CN209929812U - Natural cooling type mobile energy storage power station for shale gas exploitation - Google Patents

Abstract

The utility model relates to a shale gas opens and adopts natural cooling formula removal energy storage power station, belong to energy storage power station technical field, fixed mounting first air pipe between first battery group cabinet and mobile box lateral wall, first air pipe intercommunication first blowing pipe, a plurality of first blowing pipes set up with first battery group cabinet relatively, fixed mounting second ventilation pipeline between second battery group cabinet and the mobile box lateral wall, second ventilation pipeline communicates the second blowing pipe, a plurality of second blowing pipes set up with second battery group cabinet relatively, after the steam in the mobile box is sucked the inlet scoop by the suction fan, get into the heat dissipation intraductal, the heat loss in the heat dissipation intraductal fin acceleration heat dissipation intraductal of heat dissipation branch, realize once heat dissipation; the hot-blast in-process that flows in the sealed box is given the heat transfer to stainless steel and is attacked the tooth ball, and stainless steel is attacked the tooth ball and is given the cooling water with heat transfer after absorbing the heat, and the secondary cooling of realization has practiced thrift electric power resource, the cost is reduced.

Description

Natural cooling type mobile energy storage power station for shale gas exploitation

Technical Field

The utility model belongs to the technical field of energy storage power station technique and specifically relates to a shale gas is opened and is adopted natural cooling formula and remove energy storage power station is related to.

Background

Shale gas is an important target of natural gas industrial exploration under the economic condition of the prior art. Shale gas resources in China are also very rich, and only the reservoir hydrocarbon source rock in the four Sichuan basin has the resource amount of about 60 multiplied by 10^8 cubic meters, but the exploration and development of shale gas at present are still in the exploration stage, and deep research is needed.

The movable energy storage power station is required in the shale gas exploration and development process, the traditional movable energy storage power station is small in volume and limited by the volume of a movable power station room, the placing density of batteries in the room is high, a large amount of heat can be generated when the batteries work in a centralized manner, and particularly for battery packs placed in a stacked manner, the heating phenomenon is more serious; at present, in order to solve the problem of overheating in a power station room, an air conditioner is arranged in the power station room, and the air conditioner is used for cooling the power station room by refrigeration, and the method is suitable for being used in an area with hot weather; for a severe cold area, if the air conditioner is used for cooling the interior of the power station room, a large amount of electric energy resources can be wasted, and the energy strategy and the low-carbon economic life of sustainable development are not met.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to overcome the problems that in the severe cold area in the prior art, the air conditioner is used for cooling the interior of a power station room, a large amount of electric energy resources can be wasted, and the energy strategy of sustainable development and the low-carbon economic life are not met, the natural cooling type mobile energy storage power station for shale gas exploitation is provided.

The utility model provides a technical scheme that its technical problem adopted is: a natural cooling type mobile energy storage power station for shale gas opening comprises a mobile box body, wherein a first battery pack cabinet and a second battery pack cabinet are fixedly installed in the mobile box body, the first battery pack cabinet and the second battery pack cabinet are arranged in parallel and at intervals, a first ventilating pipeline is fixedly installed between the first battery pack cabinet and the side wall of the mobile box body, a plurality of first air blowing pipes communicated with the first ventilating pipeline are fixedly installed on the first ventilating pipeline, the plurality of first air blowing pipes are arranged opposite to the first battery pack cabinet, a second ventilating pipeline is fixedly installed between the second battery pack cabinet and the side wall of the mobile box body, a plurality of second air blowing pipes communicated with the second ventilating pipeline are fixedly installed on the second ventilating pipeline, the plurality of second air blowing pipes are arranged opposite to the second battery pack cabinet, and the first ventilating pipeline and the second ventilating pipeline are communicated through an intermediate pipeline positioned at the bottom of the mobile box body, the air suction inlet is formed in the top of the movable box body, an air suction fan is fixedly mounted in the air suction inlet, the air suction inlet is located between the first battery pack cabinet and the second battery pack cabinet, an air cooling heat dissipation device and a water cooling heat dissipation device are fixedly mounted on the outer side of the top of the movable box body, a heat insulation plate is fixedly mounted between the air cooling heat dissipation device and the water cooling heat dissipation device, and the air suction inlet, the air cooling heat dissipation device, the water cooling heat dissipation device and the first air pipe are sequentially communicated.

Furthermore, the air-cooled heat dissipation device comprises a heat dissipation air pipe, the heat dissipation air pipe is communicated with the air suction opening and the water-cooled heat dissipation device, and a plurality of heat dissipation fins are fixedly mounted outside the heat dissipation air pipe for accelerating the loss of heat in the heat dissipation branch pipe.

Further, the water-cooling heat dissipation device comprises a sealed box body, the heat dissipation air pipe is communicated with the top of the sealed box body, the first ventilating duct is communicated with the bottom of the sealed box body, a stainless steel tapping ball is filled in the sealed box body, the stainless steel tapping ball is filled with cooling water, hot air in the heat dissipation air pipe enters the sealed box body from the top of the sealed box body, the hot air flows to the bottom of the sealed box body from a gap of the stainless steel tapping ball, the heat is transferred to the stainless steel tapping ball in the process that the hot air flows in the sealed box body, the heat is transferred to the cooling water by the stainless steel tapping ball after absorbing the heat, the cooling water can be frozen in a severe cold environment and can absorb more heat, the cooling of the hot air is realized, the cooling air is not in direct contact with the cooling water, the moisture content in the cooling water is not increased, and the battery is not affected with damp; the hot air flows along the clearance of the stainless steel tapping ball, the flowing distance is longer, the heat dissipation effect is better, the heat conduction and the heat dissipation effect of the stainless steel tapping ball are better, and the heat loss is further accelerated.

The utility model discloses a shale gas opens and adopts natural cooling formula removal energy storage power station, fixed mounting has first air pipe between first battery pack cabinet and mobile box lateral wall, first air pipe intercommunication first blowing pipe, a plurality of first blowing pipes set up with first battery pack cabinet relatively, fixed mounting has second air pipe between second battery pack cabinet and the mobile box lateral wall, second air pipe intercommunication second blowing pipe, a plurality of second blowing pipes set up with second battery pack cabinet relatively, the inlet scoop is located between first battery pack cabinet and the second battery pack cabinet, hot gas in the mobile box is after being inhaled the inlet scoop by the induced-draft fan, get into the heat dissipation branch intraductal, because the environment is severe cold, the heat loss in the heat dissipation intraductal fin acceleration heat dissipation trachea outside the heat dissipation branch, thereby realize once heat dissipation; hot air in the heat dissipation air pipe enters the sealed box body from the top of the sealed box body, the hot air flows to the bottom of the sealed box body from a gap of the stainless steel tapping ball, the heat is transferred to the stainless steel tapping ball in the process that the hot air flows in the sealed box body, the stainless steel tapping ball absorbs the heat and transfers the heat to cooling water, the cooling water can be frozen in a severe cold environment and can absorb more heat, so that the secondary cooling of the hot air is realized, the cooling air is not in direct contact with the cooling water, the moisture content in the cooling water cannot be increased, and the battery cannot be affected with damp; the hot air flows along the gap of the stainless steel tapping ball, the flowing distance is long, the heat dissipation effect is good, the heat conduction and heat dissipation effects of the stainless steel tapping ball are good, the heat loss is further accelerated, after cooling air cooled twice enters the first ventilating duct, the middle duct and the second ventilating duct, the cooling air is blown to the first battery pack cabinet by the first air blowing pipe and blown to the second battery pack cabinet by the second air blowing pipe, and after the heat on the surfaces of the batteries is taken away by the cooling air of the first battery pack cabinet and the second battery pack cabinet, the cooling air enters the heat dissipation air duct from the air suction opening, so that the circulating heat dissipation is realized; the utility model discloses use natural cooling's mode to dispel the heat to the removal box is inside, practiced thrift electric power resource, the cost is reduced satisfies the requirement of national sustainable development's energy strategy and low carbon economic life.

Further, the stainless steel tapping ball comprises a hollow ball body, a mounting block is fixedly mounted on the ball body, a threaded hole communicated with the inner cavity of the ball body is formed in the mounting block, a screw is mounted in the threaded hole, cooling water is poured into the inner cavity of the ball body from the threaded hole, the volume of the cooling water is increased after freezing, the ball body is broken after the cooling water is prevented from freezing, the volume of the cooling water is smaller than the volume of the inner cavity of the ball body, a raw material belt is wound outside the screw after the cooling water is filled, then the screw is mounted in the threaded hole in a threaded mode, and the sealing performance of the stainless steel tapping ball is guaranteed.

Furthermore, the heat insulation plate is a foam plate, a stainless steel plate is coated outside the heat insulation plate, and the heat insulation plate is obliquely arranged towards the air-cooled heat dissipation device.

Further, in order to make the wind direction disperse, can be more even blow to every battery on the battery pack cabinet, first blowing pipe and second blowing pipe all include cylindrical pipe and round platform venturi tube, cylindrical pipe and the coaxial setting of round platform venturi tube, the great circle opening of round platform venturi tube is greater than the opening of cylindrical pipe, the great circle opening of round platform venturi tube is just to first battery pack cabinet or second battery pack cabinet.

For preventing to remove the cold wind after the higher heat in the box heats first air pipe, second air pipe and the cooling in the intermediate duct, influence the cooling effect, first air pipe, second air pipe and intermediate duct all cladding have the heated board outward, and the heated board will cool off the wind after and remove the heat in the box and completely cut off.

When the diameter of stainless steel tapping ball is less, for preventing that the stainless steel tapping ball from getting into first air pipe, block up first pipeline, influence the flow of cooling air, first air pipe and the intercommunication department fixed mounting of sealed box have the otter board.

The utility model has the advantages that the utility model discloses a shale gas opens and adopts natural cooling formula mobile energy storage power station, fixed mounting has first air pipe between first battery group cabinet and mobile box lateral wall, first air pipe intercommunication first blowing pipe, a plurality of first blowing pipes set up with first battery group cabinet relatively, fixed mounting has second ventilation pipeline between second battery group cabinet and the mobile box lateral wall, second ventilation pipeline intercommunication second blowing pipe, a plurality of second blowing pipes set up with second battery group cabinet relatively, the inlet scoop is located between first battery group cabinet and the second battery group cabinet, after the steam in the mobile box is sucked the inlet scoop by the induced-draft fan, get into the heat dissipation branch, because the environment is severe cold, the heat loss in the heat dissipation branch outside the fin accelerates the heat dissipation branch outside the heat dissipation branch, thereby realize once heat dissipation; hot air in the heat dissipation air pipe enters the sealed box body from the top of the sealed box body, the hot air flows to the bottom of the sealed box body from a gap of the stainless steel tapping ball, the heat is transferred to the stainless steel tapping ball in the process that the hot air flows in the sealed box body, the stainless steel tapping ball absorbs the heat and transfers the heat to cooling water, the cooling water can be frozen in a severe cold environment and can absorb more heat, so that the secondary cooling of the hot air is realized, the cooling air is not in direct contact with the cooling water, the moisture content in the cooling water cannot be increased, and the battery cannot be affected with damp; the hot air flows along the gap of the stainless steel tapping ball, the flowing distance is long, the heat dissipation effect is good, the heat conduction and heat dissipation effects of the stainless steel tapping ball are good, the heat loss is further accelerated, after cooling air cooled twice enters the first ventilating duct, the middle duct and the second ventilating duct, the cooling air is blown to the first battery pack cabinet by the first air blowing pipe and blown to the second battery pack cabinet by the second air blowing pipe, and after the heat on the surfaces of the batteries is taken away by the cooling air of the first battery pack cabinet and the second battery pack cabinet, the cooling air enters the heat dissipation air duct from the air suction opening, so that the circulating heat dissipation is realized; the utility model discloses use natural cooling's mode to dispel the heat to the removal box is inside, practiced thrift electric power resource, the cost is reduced satisfies the requirement of national sustainable development's energy strategy and low carbon economic life.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a two-dimensional cross-sectional view of the present invention;

FIG. 2 is a two-dimensional cross-sectional view of a stainless steel tapping ball according to the present invention;

fig. 3 is a schematic view of the air flow of the present invention.

In the figure: 1. the heat-insulation structure comprises a movable box body, 2 parts of a first battery pack cabinet, 3 parts of a second battery pack cabinet, 4 parts of a first ventilating duct, 4-1 parts of a first air blowing pipe, 5 parts of a second ventilating duct, 5-1 parts of a second air blowing pipe, 6 parts of an intermediate pipeline, 7 parts of an air suction fan, 8 parts of an air cooling heat dissipation device, 8-1 parts of a heat dissipation air pipe, 8-2 parts of a heat dissipation sheet, 9 parts of a water cooling heat dissipation device, 9-1 parts of a sealing box body, 9-2 parts of a stainless steel tapping ball, 9-2-1 parts of cooling water, 9-2-2 parts of a ball body, 9-2-3 parts of a mounting block, 9-2-4 parts of a screw, 10 parts of a heat insulation board, 10-1 parts of a stainless steel plate, 11 parts.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1, a natural cooling type mobile energy storage power station for shale gas extraction comprises a mobile box body 1, a first battery pack cabinet 2 and a second battery pack cabinet 3 are fixedly installed in the mobile box body 1, the first battery pack cabinet 2 and the second battery pack cabinet 3 are arranged in parallel and at intervals, a first ventilating duct 4 is fixedly installed between the first battery pack cabinet 2 and the side wall of the mobile box body 1, a plurality of first blowing pipes 4-1 communicated with the first ventilating duct 4 are fixedly installed on the first ventilating duct 4, a plurality of first blowing pipes 4-1 are arranged opposite to the first battery pack cabinet 2, a second ventilating duct 5 is fixedly installed between the second battery pack cabinet 3 and the side wall of the mobile box body 1, a plurality of second blowing pipes 5-1 communicated with the second ventilating duct 5 are fixedly installed on the second ventilating duct 5, and a plurality of second blowing pipes 5-1 are arranged opposite to the second battery pack cabinet 3, first air pipe 4 and second air pipe 5 communicate through the intermediate duct 6 that is located 1 bottom of removal box, the inlet scoop has been seted up at 1 top of removal box, fixed mounting has suction fan 7 in the inlet scoop, the inlet scoop is located between first battery pack cabinet 2 and the second battery pack cabinet 3, the outside fixed mounting at 1 top of removal box has air-cooled heat abstractor 8 and water-cooled heat abstractor 9, fixed mounting has heat insulating board 10 between air-cooled heat abstractor 8 and the water-cooled heat abstractor 9, heat insulating board 10 is the cystosepiment, the outer cladding of heat insulating board 10 has corrosion resistant plate 10-1, heat insulating board 10 is to the installation of 8 slopes of air-cooled heat abstractor. The air suction opening, the air-cooled heat dissipation device 8, the water-cooled heat dissipation device 9 and the first ventilation pipeline 4 are communicated in sequence.

The air-cooled heat dissipation device 8 comprises a heat dissipation air pipe 8-1, the heat dissipation air pipe 8-1 is communicated with an air suction opening and a water-cooled heat dissipation device 9, and a plurality of heat dissipation fins 8-2 are fixedly arranged outside the heat dissipation air pipe 8-1 for accelerating the loss of heat in the heat dissipation branch pipe.

The water-cooling heat dissipation device 9 comprises a sealing box body 9-1, a heat dissipation air pipe 8-1 is communicated with the top of the sealing box body 9-1, a first ventilation pipeline 4 is communicated with the bottom of the sealing box body 9-1, a stainless steel tapping ball 9-2 is filled in the sealing box body 9-1, cooling water 9-2-1 is filled in the stainless steel tapping ball 9-2, hot air in the heat dissipation air pipe 8-1 enters the sealing box body 9-1 from the top of the sealing box body 9-1, the hot air flows to the bottom of the sealing box body 9-1 from a gap of the stainless steel tapping ball 9-2, heat is transferred to the stainless steel tapping ball 9-2 in the process that the hot air flows in the sealing box body 9-1, the stainless steel tapping ball 9-2 absorbs the heat and transfers the heat to the cooling water 9-2-1, the cooling water 9-2-1 can be frozen in a severe cold environment and can absorb more heat, so that the cooling of hot air is realized, the cooling air is not in direct contact with the cooling water 9-2-1, the moisture content in the cooling water 9-2-1 is not increased, and the battery is not affected with damp; the hot air flows along the gap of the stainless steel tapping ball 9-2, the flowing distance is long, the heat dissipation effect is good, the heat conduction and heat dissipation effects of the stainless steel tapping ball 9-2 are good, and the heat loss is further accelerated. The stainless steel tapping ball 9-2 comprises a hollow ball body 9-2-2, as shown in figure 2, a mounting block 9-2-3 is fixedly mounted on the ball body 9-2-2, a threaded hole communicated with an inner cavity of the ball body 9-2-2 is formed in the mounting block 9-2-3, a screw 9-2-4 is mounted in the threaded hole, cooling water 9-2-1 is poured into the inner cavity of the ball body 9-2-2 from the threaded hole, the volume of the cooling water 9-2-1 is increased after freezing, the ball body 9-2-2 is broken to prevent the cooling water 9-2-1 from being frozen, the volume of the cooling water 9-2-1 is smaller than the volume of the inner cavity of the ball body 9-2-2, and after the cooling water 9-2-1 is filled, the thread tape is wound outside the screw 9-2-4, and then the screw 9-2-4 is installed in the threaded hole in a threaded manner, so that the sealing performance of the stainless steel tapping ball 9-2 is ensured.

In order to disperse the wind direction and uniformly blow each battery on the battery pack cabinet, the first wind blowing pipe 4-1 and the second wind blowing pipe 5-1 both comprise a cylindrical pipe and a circular truncated cone-shaped pipe, the cylindrical pipe and the circular truncated cone-shaped pipe are coaxially arranged, a large circular opening of the circular truncated cone-shaped pipe is larger than an opening of the cylindrical pipe, and the large circular opening of the circular truncated cone-shaped pipe is opposite to the first battery pack cabinet 2 or the second battery pack cabinet 3.

For preventing to remove the cold wind after the higher heat in the box 1 heats first air pipe 4, second air pipe 5 and the cooling in the middle pipeline 6, influence the cooling effect, first air pipe 4, second air pipe 5 and middle pipeline 6 all outward have the heated board 11, and the wind after the heated board 11 will cool off and the heat in the removal box 1 is isolated.

When the diameter of the stainless steel tapping ball 9-2 is smaller, in order to prevent the stainless steel tapping ball 9-2 from entering the first ventilation pipeline 4 to block the first passing pipeline and influence the flow of cooling air, a mesh plate 12 is fixedly arranged at the communication position of the first ventilation pipeline 4 and the sealing box body 9-1.

The utility model discloses a shale gas opens and adopts natural cooling formula removal energy storage power station, fixed mounting has first air pipe 4 between first battery group cabinet 2 and the lateral wall of mobile box 1, first air pipe 4 communicates first blowing pipe 4-1, a plurality of first blowing pipes 4-1 and first battery group cabinet 2 relative setting, fixed mounting has second air pipe 5 between second battery group cabinet 3 and the lateral wall of mobile box 1, second air pipe 5 communicates second blowing pipe 5-1, a plurality of second blowing pipes 5-1 and second battery group cabinet 3 relative setting, the inlet scoop is located between first battery group cabinet 2 and second battery group cabinet 3, hot gas in the mobile box 1 is after being inhaled the inlet scoop by suction fan 7, get into the heat dissipation branch, because the environment is severe cold, heat loss in 8-1 in the heat dissipation tuber pipe is accelerated to fin 8-2 outside the heat dissipation branch, thereby realizing primary heat dissipation; hot air in the heat-radiating air pipe 8-1 enters the sealed box body 9-1 from the top of the sealed box body 9-1, the hot air flows to the bottom of the sealed box body 9-1 from a gap of the stainless steel tapping ball 9-2, as shown in fig. 3, the heat is transferred to the stainless steel tapping ball 9-2 in the process that the hot air flows in the sealed box body 9-1, the heat is transferred to the cooling water 9-2-1 after the stainless steel tapping ball 9-2 absorbs the heat, the cooling water 9-2-1 can freeze in a severe cold environment and can absorb more heat, so that secondary cooling of the hot air is realized, the cooling air is not in direct contact with the cooling water 9-2-1, the moisture content in the cooling water 9-2-1 cannot be increased, and the battery cannot be affected with damp; hot air flows along the gap of the stainless steel tapping ball 9-2, the flowing distance is long, the heat dissipation effect is good, the heat conduction and heat dissipation effects of the stainless steel tapping ball 9-2 are good, the heat loss is further accelerated, after cooling air cooled twice enters the first ventilating duct 4, the intermediate duct 6 and the second ventilating duct 5, the cooling air is blown to the first battery pack cabinet 2 from the first air blowing pipe 4-1 and blown to the second battery pack cabinet 3 from the second air blowing pipe 5-1, and after the cooling air passing through the first battery pack cabinet 2 and the second battery pack cabinet 3 takes away the heat on the surfaces of the batteries, the cooling air enters the heat dissipation air duct 8-1 from the air suction opening, so that the circulating heat dissipation is realized; the utility model discloses use natural cooling's mode to dispel the heat to the removal box 1 inside, practiced thrift electric power resource, the cost is reduced satisfies the requirement of national sustainable development's energy strategy and low carbon economic life.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. The utility model provides a shale gas is opened and is adopted natural cooling formula and remove energy storage power station which characterized in that: comprises a movable box body (1), a first battery pack cabinet (2) and a second battery pack cabinet (3) are fixedly arranged in the movable box body (1), the first battery pack cabinet (2) and the second battery pack cabinet (3) are arranged in parallel and at intervals, a first ventilating duct (4) is fixedly arranged between the side wall of the first battery pack cabinet (2) and the side wall of the movable box body (1), a plurality of first air blowing pipes (4-1) communicated with the first ventilating duct (4) are fixedly arranged on the first ventilating duct (4), the plurality of first air blowing pipes (4-1) are arranged opposite to the first battery pack cabinet (2), a second ventilating duct (5) is fixedly arranged between the side wall of the second battery pack cabinet (3) and the side wall of the movable box body (1), a plurality of second air blowing pipes (5-1) communicated with the second ventilating duct (5) are fixedly arranged on the second ventilating duct (5), a plurality of second blowing pipes (5-1) set up with second battery pack cabinet (3) relatively, first air pipe (4) and second air pipe (5) are through middle pipeline (6) intercommunication that is located removal box (1) bottom, the inlet scoop has been seted up at removal box (1) top, fixed mounting has suction fan (7) in the inlet scoop, the inlet scoop is located between first battery pack cabinet (2) and second battery pack cabinet (3), the outside fixed mounting at removal box (1) top has air-cooled heat abstractor (8) and water-cooled heat abstractor (9), fixed mounting has heat insulating board (10) between air-cooled heat abstractor (8) and water-cooled heat abstractor (9), inlet scoop, air-cooled heat abstractor (8), water-cooled heat abstractor (9) and first air pipe (4) communicate in proper order.

2. The shale gas exploitation natural cooling type mobile energy storage power station as claimed in claim 1, wherein: the air-cooled heat dissipation device (8) comprises a heat dissipation air pipe (8-1), the heat dissipation air pipe (8-1) is communicated with an air suction opening and a water-cooled heat dissipation device (9), and a plurality of heat dissipation fins (8-2) are fixedly mounted outside the heat dissipation air pipe (8-1).

3. The shale gas exploitation natural cooling type mobile energy storage power station as claimed in claim 2, wherein: the water-cooling heat dissipation device (9) comprises a sealing box body (9-1), the heat dissipation air pipe (8-1) is communicated with the top of the sealing box body (9-1), the first ventilation pipeline (4) is communicated with the bottom of the sealing box body (9-1), a stainless steel tapping ball (9-2) is filled in the sealing box body (9-1), and cooling water (9-2-1) is filled in the stainless steel tapping ball (9-2).

4. The shale gas exploitation natural cooling type mobile energy storage power station as claimed in claim 3, wherein: the stainless steel tapping ball (9-2) comprises a hollow ball body (9-2-2), a mounting block (9-2-3) is fixedly mounted on the ball body (9-2-2), a threaded hole communicated with the inner cavity of the ball body (9-2-2) is formed in the mounting block (9-2-3), and a screw (9-2-4) is mounted in the threaded hole in a threaded manner.

5. The shale gas exploitation natural cooling type mobile energy storage power station as claimed in claim 1, wherein: the heat insulation plate (10) is a foam plate, a stainless steel plate (10-1) is coated outside the heat insulation plate (10), and the heat insulation plate (10) is obliquely arranged towards the air-cooled heat dissipation device (8).

6. The shale gas exploitation natural cooling type mobile energy storage power station as claimed in claim 1, wherein: the first air blowing pipe (4-1) and the second air blowing pipe (5-1) both comprise a cylindrical pipe and a circular truncated cone-shaped pipe, the cylindrical pipe and the circular truncated cone-shaped pipe are coaxially arranged, a large round opening of the circular truncated cone-shaped pipe is larger than an opening of the cylindrical pipe, and the large round opening of the circular truncated cone-shaped pipe is just opposite to the first battery pack cabinet (2) or the second battery pack cabinet (3).

7. The shale gas exploitation natural cooling type mobile energy storage power station as claimed in claim 1, wherein: the first ventilating duct (4), the second ventilating duct (5) and the middle duct (6) are all coated with heat insulation plates (11).

8. The shale gas exploitation natural cooling type mobile energy storage power station as claimed in claim 3, wherein: a mesh plate (12) is fixedly arranged at the communication position of the first ventilating duct (4) and the sealed box body (9-1).

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