CN104064811B

CN104064811B - A kind of power soft package lithium battery encapsulation automatic production line

Info

Publication number: CN104064811B
Application number: CN201410264708.8A
Authority: CN
Inventors: 张乐贡; 马永坤; 潘慧
Original assignee: Shandong Ataw Industrial Robot Science & Technology Co Ltd
Current assignee: Shandong Ataw Industrial Robot Science & Technology Co Ltd
Priority date: 2014-06-13
Filing date: 2014-06-13
Publication date: 2016-04-06
Anticipated expiration: 2034-06-13
Also published as: CN104064811A

Abstract

The invention discloses a kind of power soft package lithium battery encapsulation automatic production line, belong to packaging system, its structure comprises fixture automatic circulation device, described fixture automatic circulation device circumferencial direction is disposed with aluminum plastic film punching hole station, battery feeding station, doubling station, side seal station, closedtop station and cut discharge station, described station place, aluminum plastic film punching hole is provided with aluminum plastic film and automatically rushes hole machine, doubling station place is provided with aluminum plastic film doubling-up device, side seal station place is provided with aluminum plastic film lateral seal, closedtop station place is provided with aluminum plastic film top package device, cut discharge station place to be provided with aluminum plastic film and to cut blanking device.A kind of power soft package lithium battery encapsulation automatic production line of the present invention has and can save labour, enhances productivity, can save material and the high and feature such as stable of crudy, thus have good application value.

Description

A kind of power soft package lithium battery encapsulation automatic production line

Technical field

The present invention relates to a kind of packaging system, especially a kind of power soft package lithium battery encapsulation automatic production line.

Background technology

Carrying out in the production of power soft package lithium battery, a procedure is had to be cell aluminum-plastic membrane encapsulation operation, existing encapsulation operation is generally the Soft Roll aluminum plastic film that battery is housed manually is sheared backlash hole, battery is put in aluminum plastic film hole, then carries out encapsulating, manually carrying out closedtop trimming after artificial doubling; This production process circuit is separate, is interconnected by a dead lift operation, from punching hole to encapsulation, shears, completes cell package, that is:

Punching hole operation: artificial aluminum plastic film charging → shearing → punching hole → carrying;

Packaging process: pond, manual discharge core → aluminum plastic film doubling → side seal → closedtop → angle envelope;

Cutting operation: a dead lift → artificial cutting edge;

From above operation, there is following defect in existing power soft package lithium battery encapsulation production process:

1, aluminum plastic film needs repeatedly to carry and operation of feeding and discharging, and the production equipment stop-and-wait time is long.

2, workman needs repeatedly to carry and operation of feeding and discharging cell package, and labour intensity is large.

3, through repeatedly carrying and operation of feeding and discharging cause quality instability, production efficiency is low, human cost is higher.

4, dispersion arranged by production equipment, and floor space is large, requires that plant area is large.

Summary of the invention

Technical assignment of the present invention provides a kind of power soft package lithium battery to encapsulate automatic production line for above-mentioned deficiency of the prior art, this a kind of power soft package lithium battery encapsulation automatic production line has and can save labour, enhances productivity, can save material and the high and stable feature of crudy.

The technical solution adopted for the present invention to solve the technical problems is: it comprises fixture automatic circulation device, described fixture automatic circulation device circumferencial direction is disposed with aluminum plastic film punching hole station, battery feeding station, doubling station, side seal station, closedtop station and cut discharge station, described station place, aluminum plastic film punching hole is provided with aluminum plastic film and automatically rushes hole machine, doubling station place is provided with aluminum plastic film doubling-up device, side seal station place is provided with aluminum plastic film lateral seal, closedtop station place is provided with aluminum plastic film top package device, cut discharge station place to be provided with aluminum plastic film and to cut blanking device.

Described fixture automatic circulation device comprises support, dispenser, rotating disk, revolving support and upset frock, described dispenser is arranged on the top of support, the top of described dispenser is provided with rotating disk, be provided with revolving support between described rotating disk and support, described rotating disk be circumferentially evenly provided with six upset frocks, described each upset frock comprises base plate respectively, side plate, fixed head, returning face plate, supporting bracket, connecting plate, rotating shaft, gear and tooth bar, described base plate rear end and rotating disk fix, described side plate comprises two, be separately positioned on the left and right sides of base plate, the top of two described side plates is respectively arranged with rotating shaft, rotating shaft one end is through side plate, the other end is connected with returning face plate with fixed head respectively by connecting plate, described fixed head and returning face plate are hinged, described fixed head and be provided with supporting bracket between returning face plate bottom and base plate, the rotating shaft of the side that connecting plate is connected with returning face plate is provided with gear, described gear matches with the tooth bar vertically arranged, described supporting bracket comprises two, is symmetricly set on the left and right sides of base plate.

Described aluminum plastic film automatically rushes hole machine and comprises aluminium section bar support, uncoiling mechanism and Chong Keng mechanism, described uncoiling mechanism and Chong Keng mechanism are separately positioned on aluminium section bar support, described aluminium section bar support is also provided with front clamp cutting mechanism, rear cutting mechanism, filming-drawing mechanism, punching hole film transfering mechanism and Tuo Mo mechanism, described uncoiling mechanism, Chong Keng mechanism, front clamp cutting mechanism, Tuo Mo mechanism, rear cutting mechanism and filming-drawing mechanism are successively set on aluminium section bar support from front to back, and described rushes the right side that hole film transfering mechanism is arranged on aluminium section bar support;

Described Chong Keng mechanism comprises lower pressurized cylinder, lower pressurized cylinder fixed head, counterdie lead, counterdie slide plate, counterdie, upper mold core, patrix, upper mould fixed plate, upper mold core lead, upper mold core slide plate, upper mold core slide plate guide rod, upper pressurized cylinder fixed head and upper pressurized cylinder, described lower pressurized cylinder is arranged on lower pressurized cylinder fixed head, described counterdie lead is arranged between lower pressurized cylinder fixed head and upper mould fixed plate, described counterdie slide plate is arranged on counterdie lead, counterdie slide plate bottom connects with the cylinder bar of lower pressurized cylinder, described counterdie is arranged on counterdie slide plate, patrix is arranged on below upper mould fixed plate, connect with upper mold core slide plate guide rod between described upper mould fixed plate and upper pressurized cylinder fixed head, described upper mold core slide plate is arranged on upper mold core slide plate guide rod, upper mold core slide plate bottom is also connected with upper mold core by upper mold core lead, upper mold core is enclosed within the upper cavity of patrix, described counterdie is provided with the lower mode cavity corresponding with the upper cavity of patrix, described upper pressurized cylinder fixed head is provided with pressurized cylinder, the cylinder bar of upper pressurized cylinder is connected with upper mold core slide plate, described lower pressurized cylinder fixed head is arranged on aluminium section bar support,

Described counterdie lead comprises 4, is separately positioned on four angles of lower pressurized cylinder fixed head and upper mould fixed plate;

Described upper mold core slide plate guide rod comprises 4, is separately positioned on four angles of upper mould fixed plate and upper pressurized cylinder fixed head;

Described front clamp cutting mechanism shears side plate, clamp system and cutting mechanism before comprising two, left and right, shears the left side between side plate and right side about described clamp system and cutting mechanism are separately positioned on before two, described cutting mechanism comprises cutting knife upper mounted plate, cutting knife bottom plate, shear guide rod, upper slitter slide plate, upper slitter, cutting knife upper cylinder, lower cutter slide plate, lower cutter and cutting knife lower cylinder, described cutting knife upper mounted plate and cutting knife bottom plate shear the upper and lower of rear side between side plate before being separately positioned on two, left and right, described shearing guide rod is arranged between cutting knife upper mounted plate and cutting knife bottom plate, described upper slitter slide plate and lower cutter slide plate are arranged on respectively from top to bottom to be sheared on guide rod, the bottom of described upper slitter slide plate is provided with upper slitter, the top of lower cutter slide plate is provided with lower cutter, described upper slitter is corresponding with lower cutter to be arranged, described cutting knife upper mounted plate is fixed with cutting knife upper cylinder, the cylinder bar of cutting knife upper cylinder is connected with upper slitter slide plate, described cutting knife bottom plate is fixed with cutting knife lower cylinder, the cylinder bar of cutting knife lower cylinder is connected with lower cutter slide plate, described clamp system comprises clamping upper mounted plate, clamping guide rod, clamping slide plate, clamping bottom plate and clamping cylinder, the upper and lower of front side between side plate is sheared before described clamping upper mounted plate and clamping bottom plate are separately positioned on two, left and right, described clamping upper mounted plate height is lower than cutting knife upper mounted plate, clamping guide rod is provided with between described clamping upper mounted plate and clamping bottom plate, described clamping guide rod is provided with clamping slide plate, described clamping bottom plate is fixed with clamping cylinder, the cylinder bar of clamping cylinder is connected with clamping slide plate, shearing side plate before two, described left and right is separately fixed on aluminium section bar support,

Described shearing guide rod comprises two, is symmetricly set on the left and right sides between cutting knife upper mounted plate and cutting knife bottom plate;

Described clamping guide rod comprises two, is symmetricly set on the left and right sides between clamping upper mounted plate and clamping bottom plate;

Described Tuo Mo mechanism comprises lower portable plate, holder film guide rod, holder film base, supporting plate and holder film cylinder, described lower portable plate is arranged on aluminium section bar support, to be connected by holder film guide rod between portable plate with supporting plate down, described holder film guide rod comprises top guide bar and lower guide rod, top and the supporting plate of described top guide bar fix, bottom is inserted in lower guide rod, described lower guide rod bottom and lower portable plate fix, top is through holder film base, and fix with holder film base, described holder film base is fixed on aluminium section bar support, holder film cylinder is fixed on holder film base, its cylinder bar is connected with supporting plate,

Described rear cutting mechanism comprises rear shearing side plate, rear cutting knife fixed glides, rear cutting knife, rear shearing cylinder and rear shearing air cylinder fixed plate, described rear shearing side plate comprises two, be separately positioned on the left and right sides of aluminium section bar support, described two tops afterwards between shearing side plate are provided with rear shearing air cylinder fixed plate, described rear shearing air cylinder fixed plate is fixed with rear shearing cylinder, the cylinder bar of rear shearing cylinder is connected with rear cutting knife fixed glides, and described rear cutting knife is arranged on rear cutting knife fixed glides bottom;

Described filming-drawing mechanism comprises platen, line slideway, membrane base, connecting plate, upper mounted plate, train wheel bridge, membrane cylinder, membrane slide plate, lower plate, servomotor, membrane guide rod and roller screw, described line slideway, servomotor and roller screw are arranged on platen respectively, membrane base is arranged on the nut top of slide block and the roller screw coordinated with line slideway, roller screw is connected with the axle of servomotor, described upper mounted plate is connected with membrane base by connecting plate, described connecting plate comprises two, be separately positioned on the left and right sides of membrane base, membrane guide rod is provided with between described upper mounted plate and membrane base, membrane guide rod is provided with membrane slide plate, described membrane slide plate is provided with lower plate, described upper mounted plate is provided with the train wheel bridge matched with lower plate, the middle part of described platen is provided with Tuo Mo mechanism and imports and exports, the left and right sides of platen is respectively arranged with rear cutting mechanism posting port, two of described rear cutting mechanism shear side plate afterwards and be each passed through rear cutting mechanism posting port and aluminium section bar support fixes.

Described aluminum plastic film doubling-up device comprises aluminum plastic film press mechanism and returning face plate Shang Ding mechanism, described aluminum plastic film press mechanism comprises plate bracket, base plate, riser, jacking cylinder mounting plate, supporting plate, pressing plate, jacking cylinder and mobile cylinder, before and after the top of described base plate, both sides are respectively arranged with riser, the top of described riser is provided with jacking cylinder mounting plate, described jacking cylinder mounting plate top is provided with supporting plate, the top of described supporting plate is provided with pressing plate, the bottom of described jacking cylinder mounting plate is fixed with jacking cylinder, the cylinder bar of jacking cylinder is connected with supporting plate bottom, described base plate bottom is provided with plate bracket, described base plate is connected with slide block by line slideway with plate bracket, described line slideway is horizontally installed on plate bracket, described slide block is arranged on base plate bottom and matches with line slideway, described mobile cylinder is fixed on plate bracket, its cylinder bar is connected with base plate, described returning face plate Shang Ding mechanism comprises ceiling hold, upper top gas cylinder and joint, and described upper top gas cylinder is arranged on ceiling hold, and the cylinder bar of upper top gas cylinder is connected with joint, and described joint is arranged on the tooth bar bottom of the upset frock on doubling station.

Described aluminum plastic film lateral seal comprises side seal support, upper heat seal end socket, lower heat seal end socket, upper cover cylinder, bottom head cylinder, heat seal C type support, base plate, top board, side seal level pushes cylinder and hydraulic buffering mechanism, described top board is connected respectively by heat seal C type support with the left and right sides between base plate, described upper cover cylinder is fixed on top board, its cylinder bar is connected with upper heat seal end socket, described bottom head cylinder is fixed on base plate, its cylinder bar is connected with lower heat seal end socket, between described upper heat seal end socket and top board, guide post is respectively arranged with between lower heat seal end socket and base plate, described upper heat seal end socket is arranged with lower heat seal end socket is corresponding up and down, described side seal Bracket setting is in base plate bottom, described side seal level pushes cylinder and is arranged on side seal support, its cylinder bar is connected with base plate, be connected with slide block by line slideway between described base plate with side seal support, described line slideway is longitudinally arranged on side seal frame upper, slide block is arranged on base plate bottom and matches with line slideway, described hydraulic buffering mechanism is hydraulic bjuffer, described hydraulic bjuffer is arranged on the front side of side seal frame upper.

Described aluminum plastic film top package device comprises closedtop support, upper heat seal end socket, lower heat seal end socket, upper cover cylinder, bottom head cylinder, heat seal C type support, base plate, top board, closedtop level pushes cylinder and hydraulic buffering mechanism, described top board is connected respectively by heat seal C type support with the left and right sides between base plate, described upper cover cylinder is fixed on top board, its cylinder bar is connected with upper heat seal end socket, described bottom head cylinder is fixed on base plate, its cylinder bar is connected with lower heat seal end socket, between described upper heat seal end socket and top board, guide post is respectively arranged with between lower heat seal end socket and base plate, described upper heat seal end socket is arranged with lower heat seal end socket is corresponding up and down, described closedtop Bracket setting is in base plate bottom, described closedtop level pushes cylinder and is arranged on closedtop support, its cylinder bar is connected with base plate, be connected with slide block by line slideway between described base plate with closedtop support, described line slideway is horizontally installed on closedtop frame upper, slide block is arranged on base plate bottom and matches with line slideway, described hydraulic buffering mechanism is hydraulic bjuffer, described hydraulic bjuffer is arranged on the left side of closedtop frame upper.

Described aluminum plastic film cuts blanking device and comprises grabbing device, shear frock and cutter assembly, described grabbing device, shearing frock and cutter assembly are separately positioned on support, the top of described support is provided with base plate, described shearing frock and cutter assembly are arranged on base plate top, described grabbing device comprises mounting panel, stepping motor, synchronous driving pulley, synchronous driven pulley, Timing Belt, Timing Belt pressing plate, connecting plate, sucker stand, sucker moves cylinder, sucker mounting panel and sucker, described mounting panel is fixed on the rear side of support, the rear side of described mounting panel is provided with stepping motor, front side the right and left of described mounting panel is respectively arranged with synchronous driven pulley and synchronous driving pulley, described synchronous driving pulley is arranged on the motor shaft of stepping motor, described synchronous driving pulley is provided with Timing Belt with between synchronous driven pulley, described Timing Belt is connected with connecting plate by Timing Belt pressing plate, the rear side of described connecting plate is provided with slide block, slide block matches with line slideway, described line slideway is laterally fixed on the mounting panel of Timing Belt bottom, the front end of described connecting plate is connected with sucker stand, the left and right sides of described sucker stand is respectively arranged with sucker and moves cylinder, the cylinder bar that sucker moves cylinder is connected to sucker mounting panel, sucker is provided with bottom described sucker mounting panel, described sucker is positioned at the top of shearing frock, be positioned at the rear side of cutter assembly,

Described connecting plate comprises vertical connecting plate and cross connecting plate, floor is provided with between described vertical connecting plate and cross connecting plate, described Timing Belt pressing plate is arranged on cross connecting plate top, is connected with cross connecting plate, and described slide block is arranged on the rear side of vertical connecting plate;

The bottom of described each sucker mounting panel is respectively arranged with four suckers, and four described suckers are separately positioned on four angles of sucker mounting panel;

The bottom of described shearing frock is fixed by frock connecting plate and base plate;

Described cutter assembly comprises upper cutter fixed head, lower cutter fixed head, upper cutter slide plate, lower cutter slide plate, upper cutter, lower cutter, fixed head connecting rod, guide rod, upper cutter moves cylinder, lower cutter moves cylinder, cutting knife moving slider, cutting knife shifting sledge and cutter assembly move cylinder, described lower cutter fixed head is connected by fixed head connecting rod with on front side of upper cutter fixed head, rear side is connected by guide rod, described guide rod is provided with upper cutter slide plate and lower cutter slide plate, described upper cutter slide plate and lower cutter slide plate are respectively arranged with upper cutter and lower cutter, described upper cutter fixed head and lower cutter fixed head are respectively arranged with upper cutter and move cylinder and lower cutter moves cylinder, the cylinder bar that upper cutter moves cylinder is connected with upper cutter slide plate, the cylinder bar that lower cutter moves cylinder is connected with lower cutter slide plate, the bottom, the left and right sides of described lower cutter fixed head is respectively arranged with cutting knife moving slider, described cutting knife moving slider matches with cutting knife shifting sledge, described cutting knife shifting sledge is arranged on the left and right sides on front side of base plate, described base plate is also provided with cutter assembly and moves cylinder, the cylinder bar that cutter assembly moves cylinder is connected with one of them cutting knife moving slider.

A kind of power soft package lithium battery encapsulation automatic production line of the present invention compared to the prior art, there is following outstanding beneficial effect: power soft package lithium battery aluminum plastic film punching hole, side seal, closedtop and cutting operation are carried out on same production line, save the transhipment man-hour that the material loading, blanking procedure operating time and each line that exist in former operation are connected mutually, save the time, productivity ratio greatly improves; When power soft package lithium battery is encapsulated, need not circulate in different working regions, decrease the much unnecessary duplication of labour, have production efficiency high, reduce labour intensity, and reduce the features such as production cost.

Accompanying drawing explanation

Accompanying drawing 1 is the plan structure schematic diagram of a kind of power soft package lithium battery encapsulation automatic production line;

Accompanying drawing 2 is main TV structure schematic diagrames of the fixture automatic circulation device shown in Fig. 1;

Accompanying drawing 3 is plan structure schematic diagrames of the fixture automatic circulation device shown in Fig. 1;

Accompanying drawing 4 is main TV structure schematic diagrames of the upset frock in fixture automatic circulation device;

Accompanying drawing 5 is axle side structure schematic diagrames that the aluminum plastic film shown in Fig. 1 rushes hole machine automatically;

Accompanying drawing 6 is front sectional view of the Chong Keng mechanism shown in Fig. 5;

Accompanying drawing 7 is axle side structure schematic diagrames of the Tuo Mo mechanism shown in Fig. 5;

Accompanying drawing 8 is the axle side structure schematic diagrames rushing hole film transfering mechanism shown in Fig. 5;

Accompanying drawing 9 is that the master of the front clamp cutting mechanism shown in Fig. 5 looks shaft side figure;

Accompanying drawing 10 is backsight shaft side figures of the front clamp cutting mechanism shown in Fig. 5;

Accompanying drawing 11 is axle side structure schematic diagrames of the filming-drawing mechanism shown in Fig. 5;

Accompanying drawing 12 is axle side structure schematic diagrames of the aluminum plastic film lateral seal shown in Fig. 1;

Accompanying drawing 13 is axle side structure schematic diagrames of the aluminum plastic film top package device shown in Fig. 1;

Accompanying drawing 14 is left TV structure schematic diagrames of the aluminum plastic film top package device shown in Figure 13;

Accompanying drawing 15 is main TV structure schematic diagrames that the aluminum plastic film shown in Fig. 1 cuts blanking device;

Accompanying drawing 16 is plan structure schematic diagrames that the aluminum plastic film shown in Fig. 1 cuts blanking device;

Accompanying drawing 17 is left TV structure schematic diagrames that the aluminum plastic film shown in Fig. 1 cuts blanking device;

Accompanying drawing 18 is axle side structure schematic diagrames that the aluminum plastic film shown in Fig. 1 cuts blanking device;

Accompanying drawing 19 is axle side structure schematic diagrames of the aluminum plastic film press mechanism in aluminum plastic film doubling-up device;

Accompanying drawing 20 is axle side structure schematic diagrames of the returning face plate Shang Ding mechanism in aluminum plastic film doubling-up device;

Description of reference numerals:

1. fixture automatic circulation device: 11. supports, 12. dispensers, 13. rotating disks, 14. revolving support, 15. upset frocks, 151. base plates, 152. side plates, 153. fixed heads, 154. returning face plates, 155. supporting brackets, 156. connecting plates, 157. rotating shafts, 158. gears, 159. tooth bars;

2. aluminum plastic film rushes hole machine automatically: 21, aluminium section bar support; 22, uncoiling mechanism;

23, Chong Keng mechanism, pressurized cylinder, 2314. upper cavities, 2315. lower mode cavities on pressurized cylinder fixed head, 2313. on 231. times pressurized cylinders, 232. times pressurized cylinder fixed heads, 233. counterdie leads, 234. counterdie slide plates, 235. counterdies, 236. upper mold core, 237. patrixes, 238. upper mould fixed plates, 239. upper mold core leads, 2310. upper mold core slide plates, 2311. upper mold core slide plate guide rods, 2312.;

24, front clamp cutting mechanism, shears side plate, 242. cutting knife bottom plates, 243. cutting knife lower cylinders, 244. times cuttves, 245. times cutter slide plates, 246. shearing guide rods, 247. upper slitters, 248. upper slitter slide plates, 249. cutting knife upper mounted plates, 2410. cutting knife upper cylinders, 2411. clamping cylinders, 2412. clamping bottom plates, 2413. clamping slide plates, 2414. clamping guide rods, 2415. clamping upper mounted plates before 241.;

25, rear cutting mechanism, shears air cylinder fixed plate after shearing cylinder, 255. after 251. after shearing side plate, 252. after cutting knife fixed glides, 253. after cutting knife, 254.;

26, filming-drawing mechanism, cutting mechanism posting ports after 261. platens, 262. line slideways, 263. membrane bases, 264. connecting plates, 265. upper mounted plates, 266. train wheel bridges, 267. membrane cylinders, 268. membrane slide plates, 269. lower plates, 2610. servomotors, 2611. membrane guide rods, 2612. roller screws, 2613. Tuo Mo mechanisms import and export, 2614.;

27, punching hole film transfering mechanism, 271. transverse shifting cylinders, 272. lifting cylinders, 273. upper junction plates, 274. vacuum capture plate;

28, Tuo Mo mechanism, 281. times portable plates, 282. holder film guide rods, 283. holder film bases, 284. supporting plates, 285. holder film cylinders, 286. top guide bars, 287. lower guide rods;

3. aluminum plastic film lateral seal: on 31. side seal supports, 32., heat seal end socket, 33. times heat seal end sockets, 34. upper cover cylinders, 35. bottom head cylinders, 36. heat seal C type supports, 37. base plates, 38. top boards, 39. side seal levels push cylinder, 310. hydraulic buffering mechanisms, 311. guide posts, 312. line slideways, 313. slide blocks;

4. aluminum plastic film top package device: on 41. closedtop supports, 42., heat seal end socket, 43. times heat seal end sockets, 44. upper cover cylinders, 45. bottom head cylinders, 46. heat seal C type supports, 47. base plates, 48. top boards, 49. closedtop levels push cylinder, 410. hydraulic buffering mechanisms, 411. guide posts, 412. line slideways, 413. slide blocks;

5. aluminum plastic film cuts blanking device:

51. grabbing devices, 511. mounting panels, 512. stepping motors, 513. synchronous driving pulleys, 514. synchronous driven pulleys, 515. Timing Belts, 516. Timing Belt pressing plates, 517. connecting plates, 518. sucker stands, 519. suckers move cylinder, 5110. sucker mounting panels, 5111. suckers, 5112. slide blocks, 5113. line slideways, 5114. vertical connecting plates, 5115. cross connecting plates, 5116. floors;

52. shear frock;

53. cutter assemblies, 531. upper cutter fixed heads, 532. lower cutter fixed heads, 533. upper cutter slide plates, 534. lower cutter slide plates, 535. upper cutters, 536. lower cutters, 537. fixed head connecting rods, 538. guide rods, 539. upper cutters move cylinder, 5310. lower cutters move cylinder, 5311. cutting knife moving sliders, 5312. cutting knife shifting sledges, 5313. cutter assemblies move cylinder;

54. supports; 55. base plates; 56. frock connecting plates;

6. aluminum plastic film doubling-up device:

61. aluminum plastic film press mechanisms, 611. plate brackets, 612. base plates, 613. risers, 614. jacking cylinder mounting plates, 615. supporting plates, 616. pressing plates, 617. jacking cylinders, 618. move cylinder, 619. line slideways, 6110. slide blocks;

62. returning face plate Shang Ding mechanisms, top gas cylinder, 623. joints on ceiling hold, 622. on 621..

Embodiment

With reference to Figure of description 1 to accompanying drawing 20, a kind of power soft package lithium battery encapsulation automatic production line of the present invention is described in detail below.

A kind of power soft package lithium battery encapsulation automatic production line of the present invention, its structure comprises fixture automatic circulation device 1, described fixture automatic circulation device 1 circumferencial direction is disposed with aluminum plastic film punching hole station, battery feeding station, doubling station, side seal station, closedtop station and cut discharge station, described station place, aluminum plastic film punching hole is provided with aluminum plastic film and automatically rushes hole machine 2, doubling station place is provided with aluminum plastic film doubling-up device 6, side seal station place is provided with aluminum plastic film lateral seal 3, closedtop station place is provided with aluminum plastic film top package device 4, cut discharge station place to be provided with aluminum plastic film and to cut blanking device 5.

Described fixture automatic circulation device 1 comprises support 11, dispenser 12, rotating disk 13, revolving support 14 and upset frock 15, described dispenser 12 is arranged on the top of support 11, the top of described dispenser 12 is provided with rotating disk 13, be provided with revolving support 14 between described rotating disk 13 and support 11, described rotating disk 13 be circumferentially evenly provided with six upset frocks 15, described each upset frock 15 comprises base plate 151 respectively, side plate 152, fixed head 153, returning face plate 154, supporting bracket 155, connecting plate 156, rotating shaft 157, gear 158 and tooth bar 159, described base plate 151 rear end and rotating disk 13 fix, described side plate 152 comprises two, be separately positioned on the left and right sides of base plate 151, the top of two described side plates 152 is respectively arranged with rotating shaft 157, rotating shaft 157 one end is through side plate 152, the other end is connected with returning face plate 154 with fixed head 153 respectively by connecting plate 156, described fixed head 153 and returning face plate 154 are hinged, described fixed head 153 and be provided with supporting bracket 155 between returning face plate 154 bottom and base plate 151, the rotating shaft 157 of the side that connecting plate 156 is connected with returning face plate 154 is provided with gear 158, described gear 158 matches with the tooth bar 159 vertically arranged, described supporting bracket 155 comprises two, is symmetricly set on the left and right sides of base plate 151.

During start, dispenser 12 rotates a calibration, rotating disk 13 rotates 60 degree, each upset frock 15 turns over 60 degree simultaneously, arrive one of them station and carry out work processing, give dispenser 12 enabling signal after machining, dispenser 12 rotates again, upset frock 15 arrives next station, and a duty cycle completes.

When using upset frock 15 pairs of aluminum plastic films to carry out doubling, by External Force Acting, tooth bar 159 is moved up, tooth bar 159 engages with gear 158, and tooth bar 159 driven gear 158 rotates, and gear 158 is fixed with rotating shaft 157 simultaneously, rotating shaft 157 is driven to rotate, rotating shaft 157 drives the connecting plate 156 be connected with rotating shaft 157 to rotate, thus drives returning face plate 154 to overturn forward, by aluminum plastic film doubling, after doubling completes, returning face plate 154 return.

Described aluminum plastic film automatically rushes hole machine and comprises aluminium section bar support 21, uncoiling mechanism 22 and Chong Keng mechanism 23, described uncoiling mechanism 22 and Chong Keng mechanism 23 are separately positioned on aluminium section bar support 21, described aluminium section bar support 21 is also provided with front clamp cutting mechanism 24, rear cutting mechanism 25, filming-drawing mechanism 26, punching hole film transfering mechanism 27 and Tuo Mo mechanism 28, described uncoiling mechanism 22, Chong Keng mechanism 23, front clamp cutting mechanism 24, Tuo Mo mechanism 26, rear cutting mechanism 25 and filming-drawing mechanism 28 are successively set on aluminium section bar support 21 from front to back, described rushes the right side that hole film transfering mechanism 27 is arranged on aluminium section bar support 21.

Described Chong Keng mechanism 23 comprises lower pressurized cylinder 231, lower pressurized cylinder fixed head 232, counterdie lead 233, counterdie slide plate 234, counterdie 235, upper mold core 236, patrix 237, upper mould fixed plate 238, upper mold core lead 239, upper mold core slide plate 2310, upper mold core slide plate guide rod 2311, upper pressurized cylinder fixed head 2312 and upper pressurized cylinder 2313, described lower pressurized cylinder 231 is arranged on lower pressurized cylinder fixed head 232, described counterdie lead 233 is arranged between lower pressurized cylinder fixed head 232 and upper mould fixed plate 238, described counterdie slide plate 234 is arranged on counterdie lead 233, counterdie slide plate 234 bottom connects with the cylinder bar of lower pressurized cylinder 231, described counterdie 235 is arranged on counterdie slide plate 234, patrix 237 is arranged on below upper mould fixed plate 238, connect with upper mold core slide plate guide rod 2311 between described upper mould fixed plate 238 and upper pressurized cylinder fixed head 2312, described upper mold core slide plate 2310 is arranged on upper mold core slide plate guide rod 2311, upper mold core slide plate 2310 bottom is also connected with upper mold core 236 by upper mold core lead 239, upper mold core 236 is enclosed within the upper cavity 2314 of patrix 237, described counterdie 235 is provided with the lower mode cavity 2315 corresponding with the upper cavity 2314 of patrix 237, described upper pressurized cylinder fixed head 2312 is provided with pressurized cylinder 2313, the cylinder bar of upper pressurized cylinder 2313 is connected with upper mold core slide plate 2310, described lower pressurized cylinder fixed head 232 is arranged on aluminium section bar support 21.

Described counterdie lead 233 comprises 4, is separately positioned on four angles of lower pressurized cylinder fixed head 232 and upper mould fixed plate 238.

Described upper mold core slide plate guide rod 2311 comprises 4, is separately positioned on four angles of upper mould fixed plate 238 and upper pressurized cylinder fixed head 2312.

Described front clamp cutting mechanism 24 shears side plate 241, clamp system and cutting mechanism before comprising two, left and right, shears the left side between side plate 241 and right side about described clamp system and cutting mechanism are separately positioned on before two, described cutting mechanism comprises cutting knife upper mounted plate 249, cutting knife bottom plate 242, shear guide rod 246, upper slitter slide plate 248, upper slitter 247, cutting knife upper cylinder 2410, lower cutter slide plate 245, lower cutter 244 and cutting knife lower cylinder 243, described cutting knife upper mounted plate 249 and cutting knife bottom plate 242 shear the upper and lower of rear side between side plate 241 before being separately positioned on two, left and right, described shearing guide rod 246 is arranged between cutting knife upper mounted plate 249 and cutting knife bottom plate 242, described upper slitter slide plate 248 and lower cutter slide plate 245 are arranged on respectively from top to bottom to be sheared on guide rod 246, the bottom of described upper slitter slide plate 245 is provided with upper slitter 247, the top of lower cutter slide plate 245 is provided with lower cutter 244, described upper slitter 247 is corresponding with lower cutter 244 to be arranged, described cutting knife upper mounted plate 249 is fixed with cutting knife upper cylinder 2410, the cylinder bar of cutting knife upper cylinder 2410 is connected with upper slitter slide plate 248, described cutting knife bottom plate 242 is fixed with cutting knife lower cylinder 243, the cylinder bar of cutting knife lower cylinder 243 is connected with lower cutter slide plate 245, described clamp system comprises clamping upper mounted plate 2415, clamping guide rod 2414, clamping slide plate 2413, clamping bottom plate 2412 and clamping cylinder 2411, the upper and lower of front side between side plate 241 is sheared before described clamping upper mounted plate 2415 and clamping bottom plate 2412 are separately positioned on two, left and right, described clamping upper mounted plate 2415 height is lower than cutting knife upper mounted plate 249, be provided with between described clamping upper mounted plate 2415 and clamping bottom plate 2412 and clamp guide rod 2414, described clamping guide rod 2414 is provided with clamping slide plate 2413, described clamping bottom plate 2412 is fixed with clamping cylinder 2411, the cylinder bar of clamping cylinder 2411 is connected with clamping slide plate 2413, shear side plate 241 before two, described left and right to be separately fixed on aluminium section bar support 21.

Described shearing guide rod 246 comprises two, is symmetricly set on the left and right sides between cutting knife upper mounted plate 249 and cutting knife bottom plate 242.

Described clamping guide rod 2414 comprises two, is symmetricly set on the left and right sides between clamping upper mounted plate 2415 and clamping bottom plate 2412.

Described Tuo Mo mechanism 28 comprises lower portable plate 281, holder film guide rod 282, holder film base 283, supporting plate 284 and holder film cylinder 285, described lower portable plate 281 is arranged on aluminium section bar support 21, lower portable plate 281 with between supporting plate 284 by asking film guide rod 282 to be connected, described holder film guide rod 282 comprises top guide bar 286 and lower guide rod 287, top and the supporting plate 284 of described top guide bar 286 fix, bottom is inserted in lower guide rod 287, described lower guide rod 287 bottom and lower portable plate 281 fix, top is through holder film base 283, and fix with holder film base 283, described holder film base 283 is fixed on aluminium section bar support 21, holder film cylinder 285 is fixed on holder film base 283, its cylinder bar is connected with supporting plate 284.

Described rear cutting mechanism 25 comprises rear shearing side plate 251, rear cutting knife fixed glides 252, rear cutting knife 253, rear shearing cylinder 254 and rear shearing air cylinder fixed plate 255, described rear shearing side plate 251 comprises two, be separately positioned on the left and right sides of aluminium section bar support 21, described two tops afterwards between shearing side plate 251 are provided with rear shearing air cylinder fixed plate 255, described rear shearing air cylinder fixed plate 255 is fixed with rear shearing cylinder 254, the cylinder bar of rear shearing cylinder 254 is connected with rear cutting knife fixed glides 252, described rear cutting knife 253 is arranged on rear cutting knife fixed glides 252 bottom.

Described filming-drawing mechanism 26 comprises platen 261, line slideway 262, membrane base 263, connecting plate 264, upper mounted plate 265, train wheel bridge 266, membrane cylinder 267, membrane slide plate 268, lower plate 269, servomotor 2610, membrane guide rod 2611 and roller screw 2612, described line slideway 262, servomotor 2610 and roller screw 2612 are arranged on platen 261 respectively, membrane base 263 is arranged on the nut top of slide block and the roller screw 2612 coordinated with line slideway 262, roller screw 2612 is connected with the axle of servomotor 2610, described upper mounted plate 265 is connected with membrane base 263 by connecting plate 264, described connecting plate 264 comprises two, be separately positioned on the left and right sides of membrane base 263, membrane guide rod 2611 is provided with between described upper mounted plate 265 and membrane base 263, membrane guide rod 2611 is provided with membrane slide plate 268, described membrane slide plate 268 is provided with lower plate 269, described upper mounted plate 265 is provided with the train wheel bridge 266 matched with lower plate 269, the middle part of described platen 261 is provided with Tuo Mo mechanism and imports and exports 2613, the left and right sides of platen 261 is respectively arranged with rear cutting mechanism posting port 2614, two of described rear cutting mechanism 25 shear side plate 251 to be afterwards each passed through rear cutting mechanism posting port 2614 and to fix with aluminium section bar support 21.

The motor that described uncoiling mechanism 22 comprises the rotating shaft of aluminum plastic film cylinder and is connected with the rotating shaft of aluminum plastic film cylinder.

The described hole film transfering mechanism 27 that rushes comprises transverse shifting cylinder 271, lifting cylinder 272, upper junction plate 273 and vacuum crawl plate 274, described transverse shifting cylinder 271 is fixed on aluminium section bar support 21, described lifting cylinder 272 is arranged on the slide block of transverse shifting cylinder 271, described upper junction plate 273 is connected with the cylinder bar of lifting cylinder 272, and described vacuum captures the bottom that plate 274 is arranged on upper junction plate 273.

When Chong Keng mechanism 23 pairs of dynamic lithium battery aluminum plastic films carry out punching hole, aluminum plastic film is put well between counterdie 235 and patrix 237, the precompressed stroke of lower pressurized cylinder 231 is by counterdie slide plate 234 and counterdie 235 rapid uplift, make counterdie 235, aluminum plastic film contacts with patrix 237, counterdie 235 and aluminum plastic film are pressed on patrix 237 by setting pressure by the supercharging stroke of lower pressurized cylinder 231, upper mold core 236 is pressed on aluminum plastic film by the precompressed stroke of upper pressurized cylinder 2313, upper mold core 236 and aluminum plastic film are pressed in the lower mode cavity 2315 of counterdie 235 by the supercharging stroke of upper pressurized cylinder 2313, complete and rush hole work, then pressurized cylinder 2313 is gone up, lower pressurized cylinder 231 returns original position, upper mold core 236, original position return by counterdie slide plate 234, hole work is rushed in circulation next time.

During filming-drawing mechanism 26 automatic film drawing, start servomotor 2610, under the nut of roller screw 2612 drives, membrane base 263 goes to assigned address with train wheel bridge 266, lower plate 269 left lateral, the up drive lower plate 266 of cylinder bar of membrane cylinder 267 is about to rush hole aluminum plastic film clamping, servomotor 2610 reverses, under the nut of roller screw 2612 drives, membrane base 263 goes to assigned address with train wheel bridge 266, lower plate 269 right lateral, completes the automatic film drawing of punching hole aluminum plastic film.

Front clamp cutting mechanism 24 liquidates the aluminum plastic film behind hole when shearing, the cylinder bar up drive clamping slide plate 2413 of clamping cylinder 2411 is up along clamping guide rod 2414, by aluminum plastic film top to clamping upper mounted plate 2415 and clamping, the cylinder bar of cutting knife lower cylinder 243 is up, drive lower cutter slide plate 245 and lower cutter 244 up along shearing guide rod 246, lower cutter 244 is pushed up aluminum plastic film lower end desired location, then the cylinder bar of cutting knife upper cylinder 2410 is descending, drive upper slitter slide plate 248 and upper slitter 247 descending along shearing guide rod 246, make upper slitter 247 descending, by lower cutter 244 and upper slitter 247, aluminum plastic film is cut off.

What Tuo Mo mechanism 28 pairs of front clamp cutting mechanisms 24 were sheared rush, and hole film carries out holder film, and the cylinder bar of holder film cylinder 285 rises, and promotes supporting plate 284 and rises, and film is cheated in punching and holds, and operates to carry out next.

Aluminum plastic film excess waste behind punching hole is cut by rear cutting mechanism 25, and the cylinder bar of rear shearing cylinder 254 drives the rear cutting knife 253 in rear cutting knife fixed glides 252 and rear cutting knife fixed glides 252 descending, and the aluminum plastic film excess waste behind the hole that liquidates carries out cutting.

When punching hole film transfering mechanism 27 works: lifting cylinder 272 is descending, vacuum captures plate 274 negative pressure and the film absorption of punching hole is captured, lifting cylinder 272 is up, transverse shifting cylinder 271 left lateral, by punching hole film strips to relevant position, the right, lifting cylinder 272 is descending to be put it in next frock, then the negative pressure that vacuum captures plate 274 is turned off, lifting cylinder 272 is up, and transverse shifting cylinder 271 left lateral homing, carries out next periodic duty.

Operation principle: when carrying out dynamic lithium battery aluminum plastic film punching hole, first aluminum plastic film cylinder is placed in the aluminum plastic film rotating shaft of uncoiling mechanism 22, start the motor be connected with the rotating shaft of aluminum plastic film cylinder, aluminum plastic film enters in Chong Keng mechanism 23 and carries out punching hole, rush after hole completes, filming-drawing mechanism 26 left lateral, the aluminum plastic film behind hole that rushes in Chong Keng mechanism 23 is clamped, then right lateral, aluminum plastic film behind punching hole is pulled out to preseting length, Tuo Mo mechanism 28 is up, by holding of the aluminum plastic film behind punching hole, punching hole film transfering mechanism 27 declines and opens negative pressure, aluminum plastic film behind punching hole is adsorbed and is pressed in Tuo Mo mechanism 28, front clamp cutting mechanism 24 is by the aluminum plastic film clamping behind punching hole, cut off, aluminum plastic film excess waste behind punching hole is cut by rear cutting mechanism 25, right lateral after punching hole film transfering mechanism 27 rises, descending again after right left lateral to assigned address, cheat after film is put into next station of specifying by shearing lower rushing, close negative pressure, punching hole film is transferred to this station, after punching hole film transfering mechanism 27 rises, left lateral gets back to original position, Tuo Mo mechanism 28 is descending gets back to original position, front clamp cutting mechanism 24 is by while the film clamping of punching hole, Chong Keng mechanism 23 closes, go out and new rush hole film.

Described aluminum plastic film doubling-up device 6 comprises aluminum plastic film press mechanism 61 and returning face plate Shang Ding mechanism 62, described aluminum plastic film press mechanism 61 comprises plate bracket 611, base plate 612, riser 613, jacking cylinder mounting plate 614, supporting plate 615, pressing plate 616, jacking cylinder 617 and mobile cylinder 618, before and after the top of described base plate 612, both sides are respectively arranged with riser 613, the top of described riser 613 is provided with jacking cylinder mounting plate 614, described jacking cylinder mounting plate 614 top is provided with supporting plate 615, the top of described supporting plate 615 is provided with pressing plate 616, the bottom of described jacking cylinder mounting plate 614 is fixed with jacking cylinder 617, the cylinder bar of jacking cylinder 617 is connected with supporting plate 615 bottom, described base plate 612 bottom is provided with plate bracket 611, described base plate 612 is connected with slide block 6110 by line slideway 619 with plate bracket 611, described line slideway 619 is horizontally installed on plate bracket 611, described slide block 6110 is arranged on base plate 612 bottom and matches with line slideway 619, described mobile cylinder 618 is fixed on plate bracket 611, its cylinder bar is connected with base plate 612, described returning face plate Shang Ding mechanism 62 comprises ceiling hold 621, upper top gas cylinder 622 and joint 623, described upper top gas cylinder 622 is arranged on ceiling hold 621, the cylinder bar of upper top gas cylinder 622 is connected with joint 623, and described joint 623 is arranged on tooth bar 159 bottom of the upset frock 15 on doubling station.

Upset frock 15 is to when reaching doubling station, upper top gas cylinder 622 in returning face plate Shang Ding mechanism 62 drives joint 623 to move up, joint 623 contacts with the tooth bar 159 of upset frock 15, by tooth bar 159 upwards jack-up, then tooth bar 159 drives rotating shaft 157 and returning face plate 154 to rotate, turn down forward on rear side of returning face plate 154, aluminum plastic film on returning face plate 154 is pressed to fixed head 153, then the jacking cylinder 617 in aluminum plastic film press mechanism 61 is with dynamic pressure plate 616 jack-up, mobile cylinder 618 is moved to the left, drive base plate 616 and on riser 613, supporting plate 615, pressing plate 616 and jacking cylinder 617 are all moved to the left, move to pressing plate 616 be positioned at upset frock 15 fixed head 153 top time, jacking cylinder 617 is with dynamic pressure plate 616 to fall, the aluminum plastic film turned over is pressed down, then move cylinder 618 to get back to original position and complete an actuation cycle.

Described aluminum plastic film lateral seal 3 comprises side seal support 31, upper heat seal end socket 32, lower heat seal end socket 33, upper cover cylinder 34, bottom head cylinder 35, heat seal C type support 36, base plate 37, top board 38, side seal level pushes cylinder 39 and hydraulic buffering mechanism 310, described top board 38 is connected respectively by heat seal C type support 36 with the left and right sides between base plate 37, described upper cover cylinder 34 is fixed on top board 38, its cylinder bar is connected with upper heat seal end socket 32, described bottom head cylinder 35 is fixed on base plate 37, its cylinder bar is connected with lower heat seal end socket 33, between described upper heat seal end socket 32 and top board 38, guide post 311 is respectively arranged with between lower heat seal end socket 33 and base plate 37, described upper heat seal end socket 32 is corresponding with lower heat seal end socket about 33 to be arranged, described side seal support 31 is arranged on base plate 37 bottom, described side seal level pushes cylinder 39 and is arranged on side seal support 31, its cylinder bar is connected with base plate 37, described base plate 37 is connected with slide block 313 by line slideway 312 with between side seal support 31, described line slideway 312 is longitudinally arranged on side seal support 31 top, slide block 313 is arranged on base plate 37 bottom and matches with line slideway 312, described hydraulic buffering mechanism 310 is hydraulic bjuffer, described hydraulic bjuffer is arranged on the front side on side seal support 31 top, hydraulic bjuffer plays forces spacing function.

When upset frock 15 arrives side seal station, upper heat seal end socket 32 and lower heat seal end socket 33 move to and need on the aluminum plastic film side of side seal by the side seal level propelling movement cylinder 39 in aluminum plastic film lateral seal 3, then upper cover cylinder 34 and bottom head cylinder 35 drive heat seal end socket 32 and lower heat seal end socket 33 pairs of aluminum plastic film sides to carry out side seal respectively, after side seal completes, each cylinder Aligning control, thus the work completing a circulation.

Described aluminum plastic film top package device 4 comprises closedtop support 41, upper heat seal end socket 42, lower heat seal end socket 43, upper cover cylinder 44, bottom head cylinder 45, heat seal C type support 46, base plate 47, top board 48, closedtop level pushes cylinder 49 and hydraulic buffering mechanism 410, described top board 48 is connected respectively by heat seal C type support 46 with the left and right sides between base plate 47, described upper cover cylinder 44 is fixed on top board 48, its cylinder bar is connected with upper heat seal end socket 42, described bottom head cylinder 45 is fixed on base plate 47, its cylinder bar is connected with lower heat seal end socket 43, between described upper heat seal end socket 42 and top board 48, guide post 411 is respectively arranged with between lower heat seal end socket 43 and base plate 47, described upper heat seal end socket 42 is corresponding with lower heat seal end socket about 43 to be arranged, described closedtop support 41 is arranged on base plate 47 bottom, described closedtop level pushes cylinder 49 and is arranged on closedtop support 41, its cylinder bar is connected with base plate 47, described base plate 47 is connected with slide block 413 by line slideway 412 with between closedtop support 41, described line slideway 412 is horizontally installed on closedtop support 41 top, slide block 413 is arranged on base plate 47 bottom and matches with line slideway 412, described hydraulic buffering mechanism 410 is hydraulic bjuffer, described hydraulic bjuffer is arranged on the left side on closedtop support 41 top.

When upset frock 15 arrives closedtop station, upper heat seal end socket 42 and lower heat seal end socket 43 move to and need on the aluminum plastic film top margin of closedtop by the top level propelling movement cylinder 49 in aluminum plastic film top package device 4, then upper cover cylinder 44 and bottom head cylinder 45 drive heat seal end socket 42 and lower heat seal end socket 43 pairs of aluminum plastic film top margins to carry out closedtop respectively, after closedtop completes, each cylinder Aligning control, thus the work completing a circulation.

Described aluminum plastic film cuts blanking device and comprises grabbing device 51, shear frock 52 and cutter assembly 53, described grabbing device 51, shearing frock 52 and cutter assembly 53 are separately positioned on support 54, the top of described support 54 is provided with base plate 55, described shearing frock 52 and cutter assembly 53 are arranged on base plate 55 top, described grabbing device 51 comprises mounting panel 511, stepping motor 512, synchronous driving pulley 513, synchronous driven pulley 514, Timing Belt 515, Timing Belt pressing plate 516, connecting plate 517, sucker stand 518, sucker moves cylinder 519, sucker mounting panel 5110 and sucker 5111, described mounting panel 511 is fixed on the rear side of support 54, the rear side of described mounting panel 511 is provided with stepping motor 512, front side the right and left of described mounting panel 511 is respectively arranged with synchronous driven pulley 514 and synchronous driving pulley 513, described synchronous driving pulley 513 is arranged on the motor shaft of stepping motor 511, Timing Belt 515 is provided with between described synchronous driving pulley 513 with synchronous driven pulley 514, described Timing Belt 515 is connected with connecting plate 517 by Timing Belt pressing plate 516, the rear side of described connecting plate 517 is provided with slide block 5112, slide block 5112 matches with line slideway 5113, described line slideway 5113 is laterally fixed on the mounting panel 511 of Timing Belt 515 bottom, the front end of described connecting plate 517 is connected with sucker stand 518, the left and right sides of described sucker stand 518 is respectively arranged with sucker and moves cylinder 519, the cylinder bar that sucker moves cylinder 519 is connected to sucker mounting panel 5110, sucker 5111 is provided with bottom described sucker mounting panel 5110, described sucker 5111 is positioned at the top of shearing frock 52, be positioned at the rear side of cutter assembly 53.

Described connecting plate 517 comprises vertical connecting plate 5114 and cross connecting plate 5115, floor 5116 is provided with between described vertical connecting plate 5114 and cross connecting plate 5115, described Timing Belt pressing plate 516 is arranged on cross connecting plate 5115 top, be connected with cross connecting plate 5115, described slide block 5112 is arranged on the rear side of vertical connecting plate 5114.

The bottom of described each sucker mounting panel 5110 is respectively arranged with four suckers 5111, and four described suckers 5111 are separately positioned on four angles of sucker mounting panel 5110.

The bottom of described shearing frock 52 is fixed by frock connecting plate 56 and base plate 55.

Described cutter assembly 53 comprises upper cutter fixed head 531, lower cutter fixed head 532, upper cutter slide plate 533, lower cutter slide plate 534, upper cutter 535, lower cutter 536, fixed head connecting rod 537, guide rod 538, upper cutter moves cylinder 539, lower cutter moves cylinder 5310, cutting knife moving slider 5311, cutting knife shifting sledge 5312 and cutter assembly move cylinder 5313, described lower cutter fixed head 532 is connected by fixed head connecting rod 537 with on front side of upper cutter fixed head 531, rear side is connected by guide rod 538, described guide rod 538 is provided with upper cutter slide plate 533 and lower cutter slide plate 534, described upper cutter slide plate 533 and lower cutter slide plate 534 are respectively arranged with upper cutter 535 and lower cutter 536, described upper cutter fixed head 531 and lower cutter fixed head 532 are respectively arranged with upper cutter and move cylinder 539 and lower cutter moves cylinder 5310, the cylinder bar that upper cutter moves cylinder 539 is connected with upper cutter slide plate 533, the cylinder bar that lower cutter moves cylinder 5310 is connected with lower cutter slide plate 534, the bottom, the left and right sides of described lower cutter fixed head 532 is respectively arranged with cutting knife moving slider 5311, described cutting knife moving slider 5311 matches with cutting knife shifting sledge 5312, described cutting knife shifting sledge 5312 is arranged on the left and right sides on front side of base plate 55, described base plate 52 is also provided with cutter assembly and moves cylinder 5313, the cylinder bar that cutter assembly moves cylinder 5313 is connected with one of them cutting knife moving slider 5311.

During work, the sucker on the right side of grabbing device 51 moves cylinder 519 and moves down, captured needing the lithium battery of cutting edge by the sucker 5111 of sucker mounting panel 5110 bottom, then stepping motor 512 starts, stepping motor 512 drives synchronous driving pulley 513 to rotate, synchronous driving pulley 513 is connected by Timing Belt 515 with synchronous driven pulley 514, thus drive Timing Belt 515 to be moved to the left, Timing Belt 515 moves, the connecting plate 517 fixed with Timing Belt 515 is driven to be moved to the left, on rear side of connecting plate 517 by slide block 5112 linearly guide rail 5113 be moved to the left, connecting plate 517 drives the sucker stand 518 on front side of it, sucker moves cylinder 519, sucker mounting panel 5110 and sucker 5111 are moved to the left, drive lithium battery is moved to the left, lithium battery is placed to and shears in frock 52, then grabbing device 51 return, cutter assembly 3 by cutter assembly move cylinder 5313 drive cutter assembly 53 move to backward shear position cut lithium battery, upper cutter moves cylinder 539 and lower cutter and moves cylinder 5310 and drive upper cutter 535 and lower cutter 536 to move respectively, thus realize cutting to lithium battery, original position is got back to after cutter assembly 53 has cut, the lithium battery cut grabs in blanking belt line by the sucker 5111 on the left side sucker mounting panel 5110 of then grabbing device 51, the lithium battery that next needs cut grabs by the sucker 5111 simultaneously on right side sucker mounting panel 5110 shears frock 52 position, complete one and cut process.

The battery feeding station of packaging docks with main line, the aluminum plastic film of rolling being put into aluminum plastic film rushes on the uncoiling mechanism 22 of hole machine 2 automatically, rush after hole completes when aluminum plastic film rushes hole machine 2 automatically through aluminum plastic film, by punching hole film transfering mechanism 27, aluminum plastic film crawl being put into aluminum plastic film in fixture automatic circulation device 1 rushes in the upset frock 15 of hole station, then the dispenser 12 in fixture automatic circulation device 1 drives upset frock 15 to rotate 60 degree and enters into battery feeding station, again battery is put in the made hole of aluminum plastic film, rotating disk 13 rotates and makes upset frock 15 rotate 60 degree again to next doubling station, by the aluminum plastic film press mechanism 61 in aluminum plastic film doubling-up device 6 and returning face plate Shang Ding mechanism 62 aluminum plastic film doubling, battery is encased by aluminum plastic film fastening and flattens, rotating disk 13 rotates to next side seal station, aluminum plastic film lateral seal 3 heat seal aluminum plastic film on one side, rotating disk 13 rotates to next closedtop station, by aluminum plastic film top package device 4 heat seal aluminum plastic film top margin, rotating disk 13 rotates to next and cuts discharge station, aluminum plastic film cuts blanking device 5 pairs of aluminum plastic films and cuts blanking, and crawl is rolled off the production line.

Except the technical characteristic described in specification, be the known technology of those skilled in the art.

Claims

1. a power soft package lithium battery encapsulation automatic production line, it is characterized in that: comprise fixture automatic circulation device, described fixture automatic circulation device circumferencial direction is disposed with aluminum plastic film punching hole station, battery feeding station, doubling station, side seal station, closedtop station and cut discharge station, described station place, aluminum plastic film punching hole is provided with aluminum plastic film and automatically rushes hole machine, doubling station place is provided with aluminum plastic film doubling-up device, side seal station place is provided with aluminum plastic film lateral seal, closedtop station place is provided with aluminum plastic film top package device, cut discharge station place to be provided with aluminum plastic film and to cut blanking device,

2. a kind of power soft package lithium battery encapsulation automatic production line according to claim 1, it is characterized in that: described aluminum plastic film automatically rushes hole machine and comprises aluminium section bar support, uncoiling mechanism and Chong Keng mechanism, described uncoiling mechanism and Chong Keng mechanism are separately positioned on aluminium section bar support, described aluminium section bar support is also provided with front clamp cutting mechanism, rear cutting mechanism, filming-drawing mechanism, punching hole film transfering mechanism and Tuo Mo mechanism, described uncoiling mechanism, Chong Keng mechanism, front clamp cutting mechanism, Tuo Mo mechanism, rear cutting mechanism and filming-drawing mechanism are successively set on aluminium section bar support from front to back, described rushes the right side that hole film transfering mechanism is arranged on aluminium section bar support,

3. a kind of power soft package lithium battery encapsulation automatic production line according to claim 1, it is characterized in that: described aluminum plastic film doubling-up device comprises aluminum plastic film press mechanism and returning face plate Shang Ding mechanism, described aluminum plastic film press mechanism comprises plate bracket, base plate, riser, jacking cylinder mounting plate, supporting plate, pressing plate, jacking cylinder and mobile cylinder, before and after the top of described base plate, both sides are respectively arranged with riser, the top of described riser is provided with jacking cylinder mounting plate, described jacking cylinder mounting plate top is provided with supporting plate, the top of described supporting plate is provided with pressing plate, the bottom of described jacking cylinder mounting plate is fixed with jacking cylinder, the cylinder bar of jacking cylinder is connected with supporting plate bottom, described base plate bottom is provided with plate bracket, described base plate is connected with slide block by line slideway with plate bracket, described line slideway is horizontally installed on plate bracket, described slide block is arranged on base plate bottom and matches with line slideway, described mobile cylinder is fixed on plate bracket, its cylinder bar is connected with base plate, described returning face plate Shang Ding mechanism comprises ceiling hold, upper top gas cylinder and joint, and described upper top gas cylinder is arranged on ceiling hold, and the cylinder bar of upper top gas cylinder is connected with joint, and described joint is arranged on the tooth bar bottom of the upset frock on doubling station.

4. a kind of power soft package lithium battery encapsulation automatic production line according to claim 1, it is characterized in that: described aluminum plastic film lateral seal comprises side seal support, upper heat seal end socket, lower heat seal end socket, upper cover cylinder, bottom head cylinder, heat seal C type support, base plate, top board, side seal level pushes cylinder and hydraulic buffering mechanism, described top board is connected respectively by heat seal C type support with the left and right sides between base plate, described upper cover cylinder is fixed on top board, its cylinder bar is connected with upper heat seal end socket, described bottom head cylinder is fixed on base plate, its cylinder bar is connected with lower heat seal end socket, between described upper heat seal end socket and top board, guide post is respectively arranged with between lower heat seal end socket and base plate, described upper heat seal end socket is arranged with lower heat seal end socket is corresponding up and down, described side seal Bracket setting is in base plate bottom, described side seal level pushes cylinder and is arranged on side seal support, its cylinder bar is connected with base plate, be connected with slide block by line slideway between described base plate with side seal support, described line slideway is longitudinally arranged on side seal frame upper, slide block is arranged on base plate bottom and matches with line slideway, described hydraulic buffering mechanism is hydraulic bjuffer, described hydraulic bjuffer is arranged on the front side of side seal frame upper.

5. a kind of power soft package lithium battery encapsulation automatic production line according to claim 1, it is characterized in that: described aluminum plastic film top package device comprises closedtop support, upper heat seal end socket, lower heat seal end socket, upper cover cylinder, bottom head cylinder, heat seal C type support, base plate, top board, closedtop level pushes cylinder and hydraulic buffering mechanism, described top board is connected respectively by heat seal C type support with the left and right sides between base plate, described upper cover cylinder is fixed on top board, its cylinder bar is connected with upper heat seal end socket, described bottom head cylinder is fixed on base plate, its cylinder bar is connected with lower heat seal end socket, between described upper heat seal end socket and top board, guide post is respectively arranged with between lower heat seal end socket and base plate, described upper heat seal end socket is arranged with lower heat seal end socket is corresponding up and down, described closedtop Bracket setting is in base plate bottom, described closedtop level pushes cylinder and is arranged on closedtop support, its cylinder bar is connected with base plate, be connected with slide block by line slideway between described base plate with closedtop support, described line slideway is horizontally installed on closedtop frame upper, slide block is arranged on base plate bottom and matches with line slideway, described hydraulic buffering mechanism is hydraulic bjuffer, described hydraulic bjuffer is arranged on the left side of closedtop frame upper.

6. a kind of power soft package lithium battery encapsulation automatic production line according to claim 1, it is characterized in that: described aluminum plastic film cuts blanking device and comprises grabbing device, shear frock and cutter assembly, described grabbing device, shearing frock and cutter assembly are separately positioned on support, the top of described support is provided with base plate, described shearing frock and cutter assembly are arranged on base plate top, described grabbing device comprises mounting panel, stepping motor, synchronous driving pulley, synchronous driven pulley, Timing Belt, Timing Belt pressing plate, connecting plate, sucker stand, sucker moves cylinder, sucker mounting panel and sucker, described mounting panel is fixed on the rear side of support, the rear side of described mounting panel is provided with stepping motor, front side the right and left of described mounting panel is respectively arranged with synchronous driven pulley and synchronous driving pulley, described synchronous driving pulley is arranged on the motor shaft of stepping motor, described synchronous driving pulley is provided with Timing Belt with between synchronous driven pulley, described Timing Belt is connected with connecting plate by Timing Belt pressing plate, the rear side of described connecting plate is provided with slide block, slide block matches with line slideway, described line slideway is laterally fixed on the mounting panel of Timing Belt bottom, the front end of described connecting plate is connected with sucker stand, the left and right sides of described sucker stand is respectively arranged with sucker and moves cylinder, the cylinder bar that sucker moves cylinder is connected to sucker mounting panel, sucker is provided with bottom described sucker mounting panel, described sucker is positioned at the top of shearing frock, be positioned at the rear side of cutter assembly,