CN210070905U - AB electric core closes core alignment degree detection device - Google Patents

Abstract

The utility model provides a AB electric core closes core alignment degree detection device, belongs to electric core and makes technical field. The AB electric core combination alignment degree detection device is provided with an electric core carrier, a first positioning assembly and a second positioning assembly; the battery cell carrier is provided with a group of first positioning blocks and a group of second positioning blocks, and the first positioning blocks and the second positioning blocks are used for positioning two mutually vertical edges on the AB battery cell; the first positioning assembly is arranged corresponding to the first positioning block, and the second positioning assembly is arranged corresponding to the second positioning block; and the battery cell carrier is provided with a plurality of limited reflection-type sensors for detecting the outline of the AB battery cell. The utility model has the advantages of simple structure, with low costs, be convenient for maintain, can adapt to not unidimensional model electricity core and close the detection of core alignment degree.

Description

AB electric core closes core alignment degree detection device

Technical Field

The utility model relates to a technique in electric core field of making specifically is an AB electric core closes core alignment degree detection device.

Background

At present, after the power battery is paired with an AB battery cell, the power battery needs to be stacked and overlapped with the core, and then the power battery is placed into a steel shell or an aluminum shell after ultrasonic welding. The alignment degree of the AB cell core combination is important in the process. At present, machine vision or manual detection are mainly adopted for the AB battery core combination alignment degree, but the machine vision is expensive, the manual detection efficiency is low, and the danger of damaging the battery core exists.

In order to solve the above problems existing in the prior art, the utility model discloses come from this.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it is not enough to the above-mentioned that prior art exists, provides an AB electricity core closes core alignment degree detection device, has advantages such as simple structure, with low costs, the maintenance of being convenient for, can adapt to not unidimensional model electricity core and close the detection of core alignment degree.

The utility model discloses a realize through following technical scheme.

The utility model is provided with an electric core carrier, a first positioning component and a second positioning component;

the battery cell carrier is provided with a group of first positioning blocks and a group of second positioning blocks, and the first positioning blocks and the second positioning blocks are used for positioning two mutually vertical edges on the AB battery cell; the first positioning assembly is arranged corresponding to the first positioning block, and the second positioning assembly is arranged corresponding to the second positioning block; the battery cell carrier is provided with a plurality of limited reflection-type sensors for detecting preset point positions on the outline of the AB battery cell, and the positions of the limited reflection-type sensors can be adjusted to measure the core combination alignment degrees of the battery cells with different sizes and models;

the first positioning component is provided with a first positioning cylinder, and a telescopic moving part of the first positioning cylinder is connected with a first positioning push block for pushing the AB electric core to be abutted against the first positioning block;

the second positioning assembly is provided with a second positioning cylinder fixing seat, a second positioning cylinder is fixed on the second positioning cylinder fixing seat, a telescopic moving part of the second positioning cylinder is relatively fixed with a clamping jaw cylinder, the clamping jaw cylinder is arranged on the second cylinder fixing seat in a sliding mode through a sliding rail and sliding block structure, and a clamping jaw in the clamping jaw cylinder corresponds to one end of an AB electric core end cover and is used for avoiding electric core end cover clamping and pushing an AB electric core to be abutted against a second positioning block.

Preferably, the limited reflection type sensors are respectively arranged in a group relative to two sides of the AB battery cell end cover, the limited reflection type sensors in each group are flush in position, the number of each group is not less than two, the limited reflection type sensors at two ends in each group are as large as possible, and the distance is not greater than one group of side lines of the battery cell at two ends.

Further preferably, each set has three sensors defining a reflection type, one of which is located at a position intermediate the other two.

Preferably, the first positioning block and the second positioning block are fixed with the battery cell carrier in a threaded manner, and the positions of the first positioning block and the second positioning block are adjustable so as to adapt to battery cells of different sizes and models; the first positioning block and the second positioning block in the same group are respectively arranged in a flush manner; further preferably, first locating piece and second locating piece pass through waist round hole and electric core carrier spiro union is fixed.

In some technical schemes, the battery cell carrier is provided with a carrier seat and a carrier supporting plate, and the carrier seat is arranged on the carrier supporting plate; the carrier layer board and first location cylinder fixed connection, first location cylinder float the articulate through the cylinder and be connected with the push pedal, and first location ejector pad is fixed in the push pedal, and the push pedal passes through the slide rail slider structure and slides and set up at the carrier layer board. The carrier supporting plate is made of metal, meets the rigidity requirement and provides support; the carrier seat is made of non-metal materials, preferably plastic materials, and the electric core is prevented from contacting with metal.

In some technical schemes, electric core carrier passes through the bracing piece to be fixed on the base, is fixed with on the base and keeps away a position cylinder, keeps away a position cylinder and passes through the cylinder floating joint to be connected with second location cylinder fixing base, and second location cylinder fixing base passes through slide rail slider structure slip setting on the base to adapt to not unidimensional model AB electricity core.

Technical effects

Compared with the prior art, the utility model discloses following technological effect has:

1) the detection is quick, simple and effective, and the battery cell is not damaged;

2) the structure is simple, the cost is low, the maintenance is convenient, and the detection of the core combination alignment degree of the battery cores of different sizes and models can be adapted.

Drawings

Fig. 1 is a schematic diagram of detecting an AB cell core-combination alignment degree in embodiment 1;

FIG. 2 is a schematic view of the entire structure of embodiment 1;

FIG. 3 is a layout diagram defining a reflection type sensor in embodiment 1;

FIG. 4 is a schematic diagram showing six-point detection in example 1;

in the figure: an AB electric core 100;

the device comprises a battery cell carrier 1, a base 2, a first positioning component 3, a second positioning component 4, a support rod 5, a limited reflection type sensor 6 and an avoiding cylinder 7;

a carrier seat 11, a carrier supporting plate 12, a first positioning block 13 and a second positioning block 14;

a first positioning cylinder 31, a push plate 32 and a first positioning push block 33;

second location cylinder 41, second location cylinder fixing base 42, clamping jaw cylinder 43.

Detailed Description

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

Example 1

As shown in fig. 1, 2 and 3, the present embodiment includes a cell carrier 1, a base 2, a first positioning assembly 3 and a second positioning assembly 4.

The battery cell carrier 1 is provided with a carrier seat 11 and a carrier supporting plate 12, and the carrier seat 11 is arranged on the carrier supporting plate 12; the carrier supporting plate 12 is fixed on the base 2 through the supporting rod 5, two groups of six limited reflection-type sensors 6 are arranged on the back of the carrier supporting plate 12, the limited reflection-type sensors 6 are arranged on two sides of an AB electric core end cover relative to an AB electric core, and six-point detection is carried out, as shown in FIG. 4; the carrier seat 11 is provided with a group of first positioning blocks 13 and a group of second positioning blocks 14, and the first positioning blocks 13 and the group of second positioning blocks 14 are provided with waist-round holes, and are fixed with the carrier seat 11 in a threaded manner, and the positions of the waist-round holes are adjustable.

The first positioning component 3 is arranged corresponding to the first positioning block 13 and is provided with a first positioning cylinder 31, and the first positioning cylinder 31 is fixed on the carrier supporting plate 12; the first positioning cylinder 31 is connected with a push plate 32 through a cylinder floating joint, the push plate 32 is arranged on the carrier supporting plate 12 in a sliding mode through a sliding rail and sliding block structure, and a first positioning push block 33 is fixed on the push plate 32.

The second positioning assembly 4 is arranged corresponding to the second positioning block 14 and is provided with a second positioning cylinder 41 and a second positioning cylinder fixing seat 42; be connected with clamping jaw cylinder 43 on the concertina movement part of second location cylinder 41, clamping jaw cylinder 43 passes through slide rail slider structure and slides and set up on second cylinder fixing base 42, and the clamping jaw corresponds AB electricity core end cover one end setting in clamping jaw cylinder 43 for avoid electric core end cover centre gripping and promote AB electricity core. Be fixed with on base 2 simultaneously and keep away position cylinder 7 to satisfy the detection demand of unidimensional model AB electricity core, avoid touching AB electricity core end cover, keep away position cylinder 7 and be connected with second location cylinder fixing base 42 through cylinder floating joint, second location cylinder fixing base 42 slides through slide rail slider structure and sets up on base 2.

In the working process of the embodiment, six-point detection is carried out on the side surfaces of the two sides of the AB electric core end cover by limiting the reflection type sensor 6; along two sides of the battery cell end cover, the six detection points are divided into two groups, one group is A, B and C, and the other group is D, E and F; as shown in fig. 4, if the AB cells are not aligned, at least one of the points a to F is detected by the limited reflection sensor 6; before the detection, the AB battery cell is pushed to be in contact with the first positioning block through the first positioning cylinder, and then the AB battery cell is pushed to be in contact with the second positioning block through the second positioning cylinder and the clamping jaw cylinder.

It is to be emphasized that: the above embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any form, and any simple modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (6)

1. An AB electric core combination alignment degree detection device is characterized by being provided with an electric core carrier, a first positioning assembly and a second positioning assembly;

the battery cell carrier is provided with a group of first positioning blocks and a group of second positioning blocks, and the first positioning blocks and the second positioning blocks are used for positioning two mutually vertical edges on the AB battery cell; the first positioning assembly is arranged corresponding to the first positioning block, and the second positioning assembly is arranged corresponding to the second positioning block; the battery cell carrier is provided with a plurality of limited reflection-type sensors for detecting the outline of the AB battery cell;

the first positioning component is provided with a first positioning cylinder, and a telescopic moving part of the first positioning cylinder is connected with a first positioning push block for pushing the AB electric core to be abutted against the first positioning block;

the second positioning assembly is provided with a second positioning cylinder and a second positioning cylinder fixing seat, a telescopic moving part of the second positioning cylinder is relatively fixed with a clamping jaw cylinder, the clamping jaw cylinder is arranged on the second cylinder fixing seat in a sliding mode through a sliding rail and sliding block structure, and a clamping jaw in the clamping jaw cylinder corresponds to one end of an AB electric core end cover and is used for avoiding electric core end cover clamping and pushing an AB electric core to be abutted against a second positioning block.

2. The AB cell core combination alignment detection device of claim 1, wherein the defined reflective sensors are disposed in a group relative to two sides of the AB cell end cap, the defined reflective sensors in each group are aligned, the number of the defined reflective sensors in each group is not less than two, the defined reflective sensors at two ends in each group are spaced apart by a distance not greater than a set of side lines of the cell at two ends.

3. The AB cell core combination alignment detection device of claim 2, wherein each group has three defined reflection sensors, one of which is located at a middle position of the other two.

4. The AB electrical core combination alignment degree detection device of claim 1, wherein the first positioning block and the second positioning block are fixed to the electrical core carrier by screwing, and the positions of the first positioning block and the second positioning block are adjustable; the first positioning block and the second positioning block in the same group are respectively arranged in a flush manner.

5. The AB cell core combination alignment degree detection device of claim 1, wherein the cell carrier is provided with a carrier seat and a carrier support plate, the carrier seat being disposed on the carrier support plate; the carrier layer board and first location cylinder fixed connection, first location cylinder float the articulate through the cylinder and be connected with the push pedal, and first location ejector pad is fixed in the push pedal, and the push pedal passes through the slide rail slider structure and slides and set up at the carrier layer board.

6. The AB electric core combination alignment degree detection device of claim 1, characterized in that the electric core carrier is fixed on a base through a support rod, a position-avoiding cylinder is fixed on the base, the position-avoiding cylinder is connected with a second positioning cylinder fixing seat through a cylinder floating joint, and the second positioning cylinder fixing seat is slidably arranged on the base through a slide rail and slider structure.

Images