CN210236330U - Lithium battery shell collection device - Google Patents

Abstract

The utility model discloses a lithium battery shell collecting device, which comprises a conveying assembly; a blanking channel is arranged on one side of the conveying assembly, a first pushing assembly is arranged on the other side of the conveying assembly, and the first pushing assembly pushes the shell on the conveying assembly into the blanking channel; one side of the blanking channel is provided with a second pushing assembly, the other side of the blanking channel is provided with a lifting assembly, a collecting box is arranged in the lifting assembly, and the lifting assembly drives the collecting box to move up and down; the utility model basically realizes full automation, reduces manual use and improves working stability and continuity; the utility model discloses an use the quantity that photoelectric sensor can the effective control casing, guarantee that casing quantity is unanimous at every turn, reduce the error.

Description

Lithium battery shell collection device

Technical Field

The utility model relates to a lithium cell casing cleaning machine, in particular to lithium cell casing collection device.

Background

Among all energy forms, electric energy is the easiest to use, the cleanest and most environmentally friendly energy with the highest efficiency, a battery is the best device for storing electric energy, among all battery products, a lithium battery is the youngest and most advanced energy product in the world at present with the highest technical gold content and the largest energy density, and the lithium battery has the advantages of wide working stability range, stable discharge voltage, low self-discharge rate, long service life and the like, and is widely applied to various fields, particularly the fields of aerospace, military, long-life instruments and meters, logistics tracking, cycling automobile electronics, mobile digital products and the like.

The lithium battery comprises a battery core and a shell, wherein the shell is formed by winding a steel sheet into a hollow cylinder, and grease adheres to the shell during processing, so that a cleaning machine is required to clean the grease adhered to the shell. The cleaned shell needs to be collected, the existing shell collection is that a shell collection box is placed at a discharge hole, the shell falls into the box body, and after the box body is fully collected, a new shell collection box is replaced. Follow-up still need the workman to take out the arrangement from the casing collecting box with the casing, then just can enter into the process on next step, consequently this application provides the scheme that collection and arrangement of casing go on simultaneously.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a lithium cell casing collection device has the function of collecting simultaneously and arranging the casing.

The technical scheme is as follows: the lithium battery shell collecting device comprises a conveying assembly; a blanking channel is arranged on one side of the conveying assembly, a first pushing assembly is arranged on the other side of the conveying assembly, and the first pushing assembly pushes the shell on the conveying assembly into the blanking channel; one side that the unloading was said is provided with propelling movement subassembly two, and the opposite side that the unloading was said is provided with lifting unit, and lifting unit embeds there is the collection box, and lifting unit drive collection box reciprocates.

Through adopting above-mentioned technical scheme, conveying component transmits the casing to propelling movement component one by one, propelling movement component one is with casing propelling movement on the conveying component to the unloading way in, the casing rolls to propelling movement component two along the unloading way, treat that the casing reaches after the certain quantity, propelling movement component two pushes the casing whole to the collection box in, then the box decline is collected in the lift assembly drive, the height that collects the box decline should be unanimous with the height of casing or slightly be greater than the casing height, repeat above-mentioned action, until collecting the box and collecting full casing, then the casing is collected to the collection box of renewal.

Has the advantages that: the utility model collects and arranges the shells at the same time, thereby saving time and improving work efficiency; the utility model basically realizes full automation, reduces manual use and improves working stability and continuity; the utility model discloses an use the quantity that photoelectric sensor can the effective control casing, guarantee that casing quantity is unanimous at every turn, reduce the error.

Drawings

FIG. 1 is a schematic structural view of a lithium battery case collection device;

fig. 2 is a top view of a lithium battery case collection device.

Detailed Description

As shown in fig. 1 and 2, a lithium battery case collecting device comprises a conveying assembly 1, wherein the conveying assembly 1 comprises left and right support frames 101 which are arranged oppositely, a conveying belt 102 which is arranged between the support frames 101, a driving wheel and a driven wheel 103 which are respectively connected with the conveying belt 102 in a rotating manner, and a motor 104, the motor 104 is fixed at the support frames 101, and the working end of the motor 104 is connected with the driving wheel in a rotating manner through a rotating shaft. The shells fall onto the conveyor belt 102, the conveyor belt 102 transports the shells under the drive of the motor 104, the drive wheels and the driven wheels, and the shells are now placed longitudinally on the conveyor belt 102.

The top ends of the left and right opposite support frames 101 are respectively provided with a baffle 32, an opening is formed in one baffle 32, the opening is communicated with a blanking channel 2, a pushing assembly I3 is arranged at the position of the other baffle 32, one pushing assembly I3 is just opposite to the opening and the blanking channel 2, one pushing assembly I3 comprises a cylinder I31 and baffles 32 hinged to two side walls of the blanking channel 2, one end of a conveying assembly 1 close to the cylinder I31 is provided with a photoelectric sensor II 11, the photoelectric sensor II 11 is just opposite to a conveying belt 102, and the photoelectric sensor II 11 controls the cylinder I31 to work. When the conveying belt 102 conveys the shell to a position close to the second photoelectric sensor 11, the second photoelectric sensor 11 controls the first cylinder 31 to work through an electric signal, the first cylinder 31 extends out of the working end, the shell on the conveying belt 102 is pushed into the blanking channel 2, and the shell rolls transversely from the longitudinal direction; after the shell is pushed out, the second photoelectric sensor 11 is not shielded, the second photoelectric sensor 11 controls the first air cylinder 31 to reset through an electric signal, and the process is repeated.

An opening is formed in one side wall plate of the blanking channel 2, a lifting assembly 5 is arranged at the opening of the blanking channel 2, the lifting assembly 5 comprises a base 51, a motor 52 arranged on the base 51, a screw rod 53 arranged on the working end of the motor 52, a supporting plate 54 rotationally connected with the screw rod 53 and a guide rail 55 arranged on the base 51, and the guide rail 55 is positioned on two sides of the supporting plate 54; a collection cassette (not shown) is placed on the support plate 54 with the edges of the collection cassette slidably engaged with the rails 55. An opening is also formed in one side wall plate of the blanking channel 2, a second pushing assembly 4 is arranged at the opening, the second pushing assembly 4 comprises a second air cylinder 41 and a pushing plate 42 fixedly connected with the working end of the air cylinder, the width of the pushing plate 42 is consistent with that of the opening, the second air cylinder 41 drives the pushing plate 42 to push the shell in the blanking channel 2 into a collecting box on the lifting assembly 5, the second air cylinder 41 resets, when the second air cylinder 41 resets, the motor 52 drives the screw rod 53 to rotate, the screw rod 53 drives the supporting plate 54 and the collecting box on the supporting plate 54 to descend, and the descending height of the screw rod 53 is consistent with the height of the shell or slightly larger than the height of; the above-described operation is repeated.

In order to keep the number of the shells pushed by the push plate 42 to be equal each time, the first photoelectric sensor 10 is arranged above the blanking channel 2, the first photoelectric sensor 10 records the number of the shells passing through each time, when the number of the shells passing through is not less than the number of the shells pushed by the push plate 42, the first photoelectric sensor 10 controls the second air cylinder 41 to drive the push plate 42 to push the shells into the collecting box, then the push plate 42 resets, and the first photoelectric sensor 10 counts again.

In order to keep the shells regularly arranged, a cross bar 9 for keeping the shells move along a straight line is arranged on the blanking channel 2, and the shells roll between the blanking channel 2 and the cross bar 9 so as to keep the shells in a regular arrangement.

When the housing is filled with the cartridge, the cartridge should be taken out from the elevating assembly 5, the guide rail 55 is provided with a notch 8 near the base 51, and the cartridge is taken out from the notch 8, while the base 51 and the guide rail 55 are coupled by the fixing plate 7 in order to maintain the coupling stability between the guide rail 55 and the base 51.

Claims (6)

1. A lithium battery shell collecting device comprises a conveying assembly (1); the automatic feeding device is characterized in that a blanking channel (2) is arranged on one side of a conveying assembly (1), a first pushing assembly (3) is arranged on the other side of the conveying assembly (1), and the first pushing assembly (3) pushes a shell on the conveying assembly (1) into the blanking channel (2); one side of unloading way (2) is provided with propelling movement subassembly two (4), and the opposite side of unloading way (2) is provided with lifting unit (5), and lifting unit (5) embeds there is the collection box, and lifting unit (5) drive is collected the box and is reciprocated.

2. The lithium battery shell collecting device is characterized in that the lifting assembly (5) comprises a base (51), a motor (52) arranged on the base (51), a screw rod (53) arranged on the working end of the motor (52), a supporting plate (54) rotationally connected with the screw rod (53), and guide rails (55) arranged on the base (51), wherein the guide rails (55) are positioned on two sides of the supporting plate (54); the collecting box is placed on a supporting plate (54), and the edge of the collecting box is connected with a guide rail (55) in a sliding mode.

3. The lithium battery housing collecting device according to claim 2, characterized in that the guide rail (55) and the base (51) are connected by a fixing plate (7), and the guide rail (55) near the base (51) is provided with a notch (8) for taking out the collecting box.

4. The lithium battery shell collection device according to claim 1, characterized in that a cross bar (9) for keeping the shell in linear motion is arranged on the blanking channel (2).

5. The lithium battery shell collection device according to claim 4, wherein a first photoelectric sensor (10) for counting is arranged above the blanking channel (2), and the first photoelectric sensor (10) controls the second pushing assembly (4) to work.

6. The lithium battery shell collection device according to claim 1, wherein the first pushing assembly (3) comprises a first air cylinder (31) and a baffle (32) hinged to two side walls of the blanking channel (2), a second photoelectric sensor (11) is arranged at one end of the conveying assembly (1) close to the first air cylinder (31), and the second photoelectric sensor (11) controls the first air cylinder (31) to work.

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