CN217823184U - High-capacity battery - Google Patents

Abstract

The utility model discloses a large capacity battery, including the casing, arrange the electric core group in the casing in and be located the apron of the relative both sides of casing, the apron is just, the negative pole of battery. The electric core group is formed by connecting a plurality of electric cores with similar performance according to the good grouping of capacity, voltage, internal resistance, self-discharge and the like in parallel, and all the electric core groups share an electrolyte system. The electrode lugs of the electric core group are connected with the cover plate, and the cover plate is connected with the shell in an insulating and sealing mode. The cover plate is used as the pole, so that the material can be saved, the energy density of the battery can be increased, the heat dissipation effect of the battery can be improved, the conductive area between the two batteries can be increased when the batteries are connected in series, and the energy density and the safety of the battery can be improved.

Description

High-capacity battery

Technical Field

The utility model relates to a battery field especially relates to a large capacity battery.

Background

The square battery with the maximum capacity of the lithium battery in the current market is about 300Ah, the cylindrical battery with the maximum capacity is not more than 100Ah, under the background of 'carbon peak reaching' and 'carbon neutralization', the energy storage industry is expected to be greatly developed, but is influenced by the battery capacity, the lithium battery needs to be connected in series and in parallel with a plurality of batteries when in energy storage application, so that connecting parts are various, the connecting steps are complex and cumbersome, the use amount of a battery management system, a wire rod and a battery box is very large, and the energy storage cost is high. The capacity of the battery is improved, and the battery has a remarkable effect on solving the problems. The large-capacity battery has the problems of high pole waste and generated heat, unreliable connection between batteries and poor safety.

CN113851698a discloses a power lithium ion battery, which comprises: the winding core assembly comprises a shell, a winding core group, a positive cover plate and a negative cover plate; the winding core group comprises a fixing support and a plurality of winding cores, the fixing support is provided with a plurality of placing grooves, the winding cores are placed in the placing grooves, the winding cores correspond to the placing grooves one by one, the positive pole lugs of the winding cores are connected in series, and the negative pole lugs of the winding cores are connected in series; the positive cover plate and the negative cover plate are respectively fixed on two opposite sides of the winding core group and used for coating the two opposite sides of the winding core group; the shell is arranged on the outer side of the winding core group and used for coating the winding core group. The application cancels the process of A/B winding core pairing, and avoids the waste caused by the problems of wrong pairing of winding cores, unmatched quantity and the like. However, the cover plate is not used as the positive and negative electrodes of the battery, so that the energy density of the battery cannot be increased, the heat dissipation effect is not good, the contact area between the poles cannot be increased during series connection, and the structure is unstable.

CN210576090U discloses a battery case and battery, wherein, battery case includes anodal apron, negative pole apron and casing, and anodal apron sets up the one end at the casing, and the negative pole apron sets up the other end at the casing, and anodal apron, negative pole apron and casing form and annotate the liquid cavity, and one side that the casing is close to annotating the liquid cavity is provided with the guiding gutter, and the guiding gutter communicates with annotating the liquid cavity. This application is provided with the guiding gutter on one side that the casing is close to annotating the liquid cavity, and the guiding gutter with annotate liquid cavity intercommunication, after electrolyte holding is in annotating the liquid cavity, electrolyte can flow in annotating liquid cavity and guiding gutter, and the guiding gutter with annotating liquid cavity intercommunication has increased the accommodation space of electrolyte, and how much direct influence of electrolyte the cycle number of times and the infiltration effect of battery to the cycling performance and the infiltration effect of battery have been improved. However, the cover plate is not used as the positive and negative electrodes of the battery, so that the energy density of the battery cannot be increased, the heat dissipation effect is not good, the contact area between the poles cannot be increased during series connection, and the structure is unstable.

Disclosure of Invention

In order to solve the technical problem, the utility model discloses a technical scheme as follows:

the utility model discloses a large capacity battery, including the casing, arrange the electric core group in the casing in and be located the apron of the relative both sides of casing, a serial communication port, the apron includes first apron and second apron, first apron is the positive pole of battery, the second apron is the negative pole of battery, the positive pole of electric core group with first cover connection, the negative pole of electric core group with second cover connection.

Preferably, the cover plate is connected with the shell in an insulating mode.

Preferably, the connection mode of the cover plate and the shell is one or more of injection molding connection, bolt connection, welding and gluing.

Preferably, the cover plate includes a mounting portion and a conductive portion.

Preferably, the mounting portion comprises an insulating structure.

Preferably, the mounting portion and the conductive portion are connected in an insulated manner.

Preferably, the conductive part protrudes from the housing.

Preferably, the cover plate is provided with a groove.

Preferably, the grooves are in a straight line shape, and at least one groove is formed.

Preferably, a pressing part is arranged above the joint of the cover plate and the shell, and an insulating gasket is arranged on the joint of the pressing part and the cover plate.

Preferably, the housing is provided with a connecting portion.

Preferably, the connecting part comprises a first connecting component and a second connecting component.

Preferably, a positioning part is arranged on the shell.

Preferably, the positioning part comprises a first positioning component and a second positioning component.

Preferably, the shell is provided with a reinforcing rib.

Preferably, a pressure relief component is arranged on the shell.

Preferably, at least one partition is provided in the housing.

Preferably, the upper end and the lower end of the at least one partition plate are in insulated connection with the cover plate.

Preferably, the partition plate is provided with a through portion.

Preferably, the electric core group is provided with a pressing component.

Preferably, the tab of the electric core set is connected with the cover plate, the positive tab of the electric core set is connected with the first cover plate, and the negative tab of the electric core set is connected with the second cover plate.

Preferably, the battery pack further comprises a bus bar, the tab of the battery pack is connected with the bus bar, the bus bar comprises a positive bus bar and a negative bus bar, the positive tab of the battery pack is connected with the positive bus bar, and the negative tab of the battery pack is connected with the negative bus bar.

Preferably, the bus bar is connected with the cover plate through at least one layer of metal foil, the positive bus bar is connected with the first cover plate, and the negative bus bar is connected with the second cover plate.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses a large capacity battery, including the casing, arrange the electric core group in the casing in and be located the apron of the relative both sides of casing, the apron includes first apron and second apron, first apron is the positive pole of battery, the second apron is the negative pole of battery, the positive pole of electric core group with first cover connection, the negative pole of electric core group with second cover connection. The utility model greatly reduces the material cost of the battery, saves the internal space of the battery and improves the energy density of the battery by making the pole become the cover plate; the pole is a heat accumulation part of the battery, and the pole is used as a battery cover plate, so that heat dissipation of the battery pole is facilitated; when a plurality of batteries are connected in series, the contact area between the pole posts is increased, so that the connection effectiveness of the batteries is improved, the generation of heat is reduced, and the safety and the service life of the batteries are improved.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

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

Fig. 1 is one of the overall structural diagrams of a large capacity battery;

FIG. 2 is a second schematic diagram of the overall structure of a large-capacity battery;

FIG. 3 is a schematic view of a high capacity battery case;

FIG. 4 is a cross-sectional view of a large capacity battery case and cover;

FIG. 5 is an enlarged view of a portion A of FIG. 4;

fig. 6 is a schematic view of the structure of the electric core assembly.

Reference numerals:

1-shell, 2-electric core group, 3-cover plate, 31-first cover plate, 32-second cover plate, 33-installation part, 34-electric conduction part, 4-groove, 5-pressing sheet, 6-insulating gasket, 7-injection molding layer, 8-connection part, 81-first connection component, 82-second connection component, 9-reinforcing rib, 10-pressure relief component, 11-positioning part, 111-first positioning component, 112-second positioning component, 12-partition plate, 13-through part, 14-fixing component, 15-busbar and 16-metal foil.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

The technical solution of the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Example 1

The embodiment shows a large capacity battery, including casing 1, arrange the electric core group 2 in casing 1 and be located the apron 3 of the relative both sides of casing 1 in, apron 3 includes first apron 31 and second apron 32, and first apron 31 is the battery positive pole, and second apron 32 is the battery negative pole, and the anodal and the first apron 21 welding of electric core group 2, the negative pole and the second apron 32 welding of electric core group 2.

The battery pole is used as the cover plate, so that the material cost of the battery is greatly reduced, the internal space of the battery is saved, and the energy density of the battery is improved; the pole is a heat accumulation part of the battery, and the pole is used as a battery cover plate, so that heat dissipation of the battery pole is facilitated; when a plurality of batteries are connected in series, the contact area between the pole posts is increased, the connection effectiveness of the batteries is improved, the generation of heat is reduced, and the safety and the service life of the batteries are improved.

Example 2

The embodiment shows a large-capacity battery, which comprises a shell 1, a core pack 2 arranged in the shell 1 and cover plates 3 positioned at two opposite sides of the shell 1, wherein the cover plates 3 comprise a first cover plate 31 and a second cover plate 32, the first cover plate 31 is the anode of the battery, the second cover plate 32 is the cathode of the battery, and the cover plates 3 are integrated and comprise an installation part 33 and a conductive part 34. The conductive part 34 protrudes out of the casing 1, so that the pole connecting surface can be fully contacted when two batteries are connected in series, and the connection effectiveness can be ensured.

The cover plate 3 is in insulated connection with the shell 1 in an injection molding mode, so that an injection molding layer is formed at the contact position of the cover plate 3 and the shell 1. It should be noted that the insulating connection mode of the cover plate and the shell may also be one or more of bolt connection, welding and gluing.

The cover plate is provided with 5 grooves 4 which are in a straight shape. It should be noted that other numbers of grooves 4 are possible, such as: 1, 2, 3 · · · · · ·; the grooves 4 can also be of other shapes, for example: u-shaped, S-shaped.

The joint of the mounting part 33 and the casing 1 is provided with a pressing part 5, the pressing part 5 is a pressing sheet in the embodiment, and the contact part of the pressing sheet and the mounting part 33 is provided with an insulating gasket 6 to prevent the pressing sheet from conducting current to the casing 1 to cause the battery to be short-circuited.

The positioning part 11 is arranged on the shell 1, the positioning part 11 comprises a first positioning component 111 and a second positioning component 112, in the embodiment, the first positioning component 111 is a positioning column, the second positioning component 112 is a positioning lug, and when the batteries are connected in series, the positioning column and the positioning lug are matched with each other correspondingly, so that the batteries are convenient to position, install and fix; the upper edge and the lower edge of the shell 1 are circumferentially provided with connecting parts 8, each connecting part 8 comprises a first connecting component 81 and a second connecting component 82, in the embodiment, the first connecting components 81 are first connecting lugs, the second connecting components 82 are second connecting lugs, inner walls of the connecting lugs are provided with internal threads, and when batteries are connected in series, the connecting parts are fastened by penetrating studs through the connecting lugs of the batteries, so that the structural stability of the batteries can be improved; in the present embodiment, the connecting portions and the positioning portions are alternately provided at intervals. It should be noted that the connecting portions may be provided only in one set at the center of the outer surface of the housing.

Be equipped with strengthening rib 9 on casing 1, when the battery takes place thermal runaway, the inside atmospheric pressure of casing 1 can increase, and strengthening rib 9 can strengthen battery case 1's structural stability.

The casing 1 is provided with a pressure relief member 10, and in the present embodiment, the pressure relief member 10 is a pressure relief valve. When the battery is out of control due to heat, the pressure release component 10 can timely release the high-temperature and high-pressure inflammable substances in the battery out of the shell 1, so that the safety of the battery is ensured.

Be equipped with 6 baffles 12 in casing 1, the distance between the adjacent baffle is equal, separates casing 1 inner space for 7 electric core chambeies, is equipped with through part 13 on the baffle 12, makes electrolyte can circulate in casing 1, and all electric core group 2 in the casing 1 share an electrolyte system. It should be noted that the number of the partition plates can be changed according to the number of the electric core groups, for example: 1, 2, 3 … …; the upper and lower ends of the 2 clapboards positioned in the center are connected with the cover plate in an insulating way.

There are 7 electric core groups 2 in the casing 1, and every electric core intracavity is equipped with 1 electric core group 2. The number of the electric core groups can be adjusted to 1, 2 and 3 … … according to the requirement of the battery capacity; the capacity, voltage, internal resistance, self-discharge parameters and the like of different electric core groups are similar.

The electric core group 2 is provided with a fixing component 14, which comprises a fixing plate and a binding belt, wherein the fixing plate is inwards extruded from two sides of the electric core group 2 and is tightly bound by the binding belt, so that the electric core group 2 is stable in structure.

The electrode lugs of the electric core group 2 are welded with the bus bars 15, the bus bars 15 are copper-aluminum composite plates, the bus bars 15 comprise positive electrode bus bars and negative electrode bus bars, the positive electrode lugs of the electric core group are welded with the positive electrode bus bars, and the negative electrode lugs of the electric core group are welded with the negative electrode bus bars; the bus bar 15 is welded to the cover plate 3 by a plurality of metal foils, in this embodiment, the plurality of metal foils are 5 layers of aluminum foil, one end of the positive aluminum foil is welded to the positive bus bar, the other end is welded to the first cover plate 31, one end of the negative aluminum foil is welded to the negative bus bar, and the other end is welded to the second cover plate 32. It should be noted that the number of layers of the multi-layer metal foil may be other numbers, such as: 1, 2, 3 layers; the multilayer metal foil may also be other metals, such as: copper (C.). C DEG G. The electrode lugs of the electric core group are connected with the cover plate through the bus bar and the metal foil, so that the stability of the structure is enhanced, and the conductive effect is also enhanced.

While embodiments of the invention have been disclosed above, it is not limited to the applications listed in the description and the embodiments. It can be applicable to various and be fit for the utility model discloses a field completely. Additional modifications will readily occur to those skilled in the art. The invention is therefore not to be limited to the specific details and illustrations shown and described herein, without departing from the general concept defined by the claims and their equivalents.

Claims (23)

1. The utility model provides a large capacity battery, includes the casing, arranges the electric core group in the casing and is located the apron of the casing both sides relatively, its characterized in that, the apron includes first apron and second apron, first apron is the positive pole of battery, the second apron is the negative pole of battery, the positive pole of electric core group with first cover connection, the negative pole of electric core group with second cover connection.

2. The large-capacity battery as claimed in claim 1, wherein the cap plate is insulatively connected to the case.

3. The high capacity battery according to claim 1, wherein the cover plate is connected to the case by one or more of injection molding, bolting, welding and gluing.

4. The large capacity battery as claimed in claim 1, wherein the cap plate includes a mounting portion and a conductive portion.

5. The large capacity battery as claimed in claim 4, wherein the mounting part includes an insulating structure.

6. A large capacity battery as set forth in claim 4, wherein the mounting portion and the conductive portion are connected in an insulated manner.

7. The large-capacity battery according to claim 4, wherein the conductive portion protrudes from the case.

8. A large capacity battery as recited in claim 1, wherein the cap plate is provided with a groove.

9. A large capacity battery as defined in claim 8, wherein said grooves are in the shape of a straight line, and at least one of said grooves is provided.

10. The large-capacity battery as claimed in claim 1, wherein a pressing member is provided above a connection part of the cap plate and the case, and an insulating gasket is provided at a connection part of the pressing member and the cap plate.

11. The large capacity battery as claimed in claim 1, wherein the case is provided with a connecting portion.

12. A large capacity battery as recited in claim 11, wherein the connecting portion includes a first connecting member and a second connecting member.

13. The large capacity battery as claimed in claim 1, wherein a positioning part is provided on the case.

14. The large capacity battery as claimed in claim 13, wherein the positioning part includes a first positioning member and a second positioning member.

15. A large capacity battery as recited in claim 1, wherein the case is provided with reinforcing ribs.

16. A large capacity battery as recited in claim 1, wherein a pressure relief member is provided on the case.

17. A large capacity battery as recited in claim 1, wherein at least one separator is provided in the case.

18. The large capacity battery as claimed in claim 17, wherein the at least one separator is connected at upper and lower ends thereof to the cap plate in an insulated manner.

19. A large capacity battery as recited in claim 17, wherein the separator is provided with a penetration portion.

20. The large capacity battery as claimed in claim 1, wherein the electric core pack is provided with a compressing assembly.

21. The large-capacity battery according to claim 1, wherein the tab of the electric core pack is connected to the cover plate, the positive tab of the electric core pack is connected to the first cover plate, and the negative tab of the electric core pack is connected to the second cover plate.

22. The large-capacity battery according to claim 1, further comprising a bus bar to which the tab of the electric core pack is connected, the bus bar comprising a positive electrode bus bar to which the positive electrode tab of the electric core pack is connected and a negative electrode bus bar to which the negative electrode tab of the electric core pack is connected.

23. The large capacity battery as claimed in claim 22, wherein the bus bar is connected to the cap plate through at least one metal foil, the positive bus bar is connected to the first cap plate, and the negative bus bar is connected to the second cap plate.

Images