CN210052813U - Automatic shell entering equipment for lithium battery production - Google Patents

Abstract

The utility model discloses an automatic shell entering device for lithium battery production, which comprises a working platform, wherein a first arc-shaped groove and a second arc-shaped groove are arranged on the working platform, a first material pushing cylinder is arranged on one side of the first arc-shaped groove, a second material pushing cylinder is arranged on one side of the second arc-shaped groove, the first material pushing cylinder can move a shell positioned on the first arc-shaped groove to a shell entering station, and the second material pushing cylinder can push an electric core positioned on the second arc-shaped groove into the shell to automatically enter the shell; the shell entering equipment further comprises a discharging mechanism, the discharging mechanism comprises a driving device and a grabbing assembly, and after the shell entering processing is completed, the driving device grabs the shell containing the battery cell through the grabbing assembly and can move the shell to a discharging station to perform automatic discharging.

Description

Automatic shell entering equipment for lithium battery production

Technical Field

The utility model relates to a lithium cell production technical field especially relates to an automation of lithium cell production usefulness is gone into shell equipment.

Background

Lithium batteries are a type of battery using a nonaqueous electrolyte solution with lithium metal or a lithium alloy as a negative electrode material. In the processing and production process of the lithium battery, the cell is placed into the shell, namely the cell is placed into the shell of the lithium battery. To the lithium electricity income shell process, many producers still put into the shell through the manual work at present with electric core, need consume a large amount of manpowers, and some current income shell equipment do not have the function of automatic unloading, generally need the manual work to take out from equipment with the shell that contains electric core.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses an automatic income shell equipment of lithium cell production usefulness can place electric core in the shell automatically to can carry out automatic unloading.

The utility model discloses an automatic shell-entering device for lithium battery production, which comprises a working platform, wherein a first arc-shaped groove and a second arc-shaped groove are arranged on the working platform, a first material-pushing cylinder is arranged on one side of the first arc-shaped groove and can push a shell in the first arc-shaped groove to a shell-entering station, a second material-pushing cylinder is arranged on one side of the second arc-shaped groove and is arranged opposite to the first material-pushing cylinder, and the second material-pushing cylinder can push an electric core in the second arc-shaped groove into the shell positioned in the shell-entering station, the shell-entering station is positioned at one end position of the first arc-shaped groove close to the second arc-shaped groove, a blanking mechanism is also arranged on the working platform and comprises a driving device and a grabbing component, and the grabbing component is used for grabbing the shell containing the electric core, the driving device can drive the grabbing component to move, and then the shell containing the battery cell and located on the shell entering station is moved to a discharging station.

Further, drive arrangement includes driving motor, lead screw and electronic slip table, driving motor pass through the support with work platform connects, threaded connection has the nut seat on the lead screw, be equipped with the guide rail on the support, the nut seat with guide rail sliding connection, the driving motor accessible the lead screw drives the nut seat removes in vertical direction, the nut seat pass through the connecting piece with electronic slip table is connected, electronic slip table can drive snatch the subassembly and remove in the horizontal direction.

Furthermore, the grabbing component is located above the shell entering station and comprises a bidirectional cylinder, grabbing pieces are respectively arranged on output shafts at two ends of the bidirectional cylinder, and the bidirectional cylinder grabs the shell containing the battery cell through the grabbing pieces.

Furthermore, one side of the working platform is provided with a first feeding groove for placing the shell, the position of the first feeding groove corresponds to that of the first arc-shaped groove, one end, far away from the first arc-shaped groove, of the first feeding groove is provided with a first feeding cylinder, and the first feeding cylinder can drive the shell on the first feeding groove to enter the first arc-shaped groove.

Furthermore, a second feeding groove used for placing the battery cell is arranged on one side of the working platform, the position of the second feeding groove corresponds to that of the second arc-shaped groove, a second feeding cylinder is arranged at one end, far away from the second arc-shaped groove, of the second feeding groove, and the second feeding cylinder drives the battery cell on the second feeding groove to enter the second arc-shaped groove.

Further, the first feeding groove and the second feeding groove are located on the same side of the working platform.

The technical scheme of the utility model, compared with the prior art, beneficial effect is:

the first material pushing cylinder pushes the shell to a shell entering station, and the second material pushing cylinder pushes the battery cell on the second arc-shaped groove to the shell on the shell entering station for automatic shell entering; after the shell entering processing is finished, the first material pushing cylinder and the second material pushing cylinder return respectively, the driving device drives the grabbing component to move, the shell located on the shell entering station is moved to a discharging station through the grabbing component, and automatic discharging is carried out.

Drawings

FIG. 1 is a schematic view of the overall structure of the case-entering device;

FIG. 2 is a side view of the case entering apparatus;

description of the figures

100. A shell entering device; 10. a working platform; 11. a housing; 12. an electric core; 13. a first arc-shaped slot; 131. a shell entering station; 14. a first material pushing cylinder; 15. a second arc-shaped slot; 16. a second material pushing cylinder; 20. a first feeding trough; 21. a first charging cylinder; 211. a first pusher plate; 30. a second feeding chute; 31. a second feeding cylinder; 311. a second pusher plate; 40. a blanking mechanism; 41. a drive device; 411. a support; 412. a drive motor; 413. a screw rod; 4131. a nut seat; 414. a guide rail; 415. an electric sliding table; 42. a grasping assembly; 421. a bidirectional cylinder; 422. grasping the part; 50. and (5) a blanking station.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it should be noted that when one component is considered to be "connected" to another component, it may be directly connected to the other component or intervening components may exist. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It should also be noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; either mechanically or electrically, and may be internal to both elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

It should be further noted that in the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for the convenience of describing the present invention and simplifying the description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 and fig. 2, the utility model discloses an automatic equipment for housing 100 for producing lithium battery can automatically place electric core 12 into housing 11. The shell entering equipment 100 comprises a working platform 10, wherein a first arc-shaped groove 13 and a second arc-shaped groove 15 are arranged on the working platform 10, the first arc-shaped groove 13 and the second arc-shaped groove 15 are arranged in a corresponding mode, the shell 11 is arranged in the first arc-shaped groove 13, the outline of the first arc-shaped groove 13 corresponds to the shell 11, and the second arc-shaped groove 15 is used for placing the battery cell 12. One side of the first arc-shaped groove 13 is provided with a first material pushing cylinder 14, one side of the second arc-shaped groove 15 is provided with a second material pushing cylinder 16, the first material pushing cylinder 14 and the second material pushing cylinder 16 are oppositely arranged and respectively located at two opposite end positions of the working platform 10, the first material pushing cylinder 14 can push the shell 11 located on the first arc-shaped groove 13 to the shell entering station 131, and the second material pushing cylinder 16 can push the battery cell 12 located on the second arc-shaped groove 15 to the shell entering station 131 in the shell 11 for automatic shell entering.

In this embodiment, the shell entering station 131 is located at an end of the first arc-shaped slot 13 close to the second arc-shaped slot 15. The first material pushing cylinder 14 and the second material pushing cylinder 16 are respectively fixed with a material pushing block on their output shafts, and a soft pad is attached to the surface of the material pushing block to avoid damage to the housing 11 or the battery cell 12, and the soft pad may be made of silica gel or rubber material.

One side of work platform 10 is equipped with first silo 20 of going up, the position of first silo 20 of going up with the position of first arc wall 13 is corresponding, first silo 20 of going up with first arc wall 13 communicates each other, a plurality ofly can be placed on the first silo 20 shell 11, first silo 20 of going up keeps away from the one end of first arc wall 13 is provided with first material loading cylinder 21, first material loading cylinder 21 will be located through first scraping wings 211 shell 11 on the first silo 20 of going up pushes into in the first arc wall 13.

A second feeding groove 30 is arranged on one side of the working platform 10, the position of the second feeding groove 30 corresponds to the position of the second arc-shaped groove 15, the second feeding groove 30 is communicated with the second arc-shaped groove 15, a plurality of battery cells 12 can be placed on the second feeding groove 30, a second feeding cylinder 31 is arranged at one end, away from the second arc-shaped groove 15, of the second feeding groove 30, and the battery cells 12 located on the second feeding groove 30 can be pushed into the second arc-shaped groove 15 through a second material pushing plate 311 by the second feeding cylinder 31.

In this embodiment, the first feeding trough 20 and the second feeding trough 30 are located on the same side of the working platform 10.

The shell entering equipment 100 is further provided with a discharging mechanism 40, the discharging mechanism 40 is fixedly connected with the working platform 10, the shell 11 containing the battery cell 12 on the shell entering station 131 can be grabbed to the discharging station 50, and automatic discharging is carried out. The blanking mechanism 40 comprises a driving device 41 and a grabbing assembly 42, the driving device 41 comprises a bracket 411, a driving motor 412, a lead screw 413, a guide rail 414 and an electric sliding table 415, the driving motor 412 is fixedly connected with the working platform 10 through the bracket 411, the lead screw 413 is vertically arranged, the top end of the lead screw 413 is fixedly connected with an output shaft of the driving motor 412, the bottom end of the lead screw 413 is rotatably connected with the working platform 10, a nut seat 4131 is connected onto the lead screw 413 in a threaded manner, the guide rail 414 is fixed onto the bracket 411 and is parallel to the lead screw 413, and the nut seat 4131 is slidably connected with the guide rail 414. The nut seat 4131 is fixedly connected to the electric sliding table 415 through a connecting member, and the driving motor 412 can drive the nut seat 4131 to move in the vertical direction through the lead screw 413, and further drive the electric sliding table 415 to move in the vertical direction through the nut seat 4131. The electric sliding table 415 is fixedly connected with the grabbing component 42, and the electric sliding table 415 can drive the grabbing component 42 to move in the horizontal direction.

The grabbing component 42 is located above the shell entering station 131 and comprises a bidirectional cylinder 421, the bidirectional cylinder 421 is connected with the movable sliding table 415, the output shafts at the two ends of the bidirectional cylinder 421 are respectively provided with grabbing pieces 422, and the bidirectional cylinder 421 grabs the shell entering station 131 and contains the electric core 12, and moves the shell entering station 50 to perform automatic blanking.

The working principle is as follows:

the first feeding cylinder 21 pushes the casing 11 located in the first feeding groove 20 to the first arc-shaped groove 13, the second feeding cylinder 31 pushes the battery cell 12 located in the second feeding groove 30 to the second arc-shaped groove 15, the first pushing cylinder 14 pushes the casing 11 located in the first arc-shaped groove 13 to the casing entering station 131, and the second pushing cylinder 16 pushes the battery cell 12 located in the second arc-shaped groove 15 to the casing 11 located on the casing entering station 131, so that automatic casing entering processing is performed. After the casing processing is completed, the first material pushing cylinder 14 and the second material pushing cylinder 16 return, the driving device 41 drives the bidirectional cylinder 421 to move to a preset position, the bidirectional cylinder 421 captures the casing 11 containing the electric core 12 on the casing entering station 131 through the capturing piece 422, and the driving device 41 moves the casing 11 containing the electric core 12 to the blanking station 50 through the capturing component 42 to perform automatic blanking.

The present invention can be designed in various embodiments and modifications without departing from the spirit and scope of the present invention in its broadest sense, and the above-described embodiments are intended to illustrate the present invention, but not to limit the scope of the present invention.

Claims (6)

1. An automatic shell entering device for lithium battery production comprises a working platform and is characterized in that a first arc-shaped groove and a second arc-shaped groove are arranged on the working platform, a first material pushing cylinder is arranged on one side of the first arc-shaped groove and can push a shell in the first arc-shaped groove to a shell entering station, a second material pushing cylinder is arranged on one side of the second arc-shaped groove and is arranged opposite to the first material pushing cylinder, an electric core in the second arc-shaped groove can be pushed into the shell in the shell entering station by the second material pushing cylinder, the shell entering station is located at one end position of the first arc-shaped groove close to the second arc-shaped groove, a blanking mechanism is further arranged on the working platform and comprises a driving device and a grabbing assembly, and the grabbing assembly is used for grabbing the shell containing the electric core, the driving device can drive the grabbing component to move, and then the shell containing the battery cell and located on the shell entering station is moved to a discharging station.

2. The automatic shell entering device for lithium battery production as claimed in claim 1, wherein the driving device comprises a driving motor, a lead screw and an electric sliding table, the driving motor is connected with the working platform through a support, a nut seat is connected to the lead screw in a threaded manner, a guide rail is arranged on the support, the nut seat is slidably connected with the guide rail, the driving motor can drive the nut seat to move in a vertical direction through the lead screw, the nut seat is connected with the electric sliding table through a connecting piece, and the electric sliding table can drive the grabbing assembly to move in a horizontal direction.

3. The automatic casing entering equipment for the lithium battery production as claimed in claim 2, wherein the gripping assembly is located above the casing entering station and comprises a bidirectional cylinder, gripping members are respectively arranged on output shafts at two ends of the bidirectional cylinder, and the bidirectional cylinder grips the casing containing the battery cell through the gripping members.

4. The automatic casing entering device for the lithium battery production as claimed in claim 3, wherein a first feeding groove for placing the casing is arranged on one side of the working platform, the first feeding groove is positioned corresponding to the first arc-shaped groove, a first feeding cylinder is arranged at one end of the first feeding groove, which is far away from the first arc-shaped groove, and the first feeding cylinder can drive the casing on the first feeding groove to enter the first arc-shaped groove.

5. The automatic casing entering device for lithium battery production of claim 4, wherein a second feeding groove for placing the battery core is arranged on one side of the working platform, the second feeding groove is located corresponding to the second arc-shaped groove, a second feeding cylinder is arranged at one end of the second feeding groove, which is far away from the second arc-shaped groove, and the second feeding cylinder drives the battery core on the second feeding groove to enter the second arc-shaped groove.

6. The automatic case entering device for lithium battery production as claimed in claim 5, wherein the first feeding groove and the second feeding groove are located on the same side of the working platform.

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