CN204792930U - Battery assembly manufacturing line - Google Patents

Abstract

The utility model provides a battery assembly manufacturing line. Battery assembly manufacturing line include the quick -witted I of battery wainscot pad, battery cartridge machine II and battery pyrocondensation membrane pyrocondensation machine III, the quick -witted I of battery wainscot pad, battery cartridge machine II and battery pyrocondensation membrane pyrocondensation machine III connect gradually, battery cartridge machine II include that the sleeve pipe carries cutting mechanism, battery core conveying mechanism and discharge mechanism, the sleeve pipe carry cutting mechanism to include sleeve pipe coil stock dish, strut post, transfer gear, cutting device, battery core conveying mechanism include battery core conveyor and battery core ejecting device, battery core conveyor end set up battery core ejecting device, discharge mechanism include ejection of compact cylinder and discharging channel, discharging channel's exit linkage to battery pyrocondensation membrane pyrocondensation machine III. Battery assembly manufacturing line increase battery assembly manufacturing's degree of automation, further reduce the human cost, improve production efficiency, good application prospect has.

Description

A kind of battery pack assembling production lines

Technical field

The utility model relates to mechanical field, is specifically related to a kind of battery pack assembling production lines.

Background technology

At present in field of batteries, in order to make battery outward appearance more attractive in appearance, and protect battery to exempt from external shock, the sidewall of battery all can put heat shrinkage film, protects after pyrocondensation to battery.

Market only have at present battery thermal shrinkage film casing open equipment, this sleeve pipe struts equipment and mostly is the pattern adopting pull of vacuum to inhale out, because the heat shrinkage film thickness specification of each producer there are differences, and the even situation of became uneven also may be there is in same volume heat shrinkage film, and pull of vacuum needs to preset, then keep constant suction to open heat shrinkage film sleeve pipe, this heat shrinkage film sleeve pipe just making thickness larger is likely because suction cannot open not, shell material is caused to waste, and likely have influence on follow-up operation, this is also after causing sleeve pipe to open, battery cannot insert the reason that sleeve pipe carries out continuously automatically.

Therefore, prior art equipment is the automation to this operation of opening heat shrinkage film, has no idea while opening heat shrinkage film sleeve pipe, and battery inserted wherein, this step is often through manually realizing, and efficiency is low, and speed is slow, and cost of labor is high.

Simultaneously, next step pyrocondensation operation in battery production operation, the heat shrink wrapping machine principle adopted is all use shrink film-wrapped outside product or package, through heating, shrinkable film is shunk and wraps product or package, the outward appearance of abundant display article, improves the sales exhibition of product, increases attractive in appearance and sense of worth.Article after overheated heat shrink wrapping machine packaging can seals, moistureproof, anti-pollution, and protect commodity from the impact from outside, there is certain resiliency, especially when packaging fragile article, can prevent from dispersing during vessel fragmentation.In addition, split, the stolen possibility of product can be lowered.

Heat shrink wrapping machine is widely used in the every field of national economy, due to the requirement of various different working condition will be adapted to, and the thus enormous amount various in style of heat shrink wrapping machine.The heat shrink wrapping machine manufacturing industry of China is very huge, and heat shrink wrapping machine producer is thousands of, spreads all over the country, and current China has become one of global heat shrink wrapping machine output and the maximum country of market demand.

But, heat shrink wrapping machine is in the market because heat shrinkage film more or less all can touch bottom or the sidepiece of connecting gear, therefore because be heated inequality time ubiquity shrink film shrinks, and easily shrink uneven, packing material easily produces fold, laminating defective tightness, the problem such as easily come off, especially when battery heat shrink films is on the sidewall being wrapped in battery, because form column type parcel, be heated uneven and occur laminating defective tightness, produce fold, the problem such as to come off can be exaggerated further, thus affect the quality of battery itself.

The automaticity of these two critical processes is not high, makes battery assembly packaging process to realize continuous operations, and this is also that artificial part is consumed in current battery assembling field the most, adds the cost of labor of battery production, is unfavorable for large-scale production.

Summary of the invention

The utility model aims to provide a kind of battery pack assembling production lines, and this battery pack assembling production lines has scientific and reasonable for structure, and casing-pipe cutting charged pool core inserts, and the advantage that pyrocondensation serialization is carried out, automaticity is high, and speed of production is fast.

Battery cartridge machine described in the utility model, comprises sleeve pipe conveying cutting mechanism and battery conveying mechanism;

Described battery pack assembling production lines, comprises battery veneering pad machine I, battery cartridge machine II and cell heat shrink film heat shrink wrapping machine III, and described battery veneering pad machine I, battery cartridge machine II are connected successively with cell heat shrink film heat shrink wrapping machine III;

Described battery cartridge machine II comprises sleeve pipe conveying cutting mechanism, battery conveying mechanism and discharging mechanism;

Described sleeve pipe conveying cutting mechanism comprises sleeve pipe looping disk, struts post, delivery wheel, cutter sweep;

Described battery conveying mechanism comprises battery conveying device and battery liftout attachment; Described battery delivery device tip arranges battery liftout attachment;

Described discharging mechanism comprises discharging cylinder and tapping channel;

Mounting sleeve coiled tape on described sleeve pipe looping disk, described one end strutting post is for strutting end, this struts the structure of holding and progressively drawing in flat form for cylinder, flat side is positioned at outermost, sleeve pipe coiled tape stretches into from this flat side, softenedly pillaredly to open, the other end strutting post and battery ejection device to eject position corresponding; Described delivery wheel is positioned at and struts post both sides, its with strut micro-between post contact, by the rotation of delivery wheel, sleeve pipe coiled tape is carried vertically from the end that struts strutting post; Described cutter sweep is positioned at the other end strutting post; Described tapping channel is located between battery liftout attachment and the other end strutting post, the sleeve pipe coiled strip strutted enters tapping channel, battery is headed into the sleeve pipe coiled tape being positioned at tapping channel by charged pool core liftout attachment, and cutter sweep cuts sleeve pipe coiled tape simultaneously; Described discharging cylinder is located at the initiating terminal of tapping channel, and its piston rod faces the outlet of tapping channel, and the outlet of described tapping channel is connected to cell heat shrink film heat shrink wrapping machine III.

The described axial cross section strutting end strutting post is triangle or wedge shape, and the length of the widest part is no more than the diameter strutting post.

Described battery liftout attachment comprises stock chest, battery outlet, ejects cylinder, so stock chest be provided with battery outlet, the described corresponding battery outlet of cylinder ejector piston that ejects is arranged, and battery ejects from battery outlet by the sidewall passing stock chest when ejecting piston extension.

Described cutter sweep comprises install bin, cylinder, push boat, top flat, jacking block, tool rest dish, tool rest, guide rod, cutter; Described install bin is located on sleeve pipe conveying cutting mechanism, and described struts the front and back wallboard of post through install bin; Described cylinder is installed on rear side of install bin, and its piston rod can through the squab panel of install bin; Described push boat is located at install bin inside, is socketed on and struts on post, and both sides are provided with the top flat of the piston rod of corresponding cylinder; Described push boat front portion is provided with jacking block, and described jacking block is chamfer trapezium structure, and its front end is inclined-plane, after the front panel of install bin; Be provided with spring between described push boat and the front panel of install bin, spring is when free state, and jacking block front end contacts with the upper edge of tool rest;

Described tool rest dish is installed on the outside of the front panel of install bin, is socketed on and struts on post, can along strutting axis of a cylinder to rotation under the driving of driving arrangement; Described tool rest dish is provided with guide rod; Described tool rest is arranged on tool rest dish by guide rod;

Upper edge and the jacking block inclined-plane upper contact of described tool rest side, opposite side installs cutter;

Described tool rest is cuboid or is convex shape body structure.

Described cell heat shrink film heat shrink wrapping machine III comprises connecting gear, clamp system, air-heater, pyrocondensation cabinet, described pyrocondensation cabinet is communicated with air-heater, it is characterized in that: described connecting gear is through pyrocondensation cabinet, it is provided with clamp system, described clamp system comprises support and clamping part, clamping part holds up by described support, forms unsettled clamp structure.

Described support is set to two rows arranged side by side, lays respectively at the both sides of connecting gear, and corresponding retained part is two groups, is arranged on respectively on the support of connecting gear both sides.

Described clamping part one end is fixedly mounted on support, and the other end is arc supporting spring, the arc supporting spring relative orientation of two groups of clamping parts.

Described connecting gear comprises motor, power transmission shaft, travelling gear, conveyer belt, described power transmission shaft and motor interlock, described power transmission shaft two ends are separately installed with travelling gear, travelling gear installs conveyer belt respectively, article two, be provided with space between conveyer belt, by driven by motor power transmission shaft, and then drive the conveyer belt on both sides by motion.

Described air-heater and pyrocondensation cashier's office in a shop side air outlet be communicated with, in pyrocondensation cabinet, supply hot blast from top to bottom; Described pyrocondensation cabinet is the square cylinder of both ends open, and connecting gear is along its opening axially across two ends.

Battery cartridge machine described in the utility model, change the drawback that prior art pull of vacuum used opens sleeve technology, what utilize unique design struts rod structure, coordinate drive, the a hundred per cent achieving battery thermal shrinkage film casing is opened, avoid the waste of material, and lay the foundation for the full-automation of battery sleeve pipe operation.

The utility model carries the ingenious structural design of cutting mechanism and battery conveying mechanism by sleeve pipe, achieve battery heat shrinkage film sleeve pipe to strut, cut, the automation of automatic cover core overall process is carried out, greatly improve production efficiency, be more than 10 times of hand fit's device fabrication same period operating efficiency, the full-automation for battery is produced and is laid a good foundation.

The cell heat shrink film heat shrink wrapping machine that in the utility model preferred version, pyrocondensation operation adopts, having heat shrinkage film shrinks evenly, the advantage of pyrocondensation constant product quality, the automaticity that battery assembling is produced can be increased further, further reduction human cost, enhance productivity, have a good application prospect.

Production line for manufacturing battery of the present utility model composition, belongs to innovate greatly in the industry, does not have such cost lower, the equipment application precedent that automaticity is high before.Technology of the present utility model makes there has been a upgrading in automatic battery field in the industry, and the battery production enterprise being especially applicable to middle and small scale uses.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of the utility model battery pack assembling production lines

Fig. 2 is the overall structure rear flank schematic diagram of the utility model battery cartridge machine

Fig. 3 is the overall agent structure schematic diagram of the utility model battery cartridge machine

Fig. 4 is the structural representation of the utility model sleeve pipe conveying cutting mechanism

Fig. 5 is the structural representation of the utility model cutter sweep

Fig. 6 is the package assembly schematic diagram of the utility model cutter sweep

Fig. 7 is the side sectional view of the utility model cutter sweep

Fig. 8 is the overall structure schematic diagram of cell heat shrink film heat shrink wrapping machine of the present utility model

Fig. 9 is connecting gear and the clamp system structural representation of cell heat shrink film heat shrink wrapping machine of the present utility model

Figure 10 is the structural representation of the clamping part of cell heat shrink film heat shrink wrapping machine of the present utility model

Sequence number in Fig. 1-10 and Each part and title as follows:

I-battery veneering pad machine, II-battery cartridge machine, III-cell heat shrink film heat shrink wrapping machine;

1-sleeve pipe looping disk 1,2-struts post, 3-delivery wheel, 4-cutter sweep, 5-battery conveying device, 6-battery liftout attachment, 7-struts end, 8-discharging mechanism; 9-connecting gear, 10-air-heater, 11-pyrocondensation cabinet, 12-support, 13-clamping part, 14-arc supporting spring;

41-cutter sweep, 42-cylinder, 43-push boat, 44-top flat, 45-jacking block, 46-tool rest dish, 47-tool rest, 48-guide rod, 49-cutter;

61-stock chest, 62-battery exports, and 63-ejects cylinder;

81-discharging cylinder, 82-tapping channel;

91-power transmission shaft, 92-travelling gear, 93-conveyer belt.

Embodiment

Below in conjunction with accompanying drawing, a kind of embodiment of the present utility model is described:

As shown in Figure 1, described battery pack assembling production lines, comprises battery veneering pad machine I, battery cartridge machine II and cell heat shrink film heat shrink wrapping machine III, and described battery veneering pad machine I, battery cartridge machine II are connected successively with cell heat shrink film heat shrink wrapping machine III;

As in Figure 2-4, described battery cartridge machine II comprises sleeve pipe conveying cutting mechanism, battery conveying mechanism and discharging mechanism;

Described sleeve pipe conveying cutting mechanism comprises sleeve pipe looping disk 1, struts post 2, delivery wheel 3, cutter sweep 4;

Described battery conveying mechanism comprises battery conveying device 5 and battery liftout attachment 6; Described battery conveying device 5 end arranges battery liftout attachment 6;

Described discharging mechanism 8 comprises discharging cylinder 81 and tapping channel 82;

Mounting sleeve coiled tape on described sleeve pipe looping disk 1, described one end strutting post 2 is for strutting end 7, this struts end 7 is the structure that cylinder progressively draws in flat form, flat side is positioned at outermost, sleeve pipe coiled tape stretches into from this flat side, softened post 2 struts, the other end strutting post 2 and battery ejection device 6 to eject position corresponding; Described delivery wheel 3 is positioned at and struts post 2 both sides, its with strut micro-between post 2 contact, by the rotation of delivery wheel 3, sleeve pipe coiled tape is carried vertically from the end that struts strutting post 2; Described cutter sweep 4 is positioned at the other end strutting post 2; Described discharging material passage 82 is located between battery liftout attachment 6 and the other end strutting post 2, the sleeve pipe coiled strip strutted enters tapping channel 82, battery is headed into the sleeve pipe coiled tape being positioned at tapping channel 82 by charged pool core liftout attachment 6, and cutter sweep 4 pairs of sleeve pipe coiled tapes cut simultaneously; Described discharging cylinder is located at the initiating terminal of tapping channel 82, and its piston rod faces the outlet of tapping channel 82, and the outlet of described tapping channel is connected to cell heat shrink film heat shrink wrapping machine III.

The described axial cross section strutting end strutting post 2 is triangle or wedge shape, and the length of the widest part is no more than the diameter strutting post 2.

Described battery liftout attachment 6 comprises stock chest 61, battery outlet 62, ejects cylinder 63, so stock chest 61 be provided with battery outlet, the described cylinder 63 that ejects ejects piston corresponding battery outlet 62 setting, and battery ejects from battery outlet 62 by the sidewall passing material storage dish 61 when ejecting piston extension.

As illustrated in figs. 5-7, described cutter sweep 4 comprises install bin 41, cylinder 42, push boat 43, top flat 44, jacking block 45, tool rest dish 46, tool rest 47, guide rod 48, cutter 49; Described install bin 41 is located on sleeve pipe conveying cutting mechanism, and described struts the front and back wallboard of post 2 through install bin 41; Described cylinder 42 is installed on rear side of install bin 41, and its piston rod can through the squab panel of install bin 41; It is inner that described push boat 43 is located at install bin 41, and be socketed on and strut on post 2, both sides are provided with the top flat 44 of the piston rod of corresponding cylinder 42; Described push boat 43 front portion is provided with jacking block 45, and described jacking block 45 is chamfer trapezium structure, and its front end is inclined-plane, after the front panel through install bin 41; Be provided with spring between described push boat 43 and the front panel of install bin 41, spring is when free state, and jacking block 45 front end contacts with the upper edge of tool rest 47;

Described tool rest dish 46 is installed on the outside of the front panel of install bin 41, is socketed on and struts on post 2, can along strutting the axial rotation of post 2 under the driving of driving arrangement; Described tool rest dish 46 is provided with guide rod 48; Described tool rest 47 is arranged on tool rest dish 46 by guide rod 48;

Upper edge and the jacking block 45 inclined-plane upper contact of described tool rest 47 side, opposite side installs cutter 49;

Described tool rest 47 is cuboid or is convex shape body structure.

As seen in figs. 8-10, described cell heat shrink film heat shrink wrapping machine III comprises connecting gear 9, clamp system, air-heater 10, pyrocondensation cabinet 11, described pyrocondensation cabinet 11 is communicated with air-heater 10, it is characterized in that: described connecting gear 9 is through pyrocondensation cabinet 11, it is provided with clamp system, described clamp system comprises support 12 and clamping part 13, and clamping part 13 holds up by described support 12, forms unsettled clamp structure.

Described support 12 is set to two rows arranged side by side, lays respectively at the both sides of connecting gear 9, and corresponding retained part is two groups, is arranged on respectively on the support 12 of connecting gear 9 both sides.

Described clamping part 13 one end is fixedly mounted on support 12, and the other end is arc supporting spring 14 relative orientation of arc supporting spring 14, two groups of clamping parts 13.

Described connecting gear 9 comprises motor, power transmission shaft 91, travelling gear 92, conveyer belt 93, described power transmission shaft 91 and motor interlock, described power transmission shaft 91 two ends are separately installed with travelling gear 92, conveyer belt 93 installed respectively by travelling gear 92, article two, be provided with space between conveyer belt 93, by driven by motor power transmission shaft 91, and then drive the conveyer belt 93 on both sides by motion.

Described air-heater 10 is communicated with the air outlet above pyrocondensation cabinet 11, in pyrocondensation cabinet 11, supply hot blast from top to bottom; Described pyrocondensation cabinet 11 is the square cylinder of both ends open, and connecting gear 9 is along its opening axially across two ends.

The course of work of the present utility model is as follows: battery veneering pad machine I is by after battery veneer, send into battery cartridge machine II, the sleeve pipe coiled tape traction that sleeve pipe looping disk 1 on battery cartridge machine II is installed struts end 7 to what strut post 2, be inserted in and strut end 7. and make sleeve pipe coiled tape touch delivery wheel 3, start the machine, delivery wheel 3 rotarily drives sleeve pipe coiled tape via support column 7 axial motion, constantly softened, until stretch out support column 7, and enter in the tapping channel 82 of discharging mechanism 8, at this moment battery synchronously ejects by ejecting cylinder 63 by battery conveying mechanism from battery outlet 62, head in sleeve pipe coiled tape, the sleeve pipe coiled tape packaging battery cuts off by cutter sweep 4 simultaneously, by discharging cylinder 81, the battery packaging sleeve pipe is pushed out equipment again, enter next cell heat shrink film heat shrink wrapping machine III, through the connecting gear 9 of cell heat shrink film heat shrink wrapping machine III, send into pyrocondensation in pyrocondensation cabinet 11.

Claims (9)

1. a battery pack assembling production lines, comprise battery veneering pad machine (I), battery cartridge machine (II) and cell heat shrink film heat shrink wrapping machine (III), described battery veneering pad machine (I), battery cartridge machine (II) are connected successively with cell heat shrink film heat shrink wrapping machine (III), it is characterized in that:

Described battery cartridge machine (II) comprises sleeve pipe conveying cutting mechanism, battery conveying mechanism and discharging mechanism;

Described sleeve pipe conveying cutting mechanism comprises sleeve pipe looping disk (1), struts post (2), delivery wheel (3), cutter sweep (4); Described battery conveying mechanism comprises battery conveying device (5) and battery liftout attachment (6); Described battery conveying device (5) end arranges battery liftout attachment (6);

Described discharging mechanism (8) comprises discharging cylinder (81) and tapping channel (82);

The upper mounting sleeve coiled tape of described sleeve pipe looping disk (1), described one end strutting post (2) is for strutting end (7), this struts the structure that end (7) progressively draws in flat form for cylinder, flat side is positioned at outermost, sleeve pipe coiled tape stretches into from this flat side, softened post (2) struts, the other end strutting post (2) and battery ejection device (6) to eject position corresponding; Described delivery wheel (3) is positioned at and struts post (2) both sides, its with strut micro-between post (2) contact, by the rotation of delivery wheel (3), sleeve pipe coiled tape is carried vertically from the end that struts strutting post (2); Described cutter sweep (4) is positioned at the other end strutting post (2); Described tapping channel (82) is located between battery liftout attachment (6) and the other end strutting post (2), the sleeve pipe coiled strip strutted enters tapping channel (82), battery is headed into the sleeve pipe coiled tape being positioned at tapping channel (82) by charged pool core liftout attachment (6), and cutter sweep (4) cuts sleeve pipe coiled tape simultaneously; Described discharging cylinder is located at the initiating terminal of tapping channel (82), and its piston rod faces the outlet of tapping channel (82), and the outlet of described tapping channel is connected to cell heat shrink film heat shrink wrapping machine (III).

2. battery pack assembling production lines as claimed in claim 1, is characterized in that: the described axial cross section strutting end strutting post (2) is triangle or wedge shape, and the length of the widest part is no more than the diameter strutting post (2).

3. battery pack assembling production lines as claimed in claim 1, it is characterized in that: described battery liftout attachment (6) comprises stock chest (61), battery outlet (62), ejects cylinder (63), described stock chest (61) is provided with battery outlet, the described cylinder (63) that ejects ejects corresponding battery outlet (62) setting of piston, and battery ejects from battery outlet (62) by the sidewall passing stock chest (61) when ejecting piston extension.

4. battery pack assembling production lines as claimed in claim 1, is characterized in that: described cutter sweep (4) comprises install bin (41), cylinder (42), push boat (43), top flat (44), jacking block (45), tool rest dish (46), tool rest (47), guide rod (48), cutter (49); Described install bin (41) is located on sleeve pipe conveying cutting mechanism, and described struts the front and back wallboard of post (2) through install bin (41); Described cylinder (42) is installed on install bin (41) rear side, and its piston rod can pass the squab panel of install bin (41); It is inner that described push boat (43) is located at install bin (41), and be socketed on and strut on post (2), both sides are provided with the top flat (44) of the piston rod of corresponding cylinder (42); Described push boat (43) front portion is provided with jacking block (45), and described jacking block (45) is chamfer trapezium structure, and its front end is inclined-plane, after the front panel through install bin (41); Be provided with spring between described push boat (43) and the front panel of install bin (41), spring is when free state, and jacking block (45) front end contacts with the upper edge of tool rest (47);

Described tool rest dish (46) is installed on the outside of the front panel of install bin (41), is socketed on and struts on post (2), can along strutting post (2) axial rotation under the driving of driving arrangement; Described tool rest dish (46) is provided with guide rod (48); Described tool rest (47) is arranged on tool rest dish (46) by guide rod (48);

Upper edge and jacking block (45) the inclined-plane upper contact of described tool rest (47) side, opposite side installs cutter (49);

Described tool rest (47) is for cuboid or be convex shape body structure.

5. battery pack assembling production lines as claimed in claim 1, it is characterized in that: described cell heat shrink film heat shrink wrapping machine (III) comprises connecting gear (9), clamp system, air-heater (10), pyrocondensation cabinet (11), described pyrocondensation cabinet (11) is communicated with air-heater (10), described connecting gear (9) is through pyrocondensation cabinet (11), it is provided with clamp system, described clamp system comprises support (12) and clamping part (13), clamping part (13) holds up by described support (12), forms unsettled clamp structure.

6. battery pack assembling production lines as claimed in claim 5, it is characterized in that: described support (12) is set to two rows arranged side by side, lay respectively at the both sides of connecting gear (9), corresponding retained part is two groups, is arranged on respectively on the support (12) of connecting gear (9) both sides.

7. battery pack assembling production lines as claimed in claim 6, it is characterized in that: described clamping part (13) one end is fixedly mounted on support (12), the other end is arc supporting spring (14), arc supporting spring (14) relative orientation of two groups of clamping parts (13).

8. battery pack assembling production lines as claimed in claim 5, it is characterized in that: described connecting gear (9) comprises motor, power transmission shaft (91), travelling gear (92), conveyer belt (93), described power transmission shaft (91) and motor interlock, described power transmission shaft (91) two ends are separately installed with travelling gear (92), travelling gear (92) is installed respectively conveyer belt (93), article two, be provided with space between conveyer belt (93), by driven by motor power transmission shaft (91), and then drive the conveyer belt (93) on both sides by motion.

9. battery pack assembling production lines as claimed in claim 5, is characterized in that: described air-heater (10) is communicated with the air outlet of pyrocondensation cabinet (11) top, in pyrocondensation cabinet (11), supply hot blast from top to bottom; The square cylinder that described pyrocondensation cabinet (11) is both ends open, connecting gear (9) is along its opening axially across two ends.