CN109301338B - Clamping tray for lithium ion square shell power battery - Google Patents

Abstract

A lithium ion square shell power battery clamping tray comprising: a base having a cavity for mounting the battery clamping mechanism and the adjustment block for receiving the battery clamping mechanism and the adjustment block; the battery clamping mechanism is arranged in the concave cavity of the base and is provided with a plurality of clamping grooves which can adjust the groove width and are mutually linked and used for clamping the battery placed in the clamping grooves; and the adjusting block is arranged between the concave cavity and one end part of the battery clamping mechanism and is used for adjusting the groove width of the clamping groove of the battery clamping mechanism so as to adjust the clamping degree of the battery. The beneficial effects of the invention are as follows: 1. the device is simple, reliable and convenient; 2. the front battery supporting plate is pushed in the square shell power battery clamping tray assembly, so that the front battery supporting plate and the battery supporting plate tighten and clamp the battery, and then the adjusting block is placed in the battery clamping tray assembly, so that the battery can be prevented from swelling when being formed, and the quality and the appearance of the battery are prevented from being influenced.

Description

Clamping tray for lithium ion square shell power battery

Technical Field

The invention relates to a clamping tray for a lithium ion square shell power battery.

Background

Along with the development of the lithium ion square shell power battery industry, the surface of the existing lithium ion square shell power battery bulges outwards in the formation process, so that a large number of defective products are generated.

Disclosure of Invention

In order to solve the problems, the invention provides a lithium ion square shell power battery clamping tray which can effectively prevent the surface of a battery from swelling outwards.

The invention relates to a clamping tray for a lithium ion square shell power battery, which is characterized in that: comprising the following steps:

A base having a cavity for mounting the battery clamping mechanism and the adjustment block for receiving the battery clamping mechanism and the adjustment block;

The battery clamping mechanism is arranged in the concave cavity of the base and is provided with a plurality of clamping grooves which can adjust the groove width and are mutually linked and used for clamping the battery placed in the clamping grooves;

and the adjusting block is arranged between the concave cavity and one end part of the battery clamping mechanism and is used for adjusting the groove width of the clamping groove of the battery clamping mechanism so as to adjust the clamping degree of the battery.

The base comprises a bottom support piece, a front baffle, a rear baffle, support columns and support bars, wherein the front baffle and the rear baffle are respectively arranged at the front end and the rear end of the bottom support piece, the front baffle and the rear baffle are kept parallel, and the central shaft of the bottom support piece is perpendicular to the front baffle and the rear baffle; the front baffle end and the rear baffle end are respectively connected with a support column and a support bar, the support bar is positioned at the bottom of the support column and keeps the support column and the support bar to be axially arranged along the bottom support piece, wherein the front baffle, the rear baffle, the support column and the support bar are jointly enclosed at the edge of the bottom support piece and are jointly spliced with the bottom support piece to form a concave cavity for installing the battery clamping mechanism.

Tray guide posts are arranged at the symmetrical positions of the top edges of the front baffle plate and the rear baffle plate.

The bottom support piece comprises a plurality of bottom support bars which are arranged in parallel, and gaps are reserved between the adjacent bottom support bars.

The battery clamping mechanism comprises a battery front supporting plate, a battery rear supporting plate, a plurality of battery supporting partition plates, a pushing plate and an equidistant adjusting device, wherein the battery front supporting plate and the battery rear supporting plate are respectively and oppositely arranged on a supporting column in parallel, the battery rear supporting plate is fixedly arranged with the supporting column, and one end face is tightly attached to the inner end face of the rear baffle; the front battery baffle is in sliding connection with the support column, the outer end surface of the front battery support plate is fixedly provided with a pushing plate for driving the front battery support plate to axially move along the support column, and at least one set of equidistant adjusting device is arranged between the pushing plate and the rear battery support plate; the bottom of the battery support partition board is equidistantly arranged on the equidistant adjusting device, and the battery support partition board is kept parallel and is arranged between the front battery support board and the rear battery support board at equal intervals; the battery support baffle is characterized in that at least one groove is formed in two end faces of the battery support baffle, one end face of the battery front support plate facing the battery and one end face of the battery rear support plate facing the battery, wherein the grooves of two adjacent battery support baffles, the foremost battery support baffle and the adjacent battery front support plate, and the rearmost battery support baffle and the adjacent battery rear support plate form clamping grooves, and the widths of the clamping grooves are kept equal.

And a plurality of grooves are formed in the two end faces of the battery supporting partition board, one end face of the battery front supporting board facing the battery, and one end face of the battery rear supporting board facing the battery.

The equidistant adjusting device consists of equidistant adjusting device sliding blocks and equidistant adjusting device pushing devices, wherein one equidistant adjusting device sliding block is fixedly arranged at each axial end part of each battery supporting baffle plate, and two adjacent equidistant adjusting device sliding blocks are connected with each other and are in clearance fit; the equidistant adjusting device sliding blocks at the end parts are connected with the pushing ends of the equidistant adjusting device pushing devices, so that the battery supporting partition plates push and pull the concave equidistant adjusting device sliding blocks through the equidistant adjusting device pushing devices to change the positions of the batteries at equal distances.

The cross section of the equidistant adjusting device sliding block is of a transverse S-shaped structure or an S-shaped structure, wherein two ends of the S-shaped structure or the S-shaped structure are respectively clamped into grooves of the S-shaped structure or the S-shaped structure of the adjacent equidistant adjusting device sliding block, and the two ends are in clearance fit.

Equidistant adjusting device thrust unit includes linear distance adjusting motor, interval adjusting push pedal and installation chassis, the interval adjusting motor passes through the installation chassis and installs on the equipment of equidistant adjusting device slider next door, and interval adjusting motor is linear motor to the axial setting of bottom sprag is followed to the direction of movement of its sharp pushing end, the linear movement tip of interval adjusting motor links to each other with the interval adjusting push pedal, and interval adjusting push pedal and tip equidistant adjusting device slider stress surface links to each other for equidistant adjusting device slider that the interval adjusting push pedal can promote the tip is with the interval of whole adjustment adjacent battery support baffle, realizes the linkage between the battery support baffle.

The equidistant adjusting device comprises equidistant transmission chains and return compression springs, a plurality of mounting sites for mounting battery supporting partition plates are arranged on each equidistant transmission chain at equal intervals, the bottoms of the battery supporting partition plates are mounted on the mounting sites of the equidistant adjusting device, and the battery supporting partition plates are kept to be arranged in parallel and at equal intervals; return compression springs are arranged between two adjacent battery support baffles, between the foremost battery support baffle and the adjacent battery front support plate, and between the rearmost battery support baffle and the adjacent battery rear support plate, wherein when an adjusting block is not placed between the battery front support plate and the front baffle, the inner end surfaces of the battery front support plate and the front baffle are attached together, and an adjusting gap is reserved between the end surfaces of the two adjacent battery support baffles; when the adjusting block is placed between the front battery supporting plate and the front baffle, the end faces of the two adjacent battery supporting baffle plates are mutually attached together, and the grooves of the two battery supporting baffle plates jointly enclose a clamping groove for clamping the battery.

The cross section of the clamping groove is rectangular.

When the invention is used, the adjusting block is taken out, the battery tray is placed on the device and positioned through the tray guide post, the front battery support plate can move along the axial direction of the support post and the forward baffle plate until the front battery support plate is attached to the front baffle plate under the action of the return compression spring, the battery support baffle plate is unfolded at the moment, the batteries in the tray are transferred into the corresponding clamping grooves, then the tray is taken down, the adjusting block is placed between the front battery support plate and the front baffle plate, and the battery support baffle plate is compressed at the moment to clamp the two end faces of the batteries.

The beneficial effects of the invention are mainly shown in the following steps: 1. the device is simple, reliable and convenient; 2. the front battery supporting plate is pushed in the square shell power battery clamping tray assembly, so that the front battery supporting plate and the battery supporting plate tighten and clamp the battery, and then the adjusting block is placed in the battery clamping tray assembly, so that the battery can be prevented from swelling when being formed, and the quality and the appearance of the battery are prevented from being influenced.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a left side view of the present invention.

Fig. 4 is a rear view of the present invention.

Fig. 5 is a clamping state diagram of the present invention.

Fig. 6 is an open state diagram of the present invention.

Fig. 7 is a schematic representation of the location of the present invention on a device.

Fig. 8 is a top view of the present invention on a device.

Fig. 9 is a front view of the present invention on a device.

Fig. 10 is a side view of the present invention on a device.

Detailed Description

The invention will be further described with reference to the accompanying drawings

Referring to the drawings:

Embodiment 1a lithium ion square shell power battery clamping tray according to the present invention comprises:

A base 1 having a cavity for mounting the battery clamping mechanism and the adjustment block, for accommodating the battery clamping mechanism and the adjustment block;

The battery clamping mechanism 2 is arranged in the concave cavity of the base and is provided with a plurality of clamping grooves which can adjust the groove width and are mutually linked and are used for clamping the battery 4 placed in the clamping mechanism;

And the adjusting block 3 is arranged between the concave cavity and one end part of the battery clamping mechanism and is used for adjusting the width of a clamping groove of the battery clamping mechanism so as to adjust the clamping degree of the battery.

The base 1 comprises a bottom support 11, a front baffle 12, a rear baffle 13, supporting columns 14 and supporting bars 15, wherein the front baffle 12 and the rear baffle 13 are respectively arranged at the front end and the rear end of the bottom support 11, the front baffle 12 and the rear baffle 13 are kept parallel, and the central axis of the bottom support 11 is perpendicular to the front baffle 12 and the rear baffle 13; the support columns 11 and the support bars 15 are respectively connected between the end parts of the front baffle plate 12 and the end parts of the rear baffle plate 13, the support bars 15 are positioned at the bottoms of the support columns 14, and the support columns 14 and the support bars 15 are kept to be axially arranged along the bottom support piece 11, wherein the front baffle plate 12, the rear baffle plate 13, the support columns 14 and the support bars 15 are jointly enclosed at the edge of the bottom support piece 11 and are jointly spliced with the bottom support piece 11 to form a concave cavity for installing the battery clamping mechanism 2.

Tray guide posts 16 are provided at the top symmetrical positions of the front baffle 12 and the rear baffle 13.

The bottom support 11 includes a plurality of bottom support bars arranged in parallel, and gaps are left between adjacent bottom support bars.

The battery clamping mechanism 2 comprises a front battery supporting plate 21, a rear battery supporting plate 22, a plurality of battery supporting partition plates 23, a pushing plate 24 and an equidistant adjusting device 25, wherein the front battery supporting plate 21 and the rear battery supporting plate 22 are respectively and oppositely arranged on the supporting column 14 in parallel, the rear battery supporting plate 22 is fixedly arranged on the supporting column 14, and one end face is tightly attached to the inner end face of the rear baffle 13; the front battery baffle 21 is in sliding connection with the support column 14, a pushing plate 24 for driving the front battery support plate to axially move along the support column 14 is fixedly arranged on the outer end surface of the front battery support plate 21, and at least one set of equidistant adjusting device is arranged between the pushing plate 24 and the rear battery support plate 22; the bottoms of the battery support partition plates 23 are equidistantly arranged on the equidistant adjusting device, and the battery support partition plates 23 are kept to be parallel and are arranged between the front battery support plate 21 and the rear battery support plate 22 at equal intervals; at least one groove is formed on two end faces of the battery support partition 23, one end face of the battery front support plate 21 facing the battery and one end face of the battery rear support plate 23 facing the battery, wherein the grooves of two adjacent battery support partition, the foremost battery support partition and the adjacent battery front support plate, and the rearmost battery support partition and the adjacent battery rear support plate form clamping grooves 25, and the widths of the clamping grooves are kept equal.

The battery support separator 23 has a plurality of grooves on both end surfaces thereof, and the battery front support plate 21 has an end surface facing the battery, and the battery rear support plate 22 has an end surface facing the battery.

The equidistant adjustment device 25 is composed of equidistant adjustment device sliding blocks 251 and equidistant adjustment device pushing devices 252, wherein one equidistant adjustment device sliding block 251 is fixedly arranged at each axial end of each battery supporting baffle plate 23, and two adjacent equidistant adjustment device sliding blocks 251 are mutually connected and are in clearance fit; the end equidistant adjustment device slider 251 is connected to the pushing end of the equidistant adjustment device pushing device 252, so that the battery support separator 23 pushes and pulls the concave equidistant adjustment device slider through the equidistant adjustment device pushing device to change the equidistant positions of the battery.

The cross section of the equidistant adjusting device sliding block is of a transverse S-shaped structure or an S-shaped structure, wherein two ends of the S-shaped structure or the S-shaped structure are respectively clamped into grooves of the S-shaped structure or the S-shaped structure of the adjacent equidistant adjusting device sliding block, and the two ends are in clearance fit.

The equidistant adjustment device pushing device 252 comprises a linear distance adjustment motor 2521, a distance adjustment push plate 2522 and a mounting chassis 2523, wherein the distance adjustment motor is mounted on equipment beside the equidistant adjustment device sliding block 251 through the mounting chassis 2523, the distance adjustment motor is a linear motor, the moving direction of a linear pushing end of the distance adjustment motor is arranged along the axial direction of the bottom support 11, a linear moving end part of the distance adjustment motor is connected with the distance adjustment push plate, and the distance adjustment push plate is connected with a bearing surface of the equidistant adjustment device sliding block of the end part, so that the distance adjustment push plate can push the equidistant adjustment device sliding block of the end part to integrally adjust the distance between the adjacent battery support separation plates 23, and linkage between the battery support separation plates 23 is realized.

The equidistant adjusting device comprises equidistant transmission chains and return compression springs, a plurality of mounting sites for mounting battery supporting partition plates are arranged on each equidistant transmission chain at equal intervals, the bottoms of the battery supporting partition plates are mounted on the mounting sites of the equidistant adjusting device, and the battery supporting partition plates are kept to be arranged in parallel and at equal intervals; return compression springs are arranged between two adjacent battery support baffles, between the foremost battery support baffle and the adjacent battery front support plate, and between the rearmost battery support baffle and the adjacent battery rear support plate, wherein when an adjusting block is not placed between the battery front support plate and the front baffle, the inner end surfaces of the battery front support plate and the front baffle are attached together, and an adjusting gap is reserved between the end surfaces of the two adjacent battery support baffles; when the adjusting block is placed between the front battery supporting plate and the front baffle, the end faces of the two adjacent battery supporting baffle plates are mutually attached together, and the grooves of the two battery supporting baffle plates jointly enclose a clamping groove for clamping the battery.

The clamping groove 25 is rectangular in cross section.

When the invention is used, the adjusting block is taken out, the battery tray is placed on the device and positioned through the tray guide post, the front battery support plate can move along the axial direction of the support post and the forward baffle plate until the front battery support plate is attached to the front baffle plate under the action of the return compression spring, the battery support baffle plate is unfolded at the moment, the batteries in the tray are transferred into the corresponding clamping grooves, then the tray is taken down, the adjusting block is placed between the front battery support plate and the front baffle plate, and the battery support baffle plate is compressed at the moment to clamp the two end faces of the batteries.

Embodiment 2 in a lithium ion square shell power battery clamping tray according to this embodiment: the base comprises a bottom support piece, a front baffle, a rear baffle, two support columns and two support bars, wherein the front baffle and the rear baffle are respectively arranged at the front end and the rear end of the bottom support piece, the front baffle and the rear baffle are kept parallel, and the central shaft of the bottom support piece is vertical to the front baffle and the rear baffle; the front baffle plate, the rear baffle plate, the support columns and the support bars are jointly enclosed at the edge of the bottom support piece and are jointly spliced with the bottom support piece to form a concave cavity for installing a battery clamping mechanism.

Embodiment 3 in a lithium ion square shell power battery clamping tray according to this embodiment: the bottom support piece comprises 4 bottom support bars which are arranged in parallel, and gaps are reserved between the adjacent bottom support bars.

Embodiment 4 in a lithium ion square shell power battery clamping tray according to this embodiment: the battery support plates total 19, and the tray guide posts total 4, two of which are disposed on the top edge of the front baffle and the remaining two of which are disposed on the top edge of the rear baffle for restricting the position of the tray.

The embodiments described in the present specification are merely examples of implementation forms of the inventive concept, and the scope of protection of the present invention should not be construed as being limited to the specific forms set forth in the embodiments, but also equivalent technical means that can be conceived by those skilled in the art according to the inventive concept.

Claims (5)

1. A lithium ion square shell power battery clamping tray is characterized in that: comprising the following steps:

A base having a cavity for mounting the battery clamping mechanism and the adjustment block for receiving the battery clamping mechanism and the adjustment block;

The battery clamping mechanism is arranged in the concave cavity of the base and is provided with a plurality of clamping grooves which can adjust the groove width and are mutually linked and used for clamping the battery placed in the clamping grooves;

The adjusting block is arranged between the concave cavity and one end part of the battery clamping mechanism and is used for adjusting the groove width of the clamping groove of the battery clamping mechanism so as to adjust the clamping degree of the battery;

The base comprises a bottom support piece, a front baffle, a rear baffle, support columns and support bars, wherein the front baffle and the rear baffle are respectively arranged at the front end and the rear end of the bottom support piece, the front baffle and the rear baffle are kept parallel, and the central shaft of the bottom support piece is perpendicular to the front baffle and the rear baffle; the front baffle, the rear baffle, the support columns and the support bars are jointly enclosed at the edge of the bottom support piece and are jointly spliced with the bottom support piece to form a concave cavity for installing a battery clamping mechanism;

tray guide posts are arranged at the symmetrical positions of the top edges of the front baffle plate and the rear baffle plate;

the bottom supporting piece comprises a plurality of bottom supporting strips which are arranged in parallel, and gaps are reserved between the adjacent bottom supporting strips;

The battery clamping mechanism comprises a battery front supporting plate, a battery rear supporting plate, a plurality of battery supporting partition plates, a pushing plate and an equidistant adjusting device, wherein the battery front supporting plate and the battery rear supporting plate are respectively and oppositely arranged on a supporting column in parallel, the battery rear supporting plate is fixedly arranged with the supporting column, and one end face is tightly attached to the inner end face of the rear baffle; the front battery baffle is in sliding connection with the support column, the outer end surface of the front battery support plate is fixedly provided with a pushing plate for driving the front battery support plate to axially move along the support column, and at least one set of equidistant adjusting device is arranged between the pushing plate and the rear battery support plate; the bottom of the battery support partition board is equidistantly arranged on the equidistant adjusting device, and the battery support partition board is kept parallel and is arranged between the front battery support board and the rear battery support board at equal intervals; grooves are formed in two end faces of the battery support partition board, one end face of the battery front support board facing the battery and one end face of the battery rear support board facing the battery, wherein the grooves of two adjacent battery support partition boards, the foremost battery support partition board and the adjacent battery front support board, and the rearmost battery support partition board and the adjacent battery rear support board form clamping grooves, and the widths of the clamping grooves are kept equal;

The equidistant adjusting device consists of equidistant adjusting device sliding blocks and equidistant adjusting device pushing devices, wherein one equidistant adjusting device sliding block is fixedly arranged at each axial end part of each battery supporting baffle plate, and two adjacent equidistant adjusting device sliding blocks are connected with each other and are in clearance fit; the equidistant adjusting device sliding blocks at the end parts are connected with the pushing ends of the equidistant adjusting device pushing devices, so that the battery supporting partition plates push and pull the concave equidistant adjusting device sliding blocks through the equidistant adjusting device pushing devices to change the positions of the batteries at equal distances.

2. A lithium ion square shell power battery clamping tray as defined in claim 1, wherein: the cross section of the equidistant adjusting device sliding block is of a transverse S-shaped structure or an S-shaped structure, wherein two ends of the S-shaped structure or the S-shaped structure are respectively clamped into grooves of the S-shaped structure or the S-shaped structure of the adjacent equidistant adjusting device sliding block, and the two ends are in clearance fit.

3. A lithium ion square shell power battery clamping tray as defined in claim 1, wherein: equidistant adjusting device thrust unit includes linear distance adjusting motor, interval adjusting push pedal and installation chassis, the interval adjusting motor passes through the installation chassis and installs on the equipment of equidistant adjusting device slider next door, and interval adjusting motor is linear motor to the axial setting of bottom sprag is followed to the direction of movement of its sharp pushing end, the linear movement tip of interval adjusting motor links to each other with the interval adjusting push pedal, and interval adjusting push pedal and tip equidistant adjusting device slider stress surface links to each other for equidistant adjusting device slider that the interval adjusting push pedal can promote the tip is with the interval of whole adjustment adjacent battery support baffle, realizes the linkage between the battery support baffle.

4. A lithium ion square shell power battery clamping tray as defined in claim 1, wherein: the equidistant adjusting device comprises equidistant transmission chains and return compression springs, a plurality of mounting sites for mounting battery supporting partition plates are arranged on each equidistant transmission chain at equal intervals, the bottoms of the battery supporting partition plates are mounted on the mounting sites of the equidistant adjusting device, and the battery supporting partition plates are kept to be arranged in parallel and at equal intervals; return compression springs are arranged between two adjacent battery support baffles, between the foremost battery support baffle and the adjacent battery front support plate, and between the rearmost battery support baffle and the adjacent battery rear support plate, wherein when an adjusting block is not placed between the battery front support plate and the front baffle, the inner end surfaces of the battery front support plate and the front baffle are attached together, and an adjusting gap is reserved between the end surfaces of the two adjacent battery support baffles; when the adjusting block is placed between the front battery supporting plate and the front baffle, the end faces of the two adjacent battery supporting baffle plates are mutually attached together, and the grooves of the two battery supporting baffle plates jointly enclose a clamping groove for clamping the battery.

5. The lithium ion square shell power battery clamping tray as defined in claim 4, wherein: the cross section of the clamping groove is rectangular.