CN115863842B

CN115863842B - Energy storage module of high-efficient heat dissipation management

Info

Publication number: CN115863842B
Application number: CN202310182060.9A
Authority: CN
Inventors: 邓嫄媛; 严磊; 冯威; 赵洁; 李俭; 袁容; 李力; 袁新璐
Original assignee: Chengdu University
Current assignee: Chengdu University
Priority date: 2023-03-01
Filing date: 2023-03-01
Publication date: 2023-05-05
Anticipated expiration: 2043-03-01
Also published as: CN115863842A

Abstract

The invention discloses an energy storage module with efficient heat dissipation management, and relates to the technical field of battery heat dissipation. This kind of energy storage module of high-efficient heat dissipation management, including mounting bracket and electric core module, the bottom integrated into one piece of mounting bracket has a plurality of mounting cylinders that the array set up, and electric core module inserts and establish in the mounting cylinder, the fixed cover of lateral wall of mounting bracket is equipped with the adiabatic frame that the annular set up, and the fixed cover of lateral wall of adiabatic frame is equipped with the shell, the mounting cylinder is inserted and is established in the shell, and the top of shell is connected with the apron through the bolt can be dismantled, bar opening has been seted up to the lateral wall of shell. When the temperature is higher, combine together liquid cooling and forced air cooling, simultaneously, greatly increased radiating area for the heat dissipation is more high-efficient, the effect is better, and in low temperature environment, can be with the air discharge in the shell, makes its inside vacuum state that forms, thereby can play fine heat preservation effect, avoids low temperature to cause the damage to the energy storage module, guarantees its result of use and life-span.

Description

Energy storage module of high-efficient heat dissipation management

Technical Field

The invention relates to the technical field of battery heat dissipation, in particular to an energy storage module for efficient heat dissipation management.

Background

The energy storage module battery is widely used in various fields by virtue of its excellent characteristics, but it is required to provide good heat dissipation for the energy storage module battery to ensure stable operation, and the existing heat dissipation scheme is generally air cooling or liquid cooling.

However, when the existing energy storage module battery is used, when air cooling or liquid cooling is adopted independently, the heat dissipation effect is poor, so that heat dissipation is not efficient enough, meanwhile, the heat dissipation area is small, the heat dissipation efficiency and effect can be influenced, and in a low-temperature environment, the performance and the service life of the energy storage module are easily influenced.

Disclosure of Invention

The present invention is directed to an energy storage module with efficient heat dissipation management, so as to solve the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an energy storage module of high-efficient heat dissipation management, includes mounting bracket and electric core module, the bottom integrated into one piece of mounting bracket has a plurality of mounting cylinders that the array set up, and electric core module inserts and establish in the mounting cylinder, the fixed cover of lateral wall of mounting bracket is equipped with the adiabatic frame that the annular set up, and the fixed cover of lateral wall of adiabatic frame is equipped with the shell, the mounting cylinder is inserted and is established in the shell, and the top of shell is connected with the apron through the bolt can be dismantled, the bar opening has been seted up to the lateral wall of shell, and the fixed filter that has inserted in the bar opening, the lateral wall of shell has the removal frame through first canceling release mechanical system sliding connection, and the removal frame slides at the lateral wall of filter, the fixed exhaust column that has been inserted of lateral wall of shell, and be provided with exhaust column in the exhaust column, be provided with the evacuation mechanism that is used for carrying out the evacuation in the shell in the exhaust column, and the lateral wall of removal frame is provided with the atomizing mechanism that is used for carrying out atomizing to the cooling water, the removal of frame promotes through first pushing mechanism, and is provided with temperature sensor in the shell.

Preferably, the first reset mechanism comprises two symmetrically arranged fixed blocks fixedly connected to the side wall of the shell, a first T-shaped guide rod is inserted into the upper side wall of the fixed block, a supporting block is fixedly connected to the upper end of the first T-shaped guide rod, the supporting block is fixed to the side wall of the movable frame, and a first spring is sleeved on the side wall of the first T-shaped guide rod.

Preferably, the exhaust mechanism comprises a baffle fixedly connected to the inner side wall of the exhaust pipe, a first through hole is formed in the side wall of the baffle, a movable plate is fixedly connected to the lower side wall of the movable frame and inserted into the exhaust pipe and provided with a second through hole, the inner side wall of the exhaust pipe is fixedly connected with a supporting plate, the side wall of the supporting plate is rotationally connected with a rotating fan through a rotating shaft, a first motor is fixedly connected to the side wall of the supporting plate, and the output end of the first motor is fixed to one end of the rotating shaft.

Preferably, the first pushing mechanism comprises an L-shaped plate inserted into the side wall of the exhaust pipe, one end of the L-shaped plate is fixed with the side wall of the movable frame, a fixed ring is arranged on the side wall of the rotating shaft in a fixed mode, a plurality of fixed pipes arranged in an array are fixedly connected to the side wall of the fixed ring, a sliding disc is connected to the fixed pipe in a sliding mode, a movable rod is fixedly connected to the upper end of the sliding disc, the other end of the movable rod penetrates through the end portion of the fixed pipe and is fixedly connected with a metal ball, and a second spring is arranged on the side wall of the movable rod in a sleeved mode.

Preferably, the vacuumizing mechanism comprises an exhaust pipe fixedly inserted into the side wall of the movable plate, the exhaust pipe is internally fixedly connected with a first one-way valve, the other end of the exhaust pipe is fixedly connected with a connecting pipe, the other end of the connecting pipe is fixedly connected with an air outlet pipe, the air outlet pipe is internally fixedly connected with a second one-way valve, the side wall of the connecting pipe is fixedly connected with a working pipe, the working pipe is internally and slidably connected with a piston, and the movement of the piston is pushed by a second pushing mechanism.

Preferably, the second pushing mechanism comprises a pushing rod fixedly connected to the bottom of the piston, the lower end of the pushing rod is fixedly connected with a moving block, the moving block is connected with the side wall of the connecting pipe through a second resetting mechanism, the lower side wall of the moving block is fixedly connected with the pushing block, the end part of the rotating shaft is fixedly connected with a connecting shaft, and the side wall of the connecting shaft is fixedly connected with a plurality of convex blocks arranged in an array.

Preferably, the second reset mechanism comprises a second T-shaped guide rod which is inserted into two symmetrical parts of the side wall of the moving block, the upper end of the second T-shaped guide rod is fixed with the side wall of the connecting pipe, and a third spring is sleeved on the side wall of the second T-shaped guide rod.

Preferably, the atomizing mechanism comprises a communicating box fixedly connected to the side wall of the movable frame, the top of the communicating box is fixedly connected with a water supply pipe, the bottom of the communicating box is fixedly connected with a plurality of L-shaped atomizing pipes, the lower ends of the atomizing pipes are fixedly connected with atomizing spray heads, and the side wall of the atomizing pipes is provided with an on-off mechanism for controlling the on-off of the atomizing pipes.

Preferably, the on-off mechanism comprises a fixed cover fixedly inserted into the side wall of the atomizing pipe, a sliding plate is connected in the fixed cover in a sliding manner, a third through hole is formed in the bottom of the sliding plate, two symmetrically arranged first connecting blocks are fixedly connected to the side wall of the sliding plate, a third T-shaped guide rod is fixedly connected to the side wall of the first connecting block, a second connecting block is sleeved on the side wall of the third T-shaped guide rod, the second connecting block is fixed to the side wall of the fixed cover, a fourth spring is sleeved on the side wall of the third T-shaped guide rod, and the sliding plate is pushed by a third pushing mechanism.

Preferably, the third pushing mechanism comprises a pushing plate, the pushing plate comprises an inclined plane, the side wall of the pushing plate is fixedly connected with a first connecting plate, the side wall of the first connecting plate is fixedly connected with a loop bar, the side wall of the loop bar is sleeved with a sleeve, the other end of the sleeve is fixed with the side wall of the shell, the side wall of the pushing plate is fixedly connected with a second connecting plate, the side wall of the second connecting plate is rotationally connected with a threaded rod, the side wall of the threaded rod is in threaded connection with a threaded sleeve, the other end of the threaded sleeve is fixed with the side wall of the shell, the side wall of the second connecting plate is fixedly connected with a second motor, and the output end of the second motor is fixed with one end of the threaded rod.

Compared with the prior art, the invention has the beneficial effects that:

this kind of energy storage module of high-efficient heat dissipation management, through setting up exhaust mechanism etc, when temperature sensor detects that the temperature in the shell is higher, start first motor and carry out fast rotation, the rotation of first motor drives the synchronous rotation of pivot and commentaries on classics fan, thereby carry out the exhaust operation, meanwhile, when the pivot rotates, drive solid fixed ring and metal ball and carry out synchronous rotation, make the metal ball move to the direction of keeping away from solid fixed ring under the effect of centrifugal force, simultaneously, the second spring is compressed, make metal ball offset with the lower lateral wall of L shaped plate, thereby promote L shaped plate and remove the frame and upwards remove, first spring is compressed, at this moment, expose the filter, simultaneously, when removing the frame and upwards remove, drive the movable plate and carry out synchronous movement, make second through-hole align with first through-hole, at this moment, outside air passes through the filter gets into in the shell, and discharge through the exhaust column, circulate the heat dissipation to mount section of thick bamboo and electric group, simultaneously, the setting of mount section of thick bamboo, greatly increased the radiating area, make more efficient, better radiating effect.

This kind of energy storage module of high-efficient heat dissipation management, through setting up atomization mechanism etc, when dispelling the heat, when removing the frame and upwards remove, drive the synchronous upward movement of intercommunication case, make atomizer aim at the filter, meanwhile, when the sliding plate offsets with the inclined plane, promote the sliding plate and slide in to the fixed cover, simultaneously, the fourth spring is compressed, thereby make third through-hole and atomizing pipe take place the coincidence, at this moment, the cooling water gets into in the atomizing pipe after passing through delivery pipe and intercommunication case, and spray in filter department through atomizer atomizing back, along with outside air together gets into in the shell, combine together liquid cooling and forced air cooling, thereby make the cooling heat dissipation to installation section of thick bamboo and electric core module more high-efficient, the effect is better.

This kind of energy storage module of high-efficient heat dissipation management, through setting up evacuating mechanism etc., when temperature sensor detects the energy storage module and is in low temperature environment, make first motor rotate at a low speed, this moment, the centrifugal force that the metal ball received is less, thereby can not promote L shaped plate and removal frame and upwards remove, this moment, it seals the shutoff of filter to remove the frame, simultaneously, the second through-hole staggers with first through-hole, the exhaust tube aligns with first through-hole, meanwhile, the rotation of pivot drives the synchronous rotation of connecting axle and lug, when the lateral wall of pushing block and lug offsets, promote the piston and upwards move, simultaneously, the third spring is compressed, when the lateral wall of pushing block and crossing the lug, the piston can reciprocate down in the operating tube, when the piston moves down, make the connecting tube in produce the negative pressure, simultaneously, the first check valve is opened, the second check valve is closed, this moment, the air in the shell passes through the exhaust tube gets into in, when the piston upwards moves, simultaneously, the first check valve is closed, the air in the connecting tube, the air duct is pressed, the interior air duct is compressed, the second check valve is opened, the air outlet pipe is opened, the air vent pipe is discharged through the inside, thereby the thermal insulation effect is guaranteed, can be guaranteed, the inside is broken, the air storage module is exhausted, so that has good heat preservation effect is realized, and the inside has been broken, and can be guaranteed, and the inside thermal insulation effect is realized, can be realized, and the air can be exhausted, and has good heat-insulating effect, and has been broken by the air, and has been used life, and has high air life.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of another view of the present invention;

FIG. 3 is a schematic view of a partial cross-sectional structure of the present invention;

FIG. 4 is a schematic view of a partial structure of another view of the present invention;

FIG. 5 is an enlarged schematic view of the structure shown at A in FIG. 1;

FIG. 6 is an enlarged schematic view of the structure shown at B in FIG. 2;

FIG. 7 is an enlarged schematic view of FIG. 3C;

FIG. 8 is an enlarged schematic view of the structure of FIG. 3D;

FIG. 9 is an enlarged schematic view of the structure of FIG. 4 at E;

fig. 10 is an enlarged schematic view of the structure at F in fig. 9.

In the figure: 1. a mounting frame; 2. a first reset mechanism; 201. a fixed block; 202. a first T-shaped guide bar; 203. a first spring; 204. a support block; 3. an air exhausting mechanism; 301. a baffle; 302. a first through hole; 303. a moving plate; 304. a second through hole; 305. a support plate; 306. a rotating shaft; 307. rotating the fan; 308. a first motor; 4. a first pushing mechanism; 401. an L-shaped plate; 402. a fixed tube; 403. a sliding plate; 404. a moving rod; 405. a metal ball; 406. a second spring; 407. a fixing ring; 5. a vacuum pumping mechanism; 501. an exhaust pipe; 502. a first one-way valve; 503. a connecting pipe; 504. an air outlet pipe; 505. a second one-way valve; 506. a working tube; 507. a piston; 6. a second pushing mechanism; 601. a push rod; 602. a moving block; 603. a pushing block; 604. a connecting shaft; 605. a bump; 7. a second reset mechanism; 701. a second T-shaped guide bar; 702. a third spring; 8. an atomizing mechanism; 801. a communication box; 802. a water supply pipe; 803. an atomizing tube; 804. an atomizing nozzle; 9. an on-off mechanism; 901. a fixed cover; 902. a sliding plate; 903. a third through hole; 904. a first connection block; 905. a second connection block; 906. a fourth spring; 907. a third T-shaped guide bar; 10. a third pushing mechanism; 1001. a pushing plate; 1002. an inclined plane; 1003. a first connection plate; 1004. a loop bar; 1005. a sleeve; 1006. a second connecting plate; 1007. a threaded rod; 1008. a thread sleeve; 1009. a second motor; 11. a mounting cylinder; 12. a battery cell module; 13. a heat insulating frame; 14. a housing; 15. an exhaust tube; 16. a cover plate; 17. a strip-shaped opening; 18. a filter plate; 19. and moving the frame.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: the utility model provides an energy storage module of high-efficient heat dissipation management, includes mounting bracket 1 and electric core module 12, the bottom integrated into one piece of mounting bracket 1 has a plurality of arrays to set up install a section of thick bamboo 11, and electric core module 12 inserts and establish in install a section of thick bamboo 11, the fixed cover of lateral wall of mounting bracket 1 is equipped with the adiabatic frame 13 of annular setting, and the fixed cover of lateral wall of adiabatic frame 13 is equipped with shell 14, install a section of thick bamboo 11 and insert and establish in shell 14, and the top of shell 14 can be dismantled through the bolt and be connected with apron 16, bar opening 17 has been seted up to the lateral wall of shell 14, and bar opening 17 internal fixation inserts and has been equipped with filter 18, the lateral wall of shell 14 has movable frame 19 through first canceling release mechanical system 2 sliding connection, and movable frame 19 slides at the lateral wall of filter 18, the fixed suction tube 15 that inserts of lateral wall of shell 14 is equipped with, and be provided with suction mechanism 3 in the suction tube 15, be provided with the suction mechanism 5 that is used for carrying out the evacuation in the shell 14, and movable frame 19's lateral wall is provided with the atomizing mechanism 8 that is used for carrying out the atomizing to the cooling water, movable frame 19 promotes the removal and has first drive mechanism 4 and carries out the energy storage device, and has improved heat dissipation effect, has been guaranteed to have realized the heat dissipation effect, can be greatly to the inside the heat dissipation effect, has been realized, has the high temperature sensor to have realized the high temperature sensor, and has been used in the heat dissipation effect, has been improved to have high temperature sensor 14, and has been used to have high thermal insulation effect, and can be used to realize the heat dissipation effect, and has high temperature sensor 14 and has been used to realize the life.

Referring to fig. 5, the first reset mechanism 2 includes two symmetrically disposed fixed blocks 201 fixedly connected to the side wall of the housing 14, a first T-shaped guide rod 202 is inserted into the upper side wall of the fixed block 201, a supporting block 204 is fixedly connected to the upper end of the first T-shaped guide rod 202, the supporting block 204 is fixed to the side wall of the moving frame 19, and a first spring 203 is sleeved on the side wall of the first T-shaped guide rod 202 to guide and reset the movement of the moving frame 19.

Referring to fig. 7 and 9, the exhaust mechanism 3 includes a baffle 301 fixedly connected to the inner side wall of the exhaust pipe 15, and a first through hole 302 is provided on the side wall of the baffle 301, the lower side wall of the moving frame 19 is fixedly connected with a moving plate 303, and the moving plate 303 is inserted into the exhaust pipe 15 and provided with a second through hole 304, the inner side wall of the exhaust pipe 15 is fixedly connected with a supporting plate 305, and the side wall of the supporting plate 305 is rotatably connected with a rotating fan 307 through a rotating shaft 306, the side wall of the supporting plate 305 is fixedly connected with a first motor 308, and the output end of the first motor 308 is fixed with one end of the rotating shaft 306, when the temperature sensor detects that the temperature in the housing 14 is higher, the rotation of the first motor 308 drives the rotating shaft 306 and the rotating fan 307 to rotate synchronously, so as to perform the exhaust operation, and meanwhile, the first pushing mechanism 4 pushes the moving frame 19 to move upwards, at this time, the filter plate 18 is exposed, and at the same time, the moving plate 303 is driven to move synchronously, so that the second through hole 304 is aligned with the first through hole 302, and the filter plate 18 are exposed to the air, and the air is circulated through the filter plate and the housing 11, and the cooling drum 12.

Referring to fig. 7, 9 and 10, the first pushing mechanism 4 includes an L-shaped plate 401 inserted into a side wall of the exhaust pipe 15, one end of the L-shaped plate 401 is fixed to a side wall of the moving frame 19, a fixed ring 407 is fixedly sleeved on the side wall of the rotating shaft 306, a plurality of fixed pipes 402 arranged in an array are fixedly connected to the side wall of the fixed ring 407, a sliding plate 403 is slidably connected to the fixed pipe 402, a moving rod 404 is fixedly connected to an upper end of the sliding plate 403, the other end of the moving rod 404 penetrates through an end of the fixed pipe 402 and is fixedly connected with a metal ball 405, and a second spring 406 is sleeved on the side wall of the moving rod 404, when the rotating shaft 306 rotates, the fixed ring 407 and the metal ball 405 are driven to synchronously rotate, so that the metal ball 405 moves away from the fixed ring 407 under the action of centrifugal force, and meanwhile, the second spring 406 is compressed, so that the metal ball 405 abuts against a lower side wall of the L-shaped plate 401 and the moving frame 19, and the moving frame are pushed upwards.

Referring to fig. 7, 9 and 10, the vacuum pumping mechanism 5 includes an air suction pipe 501 fixedly inserted into a side wall of the moving plate 303, a first one-way valve 502 is fixedly connected in the air suction pipe 501, a connecting pipe 503 is fixedly connected to the other end of the air suction pipe 501, an air outlet pipe 504 is fixedly connected to the other end of the connecting pipe 503, a second one-way valve 505 is fixedly connected to the inside of the air outlet pipe 504, a working pipe 506 is fixedly connected to the side wall of the connecting pipe 503, a piston 507 is slidably connected to the working pipe 506, the movement of the piston 507 is pushed by a second pushing mechanism 6, when the temperature sensor detects that the energy storage module is in a low temperature environment, the first motor 308 rotates at a low speed, at this time, the centrifugal force received by the metal ball 405 is small, so that the L-shaped plate 401 and the moving frame 19 are not pushed to move upwards, at this time, the moving frame 19 seals the filter plate 18, simultaneously, the second through hole 304 is staggered with the first through hole 302, the exhaust pipe 501 is aligned with the first through hole 302, meanwhile, the piston 507 is pushed to reciprocate in the working pipe 506 by the second pushing mechanism 6, when the piston 507 moves downwards, negative pressure is generated in the connecting pipe 503, meanwhile, the first one-way valve 502 is opened, the second one-way valve 505 is closed, at the moment, air in the shell 14 enters the connecting pipe 503 through the exhaust pipe 501, when the piston 507 moves upwards, the air in the connecting pipe 503 is extruded, meanwhile, the first one-way valve 502 is closed, the second one-way valve 505 is opened, at the moment, the air in the connecting pipe 503 is extruded and then is discharged through the air outlet pipe 504 and the exhaust pipe 15, and the air in the shell 14 can be discharged in a reciprocating mode, so that the vacuum state is formed inside the air-conditioner, thereby having good heat preservation effect and avoiding damage to the energy storage module due to low temperature, ensuring the use effect and the service life.

Referring to fig. 10, the second pushing mechanism 6 includes a pushing rod 601 fixedly connected to the bottom of the piston 507, a moving block 602 is fixedly connected to the lower end of the pushing rod 601, the moving block 602 is connected to the side wall of the connecting pipe 503 through a second reset mechanism 7, a pushing block 603 is fixedly connected to the lower side wall of the moving block 602, the end of the rotating shaft 306 is fixedly connected to a connecting shaft 604, the side wall of the connecting shaft 604 is fixedly connected to a plurality of bumps 605 arranged in an array, and the rotation of the rotating shaft 306 drives the connecting shaft 604 and the bumps 605 to synchronously rotate, so that the piston 507 is pushed to move upwards when the pushing block 603 abuts against the side wall of the bumps 605.

Referring to fig. 10, the second restoring mechanism 7 includes two symmetrically disposed second T-shaped guide rods 701 inserted in the side walls of the moving block 602, wherein the upper ends of the second T-shaped guide rods 701 are fixed to the side walls of the connecting tubes 503, and the side walls of the second T-shaped guide rods 701 are sleeved with third springs 702, so as to guide and restore the movement of the piston 507.

Referring to fig. 6 and 8, the atomization mechanism 8 includes a communication box 801 fixedly connected to a side wall of the moving frame 19, a water supply pipe 802 is fixedly connected to the top of the communication box 801, the water supply pipe 802 is connected to an external water supply assembly, a plurality of L-shaped atomization pipes 803 are fixedly connected to the bottom of the communication box 801, and the lower ends of the atomization pipes 803 are fixedly connected to an atomization nozzle 804, the side wall of the atomization pipe 803 is provided with an on-off mechanism 9 for controlling on-off of the atomization pipe 803, when the moving frame 19 moves upwards, the communication box 801 is driven to move upwards synchronously, the atomization nozzle 804 is aligned to the filter plate 18, meanwhile, the on-off mechanism 9 is opened, at this time, cooling water enters the atomization pipe 803 through the water supply pipe 802 and the communication box 801, and is sprayed into the filter plate 18 after being atomized through the atomization nozzle 804, and enters the housing 14 together with external air, and liquid cooling and air cooling are combined, so that the cooling core mold of the installation cylinder 11 and the electric group 12 is cooled more efficiently, and the effect is better.

Referring to fig. 8, the on-off mechanism 9 includes a fixed housing 901 fixedly inserted into a side wall of the atomizing tube 803, a sliding plate 902 is slidably connected in the fixed housing 901, a third through hole 903 is formed at the bottom of the sliding plate 902, two symmetrically disposed first connecting blocks 904 are fixedly connected to the side wall of the sliding plate 902, a third T-shaped guide rod 907 is fixedly connected to the side wall of the first connecting block 904, a second connecting block 905 is sleeved on the side wall of the third T-shaped guide rod 907, the second connecting block 905 is fixed to the side wall of the fixed housing 901, a fourth spring 906 is sleeved on the side wall of the third T-shaped guide rod 907, the sliding plate 902 is pushed by a third pushing mechanism 10, when the moving frame 19 moves upwards, the communicating box 801 is driven to move upwards synchronously, and the sliding plate 902 is pushed to slide into the fixed housing 901 when the sliding plate 902 abuts against the inclined surface 1002, meanwhile, the fourth spring 906 is compressed, so that the third through hole 903 coincides with the atomizing tube 803, cooling water enters the atomizing tube 803 through the water supply pipe 802 and the communicating box 803, and passes through the filter plate 803, and then is sprayed on the atomizing nozzle 804.

Referring to fig. 6, the third pushing mechanism 10 includes a pushing plate 1001, the pushing plate 1001 includes an inclined plane 1002, a side wall of the pushing plate 1001 is fixedly connected with a first connecting plate 1003, a side wall of the first connecting plate 1003 is fixedly connected with a loop bar 1004, a side wall of the loop bar 1004 is sleeved with a sleeve 1005, the other end of the sleeve 1005 is fixed with a side wall of the housing 14, a side wall of the pushing plate 1001 is fixedly connected with a second connecting plate 1006, a side wall of the second connecting plate 1006 is rotatably connected with a threaded rod 1007, a side wall of the threaded rod 1007 is in threaded connection with a threaded sleeve 1008, the other end of the threaded sleeve 1008 is fixed with a side wall of the housing 14, a side wall of the second connecting plate 1006 is fixedly connected with a second motor 1009, an output end of the second motor 1009 is fixed with one end of the threaded rod 1007, and rotation of the second motor 1009 drives rotation of the threaded rod 1007, so that the pushing plate 1001 moves, a distance between the pushing plate and the housing 14 is adjusted, and therefore a moving stroke of the sliding plate 902 and an overlapping area of the third through hole 903 and the atomizing pipe are adjusted, and thus the flow of cooling water is adjusted.

Working principle: when the temperature sensor detects that the temperature in the shell 14 is higher, the first motor 308 is started to rotate quickly, the rotation of the first motor 308 drives the rotating shaft 306 and the rotating fan 307 to rotate synchronously, so that the air draft operation is performed, meanwhile, when the rotating shaft 306 rotates, the fixed ring 407 and the metal ball 405 are driven to rotate synchronously, the metal ball 405 moves away from the fixed ring 407 under the action of centrifugal force, meanwhile, the second spring 406 is compressed, the metal ball 405 abuts against the lower side wall of the L-shaped plate 401, so that the L-shaped plate 401 and the movable frame 19 are pushed to move upwards, the first spring 203 is compressed, the filter plate 18 is exposed, meanwhile, the movable frame 19 is driven to move synchronously when the movable frame 19 moves upwards, so that the second through hole 304 is aligned with the first through hole 302, at this time, external air enters the shell 14 through the filter plate 18 and is discharged through the air draft tube 15, and the mounting cylinder 11 and the battery core module 12 are cooled through circulation of air, and meanwhile, the mounting cylinder 11 is arranged, the heat dissipation area is greatly increased, and the heat dissipation effect is better;

meanwhile, when the movable frame 19 moves upwards, the communication box 801 is driven to move upwards synchronously, so that the atomizing nozzle 804 aims at the filter plate 18, meanwhile, when the sliding plate 902 abuts against the inclined surface 1002, the sliding plate 902 is pushed to slide into the fixed cover 901, and meanwhile, the fourth spring 906 is compressed, so that the third through hole 903 is overlapped with the atomizing pipe 803, at the moment, cooling water enters the atomizing pipe 803 through the water supply pipe 802 and the communication box 801 and is atomized through the atomizing nozzle 804 and then sprayed at the filter plate 18, and the cooling water and the air cooling are combined together with the outside air entering the shell 14, so that the cooling and the heat dissipation of the mounting cylinder 11 and the cell module 12 are more efficient and better;

and when the temperature sensor detects that the energy storage module is in a low-temperature environment, the first motor 308 rotates at a low speed, at this time, the centrifugal force borne by the metal ball 405 is small, so that the L-shaped plate 401 and the movable frame 19 are not pushed to move upwards, at this time, the movable frame 19 seals the filter plate 18 in a blocking manner, meanwhile, the second through hole 304 is staggered with the first through hole 302, the exhaust pipe 501 is aligned with the first through hole 302, meanwhile, the rotation of the rotating shaft 306 drives the connecting shaft 604 and the bump 605 to synchronously rotate, when the pushing block 603 abuts against the side wall of the bump 605, the piston 507 moves upwards, meanwhile, the third spring 702 is compressed, when the pushing block 603 passes over the side wall of the bump 605, the piston 507 can move downwards under the action of the third spring 702 to reset, so that the piston 507 reciprocates up and down in the working pipe 506, and when the piston 507 moves downwards, negative pressure is generated in the connecting pipe 503, meanwhile, the first one-way valve 502 is opened, the second one-way valve 505 is closed, at this time, air in the shell 14 enters the connecting pipe 503 through the exhaust pipe, when the piston 507 moves upwards, the air in the connecting pipe is extruded into the air pipe, the air pipe 502 is extruded in the air pipe, and the air pipe is exhausted out of the air pipe is well, and the air pipe is exhausted from the air pipe is protected from the air pipe through the air pipe, and the air pipe is protected from the inside by the air pipe, and the air pipe is well, and the air-insulating condition, and the air is protected, and the air is well when the air is exhausted, and has a high heat-insulating effect.

Claims

1. The utility model provides an energy storage module of high-efficient heat dissipation management, includes mounting bracket (1) and electric core module (12), its characterized in that: the utility model discloses a water atomizing device, including installation frame (1), filter plate (18) is set up to the bottom integrated into one piece of installation frame (1), and electric core module (12) inserts and establishes in installation frame (11), the fixed cover of lateral wall of installation frame (1) is equipped with adiabatic frame (13) of annular setting, and the fixed cover of lateral wall of adiabatic frame (13) is equipped with shell (14), installation frame (11) inserts and establishes in shell (14), and the top of shell (14) is connected with apron (16) through the bolt can be dismantled, bar opening (17) have been seted up to the lateral wall of shell (14), and bar opening (17) internal fixation inserts and be equipped with filter plate (18), the lateral wall of shell (14) has movable frame (19) through first canceling release mechanical system (2) sliding connection, and movable frame (19) slide at the lateral wall of filter plate (18), the lateral wall of shell (14) is fixed to be equipped with exhaust column (15) in the fixed cover of exhaust column (15), be provided with in exhaust column (15) and be used for carrying out evacuation mechanism (5) to take out in shell (14), and the side wall (19) is provided with the evacuation mechanism (19) and is used for carrying out the atomizing mechanism (4) to remove through the removal of the side wall (19) and is provided with one and is used for promoting the removal frame (8, a temperature sensor is arranged in the shell (14);

the exhaust mechanism (3) comprises a baffle plate (301) fixedly connected to the inner side wall of an exhaust pipe (15), a first through hole (302) is formed in the side wall of the baffle plate (301), a movable plate (303) is fixedly connected to the lower side wall of a movable frame (19), the movable plate (303) is inserted into the exhaust pipe (15) and provided with a second through hole (304), a supporting plate (305) is fixedly connected to the inner side wall of the exhaust pipe (15), the side wall of the supporting plate (305) is rotatably connected with a rotating fan (307) through a rotating shaft (306), a first motor (308) is fixedly connected to the side wall of the supporting plate (305), the output end of the first motor (308) is fixed to one end of the rotating shaft (306), the first pushing mechanism (4) comprises an L-shaped plate (401) inserted into the side wall of the exhaust pipe (15), one end of the L-shaped plate (401) is fixed to the side wall of the movable frame (19), a fixed ring (407) is sleeved on the side wall of the rotating shaft (306), a plurality of fixed tubes (402) are fixedly connected to the side wall of the fixed ring (407), a plurality of fixed plates (403) are fixedly connected to the fixed to the inner sliding disc (403), the fixed disc (403) is connected to one end of the sliding disc (402), the other end of the movable rod (404) penetrates through the end part of the fixed pipe (402) and is fixedly connected with a metal ball (405), a second spring (406) is sleeved on the side wall of the movable rod (404), the vacuumizing mechanism (5) comprises an exhaust pipe (501) fixedly inserted on the side wall of the movable plate (303), a first one-way valve (502) is fixedly connected in the exhaust pipe (501), a connecting pipe (503) is fixedly connected to the other end of the exhaust pipe (501), an air outlet pipe (504) is fixedly connected to the other end of the connecting pipe (503), a second one-way valve (505) is fixedly connected in the air outlet pipe (504), a working pipe (506) is fixedly connected to the side wall of the connecting pipe (503), a piston (507) is connected in a sliding manner in the working pipe (506), the movement of the piston (507) is pushed by a second pushing mechanism (6), the second pushing mechanism (6) comprises a pushing rod (601) fixedly connected to the bottom of the piston (507), a moving block (602) is fixedly connected to the lower end of the pushing rod (601), the moving block (602) is fixedly connected with the side wall of the movable block (603) through the second pushing mechanism (507), the side wall of the movable block (602) is fixedly connected with the side wall (306), and the side wall of the connecting shaft (604) is fixedly connected with a plurality of convex blocks (605) arranged in an array, the second reset mechanism (7) comprises a second T-shaped guide rod (701) which is inserted into two symmetrical side walls of the moving block (602), the upper end of the second T-shaped guide rod (701) is fixed with the side wall of the connecting pipe (503), a third spring (702) is sleeved on the side wall of the second T-shaped guide rod (701), the atomizing mechanism (8) comprises a communicating box (801) fixedly connected with the side wall of the moving frame (19), the top of the communicating box (801) is fixedly connected with a water supply pipe (802), the bottom of the communicating box (801) is fixedly connected with a plurality of L-shaped atomizing pipes (803), the lower end of each atomizing pipe (803) is fixedly connected with an atomizing spray head (804), the side wall of each atomizing pipe (803) is provided with an on-off mechanism (9) for controlling the on-off state of the atomizing pipe (803), the side wall of each atomizing pipe (903) comprises a fixed cover (901) fixedly inserted into the side wall of the atomizing pipe (503), a sliding plate (901) is connected with the sliding plate (902) in a sliding plate) in a sliding mode, the sliding plate (902) is fixedly connected with the sliding plate (902) on the side wall of the moving block (19), the sliding plate (803) is provided with the first connecting plate (803) and the side wall (803) is fixedly connected with the first connecting plate (803), and the lateral wall cover of third T shape guide arm (907) is equipped with second connecting block (905), the lateral wall cover of second connecting block (905) and fixed cover (901) is fixed, and the lateral wall cover of third T shape guide arm (907) is equipped with fourth spring (906), the removal of sliding plate (902) promotes through third pushing mechanism (10), third pushing mechanism (10) are including pushing plate (1001), and pushing plate (1001) include inclined plane (1002), the lateral wall fixedly connected with first connecting plate (1003) of pushing plate (1001), and the lateral wall fixedly connected with loop bar (1004) of first connecting plate (1003), the lateral wall cover of loop bar (1004) is equipped with sleeve (1005), and the other end of sleeve (1005) is fixed with the lateral wall of shell (14), the lateral wall fixedly connected with second connecting plate (1006), and the lateral wall rotation of second connecting plate (1006) is connected with threaded rod (1007), the lateral wall threaded connection of threaded rod (1007) has thread bush (1008), and the other end of thread bush (1008) and the lateral wall of shell (14) motor (1009), the lateral wall of second connecting plate (1009) is fixed with the output of second connecting plate (1009).

2. The energy storage module of claim 1, wherein: the first reset mechanism (2) comprises fixed blocks (201) which are fixedly connected to the side walls of the shell (14) and symmetrically arranged, a first T-shaped guide rod (202) is inserted into the upper side wall of the fixed block (201), a supporting block (204) is fixedly connected to the upper end of the first T-shaped guide rod (202), the supporting block (204) is fixed to the side walls of the movable frame (19), and a first spring (203) is sleeved on the side wall of the first T-shaped guide rod (202).