CN213520085U

CN213520085U - Automatic shaping test production line for flexible package lithium battery cell

Info

Publication number: CN213520085U
Application number: CN202022771731.XU
Authority: CN
Inventors: 蒋园园; 黄�俊; 余毅
Original assignee: Dongguan Mingdong Intelligent Technology Co ltd
Current assignee: Dongguan Mingdong Intelligent Technology Co ltd
Priority date: 2020-11-25
Filing date: 2020-11-25
Publication date: 2021-06-22
Anticipated expiration: 2030-11-25

Abstract

The utility model discloses an automatic plastic test production line of soft-packing lithium cell electricity core, including the host computer body, automatic feeding mechanism, sweep ink recorder structure, thickness measurement mechanism, utmost point ear plastic and cut mechanism, CCD detection mechanism, automatic unloading manipulator and branch and select material mechanism automatically, install the carousel on the host computer body, sweep ink recorder structure, thickness measurement mechanism, utmost point ear plastic and cut mechanism and CCD detection mechanism and center respectively around the carousel automatically. The utility model discloses a will sweep a yard mechanism, the thickness measuring mechanism, the plastic cuts the mechanism, CCD detection mechanism etc. is integrated to an equipment on, and design into and flow the operation around the carousel, feed mechanism and discharge mechanism then design and form material loading station and ejection of compact station respectively in the both sides of carousel, so can realize accomplishing on an equipment that the product sweep a yard, the thickness measuring, utmost point ear plastic cuts, the appearance detects, whole set of processes such as voltage internal resistance test, equipment degree of automation is high, can greatly improve production efficiency, reduction in production cost.

Description

Automatic shaping test production line for flexible package lithium battery cell

Technical Field

The utility model relates to a lithium cell production facility technical field, concretely relates to mainly used carries out the production facility of plastic test to lithium cell electricity core.

Background

Lithium batteries are used in many fields, and before products of lithium batteries finally flow into the market, the thickness, voltage, internal resistance, appearance and the like of the batteries need to be detected, and tabs need to be shaped and cut if necessary, so that the batteries flowing into users are qualified. Each procedure needs corresponding processing or detection equipment, for example, thickness measurement equipment needs to be adopted for measuring the thickness, CCD detection equipment is adopted for detecting the appearance, code scanning gun equipment is adopted for identifying and tracing the product, OCV (open control valve) testing equipment is adopted for testing the voltage and the internal resistance, shaping and cutting equipment is adopted for shaping and cutting, and the like. However, the above-mentioned detection course of processing of this type of lithium battery electric core at present usually adopts the unit to realize, perhaps one more machine has two three kinds of functional devices, needs to combine many machines together like this and constitutes the production line, and automatic whole line integrated device is less, leads to production efficiency lower, and manufacturing cost is higher, is difficult to satisfy at present to the high automation of lithium cell, integrate, large batch production demand.

SUMMERY OF THE UTILITY MODEL

The utility model discloses shortcoming to prior art exists provides an automatic plastic test production line of soft-packing lithium cell electricity core that technology structure is arranged more rationally, degree of automation is higher, production efficiency is higher, the function centralization degree is higher.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides an automatic plastic test production line of soft-packing lithium cell electricity core, including the host computer body, automatic feeding mechanism, sweep yard mechanism, thickness measuring mechanism, utmost point ear plastic cutting mechanism, CCD detection mechanism, automatic unloading manipulator and sorting discharge mechanism automatically, have power, control system and actuating mechanism in the host computer body, install the carousel on the host computer body, actuating mechanism, its characterized in that are connected to the carousel: the automatic code scanning mechanism, the thickness measuring mechanism, the lug reshaping and cutting mechanism and the CCD detection mechanism are respectively wound around the rotary table to respectively form a code scanning station, a thickness measuring station, a lug reshaping and cutting station and a CCD detection station, the thickness measuring station is positioned at the next station of the code scanning station, the next station of the lug reshaping and cutting station is positioned at the thickness measuring station, and the CCD detection station is positioned at the next station of the lug reshaping and cutting station; a feeding station is arranged outside one side of the turntable and close to the automatic code scanning mechanism, and the automatic feeding mechanism is arranged between the feeding station and the automatic code scanning mechanism so as to transfer the battery workpiece from the feeding station to the code scanning station; the sorting and discharging mechanism is arranged on the main machine body outside the other side of the turntable, and the automatic blanking manipulator is arranged between the CCD detection mechanism and the sorting and discharging mechanism so as to transfer the battery workpieces which are detected to the sorting and discharging mechanism; an X-axis moving mechanism is arranged outside the turntable and close to the CCD detection mechanism, and the CCD detection mechanism and the automatic blanking manipulator are respectively arranged on the X-axis moving mechanism to form a structure capable of moving along the X axis.

Furthermore, the lug shaping and cutting mechanism comprises a fixed vertical plate arranged on the main machine body, a cutting upper air cylinder and a cutting lower air cylinder are respectively arranged at the top end and the bottom end of the fixed vertical plate, a lifting guide rail is arranged on the fixed vertical plate, an upper sliding seat and a lower sliding seat which are opposite up and down are arranged on the lifting guide rail, and the upper sliding seat and the lower sliding seat are respectively connected with the cutting upper air cylinder and the cutting lower air cylinder to form a structure capable of moving up and down; an upper cutting knife extending downwards is arranged on the upper sliding seat, a lower cutting knife extending upwards is arranged on the lower sliding seat, the upper cutting knife and the lower cutting knife are in a vertically opposite structure, and both the upper cutting knife and the lower cutting knife are zirconia ceramic cutting knives; a waste material box which extends backwards and slantways downwards is arranged at the rear part of the lower cutting knife. The whole lug shaping and cutting mechanism is simple in structure, the zirconia ceramic cutting knife is good in insulativity, no burrs exist in the section of the cut lug, the appearance quality is good, and the accuracy and the attractiveness of a battery can be guaranteed.

Furthermore, the thickness measuring mechanism comprises a thickness measuring vertical plate fixed on the main machine body, the upper part and the lower part of the thickness measuring vertical plate are respectively provided with a thickness measuring upper cylinder and a thickness measuring lower cylinder which are respectively connected with an upper clamping seat and a lower clamping seat, and the upper clamping seat and the lower clamping seat are vertically opposite to each other so as to clamp the battery workpiece; and a thickness measuring sensor is fixed on the upper clamping seat, and is suspended on the outer side of the upper clamping seat and close to the bottom of the upper clamping seat. The whole thickness measuring mechanism is simple in structure, the thickness measuring sensor adopts a Japanese Keynes sensor, the thickness of the battery can be detected at high precision, good products and defective products of the thickness of the battery can be automatically judged, and the quality and the stability of products are improved.

Further, the material loading station is located the left side of automatic yard mechanism of sweeping, and it is including preceding people's frock material level and the back people's frock material level that sets up side by side around, to form duplex position material loading structure.

Furthermore, the automatic feeding mechanism is arranged on a feeding Y-axis mechanism, and the feeding Y-axis mechanism is arranged between the front-person tooling material level and the rear-person tooling material level and the automatic code scanning mechanism, so that the automatic feeding mechanism is suspended on the feeding station and the automatic code scanning mechanism. The battery workpieces are manually fed to the front-man tooling material level and the rear-man tooling material level, and then the automatic feeding mechanism reciprocates between the two feeding stations to achieve uninterrupted feeding, so that the working efficiency is improved.

Furthermore, the automatic code scanning mechanism comprises a code scanning gun mechanism and a code scanning moving mechanism, and the code scanning gun mechanism is arranged on the code scanning moving mechanism; sweep a yard moving mechanism including sweeping a yard X axle mechanism and sweeping a yard Y axle mechanism, sweep a yard X axle mechanism and install on the host computer body, sweep a yard Y axle mechanism and install on sweeping a yard X axle mechanism, sweep a yard rifle mechanism and install and sweep a yard Y axle mechanism to form the structure that cocoa X axle and Y axle direction removed. Sweep a yard rifle mechanism and adopt the import to gain force fast brand high-end sweep a yard rifle and carry out the automation and sweep the sign indicating number, judge with PLC and host computer software butt joint and sweep a yard qualified or NG, trace back the discernment to the production process of battery.

Furthermore, the device also comprises an OCV testing mechanism which is arranged beside the CCD detecting mechanism, and the CCD detection can be carried out after the voltage internal resistance is tested; the OCV testing mechanism is arranged on the X-axis moving mechanism and can move along the X-axis direction. The CCD detection mechanism automatically shoots through a high-precision CCD camera, detects and identifies the length, width, center distance, lug appearance and other dimensions of the battery lug, and judges good products and NG products. The appearance and the quality of the battery are controlled from the source, so that the production efficiency and the quality competitiveness of a battery enterprise are improved.

Furthermore, the OCV testing mechanism and the CCD detecting mechanism are opposite to the thickness measuring mechanism through a rotary table, and the automatic code sweeping mechanism is opposite to the lug shaping and cutting mechanism through the rotary table. The layout is more uniform and compact, the process requirements in the production process are better met, the process arrangement is more reasonable, and the production efficiency is further improved.

Furthermore, the sorting and discharging mechanism is a conveying belt type sorting and discharging mechanism with at least two discharging channels, and battery workpieces in different states are transferred to the corresponding discharging channels through an automatic discharging manipulator so as to be sorted out.

The working process is as follows: manually loading a battery workpiece into a front-man tooling material level and a rear-man tooling material level → transferring the battery workpiece to a code scanning station on a turntable through an automatic loading mechanism, automatically scanning the code through a code scanning gun mechanism → rotating the turntable, enabling the battery workpiece to reach a thickness measuring station, performing thickness measurement through the thickness measuring mechanism → rotating the turntable, enabling the battery workpiece to reach a shaping and cutting station, performing shaping and cutting operation through the shaping and cutting mechanism → rotating the turntable, enabling the battery workpiece to reach a CCD detection station, performing shooting detection through a CCD camera (if voltage and internal resistance are required to be tested, simultaneously performing through an OCV (open circuit control) testing mechanism at the station) → automatic blanking manipulator blanking, placing the battery workpieces in different states into different discharge channels of a sorting and discharging mechanism, and enabling the battery workpieces to flow out of a.

The utility model integrates the prior code scanning mechanism, the thickness measuring mechanism, the shaping cutting mechanism, the CCD detection mechanism, the OCV testing mechanism and the like into one device, and designs to flow around the turntable, the feeding mechanism and the discharging mechanism are respectively designed to form a feeding station and a discharging station on two sides of the turntable, thus realizing the complete processes of code scanning, thickness measuring, tab shaping cutting, appearance detection, voltage internal resistance test and the like of a product on one device, having high automation degree, greatly improving the production efficiency and reducing the production cost; and adopt the modularization integrated design, maintenance debugging convenient and fast, whole effect of equipment and product stability are higher, ensure that the battery product qualification rate of making is higher to reduce the defective rate, improve the yields and the consumer safety in utilization rate that lithium battery terminal used.

Drawings

FIG. 1 is the overall structure of the utility model (with the protective cover removed);

FIG. 2 is an overall structural view of another aspect of the present invention (with the protective cover removed);

FIG. 3 is a top view of the structure of the present invention (with the protective cover removed);

FIG. 4 is a top view of the automatic code scanning mechanism;

FIG. 5 is a side view of the automatic code scanning mechanism;

FIG. 6 is a perspective view of the thickness measuring mechanism;

FIG. 7 is a side view of the thickness measuring mechanism;

fig. 8 is a perspective view of a tab shaping and cutting mechanism;

fig. 9 is a side view of the tab shaping and cutting mechanism.

In the figure, 1 is a main body, 2 is a turntable, 31 is a rear human tooling material level, 32 is a front human tooling material level, 4 is an automatic feeding mechanism, 41 is a feeding Y-axis mechanism, 5 is a code scanning gun mechanism, 51 is a code scanning moving mechanism, 52 is a code scanning Y-axis mechanism, 53 is a code scanning X-axis mechanism, 6 is a thickness measuring mechanism, 61 is a thickness measuring vertical plate, 62 is a thickness measuring upper cylinder, 63 is an upper clamping seat, 64 is a thickness measuring sensor, 65 is a thickness measuring lower cylinder, 66 is a lower clamping seat, 7 is a tab shaping and cutting mechanism, 71 is a fixed vertical plate, 72 is a cutting upper cylinder, 73 is a lifting guide rail, 74 is an upper sliding seat, 75 is an upper cutting knife, 76 is a lower cutting knife, 77 is a lower sliding seat, 78 is a cutting lower cylinder, 79 is a waste material box, 8 is an OCV testing mechanism, 9 is a CCD detecting mechanism, 10 is an X-axis moving mechanism, 11 is an automatic blanking manipulator, and 12 is a sorting and discharging mechanism.

Detailed Description

In this embodiment, referring to fig. 1 to 9, the automatic shaping and testing production line for the flexible package lithium battery cell includes a main machine body 1, an automatic feeding mechanism 4, an automatic code scanning mechanism, a thickness measuring mechanism 6, a tab shaping and cutting mechanism 7, a CCD detecting mechanism 9, an automatic blanking manipulator 11, and a sorting and sorting mechanism 12, wherein the main machine body 1 is provided with a power supply, a control system, and a driving mechanism, a turntable 2 is mounted on the main machine body 1, and the turntable 2 is connected with the driving mechanism; the automatic code scanning mechanism, the thickness measuring mechanism 6, the lug reshaping and cutting mechanism 7 and the CCD detecting mechanism 9 are respectively wound around the rotary table 2 to respectively form a code scanning station, a thickness measuring station, a lug reshaping and cutting station and a CCD detecting station, the thickness measuring station is positioned at the next station of the code scanning station, the next station of the lug reshaping and cutting station and the thickness measuring station, and the CCD detecting station is positioned at the next station of the lug reshaping and cutting station; a feeding station is arranged at a position, close to the automatic code scanning mechanism, outside one side of the turntable 2, and the automatic feeding mechanism 4 is arranged between the feeding station and the automatic code scanning mechanism so as to transfer the battery workpiece from the feeding station to the code scanning station; a sorting and discharging mechanism 12 is arranged on the main body 1 outside the other side of the turntable 2, and an automatic blanking manipulator 11 is arranged between the CCD detection mechanism 9 and the sorting and discharging mechanism 12 so as to transfer the battery workpiece which is detected to the sorting and discharging mechanism 12; an X-axis moving mechanism 10 is arranged outside the turntable 2 and close to the CCD detection mechanism 9, and the CCD detection mechanism 9 and the automatic blanking manipulator 11 are respectively arranged on the X-axis moving mechanism 10 to form a structure capable of moving along the X axis.

The lug shaping and cutting mechanism 7 comprises a fixed vertical plate 71 arranged on the main machine body 1, the top end and the bottom end of the fixed vertical plate 71 are respectively provided with an upper cutting cylinder 72 and a lower cutting cylinder 78, the fixed vertical plate 71 is provided with a lifting guide rail 73, the lifting guide rail 73 is provided with an upper sliding seat 74 and a lower sliding seat 77 which are opposite up and down, and the upper sliding seat and the lower sliding seat are respectively connected with the upper cutting cylinder 72 and the lower cutting cylinder 78 to form a structure capable of moving up and down; an upper cutting knife 75 extending downwards is mounted on the upper slide carriage 74, a lower cutting knife 76 extending upwards is mounted on the lower slide carriage 77, the upper cutting knife 75 and the lower cutting knife 76 are in a vertically opposite structure, and both are zirconia ceramic cutting knives; a waste material box 79 extending rearward and obliquely downward is provided behind the lower cutting blade 76 to guide out waste materials generated at the time of cutting. The whole lug shaping and cutting mechanism 7 is simple in structure, the zirconia ceramic cutting knife is good in insulativity, no burrs exist in the section of the cut lug, the appearance quality is good, and the accuracy and the attractiveness of the battery can be guaranteed.

The thickness measuring mechanism 6 comprises a thickness measuring vertical plate 61 fixed on the main machine body 1, an upper thickness measuring cylinder 62 and a lower thickness measuring cylinder 65 are respectively installed at the upper part and the lower part of the thickness measuring vertical plate 61 and are respectively connected with an upper clamping seat 63 and a lower clamping seat 66, the upper clamping seat 63 and the lower clamping seat 66 are vertically opposite, and the battery workpieces are clamped through the driving of the respective corresponding cylinders; a thickness measuring sensor 64 is fixed on the upper clamping seat 63, and the thickness measuring sensor 64 is hung on the outer side of the upper clamping seat 63 and is close to the bottom of the upper clamping seat 63. The whole thickness measuring mechanism 6 is simple in structure, the thickness measuring sensor 64 adopts a Japanese Keynes sensor, the thickness of the battery can be detected at high precision, good products and defective products of the thickness of the battery can be automatically judged, and the quality and the stability of products are improved.

The material loading station is located on the left side of the automatic code scanning mechanism and comprises a front-man tooling material level 32 and a rear-man tooling material level 31 which are arranged side by side from front to back so as to form a double-station material loading structure.

The automatic feeding mechanism is arranged on a feeding Y-axis mechanism 41, and the feeding Y-axis mechanism 41 is arranged between the front man tooling material level 32 and the rear man tooling material level 31 and the automatic code scanning mechanism, so that the automatic feeding mechanism 4 is suspended on the feeding station and the automatic code scanning mechanism. The battery workpieces are manually fed into the front-man tooling material level 32 and the rear-man tooling material level 31, and then the automatic feeding mechanism 4 reciprocates between the two feeding stations to achieve uninterrupted feeding, so that the working efficiency is improved.

The automatic code scanning mechanism comprises a code scanning gun mechanism 5 and a code scanning moving mechanism 51, wherein the code scanning gun mechanism 5 is arranged on the code scanning moving mechanism 51; the code scanning moving mechanism 51 comprises a code scanning X-axis mechanism 53 and a code scanning Y-axis mechanism 52, the code scanning X-axis mechanism 53 is installed on the main body 1, the code scanning Y-axis mechanism 52 is installed on the code scanning X-axis mechanism 53, and the code scanning gun mechanism 5 is installed on the code scanning Y-axis mechanism 52 so as to form a structure capable of moving in the X-axis direction and the Y-axis direction. Sweep sign indicating number rifle mechanism 5 and adopt the import to gain force the quick brand high-end sweep the sign indicating number rifle and carry out the automation and sweep the sign indicating number, with PLC and host computer software butt joint judge sweep the sign indicating number qualified or NG, trace back the discernment to battery production process.

The testing device also comprises an OCV testing mechanism 8, wherein the OCV testing mechanism 8 is arranged beside the CCD detecting mechanism 9, and CCD detection can be carried out after the testing of the voltage internal resistance is finished; the OCV test mechanism 8 is mounted on an X-axis moving mechanism 10 and is movable in the X-axis direction. The CCD detection mechanism 9 automatically takes pictures through a high-precision CCD camera, detects and identifies the length, width, center distance, appearance and other dimensions of the battery tab, and judges good products and NG products. The appearance and the quality of the battery are controlled from the source, so that the production efficiency and the quality competitiveness of a battery enterprise are improved.

The OCV testing mechanism 8 and the CCD detecting mechanism 9 are opposite to the thickness measuring mechanism 6 through the rotary table 2, and the automatic code sweeping mechanism is opposite to the lug shaping and cutting mechanism 7 through the rotary table 2. The layout is more uniform and compact, the process requirements in the production process are better met, the process arrangement is more reasonable, and the production efficiency is further improved.

The sorting and discharging mechanism 12 is a conveyor belt type sorting and discharging mechanism with at least two discharging channels, and battery workpieces in different states are transferred to the corresponding discharging channels through the automatic discharging manipulator 11 so as to be sorted out.

The working process is as follows: manually loading battery workpieces into a former tooling material level 32 and a latter tooling material level 31 → transferring the battery workpieces to a code scanning station on a rotary table 2 through an automatic feeding mechanism 4, automatically scanning codes through a code scanning gun mechanism 5 → rotating the rotary table 2, enabling the battery workpieces to reach a thickness measuring station, performing thickness measurement through a thickness measuring mechanism 6 → rotating the rotary table 2, enabling the battery workpieces to reach a shaping and cutting station, performing shaping and cutting operations through a lug shaping and cutting mechanism 7 → rotating the rotary table 2, enabling the battery workpieces to reach a CCD detection station, performing photo detection through a CCD camera (simultaneously performing an OCV (open control circuit) test mechanism 9 at the station if voltage and internal resistance are tested) → performing blanking through an automatic blanking manipulator 11, and placing the battery workpieces in different states to different discharge channels of a sorting and discharging mechanism 12 to flow out of a production line.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims

1. The utility model provides an automatic plastic test production line of soft-packing lithium cell electricity core, including the host computer body, automatic feeding mechanism, sweep yard mechanism, thickness measuring mechanism, utmost point ear plastic cutting mechanism, CCD detection mechanism, automatic unloading manipulator and sorting discharge mechanism automatically, have power, control system and actuating mechanism in the host computer body, install the carousel on the host computer body, actuating mechanism, its characterized in that are connected to the carousel: the automatic code scanning mechanism, the thickness measuring mechanism, the lug reshaping and cutting mechanism and the CCD detection mechanism are respectively wound around the rotary table to respectively form a code scanning station, a thickness measuring station, a lug reshaping and cutting station and a CCD detection station, the thickness measuring station is positioned at the next station of the code scanning station, the next station of the lug reshaping and cutting station is positioned at the thickness measuring station, and the CCD detection station is positioned at the next station of the lug reshaping and cutting station; a feeding station is arranged outside one side of the turntable and close to the automatic code scanning mechanism, and the automatic feeding mechanism is arranged between the feeding station and the automatic code scanning mechanism so as to transfer the battery workpiece from the feeding station to the code scanning station; the sorting and discharging mechanism is arranged on the main machine body outside the other side of the turntable, and the automatic blanking manipulator is arranged between the CCD detection mechanism and the sorting and discharging mechanism so as to transfer the battery workpieces which are detected to the sorting and discharging mechanism; an X-axis moving mechanism is arranged outside the turntable and close to the CCD detection mechanism, and the CCD detection mechanism and the automatic blanking manipulator are respectively arranged on the X-axis moving mechanism to form a structure capable of moving along the X axis.

2. The automatic shaping test production line of flexible package lithium battery electric core of claim 1, characterized in that: the lug shaping and cutting mechanism comprises a fixed vertical plate arranged on the main machine body, a cutting upper air cylinder and a cutting lower air cylinder are respectively arranged at the top end and the bottom end of the fixed vertical plate, a lifting guide rail is arranged on the fixed vertical plate, an upper sliding seat and a lower sliding seat which are opposite up and down are arranged on the lifting guide rail, and the upper sliding seat and the lower sliding seat are respectively connected with the cutting upper air cylinder and the cutting lower air cylinder to form a structure capable of moving up and down; an upper cutting knife extending downwards is arranged on the upper sliding seat, a lower cutting knife extending upwards is arranged on the lower sliding seat, the upper cutting knife and the lower cutting knife are in a vertically opposite structure, and both the upper cutting knife and the lower cutting knife are zirconia ceramic cutting knives; a waste material box which extends backwards and slantways downwards is arranged at the rear part of the lower cutting knife.

3. The automatic shaping test production line of flexible package lithium battery electric core of claim 1, characterized in that: the thickness measuring mechanism comprises a thickness measuring vertical plate fixed on the main machine body, the upper part and the lower part of the thickness measuring vertical plate are respectively provided with a thickness measuring upper air cylinder and a thickness measuring lower air cylinder which are respectively connected with an upper clamping seat and a lower clamping seat, and the upper clamping seat and the lower clamping seat are vertically opposite to each other so as to clamp a battery workpiece; and a thickness measuring sensor is fixed on the upper clamping seat, and is suspended on the outer side of the upper clamping seat and close to the bottom of the upper clamping seat.

4. The automatic shaping test production line of flexible package lithium battery electric core of claim 1, characterized in that: the material loading station is located on the left side of the automatic code scanning mechanism and comprises a front-man tooling material level and a rear-man tooling material level which are arranged side by side from front to back so as to form a double-station material loading structure.

5. The automatic shaping test production line of the flexible package lithium battery cell of claim 4, characterized in that: the automatic feeding mechanism is arranged on a feeding Y-axis mechanism, and the feeding Y-axis mechanism is arranged between the front human tooling material level and the rear human tooling material level and the automatic code sweeping mechanism so as to enable the automatic feeding mechanism to be suspended on the feeding station and the automatic code sweeping mechanism.

6. The automatic shaping test production line of the flexible package lithium battery cell of claim 5, characterized in that: the automatic code scanning mechanism comprises a code scanning gun mechanism and a code scanning moving mechanism, and the code scanning gun mechanism is arranged on the code scanning moving mechanism; sweep a yard moving mechanism including sweeping a yard X axle mechanism and sweeping a yard Y axle mechanism, sweep a yard X axle mechanism and install on the host computer body, sweep a yard Y axle mechanism and install on sweeping a yard X axle mechanism, sweep a yard rifle mechanism and install and sweep a yard Y axle mechanism to form the structure that cocoa X axle and Y axle direction removed.

7. The automatic shaping test production line of flexible package lithium battery electric core of claim 1, characterized in that: the device also comprises an OCV testing mechanism which is arranged beside the CCD detecting mechanism and is arranged on the X-axis moving mechanism.

8. The automatic shaping test production line of the flexible package lithium battery cell of claim 7, characterized in that: the OCV testing mechanism and the CCD detecting mechanism are opposite to the thickness measuring mechanism through the rotary table, and the automatic code sweeping mechanism is opposite to the lug shaping and cutting mechanism through the rotary table.

9. The automatic shaping test production line of flexible package lithium battery electric core of claim 1, characterized in that: the sorting and discharging mechanism is a conveying belt type sorting and discharging mechanism with at least two discharging channels.