CN220306414U - Multifunctional stacked energy storage battery module - Google Patents

Abstract

The utility model relates to a multifunctional stacked energy storage battery module, which comprises a plurality of electric cores, wherein each electric core is internally connected with a battery, the electric cores are stacked up and down and connected, a first connecting mechanism and a first electric connecting mechanism electrically connected with the battery are arranged at the bottom end of each electric core except the electric core positioned at the lowest position, a second connecting mechanism and a second electric connecting mechanism electrically connected with the battery are arranged at the top end of each electric core except the electric core positioned at the highest position, the upper and lower adjacent electric cores are detachably connected through the first connecting mechanism and the second connecting mechanism, the first electric connecting mechanism and the second electric connecting mechanism of the upper and lower adjacent electric cores are connected and enable the batteries of the upper and lower adjacent electric cores to be electrically connected, a control module electrically connected with the battery is arranged in the electric core positioned at the highest position, a supporting leg is arranged at the bottom end of the electric core positioned at the lowest position, and a plurality of charging interfaces are also arranged on the electric core positioned at the highest position; the technical problem of single function of the energy storage battery in the prior art is solved.

Description

Multifunctional stacked energy storage battery module

Technical Field

The utility model relates to the technical field of energy storage batteries, in particular to a multifunctional stacked energy storage battery module.

Background

With the large-scale construction of various large-scale energy storage, for example, more places such as factories, large-scale office buildings, hospitals and the like use large-scale energy storage systems, the power supply has the capacity of peak clipping and valley filling, and the loss caused by power failure can be prevented. In addition, with the continuous development of battery technology, the application of the energy storage battery in the family life is also more and more widespread, for example, chinese patent CN215816093U discloses a household energy storage battery box, and the energy storage battery is generally larger in volume, and is mostly used for meeting the high-power demand when in emergency use or in peak power consumption in summer, and has a single function.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a multifunctional stacked energy storage battery module so as to solve the technical problem of single function of an energy storage battery in the prior art.

In order to solve the technical problems, the utility model provides a multifunctional stacked energy storage battery module, which comprises a plurality of electric cores, wherein batteries are connected in each electric core, the electric cores are stacked up and down and connected, a first connecting mechanism and a first electric connecting mechanism electrically connected with the battery of the battery are arranged at the bottom end of each electric core except for the electric core positioned at the lowest position, a second connecting mechanism and a second electric connecting mechanism electrically connected with the battery of the battery are arranged at the top end of each electric core except for the electric core positioned at the highest position, the upper and lower adjacent electric cores are detachably connected through the first connecting mechanism and the second connecting mechanism, the first electric connecting mechanism and the second electric connecting mechanism of the upper and lower adjacent electric cores are connected, the batteries of the upper and lower adjacent electric cores are electrically connected, a control module electrically connected with the battery of the battery is arranged in the electric core positioned at the highest position, a supporting leg is arranged at the bottom end of the electric core positioned at the lowest position, and a plurality of charging interfaces are also arranged on the electric core positioned at the highest position.

After the structure is adopted, the multifunctional stacked energy storage battery module has the following advantages: the battery cells are connected through the first connecting mechanism and the second connecting mechanism, the batteries are electrically connected through the first electric connecting mechanism and the second electric connecting mechanism, and the control module in the uppermost battery cell is electrically connected with the battery of the battery cell, so that each battery is electrically connected with the control module, and the battery cell can be used as an energy storage battery at the moment, and the more the battery cells are used, the more electric quantity can be stored; and through dismantling a plurality of electric core, only remain the electric core of top and below, still can be connected through first coupling mechanism and second coupling mechanism between the two, through first electric coupling mechanism and second electric coupling mechanism electricity connection, the whole small and light in weight of battery module at this moment, conveniently carry, can regard as outdoor power supply to use, the interface that charges that sets up on the electric core of top can be for electronic equipment power supply, has enriched energy storage battery's function.

As an improvement, the first connecting mechanism comprises a plurality of jacks, the bottom end of each battery cell except the battery cell positioned at the lowest part is provided with a plurality of jacks, the second connecting mechanism comprises a plurality of inserting shafts, the top end of each battery cell except the battery cell positioned at the highest part is connected with a plurality of inserting shafts, the jacks and the inserting shafts are in one-to-one correspondence and the inserting shafts are inserted in the jacks; by adopting the structure, the device has the advantages of simple structure and convenient connection.

As an improvement, the first connecting mechanism comprises a plurality of slots, the bottom end of each cell except the cell positioned at the lowest part is provided with a plurality of slots, the second connecting mechanism comprises a plurality of inserting sheets, the top end of each cell except the cell positioned at the highest part is connected with a plurality of inserting sheets, the slots correspond to the inserting sheets one by one and the inserting sheets are inserted into the slots; by adopting the structure, the device has the advantages of simple structure and convenient connection.

As an improvement, a portable electric core is detachably connected to the electric core, and when the portable electric core is connected to the electric core, the portable electric core is electrically connected with a battery in the electric core; by adopting the structure, the portable battery cell is increased in function, and the function of the energy storage battery is further enriched.

As an improvement, a radiating hole is arranged on the side wall of the battery cell positioned at the uppermost part; by adopting the structure, the heat dissipation of the battery core is facilitated whether the battery core is used as an energy storage battery or an outdoor power supply.

As an improvement, the top end of the battery cell positioned at the uppermost part is provided with a through hole, and the lower end of the through hole transversely penetrates through the side wall of the battery cell to form a handle on the battery cell; by adopting the structure, the carrying is convenient.

As an improvement, two opposite side walls of the uppermost battery cell are provided with first protruding parts protruding outwards; by adopting the structure, the first protruding part of the outward protrusion can play a role in preventing collision to a certain extent.

As an improvement, two opposite side walls of the battery cell positioned at the lowest part are provided with second protruding parts protruding outwards; with the adoption of the structure, the second protruding part protruding outwards can play a role in preventing collision to a certain extent.

Drawings

FIG. 1 is a schematic view of the overall exploded structure of the present utility model.

Fig. 2 is a schematic structural diagram of the uppermost cell in the present utility model.

Fig. 3 is a schematic structural diagram of a cell in the middle of the present utility model.

Fig. 4 is a schematic structural diagram of a cell located at the lowest position in the present utility model.

Reference numerals: 1. a battery cell; 2. a first connection mechanism; 21. a jack; 22. a slot; 3. a second connection mechanism; 31. inserting a shaft; 32. inserting sheets; 4. a support leg; 5. a charging interface; 6. a heat radiation hole; 7. a through hole; 8. a handle; 9. a first protrusion; 10. a second protruding portion; 11. a portable battery cell.

Detailed Description

The utility model relates to a multifunctional stacked energy storage battery module, which is described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 4, a multifunctional stacked energy storage battery module includes a plurality of electric cores 1, each electric core 1 is connected with a battery, the electric cores 1 are stacked up and down, a first connection mechanism 2 and a first electric connection mechanism electrically connected with a battery of the electric core 1 except for the electric core 1 located at the lowest position are all arranged at the bottom end of each electric core 1 except for the electric core 1 located at the highest position, a second connection mechanism 3 and a second electric connection mechanism electrically connected with the battery of the electric core 1 except for the electric core 1 located at the highest position are all arranged at the top end of each electric core 1, the electric cores 1 adjacent up and down are detachably connected through the first connection mechanism 2 and the second connection mechanism 3, the first electric connection mechanism and the second electric connection mechanism of the electric core 1 adjacent up and down are connected and enable the battery of the electric core 1 adjacent up and down to be electrically connected, a control module electrically connected with the battery of the electric core 1 located at the highest position is arranged in the electric core 1, and the first electric connection mechanism and the second electric connection mechanism are all of the prior art, and are not described herein.

As shown in fig. 1, in this embodiment, six electric cores 1 are counted, the bottom ends of the upper five electric cores 1 are all provided with a first connection mechanism 2 and a first electric connection mechanism, the top ends of the lower five electric cores 1 are all provided with a second connection mechanism 3 and a second electric connection mechanism, that is, the middle four electric cores 1 are simultaneously provided with the first connection mechanism 2, the second connection mechanism 3, the first electric connection mechanism and the second electric connection mechanism, the upper and lower adjacent electric cores 1 are detachably connected through the respective first connection mechanism 2 and the second connection mechanism 3, and the respective batteries are electrically connected through the first connection sheet and the second connection sheet, so that the six batteries are electrically connected, the quantity of the middle four electric cores 1 can be increased and decreased according to the use situation and the use requirement, that is, the quantity of the middle electric core 1 is reduced to zero, that is, the uppermost electric core 1 and the lowermost electric core 1 are directly connected through the respective first connection mechanism 2 and the second connection mechanism 3, and the respective batteries can be connected through the respective first connection mechanism and the second connection sheet, and the outdoor electric power supply can be light in weight, and the outdoor electric power supply can be used as the power supply.

As shown in fig. 4, the bottom end of the lowest cell 1 is provided with four legs 4, the four legs 4 are arranged at four corners of the lowest cell 1 in a protruding manner, and two opposite side walls of the lowest cell 1 are respectively provided with a second protruding part 10 protruding outwards, in this embodiment, the second protruding parts 10 are arranged on two opposite side walls of the cell 1 perpendicular to the length direction.

As shown in fig. 2, the uppermost electric core 1 is further provided with a plurality of charging interfaces 5, and the charging interfaces 5 comprise various types and specifications, and not only comprise interfaces for supplying power to other electric equipment, but also comprise interfaces for charging the electric core 1; the side wall of the uppermost battery cell 1 is provided with a heat dissipation hole 6, and the heat dissipation hole 6 is arranged on two opposite side walls of the battery cell 1 perpendicular to the length direction; the top end of the battery cell 1 positioned at the uppermost part is provided with a through hole 7, the lower end of the through hole 7 transversely penetrates through the side wall of the battery cell 1 to form a handle 8 on the battery cell 1, namely the upper end of the through hole 7 is vertically arranged to penetrate through the upper end face of the battery cell 1, and the lower end of the through hole 7 is horizontally arranged to penetrate through the side wall of the battery cell 1; in this embodiment, left and right through holes 7 are provided, and the two through holes 7 respectively penetrate through two opposite side walls of the battery cell 1 perpendicular to the length direction, and two handles 8 are correspondingly formed; the two opposite side walls of the uppermost battery cell 1 are respectively provided with a first protruding part 9 protruding outwards, and in this embodiment, the first protruding parts 9 are also arranged on the two opposite side walls of the battery cell 1 perpendicular to the length direction.

As shown in fig. 2 to 4, the first connection mechanism 2 includes a plurality of insertion holes 21, the bottom end of each cell 1 except the cell 1 located at the lowest position is provided with a plurality of insertion holes 21, the second connection mechanism 3 includes a plurality of insertion shafts 31, the top end of each cell 1 except the cell 1 located at the highest position is connected with a plurality of insertion shafts 31, the insertion holes 21 are in one-to-one correspondence with the insertion shafts 31, and the insertion shafts 31 are inserted into the insertion holes 21. The first connecting mechanism 2 comprises a plurality of slots 22, a plurality of slots 22 are arranged at the bottom end of each cell 1 except the cell 1 positioned at the lowest position, the second connecting mechanism 3 comprises a plurality of inserting sheets 32, a plurality of inserting sheets 32 are connected to the top end of each cell 1 except the cell 1 positioned at the highest position, the slots 22 are in one-to-one correspondence with the inserting sheets 32, and the inserting sheets 32 are inserted into the slots 22. The number of the jacks 21 on the upper end face or the lower end face of each electric core 1 is six, the number of the slots 22 is two, the number of the jacks 21 is three, the total number of the jacks 21 is two, the total number of the slots 22 is two, the slots 22 are respectively arranged on the front side and the rear side, the number of the slots 22 is two, correspondingly, the number of the inserting shafts 31 on the upper end face or the lower end face of each electric core 1 is six, the number of the inserting shafts 31 is three, the total number of the jacks 31 is two, the total number of the jacks 21 and the inserting shafts 31 are respectively arranged on the front side and the rear side, the number of the inserting slots 22 and the inserting shafts 32 are respectively arranged on the left side and the right side, the total number of the jacks 21 and the inserting shafts 31 are respectively in one-to-one correspondence in the vertical direction. As shown in fig. 1, a portable battery 11 is detachably connected to the battery 1, and when the portable battery 11 is connected to the battery 1, the portable battery 11 is electrically connected to the battery in the battery 1.

The battery cells 1 are connected through the first connecting mechanism 2 and the second connecting mechanism 3, the batteries among the battery cells 1 are electrically connected through the first electric connecting mechanism and the second electric connecting mechanism, and the control module in the uppermost battery cell 1 is electrically connected with the battery of the battery cell 1, so that each battery is electrically connected with the control module, and the battery cell can be used as an energy storage battery at the moment, and the more the battery cells 1 are used, the more electric quantity can be stored; and through dismantling a plurality of electric core 1, only remain the electric core 1 of top and below, still can be connected through first coupling mechanism 2 and second coupling mechanism 3 between the two, through first electric coupling mechanism and second electric coupling mechanism electricity connection, the whole small and light in weight of battery module at this moment, conveniently carry, can regard as outdoor power supply to use, the interface 5 that charges that sets up on the electric core 1 of top can be for electronic equipment power supply, has enriched energy storage battery's function.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the above-described one embodiment, and all other examples obtained by those skilled in the art without making any inventive effort are within the scope of the present utility model.

Claims (8)

1. The utility model provides a multi-functional stacked energy storage battery module, its characterized in that, includes a plurality of electric core (1), every all be connected with the battery in electric core (1), a plurality of electric core (1) are piled up from top to bottom and are connected, except that being located the below electric core (1) each electric core (1) bottom all is equipped with first coupling mechanism (2) and with self the first electric coupling mechanism that battery electricity is connected, except that being located the top electric core (1) each electric core (1) top all is equipped with second coupling mechanism (3) and with oneself the second electric coupling mechanism that battery electricity is connected, upper and lower adjacent between electric core (1) pass through first coupling mechanism (2) with second coupling mechanism (3) can dismantle the connection, upper and lower adjacent electric core (1) first electric coupling mechanism with second electric coupling mechanism connect and make the battery electricity of upper and lower adjacent electric core (1) connect the second electric coupling mechanism that electric core (1) top all is equipped with second electric coupling mechanism that electric core (1) top is connected with, be equipped with between electric core (1) and be located the top (1) is equipped with electric core (1) top (5) and is located the top (1) of electric core (1).

2. The multifunctional stacked energy storage battery module according to claim 1, wherein the first connecting mechanism (2) comprises a plurality of jacks (21), a plurality of jacks (21) are arranged at the bottom end of each cell (1) except the cell (1) located at the lowest position, the second connecting mechanism (3) comprises a plurality of inserting shafts (31), a plurality of inserting shafts (31) are connected to the top end of each cell (1) except the cell (1) located at the highest position, the jacks (21) are in one-to-one correspondence with the inserting shafts (31) and the inserting shafts (31) are inserted into the jacks (21).

3. A multifunctional stacked energy storage battery module according to claim 1 or 2, wherein the first connection mechanism (2) comprises a plurality of slots (22), a plurality of slots (22) are arranged at the bottom end of each cell (1) except the cell (1) positioned at the lowest position, the second connection mechanism (3) comprises a plurality of inserting sheets (32), a plurality of inserting sheets (32) are connected to the top end of each cell (1) except the cell (1) positioned at the highest position, the slots (22) are in one-to-one correspondence with the inserting sheets (32) and the inserting sheets (32) are inserted into the slots (22).

4. The multifunctional stacked energy storage battery module according to claim 1, wherein a portable electric core (11) is detachably connected to the electric core (1), and when the portable electric core (11) is connected to the electric core (1), the portable electric core (11) is electrically connected with the battery in the electric core (1).

5. The multifunctional stacked energy storage battery module according to claim 1, wherein heat dissipation holes (6) are formed in the side wall of the uppermost electric core (1).

6. The multifunctional stacked energy storage battery module according to claim 1, wherein a through hole (7) is formed in the top end of the uppermost battery cell (1), and the lower end of the through hole (7) transversely penetrates through the side wall of the battery cell (1) so that a handle (8) is formed on the battery cell (1).

7. A multifunctional stacked energy storage battery module according to claim 1, characterized in that the two opposite side walls of the uppermost cell (1) are provided with first protrusions (9) protruding outwards.

8. A multifunctional stacked energy storage battery module according to claim 1, characterized in that second protrusions (10) protruding outwards are provided on both opposite side walls of the cell (1) located at the lowest.