CN116111229A

CN116111229A - Liquid cooling system for energy storage

Info

Publication number: CN116111229A
Application number: CN202310007757.2A
Authority: CN
Inventors: 沈建勋; 陈洁
Original assignee: Shaanxi Qidian Fluid Technology Co ltd
Current assignee: Shaanxi Qidian Fluid Technology Co ltd
Priority date: 2023-01-04
Filing date: 2023-01-04
Publication date: 2023-05-12

Abstract

The invention belongs to the technical field of energy storage and temperature reduction, and particularly discloses a liquid cooling system for energy storage, wherein a water tank A is arranged on one side of a fixing frame A, and a water tank B is arranged on one side of a fixing frame B; a pipeline B is arranged on one side of the top of the substrate, two ends of the pipeline B are fixedly connected with the water pump A and the water pump B, a pipeline E is arranged on the other side of the top of the substrate, and two ends of the pipeline E are fixedly connected with the water pump C and the water pump D; the heating wire works to heat water in the water tank B, and hot water in the pipeline B flows into different heat dissipation coils through the ports A respectively, so that the battery module is quickly warmed up and preheated; the cooling plate is started to cool rapidly, cold water in the pipeline B flows into different cooling coils through the ports A, so that the battery module is cooled rapidly, the temperature of the battery is raised and lowered, the battery is protected better, and the battery is at the working temperature rapidly.

Description

Liquid cooling system for energy storage

Technical Field

The invention relates to the technical field of energy storage and temperature reduction, in particular to a liquid cooling system for energy storage.

Background

The working temperature range of the battery is usually 0-45 ℃, and the service life of the battery can be reduced as well as the service performance of the battery is affected by the too low or too high temperature; although the heat insulation technology can effectively relieve the influence of the ambient temperature on the battery, but cannot relieve the heating condition of the battery in the use process, a temperature control device is needed to adjust the working temperature of the battery, and when the battery needs to be used after long-time shutdown, the temperature of the battery also needs to be adjusted to a proper temperature interval through the temperature control device; in recent years, in order to improve the adjustment efficiency of the temperature control device, most manufacturers use a liquid cooling device to replace an air conditioning refrigeration device;

because electric automobile driving condition is complicated, can produce more heat in the battery use, makes the inside temperature of battery rise, especially to the module that a plurality of battery cells are constituteed, and the temperature in the module can rise faster, if the heat can not release in time, can increase the inconsistency of battery to shorten the life of battery, cause the potential safety hazard even.

Disclosure of Invention

The present invention is directed to a liquid cooling system for energy storage to solve the above-mentioned problems.

In order to achieve the above purpose, the present invention provides the following technical solutions: a liquid cooling system for storing energy, characterized by: comprises the following steps of;

the water circulation system is arranged at the top of the base plate;

the water circulation system comprises a water pump A, a water pump B, a water pump C, a water pump D, a fixing frame A, a water tank A, a fixing frame B and a water tank B;

the fixing frame A is arranged at a position, close to one end, of the top of the substrate, the fixing frame B is arranged at a position, close to the other end, of the top of the substrate, the fixing frame A and the fixing frame B are movably mounted with the substrate through bolts, a water tank A is arranged on one side of the fixing frame A, and a water tank B is arranged on one side of the fixing frame B;

the water pump A is movably arranged at the position, close to one end of the fixing frame A, of the top of the substrate, the water pump C is movably arranged at the position, close to the other end of the fixing frame A, of the top of the substrate, close to one end of the fixing frame B, the water pump B is arranged at the position, close to the other end of the fixing frame B, of the top of the substrate, and the water pump D is arranged at the position, close to the other end of the fixing frame B, of the top of the substrate;

a pipeline B is arranged on one side of the top of the substrate, two ends of the pipeline B are fixedly connected with the water pump A and the water pump B, a pipeline E is arranged on the other side of the top of the substrate, and two ends of the pipeline E are fixedly connected with the water pump C and the water pump D;

one end of the water pump A is provided with a pipeline A, one end of the pipeline A, which is far away from the water pump A, is embedded into the water tank A, one end of the water pump C is provided with a pipeline D, and one end of the pipeline D, which is far away from the water pump C, is embedded into the water tank A; one end of the water pump B is provided with a pipeline C, one end of the pipeline C, which is far away from the water pump B, is embedded into the water tank B, one end of the water pump D is provided with a pipeline F, and one end of the pipeline F, which is far away from the water pump D, is embedded into the water tank B.

Preferably, a heat radiation plate is movably arranged on one side of the fixing frame A, a plurality of refrigerating sheets are arranged on the heat radiation plate, the refrigerating sheets are started to enable the heat radiation plate to be rapidly cooled, and the refrigerating sheets are tightly attached to the fixing frame A, so that water in the water tank A is rapidly cooled.

Preferably, a heating plate is movably arranged on one side of the fixing frame B, a plurality of heating wires are arranged on the heating plate, and the heating wires work to heat water in the water tank B, so that the temperature of the water in the water tank B is raised.

Preferably, a plurality of battery modules are movably mounted on the top of the substrate, and a spacing space is formed between every two battery modules.

Preferably, the battery module is provided with the heat dissipation coil pipe on one side, and one side of heat dissipation coil pipe all is provided with the coil pipe support, and coil pipe support movable mounting is in one side of battery module, and the heat dissipation coil pipe is flat pipe, and flat pipe and battery module area of contact are bigger, can realize cooling and preheat more fast.

Preferably, one end of the heat dissipation coil is provided with a port A, and the other end of the heat dissipation coil is provided with a port B, the end parts of the plurality of ports A are connected to the pipeline B, and the end parts of the plurality of ports B are connected to the pipeline E.

Preferably, the top of base plate is fixed and is provided with the bounding wall, and the both sides of bounding wall are fixed to be provided with ventilative net, and the top movable mounting of bounding wall has the apron, and the symmetry is provided with the radiator unit near the position at both ends on the apron.

Preferably, the heat dissipation assembly comprises a fan, a motor and a dust screen, a shell, wherein the shell is movably mounted at the bottom of the cover plate, the top of the shell penetrates through the cover plate to be flush with the top of the cover plate, the dust screen is arranged at the top of the shell, a plurality of motors are arranged in the shell, and the fan is arranged at the bottom of the motor.

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

1. when the battery needs to be preheated, the heating wire works to heat the water in the water tank B, so that the temperature of the water in the water tank B is raised, and the hot water in the pipeline B flows into different heat dissipation coils through the ports A respectively, so that the battery module is quickly heated and preheated.

2. When the battery needs to be cooled, start the refrigeration piece and make the heating panel cool off fast, the inside water rapid cooling of water tank A, inside cold water of pipeline B divides into the different heat dissipation coils inside through a plurality of port A respectively for battery module rapid cooling realizes the intensification and the cooling of battery, thereby make better protection to the battery, make the battery be in operating temperature fast, the system is to every battery module independent cooling and preheat, make battery cooling and preheat the effect better, the speed is faster, and all be provided with the interval between every battery, effectually avoid heat gathering, and through forced air cooling and the dual cooling of liquid cooling, effectually avoid battery high temperature work, make the cooling effect better.

Drawings

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

FIG. 2 is a schematic diagram of the internal structure of the present invention;

FIG. 3 is a schematic perspective view of a part of the structure of the present invention;

FIG. 4 is a schematic plan view of a part of the structure of the present invention;

fig. 5 is an exploded view of a portion of the structure of the present invention.

In the figure: 1. a substrate; 2. coaming plate; 3. a cover plate; 4. a heat dissipation assembly; 5. a breathable net; 6. a battery module; 7. a heat dissipation coil; 8. a port A; 9. a port B; 10. a coil bracket; 11. a water pump A; 12. a pipeline A; 13. a pipeline B; 14. a water pump B; 15. a pipeline C; 16. a water pump C; 17. a pipeline D; 18. a pipeline E; 19. a water pump D; 20. a pipeline F; 21. a fixing frame A; 22. a water tank A; 23. a heat dissipation plate; 24. a cooling sheet; 25. a fixing frame B; 26. a water tank B; 27. a heating plate; 28. and (5) heating wires.

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.

In the description of the present invention, it should be noted that the azimuth or positional relationship indicated by the terms "vertical", "upper", "lower", "horizontal", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1-5, the present invention provides a technical solution: a liquid cooling system for storing energy, comprising;

a base plate 1, wherein a water circulation system is arranged at the top of the base plate 1;

the water circulation system comprises a water pump A11, a water pump B14, a water pump C16, a water pump D19, a fixing frame A21, a water tank A22, a fixing frame B25 and a water tank B26;

the fixing frame A21 is arranged at a position, close to one end, of the top of the substrate 1, the fixing frame B25 is arranged at a position, close to the other end, of the top of the substrate 1, the fixing frame A21 and the fixing frame B25 are movably mounted with the substrate 1 through bolts, a water tank A22 is arranged on one side of the fixing frame A21, and a water tank B26 is arranged on one side of the fixing frame B25;

the water pump A11 is movably arranged at the position, close to one end of the fixing frame A21, of the top of the substrate 1, the water pump C16 is movably arranged at the position, close to the other end of the fixing frame A21, of the top of the substrate 1, the water pump B14 is arranged at the position, close to one end of the fixing frame B25, of the top of the substrate 1, and the water pump D19 is arranged at the position, close to the other end of the fixing frame B25, of the top of the substrate 1;

a pipeline B13 is arranged on one side of the top of the base plate 1, two ends of the pipeline B13 are fixedly connected with the water pump A11 and the water pump B14, a pipeline E18 is arranged on the other side of the top of the base plate 1, and two ends of the pipeline E18 are fixedly connected with the water pump C16 and the water pump D19;

one end of the water pump A11 is provided with a pipeline A12, one end of the pipeline A12, which is far away from the water pump A11, is embedded into the water tank A22, one end of the water pump C16 is provided with a pipeline D17, and one end of the pipeline D17, which is far away from the water pump C16, is embedded into the water tank A22; one end of the water pump B14 is provided with a pipeline C15, one end of the pipeline C15, which is far away from the water pump B14, is embedded into the water tank B26, one end of the water pump D19 is provided with a pipeline F20, and one end of the pipeline F20, which is far away from the water pump D19, is embedded into the water tank B26.

Further, a heat dissipation plate 23 is movably mounted on one side of the fixing frame a21, a plurality of refrigerating sheets 24 are arranged on the heat dissipation plate 23, the refrigerating sheets 24 are started to enable the heat dissipation plate 23 to be rapidly cooled, the refrigerating sheets 24 are tightly attached to the fixing frame a21, and water in the water tank a22 is rapidly cooled.

Further, a heating plate 27 is movably mounted on one side of the fixing frame B25, and a plurality of heating wires 28 are arranged on the heating plate 27, and the heating wires 28 work to heat the water in the water tank B26, so that the temperature of the water in the water tank B26 is raised.

Further, a plurality of battery modules 6 are movably mounted on the top of the substrate 1, and a space is provided between every two battery modules 6.

Further, the heat dissipation coil pipe 7 is arranged on one side of the battery module 6, the coil pipe support 10 is arranged on one side of the heat dissipation coil pipe 7, the coil pipe support 10 is movably mounted on one side of the battery module 6, the heat dissipation coil pipe 7 is a flat pipe, the contact area between the flat pipe and the battery module 6 is larger, and the temperature reduction and the preheating can be realized more quickly.

Further, one end of the heat dissipation coil 7 is provided with a port A8, the other end of the heat dissipation coil 7 is provided with a port B9, the ends of the ports A8 are all connected to the pipeline B13, and the ends of the ports B9 are all connected to the pipeline E18.

Further, the top of base plate 1 is fixed and is provided with bounding wall 2, and the both sides of bounding wall 2 are fixed and are provided with ventilative net 5, and the top movable mounting of bounding wall 2 has apron 3, and the symmetry is provided with radiator unit 4 near the position at both ends on the apron 3.

Further, the heat dissipation assembly 4 comprises a fan, a motor and a dust screen, a shell, wherein the shell is movably mounted at the bottom of the cover plate 3, the top of the shell penetrates through the cover plate 3 to be flush with the top of the cover plate 3, the dust screen is arranged at the top of the shell, a plurality of motors are arranged in the shell, and the fan is arranged at the bottom of the motor.

In embodiment 1, referring to fig. 3-4, when the battery needs to be preheated, the heating wire 28 works to heat the water inside the water tank B26, so that the water inside the water tank B26 is warmed up, at this time, the water pump B14 pumps the hot water inside the water tank B26 through the pipeline C15, the hot water inside the water tank B26 is injected into the inside of the pipeline B13, the hot water inside the pipeline B13 flows into the inside of the different heat dissipation coils 7 through the plurality of ports A8, the heat dissipation coils 7 are flat pipes, so that the contact surface between the heat dissipation coils 7 and the battery module 6 is larger, the battery module 6 is warmed up and preheated quickly, the fastest speed of the battery module 6 can enter the best working state, the hot water entering the heat dissipation coils 7 is discharged through the port B9 and enters the pipeline E18, and the water pump D19 is started to pump the water inside the pipeline E18 and then is injected into the inside the water tank B26 through the pipeline F20, so that the battery is warmed up circularly.

Further, when the battery does not need to be preheated, the heat dissipation assembly 4 is started, the heat dissipation assembly 4 is blown to enable the heating wire 28 to be cooled down quickly, hot air in the coaming 2 is discharged quickly through the ventilation net 5, and air fluidity is good.

In embodiment 2, referring to fig. 2-5, when the battery needs to be cooled, the cooling plate 24 is started to cool the heat dissipation plate 23 quickly, the cooling plate 24 is tightly attached to the fixing frame a21, so that the water inside the water tank a22 is cooled down quickly, at this time, the water pump a11 pumps the cold water inside the water tank a22 through the pipeline a12, the cold water inside the water tank a22 is injected into the inside of the pipeline B13, the cold water inside the pipeline B13 is respectively distributed into different cooling coils 7 through the plurality of ports A8, the cooling coils 7 are flat pipes, the contact surface between the cooling coils 7 and the battery module 6 is larger, the battery module 6 is cooled down quickly, the running duration of the battery module 6 is longer, the continuous temperature rise of the battery module 6 is avoided, the aging speed of the battery module 6 is reduced, and a space is provided between every two battery modules 6, so that heat aggregation is effectively avoided, the cold water entering the cooling coils 7 is discharged through the ports B9, and then enters the pipeline E18, and the water pump C16 pumps the water inside the cooling coils 18 into the water tank a22 through the pipeline D17, so that the cooling down circulation speed of the battery is faster.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A liquid cooling system for storing energy, characterized by: comprises the following steps of;

the device comprises a substrate (1), wherein a water circulation system is arranged at the top of the substrate (1);

the water circulation system comprises a water pump A (11), a water pump B (14), a water pump C (16), a water pump D (19), a fixing frame A (21), a water tank A (22), a fixing frame B (25) and a water tank B (26);

the fixing frame A (21) is arranged at a position, close to one end, of the top of the substrate (1), the fixing frame B (25) is arranged at a position, close to the other end, of the top of the substrate (1), the fixing frame A (21) and the fixing frame B (25) are movably mounted with the substrate (1) through bolts, a water tank A (22) is arranged on one side of the fixing frame A (21), and a water tank B (26) is arranged on one side of the fixing frame B (25);

the water pump A (11) is movably mounted at the position, close to one end of the fixing frame A (21), of the top of the substrate (1), the water pump C (16) is movably mounted at the position, close to the other end of the fixing frame A (21), of the top of the substrate (1), the water pump B (14) is arranged at the position, close to one end of the fixing frame B (25), of the top of the substrate (1), and the water pump D (19) is arranged at the position, close to the other end of the fixing frame B (25);

one side of the top of the substrate (1) is provided with a pipeline B (13), two ends of the pipeline B (13) are fixedly connected with a water pump A (11) and a water pump B (14), the other side of the top of the substrate (1) is provided with a pipeline E (18), and two ends of the pipeline E (18) are fixedly connected with a water pump C (16) and a water pump D (19);

one end of the water pump A (11) is provided with a pipeline A (12), one end of the pipeline A (12) away from the water pump A (11) is embedded into the water tank A (22), one end of the water pump C (16) is provided with a pipeline D (17), and one end of the pipeline D (17) away from the water pump C (16) is embedded into the water tank A (22); one end of the water pump B (14) is provided with a pipeline C (15), one end of the pipeline C (15) away from the water pump B (14) is embedded into the water tank B (26), one end of the water pump D (19) is provided with a pipeline F (20), and one end of the pipeline F (20) away from the water pump D (19) is embedded into the water tank B (26).

2. A liquid cooling system for energy storage according to claim 1, wherein: a heat dissipation plate (23) is movably mounted on one side of the fixing frame A (21), and a plurality of refrigerating sheets (24) are arranged on the heat dissipation plate (23).

3. A liquid cooling system for energy storage according to claim 1, wherein: a heating plate (27) is movably mounted on one side of the fixing frame B (25), and a plurality of heating wires (28) are arranged on the heating plate (27).

4. A liquid cooling system for energy storage according to claim 1, wherein: the top of base plate (1) movable mounting has a plurality of battery modules (6), and all is provided with the interval space between every two battery modules (6).

5. A liquid cooling system for energy storage as in claim 4 wherein: the battery module is characterized in that a heat dissipation coil (7) is arranged on one side of the battery module (6), a coil support (10) is arranged on one side of the heat dissipation coil (7), the coil support (10) is movably mounted on one side of the battery module (6), and the heat dissipation coil (7) is a flat tube.

6. A liquid cooling system for energy storage as in claim 4 wherein: one end of the radiating coil pipe (7) is provided with a port A (8), the other end of the radiating coil pipe (7) is provided with a port B (9), the end parts of the plurality of ports A (8) are connected to a pipeline B (13), and the end parts of the plurality of ports B (9) are connected to a pipeline E (18).

7. A liquid cooling system for energy storage as in claim 4 wherein: the top of base plate (1) is fixed and is provided with bounding wall (2), and the both sides of bounding wall (2) are fixed and are provided with ventilative net (5), and the top movable mounting of bounding wall (2) has apron (3), and the symmetry of the position that is close to both ends on apron (3) is provided with radiator unit (4).

8. A liquid cooling system for energy storage as in claim 4 wherein: the heat dissipation assembly (4) comprises a fan, a motor and a dust screen, a shell is movably mounted at the bottom of the cover plate (3), the top of the shell penetrates through the cover plate (3) to be flush with the top of the cover plate (3), the dust screen is arranged at the top of the shell, a plurality of motors are arranged in the shell, and the fan is arranged at the bottom of the motor.