CN214254630U - Storage battery mounting frame and storage battery module - Google Patents

Abstract

The utility model provides a battery mounting bracket and battery module, relate to energy storage technical field, the battery mounting bracket includes base and box, the box is located to the base, the base is used for fixing the battery mounting bracket, the box is used for placing battery pack, battery pack includes at least one battery, the box includes rack and fixed subassembly, the rack is equipped with at least one battery chamber, the battery chamber is used for the holding and fixes a position the battery, fixed subassembly includes limiting plate and fixed plate, the limiting plate is located on the rack, the limiting plate is used for restricting the position that the battery inserted the battery chamber, the fixed plate is located on the rack, and the fixed plate is located the battery chamber and keeps away from one side of limiting plate, the fixed plate is used for cooperating with the limiting plate, in order to fix the battery. The storage battery mounting bracket positions the storage battery through the battery cavity and fixes the storage battery through the matching of the limiting plate and the fixing plate, and the problems of dumping, slipping, impact between the storage batteries and the like can not occur.

Description

Storage battery mounting frame and storage battery module

Technical Field

The utility model relates to an energy storage technical field especially relates to a battery mounting bracket and battery module.

Background

The storage battery pack is used as an important power supply facility and is often used as a backup power supply in communication equipment for testing, so that the safety and reliability of the storage battery pack are very important for the normal and safe operation of the supplied power equipment. In earthquake zone areas of various countries, the storage battery pack placed in the area has the requirement of earthquake resistance in consideration of the particularity of the areas. However, most of the existing storage battery packs are placed in a single layer and single row, and the placing device is mainly formed by basic components such as columns, bearing pipes and side beams through bolt connection, so that the storage battery packs are too simple in design, have no effective limiting measures and are not favorable for the requirements of the storage battery packs in countries and regions with frequent earthquakes.

SUMMERY OF THE UTILITY MODEL

For overcoming not enough among the prior art, this application provides a battery mounting bracket and battery module to solve the fixed problem of installation of battery.

In order to achieve the above purpose, the present application provides a battery mounting rack, which includes a base and a box body, wherein the base is disposed on the box body, the base is used for fixing the storage battery mounting rack, the box body is used for placing a battery component, the battery component comprises at least one storage battery, the box body comprises a placing frame and a fixing component, the placing frame is provided with at least one battery cavity for containing and positioning the storage battery, the fixing component comprises a limiting plate and a fixing plate, the limiting plate is arranged on the placing frame and used for limiting the position of the storage battery inserted into the battery cavity, the fixing plate is arranged on the placing frame, and the fixed plate is positioned on one side of the battery cavity, which is far away from the limiting plate, and is used for being matched with the limiting plate so as to fix the storage battery.

In a possible implementation manner, the placing frame comprises a bearing plate, side plates, a top plate and a separation plate, the bearing plate and the top plate are connected through the side plates to form a containing cavity, the separation plate is arranged in the containing cavity, and the separation plate is used for separating the containing cavity into a plurality of battery cavities.

In a possible implementation manner, a positioning block is arranged on the separation plate, positioning holes are respectively arranged on the bearing plate, the top plate and the limiting plate, and the positioning block is matched with the positioning holes to fix the separation plate in the accommodating cavity.

In a possible embodiment, the two ends of the bearing plate and the top plate are respectively provided with an insertion portion, the side plate is provided with an insertion hole, and the insertion portions are matched with the insertion holes so as to facilitate the assembly of the bearing plate, the top plate and the side plate.

In a possible embodiment, a plurality of the placing racks are stacked, and the placing rack at the lowest layer is arranged on the base.

In a possible implementation manner, the storage battery mounting rack further comprises an output structure, the output structure is arranged on the placing rack, the output structure is connected with the battery assembly, and the output structure is used for outputting the electric power of the battery assembly.

In a possible embodiment, the output structure comprises a circuit breaker for protecting the accumulator.

In a possible implementation manner, the battery mounting rack further comprises a protection structure, the protection structure is arranged on the placing rack, and the protection structure is used for isolating the battery pack.

In a possible implementation manner, the protective structure includes an isolation column and a baffle, the isolation column is connected to the baffle and the placing frame, the baffle is used for isolating the storage battery, and the isolation column is used for defining a safety distance between the baffle and the storage battery.

The application still provides a pair of battery module, include:

the battery mount of any of the above embodiments; and

a battery assembly including at least one battery positioned and secured in the battery cavity.

Compared with the prior art, the beneficial effects of the application are that:

the storage battery mounting bracket is arranged in the box body and is used for containing a storage battery, the storage battery is positioned in the box body, the storage battery is fixed in the battery cavity through the matching of the limiting plate and the fixing plate, and therefore under the high-vibration conditions of earthquake and the like, the storage battery is firmly limited in the battery cavity, the problems of toppling, slipping, impact between the storage batteries and the like cannot occur, and the storage battery module can run stably.

The battery module passes through the battery chamber that sets up in the battery mounting bracket, carries out independent holding respectively with the battery in the battery pack for the battery is located the battery mounting bracket, and through the cooperation of limiting plate and fixed plate, fixes the battery, thereby and under the high vibrations circumstances such as earthquake, because the battery is by firm injecing in the battery chamber, can not appear empting, landing and bump scheduling problem between the battery, and then can provide stable electric power to outside consumer.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram illustrating a battery mounting bracket according to an embodiment of the present disclosure;

FIG. 2 shows a schematic partially exploded view of the battery mount of FIG. 1;

FIG. 3 shows a schematic view of the base of the battery mount of FIG. 2;

FIG. 4 is a schematic diagram of the structure of the rack and the fixing assembly of the battery mount of FIG. 2;

figure 5 shows a schematic partially exploded view of the placement frame and securing assembly shown in figure 4;

FIG. 6 is a partially exploded schematic view of the output structure of the battery mount of FIG. 2;

fig. 7 shows a schematic structural view of a protective structure of the battery mount of fig. 2.

Description of the main element symbols:

100-a battery mounting bracket; 10-a base; 11-a support column; 111-mounting holes; 12-mounting posts; 121-mounting holes; 20-a box body; 21-placing a rack; 211-carrier plate; 2111-first locating hole; 2112-first insertion portion; 2113-first assembly hole; 2114-first heat dissipation hole; 212-side plate; 2121-a first limiting hole; 2122-first fixing hole; 2123-inserting the hole; 2124-a second assembly hole; 213-a top plate; 2131-second positioning holes; 2132-a second insertion portion; 2133-a third assembly hole; 2134-second heat dissipation hole; 214-a separator plate; 2141-a locating block; 215-a housing chamber; 2151-battery chamber; 22-a fixed component; 221-a limiting plate; 2211-third positioning hole; 2212-second limiting hole; 222-a fixed plate; 2221-second fixing hole; 30-an output structure; 31-setting plate; 32-an output cartridge; 321-a first output cartridge; 322-a second output cartridge; 323-control port; 33-an output plate; 331-a first output plate; 332-a second output plate; 333-a third output plate; 34-a circuit breaker; 40-a protective structure; 41-an isolation column; 42-a baffle plate; 200-a battery assembly; 201-a storage battery; 202-a connector; 203-a first output; 204-second output.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

Example one

Referring to fig. 1 and 2, a battery mounting bracket 100 is provided according to a first embodiment of the present disclosure. The battery mounting bracket 100 is used for fixing and supporting the battery assembly 200, and prevents the battery assembly 200, particularly the battery 201 therein, from toppling, slipping, displacing, colliding and other problems under the condition of external force such as earthquake and the like.

The battery mounting bracket 100 includes a base 10, a case 20, an output structure 30, and a protective structure 40. The box 20 is used for placing the battery assembly 200 and positioning and fixing the battery assembly 200. The base 10 is disposed below the case 20. The base 10 is used to fix the installation position of the battery mounting bracket 100 and can support the remaining components of the battery mounting bracket 100 and the battery pack 200. The output structure 30 is disposed on the case 20. The output structure 30 is used to connect with a battery assembly 200 placed in the case 20 to output power of the battery assembly 200. The protective structure 40 is disposed on the box body 20, and the protective structure 40 is used for isolating the battery assembly 200 and preventing people from electric shock and other dangers caused by contacting the battery assembly 200.

As shown in fig. 3, the base 10 includes a support column 11 and a mounting column 12. The mounting post 12 is disposed on the support post 11. The mounting posts 12 are used to secure the housing 20. The support column 11 is used for supporting the mounting column 12 and fixing the setting position of the battery mounting bracket 100.

Specifically, in some embodiments, the side of the supporting column 11 away from the mounting column 12 is provided with a mounting hole 111. The mounting hole 111 is used for being matched with a fixing piece such as a screw to fix the supporting column 11 in a place such as the ground.

The side of the mounting post 12 facing the box 20 is provided with a mounting hole 121. The mounting holes 121 are used for fixing the box body 20 to the mounting post 12 by cooperating with fixing members such as screws.

In some embodiments, the supporting columns 11 are two oppositely disposed, the three mounting columns 12 are disposed in parallel to the extending direction of the supporting columns 11, and the three mounting columns 12 are uniformly distributed to stably support the box 20.

In some embodiments, the supporting column 11 and the mounting column 12 are made of sheet metal, but not limited thereto.

Referring to fig. 4 and 5, the box 20 includes at least one layer of rack 21 and a fixing assembly 22. A plurality of the placing frames 21 are stacked, and the placing frame 21 at the lowest layer is arranged on the mounting column 12. The rack 21 is used for accommodating the battery assembly 200 and positioning the battery assembly 200. The fixing assembly 22 is disposed on the placing frame 21, and the fixing assembly 22 is used for fixing the battery assembly 200. The rack 21 can be flexibly spliced according to the requirements of the voltage of the electric equipment and the like, so that the battery assemblies 200 meeting different requirements are combined, and the rack 21 can also be used for selecting different splicing modes according to space requirements.

Referring to fig. 2, the battery assembly 200 includes at least one battery 201, a connecting member 202, a first output member 203, and a second output member 204. The storage battery 201 is arranged on the placing frame 21. The connector 202 is connected to the battery 201. The connecting member 202 is used for electrically connecting a plurality of storage batteries 201. The first output element 203 is connected to one of the storage batteries 201. The second output 204 is connected to a further battery 201. The first output member 203 and the second output member 204 are used for outputting electric power of the plurality of storage batteries 201 electrically connected by the connection member 202.

In some embodiments, the battery 201 is a lead-acid battery, but is not so limited.

In some embodiments, the batteries 201 are connected in series by the connection 202 and connected to the output structure 30 by the first output 203 and the second output 204.

The placing frame 21 includes a loading plate 211, a side plate 212, a top plate 213 and a partition plate 214. The bearing plate 211 and the top plate 213 are connected by the side plate 212 to form a receiving cavity 215 for receiving the battery assembly 200. The partition plate 214 is disposed in the receiving cavity 215. The partition plate 214 is used to divide the accommodating cavity 215 into a plurality of battery cavities 2151. The battery cavities 2151 are configured to receive one of the batteries 201, respectively, so as to position the batteries 201.

In some embodiments, the battery cavity 2151 is shaped to match the battery 201 to secure the battery 201.

In some embodiments, the supporting plate 211, the side plates 212, the top plate 213 and the separating plate 214 are made of metal plates, but not limited thereto.

The fixing assembly 22 includes a limiting plate 221 and a fixing plate 222. The position limiting plate 221 is disposed at one side of the bearing plate 211 and the top plate 213. The position limiting plate 221 is used for limiting the position of the storage battery 201 inserted into the battery cavity 2151. The fixing plate 222 is disposed on the side plate 212, and the fixing plate 222 is located on the other side of the bearing plate 211 and the top plate 213 away from the position-limiting plate 221, that is, on the side of the battery cavity 2151 away from the position-limiting plate 221. The fixing plate 222 is used for cooperating with the limiting plate 221 to fix the battery 201 placed in the battery cavity 2151.

In some embodiments, the limiting plate 221 and the fixing plate 222 are made of sheet metal, but not limited thereto.

In some embodiments, the separation plate 214 is provided with a positioning block 2141. The bearing plate 211, the top plate 213 and the position-limiting plate 221 are respectively provided with a first positioning hole 2111, a second positioning hole 2131 and a third positioning hole 2211. The positioning block 2141 is engaged with the first positioning hole 2111, the second positioning hole 2131 and the third positioning hole 2211, so as to position and fix the partition plate 214 in the accommodating cavity 215. But not limited thereto, in other embodiments, the arrangement positions of the positioning block 2141, the first positioning hole 2111, the second positioning hole 2131 and the third positioning hole 2211 may also be changed, for example, the positioning block 2141 may be arranged on the bearing plate 211, the top plate 213 and the position-limiting plate 221, and correspondingly, the first positioning hole 2111, the second positioning hole 2131 and the third positioning hole 2211 are all arranged on the separation plate 214. The positioning block 2141 may be matched with the first positioning hole 2111, the second positioning hole 2131, and the third positioning hole 2211 to position the partition plate 214.

The opposite sides of the side plate 212 are provided with a first limiting hole 2121 and a first fixing hole 2122. The limiting plate 221 is provided with a second limiting hole 2212 opposite to the first limiting hole 2121. The fixing plate 222 is provided with a second fixing hole 2221 opposite to the first fixing hole 2122. The second position-limiting hole 2212 is matched with the first position-limiting hole 2121 to fix the position-limiting plate 221 to the side plate 212. The first fixing holes 2122 and the second fixing holes 2221 are matched with each other to fix the fixing plate 222 to the side plate 212.

In some embodiments, the position limiting plate 221 is integrally formed with the loading plate 211 or the top plate 213, respectively. But not limited thereto, in other embodiments, the position-limiting plate 221 may also be a separate plate body, and the position-limiting plate 221 may be fixed to the bearing plate 211, the side plate 212, and the top plate 213 respectively.

In some embodiments, the fixing plate 222 is disposed between two of the placing frames 21 to fix the storage batteries 201 on two of the placing frames 21 at the same time. But not limited thereto, in other embodiments, the fixing plate 222 may be further disposed on two side plates 212 of one rack 21 to separately fix the storage battery 201 thereon. The fixing plate 222 may be engaged with the stopper plate 221 to fix the battery 201.

In some embodiments, the two ends of the carrier plate 211 and the top plate 213 are further respectively provided with a first insertion portion 2112 and a second insertion portion 2132. The side plate 212 is provided with an insertion hole 2123. The first and second insertion portions 2112 and 2132 are respectively fitted into the insertion hole 2123, so that the carrier plate 211 and the top plate 213 are easily assembled with the side plate 212.

In some embodiments, the bearing plate 211, the top plate 213 and the side plate 212 are further respectively provided with a first assembling hole 2113, a third assembling hole 2133 and a second assembling hole 2124. The first assembling hole 2113, the third assembling hole 2133 and the second assembling hole 2124 are matched with each other to fixedly connect the bearing plate 211 and the top plate 213 with the side plate 212 after they are assembled. The first assembling hole 2113 and the second assembling hole 2124 close to one side of the base 10 are further matched with the mounting hole 121 to fix the placing frame 21 on the base 10; the first assembly hole 2113, the third assembly hole 2133 and the second assembly hole 2124 between the two placing frames 21 are further used for being mutually matched to fix the stacked placing frames 21 to each other.

In some embodiments, the carrier plate 211 and the top plate 213 are further provided with a first heat dissipation hole 2114 and a second heat dissipation hole 2134 for heat dissipation.

Referring to fig. 6, the output structure 30 includes a setting plate 31, an output box 32, and an output plate 33. The setting plate 31 is disposed on the top plate 213 of the placing frame 21 away from the base 10. The output cassette 32 is provided on the setting plate 31. The output plate 33 is provided in the output cassette 32. The output board 33 is used for connecting with the storage battery 201 in the placing rack 21. The output cassette 32 is used to protect the output board 33.

The output box 32 is made of an insulating material, such as acrylic.

In some embodiments, the output structure 30 further includes a circuit breaker 34. The circuit breaker 34 is disposed in the output box 32 and the circuit breaker 34 is connected to the output plate 33. The circuit breaker 34 can protect the storage battery 201 and the electric equipment, and prevent short circuit and fire accidents.

Specifically, in some embodiments, the output cartridge 32 includes a first output cartridge 321 and a second output cartridge 322. The output plate 33 includes a first output plate 331, a second output plate 332, and a third output plate 333. The first output board 331, the second output board 332, and the breaker 34 are disposed in the first output box 321. The breaker 34 connects the first output plate 331 and the second output plate 332, and the first output plate 331 and the first output element 203 are connected. The third output plate 333 is provided in the second output cassette 322, and the third output plate 333 is connected to the second output element 204.

The first output box 321 is provided with a control port 323. The switch of the circuit breaker 34 is disposed in the control port 323. The control port 323 is used for an operator to operate the switch of the circuit breaker 34.

In some embodiments, the setting plate 31 is further provided with a fixing plate 222 for fixing the storage battery 201 on the placing frame 21 close to the output structure 30.

Referring to fig. 7, the shielding structure 40 includes an isolation pillar 41 and a baffle 42. The isolation column 41 is connected with the baffle 42 and the placing frame 21. The barrier 42 serves to isolate the battery 201 from the outside, thereby preventing a person from touching it. The isolation column 41 is used for defining a safe distance between the baffle 42 and the storage battery 201, and further preventing the danger of electric shock of people.

The battery mounting bracket 100 is provided with the battery cavity 2151 for accommodating the battery 201 in the box body 20, so that the battery 201 is positioned in the box body 20, and the battery 201 is fixed in the battery cavity 2151 through the matching of the limiting plate 221 and the fixing plate 222, so that under the condition of high-vibration such as an earthquake, the battery 201 is firmly limited in the battery cavity 2151, the problems of toppling, falling, impact between the batteries 201 and the like cannot occur, and the battery module can stably operate.

Example two

Referring to fig. 1 and fig. 2, a second embodiment of the present application further provides a battery module for supplying power to an external device. The battery module includes a battery mounting bracket 100 and a battery pack 200 mounted in the battery mounting bracket 100. The battery mounting bracket 100 and the battery module 200 are the battery mounting bracket 100 and the battery module 200 described in the first embodiment.

The battery module passes through the battery chamber 2151 that sets up in the battery mounting bracket 100, holds battery 201 in the battery pack 200 separately respectively, make battery 201 be located in the battery mounting bracket 100, and through the cooperation of limiting plate 221 and fixed plate 222, it is fixed with battery 201, thereby under the high vibrations circumstances such as earthquake, because battery 201 is firmly injectd in battery chamber 2151, can not appear toppling over, the landing, and bump scheduling problem between the battery 201, and then can provide stable electric power to the external consumer.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a storage battery mounting bracket, its characterized in that, includes base and box, the base is located the box, the base is used for right the storage battery mounting bracket is fixed, the box is used for placing battery pack, battery pack includes at least one battery, the box includes rack and fixed subassembly, the rack is equipped with at least one battery chamber, battery chamber is used for the holding and fixes a position the battery, fixed subassembly includes limiting plate and fixed plate, the limiting plate is located on the rack, the limiting plate is used for right the battery inserts the position in battery chamber is restricted, the fixed plate is located on the rack, just the fixed plate is located battery chamber keeps away from one side of limiting plate, the fixed plate be used for with the limiting plate cooperation, in order to incite somebody to action the battery is fixed.

2. The battery mounting rack according to claim 1, wherein the rack comprises a bearing plate, side plates, a top plate and partition plates, the bearing plate and the top plate are connected through the side plates to form an accommodating cavity, the partition plates are arranged in the accommodating cavity, and the partition plates are used for partitioning the accommodating cavity into a plurality of battery cavities.

3. The battery mounting bracket as set forth in claim 2, wherein the partition plate is provided with positioning blocks, the bearing plate, the top plate and the limiting plate are respectively provided with positioning holes, and the positioning blocks are engaged with the positioning holes to fix the partition plate in the accommodating cavity.

4. The battery mounting bracket as recited in claim 2, wherein the two ends of the loading plate and the top plate are respectively provided with an insertion portion, the side plate is provided with an insertion hole, and the insertion portions are matched with the insertion holes so as to facilitate the assembly of the loading plate and the top plate with the side plate.

5. The battery mount of claim 1, wherein a plurality of the racks are stacked, and the lowermost rack is disposed on the base.

6. The battery mounting bracket as recited in claim 1, further comprising an output structure disposed on the rack, the output structure being connected to the battery pack, the output structure being configured to output power from the battery pack.

7. The battery mount of claim 6, wherein the output structure comprises a circuit breaker for protecting the battery.

8. The battery mount of claim 1, further comprising a protective structure disposed on the rack, the protective structure configured to isolate the battery assembly.

9. The battery mounting bracket as recited in claim 8, wherein the protective structure comprises a spacer column and a baffle, the spacer column is connected with the baffle and the rack, the baffle is used for isolating the battery, and the spacer column is used for defining a safety distance between the baffle and the battery.

10. A battery module, comprising:

the battery mount of any of claims 1-9; and

a battery assembly including at least one battery positioned and secured in the battery cavity.

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