CN211929576U - Novel square battery splicing support - Google Patents

Abstract

The utility model discloses a novel square battery splicing support, which comprises a battery fixing piece, a battery pack end fixing piece and a fixing surface shell, wherein the fixing surface shell is buckled and fixed with the battery fixing piece; splicing clamping bulges are arranged on the side plates and are positioned on two sides of the upper parts of the side plates; the fixed surface shell is provided with a splicing buckling hole which is clamped with the splicing clamping protrusion. The utility model discloses square battery concatenation support design scientific and reasonable adopts the structure of all sides protection, and more comprehensive protection battery provides a safest, the best compound mode of radiating effect, makes the performance of its battery can furthest's performance come out. The investment cost is reduced, the investment is reduced, the efficiency is fastest, and the adaptability of the product is improved.

Description

Novel square battery splicing support

Technical Field

The utility model relates to a battery holder technical field, concretely relates to novel square battery concatenation support.

Background

The hospital stand-by power supply, the school stand-by power supply, the signal tower stand-by power supply and other energy storage items need a support to combine a plurality of batteries. The existing scheme is an integral support, and splicing can not be carried out according to actual conditions so as to meet the requirements of products with different capacities. The disadvantages of the prior art are as follows: A. the upper case and the lower case are not integrated, so that the distance between the upper case and the lower case cannot be well fixed, and the upper case and the lower case are easily loosened, thereby causing the overall firmness of the entire battery pack; B. the capacity of various batteries cannot be shared, the battery can only be limited to one product, and if other styles (larger capacity and more batteries) are developed, the mold needs to be input again, so that the input cost is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a protect function is more comprehensive and the product develops novel square battery concatenation support of variety with concatenation function, battery.

In order to overcome the defects in the prior art, the utility model adopts the following technical scheme:

a novel square battery splicing support comprises a battery fixing piece, a battery pack end fixing piece and a fixing face shell, wherein the fixing face shell is fastened and fixed with the battery fixing piece, the battery pack end fixing piece is positioned on two sides of the battery fixing piece, the battery fixing piece comprises a middle partition plate, a top plate, a side plate and a bottom plate, the top plate, the side plate and the bottom plate extend to the front and the back of the middle partition plate, a battery frame is formed by the top plate, the side plate and the bottom plate, and the middle partition; splicing clamping bulges are arranged on the side plates and are positioned on two sides of the upper parts of the side plates; and the fixed surface shell is provided with a splicing buckling hole which is clamped with the splicing clamping protrusion.

Furthermore, a surface shell splicing clamping hook is further arranged on the fixed surface shell and is clamped with the adjacent fixed surface shell.

Furthermore, the splicing clamping protrusions on two sides of the upper part of each side plate are connected with the splicing clamping protrusions on the adjacent side plates to form a straight line.

Furthermore, a plurality of ventilation grooves and wire passing positioning blocks are arranged on the top plate, the top plates which are spliced together enable the ventilation grooves to form ventilation holes in different shapes, and the wire passing positioning blocks are located at the top of the top plate.

Furthermore, the wire passing positioning block is a T-shaped wire passing positioning block, a wire passing groove is formed in the T-shaped wire passing positioning block, and the wire passing groove is located at the bottom of a T foot of the wire passing positioning block.

Further, group battery tip mounting includes group battery side clamp splice and tip fixed block, and group battery side clamp splice is connected fixedly with the battery mounting, and the tip fixed block is fixed on group battery side clamp splice.

Furthermore, the battery pack side clamping block is also provided with a side clamping protrusion, the splicing clamping protrusion is matched with the side clamping protrusion, and the splicing buckling hole is clamped on the side clamping protrusion and the splicing clamping protrusion.

Furthermore, a plurality of bottom ventilation grooves are formed in the bottom plates, and different ventilation holes are formed in the bottom ventilation grooves of two adjacent bottom plates.

Furthermore, novel square battery concatenation support still includes battery UNICOM gasket, the battery of fixing on two battery mounting of battery UNICOM gasket UNICOM.

Furthermore, the middle partition plate is of a hollow structure, the side plate is divided into an upper part and a lower part, and the splicing clamping protrusions are located on two sides of the upper part of the side plate.

The utility model discloses square battery concatenation support design scientific and reasonable has following advantage:

1. the battery is protected more comprehensively by adopting an all-round protection structure, and an optimal and safest combination mode with the best heat dissipation effect is provided for the battery, so that the performance of the battery can be exerted to the maximum extent.

2. The number of the support parts can be automatically determined according to the power consumption requirement (the number of batteries) of the project, so that the input research and development cost is reduced, the input is reduced, the efficiency is fastest, and the adaptability of the product is improved.

Drawings

In order to illustrate the embodiments of the present invention or the technical solutions in the prior art more clearly, the drawings used in the description of the embodiments or the prior art will be briefly described below, and 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 without inventive exercise according to the drawings:

fig. 1 is a schematic view of an embodiment of a novel square battery splicing bracket of the present invention;

FIG. 2 is a schematic view of the battery fixing member and the fixing surface shell of the novel square battery splicing bracket;

FIG. 3 is a schematic view of a battery fixing member of the novel square battery splicing bracket;

FIG. 4 is a schematic view of the use state of the novel square battery splicing bracket;

in the drawings: 1-a battery mount; 2-battery pack end fixing piece; 3-fixing the surface shell; 4-a battery communication gasket; 11-a middle partition plate; 12-a top plate; 13-side plate; 14-a base plate; 121-ventilating grooves; 122-a wire passing positioning block; 123-wire passing groove; 131-splicing convex blocks; 141-bottom ventilation slots; 21-battery pack side clamping blocks; 22-end fixing block; 211-side snap; 31-splicing fastening holes; 32-surface shell splicing hook.

Detailed Description

The present invention will be described in detail with reference to the drawings and specific embodiments, and the exemplary embodiments and descriptions of the present invention are used to explain the present invention, but not to limit the present invention.

As shown in fig. 1 to 4, a novel square battery splicing support comprises a battery fixing piece 1, a battery pack end fixing piece 2 and a fixing surface shell 3, wherein the fixing surface shell 3 is fastened and fixed with the battery fixing piece 1, the battery pack end fixing piece 2 is positioned at two sides of the battery fixing piece 1, the battery fixing piece 1 comprises a middle partition plate 11, a top plate 12, a side plate 13 and a bottom plate 14 which extend forwards and backwards from the middle partition plate 11, and the battery is framed by the top plate 12, the side plate 13 and the bottom plate 14 after the extension; a battery frame is enclosed by the top plate 12, the side plates 13 and the bottom plate 14, and the middle partition plate 11 separates two batteries; splicing clamping protrusions 131 are arranged on the side plates 13, and the splicing clamping protrusions 131 are positioned on two sides of the upper portions of the side plates 13; the fixed surface shell 3 is provided with a splicing and buckling hole 31, and the splicing and buckling hole 31 is clamped with the splicing and clamping protrusion 131.

During operation, exactly say that two battery mounting 1 fix a battery in the middle, and the battery is put in intermediate bottom 11 both sides, and battery group tip mounting 2 fixes the battery of intermediate bottom 11 both sides, because all match the concatenation card protruding 131 on the adjacent curb plate 13, the concatenation lock hole 31 on the fixed surface shell 3 just can accomplish the simplest combination with the concatenation card protruding 131 lock.

Specifically, still be equipped with face shell concatenation trip 32 on the fixed face shell 3, face shell concatenation trip 32 and adjacent fixed face shell 3 joint. Therefore, the fixing face shell 3 can be formed into a whole, and the battery fixing pieces 1 which are relatively matched with the fixing face shell 3 are also fixed into a whole group, so that the battery pack with different battery numbers can be detachably combined.

Specifically, the splicing lugs 131 on both sides of the upper portion of the side plate 13 are connected with the splicing lugs 131 on the adjacent side plate 13 to form a straight line.

In some embodiments, the top plate 12 is provided with a plurality of vent grooves 121 and wire-passing positioning blocks 122, the top plate 12 spliced together enables the vent grooves 121 to form vent holes with different shapes (in the embodiments, one of the ways is shown: square holes + round holes), the wire-passing positioning blocks 122 are positioned at the top of the top plate 12 and are symmetrically distributed, and the middle gap can also be used as a larger wire-passing groove. The wire passing positioning block 122 is a T-shaped wire passing positioning block, a wire passing groove 123 is formed in the T-shaped wire passing positioning block, and the wire passing groove 123 is located at the bottom of a T foot of the wire passing positioning block 122.

Specifically, the battery pack end fixing member 2 includes a battery pack side clamping block 21 and an end fixing block 22, the battery pack side clamping block 21 is fixedly connected to the battery fixing member 1, the end fixing block 22 is fixed to the battery pack side clamping block 21, and in the embodiment, the end fixing block 22 is fixed to the battery pack side clamping block 21 by rivets or screws. The battery pack side clamping block 21 is also provided with a side clamping protrusion 211, the splicing clamping protrusion 131 is matched with the side clamping protrusion 211, and the splicing buckling hole 31 is clamped on the side clamping protrusion 211 and the splicing clamping protrusion 131. The side clamping protrusions 211 and the splicing clamping protrusions 131 are buckled with the splicing buckling holes 31, so that the battery pack forms a whole frame.

In some embodiments, the bottom plates 14 are provided with a plurality of bottom ventilation slots 141, and the bottom ventilation slots 141 of two adjacent bottom plates 14 form different ventilation holes. The bottom ventilation slots 141 form different ventilation holes to match with the ventilation holes of the top plate 12 to form a heat dissipation flow channel.

Specifically, novel square battery concatenation support still includes battery UNICOM gasket 4, and battery fixed on two battery mounting 1 of battery UNICOM gasket 4 UNICOM. The middle partition 11 is a hollow structure, the side plate 13 is divided into an upper part and a lower part, and the splicing clamping protrusions 131 are positioned on two sides of the upper part of the side plate 13.

The battery fixing piece 1, the fixing face shell 3 and the battery pack side clamping block 21 of the battery pack end fixing piece 2 are all made of fireproof ABS plastic, and other parts are made of metal pieces.

In summary, the number of the battery fixing pieces and the number of the fixing face shells can be increased or decreased, so that the capacity of the battery pack can be customized. Has the splicing function. The protection function of the battery is more comprehensive. The products are spread and diversified.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a novel square battery concatenation support, includes battery mounting (1) and group battery tip mounting (2) to and stationary plane shell (3), stationary plane shell (3) are fixed with battery mounting (1) lock, and group battery tip mounting (2) are located battery mounting (1) both sides, its characterized in that:

the battery fixing piece (1) comprises a middle partition board (11), a top board (12), side boards (13) and a bottom board (14) which extend to the front and back of the middle partition board (11), the top board (12), the side boards (13) and the bottom board (14) enclose a battery frame, and the middle partition board (11) separates two batteries; splicing clamping bulges (131) are arranged on the side plates (13), and the splicing clamping bulges (131) are positioned on two sides of the upper parts of the side plates (13); the fixed surface shell (3) is provided with a splicing buckling hole (31), and the splicing buckling hole (31) is clamped with the splicing clamping protrusion (131).

2. The novel square battery splicing support of claim 1, wherein:

the fixed surface shell (3) is also provided with a surface shell splicing clamping hook (32), and the surface shell splicing clamping hook (32) is clamped with the adjacent fixed surface shell (3).

3. The novel square battery splicing support of claim 2, wherein:

the splicing clamping bulges (131) on the two sides of the upper part of the side plate (13) are connected with the splicing clamping bulges (131) on the adjacent side plate (13) to form a straight line.

4. The novel square battery splicing support of claim 1, wherein:

the air-permeable ceiling structure is characterized in that the top plate (12) is provided with a plurality of air-permeable grooves (121) and wire-passing positioning blocks (122), the top plate (12) which are spliced together enables the air-permeable grooves (121) to form air-permeable holes in different shapes, and the wire-passing positioning blocks (122) are positioned at the top of the top plate (12).

5. The novel square battery splicing support of claim 4, wherein:

the wire passing positioning block (122) is a T-shaped wire passing positioning block, a wire passing groove (123) is formed in the T-shaped wire passing positioning block, and the wire passing groove (123) is located at the bottom of a T foot of the wire passing positioning block (122).

6. The novel square battery splicing support of claim 1, wherein:

the battery pack end fixing part (2) comprises a battery pack side clamping block (21) and an end fixing block (22), the battery pack side clamping block (21) is fixedly connected with the battery fixing part (1), and the end fixing block (22) is fixed on the battery pack side clamping block (21).

7. The novel square battery splicing support of claim 6, wherein:

the battery pack side clamping block (21) is also provided with a side clamping protrusion (211), the splicing clamping protrusion (131) is matched with the side clamping protrusion (211), and the splicing buckling hole (31) is clamped on the side clamping protrusion (211) and the splicing clamping protrusion (131).

8. The novel square battery splicing support of claim 1, wherein:

the bottom ventilation grooves (141) are arranged on the bottom plates (14), and the bottom ventilation grooves (141) on two adjacent bottom plates (14) form different ventilation holes.

9. The novel square battery splicing support of claim 1, wherein:

the novel square battery splicing support further comprises a battery communication gasket (4), and the battery communication gasket (4) is communicated with the batteries fixed on the two battery fixing pieces (1).

10. The novel square battery splicing support of claim 1, wherein:

the middle partition plate (11) is of a hollow structure, the side plate (13) is divided into an upper part and a lower part, and the splicing clamping protrusions (131) are positioned on two sides of the upper part of the side plate (13).

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