CN116037603A

CN116037603A - Automatic cutting device for lithium battery

Info

Publication number: CN116037603A
Application number: CN202211726095.6A
Authority: CN
Inventors: 褚兵; 袁其锦
Original assignee: Anhui Xunying New Material Technology Co ltd
Current assignee: Anhui Xunying New Material Technology Co ltd
Priority date: 2022-12-30
Filing date: 2022-12-30
Publication date: 2023-05-02

Abstract

The invention discloses an automatic lithium battery splitting device, which comprises a frame body, wherein a loading mechanism for supporting a lithium battery pack, a detection mechanism for detecting the polarity of the lithium battery, a pushing mechanism for pushing the loading mechanism to move so as to enable the lithium battery after the lithium battery pack is split to fall, and a splitting mechanism for splitting the falling direction of the lithium battery after the lithium battery pack is split are arranged on the frame body; the detection end of the detection mechanism is arranged on one side of the pole piece of the lithium battery pack in a telescopic way, the splitting end of the pushing mechanism is arranged on one side between adjacent lithium battery packs in a telescopic way, and the splitting mechanism is arranged at the bottom of the lithium battery packs; the automatic cutting device can automatically detect and separate the lithium batteries which are stuck together, is economical and practical, saves a large amount of manpower and material resources and reduces the manpower cost.

Description

Automatic cutting device for lithium battery

Technical Field

The invention relates to the technical field of lithium battery recovery, in particular to an automatic lithium battery segmentation device.

Background

Lithium batteries are an important component of electronic products, which are required to be used in the electronic products, and power is supplied to the electronic products through the lithium batteries. Due to the development of economy, electronic products are increasingly used, so that lithium batteries are also increasingly used, and waste lithium batteries are also increasingly used.

The current recovered tricycle and two-wheel vehicle lithium battery pack generally comprises a lithium battery pack shell, a protection plate and an internal lithium battery cell group, wherein the lithium battery cell group is formed by bonding a plurality of square lithium battery cells by double-sided adhesive tapes. When the lithium battery cores are recovered, the lithium battery cores are split, and at present, a cutter blade and a hammer are used for chiseling, so that the speed is low, and a large amount of manpower and material resources are spent.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides the automatic lithium battery cutting device which can automatically detect and separate the lithium batteries stuck together, is economical and practical, saves a large amount of manpower and material resources and reduces the manpower cost.

The invention provides an automatic lithium battery splitting device, which comprises a frame body, wherein a loading mechanism for supporting a lithium battery pack, a detection mechanism for detecting the polarity of the lithium battery, a pushing mechanism for pushing the loading mechanism to move so as to enable the lithium battery after the lithium battery pack is split to fall, and a splitting mechanism for splitting the falling direction of the lithium battery after the lithium battery pack is split are arranged on the frame body;

the detection end of the detection mechanism is arranged on one side of the pole piece of the lithium battery pack in a telescopic way, the splitting end of the pushing mechanism is arranged on one side between adjacent lithium battery packs in a telescopic way, and the splitting mechanism is arranged at the bottom of the lithium battery packs.

Further, the pushing mechanism comprises a pushing air cylinder, a pushing plate and a cutter fixed on the pushing plate, the pushing air cylinder is fixed on the frame body, the pushing plate is arranged on the frame body in a sliding mode, the telescopic end of the pushing air cylinder is fixedly connected with the pushing plate, and the cutter is arranged on one side of two adjacent lithium batteries in the lithium battery pack.

Further, the pushing mechanism further comprises a sweeper, a guide rail and a sliding block in sliding connection with the guide rail, wherein the sweeper is attached to the cutter and fixed on the frame body, the guide rail is fixed on the frame body, and the pushing plate is fixed on the sliding block.

Further, the loading mechanism comprises a supporting plate, a supporting plate and a baffle plate arranged on the supporting plate, the supporting plate is fixed on the frame body, a through hole for placing the lithium battery pack is formed in the supporting plate, the baffle plate is arranged at the edge of the through hole, the supporting plate is arranged below the supporting plate and is fixedly connected with the pushing plate, and the lithium battery pack penetrates through the through hole and is arranged on the supporting plate.

Further, detection mechanism is including detecting the cylinder, be used for detecting the probe of lithium cell polarity, detects the cylinder and is fixed in the support body, detects the flexible end and the probe fixed connection of cylinder.

Further, the detection mechanism further comprises a material turning plate and a material turning motor for driving the material turning plate to rotate, wherein the material turning motor is fixed on the frame body, and the material turning plate is rotationally arranged on the frame body and below the supporting plate.

Further, the branching mechanism comprises a blanking bottom plate and a blanking trough plywood, wherein the two blanking bottom plates are fixedly connected through the trough plywood and are connected in a V shape, and the two blanking bottom plates are arranged below the material turning plate.

Further, the branching mechanism further comprises a blanking side plate, a blanking groove hanging piece and side plates, wherein the blanking side plates are respectively arranged on two sides of the length direction of the blanking bottom plate, the side plates are arranged at one end, far away from the V-shaped connection position, of the blanking bottom plate, and the blanking groove hanging piece is rotationally connected with the blanking groove plywood.

Further, a controller is arranged on the frame body and is respectively in signal connection with a detection cylinder in the detection mechanism, a material turning motor in the detection mechanism and a pushing cylinder in the pushing mechanism.

The automatic cutting device for the lithium battery has the advantages that: the automatic lithium battery cutting device provided by the structure of the invention can automatically detect and separate the lithium batteries which are stuck together, is economical and practical, saves a great amount of manpower and material resources and reduces the manpower cost; the defects that a blade is adopted to be added with a hammer at present, the speed is low, and a large amount of manpower and material resources are spent are overcome; the detection mechanism is arranged for detecting the polarity of the lithium battery before cutting so as to judge the quality of the lithium battery, and the detection mechanism is used for taking the basis of the quality classification of the subsequent lithium battery; the cleaner on the cutter is arranged, and the cleaning end of the cleaner can clean the adhesive stuck on the cutter in the process of back drawing of the cutter, so that the device can work continuously; the supporting plate and the cutter are arranged on the same pushing plate, so that the supporting plate and the cutter can synchronously move, and therefore, the lithium battery cut by the cutter falls under the action of the supporting plate which is not supported by the supporting plate; the plates may be made of bakelite to enable the lithium battery pack to be controlled in an upright position without conducting electricity.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the structure of the loading mechanism and the pushing mechanism;

FIG. 3 is a schematic diagram of the pushing mechanism and the detecting mechanism;

FIG. 4 is a schematic diagram of the structure of the branching mechanism;

fig. 5 is a schematic structural view of a lithium battery pack;

the device comprises a 1-frame body, a 2-lithium battery pack, a 3-loading mechanism, a 4-detection mechanism, a 5-pushing mechanism, a 6-branching mechanism, a 7-controller, an 8-electric control box, a 31-supporting plate, a 32-supporting plate, a 33-baffle, a 41-detection cylinder, a 42-probe, a 43-material turning plate, a 44-material turning motor, a 45-bearing support frame, a 46-coupling, a 51-pushing cylinder, a 52-pushing plate, a 53-cutter, a 54-sweeper, a 55-guide rail, a 56-slider, a 61-blanking bottom plate, a 62-blanking trough plywood, a 63-blanking side plate, a 64-blanking trough pendant and a 65-side plate.

Detailed Description

In the following detailed description of the present invention, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit or scope of the invention, which is therefore not limited to the specific embodiments disclosed below.

As shown in fig. 1 to 5, the automatic lithium battery slicing device provided by the invention comprises a frame body 1, and is characterized in that a loading mechanism 3 for supporting a lithium battery pack 2, a detection mechanism 4 for detecting the polarity of lithium batteries in the lithium battery pack 2, a pushing mechanism 5 for pushing the loading mechanism 3 to move so as to enable the lithium batteries after slicing the lithium battery pack 2 to fall down, and a splitting mechanism 6 for splitting the falling direction of the lithium batteries after slicing the lithium battery pack 2 are arranged on the frame body 1; the detecting end of the detecting mechanism 4 is arranged on one side of the pole piece of the lithium battery pack 2 in a telescopic mode, the splitting end of the pushing mechanism 5 is arranged on one side between the adjacent lithium battery packs 2 in a telescopic mode, and the splitting mechanism 6 is arranged at the bottom of the lithium battery packs 2.

The lithium battery pack includes a plurality of sequentially stacked lithium batteries, and the adjacent lithium batteries are glued together, so when the lithium battery pack is recovered, the lithium battery pack needs to be split into individual lithium batteries, in this embodiment, the lithium battery pack 2 is split by the pushing mechanism 5, meanwhile, the loading mechanism 3 is pushed so that the split individual lithium batteries fall according to gravity, before the split, the polarity (the resistance and the voltage of the lithium battery) of the lithium battery to be dropped is detected by the detecting mechanism 4, so as to judge the quality of the lithium battery, and the pushing mechanism 5 guides the lithium battery to the corresponding splitting mechanism 6 according to the quality of the lithium battery, so that the split and the class-by-class recovery of the lithium battery are realized. Therefore, the cutting device can automatically detect and separate the capacity and automatically split the adhered lithium batteries, is economical and practical, saves a large amount of manpower and material resources and reduces the manpower cost; the defects that the current blade is adopted to add a hammer, the speed is low, and a large amount of manpower and material resources are spent are overcome.

In this embodiment, the loading mechanism 3 includes a support plate 31, a support plate 32 and a baffle 33 disposed on the support plate 31, the support plate 31 is fixed on the frame 1, a through hole for placing the lithium battery pack 2 is formed in the support plate 31, the baffle 33 is disposed at an edge of the through hole, the support plate 32 is disposed below the support plate 31 and fixedly connected with the pushing plate 52, and the lithium battery pack 2 passes through the through hole and is disposed on the support plate 32.

The baffle 33 may be made of bakelite, so that the lithium battery pack can be controlled in an upright posture, and is not conductive, so that after a lithium battery is separated, the remaining lithium battery pack above is directly vertically dropped onto the supporting plate 32 for detection and segmentation, and the lithium battery cell pack can maintain a stable upright posture.

In this embodiment, the detection mechanism 4 includes a detection cylinder 41 and a probe 42 for detecting the polarity of the lithium battery, the detection cylinder 41 is fixed on the frame 1, and the telescopic end of the detection cylinder 41 is fixedly connected with the probe 42.

Before slicing, the voltage, the resistance and the like of the lithium battery to be separated are detected firstly, the detection cylinder 41 pushes the probes 42 to move towards the positive electrode and the negative electrode of the lithium battery to be separated, and after the two probes 42 are respectively contacted with the positive electrode and the negative electrode, polarity detection is carried out to judge the quality of the current lithium battery, so that the basis is based on the quality classification of the subsequent lithium batteries.

Specifically, the detection mechanism 4 further comprises a material turning plate 43 and a material turning motor 44 for driving the material turning plate 43 to rotate, the material turning motor 44 is fixed on the frame body 1, the bearing seat support frame 45 is fixed on the frame body 1, two sides of the material turning plate 43 are provided with rotating shafts, the rotating shafts are inserted into the bearing seat support frame 45, the material turning plate 43 is rotatably arranged on the frame body 1 and below the supporting plate 32, and the material turning motor 44 is connected with the rotating shafts on the material turning plate 43 through a coupler 46 so as to drive the material turning plate 43 to rotate by driving the rotating shafts to rotate.

The controller 7 controls the turning motor 44 to rotate to drive the turning plate 43 to rotate according to the quality of the lithium batteries, so that one end of the turning plate 43 rotates to the classification frame part corresponding to the dividing mechanism 6 to realize quality classification of the lithium batteries, and different corresponding procedures are convenient to process when the lithium batteries are recovered later, wherein the controller 7 is electrically connected with the electric control box 8.

In this embodiment, the pushing mechanism 5 includes a pushing cylinder 51, a pushing plate 52 and a cutter 53 fixed on the pushing plate 52, the pushing cylinder 51 is fixed on the frame 1, the pushing plate 52 is slidably disposed on the frame 1, the telescopic end of the pushing cylinder 51 is fixedly connected with the pushing plate 52, and the cutter 53 is disposed on one side of two adjacent lithium batteries in the lithium battery pack. The pushing mechanism 5 further comprises a sweeper 54, a guide rail 55 and a sliding block 56 which is in sliding connection with the guide rail 55, wherein the sweeper 54 is attached to the cutter 53 and fixed on the frame body 1, the guide rail 55 is fixed on the frame body 1, and the pushing plate 52 is fixed on the sliding block 56.

The controller 7 controls the pushing cylinder 51 to extend to drive the pushing plate 52 to move along the direction of the guide rail 55, so that the cutter 53 passes through between two adjacent lithium batteries along with the movement of the pushing cylinder 51, and therefore, the two glued lithium batteries are separated, as the glue possibly sticks to the cutter 53, the cleaner 54 is required to be closely attached to the cutter 53, the cleaning end of the cleaner 54 is required to clean the glue possibly stuck to the cutter 53 in the process of drawing back the cutter 53, and the air gun is used for blowing out clean glue in the process of drawing back the cutter 53, so that the device can continuously work.

Wherein, because the supporting plate 32 and the cutter 53 are both arranged on the same pushing plate 52, when the cutter 53 cuts through the adhesive between two lithium batteries, the supporting plate 32 will leave the lithium battery cut below, and the lithium battery below after cutting falls down under the action of gravity; it should be understood that the upper lithium battery pack after being cut moves downward due to gravity, but falls on the passing cutter 53, and the pallet 32 is also reset to the lower side of the remaining lithium battery pack 2 along with the withdrawal of the cutter 53, so as to support the remaining lithium battery pack 2.

In this embodiment, the branching mechanism 6 includes a blanking bottom plate 61 and a blanking trough plywood 62, the two blanking bottom plates 61 are fixedly connected and connected in a V-shape through the trough plywood, the two blanking bottom plates 61 are arranged below the material turning plate 43, the branching mechanism 6 further includes a blanking side plate 63, a blanking trough hanging member 64 and a side plate 65, the blanking side plate 63 is respectively arranged on two sides of the blanking bottom plate 61 in the length direction, the side plate 65 is arranged at one end of the blanking bottom plate 61 away from the V-shaped connection part, and the blanking trough hanging member 64 is rotationally connected with the blanking trough plywood 62.

The two blanking side plates 63 are respectively arranged at two sides of the blanking bottom plate 61, the side plates 65 and the two blanking side plates 63 form a collecting tank, and qualified lithium batteries or unqualified lithium batteries are collected through the corresponding collecting tanks and can be transported to the next working procedure for processing along with a mechanical arm; the blanking hanger 64 can be used for manually adjusting the position of the whole dividing mechanism 6 and can also be used for conveying the dividing mechanism 6.

The dividing mechanism 6 divides the lithium battery into two classifying frames according to the quality of the lithium battery, one is a qualified frame which is entered by the qualified lithium battery, the other is an unqualified frame which is entered by the unqualified lithium battery, the blanking frames of the two blanking bottom plates 61 respectively correspond to the qualified product frame and the unqualified product frame, when the detecting mechanism 4 detects that the lithium battery is qualified/good, the controller 7 controls the turning plate 43 to rotate above the blanking bottom plates 61 of the qualified product frame, the cut lithium battery falls onto the blanking bottom plates 61 along the turning plate 43 to realize the cut collection of the qualified lithium battery, and when the detecting mechanism 4 detects that the lithium battery is unqualified/bad, the controller 7 controls the turning plate 43 to rotate above the blanking bottom plates 61 of the unqualified product frame, and the cut lithium battery falls onto the blanking bottom plates 61 along the turning plate 43 to realize the cut collection of the unqualified lithium battery.

The working process comprises the following steps: the lithium battery pack is placed on the supporting plate 32 and kept in an upright state through the baffle plate 33, the controller 7 starts to push, if the lithium battery in-place detection sensor has an in-place signal, the in-place detection sensor indicates that the lithium battery is at a waiting cutting position, then the electromagnetic valve of the detection cylinder 41 is opened, the detection cylinder 41 is pushed forward, and the two probes 42 are driven to be in forward contact with the anode and the cathode of the lithium battery respectively, so that the detection of the quality of the lithium battery is completed. After the detection is finished, a signal is transmitted to the controller 7, the controller 7 sends a rotating instruction to the material turning motor 44, and the material turning motor 44 rotates to drive the material turning plate 43 to rotate above the qualified blanking bottom plate 61 or above the unqualified blanking bottom plate 61.

After the detection action is completed, the controller 7 controls the pushing cylinder 51 to move forward, the pushing cylinder 51 drives the cutter 53 to move forward along the direction of the guide rail 55 until the adhesive between the two lithium batteries is cut through, after the adhesive is cut through, as the supporting plate 32 and the cutter 53 are arranged on the same movable plate 52, when the cutter 53 cuts through the adhesive between the two lithium batteries, the supporting plate 32 is separated from the lithium battery cut below, the lithium battery core below, and the falling lithium battery falls above the qualified blanking bottom plate 61 or above the unqualified blanking bottom plate 61 according to the overturning direction of the material overturning plate 43.

After the dicing operation is completed, the controller 7 controls the cutter 53 to retract, and the support plate 32 is returned to a position where it can hold up the lithium battery cell group. The upper, un-split lithium battery cell stack drops to the proper position on the pallet 32 due to gravity and the lithium battery in-place detection sensor has a detected in-place signal indicating that the lithium battery is ready to be split on the pallet 32. The above working process is repeated, so that the cutting and sorting of each lithium battery in the lithium battery pack are realized.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The automatic lithium battery splitting device comprises a frame body (1) and is characterized in that a loading mechanism (3) for supporting a lithium battery pack (2), a detection mechanism (4) for detecting the polarity of lithium batteries in the lithium battery pack (2), a pushing mechanism (5) for pushing the loading mechanism (3) to move so that the lithium batteries after the lithium battery pack (2) are split fall, and a splitting mechanism (6) for splitting the falling direction of the lithium batteries after the lithium battery pack (2) is split are arranged on the frame body (1);

the detection end of the detection mechanism (4) is arranged on one side of the pole piece of the lithium battery pack (2) in a telescopic way, the cutting end of the pushing mechanism (5) is arranged on one side between the adjacent lithium battery packs (2) in a telescopic way, and the branching mechanism (6) is arranged at the bottom of the lithium battery packs (2).

2. The automatic lithium battery slicing device according to claim 1, wherein the pushing mechanism (5) comprises a pushing cylinder (51), a pushing plate (52) and a cutter (53) fixed on the pushing plate (52), the pushing cylinder (51) is fixed on the frame body (1), the pushing plate (52) is slidably arranged on the frame body (1), the telescopic end of the pushing cylinder (51) is fixedly connected with the pushing plate (52), and the cutter (53) is arranged on one side of two adjacent lithium batteries in the lithium battery pack.

3. The automatic lithium battery slicing device according to claim 2, wherein the pushing mechanism (5) further comprises a sweeper (54), a guide rail (55) and a sliding block (56) which is slidably connected with the guide rail (55), the sweeper (54) is attached to the cutter (53) and fixed on the frame body (1), the guide rail (55) is fixed on the frame body (1), and the pushing plate (52) is fixed on the sliding block (56).

4. The automatic lithium battery slicing device according to claim 2, wherein the loading mechanism (3) comprises a supporting plate (31), a supporting plate (32) and a baffle plate (33) arranged on the supporting plate (31), the supporting plate (31) is fixed on the frame body (1), a through hole for placing the lithium battery pack (2) is formed in the supporting plate (31), the baffle plate (33) is arranged at the edge of the through hole, the supporting plate (32) is arranged below the supporting plate (31) and fixedly connected with the pushing plate (52), and the lithium battery pack (2) passes through the through hole and is arranged on the supporting plate (32).

5. The automatic lithium battery slicing device according to claim 4, wherein the detecting mechanism (4) comprises a detecting cylinder (41) and a probe (42) for detecting the polarity of the lithium battery, the detecting cylinder (41) is fixed on the frame body (1), and the telescopic end of the detecting cylinder (41) is fixedly connected with the probe (42).

6. The automatic lithium battery slicing device according to claim 5, wherein the detecting mechanism (4) further comprises a material turning plate (43) and a material turning motor (44) for driving the material turning plate (43) to rotate, the material turning motor (44) is fixed on the frame body (1), and the material turning plate (43) is rotatably arranged on the frame body (1) and below the supporting plate (32).

7. The automatic lithium battery cutting device according to claim 6, wherein the branching mechanism (6) comprises a blanking bottom plate (61) and a blanking trough plate (62), the two blanking bottom plates (61) are fixedly connected through the trough plate and connected in a V shape, and the two blanking bottom plates (61) are arranged below the material turning plate (43).

8. The automatic lithium battery slicing device according to claim 7, wherein the slicing mechanism (6) further comprises a blanking side plate (63), a blanking groove hanging piece (64) and side plates (65), the blanking side plates (63) are respectively arranged on two sides of the blanking bottom plate (61) in the length direction, the side plates (65) are arranged at one end, far away from the V-shaped connection position, of the blanking bottom plate (61), and the blanking groove hanging piece (64) is rotationally connected with the blanking groove plywood (62).

9. The automatic lithium battery slicing device according to any one of claims 1-8, wherein a controller (7) is arranged on the frame body (1), and the controller (7) is respectively in signal connection with a detection cylinder (41) in the detection mechanism (4), a material turning motor (44) in the detection mechanism (4) and a pushing cylinder (51) in the pushing mechanism (5).

10. The automatic lithium battery slicing apparatus according to any one of claims 1 to 8, wherein the lithium battery pack includes a plurality of lithium batteries stacked in sequence, and adjacent lithium batteries are bonded to each other.