an air outlet of a power distribution fan (2) is communicated with the inside of the upper side of the first water box (23) through a pipeline, the inner wall of the power generation power distribution cabinet body (1) is fixedly connected with water cooling pipes (25) with pipes designed in a plurality of bending positions, one ends of the water cooling pipes (25) penetrate through the inside of the lower side of the first water box (23), the other ends of the water cooling pipes penetrate through the inside of the lower side of the second water box (24), a foam plate (26) is slidably connected to the inner wall of the first water box (23), pressure relief holes (27) are formed in the outer wall of the first water box (23), a second torsion plate (28) is connected with the top of the second torsion plate (26), and the second torsion plate (27) can be covered with the second torsion plate (28).

5. The power distribution cabinet for oil well reverse power generation treatment according to claim 3, wherein: the inner wall of the connecting pipe (17) is fixedly connected with a sponge ring (29), and the inner wall of the sponge ring (29) is fixedly connected with the outer wall of the pipe sleeve (21).

6. The power distribution cabinet for oil well reverse power generation treatment according to claim 4, wherein: the outer wall of the water cooling pipe (25) is uniformly provided with grooves (30).

7. The power distribution cabinet for oil well reverse power generation treatment according to claim 2, characterized in that: the power generation power distribution cabinet is characterized in that a blocking pipe (31) is fixedly connected to the inner wall of the bottom of the power generation power distribution cabinet body (1), and the blocking pipe (31) is sleeved with the double probes of the water flooding sensor (20).

8. The power distribution cabinet for oil well reverse power generation treatment according to claim 1, wherein: the fire extinguishing gas is formed by mixing 52%, 40% and 8% of nitrogen, argon and carbon dioxide.