CN202758980U - Lithium battery production system - Google Patents

Lithium battery production system Download PDF

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Publication number
CN202758980U
CN202758980U CN2012200555571U CN201220055557U CN202758980U CN 202758980 U CN202758980 U CN 202758980U CN 2012200555571 U CN2012200555571 U CN 2012200555571U CN 201220055557 U CN201220055557 U CN 201220055557U CN 202758980 U CN202758980 U CN 202758980U
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CN
China
Prior art keywords
powder
demoulding
manipulator
automatically
turntable
Prior art date
Application number
CN2012200555571U
Other languages
Chinese (zh)
Inventor
刘正国
蒋立
刘唯
鲍俊
秦琴
高俊丽
黄江巍
Original Assignee
上海第二工业大学
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
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Priority to CN201120171543.1 priority Critical
Priority to CN201120171543 priority
Application filed by 上海第二工业大学 filed Critical 上海第二工业大学
Priority to CN2012200555571U priority patent/CN202758980U/en
Application granted granted Critical
Publication of CN202758980U publication Critical patent/CN202758980U/en

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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

Abstract

The utility model discloses a lithium battery production system which comprises a mould conveyer belt. The mould conveyer belt is used for conveying split mould devices. The system further comprises a turnplate, a plurality of automatic precision power-weighing systems, a plurality of multi-layer automatic powder-leveling systems, a press-forming system, a demoulding cleaning system and a multi-parameter automatic detection system. The automatic precision power-weighing systems and the multi-layer automatic powder-leveling systems are disposed on the periphery of the turnplate at intervals. The automatic precision power-weighing systems are linked with the multi-layer automatic powder-leveling systems. The multi-layer automatic powder-leveling systems, the press-forming system, the demoulding cleaning system and the multi-parameter automatic detection system are linked in sequence through manipulators, and the turnplate is provided with a plurality of stations. By the use of the lithium battery production system, battery quality is guaranteed, producing efficiency is improved and labor environment is improved.

Description

A kind of lithium battery production system

Technical field

The utility model relates to a kind of Workpiece shaping system, is specifically related to a kind of lithium battery production system.

Background technology

Lithium is that the thermally activated battery monomer is generally formed by successively tiling of powder, moulding, the compacting of multilayer different material, different weighings.For the lithium of producing dealing with various requirements is the thermally activated battery monomer, the powder raw material accurate weighing as required that require to form the heterogeneity of battery cell in the production, then in accordance with regulations diameter is successively even, smooth laid circular, compressing by press again, finish manufacturing process finally by detection.At present, lithium is that manual operations is mostly adopted in each technological process of thermally activated battery monomer production, because human factor, homogeneity of product is poor, and production efficiency is low, and the working environment of workers is poor, is difficult to satisfy growing social demand.

The utility model content

The utility model provides a kind of lithium battery production system, and this system can guarantee the battery product quality, enhances productivity, and improves work situation.

In order to achieve the above object, the utility model is achieved through the following technical solutions:

A kind of lithium battery production system, comprise the mould conveyer belt, described mould conveyer belt is used for carrying the Split mold device, be characterized in, this system also comprises turntable, several powders, and accurately Weighing system, several multilayer powders strike off system, compressing system, demoulding cleaning system and Multi-parameter Automatic Examination System automatically automatically;

Automatically accurately Weighing system and multilayer powder strike off the periphery that system interval is arranged on turntable to described powder automatically;

The automatically accurate Weighing system of described powder automatically strikes off system by turntable and multilayer powder and is connected mutually;

Described multilayer powder automatically strikes off system, compressing system, demoulding cleaning system and Multi-parameter Automatic Examination System and is connected mutually successively by manipulator.

Wherein, described turntable is provided with several stations.

Described powder automatically accurately Weighing system comprise powder automatic weighing workbench and be arranged on the automatic weighing workbench powder feeding manipulator, waste material box, the first electronic balance, pay-off, be arranged on the first servomotor on the pay-off and be arranged on material cup on the electronic balance;

Described powder feeding manipulator, waste material box, the first electronic balance are connected with pay-off and are connected setting;

Wherein a certain station is connected mutually on described powder feeding manipulator and the turntable.

Described multilayer powder automatically strikes off system and comprises the second servomotor, scraping device, laser displacement sensor, scraper, Split mold and strike off positioner and automatically strike off pedestal;

Described the second servomotor, scraping device, laser displacement sensor are connected to connect successively setting with scraper;

Described scraper is arranged on the top of turntable;

Described Split mold strikes off the below that positioner is arranged on turntable, and is arranged on automatically and strikes off on the pedestal.

Described compressing system comprises delivery manipulator, press, pressure setting and mold cramping assembly;

Described press is connected with turntable by the delivery manipulator;

Described pressure setting mould, mold cramping assembly are installed on the working face of press;

The delivery manipulator takes off the Split mold device that the multilayer powder is housed from turntable, directly it is sent in the pressure setting that is contained on the press, and the mold cramping assembly clamps the Split mold device, and press is implemented compacting, and the compacting of battery cell is finished in then die sinking.

Described demoulding cleaning system comprises air blowing push rod, stripping manipulator, fettler position mould seat, demoulding cleaning system works platform, demoulding clamping device, demoulding station mold base and demoulding liftout attachment;

Described stripping manipulator is connected with press;

Described fettler position mould seat, demoulding station mold base are arranged on the demoulding cleaning system works platform;

Described air blowing push rod, demoulding clamping device are separately positioned on fettler position mould seat, demoulding station mold base top;

Described demoulding liftout attachment is arranged on demoulding station mold base bottom.

Described Multi-parameter Automatic Examination System comprises the automatic checkout system workbench, is arranged on battery cell measurement mechanism, the second electronic balance, sucker manipulator, the waste product box on the automatic checkout system workbench and the product conveyor that is arranged on automatic checkout system workbench outside;

Described battery cell measurement mechanism is arranged on a side of sucker manipulator;

Described the second electronic balance is arranged between battery cell measurement mechanism and the sucker manipulator;

Described sucker manipulator is connected mutually with demoulding cleaning system, product conveyor.

It is the automatic production of thermally activated battery monomer that the utility model can adapt to different weighings, different-thickness, different-diameter lithium, setting by setup parameter franchise value, can produce the battery cell of different brackets, the utility model also extends to the manufacturing industry of other powdery shaped articles.

The utility model has replaced existing manual operations, has avoided the impact of artifact on product quality, good product consistency, and production efficiency is high.

The utility model is rationally distributed, and floor space is less than work on hand place, and operational environment improves.

Description of drawings

Fig. 1 is the general structure schematic diagram of a kind of lithium battery production system of the utility model;

Fig. 2 is the structural representation of the automatically accurate Weighing system of the utility model powder;

Fig. 3 is the structural representation that the utility model multilayer powder strikes off system automatically;

Fig. 4 is the structural representation of the compressing system of the utility model;

Fig. 5 is the structural representation of the utility model demoulding cleaning system;

Fig. 6 is the structural representation of Multi-parameter Automatic Examination System;

Fig. 7 is the distribution schematic diagram of turret stations.

Embodiment

As described in Figure 1; a kind of lithium battery production system of the present utility model; comprise mould conveyer belt 1; described mould conveyer belt 1 is used for carrying Split mold device 2; by send mould manipulator 9 with Split mold device 2 grab turntable 3 corresponding send die worker position 311; this system also comprises the automatically accurate Weighing system 4 of four powders, four multilayer powders strike off system 5, compressing system 6, demoulding cleaning system 7 and Multi-parameter Automatic Examination System 8 automatically, and accurately Weighing system 4 and multilayer powder strike off the periphery that system 5 is disposed on turntable 3 to powder automatically automatically.

As shown in Figure 2, powder automatically accurately Weighing system 4 comprises powder automatic weighing workbench 41 and is arranged on powder feeding manipulator 42 on the automatic weighing workbench 41, waste material box 43, the first electronic balance 44, pay-off 45, the first servomotor 46 and material cup 47, powder feeding manipulator 42, waste material box 43, the first electronic balance 44, pay-off 45 is connected successively, and connection arranges with servomotor, the first servomotor 46 is installed on the pay-off 45, material cup 47 is placed on the first electronic balance 44, pay-off 45 is placed on a side of the first electronic balance 44, make the meal outlet of pay-off 45 aim at material cup 47, waste material box 43 is placed on the opposite side of the first electronic balance 44, this system makes pay-off 45 powder delivery in material cup 47 by computer control the first servomotor 46, read simultaneously the data of the first electronic balance 44, automatically accurately weighing value and the weighing error permissible value of Weighing system 4 settings compare with powder, judge the qualification of powder automatic weighing, be contained in the material cup 47 the qualified powder of weighing and deliver to corresponding feeding station on the turntable 3 by powder feeding manipulator 42, pour into and be placed in the Split mold device 2 that is in this station on the turntable 3; And the underproof powder of weighing is poured waste material box 43 into by powder feeding manipulator 6.The first servomotor 46, driver, pay-off 45, the first electronic balance 44 consist of automatic accurate weighing closed-loop control.The utility model has used the automatically accurate Weighing system 4 of quadruplet powder, the weighing and the feeding that are respectively applied to heat powder, positive powder, insulating powder, negative pole powder.

Split mold device 2 comprises split mold, split bed die and push rod.The split mold is installed in the top of split bed die, and push rod is installed in the split mold.By changing diameter of bore and the push rod diameter of split mold, the Split mold device can be used for producing the battery cell of different-diameter.

As shown in Figure 3, the multilayer powder automatically strikes off system 5 and comprises the second servomotor 51, scraping device 52, laser displacement sensor 53, scraper 54, Split mold and strike off positioner 55 and automatically strike off pedestal 56, servomotor 51 is installed on the scraping device 52, laser displacement sensor 53 is contained on scraping device 52 appropriate locations, scraper 54 is contained on the rotating shaft of scraping device 52, and scraping device 52 and Split mold strike off positioner 55 and all be installed in and automatically strike off on the pedestal 56.Carry out the powder automatic scraping at ordinary times, this system is by computer control, at first strike off positioner 55 Split mold device 2 jack-up that are placed on the turntable 3 by Split mold, make Split mold device 2 break away from turntable 3, concentric with scraper 54 rotating shafts with the circle dress powder die cavity that guarantees Split mold device 2, scraper 54 rotating shafts move down while turning, and the powder of pouring in the Split mold device 2 is struck off.Read simultaneously the data of laser displacement sensor 53, compare with the one-tenth-value thickness 1/10 that strikes off of setting powder.The second servomotor 51, driver, scraping device 52, laser displacement sensor 53 formations strike off closed-loop control automatically.Accurately the quantity of Weighing system 4 is identical automatically with powder for the quantity that the multilayer powder strikes off system 5 automatically, and the utility model has used quadruplet automatically to strike off system 5, is respectively applied to heat striking off of powder, positive powder weighing, insulating powder, four layers of powder of negative pole powder.

As shown in Figure 4; compressing system 6 comprises delivery manipulator 61; press 62; pressure setting 63 and mold cramping assembly 64; delivery manipulator 61 is between turntable 3 and press 62; pressure setting 63 is installed on the lower T plate of press 62; mold cramping assembly 64 is installed on the lower T plate of press 62; when suppressing; this system is by computer control; to be paved the Split mold device 2 of four layers of powder delivers in the pressure setting 63 that is installed on the press 62 by delivery manipulator 61; mold cramping assembly 64 compresses Split mold device 2; next press 62 carries out the matched moulds operation automatically; the circular pie of multilayer powder pressing in the Split mold device 2 circular dress powder die cavitys; press 62 carries out the die sinking operation automatically; mold cramping assembly 64 unclamps clamping, by the stripping manipulator 72 of demoulding cleaning system 7 the pie cell is delivered to demoulding cleaning system 7 together with Split mold device 2 again.

As shown in Figure 5, demoulding cleaning system 7 comprises air blowing push rod 71, stripping manipulator 72, fettler position mould seat 73, demoulding cleaning system works platform 74, demoulding clamping device 75, demoulding station mold base 76 and demoulding liftout attachment 77; Described stripping manipulator 72 is connected with press 62; fettler position mould seat 73, demoulding station mold base 76 are arranged on the demoulding cleaning system works platform 74; air blowing push rod 71, demoulding clamping device 75 are separately positioned on fettler position mould seat 73, demoulding station mold base 76 tops, and demoulding liftout attachment 77 is arranged on demoulding station mold base 76 bottoms.When carrying out the demoulding; this system 7 is by computer control; stripping manipulator 72 is delivered to first on the demoulding station mold base 76 of demoulding station the Split mold device 2 that suppresses battery cell is housed; demoulding clamping device 75 is descending; compress Split mold device 2; the circle dress powder die cavity of Split mold device 2 deviate from the battery cell that suppresses by the push rod in the Split mold device 2 by demoulding liftout attachment 77; then the sucker manipulator 84 by Multi-parameter Automatic Examination System 8 siphons away the cell of deviating from from mould; stripping manipulator 72 moves to empty Split mold device 2 on the fettler position mould seat 73 of cleaning station; stop motion when air blowing push rod 71 goes downwards near Split mold device 2; blow facing to the circle dress powder die cavity of Split mold device 2 with certain pressure in air blowing push rod 71 gas outlets; the powder that sticks on the Split mold device 2 circular dress powder die cavitys is cleaned out; then the push rod 71 of blowing continues descending; push rod in the Split mold device 2 is resetted; finish the demoulding and the cleaning of Split mold device 2, finally demould manipulator 72 is sent Split mold device 2 back to mould conveyer belt 1.

As shown in Figure 6, Multi-parameter Automatic Examination System 8 comprises automatic checkout system workbench 81, is arranged on battery cell measurement mechanism 82, the second electronic balance 83, sucker manipulator 84, the waste product box 85 on the automatic checkout system workbench 81 and the product conveyor 86 that is arranged on automatic checkout system workbench 81 outsides; The second electronic balance 83 is positioned at the left side of sucker manipulator 84, battery cell measurement mechanism 82 is positioned at the left side of the second electronic balance 83, product conveyor 86 is positioned at the right side of sucker manipulator 84, waste product box 85 is positioned at the front of sucker manipulator 84, under computer control, sucker manipulator 84 picks up battery cell and delivers to first on the second electronic balance 83 and put down gently, gather simultaneously the weight data of tested battery cell, then compare with battery cell weight set point and franchise value, weight is overproof, and sucker manipulator 84 picks up battery cell and directly delivers to waste product box 85; Weight measurement is qualified, sucker manipulator 84 picks up battery cell again, deliver on the battery cell measurement mechanism 82, implement insulation resistance and the thickness measure of battery cell, through comparing with pre-set parameter and franchise value, when both qualified, sucker manipulator 84 picks up battery cell, deliver to product conveyor 86, otherwise sucker manipulator 84 is delivered to waste product box 85 with defective battery cell.

As shown in Figure 7, turntable 3 is provided with and send that die worker position 311, heating powder powder feeding station 312, heating powder strike off that station 313, positive powder powder feeding station 314, positive powder strike off that station 315, insulating powder powder feeding station 316, insulating powder strike off station 317, place asbestos ring station 318, the evenness video detects station 319, negative pole powder powder feeding station 320, negative pole powder strike off station 321 and delivery station 322.

As described in Fig. 1 ~ Fig. 7, during the utility model the field, accurately Weighing system 4 is corresponding with heating powder powder feeding station 312, positive powder powder feeding station 314, insulating powder powder feeding station 316, negative pole powder powder feeding station 320 respectively automatically for four powders, and four multilayer powders automatically strike off system 5 and strike off station 313, positive powder with the heating powder respectively to strike off that station 315, insulating powder strike off station 317, the negative pole powder strikes off station 321 corresponding.The automatically accurate Weighing system 4 of powder automatically strikes off system 5 by turntable 3 and multilayer powder and is connected mutually, and the multilayer powder automatically strikes off system 5, compressing system 6, demoulding cleaning system 7 and Multi-parameter Automatic Examination System 8 and is connected mutually successively by manipulator.

The production line workflow is from sending mould manipulator 9 to get sky Split mold device 2 from mould conveyer belt 1; its die worker position 311 of sending of serving turntable 3 is begun, and powder is accurately Weighing system 4 separately weighing and feeding of enforcement heating powder, positive powder, insulating powder, negative pole powder under computer control automatically.Each Weighing system is poured the underproof powder of weighing into waste material box 43, and the qualified powder of weighing is placed in the material cup 47 on Weighing system the first electronic balance 44 separately, waits for the crawl of powder feeding manipulator 42; The heating powder powder that powder feeding manipulator 42 is qualified with weighing is picked up, and turns over 180 °, pours in the Split mold device 2 that heats on the turntable 3 on the powder powder feeding station 312, and powder feeding manipulator 42 resets; Turntable 3 turns over a station, and the multilayer powder automatically strikes off on 5 pairs of turntables 3 of system the heating powder that the heating powder strikes off in the Split mold device on the station 313 and strikes off; Turntable 3 turns over a station, and the positive powder powder that powder feeding manipulator 42 is qualified with weighing is picked up, and turns over 180 °, pours on the turntable 3 in the anodal powder feeding station of the powder 314 Split mold devices 2, and powder feeding manipulator 42 resets; Turntable 3 turns over a station, and the multilayer powder automatically strikes off on 5 pairs of turntables 3 of system positive powder and strikes off that the positive powder in the Split mold device 2 strikes off on the station 315; Turntable 3 turns over a station, and the insulating powder powder that powder feeding manipulator 42 is qualified with weighing is picked up, and turns over 180 degree, pours on the turntable 3 on the insulating powder powder feeding station 316 in the Split mold device 2, and powder feeding manipulator 42 resets; Turntable 3 turns over a station, and the multilayer powder automatically strikes off on 5 pairs of turntables 3 of system insulating powder and strikes off that the insulating powder in the Split mold device 2 strikes off on the station 317; When insulating powder strikes off end, turntable 3 turns over a station, and operating personnel will be at the asbestos ring station 318 manual asbestos rings of placing; Turntable 3 turns over a station, and the evenness detection is carried out on the surface after the camera of evenness video detection station 319 tops can strike off insulating powder, and testing result can be presented on the screen in asbestos ring operating personnel the place ahead; If production line work normal operation, yellow " system's normal operation " double-button on operating personnel's push panel of asbestos ring placement station; Turntable 3 turns over a station, and the negative pole powder powder that powder feeding manipulator 42 is qualified with weighing is picked up, and turns over 180 °, pours on the turntable 3 in the negative pole powder powder feeding station 320 Split mold devices 2, and powder feeding manipulator 42 resets; Turntable 3 turns over a station, and the multilayer powder automatically strikes off on 5 pairs of turntables 3 of system the negative pole powder and strikes off that the negative pole powder in the Split mold device strikes off on the station 321; Turntable 3 turns over a station, and what the Split mold device 2 on the delivery station 322 of turntable 3 had been finished heating powder, positive powder, insulating powder, negative pole powder four layers of powder successively strikes off operation; Delivery manipulator 61 is delivered to press 62 with Split mold device 2 and is pressed into pie afterwards; Deliver to the pie cell on the demoulding station of demoulding cleaning system 7 together with Split mold device 2 by stripping manipulator 72 again, through stripping operation, the battery cell product is delivered to Multi-parameter Automatic Examination System 8 by sucker manipulator 84 and is detected, it is qualified to detect, sucker manipulator 84 puts it on the product conveyor 86, detects defective sucker manipulator 84 and puts it into waste product box 85; And empty Split mold device 2 is delivered to by stripping manipulator 72 on the cleaning station of demoulding cleaning system 7, through cleaning and the restoration disposal to Split mold device 2, again Split mold device 2 is delivered on the mould conveyer belt 1, and Split mold device 2 recycles.

In sum, a kind of lithium battery production system can guarantee the battery product quality, enhances productivity, and improves work situation.

Although content of the present utility model has been done detailed introduction by above preferred embodiment, will be appreciated that above-mentioned description should not be considered to restriction of the present utility model.After those skilled in the art have read foregoing, for multiple modification of the present utility model with to substitute all will be apparent.Therefore, protection range of the present utility model should be limited to the appended claims.

Claims (7)

1. lithium battery production system, comprise mould conveyer belt (1), described mould conveyer belt (1) is used for carrying Split mold device (2), it is characterized in that, this system also comprises turntable (3), several powders, and accurately Weighing system (4), several multilayer powders strike off system (5), compressing system (6), demoulding cleaning system (7) and Multi-parameter Automatic Examination System (8) automatically automatically;
Automatically accurately Weighing system (4) and multilayer powder strike off the periphery that system (5) is disposed on turntable (3) to described powder automatically;
The automatically accurate Weighing system (4) of described powder automatically strikes off system (5) by turntable (3) and multilayer powder and is connected mutually;
Described multilayer powder automatically strikes off system (5), compressing system (6), demoulding cleaning system (7) and Multi-parameter Automatic Examination System (8) and is connected mutually successively by manipulator.
2. lithium battery production system according to claim 1 is characterized in that, described turntable (3) is provided with several stations.
3. lithium battery production system according to claim 2, it is characterized in that, described powder automatically accurately Weighing system (4) comprise powder automatic weighing workbench (41) and be arranged on automatic weighing workbench (41) powder feeding manipulator (42), waste material box (43), the first electronic balance (44), pay-off (45), be arranged on the first servomotor (46) on the pay-off (45) and be arranged on material cup (47) on the electronic balance (44);
Described powder feeding manipulator (42), waste material box (43), the first electronic balance (44) are connected 45 with pay-off) successively connection setting;
Wherein a certain station is connected mutually on described powder feeding manipulator (42) and the turntable (3).
4. lithium battery production system according to claim 2, it is characterized in that, described multilayer powder automatically strikes off system (5) and comprises the second servomotor (51), scraping device (52), laser displacement sensor (53), scraper (54), Split mold and strike off positioner (55) and automatically strike off pedestal (56);
Described the second servomotor (51), scraping device (52), laser displacement sensor (53) are connected 54 with scraper) connection arranges successively from top to bottom;
Described scraper (54) is arranged on the top of turntable (3);
Described Split mold strikes off positioner (55) and is arranged on the below of turntable (3), and is arranged on and automatically strikes off on the pedestal (56).
5. lithium battery production system according to claim 2 is characterized in that, described compressing system (6) comprises delivery manipulator (61), press (62), pressure setting (63) and mold cramping assembly (64);
Described press (62) is connected with turntable (3) by delivery manipulator (61);
Described pressure setting mould (63), mold cramping assembly (64) are installed on the working face of press (62);
The delivery manipulator takes off the Split mold device (2) that the multilayer powder is housed from turntable (3); directly it is sent in the pressure setting (63) that is contained on the press (62); mold cramping assembly (64) clamps Split mold device (2); press (62) is implemented compacting; then the compacting of battery cell is finished in die sinking.
6. lithium battery production system according to claim 5, it is characterized in that, described demoulding cleaning system (7) comprises air blowing push rod (71), stripping manipulator (72), fettler position mould seat (73), demoulding cleaning system works platform (74), demoulding clamping device (75), demoulding station mold base (76) and demoulding liftout attachment (77);
Described stripping manipulator (72) is connected with press (62);
Described fettler position mould seat (73), demoulding station mold base (76) are arranged on the demoulding cleaning system works platform (74);
Described air blowing push rod (71), demoulding clamping device (75) are separately positioned on fettler position mould seat (73), demoulding station mold base (76) top;
Described demoulding liftout attachment (77) is arranged on demoulding station mold base (76) bottom.
7. lithium battery production system according to claim 2, it is characterized in that, described Multi-parameter Automatic Examination System (8) comprises automatic checkout system workbench (81), is arranged on battery cell measurement mechanism (82), the second electronic balance (83), sucker manipulator (84), the waste product box (85) on the automatic checkout system workbench (81) and is arranged on the outside product conveyor (86) of automatic checkout system workbench (81);
Described battery cell measurement mechanism (82) is arranged on a side of sucker manipulator (84);
Described the second electronic balance (83) is arranged between battery cell measurement mechanism (82) and the sucker manipulator (84);
Described sucker manipulator (84) is connected mutually with demoulding cleaning system (7), product conveyor (86).
CN2012200555571U 2011-05-26 2012-02-21 Lithium battery production system CN202758980U (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
CN201120171543.1 2011-05-26
CN201120171543 2011-05-26
CN2012200555571U CN202758980U (en) 2011-05-26 2012-02-21 Lithium battery production system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2012200555571U CN202758980U (en) 2011-05-26 2012-02-21 Lithium battery production system

Publications (1)

Publication Number Publication Date
CN202758980U true CN202758980U (en) 2013-02-27

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN2012200555571U CN202758980U (en) 2011-05-26 2012-02-21 Lithium battery production system

Country Status (1)

Country Link
CN (1) CN202758980U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103730670A (en) * 2014-01-13 2014-04-16 周俊雄 Full-automatic lithium-manganese battery production line

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103730670A (en) * 2014-01-13 2014-04-16 周俊雄 Full-automatic lithium-manganese battery production line
CN103730670B (en) * 2014-01-13 2016-01-27 周俊雄 Full-automatic lithium-manganese battery production line

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Granted publication date: 20130227

Termination date: 20140221