CN214730269U

CN214730269U - Battery anti-cutting detection device

Info

Publication number: CN214730269U
Application number: CN202023167416.2U
Authority: CN
Inventors: 冯小伦; 曾文明; 谈志永; 甘发奎
Original assignee: Ningbo Veken Battery Co ltd
Current assignee: Ningbo Veken Battery Co ltd
Priority date: 2020-12-24
Filing date: 2020-12-24
Publication date: 2021-11-16
Anticipated expiration: 2030-12-24

Abstract

The utility model provides a detection device is prevented cutting by battery belongs to battery preparation equipment technical field. It has solved the problem that current battery was cut in the manufacturing process. The utility model relates to a detection device is prevented cutting by battery includes backplate, removal subassembly, drive assembly, pick-up plate, pointer and lower detector. In the utility model, before the packaging bag is cut, the packaged battery is detected by the battery cut-preventing detection device, so that the possibility of cutting off the battery is reduced; secondly, be equipped with a pair of inner guide rail on the backplate, be equipped with the interior slider with corresponding inner guide rail sliding connection on the movable plate, when the removal subassembly removes the in-process relative to the backplate, interior slider moves along the orbit motion of the interior guide rail that corresponds, so, alright guarantee that the movable plate can directional removal on the backplate.

Description

Battery anti-cutting detection device

Technical Field

The utility model belongs to the technical field of battery preparation equipment, a detection device is prevented cutting by battery is related to.

Background

In the process of manufacturing the battery, a worker needs to wrap the packaging bag on the surface of the battery, then the cutting device is used for cutting redundant packaging bags on the surface of the battery, before cutting, the battery needs to be transferred to the cutting device, in the transferring process, the placing position of the battery can deflect, a cutter of the cutting device still normally acts, and therefore the battery can be cut and exploded, and safety events such as battery heating and burning are caused.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provided a battery anti-cutting detection device who improves battery production security.

The purpose of the utility model can be realized by the following technical proposal: a battery cut prevention detection device comprising:

a back plate;

the moving assembly is arranged on the back plate and moves relative to the back plate, and a driving assembly for driving the moving assembly to move is arranged on the back plate;

the detection plate is arranged on the moving assembly and moves relative to the moving assembly, a pointer is arranged on the detection plate, and a lower detector used for detecting the pointer is arranged on one side of the back plate.

In the anti-cutting detection device for the battery, the moving assembly comprises a moving plate and a connecting seat, the moving plate is connected with the connecting seat, the moving plate is movably connected with the back plate, and the connecting seat is movably connected with the detection plate.

In the battery anti-cutting detection device, the connecting seat is provided with an outer guide rail, the detection plate is provided with an outer sliding block, and the outer guide rail is in sliding connection with the outer sliding block.

In the above battery anti-cutting detection device, the back plate is provided with a pair of inner guide rails, and the moving plate is provided with inner sliders slidably connected with the corresponding inner guide rails.

In the battery anti-cutting detection device, the driving assembly comprises a cylinder body with a cylinder rod, the cylinder body is detachably connected with the back plate, and the cylinder rod is connected with the moving plate.

In the above battery cut-preventing detection device, one side of the back plate is provided with an extension plate for mounting the lower detector, and the extension plate is perpendicular to the back plate.

In the above battery anti-cutting detection device, the extension plate is provided with an upper detector.

In the above battery anti-cutting detection device, a base is arranged at the bottom of the back plate, and the distance between the upper detector and the base is greater than the distance between the lower detector and the base.

In the anti-cutting detection device for the battery, the base is provided with the buffer seat, and the buffer seat is provided with the buffer block.

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

1. the utility model discloses in, before cutting the wrapping bag, prevent cutting detection device through this battery and detect the battery after the packing, when the locating position of battery accords with the standard, cut unnecessary wrapping bag again, so, reduce the possibility that the battery was cut off.

2. The backboard is provided with a pair of inner guide rails, the moving plate is provided with inner sliding blocks in sliding connection with the corresponding inner guide rails, and when the moving assembly moves relative to the backboard, the inner sliding blocks move along the tracks of the corresponding inner guide rails, so that the moving plate can be ensured to move directionally on the backboard.

3. The inner sliding block is limited to be separated from the inner guide rail through the arrangement of the buffer block; secondly, the movable plate is prevented from being in direct contact with the base through the matching effect of the buffer block and the buffer seat, so that the movable plate is protected.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention.

Fig. 2 is a schematic view of the structure of fig. 1 from another view angle.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-2, the battery anti-cutting detection device of the present invention includes a back plate 100, a moving assembly 200, a driving assembly 300, a detection plate 400, a pointer 410, and a lower detector 122.

The mobile assembly 200 is mounted on the backboard 100, the mobile assembly 200 moves relative to the backboard 100, the backboard 100 is provided with a driving assembly 300 for driving the mobile assembly 200 to move, the detection plate 400 is mounted on the mobile assembly 200, the detection plate 400 moves relative to the mobile assembly 200, the detection plate 400 is provided with a pointer 410, one side of the backboard 100 is provided with a lower detector 122 for detecting the pointer 410, during cutting of a package bag of a battery, a discharge position of the battery needs to be detected first, specifically, when the battery is transferred to a position right below the detection plate 400, a person needs to operate the driving assembly 300 to enable the driving assembly 300 to drive the mobile assembly 200 to move downwards, as the detection plate 400 is movably mounted on the mobile assembly 200, the detection plate 400 and the mobile assembly 200 descend synchronously, and when the driving assembly 300 drives the mobile assembly 200 to descend to a predetermined displacement, the detection plate 400 abuts against the battery or the package bag, at this time, the lower detector 122 makes two different reactions, further, when the bottom edge of the detection plate 400 is abutted against the package bag, the pointer 410 of the detection plate 400 is just inserted into the lower detector 122, at this time, the lower detector 122 does not generate an electric signal, so that an alarm (not labeled in the figure) electrically connected with the lower detector 122 does not give an alarm, when the bottom edge of the detection plate 400 is abutted against the battery, the pointer 410 of the detection plate 400 is not inserted into the lower detector 122 any more, at this time, the lower detector 122 generates an electric signal and transmits the electric signal to the alarm (not labeled in the figure) electrically connected with the lower detector 122, so that the alarm gives an alarm, people can know in time that the placement position of the battery is dislocated, people can handle in time, and the risk of cutting the battery is reduced.

The moving assembly 200 comprises a moving plate 210 and a connecting seat 220, the moving plate 210 is connected with the connecting seat 220, the moving plate 210 is movably connected with the back plate 100, and the connecting seat 220 is movably connected with the detecting plate 400.

Further, a pair of inner guide rails 110 is disposed on the back plate 100, an inner slider 211 slidably connected to the corresponding inner guide rails 110 is disposed on the moving plate 210, and when the moving assembly 200 moves relative to the back plate 100, the inner slider 211 moves along the track of the corresponding inner guide rail 110, so that the moving plate 210 can be ensured to move directionally on the back plate 100.

In the process that the driving assembly 300 drives the moving assembly 200 to move downwards, when the detection board 400 abuts against the battery, the driving assembly 300 drives the moving plate 210 and the connecting seat 220 to continue to move downwards, because the connecting seat 220 is provided with the outer guide rail 221, the detection board 400 is provided with the outer slider 420, the outer guide rail 221 is in sliding connection with the outer slider 420, so that the connecting seat 220 moves downwards relative to the detection board 400, and the pointer 410 and the detection board 400 are still relative to the back plate 100 all the time, that is, the pointer 410 is not inserted into the lower detector 122 all the time, and after the driving assembly 300 drives the connecting plate to descend to a predetermined distance, the lower detector 122 generates a corresponding electric signal, so that an alarm (not marked in the drawing) gives an alarm; when the driving assembly 300 drives the connection plate to reset, the gravity of the detection plate 400 is greater than the friction force between the outer slider 420 and the outer guide rail 221, so that the detection plate 400 moves downward relative to the connection seat 220, and the automatic reset of the detection plate 400 is realized.

Furthermore, a stopper 222 corresponding to the outer guide rail 221 is disposed on the connecting seat 220, the stopper 222 is located right below the outer guide rail 221, and when the battery cut-off prevention detection device is not used, the stopper 222 blocks the outer slider 420, thereby preventing the outer slider 420 from falling off from the outer guide rail 221.

The driving assembly 300 includes a cylinder 310 having a cylinder rod 320, the cylinder 310 is detachably connected to the backplate 100, the cylinder rod 320 is connected to the moving plate 210, the cylinder 310 drives the cylinder rod 320 to move during the movement of the moving assembly 200 relative to the backplate 100, and the moving plate 210 is connected to the cylinder rod 320, so that the cylinder rod 320 drives the moving plate 210 to move along the track of the inner rail 110.

An extension plate 120 for installing the lower detector 122 is arranged on one side of the back plate 100, the extension plate 120 is perpendicular to the back plate 100, an upper detector 121 is arranged on the extension plate 120, a base 500 is arranged at the bottom of the back plate 100, the distance between the upper detector 121 and the base 500 is greater than the distance between the lower detector 122 and the base 500, when the driving assembly 300 drives the moving assembly 200 to reset, the detection plate 400 and the pointer 410 simultaneously move towards the upper detector 121, when the pointer 410 is inserted into the upper detector 121, the upper detector 121 generates an electric signal, because the upper detector 121 is electrically connected with the cylinder body 310, the upper detector 121 transmits the electric signal to the cylinder body 310, the cylinder body 310 stops working, and at the moment, the battery cut-prevention detection device completes resetting.

The base 500 is provided with a buffer seat 510, the buffer seat 510 is provided with a buffer block 520, when the cylinder rod 320 of the cylinder body 310 pushes the connecting plate to descend to a certain distance, the buffer block 520 props against the moving plate 210, at this time, the cylinder body 310 stops working, and the inner slide block 211 is limited to be separated from the inner guide rail 110 through the arrangement of the buffer block 520; secondly, the buffer block 520 and the buffer base 510 cooperate to prevent the moving plate 210 from directly contacting the base 500, thereby protecting the moving plate 210.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims

1. A battery cut-prevention detection device, comprising:

a back plate;

2. The battery cut-off prevention detection device as claimed in claim 1, wherein the moving assembly comprises a moving plate and a connecting seat, the moving plate is connected with the connecting seat, the moving plate is movably connected with the back plate, and the connecting seat is movably connected with the detection plate.

3. The battery cut-off prevention detection device as claimed in claim 2, wherein the connecting seat is provided with an outer guide rail, the detection plate is provided with an outer slide block, and the outer guide rail is slidably connected with the outer slide block.

4. The battery cut-off prevention detection device as claimed in claim 2, wherein the back plate is provided with a pair of inner guide rails, and the moving plate is provided with inner sliders slidably connected with the corresponding inner guide rails.

5. The battery cut-off prevention detection device as claimed in claim 2, wherein the driving assembly comprises a cylinder body having a cylinder rod, the cylinder body is detachably connected with the back plate, and the cylinder rod is connected with the moving plate.

6. The battery cut-off prevention detection device as claimed in claim 1, wherein an extension plate for mounting the lower detector is provided at one side of the back plate, and the extension plate is perpendicular to the back plate.

7. The battery cut prevention detection device of claim 6 wherein the extension plate is provided with an upper detector.

8. The battery cut-off prevention detection device as claimed in claim 7, wherein a base is provided at the bottom of the back plate, and the distance between the upper detector and the base is greater than the distance between the lower detector and the base.

9. The battery cut-preventing detection device as claimed in claim 8, wherein a buffer seat is provided on the base, and a buffer block is provided on the buffer seat.