CN115056522A

CN115056522A - Battery electrode garbage collection equipment

Info

Publication number: CN115056522A
Application number: CN202210647012.8A
Authority: CN
Inventors: 阮育煌; 陈洵凛; 李海燕
Original assignee: Dongguan Huile Technology Co ltd
Current assignee: Dongguan Huile Technology Co ltd
Priority date: 2022-06-09
Filing date: 2022-06-09
Publication date: 2022-09-16

Abstract

The invention discloses a battery electrode waste collecting device which comprises a material collecting box, wherein the material collecting box is provided with a material collecting cavity, a material inlet communicated with the material collecting cavity and a material outlet communicated with the material collecting cavity, a multi-stage pushing device is arranged in the material collecting cavity, a self-locking device is arranged at the material outlet, the multi-stage pushing device is provided with a first driving source, a multi-stage telescopic sleeve and a pushing plate, the pushing plate is connected to the end part of the multi-stage telescopic sleeve through a pushing rod, the self-locking device is provided with a self-locking baffle which is movably arranged, the self-locking baffle is used for sealing or opening the material outlet, and the first driving source controls the telescopic state of the multi-stage telescopic sleeve to drive the pushing plate to press materials or push materials. The invention adjusts different braking distances of the pushing plate by controlling different grades of telescopic states of the multi-stage telescopic sleeves, thereby achieving the aim of integrating the material pressing and pushing of the pushing plate, improving the throughput and the space utilization rate of the material receiving box and optimizing the automation degree of a production line.

Description

Battery electrode waste material collecting device

Technical Field

The invention relates to the technical field of lithium battery industry, in particular to a battery electrode waste collecting device.

Background

In a production line of a lithium battery, foil tabs on two sides of a lithium battery electrode are generally cut off before a rolling process; what adopt usually among the traditional art is that the mode that forms the negative pressure in the collecting box is collected the waste material, but because the collecting box space is limited, these strip corner waste materials quality is light and bulky attitude, easily occupy the space, make the collecting box will be piled up in the short time, operating personnel must frequently clear up the collecting box, operating personnel's intensity of labour has not only been increased, work efficiency is reduced, and also stop production operation because of frequent clearance operation, process production efficiency has been reduced, production cycle and cost have been increased, seriously restrict lithium electricity technology, it is one of the urgent problem of solution to become the development of lithium electricity trade.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the battery electrode waste collecting equipment, wherein different braking distances of the pushing plate are adjusted by controlling different levels of telescopic states of the multi-stage telescopic sleeves, so that the aim of integrating pushing and pushing of the pushing plate is fulfilled, the throughput and the space utilization rate of a material collecting box can be improved, and the automation degree of a production line is optimized.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a battery electrode garbage collection equipment, it is including receiving the workbin, receive the workbin have one receive the material chamber, with receive the feed inlet of material chamber intercommunication and with receive the discharge gate of material chamber intercommunication, receive the material intracavity and be provided with multistage pusher, discharge gate department is equipped with self-lock device, multistage pusher is provided with first driving source, multistage telescope tube and bulldoze the board, bulldoze the board via bulldozing the pole and connecting in multistage telescope tube's tip, self-lock device disposes the auto-lock baffle of activity setting, auto-lock baffle is used for sealing or opening the discharge gate, the telescopic state of first driving source control multistage telescope tube pushes away the board with the drive and presses the material or push away the material, when auto-lock baffle seals the discharge gate, bulldoze the board compression and fall into the waste material of receiving the material intracavity, when the discharge gate is opened to the auto-lock baffle, bulldoze the waste material that the board will fall into and receive the material intracavity and release from the discharge gate.

In a further technical scheme, the multistage telescopic sleeve is provided with telescopic states of multiple levels, the telescopic states of the multiple levels of the multistage telescopic sleeve correspond to different braking distances of the pushing plate, and the braking distances of the pushing plate at the levels apply different pressure levels to the material receiving cavity.

In a further technical scheme, the first driving source comprises a driving motor fixedly installed on the material receiving box and a lead screw nut mechanism in transmission connection with the driving motor.

In a further technical scheme, the multistage telescopic sleeve is provided with a base sleeve and a plurality of auxiliary sleeves with gradually reduced radiuses and sequentially sleeved in the base sleeve in a stacking manner, the base sleeve is fixedly connected to a nut of the screw-nut mechanism, and a clamping ring which is in running fit with a screw of the screw-nut mechanism is arranged at the end part of each auxiliary sleeve.

In a further technical scheme, a plurality of outer inserting grooves which are arranged around the central axis of the cylinder body are formed on the outer walls of the basic sleeve and each auxiliary sleeve, and outer inserting strips are fixedly arranged in each outer inserting groove; the inner wall molding of basic sleeve and each auxiliary sleeve has a plurality of to surround the interior slot of the central axis setting of barrel, and the vice sleeve of pivoted is spacing cooperation with the interior slot of the vice sleeve of last level via outer cutting.

In a further technical scheme, the self-locking device is provided with a second driving source for driving the self-locking baffle to ascend and descend, the second driving source comprises two lifting cylinders respectively arranged on the left side and the right side of the discharge port, one lifting cylinder is in driving connection with one side of the self-locking baffle, and the self-locking baffle ascends and descends enables the discharge port to be relatively closed or opened.

In a further technical scheme, the position department detachably that the receipts workbin corresponds the feed inlet installs the sword that cuts that is used for cutting the waste material, cuts the tangent plane that the sword has a relative feed inlet slope to set up, the feed inlet is connected with and is used for leading the receipts hopper into the feed inlet with the waste material.

In a further technical scheme, a plurality of reinforcing ribs which are arranged in a transversely and longitudinally staggered mode are formed on the self-locking baffle.

In a further technical scheme, a pressure sensor is installed on the self-locking baffle and used for detecting the pressure applied to the self-locking baffle or the air pressure of the material receiving cavity.

In the further technical scheme, receive the workbin and control two inside walls and install the guide rail, each corner difference fixed mounting that bulldozes the board has a guide bar that transversely extends the setting, and each guide bar wears to be equipped with the guide block, lies in to be equipped with a direction riser with fixed between two last guide blocks of one side, and the slider with guide rail sliding fit is installed to the direction riser.

After adopting the structure, compared with the prior art, the invention has the advantages that:

the pushing plate is ingeniously driven to move by adopting a multi-stage telescopic structure, different braking distances of the pushing plate are adjusted by controlling different levels of telescopic states of the multi-stage telescopic sleeves, so that the aim of integrating pressing and pushing of the pushing plate is fulfilled, the pushing plate compresses waste materials in the material receiving cavity, the throughput and the space utilization rate of the material receiving box can be improved, and when the waste materials in the material receiving cavity are accumulated to a certain degree, the pushing device can automatically push the waste materials out of the material receiving cavity to replace a traditional manual cleaning mode, the automation degree of a production line is greatly optimized, and the pushing device is high in practicability; in addition, the structural design that push plate and auto-lock baffle symmetry cooperation were used is ingenious, is convenient for receive the material chamber and closes the pressure material and open the ejection of compact, and the user can the fast switch over equipment's of demand two kinds of states, simplifies the structure of equipment, reduces the manufacturing cost of equipment.

Drawings

The invention is further illustrated by the following examples in conjunction with the drawings.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of the multi-stage pushing device and the self-locking device;

FIG. 4 is a schematic view of the construction of the multistage pushing apparatus;

FIG. 5 is a schematic structural view of a multi-stage telescoping sleeve;

FIG. 6 is a schematic view of the structure of the lead screw nut mechanism and the snap ring;

fig. 7 is a partial installation schematic of a multi-stage telescoping sleeve and lead screw nut mechanism.

Detailed Description

The following are merely preferred embodiments of the present invention, and do not limit the scope of the present invention.

As shown in fig. 1 to 7, the invention provides a battery electrode waste collecting device, which comprises a collecting box 2, wherein the collecting box 2 has a collecting cavity 20, a feeding hole 21 communicated with the collecting cavity 20, and a discharging hole communicated with the collecting cavity 20, a multi-stage pushing device 3 is arranged in the collecting cavity 20, a self-locking device 4 is arranged at the discharging hole, the multi-stage pushing device 3 is provided with a first driving source 32, a multi-stage telescopic sleeve 30 and a pushing plate 31, the pushing plate 31 is connected to the end part of the multi-stage telescopic sleeve 30 through a pushing rod, the self-locking device 4 is provided with a movably arranged self-locking baffle 40, the self-locking baffle 40 is used for closing or opening the discharging hole, the first driving source 32 controls the telescopic state of the multi-stage telescopic sleeve 30 to drive the pushing plate 31 to press or push materials, when the discharging hole is closed by the self-locking baffle 40, the pushing plate 31 compresses waste falling into the collecting cavity 20, when the discharging hole is opened by the self-locking baffle 40, the pushing plate 31 pushes the waste dropped into the receiving chamber 20 out of the discharge port. The multi-stage telescopic structure is ingeniously adopted to drive the pushing plate 31 to move, different braking distances of the pushing plate 31 are adjusted by controlling different levels of telescopic states of the multi-stage telescopic sleeves 30, so that the aim of integrating pressing and pushing of the pushing plate 31 is fulfilled, the pushing plate 31 compresses waste materials in the material receiving cavity, the throughput and the space utilization rate of the material receiving box 2 can be improved, when the waste materials in the material receiving cavity are accumulated to a certain degree, the pushing device 3 can automatically push the waste materials out of the material receiving cavity, the traditional manual cleaning mode is replaced, the automation degree of a production line is optimized to a great extent, and the practicability is high; in addition, the structural design that push plate 34 and self-locking baffle 40 symmetry cooperation were used is ingenious, is convenient for receive the material chamber and closes the pressure material and open the ejection of compact, and the user can the rapid switch over equipment's of demand two kinds of states, simplifies the structure of equipment, reduces the manufacturing cost of equipment.

Specifically, the multi-stage telescopic sleeve 30 has a plurality of stages of telescopic states, the telescopic states of the multi-stage telescopic sleeve 30 at the respective stages correspond to different braking distances of the pushing plate 31, and the braking distances of the pushing plate 31 at the respective stages apply different pressure levels to the material receiving chamber 20.

Specifically, the first driving source 32 includes a driving motor 320 fixedly installed on the material receiving box 2 and a screw nut mechanism in transmission connection with the driving motor 320, and the sleeves extend and retract in a screw transmission manner, so that the pushing ratio can be increased, and the waste pushing period can be shortened.

As shown in fig. 5-7, the multi-stage telescopic sleeve 30 has a base sleeve 300 and a plurality of sub-sleeves 301 with gradually decreasing radius and sequentially overlapped in the base sleeve 300, the base sleeve 300 is fixedly connected to a nut 322 of a lead screw-nut mechanism, a snap ring 323 rotatably engaged with a lead screw 321 of the lead screw-nut mechanism is installed at an end of each sub-sleeve 301, the rotating lead screw 321 drives the base sleeve 300 to slide via the nut 322, and the rotating lead screw 321 drives each sub-sleeve 301 to rotate via the snap ring 323.

More specifically, a plurality of outer slots 3000 arranged around the central axis of the barrel are formed on the outer walls of the base sleeve 300 and each auxiliary sleeve 301, and an outer inserting strip 3001 is fixedly arranged in each outer slot 3000; the inner wall shaping of basic sleeve 300 and each auxiliary sleeve 301 has a plurality of interior inserting groove 3002 around the central axis setting of barrel, and pivoted auxiliary sleeve 301 is through outer insertion strip 3001 and the spacing cooperation of interior inserting groove 3002 of the auxiliary sleeve 301 of last level, and its structural design is ingenious, and the practicality is high.

More specifically, self-lock device 4 is equipped with the second driving source of drive auto-lock baffle 40 oscilaltion, and the second driving source is including locating two lift cylinders 41 of discharge gate left and right sides respectively, and a lift cylinder 41 drive is connected in one side of auto-lock baffle 40, and auto-lock baffle 40 of oscilaltion makes the discharge gate seal relatively or open. Of course, in other embodiments, the second driving source may also adopt a link swing arm mechanism, and the self-locking baffle 40 is driven by the link swing arm mechanism to turn over, so as to realize the relative closing or opening of the discharge port.

Specifically, the position of the material receiving box 2 corresponding to the material inlet 21 is detachably provided with a cutting knife 22 for cutting waste materials, the cutting knife 22 has a cutting surface inclined relative to the material inlet 21, and the material inlet 21 is connected with a material receiving hopper for guiding the waste materials into the material inlet 21.

Specifically, the self-locking baffle 40 is formed with a plurality of reinforcing ribs 400 arranged in a transversely and longitudinally staggered manner, and the structural design ensures that the self-locking baffle 40 can stably seal the feed inlet 21, so that the pushing plate 31 can continuously pressurize the material receiving cavity 20 during material pressing.

Specifically, the self-locking baffle 40 is provided with a pressure sensor 42, and the pressure sensor 42 is used for detecting the pressure applied to the self-locking baffle 40 or detecting the air pressure of the material receiving cavity 20; in practical applications, the pressing drive motor 30 receives data information from the pressure sensor 42 and controls the movement distance of the pressing plate 34.

Specifically, receive two inside walls on the left and right sides of workbin 2 and install guide rail 23, each corner of bulldozing board 31 respectively fixed mounting have a guide bar 33 that transversely extends the setting, each guide bar 33 wears to be equipped with guide block 34, is located to be fixed between two last guide blocks 34 with one side and is equipped with a direction riser 35, and direction riser 35 is installed with guide rail 23 sliding fit's slider 36, ensures bulldozing board 31 and slides steadily through the mating reaction that sets up between guide bar 33, direction riser 35, slider 36 and the guide rail 23.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims

1. A battery electrode waste collection device characterized by: comprises a material receiving box (2), the material receiving box (2) is provided with a material receiving cavity (20), a material inlet (21) communicated with the material receiving cavity (20) and a material outlet communicated with the material receiving cavity (20), a multi-stage pushing device (3) is arranged in the material receiving cavity (20), a self-locking device (4) is arranged at the material outlet, the multi-stage pushing device (3) is provided with a first driving source (32), a multi-stage telescopic sleeve (30) and a pushing plate (31), the pushing plate (31) is connected to the end part of the multi-stage telescopic sleeve (30) through a pushing rod, the self-locking device (4) is provided with a movably arranged self-locking baffle (40), the self-locking baffle (40) is used for sealing or opening the material outlet, the first driving source (32) controls the telescopic state of the multi-stage telescopic sleeve (30) to drive the pushing plate (31) to push or push the material, when the self-locking baffle (40) seals the material outlet, the pushing plate (31) compresses the waste material falling into the material receiving cavity (20), when the self-locking baffle (40) opens the discharge hole, the pushing plate (31) pushes the waste material falling into the material receiving cavity (20) out of the discharge hole.

2. The battery electrode scrap collecting apparatus according to claim 1, wherein: the multi-stage telescopic sleeve (30) has a plurality of levels of telescopic states, the telescopic states of the multi-stage telescopic sleeve (30) at all levels correspond to different braking distances of the push plate (31), and the braking distances of the push plate (31) at all levels apply different pressure levels to the material receiving cavity (20).

3. The battery electrode scrap collecting apparatus according to claim 1, wherein: the first driving source (32) comprises a driving motor (320) fixedly arranged on the material receiving box (2) and a lead screw and nut mechanism in transmission connection with the driving motor (320).

4. The battery electrode scrap collecting apparatus according to claim 3, wherein: the multi-stage telescopic sleeve (30) is provided with a base sleeve (300) and a plurality of auxiliary sleeves (301) of which the radiuses are gradually reduced and which are sequentially sleeved in the base sleeve (300), the base sleeve (300) is fixedly connected with a nut (322) of the screw-nut mechanism, and a clamping ring (323) which is in running fit with a screw (321) of the screw-nut mechanism is arranged at the end part of each auxiliary sleeve (301).

5. The battery electrode scrap collecting apparatus according to claim 4, wherein: a plurality of outer inserting grooves (3000) arranged around the central axis of the cylinder body are formed in the outer walls of the basic sleeve (300) and each auxiliary sleeve (301), and outer inserting strips (3001) are fixedly arranged in each outer inserting groove (3000); the inner wall shaping of basic sleeve (300) and each auxiliary sleeve (301) has a plurality of interior slot (3002) that set up around the central axis of barrel, and the auxiliary sleeve (301) of pivoted is via outer cutting (3001) with the interior slot (3002) spacing fit of last level auxiliary sleeve (301).

6. The battery electrode waste collection device of claim 1, wherein: the self-locking device (4) is provided with a second driving source for driving the self-locking baffle (40) to ascend and descend, the second driving source comprises two lifting cylinders (41) respectively arranged on the left side and the right side of the discharge port, one lifting cylinder (41) is in driving connection with one side of the self-locking baffle (40), and the self-locking baffle (40) ascends and descends enables the discharge port to be relatively closed or opened.

7. The battery electrode scrap collecting apparatus according to claim 1, wherein: the position of the material receiving box (2) or the position of the pushing plate (31) corresponding to the feed port (21) is detachably provided with a cutting knife (22) for cutting waste materials, and the cutting knife (22) is provided with a tangent plane which is obliquely arranged relative to the feed port (21).

8. The battery electrode scrap collecting apparatus according to claim 1, wherein: the self-locking baffle (40) is provided with a plurality of reinforcing ribs (400) which are arranged in a staggered mode in the transverse and longitudinal directions.

9. The battery electrode scrap collecting apparatus according to claim 1, wherein: and the self-locking baffle (40) is provided with a pressure sensor (42), and the pressure sensor (42) is used for detecting the pressure applied to the self-locking baffle (40) or the air pressure of the receiving cavity (20).

10. The battery electrode scrap collecting apparatus according to claim 1, wherein: receive workbin (2) and control two inside walls and install guide rail (23), each corner difference fixed mounting that bulldozes board (31) has a guide bar (33) that transversely extends the setting, and guide block (34) are worn to be equipped with in each guide bar (33), lie in to fix between last two guide block (34) with one side and be equipped with a direction riser (35), and slider (36) with guide rail (23) sliding fit have been installed in direction riser (35).