CN211555983U

CN211555983U - Large-capacity lithium battery storage device

Info

Publication number: CN211555983U
Application number: CN202020138531.8U
Authority: CN
Inventors: 华志勇; 余辉; 孙中诚
Original assignee: Shenzhen Ruiyuneng Technology Co ltd
Current assignee: Shenzhen Ruiyuneng Technology Co ltd
Priority date: 2020-01-20
Filing date: 2020-01-20
Publication date: 2020-09-22
Anticipated expiration: 2030-01-20

Abstract

The utility model discloses a large-capacity lithium battery storage device, which comprises a storage box and a plurality of storage boxes; the front surface of the storage box is provided with a plurality of first slots, and each storage box is inserted into one first slot and is connected with the first slot in a sliding manner; the storage box comprises a storage seat and two limiting shells; the two limiting shells are arranged on two sides of the top of the storage seat in parallel at intervals along the length direction of the storage seat, and a plurality of second slots are correspondingly formed in the length direction of one opposite side of the two limiting shells; the second slot is formed along the vertical direction, and the lithium battery is vertically arranged between the two limiting shells. The utility model relates to a rationally, compact structure through with the lithium cell vertical place between two spacing casings to sparingly place the space, thereby be adapted to the storage demand of large capacity, simultaneously, through second slot, spacing groove and the mutually supporting of pressing from both sides tight module can carry out spacing fixed to the lithium cell, guarantee the stability that the lithium cell was placed, improve factor of safety, practicality are strong.

Description

Large-capacity lithium battery storage device

Technical Field

The utility model relates to a lithium cell storage technical field especially relates to a large capacity lithium cell storage device.

Background

The lithium battery is a battery containing lithium (including metal lithium, lithium alloy, lithium ions and lithium polymer) in an electrochemical system, and can be divided into two types of cylindrical lithium batteries and square lithium battery packs according to the shapes of the lithium battery, when the lithium battery is not used, the lithium battery needs to be stored, most of the existing storage for the square lithium battery packs are horizontally placed in a container, corresponding clamping and limiting mechanisms are not arranged, the placement is unstable, the occupied space is large, when the container is shaken, the lithium battery is extremely easy to damage, and the safety coefficient is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a large capacity lithium cell storage device, the device reasonable in design, compact structure are through vertical placing the lithium cell between two spacing casings to sparingly place the space, thereby be adapted to the storage demand of large capacity, simultaneously, can carry out spacing fixed to the lithium cell through mutually supporting of second slot, spacing groove and clamp tight module, guarantee the stability that the lithium cell was placed, improve factor of safety, practicality are strong.

In order to realize the purpose, the following technical scheme is adopted:

a large-capacity lithium battery storage device comprises a storage box and a plurality of storage boxes; the front surface of the storage box is provided with a plurality of first slots, and each storage box is inserted into one first slot and is connected with the first slot in a sliding manner; the storage box comprises a storage seat and two limiting shells; the two limiting shells are arranged on two sides of the top of the storage seat in parallel at intervals along the length direction of the storage seat, and a plurality of second slots are correspondingly arranged on one opposite sides of the two limiting shells at intervals along the length direction; the lithium battery is vertically arranged between the two limiting shells, and a lug arranged at one end of the lithium battery and a non-lug end of the lithium battery are respectively and correspondingly inserted into a second slot; and a clamping module is also arranged in the limiting shell inserted with the lithium battery lug and used for clamping and fixing the lug of the lithium battery.

Furthermore, the clamping module comprises a first sliding plate, and the first sliding plate is movably inserted in the limiting shell and is in sliding connection with one inner side of the limiting shell; a plurality of first clamping plates are arranged at intervals in the length direction of the outer side of the first sliding plate, and the first clamping plates and the second slots are arranged in a one-to-one correspondence manner; one end of each first clamping plate penetrates out of one inner side of the corresponding second slot and extends to the other inner side of the corresponding second slot, and an elastic pad is embedded in the other inner side of each second slot; the end part of the first sliding plate is also provided with a translation module, and the translation module is used for driving the first sliding plate to drive the first clamping plate to be close to or far away from the elastic pad so as to clamp or loosen the lug of the lithium battery.

Furthermore, a buffer pad is arranged at one end of the first clamping plate, which penetrates out of one inner side of the second slot.

Furthermore, the translation module comprises a cam handle, a first connecting column, a second connecting column and a buffer spring; the first connecting column and the second connecting column are respectively embedded at two ends of the first sliding plate, and the first connecting column is abutted against the inner wall of one end of the limiting shell through a buffer spring; the cam handle is installed at the other end of the limiting shell and is in driving connection with the end part of the second connecting column, and the cam handle is used for extruding the first sliding plate to slide relative to the limiting shell through the second connecting column.

Furthermore, a plurality of first sliding holes are formed in the length direction of the outer side of the first sliding plate at intervals, a plurality of first sliding columns inserted into the first sliding holes are arranged on the inner side of the limiting shell corresponding to the first sliding holes, and the first sliding plate is connected with the limiting shell in a sliding mode through the first sliding holes and the corresponding first sliding columns.

Furthermore, a bearing plate is arranged between the two limiting shells, and a plurality of limiting grooves are formed in the length direction of the top of the bearing plate; each limiting groove is arranged between the two second slots corresponding to the two limiting shells, and the end parts of the limiting grooves are communicated with the two second slots.

Furthermore, one end of the storage seat is also provided with a handle used for pulling the storage box out of the first slot.

Adopt above-mentioned scheme, the beneficial effects of the utility model are that:

1) the lithium battery storage box is reasonable in design and compact in structure, the lithium battery is vertically placed between the two limiting shells, so that the placement space is saved, the storage requirement of large capacity is met, the cost is low, and the practicability is high;

2) the lithium battery can be limited and fixed through the mutual matching of the second slot and the limiting groove, so that the placement stability of the lithium battery is ensured, the lithium battery is prevented from being damaged, and the safety is high;

3) can press from both sides tight fixed with the utmost point ear of lithium cell through pressing from both sides tight module, avoid utmost point ear to expose the oxidation, improve the life of lithium cell.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of the storage box of the present invention;

fig. 3 is an exploded view of the limiting housing, the clamping module and the translation module of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3A;

wherein the figures identify the description:

1-a storage box; 2-a storage box;

3-a storage seat; 4, limiting the shell;

5, clamping the module; 6, a translation module;

7, a bearing plate; 8, a handle;

41-second slot; 51-a first sled;

52 — a first clamping plate; 53-a cushion pad;

54 — a first slide hole; 61-cam handle;

62-a first connecting column; 63-a second connecting column;

64-a buffer spring; 71-limiting groove.

Detailed Description

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

Referring to fig. 1 to 4, the present invention provides a large capacity lithium battery storage device, which includes a storage box 1, a plurality of storage boxes 2; the front surface of the storage box 1 is provided with a plurality of first slots, and each storage box 2 is inserted into one first slot and is connected with the first slot in a sliding manner; the storage box 2 comprises a storage seat 3 and two limiting shells 4; the two limiting shells 4 are arranged on two sides of the top of the storage seat 3 in parallel at intervals along the length direction of the storage seat, and a plurality of second slots 41 are correspondingly formed in the length direction of one opposite side of the two limiting shells 4; the second slot 41 is opened along the vertical direction, the lithium battery is vertically arranged between the two limiting shells 4, and a tab arranged at one end of the lithium battery and a non-tab end of the lithium battery are respectively and correspondingly inserted into the second slot 41 (the tab of the lithium battery is arranged at one end); and a clamping module 5 is also arranged in the limiting shell 4 inserted with the lithium battery tab, and the clamping module 5 is used for clamping and fixing the tab of the lithium battery.

The clamping module 5 comprises a first sliding plate 51, and the first sliding plate 51 is movably inserted into the limiting shell 4 and is connected with one inner side of the limiting shell in a sliding manner; a plurality of first clamping plates 52 are arranged at intervals in the length direction of the outer side of the first sliding plate 51, and the plurality of first clamping plates 52 and the plurality of second slots 41 are arranged in a one-to-one correspondence manner; one end of the first clamping plate 52 penetrates out of one inner side of the corresponding second slot 41 and extends to the other inner side of the second slot 41, and an elastic pad is embedded in the other inner side of each second slot 41; the end part of the first sliding plate 51 is also provided with a translation module 6, and the translation module 6 is used for driving the first sliding plate 51 to drive the first clamping plate 52 to be close to or far away from the elastic pad so as to clamp or loosen the pole lug of the lithium battery; a buffer pad 53 is further arranged at one end of the first clamping plate 52, which penetrates out of one inner side of the second slot 41; the translation module 6 comprises a cam handle 61, a first connecting column 62, a second connecting column 63 and a buffer spring 64; the first connecting column 62 and the second connecting column 63 are respectively embedded at two ends of the first sliding plate 51, and the first connecting column 62 is abutted against the inner wall of one end of the limiting shell 4 through a buffer spring 64; the cam handle 61 is mounted at the other end of the limiting shell 4 and is in driving connection with the end part of the second connecting column 63, and the cam handle 61 is used for extruding the first sliding plate 51 to slide relative to the limiting shell 4 through the second connecting column 63; a plurality of first sliding holes 54 are further formed in the outer side of the first sliding plate 51 in the length direction at intervals, a plurality of first sliding columns inserted into the first sliding holes 54 are arranged on the inner side of the limiting shell 4 corresponding to the first sliding holes 54, and the first sliding plate 51 is connected with the limiting shell 4 in a sliding mode through the first sliding holes 54 and the corresponding first sliding columns; a bearing plate 7 is further arranged between the two limiting shells 4, and a plurality of limiting grooves 71 are further formed in the length direction of the top of the bearing plate 7; each limiting groove 71 is arranged between two corresponding second slots 41 of the two limiting shells 4, and the end part of the limiting groove 71 is communicated with the two second slots 41; one end of the storage seat 3 is also provided with a handle 8 for pulling the storage box 2 out of the first slot.

The utility model discloses the theory of operation:

in this embodiment, the lithium battery is a square lithium battery pack, as shown in fig. 1-4, when the storage device is used for storing lithium batteries, the storage box 2 can be firstly pulled out from the first slot by the handle 8, then the cam handle 61 is pulled outwards, the cam handle 61 presses the first sliding plate 51 to slide along the first sliding hole 54 by the second connecting column 63, at this time, the other end of the first sliding plate 51 presses the buffer spring 64 by the first connecting column 62, and drives the first clamping plate 52 to be away from the elastic pad, so that a gap is left between the first clamping plate 52 and the elastic pad; vertically placing the lithium battery in a limiting groove 71 between two limiting shells 4 (so that one end of the lithium battery provided with a pole lug is arranged towards the direction of the limiting shell 4 provided with the clamping module 5); in the process of placing the lithium battery, one end of the lithium battery is inserted into the second slot 41 of one of the limiting shells 4, and one end of the lithium battery is limited and fixed; the pole ear of the lithium battery is inserted between the first clamping plate 52 and the elastic pad through the second slot 41 of the other limit shell 4; finally, the cam handle 61 is loosened, and the first clamping plate 52 is driven to return (approach to the elastic pad) by virtue of the restoring force of the buffer spring 64, so that the tabs of the lithium battery are clamped and fixed (the tabs can be sealed, and the exposed oxidation is avoided), and the storage and placement of the lithium battery are realized.

In this embodiment, the storage box 1 is provided with 6 first slots and 6 corresponding storage boxes 2, which is suitable for storage of a large-capacity lithium battery, and has the advantages of reasonable design, compact structure, low cost and small occupied area; the lithium battery can be limited and fixed through the mutual matching of the second slot 41 and the limiting groove 71, so that the placement stability of the lithium battery is ensured, the lithium battery is prevented from being damaged, and the safety is high; the pole lugs of the lithium battery can be clamped and fixed through the clamping module 5 (the elastic pad and the buffer cushion 53 of the clamping module 5 can buffer the extrusion force on the pole lugs and avoid damaging the pole lugs), so that the pole lugs are prevented from being exposed and oxidized, and the service life of the lithium battery is prolonged.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. A large-capacity lithium battery storage device is characterized by comprising a storage box and a plurality of storage boxes; the front surface of the storage box is provided with a plurality of first slots, and each storage box is inserted into one first slot and is connected with the first slot in a sliding manner; the storage box comprises a storage seat and two limiting shells; the two limiting shells are arranged on two sides of the top of the storage seat in parallel at intervals along the length direction of the storage seat, and a plurality of second slots are correspondingly arranged on one opposite sides of the two limiting shells at intervals along the length direction; the lithium battery is vertically arranged between the two limiting shells, and a lug arranged at one end of the lithium battery and a non-lug end of the lithium battery are respectively and correspondingly inserted into a second slot; and a clamping module is also arranged in the limiting shell inserted with the lithium battery lug and used for clamping and fixing the lug of the lithium battery.

2. The storage device for high-capacity lithium batteries as claimed in claim 1, wherein the clamping module comprises a first sliding plate movably inserted in the position-limiting shell and slidably connected with an inner side of the position-limiting shell; a plurality of first clamping plates are arranged at intervals in the length direction of the outer side of the first sliding plate, and the first clamping plates and the second slots are arranged in a one-to-one correspondence manner; one end of each first clamping plate penetrates out of one inner side of the corresponding second slot and extends to the other inner side of the corresponding second slot, and an elastic pad is embedded in the other inner side of each second slot; the end part of the first sliding plate is also provided with a translation module, and the translation module is used for driving the first sliding plate to drive the first clamping plate to be close to or far away from the elastic pad so as to clamp or loosen the lug of the lithium battery.

3. A large capacity lithium battery storage device as claimed in claim 2, wherein the first clamping plate is provided with a buffer pad at an end thereof protruding from an inner side of the second slot.

4. The high capacity lithium battery storage device as claimed in claim 3, wherein the translation module comprises a cam handle, a first connection post, a second connection post, a buffer spring; the first connecting column and the second connecting column are respectively embedded at two ends of the first sliding plate, and the first connecting column is abutted against the inner wall of one end of the limiting shell through a buffer spring; the cam handle is installed at the other end of the limiting shell and is in driving connection with the end part of the second connecting column, and the cam handle is used for extruding the first sliding plate to slide relative to the limiting shell through the second connecting column.

5. A large capacity lithium battery storage device as claimed in claim 4, wherein the first sliding plate is provided with a plurality of first sliding holes at intervals along the length direction outside the first sliding plate, a plurality of first sliding posts inserted into the first sliding holes are provided at positions corresponding to the plurality of first sliding holes inside the first limiting casing, and the first sliding plate is slidably connected with the limiting casing through the first sliding holes and the corresponding first sliding posts.

6. The high-capacity lithium battery storage device as claimed in claim 1, wherein a bearing plate is further disposed between the two limiting cases, and a plurality of limiting grooves are further disposed on the top of the bearing plate in the length direction; each limiting groove is arranged between the two second slots corresponding to the two limiting shells, and the end parts of the limiting grooves are communicated with the two second slots.

7. A large capacity lithium battery storage device as claimed in claim 6, wherein one end of the storage seat is further provided with a handle for pulling the storage box out of the first slot.