CN118970284A - Auxiliary heat dissipation structure of photovoltaic energy storage battery - Google Patents

Abstract

The invention discloses an auxiliary heat dissipation structure of a photovoltaic energy storage battery, which relates to the field of photovoltaic power generation and comprises a fixed placement plate, a placement bottom plate and a placement positioning plate. According to the auxiliary heat dissipation structure of the photovoltaic energy storage battery, the heat conduction heat dissipation plate is arranged at the heat generation position of the energy storage battery box, so that the use cost is reduced, when the heat generation amount of the energy storage battery box is large, the heat dissipation effect can be rapidly increased, the length of the lock link plate is adjusted to adapt to the energy storage battery boxes with different sizes to conduct auxiliary heat dissipation, the lock link plate can be attached to the curved or circular energy storage battery boxes, the curved or circular energy storage battery boxes are installed and dissipated, the whole structure is folded and stored, and the structure is convenient to store, move and use.

Description

Auxiliary heat dissipation structure of photovoltaic energy storage battery

Technical Field

The invention relates to the field of photovoltaic power generation, in particular to an auxiliary heat dissipation structure of a photovoltaic energy storage battery.

Background

The auxiliary heat dissipation structure of the photovoltaic energy storage battery is a structural member for dissipating heat and reducing temperature of the energy storage battery, a power supply generated by power generation needs to be temporarily stored in the energy storage battery during photovoltaic power generation, and the energy storage battery discharges again during power utilization, so that a large amount of heat can be generated during power storage and discharging of the energy storage battery, and in order to ensure stable operation of the energy storage battery, auxiliary heat dissipation of the energy storage battery is needed to ensure safety of power storage and discharging of the energy storage battery, so that the auxiliary heat dissipation structure of the photovoltaic energy storage battery is widely used in photovoltaic power generation;

The invention discloses an auxiliary radiating structure of a photovoltaic energy storage battery, which comprises a fixed seat, wherein a connecting seat is fixedly connected to the base, a sealing connector is connected to the connecting seat through threads, a radiating tank is fixedly connected to the sealing connector, and the radiating structure can be mutually linked through a wind cup and a rotary fan, so that redundant wind power outside the radiating tank is absorbed and the rotary fan is driven to rotate, thereby accelerating the air flow rate of the outer wall of the radiating tank, further accelerating the radiating rate of the radiating tank, improving the practicability of the device, but the radiating structure is generally used for realizing radiating through contact between radiating fins and air, the radiating fins are sleeved outside the battery for the whole structure, and when the battery is heated, the battery shell only conducts heat and radiates through part of the radiating fins, so that the use cost of the whole package is increased, and the radiating structure is customized according to the size and shape of the battery.

Disclosure of Invention

The invention mainly aims to provide an auxiliary heat dissipation structure of a photovoltaic energy storage battery, which can effectively solve the technical problems of the background technology.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

The utility model provides an auxiliary heat radiation structure of photovoltaic energy storage battery, includes fixed placement plate, places the bottom plate and puts the locating plate, a plurality of place bottom plate fixed mounting is in the upper end of fixed placement plate, put the locating plate fixed mounting and be in the upper end of placing the bottom plate, the upper end of placing the bottom plate is located the inboard of putting the locating plate and put energy storage battery box, front end and the rear end movable mounting of placing the bottom plate have the chain part, the inboard of chain part is provided with a plurality of heating panel parts, the back activity embedding of heating panel part has a plurality of telescopic links, the back welding of heating panel part has the heat conduction laminating copper of cover in the telescopic link outside, the upper end of placing the bottom plate is located one side fixed mounting of placing the locating plate and inserts the installation pole, the upper end fixed mounting of inserting the installation pole has water-cooling part.

As a further scheme of the invention, the lower end of the fixed placing plate is fixedly provided with two support foot frames, and the two support foot frames are arranged in parallel.

As a further scheme of the invention, a battery cover is fixedly arranged at the upper end of the energy storage battery box, a battery wiring terminal is fixedly arranged at the upper end of the battery cover, and lifting handles are fixedly arranged at the upper end of the battery cover and positioned at the two sides of the battery wiring terminal.

As a further scheme of the invention, the chain component comprises a chain plate, a chain butt-joint shaft, a connecting lantern ring and mounting positioning rods, wherein the two chain plates are movably mounted at the front end and the rear end of the placing bottom plate, the chain plates are attached to the surfaces of the energy storage battery box and the battery cover, the chain butt-joint shaft is movably mounted at the joint of the chain plate, the connecting lantern ring is movably mounted at the upper end of the chain plate, and the plurality of mounting positioning rods are fixedly mounted between the two chain plates.

As a further scheme of the invention, the chain plates are rotatably movable around a chain butt joint shaft, the chain butt joint shaft is arranged in a threaded self-locking mode, and the front and rear chain plates are in butt joint through a connecting lantern ring.

As a further scheme of the invention, the heat radiation plate component comprises a heat conduction heat radiation plate, mounting buckles, heat radiation fins, heat conduction copper pipes, a first self-sealing joint and a through copper pipe, wherein the heat conduction heat radiation plate is positioned between two chain plates, a plurality of mounting buckles are welded at the upper end and the lower end of the heat conduction heat radiation plate, the heat radiation fins are integrally formed on the front surface of the heat conduction heat radiation plate, the two heat conduction copper pipes are embedded above and below the inside of the heat conduction heat radiation plate, the first self-sealing joint is fixedly arranged at one end of the heat conduction copper pipe, and the through copper pipe is integrally formed at the other end of the heat conduction copper pipe.

As a further scheme of the invention, the installation buckle is clamped at the outer side of the installation positioning rod, the heat conducting and radiating plate is paved at the outer side of the energy storage battery box, the heat conducting copper pipe is welded and fixed with the heat conducting and radiating plate, and the radiating fins are positioned between the two through copper pipes.

As a further scheme of the invention, the telescopic strip is movably embedded into the back surface of the heat-conducting heat-dissipating plate, the heat-conducting lamination copper plate is welded on the back surface of the heat-conducting heat-dissipating plate, screws are movably embedded and installed at two ends of the inside of the telescopic strip, the screws penetrate through the telescopic strip and are connected with the internal threads of the heat-conducting heat-dissipating plate, and the heat-conducting lamination copper plate is in lamination connection with the outer surface of the energy storage battery box.

As a further scheme of the invention, the water cooling part comprises a fan mounting frame, a fan outer frame, fan blades, a water cooling row, a diversion pipeline and a second self-sealing joint, wherein the fan mounting frame is fixedly arranged at the upper end of an insertion mounting rod, a plurality of fan outer frames are fixedly arranged at the inner side of the fan mounting frame, the fan blades are movably arranged at the inner side of the fan outer frame, the water cooling row is fixedly arranged at one side of the fan mounting frame, a plurality of diversion pipelines are fixedly arranged at the front end and the rear end of the water cooling row, the second self-sealing joint is fixedly arranged at one end, far away from the water cooling row, of the diversion pipeline, and the second self-sealing joint is connected with the first self-sealing joint in a matched manner.

As a further scheme of the invention, the insertion and installation rod is inserted into the bottom of the fan installation frame, the fan blades are positioned on one side of the water cooling row, the water cooling row and the energy storage battery box are arranged in parallel, and the diversion pipeline bypasses the lock chain plate.

Compared with the prior art, the invention has the following beneficial effects: the split installation structure of the heat-conducting and heat-radiating plate is utilized, the installation of the installation buckle is matched with the installation positioning rod, the installation position of the heat-conducting and heat-radiating plate can be freely adjusted, the heat-conducting and heat-radiating plate is further installed at the heating position of the energy-storing battery box, the installation of the heat-radiating structure is omitted at the non-heating position, the use cost is reduced, the heat-radiating use of the energy-storing battery is more convenient, and the structure and the disassembly and the assembly of the battery are also more convenient;

when the heat dissipation effect needs to be increased, the water cooling row can be installed, the fan blades conduct heat dissipation on the water cooling row, so that refrigerating fluid in the water cooling row enters a heat conduction copper pipe in the heat conduction heat dissipation plate, water cooling of the energy storage battery box is achieved, the auxiliary heat dissipation effect of the energy storage battery box is increased, and after the fan blades blow out air to the water cooling row, the blown air also moves through the heat dissipation fins to improve the heat dissipation effect, therefore, when the heat dissipation amount of the energy storage battery box is large, the heat dissipation effect can be rapidly increased, and the auxiliary heat dissipation in different occasions is more convenient to use;

the size of the lock chain plate is adjusted, the length of the lock chain plate is adjusted according to the size of the energy storage battery box, and a corresponding number of heat conducting and radiating plates are selected for installation and use, so that the energy storage battery boxes with different sizes are adapted to perform auxiliary heat radiation, and the energy storage battery boxes with different sizes are more convenient to perform auxiliary heat radiation and use;

Through the bending of the chain plate, the bending rotation of the joint of the chain plate enables the chain plate to be attached to the bent or round energy storage battery box, and meanwhile, the installation positioning rod is used for compressing and positioning the heat conduction heat dissipation plate, so that the heat conduction heat dissipation plate is used for installing and dissipating heat of the bent or round energy storage battery box, and the auxiliary heat dissipation of the energy storage battery boxes in different shapes is more convenient;

Through the bending folding of chain link board, when the structure does not use, split to heat conduction heating panel piles up, and the chain link board is folded through the bending of chain link board joint department, accomodates to the whole folding of structure, reduces whole volume, more makes things convenient for accomodating of structure to remove and uses.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an auxiliary heat dissipation structure of a photovoltaic energy storage battery according to the present invention;

FIG. 2 is a split view of a fan mount and an energy storage battery case in an auxiliary heat dissipation structure of a photovoltaic energy storage battery of the present invention;

Fig. 3 is a split view of a lock link plate in an auxiliary heat dissipation structure of a photovoltaic energy storage battery according to the present invention;

FIG. 4 is an enlarged view of a heat dissipating plate component in an auxiliary heat dissipating structure of a photovoltaic energy storage cell according to the present invention;

fig. 5 is a rear view of a heat-conducting and heat-dissipating plate in an auxiliary heat-dissipating structure of a photovoltaic energy storage battery according to the present invention;

fig. 6 is a split view of a heat conducting and dissipating plate in an auxiliary heat dissipating structure of a photovoltaic energy storage battery according to the present invention;

FIG. 7 is an enlarged view of a water cooled component in an auxiliary heat dissipating structure of a photovoltaic energy storage cell according to the present invention;

Fig. 8 is an installation diagram of a circular energy storage battery box in an auxiliary heat dissipation structure of a photovoltaic energy storage battery according to the present invention;

fig. 9 is a folding view of a lock link plate in an auxiliary heat dissipation structure of a photovoltaic energy storage battery according to the present invention.

In the figure: 1. fixing a placing plate; 2. a support foot rest; 3. placing a bottom plate; 4. placing a positioning plate; 5. an energy storage battery box; 6. a battery cover; 7. a battery terminal; 8. a lifting handle; 9. a chain member; 10. a lock link plate; 11. a chain butt joint shaft; 12. a connecting collar; 13. installing a positioning rod; 14. a heat radiating plate member; 15. a heat-conducting heat-dissipating plate; 16. installing a buckle; 17. a heat radiation fin; 18. a heat conducting copper pipe; 19. a first self-sealing joint; 20. a copper pipe is penetrated; 21. a telescoping strip; 22. a heat-conducting bonding copper plate; 23. a water cooling part; 24. a fan mounting rack; 25. a fan outer frame; 26. a fan blade; 27. water-cooling rows; 28. a diversion pipeline; 29. a second self-sealing joint; 30. the mounting rod is inserted.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-9, an auxiliary heat dissipation structure of a photovoltaic energy storage battery comprises a fixed placement plate 1, a placement bottom plate 3 and a placement positioning plate 4, wherein a plurality of placement bottom plates 3 are fixedly installed at the upper ends of the fixed placement plate 1, the placement positioning plate 4 is fixedly installed at the upper ends of the placement bottom plates 3, the upper ends of the placement bottom plates 3 are located at the inner sides of the placement positioning plates 4 and are provided with an energy storage battery box 5, the front ends and the rear ends of the placement bottom plates 3 are movably provided with a chain component 9, the inner sides of the chain component 9 are provided with a plurality of heat dissipation plate components 14, the back surfaces of the heat dissipation plate components 14 are movably embedded with a plurality of telescopic strips 21, the back surfaces of the heat dissipation plate components 14 are welded with heat conduction laminating copper plates 22 sleeved at the outer sides of the telescopic strips 21, one sides of the placement bottom plates 3 are fixedly installed with insertion mounting rods 30, and the upper ends of the insertion mounting rods 30 are fixedly provided with water cooling components 23.

In this embodiment, two support foot frames 2 are fixedly arranged at the lower end of the fixed placement plate 1, the two support foot frames 2 are arranged in parallel, and the support foot frames 2 play a role in placement and support.

In this embodiment, a battery cover 6 is fixedly mounted at the upper end of the energy storage battery box 5, a battery terminal 7 is fixedly mounted at the upper end of the battery cover 6, lifting handles 8 are fixedly mounted on two sides of the battery terminal 7 at the upper end of the battery cover 6, the battery cover 6 is a component part of the energy storage battery box 5, the battery terminal 7 is used for connecting lines for power input and output, and the lifting handles 8 are used for lifting and moving the energy storage battery box 5.

In this embodiment, the chain component 9 includes a chain plate 10, a chain butt-joint shaft 11, a connecting collar 12 and a mounting positioning rod 13, where the two chain plates 10 are movably mounted at the front end and the rear end of the placement base plate 3, and the chain plate 10 is attached to the surfaces of the energy storage battery box 5 and the battery cover 6, the chain butt-joint shaft 11 is movably mounted at the joint of the chain plate 10, the connecting collar 12 is movably mounted at the upper end of the chain plate 10, the plurality of mounting positioning rods 13 are fixedly mounted between the two chain plates 10, and the chain plate 10 has the effect of locking and fixing the energy storage battery box 5.

In this embodiment, the lock link plate 10 rotates around the lock link butt joint shaft 11, the lock link butt joint shaft 11 is in a threaded self-locking mode, the lock link plates 10 at the front and the rear are in butt joint through the connecting collar 12, the lock link butt joint shaft 11 is disassembled and assembled through the threaded structure, and after the connecting collar 12 is connected with the lock link plates 10 at the front and the rear, the lock link plates 10 are firmly installed at the outer side of the energy storage battery box 5.

In this embodiment, the heat dissipation plate component 14 includes a heat dissipation plate 15, a mounting buckle 16, heat dissipation fins 17, heat conduction copper tubes 18, a first self-sealing joint 19 and a through copper tube 20, wherein the heat dissipation plate 15 is located between two chain plates 10, the plurality of mounting buckles 16 are welded at the upper end and the lower end of the heat dissipation plate 15, the heat dissipation fins 17 are integrally formed on the front surface of the heat dissipation plate 15, the two heat conduction copper tubes 18 are embedded above and below the inside of the heat dissipation plate 15, the first self-sealing joint 19 is fixedly mounted at one end of the heat conduction copper tubes 18, the through copper tube 20 is integrally formed at the other end of the heat conduction copper tubes 18, and the through copper tube 20 has the effect of connecting the two heat conduction copper tubes 18.

In this embodiment, the installation buckle 16 is clamped at the outer side of the installation positioning rod 13, the heat conducting and radiating plate 15 is paved at the outer side of the energy storage battery box 5, the heat conducting copper pipe 18 is welded and fixed with the heat conducting and radiating plate 15, the radiating fins 17 are located in the middle of the two through copper pipes 20, after the installation buckle 16 is clamped at the outer side of the installation positioning rod 13, the installation positioning rod 13 tightly pushes the installation buckle 16 and the heat conducting and radiating plate 15 at the outer side of the energy storage battery box 5.

In this embodiment, flexible strip 21 activity embedding is to the back of heat conduction heating panel 15, heat conduction laminating copper 22 welding is at the back of heat conduction heating panel 15, the inside both ends movable embedding of flexible strip 21 is installed the screw, the screw passes flexible strip 21 and heat conduction heating panel 15 internal thread connection, heat conduction laminating copper 22 is connected with the surface laminating of energy storage battery box 5, when the screw in the rotatory flexible strip 21, the screw drives flexible strip 21 at the flexible activity in the back of heat conduction heating panel 15, and then make flexible strip 21 top move heat conduction laminating copper 22 change the plane radian, make heat conduction laminating copper 22 can laminate the energy storage battery box 5 shell of different radians.

In this embodiment, the water cooling component 23 includes a fan mounting frame 24, a fan outer frame 25, fan blades 26, a water cooling row 27, a diversion pipe 28 and a second self-sealing joint 29, the fan mounting frame 24 is fixedly mounted at the upper end of an insertion mounting rod 30, a plurality of fan outer frames 25 are fixedly mounted at the inner side of the fan mounting frame 24, the fan blades 26 are movably mounted at the inner side of the fan outer frame 25, the water cooling row 27 is fixedly mounted at one side of the fan mounting frame 24, a plurality of diversion pipes 28 are fixedly mounted at the front end and the rear end of the water cooling row 27, the second self-sealing joint 29 is fixedly mounted at one end of the diversion pipe 28 far away from the water cooling row 27, and the second self-sealing joint 29 is connected with the first self-sealing joint 19 in a matched manner, and after the second self-sealing joint 29 is connected with the first self-sealing joint 19, the refrigerant in the water cooling row 27 can enter the heat conducting copper pipe 18.

In this embodiment, the insertion and installation rod 30 is inserted into the bottom of the fan installation frame 24, the fan blades 26 are located at one side of the water cooling row 27, the water cooling row 27 and the energy storage battery box 5 are arranged in parallel, the guide pipeline 28 bypasses the lock link plate 10, and air is blown into the water cooling row 27 after the fan blades 26 rotate, so that the effects of heat dissipation and cooling of fins and refrigerating fluid in the water cooling row 27 are achieved.

It should be noted that, in the use, the invention is an auxiliary heat dissipation structure of a photovoltaic energy storage battery, the supporting foot rest 2 under the fixed placement plate 1 is placed and fixed, the structure is integrally placed, the energy storage battery box 5 of photovoltaic power generation is placed above the placement bottom plate 3, and the energy storage battery box 5 is attached to the placement positioning plate 4 to be positioned, then the heat conducting and cooling plate 15 is tiled on the outer side of the energy storage battery box 5, meanwhile, the surface of the heat conducting and cooling plate 22 is attached to the shell of the energy storage battery box 5 by attaching the heat conducting and cooling plate, then the front and rear lock chain plates 10 are pulled up and attached to the outer side of the energy storage battery box 5, the front and rear lock chain plates 10 are connected through the connecting lantern ring 12, so that the lock chain plates 10 lock the energy storage battery box 5, the installation positioning rod 13 is also fixed after the lock chain plates 10, the installation positioning rod 13 is simultaneously connected with the installation buckle 16 above and below the heat conducting and cooling plate 15, the installation and fixation of the heat conducting and cooling plate 15 are realized, so that the heat of the energy storage battery box 5 is firmly paved on the outer side of the energy storage battery box 5, and the heat conducting and cooling plate 15 is transferred to the heat conducting and cooling plate 15 by attaching and cooling plate 17, and the heat conducting and cooling fin 17 can be freely adjusted and installed by the heat conducting and cooling plate 17;

When the heat dissipation effect needs to be increased, the inserting and mounting rod 30 is inserted into the bottom of the fan mounting frame 24 to fix the fan mounting frame 24, then the fan mounting frame 24 and the water cooling row 27 are arranged on one side of the energy storage battery box 5, the second self-sealing joint 29 is connected with the first self-sealing joint 19, so that refrigerating fluid in the water cooling row 27 can enter the heat conduction copper pipe 18 through the guide pipeline 28, the second self-sealing joint 29 and the first self-sealing joint 19, heat on the heat conduction heat dissipation plate 15 is transferred to the heat conduction copper pipe 18, the refrigerating fluid is utilized to conduct heat dissipation and cooling on the heat conduction copper pipe 18, after the refrigerating fluid flows back to the water cooling row 27, heat dissipation is achieved on fins in the water cooling row 27 through running rotation of the fan blades 26, further the water cooling and cooling of the energy storage battery box 5 are achieved, the auxiliary heat dissipation effect of the energy storage battery box 5 is increased, and after the fan blades 26 blow air to the water cooling row 27, the air moves to one side through the heat dissipation fins 17, and the auxiliary heat dissipation effect on the heat dissipation fins 17 is also improved;

the chain butt joint shaft 11 at the joint of the chain plate 10 is detached and installed through the size adjustment of the chain plate 10, the length of the chain plate 10 is detached and adjusted, the length of the chain plate 10 is adjusted according to the size of the energy storage battery box 5, and a corresponding number of heat conducting and radiating plates 15 are selected for installation and use to adapt to the energy storage battery boxes 5 with different sizes for auxiliary heat radiation;

Through the bending of the lock chain plate 10, when the arc-shaped or circular energy storage battery box 5 is subjected to auxiliary heat dissipation, the arc-shaped or circular energy storage battery box 5 is placed above the placement positioning plate 4, a plurality of heat conduction heat dissipation plates 15 are paved on the outer side of the arc-shaped or circular energy storage battery box 5, the lock chain plate 10 is bent or circular energy storage battery box 5 is attached through the bending of the joint of the lock chain plate 10, and meanwhile, the installation positioning rods 13 are used for compressing and positioning the heat conduction heat dissipation plates 15, so that the heat conduction heat dissipation plates 15 are used for installing and dissipating heat of the bent or circular energy storage battery boxes 5, and auxiliary heat dissipation of the energy storage battery boxes 5 in different shapes is realized;

through the bending folding of lock link plate 10, when the structure is not used, split stack is carried out heat conduction heating panel 15, and lock link plate 10 is folded through the bending of lock link plate 10 joint department, and the whole folding of structure is accomodate, reduces whole volume.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An auxiliary heat radiation structure of photovoltaic energy storage battery, its characterized in that: including fixed board (1) of putting, place bottom plate (3) and put locating plate (4), a plurality of place bottom plate (3) fixed mounting is in the upper end of fixed board (1) of putting, put locating plate (4) fixed mounting in the upper end of placing bottom plate (3), its characterized in that: the upper end of placing bottom plate (3) is located the inboard of putting locating plate (4) and has put energy storage battery case (5), front end and rear end movable mounting of placing bottom plate (3) have chain part (9), the inboard of chain part (9) is provided with a plurality of heating panel parts (14), the back activity embedding of heating panel part (14) has a plurality of telescopic strips (21), the back welding of heating panel part (14) has heat conduction laminating copper (22) of cover in telescopic strip (21) outside, the upper end of placing bottom plate (3) is located one side fixed mounting who puts locating plate (4) and has inserts installation pole (30), the upper end fixed mounting of inserting installation pole (30) has water-cooling part (23).

2. The auxiliary heat dissipation structure of a photovoltaic energy storage cell of claim 1, wherein: two support foot frames (2) are fixedly arranged at the lower end of the fixed placing plate (1), and the two support foot frames (2) are arranged in parallel.

3. The auxiliary heat dissipation structure of a photovoltaic energy storage cell of claim 1, wherein: the upper end of the energy storage battery box (5) is fixedly provided with a battery cover (6), the upper end of the battery cover (6) is fixedly provided with a battery terminal (7), and both sides of the upper end of the battery cover (6) located at the battery terminal (7) are fixedly provided with lifting handles (8).

4. The auxiliary heat dissipation structure of a photovoltaic energy storage cell of claim 3, wherein: the utility model provides a chain part (9) is including lock link plate (10), lock link butt joint axle (11), connect lantern ring (12) and installation locating lever (13), two lock link plate (10) movable mounting are placing bottom plate (3) front end and rear end, and lock link plate (10) are laminating with the surface of energy storage battery case (5) and battery cover (6), lock link butt joint axle (11) movable mounting is in the joint department of lock link plate (10), connect lantern ring (12) movable mounting in the upper end of lock link plate (10), a plurality of installation locating levers (13) fixed mounting are between two lock link plates (10).

5. The auxiliary heat dissipation structure of a photovoltaic energy storage cell as set forth in claim 4, wherein: the lock chain plates (10) rotate around a lock chain butt joint shaft (11), the lock chain butt joint shaft (11) is arranged in a threaded self-locking mode, and the front lock chain plates (10) are in butt joint with the rear lock chain plates (10) through connecting lantern rings (12).

6. The auxiliary heat dissipation structure of a photovoltaic energy storage cell as set forth in claim 4, wherein: the heat radiation plate component (14) comprises a heat conduction heat radiation plate (15), mounting buckles (16), heat radiation fins (17), heat conduction copper pipes (18), a first self-sealing joint (19) and a through copper pipe (20), wherein the heat conduction heat radiation plate (15) is located between two chain plates (10), a plurality of mounting buckles (16) are welded at the upper end and the lower end of the heat conduction heat radiation plate (15), the heat radiation fins (17) are integrally formed on the front surface of the heat conduction heat radiation plate (15), the two heat conduction copper pipes (18) are embedded into the upper part and the lower part of the inside of the heat conduction heat radiation plate (15), the first self-sealing joint (19) is fixedly arranged at one end of the heat conduction copper pipes (18), and the through copper pipe (20) is integrally formed at the other end of the heat conduction copper pipes (18).

7. The auxiliary heat dissipation structure of a photovoltaic energy storage cell of claim 6, wherein: the installation buckle (16) is clamped on the outer side of the installation positioning rod (13), the heat-conducting radiating plate (15) is paved on the outer side of the energy storage battery box (5), the heat-conducting copper pipe (18) is fixedly welded with the heat-conducting radiating plate (15), and the radiating fins (17) are located in the middle of the two through copper pipes (20).

8. The auxiliary heat dissipation structure of a photovoltaic energy storage cell of claim 6, wherein: the telescopic strip (21) is movably embedded into the back of the heat-conducting and heat-radiating plate (15), the heat-conducting laminating copper plate (22) is welded on the back of the heat-conducting and heat-radiating plate (15), screws are movably embedded and installed at two ends of the inside of the telescopic strip (21), the screws penetrate through the telescopic strip (21) and are connected with the internal threads of the heat-conducting and heat-radiating plate (15), and the heat-conducting laminating copper plate (22) is in laminating connection with the outer surface of the energy storage battery box (5).

9. The auxiliary heat dissipation structure of a photovoltaic energy storage cell of claim 6, wherein: the water cooling part (23) comprises a fan mounting frame (24), a fan outer frame (25), fan blades (26), a water cooling row (27), a diversion pipeline (28) and a second self-sealing joint (29), wherein the fan mounting frame (24) is fixedly mounted at the upper end of an inserting mounting rod (30), a plurality of fan outer frames (25) are fixedly mounted on the inner side of the fan mounting frame (24), the fan blades (26) are movably mounted on the inner side of the fan outer frame (25), the water cooling row (27) is fixedly mounted on one side of the fan mounting frame (24), a plurality of diversion pipelines (28) are fixedly mounted at the front end and the rear end of the water cooling row (27), the second self-sealing joint (29) is fixedly mounted at one end, far away from the water cooling row (27), and the second self-sealing joint (29) is matched and connected with the first self-sealing joint (19).

10. The auxiliary heat dissipation structure of a photovoltaic energy storage cell of claim 9, wherein: the insertion installation rod (30) is inserted into the bottom of the fan installation frame (24), the fan blades (26) are located on one side of the water cooling row (27), the water cooling row (27) and the energy storage battery box (5) are arranged in parallel, and the guide pipeline (28) bypasses the lock chain plate (10).