CN211490154U - Waste material collecting box is cut to lithium-ion battery pole piece laser - Google Patents

Abstract

The utility model discloses a scrap collecting box is cut to lithium-ion battery pole piece laser. The laser cutting waste collecting box for the lithium battery pole piece comprises a box body; a compression chamber is arranged on the box body; the top of the compression chamber is provided with an inlet; a horizontal compression plate is arranged in the compression chamber; the horizontal compression plate can move horizontally in the compression chamber; the compression chamber is divided by the horizontal compression plate to form a compression cavity I and a compression cavity II; vertical compression plates are arranged on one sides, far away from the inlet, in the compression cavity I and the compression cavity II; the vertical compression plate can move up and down along the vertical direction; the outlet is formed in the bottom of the compression cavity I and the bottom of the compression cavity II. The utility model discloses a scrap collecting box is cut to lithium-ion battery pole piece laser is used for the collection of laser cutting waste material, can realize the not shut down garbage collection of laser cutter and handle, is favorable to the not shut down continuous operation of laser cutter, improves lithium-ion battery pole piece's production efficiency.

Description

Waste material collecting box is cut to lithium-ion battery pole piece laser

Technical Field

The utility model relates to a lithium battery pole piece laser cutting technical field, concretely relates to scrap collecting box is cut to lithium battery pole piece laser.

Background

In the production process of the coiled lithium battery, tabs need to be cut out of the positive and negative pole pieces, and the conventional cutting mode of the lithium battery pole pieces is generally laser cutting. During the laser cutting process, a large amount of waste materials and dust are easily generated, and the conventional laser cutting method for collecting the waste materials is usually to collect the waste materials into a waste material box through negative pressure adsorption. Due to the limited volume capacity of the waste bin, after the waste bin collects and loads a certain amount of waste, the conventional treatment mode is to close the laser cutter to clean the waste bin, so that the waste in the waste bin is prevented from being overstocked. However, the waste material treatment mode of the transmission needs to be stopped, so that the production efficiency of the laser cutting of the lithium battery pole piece is low.

The existing mode for improving the treatment efficiency of the laser cutting waste materials is to compress the waste materials in a waste material box so that the waste material box can collect the waste materials as much as possible, and then the waste material box is stopped for treatment once again. However, the method does not completely solve the problem of stopping the machine to treat the waste in the waste bin, only reduces the times of stopping the machine for treatment, cannot completely treat the waste without stopping the machine, has low production efficiency, and obviously cannot meet the capacity requirement under the condition of large-scale production requirement of lithium batteries at present.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a scrap collecting box is cut to lithium-ion battery pole piece laser to the defect or not enough that exist among the prior art. This garbage collection box is used for the collection of laser cutting waste material, can realize the non-stop garbage collection of laser cutter and handle, is favorable to the non-stop continuous operation of laser cutter, improves lithium-ion battery pole piece's production efficiency.

The purpose of the utility model is realized through the following technical scheme.

A waste collecting box for laser cutting of lithium battery pole pieces comprises a box body; a compression chamber is arranged on the box body; the top of the compression chamber is provided with an inlet;

a horizontal compression plate is arranged in the compression chamber; the horizontal compression plate can move horizontally in the compression chamber;

the compression chamber is internally divided by the horizontal compression plate to form a plurality of compression chambers, including a compression chamber I and a compression chamber II; vertical compression plates are arranged on one sides, far away from the inlet, in the compression cavity I and the compression cavity II; the vertical compression plate can move up and down along the vertical direction;

the outlet is formed in the bottom of the compression cavity I and the bottom of the compression cavity II.

Preferably, the inlet is also communicated with a dust suction port which can be connected with a dust suction machine for dust suction treatment of waste materials entering the compression chamber.

Preferably, the horizontal compression plate and the vertical compression plate are movably arranged in the compression chamber through a horizontal screw rod and a vertical screw rod respectively.

Preferably, the compression surface of the horizontal compression plate is vertical to the horizontal plane; the compression surface of the vertical compression plate is parallel to the horizontal plane.

Preferably, the inlet is opened in the middle of the compression chamber; and the vertical compression plate has a width less than half of a width of the compression chamber.

Preferably, the compression chamber is disposed at an upper portion of the case; the lower part of the box body is a hollow compressed waste collecting chamber.

Preferably, the outlet has an opening width greater than or equal to the width of the vertical compression plate.

Preferably, the outlet is provided with an outlet valve; the outlet valve is arranged at the outlet in an openable and closable manner.

More preferably, the outlet valve is arranged at the outlet in an openable and closable manner through a moving assembly;

the moving assembly comprises a moving power part and a guide part; the outlet valve is slidably arranged on the guide piece; and the power output end of the movable power piece is in transmission connection with the outlet valve.

Preferably, a receiving hopper is arranged below the outlet.

More preferably, the receiving hopper and the outlet are eccentrically arranged.

Preferably, the bottom of box is provided with the universal wheel, can make things convenient for the position of the whole collecting box of quick travel conversion as required, and it is high to use the flexibility.

Compared with the prior art, the utility model has the advantages of as follows and beneficial effect:

(1) the utility model discloses a scrap collecting box is cut to lithium-ion battery pole piece laser is used for the collection of laser cutting waste material, at the garbage collection in-process, two compression chambeies can realize continuous incessant alternately circulation compression work, and the bottom in two compression chambeies all is provided with the export and compresses the ejection of compact of material, thereby make whole scrap collecting box can realize continuous incessant pressing material and the ejection of compact, and then can realize the incessant garbage collection of laser cutter and handle, be favorable to the incessant continuous operation of laser cutter, improve lithium-ion battery pole piece's production efficiency.

(2) The utility model discloses a lithium battery pole piece laser cuts garbage collection case, the exit in compression chamber is provided with the outlet valve, when carrying out the waste material compression, the outlet valve can be closed, avoids the waste material to spill and can assist the waste material compression, finishes the waste material compression and when the ejection of compact, and the outlet valve will be opened and compress the waste material ejection of compact, through the setting of outlet valve, makes two compression chambers can realize incessant circulation compression work in turn in succession.

(3) In the lithium battery pole piece laser cutting waste collecting box of the utility model, a receiving hopper is arranged below the outlet of the compression cavity, and only a receiving container is arranged at the discharge port of the receiving hopper to collect the compressed waste during receiving; and connect the hopper setting in compression waste collection room, connect the compression waste in-process can not cause the influence to other stations of laser cutter.

Drawings

FIG. 1 is a schematic view of the overall structure of a laser scrap cutting collection box for lithium battery pole pieces according to an embodiment of the present invention;

FIG. 2 is a schematic view of a top-view partial sectional structure of a laser cutting waste collecting box for a lithium battery pole piece according to an embodiment of the present invention;

FIG. 3 is a schematic view of the front sectional view of the laser scrap-cutting collecting box for lithium battery electrode plates according to the present invention;

fig. 4a and fig. 4b are schematic structural diagrams of the outlet valve of the laser cutting waste collecting box for lithium battery pole pieces according to the present invention in the embodiment when closed and opened, respectively;

FIG. 5 is a schematic view of the working structure of the laser scrap cutting collecting box for lithium battery pole pieces of the present invention, wherein the compressing cavity I and the compressing cavity II continuously and uninterruptedly perform an alternate cycle during working;

the attached drawings are marked as follows: 1-box body, 10-compression chamber, 100-inlet, 101-compression chamber I, 102-compression chamber II, 103-outlet, 104-dust suction port, 11-compression waste collection chamber, 2-horizontal compression plate, 3-vertical compression plate, 4-horizontal screw rod, 5-vertical screw rod, 6-outlet valve, 7-moving assembly, 71-moving power part, 72-guide part, 8-receiving hopper and 9-receiving container.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the following specific embodiments and accompanying drawings, but the scope of protection and the implementation of the present invention are not limited thereto. Furthermore, it should be noted that, for the convenience of description of the technical solutions of the present invention, the present invention adopts the terms of "upper", "lower", "left", "right", "i", "ii", etc., and it should be understood that the directions or sequence relationships indicated by these terms are based on the directions or position relationships shown in the drawings, or the directions or position relationships that the products of the present invention are usually placed when used, or only used for distinguishing the description, and only for convenience of description of the present invention and simplification of description, but not for indication or suggestion that the indicated structure must have a specific direction or sequence, and therefore, the present invention should not be interpreted as limiting the present invention, and the present invention should not be interpreted as indicating or implying relative importance.

Referring to fig. 1-3, the utility model discloses a scrap collecting box is cut to lithium battery pole piece laser, including box 1. Wherein, a compression chamber 10 is arranged on the box body 1. Specifically, in one embodiment, the compression chamber 10 is disposed at the upper portion of the box body 1, and the lower portion of the box body 1 is a hollow compression waste collection chamber 11; the box body 1 is provided with a split door corresponding to the compression waste collection chamber 11, or the compression waste collection chamber 11 is of an overhead structure, so that the compression waste can be conveniently taken out.

An inlet 100 is formed at the top of the compression chamber 10, and specifically, the inlet 100 is formed at the middle position of the compression chamber 10. The waste material produced by the laser cutter cutting will fall directly from the inlet 100 into the compression chamber 10 and thus be compressed.

A horizontal compression plate 2 is arranged in the compression chamber 10; wherein the compression surface of the horizontal compression plate 2 is vertical to the horizontal plane. And, the horizontal compression plate 2 is horizontally movable in the compression chamber. Specifically, in an alternative embodiment, the horizontal compression plate 2 is movably disposed in the compression chamber 10 through a horizontal screw 4, and the horizontal compression plate 2 can be driven to move in the horizontal direction by driving the horizontal screw 4 through power. When the collecting box is used for collecting waste materials, the waste materials falling from the inlet 100 into the compression chamber 10 are stacked and compressed to two sides of the compression chamber 10 under the pushing and compressing action of the horizontal compression plate 2.

Therefore, the compression chamber 10 is divided by the horizontal compression plate 2 to form a plurality of compression chambers, and in an alternative embodiment, the compression chambers include a compression chamber i 101 and a compression chamber ii 102 which are divided to form a left-right distribution, and the compression chambers i 101 and ii 102 are chambers with variable volumes because the horizontal compression plate 2 is movable in the horizontal direction. Moreover, vertical compression plates 3 are arranged on one sides, far away from the inlet 100, of the compression cavity I101 and the compression cavity II 102, namely the vertical compression plates 3 are arranged in the compression cavity I101 and the compression cavity II 102, and the vertical compression plates 3 are positioned at the upper top parts of the left side and the right side, close to the edge, of the compression chamber 10. During the operation of compressing the waste material, the vertical compression plate 3 can move downwards to compress the waste material for forming, and can move upwards to return to the original position after the compression is finished.

And, the compression surface of the vertical compression plate 3 is parallel to the horizontal plane. The vertical compression plate 3 can move up and down along the vertical direction, specifically, the vertical compression plate 3 is movably arranged in the compression chamber 10 through the vertical screw rod 5, and the vertical compression plate 3 can be driven to move up and down along the vertical direction through the power-driven vertical screw rod 5.

When carrying out the during operation, drop to the waste material in the compression chamber 10 from import 100, promote to pile up the compression back to the both sides of compression chamber 10 at the horizontal migration of horizontal compression board 2, the vertical compression board of rethread 3 compresses downwards, can further compress into the lump with the waste material, reduces the volume of waste material and is convenient for the collection of waste material, transportation.

In a specific embodiment, the width of the vertical compression plate 3 is less than half the width of the compression chamber 10. So, can ensure to drop to the waste material in the compression chamber 10 from import 100, the homoenergetic is shunted by the horizontal migration of horizontal compression board 2 and is promoted to the both sides of compression chamber 10 and pile up the compression, then carries out further compression molding by vertical compression board 3 again, guarantees that vertical compression board 3 in I101 of compression chamber and II 102 of compression chamber can carry out independent compression work completely alone, and does not receive the influence of import 100 feeding, thereby realize that I101 of compression chamber and II 102 of compression chamber can be continuous incessant alternately circulation compression work.

The outlets 103 are formed in the bottoms of the compression cavity I101 and the compression cavity II 102, waste blocks which are formed by compression in the compression cavity I101 and the compression cavity II 102 are discharged through the respective outlets 103. And the opening width of the outlet 103 is larger than or equal to the width of the vertical compression plate 3, so that the compression-molded material block can be smoothly discharged from the outlet 103.

Moreover, an outlet valve 6 is arranged at the outlet 103; the outlet valve 6 is provided at the outlet 103 to be openable and closable. When the waste material is compressed, the outlet valve 6 can be closed, so that the waste material is prevented from leaking; and the outlet valve 6 corresponds to the vertical compression plate 3, and can be matched with the vertical compression plate 3 to assist waste material compression during compression operation. When the compression of the waste is finished and the waste is discharged, the outlet valve 6 is opened to discharge the compressed waste.

Export 103 is seted up respectively to the bottom in compression chamber I101 and compression chamber II 102, and all is provided with outlet valve 6 on the export 103, and export 103 and outlet valve 106 on compression chamber I101 and the compression chamber II 102 are independent each other, and mutual noninterference ensures that continuous incessant alternate cycle compression work can be realized to compression chamber I101 and compression chamber II 102.

Specifically, referring to fig. 4a and 4b, in a preferred embodiment, the outlet valve 6 is disposed at the outlet 103 to be opened and closed by a moving assembly 7.

The moving assembly 7 includes a moving power member 71 and a guide member 72, specifically, in an alternative embodiment, the moving power member 71 is an air cylinder or an oil cylinder, and the guide member 71 is a guide rail. The outlet valve 6 is slidably disposed on the guide member 72, the power output end of the movable power member 71 is in transmission connection with the outlet valve 6, and the guide length direction of the guide member 72 is the same as the moving direction of the outlet valve 6. In operation, the outlet valve 6 is driven by the moving power part 71 to move back and forth on the guide part 72, so that the outlet valve 6 is opened or closed on the outlet 103.

In another preferred embodiment, a receiving hopper 8 is arranged below the outlet 103, when the compressed material block is output, the material is received at a discharge port of the receiving hopper 8, and the compressed material block can be conveniently collected in a concentrated manner through the receiving hopper 8, so that the material block is prevented from scattering. In an optional embodiment, the material receiving hopper 8 and the outlet 103 are eccentrically arranged, a compressed material block discharged from the outlet 103 slides down to the discharge port of the material receiving hopper 8 along the inclined plane of the material receiving hopper 8, so that concentrated discharge of the compressed material block is facilitated, and the material block can be effectively prevented from blocking the discharge port of the material receiving hopper 8.

In another preferred embodiment, the inlet 100 is further provided with a dust suction port 104, which can be connected with a dust suction machine for performing dust suction treatment on the waste material entering the compression chamber, so as to prevent the compression chamber 10 from depositing excessive dust to affect the working efficiency of the collecting box and the service life of the parts.

In addition, in another preferred embodiment, the bottom of the box body 1 is also provided with universal wheels, so that the position of the whole collecting box can be conveniently and quickly moved and converted according to needs, and the application flexibility is high.

Adopt the utility model discloses a collecting box carries out laser and cuts garbage collection during operation, see that fig. 5 shows. And material receiving containers 9 are placed on material receiving hoppers 8 corresponding to outlets of the compression cavities I101 and II 102 in the compression waste collection chamber 11. Firstly, driving the horizontal compression plate 2 to move rightwards, pushing the waste falling from the inlet 100 rightwards and stacking and compressing the waste in the compression cavity II 102 on the right side of the compression chamber 10, driving the vertical compression plate 3 on the compression cavity II 102 to move downwards, further compressing and molding the compressed waste stacked in the compression cavity II 102, then opening the outlet valve 6 at the outlet 103 of the compression cavity II 102, discharging the compressed waste in the compression cavity II 102, and leading the waste into the corresponding material receiving container 9 through the material receiving hopper 8 below the compression cavity II 102. Then, the waste material that import 100 dropped reaches when predetermineeing the compression volume, drive horizontal compression board 2 moves left, the waste material that will drop from import 100 promotes left and piles up the compression behind I101 in the left compression chamber of compression chamber 10, vertical compression board 3 downstream on the I101 in drive compression chamber, to piling up the waste material further compression moulding of compression in the I101 in the compression chamber, then open the outlet valve 6 of the export 103 department of I101 in the compression chamber, emit the compression waste material in the I101 in the compression chamber, and by the leading-in to the material receiving container 9 that corresponds of material receiving hopper 8 of the I101 below in compression chamber. In this process, the laser cutter lasts the work, import 100 lasts the income waste material that drops, horizontal compression board 2 divides the waste material that drops to flow into compression chamber I101 and compression chamber II 102 in compress the shaping, so, continuous incessant alternate circulation compression work can be realized to compression chamber I101 and compression chamber II 102, and the bottom in two compression chambers all is provided with export 103 and compresses the ejection of compact of material, thereby whole garbage collection box can realize continuous incessant pressure material and the ejection of compact, and then can realize the not shut down garbage collection of laser cutter and handle, be favorable to the not shut down operation in succession of laser cutter, improve lithium-ion battery pole piece's production efficiency.

The above embodiments are merely preferred embodiments of the present invention, and it is only to the technical solution of the present invention to be further described in detail, the protection scope and the implementation manner of the present invention are not limited thereto, and any changes, combinations, deletions, replacements or modifications made under the spirit and principle of the present invention will be included in the protection scope of the present invention.

Claims (8)

1. A waste collecting box for laser cutting of lithium battery pole pieces is characterized by comprising a box body (1); a compression chamber (10) is arranged on the box body (1); the top of the compression chamber (10) is provided with an inlet (100);

a horizontal compression plate (2) is arranged in the compression chamber (10); the horizontal compression plate (2) can move horizontally in the compression chamber;

the compression chamber (10) is internally divided by the horizontal compression plate (2) to form a plurality of compression cavities, including a compression cavity I (101) and a compression cavity II (102); vertical compression plates (3) are arranged on one sides, far away from the inlet (100), in the compression cavity I (101) and the compression cavity II (102); the vertical compression plate (3) can move up and down along the vertical direction;

and outlets (103) are formed in the bottoms of the compression cavity I (101) and the compression cavity II (102).

2. The laser scrap cutting collection box for lithium battery pole pieces according to claim 1, wherein a dust suction port (104) is further communicated with the inlet (100).

3. The laser scrap collecting box for lithium battery pole pieces according to claim 1, characterized in that the horizontal compression plate (2) and the vertical compression plate (3) are movably arranged in the compression chamber (10) through a horizontal screw (4) and a vertical screw (5), respectively.

4. The laser scrap cutting collection box for lithium battery pole pieces according to claim 1, characterized in that the compression surface of the horizontal compression plate (2) is perpendicular to the horizontal plane; the compression surface of the vertical compression plate (3) is parallel to the horizontal plane.

5. The laser scrap collecting box for lithium battery pole pieces according to claim 1, characterized in that the compression chamber (10) is arranged at the upper part of the box body (1); the lower part of the box body (1) is a hollow compressed waste collecting chamber (11).

6. The laser scrap collecting box for lithium battery pole pieces according to claim 1, wherein an outlet valve (6) is arranged at the outlet (103); the outlet valve (6) is arranged at the outlet (103) in an openable and closable manner.

7. The laser scrap collecting box for lithium battery pole pieces according to claim 6, characterized in that the outlet valve (6) is openably and closably arranged at the outlet (103) by a moving assembly (7);

the moving assembly (7) comprises a moving power part (71) and a guide part (72); the outlet valve (6) is slidably arranged on the guide piece (72); and the power output end of the movable power part (71) is in transmission connection with the outlet valve (6).

8. The laser cutting waste collection box for the lithium battery pole pieces as claimed in any one of claims 1 to 7, wherein a receiving hopper (8) is arranged below the outlet (103).

Images