CN108075191A - Full automatic accumulator pole plate flaker packaging film coats mechanism - Google Patents

Full automatic accumulator pole plate flaker packaging film coats mechanism Download PDF

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Publication number
CN108075191A
CN108075191A CN201810067108.0A CN201810067108A CN108075191A CN 108075191 A CN108075191 A CN 108075191A CN 201810067108 A CN201810067108 A CN 201810067108A CN 108075191 A CN108075191 A CN 108075191A
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CN
China
Prior art keywords
packaging film
pole plate
plate
skewed slot
heap
Prior art date
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Granted
Application number
CN201810067108.0A
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Chinese (zh)
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CN108075191B (en
Inventor
干连观
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Quanzhou Fengze Yazhi Battery Machinery Equipment Co Ltd
Original Assignee
Quanzhou Fengze Yazhi Battery Machinery Equipment Co Ltd
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Application filed by Quanzhou Fengze Yazhi Battery Machinery Equipment Co Ltd filed Critical Quanzhou Fengze Yazhi Battery Machinery Equipment Co Ltd
Priority to CN201810067108.0A priority Critical patent/CN108075191B/en
Priority to CN201510999900.6A priority patent/CN105609883B/en
Publication of CN108075191A publication Critical patent/CN108075191A/en
Application granted granted Critical
Publication of CN108075191B publication Critical patent/CN108075191B/en
Active legal-status Critical Current
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Classifications

    • HELECTRICITY
    • H01BASIC ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M10/00Secondary cells; Manufacture thereof
    • H01M10/06Lead-acid accumulators
    • H01M10/12Construction or manufacture
    • H01M10/14Assembling a group of electrodes or separators
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

Abstract

Full automatic accumulator pole plate flaker packaging film coats mechanism, including:First, second pole plate, first, second slab feeding mechanism, for coating the packaging film of big pole plate heap outer circumferential surface cladding mechanism;Packaging film cladding mechanism, which includes bottom plate and film coating mechanism and Tang Mo mechanisms, film coating mechanism, to be included:Parallel interval is arranged on a pair of of guide plate on bottom plate, gap between a pair of of guide plate forms coating passage, each guide plate is disposed with the first packaging film flanging skewed slot, packaging film flanging level trough and the second packaging film flanging skewed slot along discharging direction, and the inner end of the both ends of packaging film flanging level trough respectively with the first packaging film flanging skewed slot and the second packaging film flanging skewed slot is connected;Tang Mo mechanisms include:Parallel interval is arranged on a pair of of heat block of the membrane end side surface on a pair of second packaging film flanging skewed slot, and the gap between a pair of of heat block forms boiling hot membrane channels, is bonded by the packaging film of the two sides of the big pole plate heap of the boiling hot membrane channels by the heat block hot pressure.

Description

Full automatic accumulator pole plate flaker packaging film coats mechanism
Technical field
The present invention relates to the pole plate packaging facilities during storage battery production, and in particular to a kind of full automatic accumulator pole plate Flaker packaging film coats mechanism.
Background technology
During current storage battery production, a procedure is that positive plate, negative plate, separator paper are assembled into pole group, Separator paper is sandwiched between positive plate and negative plate, because being normally referred to as " package piece " or " wrapper sheet " process in the industry.Tradition " package piece " process, mostly based on manual operation, operator first takes a piece of negative plate, with two bread clip of separator paper cut out just Pole piece is simultaneously stacked on negative plate, is ensured there is separator paper between each group of positive and negative plate, is cycled aforesaid operations, completes entire bag Piece and assembling, not only efficiency is low, but also package piece quality is not also high, and the lead dust to drop on pole piece can also make the health of operator Into influence.
Though existing disclosed flaker employs the processing method of automation, such as Chinese patent Authorization Notice No. CN1 0 2263 226 B, 0 256,991 2 B of Authorization Notice No. CN1,03 9,287 01 A of application publication number CN1, Authorization Notice No. Flaker disclosed in CN103066335B etc., but be unable to fully achieve full-automatic package piece, and package piece efficiency is not also high, Also lead dust is be easy to cause to drop.
The content of the invention
It is an object of the invention to be directed to that existing flaker intelligence degree is low, package piece efficiency is low, lead dust easily drops etc. no Foot and defect provide a kind of full automatic accumulator pole plate flaker packaging film cladding mechanism, to solve the above problems.
Following technical scheme may be employed to realize in technical problem solved by the invention:
Full automatic accumulator pole plate flaker packaging film coats mechanism, which is characterized in that including:
Convey the first slab feeding mechanism of the first pole plate;
Convey the second slab feeding mechanism of the second pole plate;
It is arranged on the first trigger structure of the discharge end of first slab feeding mechanism;
It is arranged on the second starting board mechanism of the discharge end of second slab feeding mechanism;
The pole plate conveying mechanism being arranged on the first trigger structure and the lower plate station of the second starting board mechanism, the pole plate are defeated Mechanism is sent to have to convey lower floor's transfer passage of the first pole plate and the upper strata transfer passage to convey the second pole plate, it is described Lower floor's transfer passage and the upper strata transfer passage overlap to form unipolar plate and stack station in discharge end so that the first pole plate is at this It is overlayed on station on the second pole plate, forms small pole plate heap;
Be arranged on the upper strata transfer passage of the pole plate conveying mechanism and positioned at the first trigger structure lower plate station and Paper feeding paper cutting mechanism between the lower plate station of second starting board mechanism, the first pole plate after the paper feeding paper cutting mechanism by coating There are the scraps of paper;
Be arranged on the pole plate conveying mechanism unipolar plate stack station discharge end palletizing mechanism, the palletizing mechanism is by institute It states the small pole plate heap that unipolar plate is stacked on station and is transferred to multilayer pole plate and stack station so that the small pole plate heap of multilayer is stacked together Form big pole plate heap;
Input terminal and the multilayer pole plate stack the big pole plate heap conveying mechanism that station docks, the big pole plate heap conveying mechanism edge Packaging film is disposed in discharging direction and cuts conveying mechanism and packaging film cladding mechanism.
In a preferred embodiment of the invention, first slab feeding mechanism and the second slab feeding mechanism are that chain send plate Mechanism.
In a preferred embodiment of the invention, the first trigger structure and the second starting board mechanism are negative pressure sucker Formula starting board mechanism, the negative pressure sucking disc type starting board mechanism include:
Play board mount;
The cam risen on board mount is rotatably arranged on, the cam is connected with cam rotation driving mechanism;
It is slidably arranged in the sliding shoe risen on board mount;
Connecting rod, one end of the connecting rod are connected with the cam rotation, and sliding shoe described in the other end is rotatablely connected;
The cursor turned on rail risen on board mount is slidably arranged in, one end hinge of the cursor is located at the slip On block;
The negative pressure sucker being arranged on the cursor;
It is arranged on described board mount to detect the sensor of sliding shoe position, during the sliding shoe slides, When the sensor detects that sliding shoe slides into front end, signal is passed to the negative pressure source of the negative pressure sucker, makes institute It states negative pressure sucker and draws pole plate, when the sensor detects that sliding shoe slides into rearmost end, signal is passed to described negative The negative pressure source of sucker is pressed, makes the negative pressure sucker that pole plate is placed on lower plate station.
In a preferred embodiment of the invention, the pole plate conveying mechanism includes:
Chain conveying mechanism as lower floor's transfer passage is equidistantly arranged at intervals on the chain of the chain conveying mechanism There are several blocks;
It is arranged on above the chain conveying mechanism and the strip as the upper strata transfer passage send board slot, the block Top extends to the strip and send in board slot so that the block can drive second pole plate to send board slot in the strip Middle conveying.
In a preferred embodiment of the invention, the paper feeding paper cutting mechanism includes:
Stent;
It is arranged on the paper feeding roll assembly of the cradle top;
The pulsed hand papercutter at the paper delivery end of the paper feeding roll assembly is arranged on, is to fall paper to lead to below the pulsed hand papercutter Road;
Fall the paper feed inductive pick-up on the downside of paper passage described in being arranged on;
Fall the pressing roll assembly of paper passage lower end one side described in being arranged on, the pressing roll assembly has pressing passage, the pressure The feed end for closing passage is provided with scraps of paper standing station, when the first pole plate is logical by the pressing via the scraps of paper standing station During road, the scraps of paper are coated on the upper and lower surface of the first pole plate by the pressing roll assembly.
In a preferred embodiment of the invention, the pressing roll assembly includes the upper pressing that upper and lower parallel interval is set The axis of roller and lower press bonding roller, the upper press bonding roller and lower press bonding roller is vertical with the direction of transfer of the first pole plate, the upper pressing Gap forms the pressing passage between roller and lower press bonding roller, and the middle part of the upper press bonding roller and lower press bonding roller coaxially opens up respectively There are upper annular groove, the lower annular groove that width is less than the first plate width, be provided in the lower annular groove and conveyed with the chain The sprocket wheel of the chain interoperation of mechanism.
In a preferred embodiment of the invention, the end of the upper press bonding roller and lower press bonding roller is adjusted with the first height Device connects, to adjust the height of the pressing passage.
In a preferred embodiment of the invention, it is provided with lift adjustment plate on the scraps of paper standing station.
In a preferred embodiment of the invention, it is described fall paper passage both sides be provided with paper width adjustment plates.
In a preferred embodiment of the invention, the pulsed hand papercutter includes cut paper cylinder, the cut paper cylinder Piston rod be connected with hand papercutter.
In a preferred embodiment of the invention, the palletizing mechanism is to rotate palletizing mechanism, the rotation palletizing machine Structure includes:
Rotating middle shaft;
Coaxial spaced is arranged on a pair of of active turntable in the middle part of the rotating middle shaft, the gap shape between the pair of active turntable Passage is transported into small pole plate heap;
Several driven turntables being inlaid on the active turntable are circumferentially rotated, the outer end of each driven turntable is connected with from turn Axis is provided with a planetary gear on each driven spindle, and the inner end of each driven turntable is provided with small pole plate heap support feet;
Drive the rotation driving part of the planetary gear rotation;
When active turntable rotates, the driven turntable rotates simultaneously under the planetary effect so that the small pole The supporting plane of sheetpile support feet always with horizontal plane keeping parallelism.
In a preferred embodiment of the invention, the rotation driving part includes:
It is arranged on the drive sprocket on the outside of active turntable and on the rotating middle shaft;
The driving chain being circumferentially positioned on the drive sprocket and the planetary gear;
The chain stretching device being arranged on the active turntable outer end face;
When rotating middle shaft rotates, the planetary gear rotation is driven by the drive sprocket and driving chain.
In a preferred embodiment of the invention, the bottom of the small pole plate heap support feet is arranged to wedge surface structure, institute The inner face for stating small pole plate heap support feet is connected to by dynamic clamping head and quiet clamping head on the driven turntable.
In a preferred embodiment of the invention, the big pole plate heap conveying mechanism includes:
Big pole plate heap transfer passage, the bottom of the big pole plate heap transfer passage is provided with delivery chute along its length;
The movable plate of the big pole plate heap transfer passage bottom is arranged on, at least one perpendicular block is provided on the movable plate;
Connect lifting and the horicontal motion mechanism of the movable plate;
When the lifting and horicontal motion mechanism drive the movable plate to rise to top dead centre, the perpendicular block rises to described In delivery chute, then when the lifting and horicontal motion mechanism drive the movable plate to move horizontally, the perpendicular block contraposition It is conveyed in the big pole plate heap on the big pole plate heap transfer passage.
In a preferred embodiment of the invention, equidistantly it is provided with three pieces of perpendicular blocks on the movable plate, adjacent two The distance between perpendicular block and the multilayer pole plate stack station to the packaging film cut the distance between conveying mechanism and It is equal to the distance between packaging film cladding mechanism that the packaging film cuts conveying mechanism.
In a preferred embodiment of the invention, the lifting and horicontal motion mechanism include vertical cylinder and horizontal gas Cylinder, the piston rod of the vertical cylinder connect the horizontal air cylinder, and the piston rod of the horizontal air cylinder connects the movable plate.
In a preferred embodiment of the invention, the packaging film cuts conveying mechanism and includes:
Packaging film feed roller assembly;
It is arranged on the packaging film pressing roll assembly at the membrane end of packaging film feed roller assembly;
It is arranged on the pulsed cutting membrane knife at the membrane end of the packaging film pressing roll assembly;
The negative pressure for being arranged on the pulsed cutting membrane knife lower end inhales deflector roll, if the outer surface that the negative pressure inhales deflector roll is circumferentially provided with Dry negative pressure inhales fenestra;
The packaging film pressing roll assembly and negative pressure is driven to inhale the driving device that deflector roll rotates;
Be arranged on the negative pressure and inhale packaging film guide roller below deflector roll, the packaging film guide roller and the negative pressure inhale deflector roll it Between gap formed for big pole plate heap by packaging passage.
In a preferred embodiment of the invention, the pulsed cutting membrane knife includes cutting film cylinder, the cutting film cylinder Piston rod on be connected with cutting membrane knife.
In a preferred embodiment of the invention, the end of the packaging film guide roller connects with the second height adjustment device It connects, to adjust the height of the packaging passage.
In a preferred embodiment of the invention, packaging film cladding mechanism include bottom plate and along discharging direction according to The secondary film coating mechanism being arranged on the bottom plate and Tang Mo mechanisms,
The film coating mechanism includes:
Parallel interval is arranged on a pair of of guide plate on the bottom plate, and the gap between the pair of guide plate forms coating and leads to Road, each guide plate are disposed with the first packaging film flanging skewed slot, packaging film flanging level trough and second along discharging direction Packaging film flanging skewed slot, the both ends of the packaging film flanging level trough are wrapped respectively with the first packaging film flanging skewed slot and second Fill the inner end connection of film flanging skewed slot;
The Tang Mo mechanisms include:
Parallel interval is arranged on a pair of of heat block of the membrane end side surface on a pair of second packaging film flanging skewed slot, the pair of to add Gap between heat block forms boiling hot membrane channels, and the packaging film by the two sides of the big pole plate heap of the boiling hot membrane channels is added by described Heat block hot pressure bonds.
In a preferred embodiment of the invention, at least heat block straight line driving with discharging direction vertical with one Structure connects.
In a preferred embodiment of the invention, the first packaging film flanging skewed slot be along discharging direction in it is progressively lower walk The skewed slot of gesture, the second packaging film flanging skewed slot are that the skewed slot in gradually high tendency, first packaging film are rolled over along discharging direction Side skewed slot and the minimum point of the second packaging film flanging skewed slot are contour concordant, and respectively with the packaging film flanging level trough Both ends connect.
In a preferred embodiment of the invention, it is additionally provided with one in the tail end of packaging film cladding mechanism and send plate whole Shape mechanism, it is described that plate reshaping device is sent to include a crosswise pushing cylinder and a longitudinal direction leveling cylinder, the crosswise pushing cylinder pair The big pole plate heap that packaging is completed by packaging film cladding mechanism pushes to next station, the piston of the longitudinal direction leveling cylinder Boom end is provided with electrode column leveling block, and the electrode column leveling block carries out the electrode column of several pole plates in each big pole plate heap Leveling alignment.
As a result of technical solution as above, the present invention can realize full-automatic package piece, improve package piece efficiency, and Conveying mechanism is cut by packaging film during package piece and packaging film coats mechanism and carries out coating to big pole plate heap, prevents lead dust It drops, improves processing safety.
Description of the drawings
It in order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention, for those of ordinary skill in the art, without creative efforts, can be with Other attached drawings are obtained according to these attached drawings.
Fig. 1 is the full automatic accumulator pole plate flaker front view of an embodiment of the present invention.
Fig. 2 is the side view of Fig. 1.
Fig. 3 is the top view of Fig. 1.
Fig. 4 is the first trigger structure of an embodiment of the present invention and the structure diagram of the second starting board mechanism.
Fig. 5 is the front view of Fig. 4.
Fig. 6 is the top view of Fig. 4.
Fig. 7 is the structure diagram of the paper feeding paper cutting mechanism of an embodiment of the present invention.
Fig. 8 is the side view of Fig. 7.
Fig. 9 is the front view of Fig. 7.
Figure 10 is the structure diagram of the palletizing mechanism of an embodiment of the present invention.
Figure 11 is the front view of Figure 10.
Figure 12 is the top view of Figure 10.
Figure 13 is the sectional view along A-A of Figure 12.
Figure 14 is that the packaging film of an embodiment of the present invention cuts the structure diagram of conveying mechanism.
Figure 15 is the front view of Figure 14.
Figure 16 is the side view of Figure 14.
Figure 17 is the structure diagram of the packaging film cladding mechanism of an embodiment of the present invention.
Figure 18 is the top view of Figure 17.
Figure 19 is the front view of Figure 17.
Figure 20 is the top view for sending plate reshaping device of an embodiment of the present invention.
Specific embodiment
In order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, below into One step illustrates the present invention.
Referring to Fig. 1 to full automatic accumulator pole plate flaker 1000 shown in Fig. 3, including mounting seat 1 and housing 2, peace It is whole in " Qian " type structure to fill pedestal 1, shortens device length, saves space.In the left side vertical portion of mounting seat 1 (shown in Figure 3) be provided with to convey the first slab feeding mechanism 100a of the first pole plate and to convey the second pole plate second Slab feeding mechanism 100b.The first pole plate in the present embodiment is positive plate, and the second pole plate is negative plate.First slab feeding mechanism 100a and Second slab feeding mechanism 100b parallel intervals are set.
Pole plate conveying mechanism 300, the first trigger structure are from left to right disposed with along the middle part crosspiece of mounting seat 1 200a, paper feeding paper cutting mechanism 400, the second starting board mechanism 200b, palletizing mechanism 500, big pole plate heap conveying mechanism 600, evener Structure 1200, packaging film cut conveying mechanism 700, packaging film cladding mechanism 800 and send plate reshaping device 900.The first trigger structure 200a, paper feeding paper cutting mechanism 400, the second starting board mechanism 200b are arranged on pole plate conveying mechanism 300, flattening mechanism 1200, bag Dress film cuts conveying mechanism 700, packaging film cladding mechanism 800 and plate reshaping device 900 is sent to be arranged on big pole plate heap conveying mechanism On 600.Housing 2 is covered on pole plate conveying mechanism 300 and palletizing mechanism 500, and the lead dust for preventing two positions is excessive.
The first slab feeding mechanism 100a and the second slab feeding mechanism 100b in the present embodiment are chain slab feeding mechanism, the first Trigger structure 200a is arranged on the discharge end of the first slab feeding mechanism 100a, and the second starting board mechanism 200b is arranged on the second slab feeding mechanism The discharge end of 100b, the first trigger structure 200a, which is set, to fall with the lower plate station of the second starting board mechanism 200b in pole plate conveying mechanism On 300.
Pole plate conveying mechanism 300 has to convey lower floor's transfer passage of the first pole plate and to convey the second pole plate Upper strata transfer passage, lower floor's transfer passage and upper strata transfer passage overlap to form unipolar plate and stack station in discharge end so that One pole plate is overlayed on the station on the second pole plate, forms small pole plate heap.Lower floor's transfer passage in the present embodiment is chain Conveying mechanism is equidistantly arranged at intervals with several blocks on the chain of chain conveying mechanism;Upper strata transfer passage is to be arranged on chain Strip above conveying mechanism send board slot.It extends to strip at the top of block to send in board slot so that block can drive Two pole plates convey in strip send board slot.
Paper feeding paper cutting mechanism 400 is arranged on the upper strata transfer passage of pole plate conveying mechanism 300 and positioned at the first trigger Between the lower plate station of the lower plate station of structure 200a and the second starting board mechanism 200b, the effect of paper feeding paper cutting mechanism 400 is to make One pole plate is coated with the scraps of paper after passing through.
The unipolar plate that palletizing mechanism 500 is arranged on pole plate conveying mechanism 300 stacks the discharge end of station, palletizing mechanism 500 Effect be that the small pole plate heap stacked unipolar plate on station is transferred to multilayer pole plate and stacks station so that the small pole plate of multilayer stacks It puts together to form big pole plate heap.The input terminal of big pole plate heap conveying mechanism 600 stacks station with multilayer pole plate and docks.
Referring to shown in Fig. 4 to Fig. 6, the first trigger structure 200a and the second starting board mechanism 200b are negative pressure sucking disc type starting board Mechanism, the first trigger structure 200a and the second starting board mechanism 200b are symmetrical arranged.Negative pressure sucking disc type starting board mechanism includes being arranged on Board mount 210 is played in mounting seat 1, board mount 210 is played in inverted L shape structure, plays the riser 211 of board mount 210 and transverse slat 212 Intersection cam 220 is provided with by bearing assembly rotation, cam 220 connects with cam rotation driving mechanism (not shown) It connects.In order to facilitate the work synchronism of control the first trigger structure 200a and the second starting board mechanism 200b, the in the present embodiment Trigger structure 200a and the cam 220 of the second starting board mechanism 200 are connected by same drive shaft 290 together.Play the horizontal stroke of board mount 210 Horizontally-guided column 250 is provided on plate 212, is slided on horizontally-guided column 250 and is provided with sliding shoe 240.Play the horizontal stroke of board mount 210 212 lower part of plate, which is provided with, turns to rail 212a, and turning to rail 212a includes upper horizontal rail section 212aa, oblique transition rail section 212ab and lower water
Plate rail section 212ac.One end hinge of cursor 260 is located on sliding shoe 240, and the other end of cursor 260 passes through idler wheel 261 It is slidably arranged in and turns on rail 212a, negative pressure sucker 270 is provided on cursor 260.One end of connecting rod 230 and cam 220 Convex block 221 is rotatablely connected, and the convex block 241 of the other end and sliding shoe 240 is rotatablely connected.At 212 top of transverse slat for playing board mount 210 It is provided with to detect the sensor 280 of 240 position of sliding shoe.
The course of work of negative pressure sucking disc type starting board mechanism is as follows:
Driving cam 220 rotates, and under the action of connecting rod 230 sliding shoe 240 is driven to be slided along horizontally-guided column 250, slided During block 240 slides, when sliding shoe 240 slides into front end, the idler wheel 261 of cursor 260 slides into steering rail On the upper horizontal rail section 212aa of 212a so that lifted on cursor 260, negative pressure sucker 270 is aligned by extraction electrode plate, at this time sensor 280 detect that sliding shoe 240 is located at front end, and signal is passed to the negative pressure source of negative pressure sucker 270, inhales negative pressure sucker 270 Take pole plate;Similarly, when sliding shoe 240 slides into rearmost end, the idler wheel 261 of cursor 260, which slides into, to be turned under rail 212a On horizontal rail section 212ac so that cursor 260 is laid flat, and downward, sensor 280 detects sliding shoe to negative pressure sucker 270 at this time 240 are located at rearmost end, and signal is passed to the negative pressure source of negative pressure sucker 270, makes negative pressure sucker 270 that pole plate is placed on lower plate work On position.
Referring to shown in Fig. 7 to Fig. 9, paper feeding paper cutting mechanism 400 includes the stent for being arranged on 300 top of pole plate conveying mechanism 420th, paper feeding roll assembly 430, pulsed hand papercutter 440, paper feed inductive pick-up 450, pressing roll assembly 460.
Paper feeding roll assembly 430 is arranged on the top of stent 420, which is horizontally spaced about including a pair Guide roller 431,432, paper guide channel 433 was formed between guide roller 431,432, from putting that paper roll 410 sends out to warp Paper guide channel 433 was crossed, guide roller 431 therein is rotatablely connected with driving motor 434.In order to control paper guide channel 433 Width, to adapt to the scraps of paper of different-thickness, the end of guide roller 431,432 is connected by screw adjusting mechanism 435.
Pulsed hand papercutter 440 is arranged on the paper delivery end of paper feeding roll assembly 430, and 440 lower section of pulsed hand papercutter is to fall paper Passage 480, pulsed hand papercutter 440 include cut paper cylinder 441, and the piston rod of cut paper cylinder 441 is connected with hand papercutter 442, makes It obtains hand papercutter 442 to move back and forth, the action of pulsed cut paper.
Paper feed inductive pick-up 450 is arranged on 480 downside of paper passage, for detecting whether having the scraps of paper by working as paper feed When inductive pick-up 450 has detected that the scraps of paper rest on paper 480 lower end of passage, paper feed inductive pick-up 450 does not give cut paper gas 441 signal of cylinder so that 440 break-off of pulsed hand papercutter, when paper feed inductive pick-up 450 detects that no scraps of paper rest on When falling paper 480 lower end of passage, paper feed inductive pick-up 450 gives 441 signal of cut paper cylinder so that pulsed hand papercutter 440 starts Work.In order to adjust the scraps of paper of different in width, the both sides for falling paper passage 480 in the present embodiment are provided with paper width adjustment plates 481。
Pressing roll assembly 460 is arranged on 480 lower end one side of paper passage, and pressing roll assembly 460 has pressing passage, this reality The pressing roll assembly 460 applied in example includes upper press bonding roller 461 and the lower press bonding roller 462 that upper and lower parallel interval is set, upper press bonding roller 461 and lower press bonding roller 462 axis it is vertical with the direction of transfer of the first pole plate, between upper press bonding roller 461 and lower press bonding roller 462 between Gap forms pressing passage 463.The middle part of upper press bonding roller 461 and lower press bonding roller 462 coaxially offers width less than the first pole respectively It is provided in upper annular groove 461a, the lower annular groove 462a of plate width, lower annular groove 462a and matches somebody with somebody with the chain of chain conveying mechanism The sprocket wheel 462b of conjunction so that the first pole plate on chain conveying mechanism can pass through pressing passage 463, and pass through upper pressing The scraps of paper are coated on the upper and lower surface of the first pole plate by roller 461 and lower press bonding roller 462.The feed end of pressing passage 463 is provided with paper Piece standing station, scraps of paper standing station are provided with sheet heights adjustable plate 470, facilitate the adjusting not cooperation position of plates of similar polarity or the scraps of paper It puts.Preferably, the end of 462 rollers of upper press bonding roller 461 and lower pressing is connected with screw height adjustment device 464, to adjust Press the height of passage 463.
Referring to shown in Figure 10 to Figure 13, palletizing mechanism 500 is rotation palletizing mechanism, including rotating middle shaft 510 and same between centers Gap between a pair of of the active turntable 520 for being arranged on 510 middle part of rotating middle shaft, a pair of of active turntable 520 forms small pole plate Heap transports passage 521.The outer edge of each active turntable 520, which circumferentially rotates, to be embedded in there are four driven turntable 530, each from turn The outer end of disk 530 is connected with driven spindle 531, and a planetary gear 532 is provided on each driven spindle 531, each from turn The inner end of disk 530 is provided with small pole plate heap support feet 533.Palletizing mechanism 500 further includes the rotation that driving planetary gear 532 rotates Driving part 540.Rotation driving part 540 in the present embodiment includes being arranged on 520 outside of active turntable and in rotating Drive sprocket 511 on axis 510 and the driving chain 541 being circumferentially positioned on drive sprocket 511 and planetary gear 532.For Driving rotating middle shaft 510 is facilitated to rotate, the end of the rotating middle shaft 510 in the present embodiment is that have sprocket wheel 512, with reference to Fig. 3 institutes Show, which is connected by chain 1110 with gear case type transmission arrangement 1100, is driven by gear case type transmission arrangement 1100. When rotating middle shaft 510 rotates, by drive sprocket 511 and driving chain 541 planetary gear 532 is driven to rotate, driven turntable 530 rotate simultaneously under the action of planetary gear 532 so that the supporting plane of small pole plate heap support feet 533 always with horizontal plane Keeping parallelism.For the convenience of adjusting, the chain stretching device 550 on 520 outer end face of active turntable, the chain stretching device 550 include being arranged on shaft 551 by sliding panel 552, and the tensioning bypassed for driving chain 541 is provided in shaft 551 and is adjusted Sprocket wheel 553.
Small pole plate heap is placed on multilayer pole plate by small pole plate heap support feet 533 for convenience to stack on station, small pole The bottom of sheetpile support feet 553 is arranged to wedge surface structure 553a, and the inner face of small pole plate heap support feet 553 passes through dynamic clamping head and quiet clamping head (not shown) is connected on driven turntable 530.Work is stacked when the bottom of small pole plate heap support feet 553 is contradicted to multilayer pole plate During the both sides of position, under the action of wedge surface structure 553a, small pole plate heap support feet 553 is pressed into driven turntable 530 so that small Small pole plate heap in pole plate heap support feet 553 is placed on multilayer pole plate and stacks on station, when small pole plate heap support feet 553 leave it is more It when layer pole plate stacks station, is resetted under the action of dynamic clamping head and quiet clamping head, to prepare the small pole plate heap of support next time.
Certainly, above-mentioned rotation driving part 540 also includes the circumferential gear ring for carrying and coordinating internal tooth with planetary gear 532, Operation principle ensures that the supporting plane of small pole plate heap support feet 533 begins as the operation principle of general planetary gear mechanism Whole and horizontal plane keeping parallelism.
The operation principle of palletizing mechanism 500 is as follows:
When the small pole plate heap that unipolar plate is stacked on station is transported in small pole plate heap support feet 533, active turntable 520 rotates, In rotation process, the supporting plane of small pole plate heap support feet 533 ensures that small pole plate heap is normal always with horizontal plane keeping parallelism Conveying, will not drop out;When active turntable 520 rotated certain angle, another small pole plate heap can be sent to another small pole plate heap branch On spike 533;When small pole plate heap support feet 533, which turns to multilayer pole plate, stacks station, under the action of wedge surface structure 553a, Small pole plate heap support feet 553 is pressed into driven turntable 530 so that the small pole plate heap in small pole plate heap support feet 553 is placed on Multilayer pole plate is stacked on station, when small pole plate heap support feet 553, which leaves multilayer pole plate, stacks station, in the work of dynamic clamping head and quiet clamping head With lower reset, to prepare the small pole plate heap of support next time.
With reference to shown in Fig. 1 and Fig. 3, big pole plate heap conveying mechanism 600 includes big pole plate heap transfer passage, and the big pole plate heap is defeated The length of passage is sent to stack station by multilayer pole plate and extends to 800 tail end of packaging film cladding mechanism.Big pole plate heap transfer passage Bottom is provided with delivery chute 621 along its length, and big pole plate heap transfer passage bottom is provided with movable plate 620, on movable plate 620 It is provided at least one perpendicular block 621a.Three pieces of perpendicular block 621a are equidistantly provided on movable plate 620 in the present embodiment, it is adjacent The distance between two perpendicular block 621a and multilayer pole plate stack station to packaging film cut the distance between conveying mechanism 700 and It is equal to the distance between packaging film cladding mechanism 800 that packaging film cuts conveying mechanism 700.Movable plate 620 and lifting and level Motion 610 connects, and when lifting and 610 movable plates 620 is driven to rise to top dead centre for horicontal motion mechanism, erects on block 621a is risen in delivery chute 621, then when lifting and horicontal motion mechanism 610 drive movable plate 620 to move horizontally, erects block 621a conveys the big pole plate heap being located on big pole plate heap transfer passage.Lifting and horicontal motion mechanism in the present embodiment 610 include vertical cylinder 611 and horizontal air cylinder 612, the piston rod 611a connections horizontal air cylinder 612 of vertical cylinder 611, horizontal gas The piston rod connection movable plate 620 of cylinder 612.Multilayer pole plate stack station and packaging film cut conveying mechanism 700 between be provided with Big pole plate heap two sides are carried out with the flattening mechanism 1200 of leveling alignment, flattening mechanism 120 includes what a pair was driven by cylinder Flatten pressing plate.
Referring to shown in Figure 14 to Figure 16, packaging film, which cuts conveying mechanism 700, includes packaging film feed roller assembly 710, packaging Membrane pressure closes roll assembly 720, pulsed cutting membrane knife 730, negative pressure and inhales deflector roll 740, driving device 750 and packaging film guide roller 760, bag Filling film feed roller assembly 710 includes several guide roller 711a, 711b, 711c bypassed for packaging film, guide roller 711a, 711b, 711c presents part cloth two, and lower part is distributed the structure of one.Packaging film pressing roll assembly 720 is arranged on going out for guide roller 711c Film end is oriented to for convenience, in packaging film pressing roll assembly 720 into being provided with a pair of of guide pressing plate 780, guide pressing plate at film Left between 780 for packaging film by passage 781.Packaging film pressing roll assembly 720 includes a pair of bag being horizontally spaced about Fill film press bonding roller 721,722, the gap between packaging film press bonding roller 721,722 forms press mold passage.Pulsed cutting membrane knife 730 is set It puts at the membrane end of packaging film pressing roll assembly 720, pulsed cutting membrane knife 730 includes cutting film cylinder 731, cutting film cylinder 731 Cutting membrane knife 732 is connected on piston rod.Negative pressure inhales deflector roll 740 and is arranged on 730 lower end of pulsed cutting membrane knife, and negative pressure inhales deflector roll 740 Outer surface be circumferentially provided with several negative pressure and inhale fenestras.Driving device 750 is mounted on the one side of packaging film pressing roll assembly 720, Driving device 750 includes servomotor 751, and packaging film press bonding roller 721,722 has synchronous with the end set of negative pressure suction deflector roll 740 Belt wheel 721a, 722a, 741a, the output terminal of servomotor 751 are driven by synchronous belt 751 and synchronous pulley 721a, 722a, 741a Dynamic connection.Packaging film guide roller 760 is arranged on negative pressure and inhales 740 lower section of deflector roll, and packaging film guide roller 760 inhales deflector roll 740 with negative pressure Between by 761 synchronized links of transmission belt, gap that packaging film guide roller 760 and negative pressure are inhaled between deflector roll 740, which is formed, supplies big pole Sheetpile by packaging passage 790.In order to facilitate the height for adjusting packaging passage 790, the end of packaging film guide roller 760 passes through DOCK LEVELER 770 connects.
The operation principle that packaging film cuts conveying mechanism 700 is as follows:
First by packaging film, around being sequentially passed through after guide roller 711a, 711b, 711c, packaging film presses roll assembly 720, negative pressure is inhaled Deflector roll 740 and packaging film guide roller 760, when cutting membrane knife 732 cuts off packaging film, packaging film is attracted to packaging film guide roller 760 and negative pressure inhale deflector roll 740 between packaging passage 790 on, at this time big pole plate heap by packing passage 790 when can take away packaging Film so that packaging film is coated on before big pole plate heap, upper surface, on lower surface;Then servomotor 751 works so that bag After dress membrane pressure conjunction roll assembly 720, negative pressure suction deflector roll 740 and packaging film guide roller 760 turn over certain angle, cutting membrane knife 732 will wrap When filling film cut-out, packaging film at this time is attracted to packaging film guide roller 760 and negative pressure inhales packaging passage between deflector roll 740 On 790, repeat the above steps.
Referring to shown in Figure 17 to Figure 19, packaging film cladding mechanism 800 includes bottom plate 810 and is set gradually along discharging direction Film coating mechanism 820 and Tang Mo mechanisms 830 on bottom plate 810.Film coating mechanism 820 is arranged on including parallel interval on bottom plate 810 A pair of of guide plate 821, the gap between a pair of of guide plate 821 forms coating passage 822.Each guide plate 821 is along discharging side To being disposed with the first packaging film flanging skewed slot 821a, packaging film flanging level trough 821b and the second packaging film flanging skewed slot The both ends of 821c, packaging film flanging level trough 821b are oblique with the first packaging film flanging skewed slot 821a and the second packaging film flanging respectively The inner end connection of slot 821c.The first packaging film flanging skewed slot 821a in the present embodiment is in the oblique of progressively lower tendency along discharging direction Slot, the second packaging film flanging skewed slot 821c are the skewed slot in gradually high tendency, the first packaging film flanging skewed slot 821a along discharging direction It is contour concordant with the minimum point of the second packaging film flanging skewed slot 821c, and connect respectively with the both ends of packaging film flanging level trough 821b It connects.
Tang Mo mechanisms 830 include the membrane end side surface that parallel interval is arranged on the second packaging film flanging skewed slot 821c of a pair A pair of of heat block 832, the gap between a pair of of heat block 832 forms boiling hot membrane channels 833, by the big pole for scalding membrane channels 833 The packaging film of the two sides of sheetpile is bonded by 832 hot pressure of heat block.In order to facilitate adjustment scald membrane channels 833 distance, at least one Heat block 832 is vertical with one to be connected with the straight line driving mechanism 831 of discharging direction, and straight line driving mechanism 831 can be cylinder.
The operation principle of packaging film cladding mechanism 800 is as follows:
The big pole plate heap for cutting 700 coating of conveying mechanism by packaging film has packaging film, packaging film overlayed on before big pole plate heap, On upper surface, lower surface, and there are extra film in the both sides of packaging film, and the extra film in both sides is by the of film coating mechanism 820 at this time One packaging film flanging skewed slot 821a, packaging film flanging level trough 821b and the second packaging film flanging skewed slot 821c form side Coated state, then the packaging film of the two sides of big pole plate heap is by the bonding of 832 hot pressure of heat block so that packaging film is integrally formed one Big pole plate heap is coated in opened type packaging film, prevents lead dust from dropping out by opened type packaging film.
Shown in Figure 20, the tail end of packaging film cladding mechanism 800 is additionally provided with one and send plate reshaping device 900, send plate whole Shape mechanism 900 includes a crosswise pushing cylinder 910 and a longitudinal direction leveling cylinder 920, the piston rod 911 of crosswise pushing cylinder 910 A push plate 912 is connected, crosswise pushing cylinder 910 pushes to the big pole plate heap that packaging is completed by packaging film cladding mechanism 800 Next station.921 end set of piston rod of longitudinal direction leveling cylinder 920 has electrode column to flatten block 922, electrode column leveling block 922 On be provided with alignment slot 923, electrode column flattens block 922 and leveling pair is carried out to the electrode column of several pole plates in each big pole plate heap Together.
The basic principles, main features and the advantages of the invention have been shown and described above.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention, without departing from the spirit and scope of the present invention, various changes and modifications of the present invention are possible, these changes Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its Equivalent thereof.

Claims (5)

1. full automatic accumulator pole plate flaker packaging film coats mechanism, which is characterized in that including:Convey the first of the first pole plate Slab feeding mechanism;Convey the second slab feeding mechanism of the second pole plate;It is arranged on the first starting board of the discharge end of first slab feeding mechanism Mechanism;It is arranged on the second starting board mechanism of the discharge end of second slab feeding mechanism;It is arranged on the first trigger structure and Pole plate conveying mechanism on the lower plate station of two starting board mechanisms, the pole plate conveying mechanism have to convey under the first pole plate Layer transfer passage and the upper strata transfer passage to convey the second pole plate, lower floor's transfer passage and the upper strata transfer passage It overlaps to form unipolar plate and stack station in discharge end so that the first pole plate is overlayed on the station on the second pole plate, is formed small Pole plate heap;It is arranged on the upper strata transfer passage of the pole plate conveying mechanism and positioned at the lower plate station of the first trigger structure And second starting board mechanism lower plate station between paper feeding paper cutting mechanism, the first pole plate is by wrapping after the paper feeding paper cutting mechanism It is covered with the scraps of paper;Be arranged on the pole plate conveying mechanism unipolar plate stack station discharge end palletizing mechanism, the palletizing machine The small pole plate heap that structure stacks the unipolar plate on station is transferred to multilayer pole plate and stacks station so that the small pole plate heap of multilayer stacks Big pole plate heap is formed together;Input terminal and the multilayer pole plate stack the big pole plate heap conveying mechanism that station docks, described big Pole plate heap conveying mechanism is disposed with packaging film along in discharging direction and cuts conveying mechanism and packaging film cladding mechanism;The bag Dress film cladding mechanism includes bottom plate and the film coating mechanism and Tang Mo mechanisms that are successively set on along discharging direction on the bottom plate, institute Stating film coating mechanism includes:
Parallel interval is arranged on a pair of of guide plate on the bottom plate, and the gap between the pair of guide plate forms coating and leads to Road, each guide plate are disposed with the first packaging film flanging skewed slot, packaging film flanging level trough and second along discharging direction Packaging film flanging skewed slot, the both ends of the packaging film flanging level trough are wrapped respectively with the first packaging film flanging skewed slot and second Fill the inner end connection of film flanging skewed slot;
The Tang Mo mechanisms include:
Parallel interval is arranged on a pair of of heat block of the membrane end side surface on a pair of second packaging film flanging skewed slot, the pair of to add Gap between heat block forms boiling hot membrane channels, and the packaging film by the two sides of the big pole plate heap of the boiling hot membrane channels is added by described Heat block hot pressure bonds.
2. full automatic accumulator pole plate flaker packaging film as described in claim 1 coats mechanism, which is characterized in that at least one Heat block is vertical with one to be connected with the straight line driving mechanism of discharging direction.
3. full automatic accumulator pole plate flaker packaging film as described in claim 1 coats mechanism, which is characterized in that described the The skewed slot that it is in progressively lower tendency along discharging direction that one packaging film flanging skewed slot, which is, the second packaging film flanging skewed slot are along discharging side To the skewed slot in gradually high tendency, the minimum point of the first packaging film flanging skewed slot and the second packaging film flanging skewed slot is contour Concordantly, and respectively the both ends with the packaging film flanging level trough are connected.
4. the full automatic accumulator pole plate flaker packaging film cladding mechanism as described in claims 1 to 3 is any, feature exist In, it is additionally provided with one in the tail end of packaging film cladding mechanism and send plate reshaping device, it is described that plate reshaping device is sent to include a horizontal stroke To push cylinder and a longitudinal direction leveling cylinder, the crosswise pushing cylinder by packaging film cladding mechanism to completing packaging Big pole plate heap pushes to next station, and the piston rod end of the longitudinal direction leveling cylinder is provided with electrode column leveling block, the electricity Pole leveling block carries out leveling alignment to the electrode column of several pole plates in each big pole plate heap.
5. full automatic accumulator pole plate flaker packaging film as described in claim 1 coats mechanism, which is characterized in that described the One slab feeding mechanism and the second slab feeding mechanism are chain slab feeding mechanism.
CN201810067108.0A 2015-12-25 2015-12-25 Full automatic accumulator pole plate flaker with packaging film cladding mechanism Active CN108075191B (en)

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CN201810067108.0A CN108075191B (en) 2015-12-25 2015-12-25 Full automatic accumulator pole plate flaker with packaging film cladding mechanism
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CN201810067108.0A Active CN108075191B (en) 2015-12-25 2015-12-25 Full automatic accumulator pole plate flaker with packaging film cladding mechanism
CN201510999900.6A Active CN105609883B (en) 2015-12-25 2015-12-25 Full automatic accumulator pole plate flaker
CN201810067119.9A Active CN108281713B (en) 2015-12-25 2015-12-25 Full-automatic storage battery plate wrapping machine provided with paper feeding and cutting mechanism
CN201810067117.XA Active CN108258332B (en) 2015-12-25 2015-12-25 Full-automatic storage battery polar plate wrapping machine with plate stacking mechanism
CN201810067131.XA Active CN108281714B (en) 2015-12-25 2015-12-25 Full-automatic storage battery plate wrapping machine with packaging film cutting and conveying mechanism

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CN201810067119.9A Active CN108281713B (en) 2015-12-25 2015-12-25 Full-automatic storage battery plate wrapping machine provided with paper feeding and cutting mechanism
CN201810067117.XA Active CN108258332B (en) 2015-12-25 2015-12-25 Full-automatic storage battery polar plate wrapping machine with plate stacking mechanism
CN201810067131.XA Active CN108281714B (en) 2015-12-25 2015-12-25 Full-automatic storage battery plate wrapping machine with packaging film cutting and conveying mechanism

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CN106898824A (en) * 2017-04-05 2017-06-27 福建亚亨机械股份有限公司 A kind of pole plate lamination device
CN110676507B (en) * 2019-10-29 2021-04-20 湖北工程学院 Battery package trigger and contain its battery package board machine of assembling

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CN105609883A (en) 2016-05-25
CN108281713A (en) 2018-07-13
CN108258332B (en) 2020-02-04
CN108075191B (en) 2019-09-03
CN105609883B (en) 2018-03-06
CN108258332A (en) 2018-07-06
CN108281714B (en) 2020-02-04
CN108281714A (en) 2018-07-13
CN108281713B (en) 2020-02-04

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