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Button cell detecting, labelling and packaging all-in-one machine

A button battery and all-in-one machine technology, applied in labeling machines, packaging, transportation and packaging, etc., can solve the problems of low efficiency of manual labeling, waste of manpower, time-consuming, etc., and achieve the effect of improving production packaging efficiency and production quality

Inactive Publication Date: 2019-12-10
杭州巧狮信息科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] After the battery is produced, it is necessary to perform a product performance test on the battery product, but the existing battery test process is time-consuming and wastes manpower. Labeling on the battery, the traditional method is to use manual stickers, but manual stickers have low efficiency, unstable quality, poor accuracy, etc.
Therefore, there are defects in the existing technology and need to be improved. At the same time, the packaging quality of the existing battery products is poor, and the stored batteries are easily disturbed by the external environment and lose their functions. Improved and improved the product quality and production efficiency of button batteries

Method used

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  • Button cell detecting, labelling and packaging all-in-one machine
  • Button cell detecting, labelling and packaging all-in-one machine
  • Button cell detecting, labelling and packaging all-in-one machine

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0042]When the all-in-one machine is working, the button batteries 12 are input one by one by the input belt 11, and then the horizontal displacement of the battery input mechanism 2 drives the cylinder I203 to drive the suction nozzle I208 to move to the upper part of the button battery 12 on the output port of the input belt 11, and then the vertical displacement Cylinder Ⅰ drives the adsorption nozzle Ⅰ 208 to move down, and at the same time, the battery adsorption cylinder Ⅰ 207 drives the adsorption nozzle Ⅰ 208 to further move downward to absorb the button battery 12, and then the horizontal displacement driving cylinder Ⅰ 203 and the vertical displacement cylinder Ⅰ drive the adsorption nozzle Ⅰ 208 and the buttons it absorbs The battery 12 is moved to the plate groove of the detection groove plate 303 of the battery detection mechanism 3, and then the battery adsorption cylinder I207 drives the suction nozzle I208 to move down and the button battery 12 is placed in the p...

Embodiment 2

[0044] Start the push-in cylinder 301 of the battery detection mechanism 3, and the push-in cylinder 301 drives the push slat 302 to push the button battery 12 in the plate groove of the detection groove plate 303 to the detection position in the plate groove, and then the detection drive cylinder 304 drives the symmetrical Set the electric shock sensing probe 307 in contact with the two sides of the button battery 12 to detect the electrification performance of the button battery 12, wherein the electric shock sensing probe 307 is connected with the electric signal induction drive of the rotating drive motor I403 of the battery transfer mechanism 4, when the button battery 12 is electrified and detected When qualified, the rotary drive motor I403 receives the power-on signal, and the rotary arm plate 405 is driven to rotate by the rotary drive motor I403, thereby driving the battery adsorption cylinder II406 on the rotary arm plate 405 to rotate to the upper part of the detecti...

Embodiment 3

[0046] Qualified button batteries 12 are conveyed along the battery conveyor belt 501 into the carding tank plate 502, sorted one by one along the conveying and carding tanks of the carding tank plate 502, and finally stop at the output end of the battery conveyor belt 501, and then start the battery The positioning cylinder 610 of the transfer mechanism I6 drives the suction nozzle III 612 to move horizontally by the positioning cylinder 610, thereby adjusting the distance between the suction nozzles III 612 so that the distance between the suction nozzles III 612 is consistent with the distance between the button batteries 12, and then The displacement drive motor 602 drives the drive screw 603 to rotate, thereby driving the suction nozzle III 612 to move to the upper part of the button battery 12 on the output end of the battery conveyor belt 501, and then the vertical displacement cylinder II 614 drives the suction nozzle III 612 to move down, and the suction nozzle III 612 ...

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Abstract

The invention relates to a button cell detecting, labelling and packaging all-in-one machine. The machine comprises an installing table, an input table fixed to the installing table, a conveyor belt arranging assembly, a cell transporting mechanism I, a labelling mechanism, a cell transporting mechanism II, a rotary packaging mechanism and packaging box jacking mechanisms. A cell input mechanism,a cell detecting mechanism and a cell transferring mechanism are arranged on the input table, one side of the input table is provided with an input belt aligned to the cell pushing mechanism, button cells are evenly arranged on the conveyor belt, cell storage boxes are stacked on jacking plates of the packaging box jacking mechanisms on two side faces of the rotary packaging mechanism, and shielding paper scraps are stacked on a jacking plate of the packaging box jacking mechanism at the third side face. Automatic detection, label sticking, boxing and packaging of button cells are achieved, the existing mode of artificial cell detection, labeling and packaging is replaced, the producing packaging efficiency of the button cells is improved, and the production quality of the button cells isimproved.

Description

technical field [0001] The invention relates to the technical field of battery processing equipment, in particular to a button battery detection, labeling and packaging all-in-one machine. Background technique [0002] After the battery is produced, it is necessary to perform a product performance test on the battery product, but the existing battery test process is time-consuming and wastes manpower. The traditional method of labeling on the battery is to use manual stickers. However, manual stickers have low efficiency, unstable quality, and poor accuracy. Therefore, there are defects in the existing technology and need to be improved. At the same time, the packaging quality of the existing battery products is poor, and the stored batteries are easily disturbed by the external environment and lose their functions. Improvement to improve the product quality and production efficiency of button batteries. Contents of the invention [0003] The purpose of the present inven...

Claims

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Application Information

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IPC IPC(8): B65B35/38B65B5/10B65G47/91B65G47/82B65C9/02B07C5/344B07C5/36B07C5/02
CPCB07C5/02B07C5/344B07C5/362B65B5/105B65B35/38B65C9/02B65G47/82B65G47/912B65G47/918
Inventor 王毅军
Owner 杭州巧狮信息科技有限公司
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