CN212934690U

CN212934690U - Automatic cleaning and disc loading equipment for button cell

Info

Publication number: CN212934690U
Application number: CN202021917292.2U
Authority: CN
Inventors: 李红军; 赵燕强; 杨洪; 刘永成
Original assignee: Dongguan Kelanda Automation Technology Co ltd
Current assignee: Dongguan Kelanda Automation Technology Co ltd
Priority date: 2020-09-05
Filing date: 2020-09-05
Publication date: 2021-04-09
Anticipated expiration: 2030-09-05

Abstract

The utility model provides a button cell automatic cleaning and tray loading device, which comprises a workbench, a feeding mechanism, an ultrasonic cleaning mechanism, a pulling and turning mechanism, a dryer, a transfer conveyor belt assembly, a transfer conveying mechanism, an internal resistance testing mechanism, a blanking conveying mechanism and a tray assembly, wherein the feeding mechanism, the ultrasonic cleaning mechanism, the pulling and turning mechanism, the dryer, the transfer conveyor belt assembly, the transfer conveying mechanism, the internal resistance testing mechanism, the blanking conveying mechanism and the tray assembly are; feed mechanism is the ultrasonic cleaning mechanism feed, draws the good product of washing in the material tilting mechanism with ultrasonic cleaning mechanism to pull out and overturn 180 and arrange toward the transfer conveyor assembly, and the product transports through the transfer conveyor assembly, dries through the drying-machine, carries through transfer transport mechanism to internal resistance accredited testing organization and carries out the internal resistance test after drying, and internal resistance accredited testing organization carries out the cell-phone with the product of testing NG, and unloading accredited testing organization washs the product transport of test OK to the charging tray subassembly on, embodies the utility model discloses can wash the product fully automatization, dry, the internal resistance detects, screens and balance, improve work efficiency, save the labour.

Description

Automatic cleaning and disc loading equipment for button cell

Technical Field

The utility model relates to a button cell processing equipment technical field, in particular to button cell self-cleaning sabot equipment.

Background

In the production and processing process of the lithium secondary button cell, procedures such as cleaning, drying, internal resistance testing and the like are required, qualified products are subjected to tray loading after the testing is finished, and the qualified products are processed by a plurality of semi-automatic processing devices in the prior art, so that labor is wasted, the efficiency is low, and misoperation is easy to occur midway, so that improvement is required.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a button cell self-cleaning carousel equipment mentions the problem in order to solve the background art.

In order to achieve the above object, the present invention provides the following technical solutions:

an automatic cleaning and tray loading device for button cells comprises a workbench, a feeding mechanism, an ultrasonic cleaning mechanism, a pulling and turning mechanism, a dryer, a transfer conveyor belt assembly, a transfer conveying mechanism, an internal resistance testing mechanism, a blanking conveying mechanism and a tray assembly, wherein the feeding mechanism, the ultrasonic cleaning mechanism, the pulling and turning mechanism, the dryer, the transfer conveyor belt assembly, the transfer conveying mechanism, the internal resistance testing mechanism, the blanking conveying mechanism and the tray assembly are arranged;

the feeding mechanism and the material pulling turnover mechanism are arranged on the front side of the ultrasonic cleaning mechanism from right to left; the feeding mechanism comprises a feeding conveyor belt component and a first material pushing device arranged at the left end of the feeding conveyor belt component; the material pulling and turning mechanism comprises a material pulling device and a turning device; the turnover device comprises a material receiving conveyor belt assembly and a guide track; the material pulling device is arranged between the material receiving conveyor belt assembly and the ultrasonic cleaning mechanism; the transfer conveyor belt assembly is arranged below the material receiving conveyor belt assembly; the guide track is connected to the right ends of the material receiving conveyor belt assembly and the transfer conveyor belt assembly;

the dryer is arranged on the left side of the material pulling and overturning mechanism; the middle part of the transfer conveyor belt assembly penetrates through the dryer, and the left end of the transfer conveyor belt assembly extends out of the left side of the dryer;

the transfer conveying mechanism is arranged beside the transfer conveyor belt assembly and conveys products at the right end of the transfer conveyor belt assembly to the internal resistance testing mechanism;

the internal resistance testing mechanism is provided with an NG collecting device for collecting products for testing the internal resistance;

and the blanking conveying mechanism is arranged between the internal resistance testing mechanism and the charging tray assembly and is used for conveying OK products on the internal resistance testing mechanism to the charging tray assembly.

For further description of the present invention, the first pushing device includes a first cylinder and a first pushing block; the first air cylinder is arranged on the front side of the feeding conveyor belt component; the first material pushing block penetrates through the left end of the feeding conveying belt assembly in the front-back direction and is fixed at the power output end of the first air cylinder.

For the further description of the present invention, the material pulling device comprises a mounting plate, a second cylinder and a material pulling block; the mounting plate is arranged at the rear side of the material receiving conveyor belt assembly; a material passing groove is formed in the mounting plate along the front-back direction; the second cylinder is fixed on the mounting plate, and the power output end of the second cylinder is arranged backwards; the pulling block is arranged at the power output end of the second air cylinder; the bottom of the front end of the pulling block is provided with a pushing block; the material pushing block and the material passing groove are located in the same straight line direction.

For further description of the present invention, the internal resistance testing mechanism is disposed behind the transfer handling mechanism; the transfer carrying mechanism comprises a third cylinder, a rotary piece and two adsorption heads; the third cylinder is fixed on the workbench, and the power output end of the third cylinder faces upwards; the rotary cylinder is arranged at the power output end of the third cylinder; the rotating piece is arranged at the power output end of the rotating cylinder; the front side and the rear side of the rotating piece are respectively provided with a long-strip-shaped cantilever; two adsorption heads are respectively arranged at two ends of the cantilever.

For further description of the present invention, the internal resistance testing mechanism further includes a material rack, a second material pushing device and an internal resistance testing device; the material rack is provided with material rails arranged along the left and right directions; the second material pushing device comprises a fourth cylinder and a second material pushing block; the fourth cylinder is arranged on the right side of the material rack; the second material pushing block is arranged at the right end of the material rail and is arranged at the power output end of the fourth air cylinder; the internal resistance testing devices are positioned at the upper side and the lower side of the middle part of the material rail; a through hole which is communicated from front to back is formed in the material rail corresponding to the right side of the internal resistance testing device; the NG collecting device comprises a third material pushing device and an NG material box; the third material pushing device is arranged on the material rack and corresponds to the rear of the through hole; the NG workbin is placed on the workbench and corresponds to the lower portion of the through hole.

Right the utility model discloses a further description, the left end top of material rail has erect and has swept a yard camera.

For further description of the present invention, the blanking and carrying mechanism includes an X-axis driving device, a Y-axis driving device, a Z-axis driving device and an adsorption component; the Y-axis driving device is erected above the workbench; the X-axis driving device is arranged at the power output end of the Y-axis driving device; the Z-axis driving device is arranged at the power output end of the X-axis driving device; the adsorption component is arranged at the power output end of the Z-axis driving device.

For further description of the present invention, the tray assembly includes a rotary driving device and two trays; the rotary driving device is arranged on the workbench; the material tray is symmetrically arranged at the power output end of the rotary driving device from front to back.

The utility model has the advantages that:

the utility model discloses a process processing such as will wash, dry and internal resistance test is automatic integrated for on an equipment, and the product then can accomplish the processing of several processes full-automatically after getting into from feed mechanism, improves production efficiency, reduces the labour loss and reduces the operational error that the equipment of changing appears many times.

Drawings

FIG. 1 is an overall structure of the present invention;

FIG. 2 is a structural diagram of the feeding mechanism of the present invention;

FIG. 3 is a structural diagram of the material pulling and turning mechanism of the present invention;

FIG. 4 is a structural diagram of the transfer mechanism of the present invention;

fig. 5 is a partially enlarged view of a in fig. 1.

Detailed Description

The invention is further explained below with reference to the drawings:

as shown in fig. 1-5, an automatic cleaning and tray loading device for button cell comprises a workbench 1, and a feeding mechanism 2, an ultrasonic cleaning mechanism 3, a material pulling and turning mechanism 4, a dryer 5, a transfer conveyor belt assembly 6, a transfer conveying mechanism 7, an internal resistance testing mechanism 8, a blanking conveying mechanism 9 and a tray 1001 assembly 10 which are mounted on the workbench 1;

the feeding mechanism 2 and the material pulling and overturning mechanism 4 are arranged on the front side of the ultrasonic cleaning mechanism 3 from right to left; the feeding mechanism 2 comprises a feeding conveyer belt assembly 201 and a first material pushing device 202 arranged at the left end of the feeding conveyer belt assembly 201; the material pulling and turning mechanism 4 comprises a material pulling device 401 and a turning device 402; the turnover device 402 comprises a receiving conveyor belt assembly 4021 and a guide rail 4022; the material pulling device 401 is arranged between the material receiving conveying belt assembly 4021 and the ultrasonic cleaning mechanism 3; the transfer conveyer belt assembly 6 is arranged below the receiving conveyer belt assembly 4021; the guide rail 4022 is connected to the right ends of the receiving conveyor belt assembly 4021 and the transfer conveyor belt assembly 6; the feeding conveyor belt assembly 201 is butted with the left processing equipment, products flow in from the right end of the feeding conveyor belt assembly 201, the ultrasonic cleaning mechanism 3 is provided with a feeding position and a discharging position, a plurality of placing jigs are arranged in the ultrasonic cleaning mechanism, the placing jigs of the feeding position and the discharging position are controlled to lift through a lifting device, so that the products are butted, feeding and discharging are carried out simultaneously, and the first material pushing device 202 comprises a first air cylinder 2021 and a first material pushing block 2022; the first cylinder 2021 is installed at the front side of the feeding conveyer belt assembly 201; the first pusher block 2022 penetrates through the left end of the feeding conveyer belt assembly 201 along the front-back direction and is fixed at the power output end of the first cylinder 2021; the material pulling device 401 comprises a mounting plate 4011, a second cylinder 4012 and a material pulling block 4013; the mounting plate 4011 is arranged on the rear side of the material receiving conveying belt assembly 4021; a material passing groove 4011-1 is formed in the mounting plate 4011 along the front-back direction; the second cylinder 4012 is fixed on the mounting plate 4011, and the power output end is arranged backwards; the pulling block 4013 is arranged at the power output end of the second air cylinder 4012; the bottom of the front end of the pulling block 4013 is provided with a top block 4013-1; the top material block 4013-1 and the material passing groove 4011-1 are positioned in the same linear direction; the feeding and pulling actions are as follows: the second cylinder 4012 drives the pulling block 4013 to move backwards, the lifting device controls the placing jig for the material feeding position and the material discharging position to ascend, the first cylinder 2021 drives the first pushing block 2022 to push the product on the feeding conveyer belt assembly 201 into the placing jig for the material feeding position, the second air cylinder 4012 drives the pulling block 4013 to pull out the product in the placing jig on the discharging position to the material passing groove 4011-1, thereby realizing the feeding and discharging of the ultrasonic cleaning mechanism 3, the cleaned product is sent out from the front end to the material receiving and conveying belt component 4021 after passing through the material passing groove 4011-1, the product is controlled to be conveyed to the left by the material receiving conveyor belt assembly 4021, the product enters the guide rail 4022 from the left end of the material receiving conveyor belt assembly 4021 and is discharged from the upper part of the transfer conveyor belt assembly 6 along the guide rail 4022, as the products move along the guide rails 4022, the products are turned 180 ° over on the guide rails 4022 and are output to the transfer conveyor assembly 6.

The dryer 5 is arranged on the left side of the material pulling and overturning mechanism 4; the middle part of the transfer conveyer belt component 6 penetrates through the dryer 5, and the left end of the transfer conveyer belt component extends out of the left side of the dryer 5; the transfer conveyer belt assembly 6 drives the product to be conveyed from right to left, and the product is dried and processed by the dryer 5 in the conveying process.

The transfer conveying mechanism 7 is arranged beside the transfer conveying belt assembly 6 and conveys products at the right end of the transfer conveying belt assembly 6 to the internal resistance testing mechanism 8;

the internal resistance testing mechanism 8 is arranged at the rear side of the transfer conveying mechanism 7; the transfer and conveying mechanism 7 comprises a third air cylinder 701, a rotary air cylinder 702, a rotary piece 703 and two adsorption heads 704; the third cylinder 701 is fixed on the workbench 1, and the power output end faces upwards; the rotary cylinder 702 is arranged at the power output end of the third cylinder 701; the rotating piece 703 is arranged at the power output end of the rotating cylinder 702; the front side and the rear side of the rotating piece 703 are respectively provided with a long-strip-shaped cantilever 7031; the two adsorption heads 704 are respectively arranged at two ends of the cantilever 7031; the left end of the transfer conveyor belt assembly 6 is provided with a positioning device for positioning a product, the positioning device arranged at the end part of the conveyor belt is a conventional means for positioning the product, which is not described here, during conveying, the third cylinder 701 drives the two adsorption heads 704 to descend, the adsorption head 704 at the front side absorbs the product from the transfer conveyor belt assembly 6, the third cylinder 701 resets, the adsorption head 704 rises, the rotary cylinder 702 drives the rotary piece 703 to rotate by 180 degrees, the adsorption head 704 absorbing the product rotates to the internal resistance testing mechanism 8, the third cylinder 701 drives the adsorption head 704 to descend again, the product is placed on the internal resistance testing mechanism 8, the third cylinder 701 resets, a round of conveying is completed, and the two adsorption heads 704 are arranged to be conveyed in turn.

The internal resistance testing mechanism 8 is provided with an NG collecting device 804 for collecting products for testing the internal resistance; the internal resistance testing mechanism 8 further comprises a material rack 801, a second material pushing device 802 and an internal resistance testing device 803; the material rack 801 is provided with material rails 8011 arranged along the left and right directions; the second material pushing device 802 comprises a fourth cylinder 8021 and a second material pushing block 8022; the fourth air cylinder 8021 is arranged on the right side of the material rack 801; the second material pushing block 8022 is arranged at the right end of the material rail 8011 and is installed at the power output end of the fourth air cylinder 8021; the internal resistance testing devices 803 are positioned at the upper side and the lower side of the middle part of the material rail 8011; a through hole 8012 which is through from front to back is formed in the right side of the material rail 8011 corresponding to the internal resistance testing device 803; the NG collecting device 804 comprises a third pushing device 8041 and an NG bin 8042; the third material pushing device 8041 is arranged on the material rack 801 and corresponds to the rear part of the through hole 8012; the NG material box 8042 is placed on the workbench 1 and is arranged below the through hole 8012; the product at the left end of the transit conveyor belt assembly 6 is conveyed to the right end of the material rail 8011 by the transit conveying mechanism 7, the fourth air cylinder 8021 drives the second material pushing block 8022 to push right, the product on the material rail 8011 is pushed left by a material distance, the internal resistance testing device 803 respectively drives the upper probe and the lower probe to contact with the upper end and the lower end of the product at the middle position of the material rail 8011 through the driving device, therefore, the internal resistance of the product is tested, if the detection result is NG, when the NG product is pushed to the position of the through hole 8012, the NG products are pushed out from the material rail 8011 through the third material pushing device 8041, the products are separated from the material rail 8011 from the through hole 8012 and fall into the NG material box 8042 for collection, the OK detection products are pushed to the left end of the material rail 8011, a code scanning camera (not shown) is erected above the left end of the material rail 8011 to perform code scanning detection on the OK detection products, and the product scanning detection is completed and then the blanking conveying mechanism 9 is waited for conveying.

The blanking conveying mechanism 9 is arranged between the internal resistance testing mechanism 8 and the tray 1001 assembly 10 and is used for conveying OK products on the internal resistance testing mechanism 8 to the tray 1001 assembly 10.

The blanking conveying mechanism 9 comprises an X-axis driving device 91, a Y-axis driving device 92, a Z-axis driving device 93 and an adsorption component 94; the Y-axis driving device 92 is erected above the worktable 1; the X-axis driving device 91 is arranged at the power output end of the Y-axis driving device 92; the Z-axis driving device 93 is arranged at the power output end of the X-axis driving device 91; the adsorption assembly 94 is mounted at the power output end of the Z-axis driving device 93.

The tray 1001 assembly 10 includes a rotational drive (not shown) and two trays 1001; the rotary driving device is arranged on the workbench 1; the material trays 1001 are symmetrically arranged at the power output end of the rotary driving device from front to back;

the unloading handling mechanism 9 is through X axle drive 91, Y axle drive 92 and Z axle drive 93 triaxial coordinated control absorption subassembly 94 from the left end absorption product of material rail 8011 and send to the charging tray 1001 of front side, and after the charging tray 1001 of front side was full of material, rotary drive device driven two charging trays 1001 rotatory 180, and another charging tray 1001 continues to feed, and the charging tray 1001 who fills with the material then changes through the manual work.

The working principle of the embodiment is as follows:

products flow in from the right end of the feeding conveying belt assembly 201, the products are conveyed to the position of the left end through the feeding conveying belt assembly 201, the products at the left end of the feeding conveying belt assembly 201 are pushed into the ultrasonic cleaning mechanism 3 through the first material pushing device 202, the products are cleaned through the ultrasonic cleaning mechanism 3 and then are pulled out from the ultrasonic cleaning mechanism 3 through the material pulling device 401 and are discharged to the turnover device 402, the turnover device 402 turns the products 180 degrees and completes the transfer conveying belt assembly 6 side by side, the transfer conveying belt assembly 6 drives the products to be conveyed to the left, the products are dried through the dryer 5 in the conveying process of the transfer conveying belt assembly 6, the dried products are conveyed to the left end of the transfer conveying belt assembly 6 and are positioned through the positioning device, and then the products at the left end of the transfer conveying belt assembly 6 are conveyed to the internal resistance testing mechanism 8 through the transfer conveying mechanism 7, the internal resistance testing mechanism 8 is used for detecting internal resistance of products, the products which detect the internal resistance NG are collected through the NG collecting device 804, and the products which detect OK are conveyed to the charging tray 1001 component 10 through the discharging conveying mechanism 9 after being subjected to code scanning detection through the code scanning camera and collected.

The above description is not intended to limit the technical scope of the present invention, and any modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention are still within the scope of the technical solution of the present invention.

Claims

1. The utility model provides a button cell self-cleaning sabot equipment which characterized in that: the device comprises a workbench, and a feeding mechanism, an ultrasonic cleaning mechanism, a pulling and overturning mechanism, a dryer, a transfer conveyor belt assembly, a transfer conveying mechanism, an internal resistance testing mechanism, a discharging and conveying mechanism and a material tray assembly which are arranged on the workbench;

2. The automatic cleaning and dishing device for button cells as claimed in claim 1, wherein: the first material pushing device comprises a first air cylinder and a first material pushing block; the first air cylinder is arranged on the front side of the feeding conveyor belt component; the first material pushing block penetrates through the left end of the feeding conveying belt assembly in the front-back direction and is fixed at the power output end of the first air cylinder.

3. The automatic cleaning and dishing device for button cells as claimed in claim 1, wherein: the material pulling device comprises an installation plate, a second air cylinder and a material pulling block; the mounting plate is arranged at the rear side of the material receiving conveyor belt assembly; a material passing groove is formed in the mounting plate along the front-back direction; the second cylinder is fixed on the mounting plate, and the power output end of the second cylinder is arranged backwards; the pulling block is arranged at the power output end of the second air cylinder; the bottom of the front end of the pulling block is provided with a pushing block; the material pushing block and the material passing groove are located in the same straight line direction.

4. The automatic cleaning and dishing device for button cells as claimed in claim 1, wherein: the internal resistance testing mechanism is arranged at the rear side of the transfer conveying mechanism; the transfer carrying mechanism comprises a third cylinder, a rotary piece and two adsorption heads; the third cylinder is fixed on the workbench, and the power output end of the third cylinder faces upwards; the rotary cylinder is arranged at the power output end of the third cylinder; the rotating piece is arranged at the power output end of the rotating cylinder; the front side and the rear side of the rotating piece are respectively provided with a long-strip-shaped cantilever; two adsorption heads are respectively arranged at two ends of the cantilever.

5. The automatic cleaning and dishing device for button cells as claimed in claim 1, wherein: the internal resistance testing mechanism also comprises a material rack, a second material pushing device and an internal resistance testing device; the material rack is provided with material rails arranged along the left and right directions; the second material pushing device comprises a fourth cylinder and a second material pushing block; the fourth cylinder is arranged on the right side of the material rack; the second material pushing block is arranged at the right end of the material rail and is arranged at the power output end of the fourth air cylinder; the internal resistance testing devices are positioned at the upper side and the lower side of the middle part of the material rail; a through hole which is communicated from front to back is formed in the material rail corresponding to the right side of the internal resistance testing device; the NG collecting device comprises a third material pushing device and an NG material box; the third material pushing device is arranged on the material rack and corresponds to the rear of the through hole; the NG workbin is placed on the workbench and corresponds to the lower portion of the through hole.

6. The automatic cleaning and dishing device for button cells as claimed in claim 5, wherein: a code scanning camera is erected above the left end of the material rail.

7. The automatic cleaning and dishing device for button cells as claimed in claim 1, wherein: the blanking carrying mechanism comprises an X-axis driving device, a Y-axis driving device, a Z-axis driving device and an adsorption assembly; the Y-axis driving device is erected above the workbench; the X-axis driving device is arranged at the power output end of the Y-axis driving device; the Z-axis driving device is arranged at the power output end of the X-axis driving device; the adsorption component is arranged at the power output end of the Z-axis driving device.

8. The automatic cleaning and dishing device for button cells as claimed in claim 1, wherein: the material tray assembly comprises a rotary driving device and two material trays; the rotary driving device is arranged on the workbench; the material tray is symmetrically arranged at the power output end of the rotary driving device from front to back.