CN211404307U - Novel super capacitor module - Google Patents

Abstract

The utility model discloses a novel super capacitor module, it includes: the super capacitor group consists of a plurality of super capacitor monomers; the grid plates are assembled at the top and the bottom of the super capacitor bank, and are internally provided with connecting sheets which are in elastic conductive contact with the end electrodes of each super capacitor monomer; the grid plates at the two ends of the super capacitor group are locked and fixed with each other through the locking and fixing piece, and each super capacitor single body is limited and fixed. The utility model discloses grid tray and connecting piece among the prior art are as an organic whole to regard as the fixed knot between the grid tray to construct through the support column, thereby avoided with the threaded connection of super capacitor monomer and nut among the prior art as fixed not enough, simplified the self structure of each part and connection structure between effectively, be favorable to saving the occupation space of module and be convenient for dismouting and maintenance.

Description

Novel super capacitor module

Technical Field

The utility model relates to a super capacitor technical field, especially a novel super capacitor module.

Background

The conventional super capacitor module structure in the prior art includes a super capacitor group composed of super capacitor monomers, the super capacitor group is disposed between an upper grid plate and a lower grid plate, a connecting sheet and a nut are mounted on the grid plates, the grid plates are disposed between the super capacitor monomers and the connecting sheet, the connecting sheet is disposed between the super capacitor monomers and the nut, and the super capacitor monomers, the grid plates, the connecting sheet and the nut are connected into a whole as shown in fig. 1.

The existing structure mainly has the following defects:

1. the nut needs to be installed, which wastes working hours;

2. the height of the super capacitor single body is increased by installing a nut, and threads are added on the super capacitor single body to be matched with the nut for locking, so that the height of the whole module is increased;

3. the maintenance is inconvenient, and when the super capacitor is replaced, the grid plate can be taken down after all the nuts and the connecting sheets are required to be taken down, and finally the single body can be taken down;

4. the super capacitor single body is made of aluminum materials, and the nut is not easy to disassemble and is easy to slip and damage during maintenance.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, a neotype super capacitor module is provided.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is: a novel super capacitor module, it includes: the super capacitor group consists of a plurality of super capacitor monomers; the grid plates are assembled at the top and the bottom of the super capacitor bank, and are internally provided with connecting sheets which are in elastic conductive contact with the end electrodes of each super capacitor monomer; the grid plates at the two ends of the super capacitor group are locked and fixed with each other through the locking and fixing piece, and each super capacitor single body is limited and fixed.

In the technical scheme, the connecting sheet is provided with the elastic contact which is in contact with the end electrode of the super capacitor monomer.

In the technical scheme, the connecting sheet is composed of a plurality of connecting sheet monomers, and each connecting sheet monomer is provided with the elastic contact.

In the technical scheme, the plurality of connecting sheet monomers are arranged in the grid plate in a specific sequence.

In the technical scheme, the elastic contacts are uniformly distributed on the edge of the opening of the connecting sheet and extend to the end electrode for a certain height and length to form elastic bosses.

In the technical scheme, the bottom surface of the grid plate is provided with a limiting groove for embedding the end part of the super capacitor single body, and the elastic contact is positioned in the limiting groove.

In the above technical scheme, the limit groove comprises a positive limit groove and a negative limit groove; the positive electrode limiting groove is a first-order counter bore and is used for embedding the positive electrode at the end part of the super capacitor monomer; the negative electrode limiting groove is a second-order counter bore and is used for embedding the end negative electrode of the super capacitor monomer.

In the technical scheme, the elastic contact protrudes out of the bottom of the hole in the positive electrode limiting groove; and in the negative electrode limiting groove, the elastic contact protrudes out of the hole bottom and is lower than the first-step hole height.

In the above technical solution, the super capacitor bank further comprises a support column, and the support column is locked between the grid plates at the two end portions of the super capacitor bank through the locking member.

In the technical scheme, the grid plate and the connecting sheet are integrally formed by injection molding.

The utility model has the advantages that:

1. the super capacitor single nut does not need to be installed, the installation is convenient, and the production time is saved.

2. The height of the super capacitor monomer becomes short, and the space is saved.

3. Overall structure is simple, is convenient for maintain, is difficult for causing the damage when changing super capacitor monomer.

Drawings

Fig. 1 is a schematic view of a prior art structure.

Fig. 2 is a schematic view of the overall (explosive) structure of the present invention.

Fig. 3 is a schematic view of the overall cross-sectional structure of the present invention.

Fig. 4 is a schematic sectional structure diagram of the single body of the present invention.

Fig. 5 is a schematic view of the combination of the upper grid plate and the connecting piece of the present invention.

In the figure, 1, a super capacitor monomer; 2. a negative electrode; 3. a positive electrode; 4. an upper grid plate; 5. a lower grid plate; 6. a support pillar; 7. connecting a sheet monomer; 8. an elastic contact; 9. a positive electrode limiting groove; 10. a negative electrode limiting groove; 11. a circular hole; 12. a screw; 13. and inserting the hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 2-5, the novel super capacitor module of this embodiment is assembled by a super capacitor set, a grid plate, a connecting sheet and a supporting column 6.

In this embodiment, the super capacitor group is composed of nine super capacitor units 1, each super capacitor unit 1 has a cylindrical structure, one end of each super capacitor unit 1 is a flush surface and is a cathode 2, and the other end of each super capacitor unit 1 is provided with a boss and is an anode 3. What is different from prior art is the utility model discloses a super capacitor need not set up the screw thread, and super capacitor monomer 1 does not exist with being connected of nut etc. even also be difficult for taking place the damage for aluminium matter body. The combination mode of the super capacitor single bodies 1 is that the positive and negative electrodes are alternately arranged in the same end side, as shown in the figure, the super capacitor single bodies 1 in the first row are arranged upwards to be a positive electrode, a negative electrode and a positive electrode, the second row is a negative electrode, a positive electrode and a negative electrode, and the third row is a positive electrode, a negative electrode and a positive electrode. Therefore, the limiting grooves of the grid plate are correspondingly configured to be alternately arranged in the positive limiting grooves 9 and the negative limiting grooves 10. The specific combination mode is adjusted according to the series-parallel mode.

In this embodiment, the grid plate is an insulating plate made of plastic material and is divided into an upper grid plate 4 and a lower grid plate 5, the upper grid plate 4 is assembled at the top of the super capacitor bank, the lower grid plate 5 is assembled at the bottom of the super capacitor bank, and the upper grid plate 4 and the lower grid plate 5 are supported and fixed through a support column 6. And connecting sheets are arranged in the upper grid plate 4 and the lower grid plate 5, and the connecting sheets are used for contacting with the electrodes of the super capacitor single body 1 and forming a loop. The grid plate and the connecting sheet are integrally formed by injection molding. The bottom surface of the grid plate is provided with a limit groove for embedding the end part of the super capacitor single body 1, and the elastic contact 8 is positioned in the limit groove. The limiting groove comprises a positive limiting groove 9 and a negative limiting groove 10; the positive electrode limiting groove 9 is a first-order counter bore and is used for embedding the positive electrode at the end part of the super capacitor monomer 1; the negative electrode limiting groove 10 is a second-order counter bore and is used for embedding the end negative electrode of the super capacitor monomer 1. In the positive electrode limiting groove 9, the elastic contact 8 protrudes out of the bottom of the hole; in the negative electrode limiting groove 10, the elastic contact 8 protrudes out of the hole bottom and is lower than the first-step hole height.

In this embodiment, the connection plate in the single grid plate is composed of four connection plate monomers 7, each connection plate monomer 7 is provided with two elastic bosses contacting with the end electrodes of the super capacitor monomers 1, and the two elastic contacts 8 correspond to the two super capacitor monomers 1 respectively. Nine super capacitor monomers 1 are arranged in a 3 x 3 sequence to form a whole, four connecting sheet monomers 7 are arranged in the grid plate in a specific sequence, specifically, three connecting sheets are arranged side by side in the same direction, and one connecting sheet is aligned and arranged in the vertical direction.

In this embodiment, the elastic bosses are formed by uniformly distributing a plurality of elastic contacts 8 on the edge of the circular hole 11 of the connecting sheet unit 7 and extending a certain height and length to the end electrode. The elastic lug boss is in elastic contact with the electrode plane of the super capacitor. When the grid plate is fastened through the supporting column 6, the elastic contact 8 is in contact with the electrode of the super capacitor unit 1 and deforms, good contact with each other is guaranteed, and deformation is limited through the supporting column 6.

Specifically, the support column 6 is further included, and the support column is locked between the grid plates at two end parts of the super capacitor bank through a locking piece. Eight support columns 6 are arranged in the embodiment, and are respectively arranged at four corners of the grid plate, the middle part of the grid plate is four, and the total number of the support columns is eight. The support column 6 is used as a support between the upper grid plate 5 and the lower grid plate 5 to fix the positions of the grid plates, the positions of the grid plates are fixed, and the position of the super capacitor single body 1 is also fixed at the same time. Screw holes are formed in two ends of the supporting column 6, and screws 12 are screwed into the screw holes from the outer side of the grid plate to fix the grid plate and the supporting column 6. The grid plate is provided on its inside with insertion holes 13 for the support posts 6, which holes are shaped to match the outer shape of the support posts 6, in this embodiment hexagonal.

The utility model discloses, combine grid tray and connecting piece among the prior art as an organic whole to through support column 6 as the fixed knot between the grid tray construct, thereby avoided with the threaded connection of super capacitor monomer 1 and nut among the prior art as fixed not enough, simplified the self structure of each part and connection structure between effectively, be favorable to saving the occupation space of module and be convenient for dismouting and maintenance.

The above embodiments are merely illustrative and not restrictive, and all equivalent changes and modifications made by the methods described in the claims are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a novel super capacitor module which characterized in that includes:

the super capacitor group consists of a plurality of super capacitor monomers;

the grid plates are assembled at the top and the bottom of the super capacitor bank, and are internally provided with connecting sheets which are in elastic conductive contact with the end electrodes of each super capacitor monomer;

the grid plates at the two ends of the super capacitor group are locked and fixed with each other through the locking and fixing piece, and each super capacitor single body is limited and fixed.

2. The novel supercapacitor module according to claim 1, wherein: the connecting sheet is provided with an elastic contact which is contacted with the end electrode of the super capacitor monomer.

3. The novel supercapacitor module according to claim 2, wherein: the connecting sheet is composed of a plurality of connecting sheet monomers, and each connecting sheet monomer is provided with the elastic contact.

4. The novel supercapacitor module according to claim 3, wherein: the plurality of connecting sheet monomers are arranged in the grid plate in a specific sequence.

5. The novel supercapacitor module according to claim 2, wherein: the elastic contacts are uniformly distributed on the edge of the opening of the connecting sheet and extend to the end electrode for a certain height and length to form elastic bosses.

6. The novel supercapacitor module according to claim 2, wherein: the bottom surface of grid tray is provided with the spacing groove of inlaying dress ultracapacitor system monomer tip, and the elastic contact is located this spacing inslot.

7. The novel supercapacitor module according to claim 6, wherein: the limiting groove comprises a positive limiting groove and a negative limiting groove; the positive electrode limiting groove is a first-order counter bore and is used for embedding the positive electrode at the end part of the super capacitor monomer; the negative electrode limiting groove is a second-order counter bore and is used for embedding the end negative electrode of the super capacitor monomer.

8. The novel supercapacitor module according to claim 7, wherein: in the positive electrode limiting groove, the elastic contact protrudes out of the bottom of the hole; and in the negative electrode limiting groove, the elastic contact protrudes out of the hole bottom and is lower than the first-step hole height.

9. The novel supercapacitor module according to claim 1, wherein: the support column is locked between the grid plates at two end parts of the super capacitor bank through the locking piece.

10. The novel supercapacitor module according to claim 1, wherein: the grid plate and the connecting sheet are integrally formed by injection molding.

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