CN217740680U - Embedded tubular battery jar - Google Patents

Abstract

The utility model relates to an inserted tubular battery jar, including big or small the same casing A and casing B, casing A, casing B upper portion are open structure, and inside is equipped with mounting groove A, mounting groove B respectively, fixedly connected with blend stop A on the casing A outer wall, fixedly connected with blend stop B on the casing B outer wall, blend stop A, blend stop B set up respectively on casing A, casing B's both sides binding face, be equipped with two along vertical direction parallel arrangement on every binding face of blend stop A, be equipped with two along vertical direction parallel arrangement on every binding face of blend stop B, on the same binding face distance is greater than on the same binding face between the blend stop A medial surface distance between the blend stop B lateral surface.

Description

Embedded tubular battery jar

Technical Field

The utility model belongs to the battery field specifically is an inserted tubular battery jar.

Background

At present, the battery that tubular fork truck is in groups, between monomer and the monomer, is next to the assembly, and the centre does not have the gap, and the battery is carrying out charge-discharge and in the use, and the production of heat forms the high temperature easily, and the high temperature leads to following problem easily:

1) The high temperature shortens the service life of the storage battery, and easily causes the aging of the polar plate and the increase of the internal resistance of the battery. After the internal resistance is increased, a large amount of heat generated in the using process can also cause high temperature, and under the condition, potential safety hazards exist in the battery;

2) The electrolyte is easy to volatilize at high temperature, the oxide of the polar plate is easy to fall off, and the service life of the battery is shortened and even the battery is destroyed;

3) The high temperature of the battery may cause the float voltage of the battery to be unstable.

In addition, the single cells are fixed only by the connecting strips, and under the condition that the size of the box body is larger, the arrangement of each single cell is easy to cause the conditions of dislocation, loosening of the connecting strips, ignition and burning, and the like, so that the safety of the cell is endangered, and therefore, the shell of the cell needs to be improved to solve the problems.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an inserted tubular battery jar, tubular battery jar divides original battery case to establish to casing A, casing B two kinds, sets up blend stop A, blend stop B on casing A, the casing B, through blend stop A and blend stop B's cooperation, ensures to have the heat dissipation space between the adjacent casing to improve the radiating efficiency, avoid the battery to damage.

The utility model discloses a following technical scheme realizes:

an embedded tubular battery jar comprises a shell A and a shell B which are the same in size, wherein the upper parts of the shell A and the shell B are of an open structure, the inner parts of the shell A and the shell B are respectively provided with a mounting groove A and a mounting groove B, the outer wall of the shell A is fixedly connected with a barrier strip A, the outer wall of the shell B is fixedly connected with a barrier strip B,

the utility model discloses a keep off strip A, keep off strip B set up respectively on casing A, casing B's both sides binding face, be equipped with two along vertical direction parallel arrangement on every binding face of keep off strip A, be equipped with two along vertical direction parallel arrangement on every binding face of keep off strip B, on the same binding face distance is greater than on the same binding face between the keep off strip A medial surface distance between the keep off strip B lateral surface.

Further, the barrier strips A and B are the same in size.

Further, be provided with three blend stop C between the blend stop B, blend stop C and blend stop B parallel arrangement, blend stop B top fixedly connected with horizontal pole, it is adjacent be equipped with the air vent that vertical direction set up on the horizontal pole between the blend stop B.

Further, a groove is formed in the lower surface of the cross rod between the adjacent barrier strips B.

Further, blend stop A evenly separates for the multistage through many horizontal logical groove A, blend stop B evenly separates for the multistage through many horizontal logical groove B, blend stop C evenly separates for the multistage through many horizontal logical groove C.

Further, the upper and lower terminal surface of blend stop A respectively with casing A upper and lower terminal surface parallel and level, the upper and lower terminal surface of blend stop B respectively with casing B upper and lower terminal surface parallel and level, horizontal pole up end and casing B upper end surface parallel and level, terminal surface and casing B lower terminal surface parallel and level under blend stop C.

Furthermore, the lower end faces of the barrier strip A, the barrier strip B and the barrier strip C are provided with chamfers.

Further, the distance between the inner side faces of the barrier strips A on the same binding face is larger than the distance between the outer side faces of the barrier strips B on the same binding face by 3-10mm.

The utility model has the advantages that;

1. the utility model discloses a divide battery case to establish to casing A, casing B, battery cell adorns the polar plate, seal after the battery cover, put according to certain order, utilize blend stop A and blend stop B's every battery of complex messenger to mutually support, the screens is placed, simultaneously, blend stop A can with blend stop B's use, in time distribute away the heat from between the battery, avoid the inside high temperature that forms of battery, reduce volatilizing of acidizing fluid and the lead plaster of positive negative polar plate drops and destroys, extension battery life.

2. The blocking strip A and the blocking strip B are same in size, so that mold opening and injection molding are conveniently carried out.

3. The transverse rod C is arranged to facilitate the carrying of the battery loaded in the shell B.

4. Through setting up horizontal logical groove A, horizontal logical groove B, horizontal logical groove C and make things convenient for the heat dissipation between the battery.

5. By means of the bars A. The lower ends of the barrier strips B and C are provided with chamfers, so that the batteries can be conveniently inserted and placed.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a partial structure diagram of the present invention.

Fig. 3 is a schematic structural diagram of the case a and the case B when the battery is mounted.

Fig. 4 is a schematic view of the structure placed in the battery box.

Detailed Description

The present invention will be explained with reference to the accompanying drawings.

As shown in fig. 1 to 4, the utility model provides an embedded tubular battery jar,

including the same casing A10 and the casing B20 of size, casing A10, casing B20 upper portion are open structure, and inside is equipped with mounting groove A101, mounting groove B201 respectively, fixedly connected with blend stop A102 on the casing A10 outer wall, fixedly connected with blend stop B202 on the casing B20 outer wall, blend stop A102, blend stop B202 set up respectively on casing A10, casing B20's both sides binding face, be equipped with two along vertical direction parallel arrangement on every binding face of blend stop A102, be equipped with two along vertical direction parallel arrangement on every binding face of blend stop B202, on same binding face the distance is greater than on the same binding face between the blend stop A102 medial surface distance 5mm between the blend stop B202 lateral surface.

Particularly, at first through set up blend stop A102, blend stop B202 on the casing, divide into casing A10, casing B20 with current casing, utilize blend stop A102, blend stop B202 to carry on spacingly when installing into the box to the battery, when guaranteeing the heat dissipation, avoid moving each other, embedded tubular battery jar, two liang of mutually supporting, the ring is detained, make the interconnect of battery more firm, fork truck battery is in the use of jolting, be difficult for moving about and arouse relevant incident.

Furthermore, in order to facilitate injection molding manufacturing design, the barrier rib a102 and the barrier rib B202 have the same size, and have the function of strengthening the external firmness of the battery jar, so that the battery jar is less prone to deformation.

Further, for the convenience of putting the battery, be provided with three blend stops C203 between blend stop B202, blend stop C and blend stop B202 parallel arrangement, blend stop B202 top fixedly connected with horizontal pole 204 is adjacent be equipped with the air vent 2041 that vertical direction set up on the horizontal pole 204 between the blend stop B202, set up the air vent 2041 and be convenient for dispel the heat.

Furthermore, a groove 2042 is formed in the lower surface of the cross rod 204 between the adjacent barrier strips B202, and the groove 2042 is arranged, so that a user can conveniently grasp and lift the device.

Further, for better guaranteeing the heat dissipation effect, the barrier strip a102 is uniformly divided into a plurality of sections by a plurality of transverse through grooves a1021, the barrier strip B202 is uniformly divided into a plurality of sections by a plurality of transverse through grooves B2021, and the barrier strip C203 is uniformly divided into a plurality of sections by a plurality of transverse through grooves C2031.

Further, the upper and lower terminal surfaces of blend stop A102 are parallel and level with the upper and lower terminal surfaces of casing A10 respectively, the upper and lower terminal surfaces of blend stop B202 are parallel and level with the upper and lower terminal surface of casing B20 respectively, the up end of horizontal pole 204 is parallel and level with the upper terminal surface of casing B20, terminal surface and casing B20 lower terminal surface parallel and level under blend stop C203.

Furthermore, in order to facilitate the insertion, chamfers are arranged on the lower end faces of the barrier strip a102, the barrier strip B202 and the barrier strip C203.

Claims (8)

1. An embedded tubular battery jar is characterized in that,

including big or small the same casing A (10) and casing B (20), casing A (10), casing B (20) upper portion are open structure, and inside is equipped with mounting groove A (101), mounting groove B (201) respectively, fixedly connected with blend stop A (102) on casing A (10) outer wall, fixedly connected with blend stop B (202) on casing B (20) outer wall, blend stop A (102), blend stop B (202) set up respectively on the both sides binding face of casing A (10), casing B (20), be equipped with on each binding face of blend stop A (102) along vertical direction parallel arrangement's two, be equipped with on each binding face of blend stop B (202) along vertical direction parallel arrangement two, on the same binding face on the distance is greater than on the same binding face between blend stop A (102) the medial surface distance between blend stop B (202) the lateral surface.

2. The coin tube battery jar of claim 1 wherein barrier a (102) is the same size as barrier B (202).

3. The tubular battery jar as claimed in claim 1, wherein three bars C (203) are disposed between the bars B (202), the bars C are disposed parallel to the bars B (202), a cross bar (204) is fixedly connected to the top of the bars B (202), and a vent hole (2041) is disposed vertically on the cross bar (204) between the adjacent bars B (202).

4. The battery container of claim 3, wherein the lower surface of the cross bar (204) between adjacent ribs B (202) is provided with a groove (2042).

5. A battery container of the type of a mosaic type according to claim 3,

the barrier strip A (102) is uniformly divided into a plurality of sections through a plurality of transverse through grooves A (1021), the barrier strip B (202) is uniformly divided into a plurality of sections through a plurality of transverse through grooves B (2021), and the barrier strip C (203) is uniformly divided into a plurality of sections through a plurality of transverse through grooves C (2031).

6. A tubular battery container of the mosaic type according to claim 3, wherein said upper and lower end faces of said barrier rib a (102) are flush with the upper and lower end faces of said casing a (10), said upper and lower end faces of said barrier rib B (202) are flush with the upper and lower end faces of said casing B (20), said upper end face of said cross bar (204) is flush with the upper end face of said casing B (20), and said lower end face of said barrier rib C (203) is flush with the lower end face of said casing B (20).

7. The mosaic tube type battery jar according to claim 6, wherein the lower end surfaces of the barrier rib A (102), the barrier rib B (202) and the barrier rib C (203) are provided with chamfers.

8. The battery container according to claim 1, wherein the distance between the inner sides of the barrier ribs A (102) on the same bonding surface is greater than the distance between the outer sides of the barrier ribs B (202) on the same bonding surface by 3 to 10mm.

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