CN112133966A

CN112133966A - Automatic convertible lithium cell insulated paper cladding device

Info

Publication number: CN112133966A
Application number: CN202011032702.XA
Authority: CN
Inventors: 张跃理
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-27
Filing date: 2020-09-27
Publication date: 2020-12-25

Abstract

The invention relates to the field of lithium batteries, in particular to an automatic turnover type lithium battery insulating paper coating device. The technical problem of the invention is that: an automatic turnover type lithium battery insulation paper coating device is provided. The technical implementation scheme of the invention is as follows: an automatic turnover type lithium battery insulating paper coating device comprises a paper pasting mechanism, a laminating pressing mechanism, a glue dispensing mechanism, a first elevating platform, an elevating collecting frame, a second elevating platform, a first electric telescopic clamping rotary table, a second electric telescopic clamping rotary table and the like; the conveying conveyor belt is connected with the lifting conveyor belt. According to the invention, the operation of automatically coating the insulating paper on the outer surface of the rectangular lithium battery pack is realized, the four surfaces of the lithium battery pack are sequentially and automatically dispensed, the insulating paper is pasted to the four surfaces of the outer surface of the lithium battery in a manual pasting simulation mode, the pasted insulating paper is pressed and tiled, and the effect of tightly pasting the insulating paper and the surface of the battery pack is ensured.

Description

Automatic convertible lithium cell insulated paper cladding device

Technical Field

The invention relates to the field of lithium batteries, in particular to an automatic turnover type lithium battery insulating paper coating device.

Background

Lithium batteries can be broadly classified into two types: lithium metal batteries and lithium ion batteries. Lithium ion batteries do not contain lithium in the metallic state and are rechargeable. The fifth generation of rechargeable batteries, lithium metal batteries, was born in 1996, and the safety, specific capacity, self-discharge rate and cost performance of rechargeable batteries were all superior to those of lithium ion batteries. Due to its own high technical requirement limits, only a few countries of companies are producing such lithium metal batteries.

The lithium battery is widely applied to various electronic products at present, in the prior art, part of electronic product shells are made of conductive metal materials, and then before the lithium battery is installed in the shell, the inner surface of the metal shell needs to be covered by pasting insulating paper, and simultaneously, the outer surface of the lithium battery needs to be covered by the insulating paper, the lithium battery often needs to be manually covered, when the battery in the shape of a part of cuboid is covered by the insulating paper, the other four surfaces except two surfaces of the anode and the cathode on the surface need to be covered by the insulating paper, in the manual covering process, each surface of the four surfaces needs to be sequentially glued by glue, each surface is pasted by the insulating paper one by one, as the insulating paper is continuous, when the insulating paper is manually wound and covered, the corners of the insulating paper can not be matched, so that part of the corners are exposed, the possibility of electric leakage is increased, and meanwhile, partial insulating paper is staggered, so that the corners of the insulating paper are folded, the thickness of the battery pack is increased, and subsequent installation is influenced.

Aiming at the problems, an automatic turnover type lithium battery insulating paper coating device is provided.

Disclosure of Invention

In order to overcome the problems that in the prior art, part of electronic product shells are made of conductive metal materials, and then before a lithium battery is installed in the shells, the inner surface of the metal shell needs to be covered by pasting insulating paper, and the outer surface of the lithium battery needs to be covered by the insulating paper, the lithium battery often needs to be manually covered, when part of rectangular batteries are covered by the insulating paper, the other four surfaces except two surfaces of the anode and the cathode on the surfaces of the batteries need to be covered by the insulating paper, in the process of manually covering the batteries, glue needs to be sequentially dispensed on each surface of the four surfaces, the insulating paper is pasted on each surface one by one, as the insulating paper is continuous, when the insulating paper is manually wound and covered, the corners of the insulating paper can not be matched, so that part of the corners are exposed, and the possibility of electric leakage is increased, meanwhile, the dislocation of partial insulating paper causes the folding of the corners of the insulating paper, which increases the thickness of the battery pack and influences the subsequent installation, and the technical problem of the invention is that: an automatic turnover type lithium battery insulation paper coating device is provided.

The technical implementation scheme of the invention is as follows: an automatic turnover type lithium battery insulating paper coating device comprises a conveying conveyor belt, a lifting conveyor belt, a first mounting bedplate, a second mounting bedplate, a paper pasting mechanism, a laminating pressing mechanism, a glue dispensing mechanism, a first elevating platform, an elevating collecting frame, a second elevating platform, a first electric telescopic clamping turntable and a second electric telescopic clamping turntable; the conveying conveyor belt is connected with the lifting conveyor belt; one side of the lifting conveyor belt is connected with the first mounting bedplate, and the other side of the lifting conveyor belt is connected with the second mounting bedplate; the upper part of the first installation bedplate is connected with the first elevating platform; the upper part of the first installation bedplate is connected with an elevated collecting frame; the elevated collecting frame is connected with the second mounting bedplate; the upper part of the second mounting bedplate is connected with a second elevating platform; the second elevated platform is connected with the first electric telescopic clamping rotary table; the first elevating platform is connected with the second electric telescopic clamping rotary table; the elevated collecting frame is connected with the paper sticking mechanism; the paper pasting mechanism is connected with the second elevating platform; the paper sticking mechanism is connected with the sticking pressing mechanism; the laminating pressing mechanism is connected with the elevated collecting frame; the laminating pressing mechanism is connected with the second elevating platform; the lower part of the laminating pressing mechanism is connected with the second mounting bedplate; the laminating and pressing mechanism is connected with the glue dispensing mechanism; the glue dispensing mechanism is connected with the first elevating platform; the glue dispensing mechanism is connected with the elevated collecting frame.

More preferably, the paper sticking mechanism comprises a first rotating shaft rod, a torsion spring rotating shaft sleeve column, a first half gear, a first linkage frame strip, a sliding sleeve ring, a second rotating shaft rod, a paper placing mechanism and a clamping pressing mechanism; the first rotating shaft rod is rotatably connected with the torsion spring rotating shaft sleeve column; the outer surface of the torsion spring rotating shaft sleeve column is fixedly connected with the first half gear and the first linkage frame strip in sequence; the inner side of the first linkage frame strip is connected with the sliding lantern ring in a sliding way; the inner side of the sliding lantern ring is fixedly connected with the second rotating shaft rod; the second rotating shaft rod is connected with the paper placing mechanism; one side of the paper placing mechanism close to the first rotating shaft rod is provided with a clamping and pressing mechanism; the clamping and pressing mechanism is connected with the elevated collecting frame; the paper placing mechanism is connected with the elevated collecting frame; the first rotating shaft rod is connected with the second elevating platform; the first half gear is connected with the laminating pressing mechanism.

More preferably, the laminating pressing mechanism comprises a power motor, a second driving wheel, a third rotating shaft rod, a first flat gear, a first bevel gear, a second bevel gear, a fourth rotating shaft rod, a first bearing frame plate, a fourth driving wheel, a first bearing frame rod, a fifth driving wheel, a sixth driving wheel, a rotating disc, a first linkage convex column, a second linkage frame strip, a double-side sliding rail plate, a first electric rotating shaft and a tiled lower pressing long plate; an output shaft of the power motor is fixedly connected with the second driving wheel; the outer ring surface of the second driving wheel is in transmission connection with a third driving wheel through a belt; the axle center of the third driving wheel is fixedly connected with the third rotating shaft rod; the outer surface of the third rotating shaft rod is fixedly connected with the first flat gear and the first bevel gear in sequence; the first bevel gear is meshed with the second bevel gear; the second bevel gear core is fixedly connected with the fourth rotating shaft rod; the outer surface of the fourth rotating shaft rod is rotatably connected with the first bearing frame plate; the outer surface of the fourth rotating shaft rod is fixedly connected with a fourth driving wheel; the outer surface of the fourth rotating shaft rod is rotatably connected with the first bearing frame rod; the fourth rotating shaft rod is fixedly connected with a fifth driving wheel; the outer ring surface of the fourth driving wheel is in transmission connection with the sixth driving wheel through a belt; the axis of the sixth driving wheel is fixedly connected with the end of the rotating disc; the upper part of the rotating disc is inserted with the first linkage convex column; the outer surface of the first linkage convex column is in transmission connection with the second linkage frame strip; the second linkage frame strip is in sliding connection with the double-side sliding rail plates; the second linkage frame strip is connected with the first electric rotating shaft; the first electric rotating shaft is connected with the tiled lower long pressing plate; the lower part of the power motor is connected with the second mounting bedplate; the third rotating shaft rod is connected with the second elevating platform; the first bearing frame plate is connected with the second elevating platform; the first bearing frame rod is connected with the elevated collecting frame; the fifth transmission wheel is connected with the glue dispensing mechanism; the first flat gear is connected with the first half gear; the lower part of the sixth driving wheel is connected with a second elevating platform; the double-side sliding rail plate is connected with the elevated collecting frame.

More preferably, the glue dispensing mechanism comprises a first gathering plate, a fifth rotating shaft rod, a seventh transmission wheel, a third bevel gear, a fourth bevel gear, a first telescopic rotating shaft, a second bearing frame plate, a sixth rotating shaft rod, an eccentric disc, an eighth transmission wheel, a second bearing frame rod, a ninth transmission wheel, a pushing gathering plate, a column gear, a pushing sliding column, a limiting sliding frame, a rebound spring, a sliding connection block, a sliding connection plate, a linking long plate, a penetrating sliding plate, a second electric rotating shaft, a third linkage frame strip, a glue dispensing nozzle, a connection lantern ring, a mobile control rod, a special-shaped penetrating control block, a mobile control sliding rod, a first transmission rod, a seventh rotating shaft rod, a first bearing frame block, a second bearing frame block and a second flat gear; the upper part of the first gathering plate is rotationally connected with a fifth rotating shaft rod; the outer surface of the fifth rotating shaft rod is fixedly connected with a seventh driving wheel and a third bevel gear in sequence; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the third bevel gear is meshed with the fourth bevel gear; the axis of the fourth bevel gear is fixedly connected with the first telescopic rotating shaft; the outer surface of the first telescopic rotating shaft is rotatably connected with the second bearing frame plate; the lower part of the second bearing frame plate is connected with the first collecting plate; the upper part of the first gathering plate is rotationally connected with a sixth rotating shaft rod; the outer surface of the sixth rotating shaft rod is fixedly connected with an eighth driving wheel, an eccentric disc and a ninth driving wheel in sequence; the outer surface of the sixth rotating shaft rod is rotationally connected with the second bearing frame rod; the outer surface of the first telescopic rotating shaft is connected with the propulsion aggregate plate; the first telescopic rotating shaft is fixedly connected with the column gear; the propelling collection plate is connected with the propelling sliding column; the outer surface of the propelling sliding column is in sliding connection with the limiting sliding frame; the outer surface of the pushing sliding column is sleeved with the rebound spring; the pushing sliding column is connected with the sliding connecting block; the sliding connecting block is in sliding connection with the sliding connecting plate; the sliding connecting plate is connected with the connecting long plate; the outer surface of the connecting long plate is in sliding connection with the penetrating sliding plate; the connecting long plate is connected with the second electric rotating shaft; the second electric rotating shaft is connected with the third linkage frame strip; the third linkage frame strip is connected with the dispensing nozzle; the outer surface of the connecting long plate is connected with the connecting lantern ring in a sliding way; the connecting lantern ring is connected with the movable control rod; the movable control rod is connected with the special-shaped penetration control block; the inner side of the special-shaped through control block is in transmission connection with the mobile control slide rod; the mobile control slide bar is connected with the first transmission bar; the first transmission rod is fixedly connected with the seventh rotating shaft rod; the outer surface of the seventh rotating shaft rod is sequentially in rotating connection with the first bearing frame block and the second bearing frame block; the seventh rotating shaft rod is fixedly connected with the second flat gear; the second bearing frame block is connected with the limiting sliding frame; the first bearing frame block is connected with the penetrating sliding plate; the first gathering plate is connected with the first elevating platform; the lower part of the limiting sliding frame is connected with the first elevating platform; the lower part of the penetrating sliding plate is connected with the first elevating platform; the second bearing frame rod is connected with the elevated collecting frame; the ninth driving wheel is connected with the fifth driving wheel; .

More preferably, the paper feeding mechanism comprises a sliding gathering plate, a first mounting seat, a second mounting seat, a winding roller, a first electric control shaft seat, a first connecting rod, a first electric discharging roller, a second connecting rod, a second electric control shaft seat, a third connecting rod, a second electric discharging roller, a fourth connecting rod, a fourth electric control shaft seat and an electric sliding rail cutter; the sliding assembly plate is connected with the first mounting seat; the sliding assembly plate is connected with the second mounting seat; the first mounting seat is rotatably connected with the winding roller; the winding roller is rotatably connected with the second mounting seat; the first mounting seat is sequentially connected with the first electric control shaft seat and the third electric control shaft seat; the first electric control shaft seat is connected with the first connecting rod; the first connecting rod is rotatably connected with the first electric discharging roller; the first electric discharging roller is rotationally connected with the second connecting rod; the second joint rod is connected with a second electric control shaft seat; the second electric control shaft seat is connected with the second mounting seat; the third electric control shaft seat is connected with a third connecting rod; the third connecting rod is rotatably connected with the second electric discharging roller; the second electric discharging roller is rotationally connected with the fourth connecting rod; the fourth connecting rod is connected with a fourth electric control shaft seat; the fourth electric control shaft seat is connected with the second mounting seat; the first mounting seat is connected with the electric sliding rail cutter in a sliding manner; the electric sliding rail cutter is connected with the second mounting seat in a sliding manner; the sliding assembly plate is connected with the elevated assembly frame; the sliding assembly plate is connected with the second rotating shaft rod.

More preferably, the clamping and pressing mechanism comprises a first set sliding block, a first switching mounting frame, a first electric sliding rod, a first sliding clamping plate, a built-in electric sliding rail clamping plate, an electric sliding seat, an electric saw blade, a second electric sliding rod, a second switching mounting frame and a second set sliding block; the first set sliding block is connected with the first adapter mounting frame; the first transfer mounting frame is connected with the first electric slide bar; the outer surface of the first electric slide bar is sequentially connected with the first sliding clamp plate and the built-in electric slide rail clamp plate in a sliding manner; the first sliding clamp plate is in sliding connection with the second electric sliding rod; the second electric slide bar is connected with the built-in electric slide rail clamping plate in a sliding way; the built-in electric slide rail clamping plate is connected with the electric slide carriage in a sliding way; the electric sliding seat is connected with the electric saw blade; the second electric sliding rod is connected with the second adapter mounting frame; the second switching mounting rack is connected with the second set sliding block; the second set sliding block is connected with the elevated set frame; the first set sliding block is connected with the elevated set frame.

More preferably, the first electric telescopic clamping rotary table and the second electric telescopic clamping rotary table are higher than the lifting conveyor belt, and the first electric telescopic clamping rotary table and the second electric telescopic clamping rotary table are symmetrically arranged by taking the center line of the lifting conveyor belt as a symmetry axis.

More preferably, the positions of the elevated integrated frame connected with the first integrated sliding block and the second integrated sliding block are both provided with right-angle electric sliding rails.

The invention has the beneficial effects that: in order to solve the problems that in the prior art, part of electronic product shells are made of conductive metal materials, and then before a lithium battery is installed in the shells, the inner surface of the metal shell needs to be covered by pasting insulating paper, and the outer surface of the lithium battery needs to be covered by the insulating paper, the lithium battery often needs to be manually covered, when part of rectangular batteries are covered by the insulating paper, the other four surfaces except two surfaces of the anode and the cathode on the surfaces of the batteries need to be covered by the insulating paper, in the process of manually covering the batteries, glue needs to be sequentially dispensed on each surface of the four surfaces, and the insulating paper is pasted on each surface one by one, because the insulating paper is continuous, when the insulating paper is manually wound and covered, the corners of the insulating paper can not be matched, part of the corners are exposed, the possibility of electric leakage is increased, and meanwhile, part of the insulating paper is staggered, the edge of the insulating paper is folded, so that the thickness of the battery pack is increased, and the subsequent installation is influenced;

the method comprises the steps that a paper sticking mechanism, a sticking pressing mechanism and a dispensing mechanism are designed, when the device is used, dispensing operation is carried out on the outer surface of a battery pack through the dispensing mechanism at first, dispensing is carried out on four surfaces of the battery pack in sequence, then the paper sticking mechanism is controlled to carry out paper sticking operation on the outer surface of the battery pack, and finally the sticking pressing mechanism is controlled to press insulating paper to be tightly attached to the surface of a battery;

realized the operation of the automatic cladding insulated paper of cuboid lithium cell group surface, the mode through automatic upset carries out automatic point in proper order to four faces on lithium cell surface and glues to four faces of lithium cell surface are pasted with insulated paper through the artifical mode of pasting of simulation, and the simulation is artifical presses the tiling to the insulated paper of pasting, guarantees that insulated paper and group battery surface carry out the effect of closely laminating.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a paper attaching mechanism according to the present invention;

FIG. 3 is a schematic view of a first three-dimensional structure of the bonding and pressing mechanism according to the present invention;

FIG. 4 is a second perspective view of the attaching and pressing mechanism according to the present invention;

FIG. 5 is a schematic perspective view of a dispensing mechanism of the present invention;

FIG. 6 is a schematic perspective view of the paper feeding mechanism according to the present invention;

fig. 7 is a schematic perspective view of the clamping and pressing mechanism of the present invention.

Reference numbers in the drawings: 1_ conveying conveyor belt, 2_ lifting conveyor belt, 3_ first mounting table, 4_ second mounting table, 5_ pasting paper mechanism, 6_ pasting pressing mechanism, 7_ dispensing mechanism, 8_ first elevating table, 9_ elevating gathering frame, 10_ second elevating table, 11_ first electric telescopic clamping turntable, 12_ second electric telescopic clamping turntable, 501_ first rotating shaft, 502_ torsion spring rotating shaft sleeve, 503_ first half gear, 504_ first linkage frame strip, 505_ sliding collar, 506_ second rotating shaft, 507_ paper discharging mechanism, 508_ clamping pressing mechanism, 601_ power motor, 602_ second driving wheel, 603_ third driving wheel, 604_ third rotating shaft, 605_ first flat gear, 606_ first bevel gear, 607_ second bevel gear, 608_ fourth rotating shaft, 609_ first bearing frame plate, 6010_ fourth bearing driving wheel, 6011_ first bearing frame rod, 6012_ fifth driving wheel, 6013_ sixth driving wheel, 6014_ rotating disk, 6015_ first linkage convex pillar, 6016_ second linkage frame strip, 6017_ double side sliding rail plate, 6018_ first electric rotating shaft, 6019_ tiled lower pressing long plate, 701_ first collecting plate, 702_ fifth rotating shaft, 703_ seventh driving wheel, 704_ third bevel gear, 705_ fourth bevel gear, 706_ first telescopic rotating shaft, 707_ second bearing frame plate, 708_ sixth rotating shaft, 709_ eccentric disc, 7010_ eighth driving wheel, 7011_ second bearing frame rod, 7012_ ninth driving wheel, 7013_ pushing collecting plate, 7014_ column gear, 7015_ pushing sliding column, 7016_ limiting sliding frame, 7017_ rebound spring, 7018_ sliding connecting block, 7019_ sliding connecting plate, 7020_ engaging long plate, 7021_ through sliding plate, 7022_ second electric rotating shaft, 7023_ third linkage frame strip, 7024_ dispensing nozzle, 7025_ link collar, 7026_ movement control rod, 7027_ profile through control block, 7028_ movement control slide bar, 7029_ first drive rod, 7030_ seventh pivot rod, 7031_ first bearing block, 7032_ second bearing block, 7033_ second pinion, 50701_ sliding collection plate, 50702_ first mount, 50703_ second mount, 50704_ wind-up roll, 50705_ first electric control shaft seat, 50706_ first engagement rod, 50707_ first electric discharge roll, 50708_ second engagement rod, 50709_ second electric control shaft seat, 50710_ third electric control shaft seat, 50711_ third engagement rod, 50712_ second electric discharge roll, 50713_ fourth engagement rod, 50714_ fourth electric control shaft seat, 50715_ electric sliding cutter, 50801_ first collection slide bar, 50802_ first transfer joint, 50803_ first electric discharge roll, 50804_ first slide bar, and 50 50805 built-in sliding slide, 50806_ electric slide, 50807_ electric saw blade, 50808_ second electric slide bar, 50809_ second adaptor mount, 50810_ second set of slide blocks.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

An automatic turnover type lithium battery insulating paper coating device is shown in figures 1-7 and comprises a conveying conveyor belt 1, a lifting conveyor belt 2, a first mounting table plate 3, a second mounting table plate 4, a paper pasting mechanism 5, a pasting pressing mechanism 6, a glue dispensing mechanism 7, a first elevating table 8, an elevating collection frame 9, a second elevating table 10, a first electric telescopic clamping rotary table 11 and a second electric telescopic clamping rotary table 12; the conveying conveyor belt 1 is connected with the lifting conveyor belt 2; one side of the lifting conveyor belt 2 is connected with the first installation bedplate 3, and the other side of the lifting conveyor belt 2 is connected with the second installation bedplate 4; the upper part of the first installation bedplate 3 is connected with a first elevating platform 8; the upper part of the first installation bedplate 3 is connected with an elevated collecting frame 9; the elevated collecting frame 9 is connected with the second mounting bedplate 4; the upper part of the second mounting bedplate 4 is connected with a second elevating platform 10; the second elevated platform 10 is connected with a first electric telescopic clamping rotary table 11; the first elevating platform 8 is connected with a second electric telescopic clamping rotary table 12; the elevated collecting frame 9 is connected with the paper sticking mechanism 5; the paper pasting mechanism 5 is connected with the second elevating platform 10; the paper sticking mechanism 5 is connected with the sticking pressing mechanism 6; the laminating pressing mechanism 6 is connected with an elevated collecting frame 9; the laminating pressing mechanism 6 is connected with the second elevating platform 10; the lower part of the laminating pressing mechanism 6 is connected with the second installation bedplate 4; the laminating and pressing mechanism 6 is connected with the glue dispensing mechanism 7; the glue dispensing mechanism 7 is connected with the first elevating platform 8; the glue dispensing mechanism 7 is connected with an elevated collecting frame 9.

When the automatic turnover type lithium battery insulating paper coating device is used, firstly, the device is stably fixed to a working plane manually, insulating paper raw materials are fixed to a paper sticking mechanism 5, meanwhile, a liquid glue feeding pipe is connected to a glue dispensing mechanism 7, then, a power supply is connected externally, a controller is connected externally, then, the power supply is controlled to be switched on, firstly, a battery pack which is adhered to one piece through insulating paper is placed above a conveying conveyor belt 1, then the conveying conveyor belt 1 drives the battery pack to move to the upper side of a lifting conveyor belt 2, the lifting conveyor belt 2 drives the battery pack to move to a position between a first electric telescopic clamping rotary disc 11 and a second electric telescopic clamping rotary disc 12, then, the first electric telescopic clamping rotary disc 11 and the second electric telescopic clamping rotary disc 12 are controlled to push out towards the middle part, then, the battery pack is clamped and fixed, then, the lifting conveyor belt 2 is controlled to stop moving, and, meanwhile, the first electric telescopic clamping rotary table 11 and the second electric telescopic clamping rotary table 12 drive the battery pack to turn over, sequentially dispensing four surfaces of the battery pack, further controlling the paper pasting mechanism 5 to paste paper on the outer surface of the battery pack, when the paper is pasted, the first electric telescopic clamping rotary disc 11 and the second electric telescopic clamping rotary disc 12 drive the battery pack to turn over, then continuously pasting paper on four surfaces of the battery pack, finally controlling the laminating and pressing mechanism 6 to press and tightly cling the insulating paper to the surface of the battery, realizing the operation of automatically coating the insulating paper on the outer surface of the rectangular lithium battery pack, sequentially and automatically dispensing four surfaces of the surface of the lithium battery in an automatic overturning mode, pasting the insulating paper to the four surfaces of the outer surface of the lithium battery in a simulated manual pasting mode, and simulate the manual work and press the tiling to the insulating paper who pastes, guarantee that insulating paper and group battery surface carry out the effect of closely laminating.

The paper pasting mechanism 5 comprises a first rotating shaft rod 501, a torsion spring rotating shaft sleeve column 502, a first half gear 503, a first linkage frame strip 504, a sliding sleeve ring 505, a second rotating shaft rod 506, a paper placing mechanism 507 and a clamping pressing mechanism 508; the first rotating shaft rod 501 is rotatably connected with the torsion spring rotating shaft sleeve column 502; the outer surface of the torsion spring rotating shaft sleeve column 502 is fixedly connected with a first half gear 503 and a first linkage frame strip 504 in sequence; the inner side of the first linking frame strip 504 is connected with the sliding lantern ring 505 in a sliding way; the inner side of the sliding collar 505 is fixedly connected with the second rotating shaft rod 506; the second rotating shaft rod 506 is connected with the paper placing mechanism 507; a clamping and pressing mechanism 508 is arranged on one side, close to the first rotating shaft rod 501, of the paper placing mechanism 507; the clamping and pressing mechanism 508 is connected with the elevated integrated frame 9; the paper placing mechanism 507 is connected with the elevated collecting frame 9; the first rotating shaft rod 501 is connected with the second elevating platform 10; the first half gear 503 is connected to the bonding pressing mechanism 6.

Firstly, fixing an insulating paper raw material to a paper placing mechanism 507, then fixing one end of the insulating paper to the interior of a clamping and pressing mechanism 508, at the moment, the battery pack is positioned below the paper placing mechanism 507 and the clamping and pressing mechanism 508, then a first flat gear 605 drives a first half gear 503 to rotate, then the first half gear 503 drives a torsion spring rotating shaft sleeve column 502 to rotate, further the torsion spring rotating shaft sleeve column 502 drives a first linkage frame strip 504 to rotate, further the first linkage frame strip 504 drives a sliding sleeve ring 505 to move, then the sliding sleeve ring 505 drives a second rotating shaft rod 506 to move, further the second rotating shaft rod 506 drives the paper placing mechanism 507 to slide in an elevated collection frame 9, further the paper placing mechanism 507 drives the insulating paper raw material to move downwards, meanwhile, the clamping and pressing mechanism 508 drives one end of the insulating paper to slide in the elevated collection frame 9, namely, one side of the insulating paper is driven to be attached to the upper surface of the battery pack, accomplish the laminating of one side, then first electronic flexible centre gripping carousel 11 and the electronic flexible centre gripping carousel 12 of second drive the group battery and overturn, and then paste the insulated paper in succession four sides of group battery.

The attaching and pressing mechanism 6 comprises a power motor 601, a second transmission wheel 602, a third transmission wheel 603, a third transmission wheel shaft 604, a first flat gear 605, a first bevel gear 606, a second bevel gear 607, a fourth transmission wheel shaft 608, a first bearing frame plate 609, a fourth transmission wheel 6010, a first bearing frame rod 6011, a fifth transmission wheel 6012, a sixth transmission wheel 6013, a rotating disc 6014, a first linkage convex column 6015, a second linkage frame strip 6016, a double-side slide rail plate 6017, a first electric rotating shaft 6018 and a tiled lower long pressing plate 6019; an output shaft of the power motor 601 is fixedly connected with the second transmission wheel 602; the outer annular surface of the second transmission wheel 602 is in transmission connection with a third transmission wheel 603 through a belt; the axle center of the third driving wheel 603 is fixedly connected with the third rotating shaft rod 604; the outer surface of the third rotating shaft rod 604 is fixedly connected with a first flat gear 605 and a first bevel gear 606 in sequence; the first bevel gear 606 meshes with the second bevel gear 607; the axis of the second bevel gear 607 is fixedly connected with the fourth rotating shaft lever 608; the outer surface of the fourth shaft 608 is rotatably connected to the first bearing support 609; the outer surface of the fourth rotating shaft rod 608 is fixedly connected with a fourth driving wheel 6010; the outer surface of the fourth pivot rod 608 is rotatably connected to the first carrier bar 6011; the fourth rotating shaft lever 608 is fixedly connected with a fifth driving wheel 6012; the outer ring surface of the fourth driving wheel 6010 is in transmission connection with a sixth driving wheel 6013 through a belt; the axis of the sixth driving wheel 6013 is fixedly connected with the rotating disc 6014; the upper part of the rotating disc 6014 is spliced with a first linkage convex column 6015; the outer surface of the first linkage convex column 6015 is in transmission connection with a second linkage frame strip 6016; the second linkage frame strip 6016 is slidably connected with a double-side slide rail plate 6017; the second linkage frame 6016 is connected to the first electric spindle 6018; the first electric rotating shaft 6018 is connected with the tiled lower pressing long plate 6019; the lower part of the power motor 601 is connected with the second mounting bedplate 4; the third rotating shaft rod 604 is connected with the second elevating platform 10; the first bearing frame plate 609 is connected with the second elevated platform 10; the first bearing frame rod 6011 is connected with the elevated manifold 9; the fifth transmission wheel 6012 is connected with the glue dispensing mechanism 7; the first spur gear 605 is connected to the first half gear 503; the lower part of the sixth driving wheel 6013 is connected with a second elevating platform 10; the double-sided slide rail plate 6017 is connected to the elevated rack 9.

Firstly, a power supply of a power motor 601 is connected through an external controller, and a first electric rotating shaft 6018 is controlled to drive a tiled lower lengthening plate 6019 to rotate by ninety degrees, so that the tiled lower lengthening plate 6019 rotates to the upper side of a paper-pasted battery pack, then the power motor 601 drives a second driving wheel 602 to rotate, then the second driving wheel 602 drives a third driving wheel 603 to rotate, then the third driving wheel 603 drives a third rotating shaft rod 604 to rotate, then the third rotating shaft rod 604 drives a first flat gear 605 and a first bevel gear 606 to rotate, then the first bevel gear 606 drives a second bevel gear 607 to rotate, then the second bevel gear 607 drives a fourth rotating shaft rod 608 to rotate, then the fourth rotating shaft rod 608 drives a fourth driving wheel 6010 to rotate, then the fourth driving wheel 6010 drives a sixth driving wheel 3 to rotate, then the sixth driving wheel 6013 drives a rotating disk 6014 to rotate, then, the rotating disc 6014 drives the first linkage convex column 6015 to rotate, then the first linkage convex column 6015 drives the second linkage frame strip 6016 to move, the second linkage frame strip 6016 slides in a reciprocating mode inside the double-side sliding rail plate 6017, the second linkage frame strip 6016 drives the first electric rotating shaft 6018 and the tiled lower long pressing plate 6019 to move in a reciprocating mode, the surface of the battery pack is pressed and tiled, and the insulating paper is made to cling to the surface of the battery pack.

The glue dispensing mechanism 7 comprises a first gathering plate 701, a fifth rotating shaft rod 702, a seventh driving wheel 703, a third bevel gear 704, a fourth bevel gear 705, a first telescopic rotating shaft 706, a second bearing frame plate 707, a sixth rotating shaft rod 708, an eccentric disc 709, an eighth driving wheel 7010, a second bearing frame rod 7011, a ninth driving wheel 7012, a pushing gathering plate 7013, a column gear 7014, a pushing sliding column 7015, a limiting sliding frame 7016, a rebound spring 7017, a sliding connection block 7018, a sliding connection plate 7019, a linking long plate 7020, a penetrating sliding plate 7021, a second electric rotating shaft 7022, a third linkage frame 7023, a glue dispensing nozzle 7024, a connecting lantern ring 7025, a moving control rod 7026, a special-shaped penetrating control block 7027, a moving control sliding rod 7028, a first driving rod 7029, a seventh rotating shaft rod 7030, a first bearing frame block 7031, a second bearing frame block 7032 and a second flat gear 7033; the upper part of the first gathering plate 701 is rotatably connected with a fifth rotating shaft rod 702; the outer surface of the fifth rotating shaft rod 702 is fixedly connected with a seventh driving wheel 703 and a third bevel gear 704 in sequence; the outer ring surface of the seventh driving wheel 703 is in transmission connection with an eighth driving wheel 7010 through a belt; the third bevel gear 704 meshes with a fourth bevel gear 705; the axis of the fourth bevel gear 705 is fixedly connected with the first telescopic rotating shaft 706; the outer surface of the first telescopic rotating shaft 706 is rotatably connected with a second bearing frame plate 707; the lower part of the second bearing frame plate 707 is connected with the first collecting plate 701; the upper part of the first gathering plate 701 is rotatably connected with a sixth rotating shaft rod 708; the outer surface of the sixth rotating shaft rod 708 is fixedly connected with an eighth driving wheel 7010, an eccentric disc 709 and a ninth driving wheel 7012 in sequence; the outer surface of the sixth rotating shaft rod 708 is rotatably connected with the second bearing frame rod 7011; the outer surface of the first telescopic rotating shaft 706 is connected with the propulsion manifold 7013; the first telescopic rotating shaft 706 is fixedly connected with the column gear 7014; the propulsion aggregate plate 7013 is connected with the propulsion sliding column 7015; the outer surface of the propulsion sliding column 7015 is in sliding connection with the limiting sliding frame 7016; the outer surface of the pushing sliding column 7015 is sleeved with a rebound spring 7017; the pushing sliding column 7015 is connected with the sliding connecting block 7018; the sliding connecting block 7018 is in sliding connection with the sliding connecting plate 7019; the sliding connecting plate 7019 is connected with the connecting long plate 7020; the outer surface of the connecting long plate 7020 is in sliding connection with the penetrating sliding plate 7021; the engaging long plate 7020 is connected to the second electric rotating shaft 7022; the second electric rotating shaft 7022 is connected with the third linkage frame 7023; the third linkage frame 7023 is connected with a dispensing nozzle 7024; the outer surface of the engagement long plate 7020 is slidably connected with the connection lantern ring 7025; the connecting lantern ring 7025 is connected with the moving control rod 7026; the movable control rod 7026 is connected with a special-shaped penetration control block 7027; the inner side of the special-shaped through control block 7027 is in transmission connection with a mobile control slide bar 7028; the movement control slide bar 7028 is connected with a first transmission bar 7029; the first driving rod 7029 is fixedly connected with the seventh rotating shaft 7030; the outer surface of the seventh rotating shaft 7030 is in turn connected with a first bearing frame 7031 and a second bearing frame 7032; the seventh rotating shaft 7030 is fixedly connected with the second flat gear 7033; the second bearing support block 7032 is connected with the limit sliding support 7016; the first bearing block 7031 is connected to a through sliding plate 7021; the first collecting plate 701 is connected with the first elevating platform 8; the lower part of the limit sliding frame 7016 is connected with the first elevating platform 8; penetrates through the lower part of the sliding plate 7021 and is connected with the first elevated platform 8; the second bearing frame rod 7011 is connected with the elevated collecting frame 9; the ninth driving wheel 7012 is connected with the fifth driving wheel 6012; .

Firstly, the second electric rotating shaft 7022 is controlled to drive the third linkage frame 7023 to rotate ninety degrees, namely, the third linkage frame 7023 drives the glue dispensing nozzle 7024 to rotate ninety degrees to the upper part of the battery pack, then the fifth driving wheel 6012 drives the ninth driving wheel 7012 to rotate, further the ninth driving wheel 7012 drives the sixth rotating shaft 708 to rotate, further the sixth rotating shaft 708 drives the eccentric disc 709 and the eighth driving wheel 7010 to rotate, simultaneously the eighth driving wheel 7010 drives the seventh driving wheel 703 to rotate, further the seventh driving wheel 703 drives the fifth rotating shaft 702 to rotate, further the fifth rotating shaft 702 drives the third bevel gear 704 to rotate, further the third bevel gear 704 drives the fourth bevel gear 705 to rotate, further the fourth bevel gear drives the first telescopic rotating shaft 706 to rotate, further the first telescopic rotating shaft 706 drives the column gear 7014 to rotate, and simultaneously the eccentric disc 709 rotates to drive the propulsion assembly plate 7013 to reciprocate, then the assembly board 7013 is pushed to drive the pushing sliding column 7015 to slide on the inner side of the limit sliding rack 7016, further the pushing sliding column 7015 drives the connecting long board 7020 to move through the sliding connecting block 7018 and the sliding connecting board 7019, further the connecting long board 7020 passes through, the pushing assembly board 7013 drives the rebound spring 7017 to compress, at the same time, the pushing assembly board 7013 drives the second electric rotating shaft 7022, the third driving frame 7023 and the dispensing nozzle 7024 to move, at this time, the column gear 7014 moves to a position where the column gear is meshed with the second flat gear 7033, further the column gear drives the second flat gear 7033 to rotate, then the second flat gear 7033 drives the seventh rotating shaft 7030 to rotate, further the seventh rotating shaft 7030 drives the first driving rod 7029 to rotate, then the first driving rod 7029 drives the movement control sliding rod 7028 to move on the inner side of the special-shaped through control block 7027, further the movement control sliding rod 7028 drives the special-shaped through control block, that is, the special-shaped penetration control block 7027 drives the connection long plate 7020 to slide back and forth inside the penetration sliding plate 7021 through the connection of the moving control rod 7026 and the connection lantern ring 7025, and the eccentric disc 709 drives the propulsion aggregation plate 7013 to reciprocate in cooperation with the elastic force of the rebound spring 7017, so that the transverse and longitudinal movements of the dispensing nozzle 7024 above the battery pack are finally realized, and the surface of the battery pack is uniformly dispensed.

The paper discharging mechanism 507 comprises a sliding gathering plate 50701, a first mounting seat 50702, a second mounting seat 50703, a wind-up roll 50704, a first electric control shaft seat 50705, a first joint rod 50706, a first electric discharging roller 50707, a second joint rod 50708, a second electric control shaft seat 50709, a third electric control shaft seat 50710, a third joint rod 50711, a second electric discharging roller 50712, a fourth joint rod 50713, a fourth electric control shaft seat 50714 and an electric sliding rail cutter 50715; the sliding collection plate 50701 is coupled to the first mount 50702; the sliding collection plate 50701 is coupled to the second mount 50703; the first mounting seat 50702 is rotatably connected with the take-up roll 50704; the winding roller 50704 is rotatably connected with the second mounting seat 50703; the first mounting seat 50702 is sequentially connected with a first electric control shaft seat 50705 and a third electric control shaft seat 50710; the first electric control shaft seat 50705 is connected with a first connecting rod 50706; the first connecting rod 50706 is rotatably connected with the first electric discharging roller 50707; the first electric discharging roller 50707 is rotatably connected with the second connecting rod 50708; the second connecting rod 50708 is connected with the second electric control shaft seat 50709; the second electric control shaft seat 50709 is connected with a second mounting seat 50703; the third electric control shaft seat 50710 is connected with a third connecting rod 50711; the third connecting rod 50711 is rotatably connected with the second electric discharging roller 50712; the second electric discharging roller 50712 is rotatably connected with a fourth connecting rod 50713; the fourth connecting rod 50713 is connected with the fourth electric control shaft seat 50714; the fourth electric control shaft seat 50714 is connected with the second mounting seat 50703; the first mounting seat 50702 is in sliding connection with the electric sliding rail cutter 50715; the electric sliding rail cutter 50715 is in sliding connection with the second mounting seat 50703; the sliding collection plate 50701 is connected with the elevated collection frame 9; the sliding collection plate 50701 is connected to the second rotating shaft 506.

Fixing the insulating paper outside a winding roll 50704, manually controlling to enable one open side of the insulating paper to fall above a second electric discharging roll 50712, then controlling a first electric control shaft seat 50705, a second electric control shaft seat 50709, a third electric control shaft seat 50710 and a fourth electric control shaft seat 50714 to rotate, further controlling the first electric control shaft seat 50705 and the second electric control shaft seat 50709 to synchronously rotate to respectively drive a first joint rod 50706 and a second joint rod 50708 to rotate, further driving the first electric discharging roll 50707 to move downwards by the first joint rod 50706 and the second joint rod 50708, similarly driving the third joint rod 50710 and the fourth electric control shaft seat 50714 to respectively drive a third joint rod 50711 and a fourth joint rod 50713 to rotate, further driving the second electric discharging roll 50712 to move upwards by the third joint rod 50711 and the fourth joint rod 50713, further clamping the insulating paper by the second electric discharging roll 50712 and the first electric discharging roll 50707, and then the second electric discharging roller 50712 and the first electric discharging roller 50707 are controlled to rotate reversely, so that the insulating paper between the second electric discharging roller 50712 and the first electric discharging roller 50707 is driven to be discharged, after the insulating paper is coated, the first mounting seat 50702 and the second mounting seat 50703 are controlled to drive the electric sliding rail cutter 50715 to move downwards, and then the electric sliding rail cutter 50715 cuts off the insulating paper, so that the discharging and the cutting off of the insulating paper are finished.

The clamping and pressing mechanism 508 comprises a first set of sliding blocks 50801, a first transfer mounting bracket 50802, a first electric sliding bar 50803, a first sliding clamping plate 50804, an internal electric sliding rail clamping plate 50805, an electric sliding seat 50806, an electric saw blade 50807, a second electric sliding bar 50808, a second transfer mounting bracket 50809 and a second set of sliding blocks 50810; the first set of slider 50801 is connected to the first interface mount 50802; the first transfer mount 50802 is connected to a first motorized slide bar 50803; the outer surface of the first electric slide bar 50803 is sequentially connected with a first slide clamping plate 50804 and an internal electric slide clamping plate 50805 in a sliding manner; the first sliding clamp 50804 is slidably connected with the second electric sliding bar 50808; the second electric slide bar 50808 is in sliding connection with the built-in electric slide rail clamping plate 50805; the built-in electric slide rail clamping plate 50805 is in sliding connection with the electric slide carriage 50806; the electric slide 50806 is connected with an electric saw blade 50807; the second motorized slide bar 50808 is coupled to a second adaptor mount 50809; second adapter mount 50809 is connected to second set of sliders 50810; the second collection slider 50810 is connected to the elevated collection frame 9; the first collection slider 50801 is connected to the elevated collection frame 9.

The insulation paper hanging down from between the second electric discharging roller 50712 and the first electric discharging roller 50707 is placed between the first sliding clamp 50804 and the built-in electric sliding rail clamp 50805, then the first electric sliding bar 50803 and the second electric sliding bar 50808 are controlled to drive the first sliding clamp 50804 and the built-in electric sliding rail clamp 50805 to approach each other, then the first sliding clamp 50804 and the built-in electric sliding rail clamp 50805 clamp the insulation paper, then the set-up frame 9 moves down by driving the first set sliding block 50801 and the second set sliding block 50810, and then the first set sliding block 50801 and the second set sliding block 50810 move to drive one side of the insulation paper to move to the upper side of the battery pack to be attached to the surface of the battery pack.

The height of the first electric telescopic clamping rotary table 11 and the second electric telescopic clamping rotary table 12 is higher than the position of the lifting conveyor belt 2, and the first electric telescopic clamping rotary table 11 and the second electric telescopic clamping rotary table 12 are symmetrically arranged by taking the central line of the lifting conveyor belt 2 as a symmetry axis.

So that the first electric telescopic clamping rotary table 11 and the second electric telescopic clamping rotary table 12 can directly extend out to clamp the battery pack above the lifting conveyor belt 2 for overturning.

Right-angle electric slide rails are arranged at the positions where the elevated collecting frame 9 is connected with the first collecting slide block 50801 and the second collecting slide block 50810.

So that the elevated integrated frame 9 can drive the first set sliding block 50801 and the second set sliding block 50810 to move, and further drive the clamping and pressing mechanism 508 to move integrally to be close to the surface of the battery pack to attach the insulating paper to the surface of the battery pack.

The present application is described in detail above, and the principles and embodiments of the present application are described herein by using specific examples, which are only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. An automatic turnover type lithium battery insulation paper coating device comprises a conveying conveyor belt, a lifting conveyor belt and a first mounting bedplate; the method is characterized in that: the automatic paper pasting machine further comprises a second mounting bedplate, a paper pasting mechanism, a pasting pressing mechanism, a glue dispensing mechanism, a first elevating platform, an elevating collecting frame, a second elevating platform, a first electric telescopic clamping rotary table and a second electric telescopic clamping rotary table; the conveying conveyor belt is connected with the lifting conveyor belt; one side of the lifting conveyor belt is connected with the first mounting bedplate, and the other side of the lifting conveyor belt is connected with the second mounting bedplate; the upper part of the first installation bedplate is connected with the first elevating platform; the upper part of the first installation bedplate is connected with an elevated collecting frame; the elevated collecting frame is connected with the second mounting bedplate; the upper part of the second mounting bedplate is connected with a second elevating platform; the second elevated platform is connected with the first electric telescopic clamping rotary table; the first elevating platform is connected with the second electric telescopic clamping rotary table; the elevated collecting frame is connected with the paper sticking mechanism; the paper pasting mechanism is connected with the second elevating platform; the paper sticking mechanism is connected with the sticking pressing mechanism; the laminating pressing mechanism is connected with the elevated collecting frame; the laminating pressing mechanism is connected with the second elevating platform; the lower part of the laminating pressing mechanism is connected with the second mounting bedplate; the laminating and pressing mechanism is connected with the glue dispensing mechanism; the glue dispensing mechanism is connected with the first elevating platform; the glue dispensing mechanism is connected with the elevated collecting frame.

2. The automatic turnover type lithium battery insulation paper coating device according to claim 1, wherein the paper sticking mechanism comprises a first rotating shaft rod, a torsion spring rotating shaft sleeve column, a first half gear, a first linkage frame strip, a sliding sleeve ring, a second rotating shaft rod, a paper placing mechanism and a clamping and pressing mechanism; the first rotating shaft rod is rotatably connected with the torsion spring rotating shaft sleeve column; the outer surface of the torsion spring rotating shaft sleeve column is fixedly connected with the first half gear and the first linkage frame strip in sequence; the inner side of the first linkage frame strip is connected with the sliding lantern ring in a sliding way; the inner side of the sliding lantern ring is fixedly connected with the second rotating shaft rod; the second rotating shaft rod is connected with the paper placing mechanism; one side of the paper placing mechanism close to the first rotating shaft rod is provided with a clamping and pressing mechanism; the clamping and pressing mechanism is connected with the elevated collecting frame; the paper placing mechanism is connected with the elevated collecting frame; the first rotating shaft rod is connected with the second elevating platform; the first half gear is connected with the laminating pressing mechanism.

3. The automatic turnover type lithium battery insulation paper coating device is characterized in that the bonding pressing mechanism comprises a power motor, a second driving wheel, a third rotating shaft rod, a first flat gear, a first bevel gear, a second bevel gear, a fourth rotating shaft rod, a first bearing frame plate, a fourth driving wheel, a first bearing frame rod, a fifth driving wheel, a sixth driving wheel, a rotating disc, a first linkage convex column, a second linkage frame strip, a double-side sliding rail plate, a first electric rotating shaft and a flat-paved lower long pressing plate; an output shaft of the power motor is fixedly connected with the second driving wheel; the outer ring surface of the second driving wheel is in transmission connection with a third driving wheel through a belt; the axle center of the third driving wheel is fixedly connected with the third rotating shaft rod; the outer surface of the third rotating shaft rod is fixedly connected with the first flat gear and the first bevel gear in sequence; the first bevel gear is meshed with the second bevel gear; the second bevel gear core is fixedly connected with the fourth rotating shaft rod; the outer surface of the fourth rotating shaft rod is rotatably connected with the first bearing frame plate; the outer surface of the fourth rotating shaft rod is fixedly connected with a fourth driving wheel; the outer surface of the fourth rotating shaft rod is rotatably connected with the first bearing frame rod; the fourth rotating shaft rod is fixedly connected with a fifth driving wheel; the outer ring surface of the fourth driving wheel is in transmission connection with the sixth driving wheel through a belt; the axis of the sixth driving wheel is fixedly connected with the end of the rotating disc; the upper part of the rotating disc is inserted with the first linkage convex column; the outer surface of the first linkage convex column is in transmission connection with the second linkage frame strip; the second linkage frame strip is in sliding connection with the double-side sliding rail plates; the second linkage frame strip is connected with the first electric rotating shaft; the first electric rotating shaft is connected with the tiled lower long pressing plate; the lower part of the power motor is connected with the second mounting bedplate; the third rotating shaft rod is connected with the second elevating platform; the first bearing frame plate is connected with the second elevating platform; the first bearing frame rod is connected with the elevated collecting frame; the fifth transmission wheel is connected with the glue dispensing mechanism; the first flat gear is connected with the first half gear; the lower part of the sixth driving wheel is connected with a second elevating platform; the double-side sliding rail plate is connected with the elevated collecting frame.

4. The automatic turnover type lithium battery insulating paper coating device is characterized in that the glue dispensing mechanism comprises a first collecting plate, a fifth rotating shaft rod, a seventh driving wheel, a third bevel gear, a fourth bevel gear, a first telescopic rotating shaft, a second bearing frame plate, a sixth rotating shaft rod, an eccentric disc, an eighth driving wheel, a second bearing frame rod, a ninth driving wheel, a pushing collecting plate, a column gear, a pushing sliding column, a limiting sliding frame, a rebound spring, a sliding connecting block, a sliding connecting plate, a connecting long plate, a penetrating sliding plate, a second electric rotating shaft, a third linkage frame strip, a glue dispensing nozzle, a connecting sleeve ring, a moving control rod, a special-shaped penetrating control block, a moving control sliding rod, a first driving rod, a seventh rotating shaft rod, a first bearing frame block, a second bearing frame block and a second flat gear; the upper part of the first gathering plate is rotationally connected with a fifth rotating shaft rod; the outer surface of the fifth rotating shaft rod is fixedly connected with a seventh driving wheel and a third bevel gear in sequence; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the third bevel gear is meshed with the fourth bevel gear; the axis of the fourth bevel gear is fixedly connected with the first telescopic rotating shaft; the outer surface of the first telescopic rotating shaft is rotatably connected with the second bearing frame plate; the lower part of the second bearing frame plate is connected with the first collecting plate; the upper part of the first gathering plate is rotationally connected with a sixth rotating shaft rod; the outer surface of the sixth rotating shaft rod is fixedly connected with an eighth driving wheel, an eccentric disc and a ninth driving wheel in sequence; the outer surface of the sixth rotating shaft rod is rotationally connected with the second bearing frame rod; the outer surface of the first telescopic rotating shaft is connected with the propulsion aggregate plate; the first telescopic rotating shaft is fixedly connected with the column gear; the propelling collection plate is connected with the propelling sliding column; the outer surface of the propelling sliding column is in sliding connection with the limiting sliding frame; the outer surface of the pushing sliding column is sleeved with the rebound spring; the pushing sliding column is connected with the sliding connecting block; the sliding connecting block is in sliding connection with the sliding connecting plate; the sliding connecting plate is connected with the connecting long plate; the outer surface of the connecting long plate is in sliding connection with the penetrating sliding plate; the connecting long plate is connected with the second electric rotating shaft; the second electric rotating shaft is connected with the third linkage frame strip; the third linkage frame strip is connected with the dispensing nozzle; the outer surface of the connecting long plate is connected with the connecting lantern ring in a sliding way; the connecting lantern ring is connected with the movable control rod; the movable control rod is connected with the special-shaped penetration control block; the inner side of the special-shaped through control block is in transmission connection with the mobile control slide rod; the mobile control slide bar is connected with the first transmission bar; the first transmission rod is fixedly connected with the seventh rotating shaft rod; the outer surface of the seventh rotating shaft rod is sequentially in rotating connection with the first bearing frame block and the second bearing frame block; the seventh rotating shaft rod is fixedly connected with the second flat gear; the second bearing frame block is connected with the limiting sliding frame; the first bearing frame block is connected with the penetrating sliding plate; the first gathering plate is connected with the first elevating platform; the lower part of the limiting sliding frame is connected with the first elevating platform; the lower part of the penetrating sliding plate is connected with the first elevating platform; the second bearing frame rod is connected with the elevated collecting frame; the ninth driving wheel is connected with the fifth driving wheel; .

5. The automatic turnover type lithium battery insulation paper coating device according to claim 4, wherein the paper feeding mechanism comprises a sliding assembly plate, a first mounting seat, a second mounting seat, a winding roller, a first electric control shaft seat, a first connecting rod, a first electric discharging roller, a second connecting rod, a second electric control shaft seat, a third connecting rod, a second electric discharging roller, a fourth connecting rod, a fourth electric control shaft seat and an electric sliding rail cutter; the sliding assembly plate is connected with the first mounting seat; the sliding assembly plate is connected with the second mounting seat; the first mounting seat is rotatably connected with the winding roller; the winding roller is rotatably connected with the second mounting seat; the first mounting seat is sequentially connected with the first electric control shaft seat and the third electric control shaft seat; the first electric control shaft seat is connected with the first connecting rod; the first connecting rod is rotatably connected with the first electric discharging roller; the first electric discharging roller is rotationally connected with the second connecting rod; the second joint rod is connected with a second electric control shaft seat; the second electric control shaft seat is connected with the second mounting seat; the third electric control shaft seat is connected with a third connecting rod; the third connecting rod is rotatably connected with the second electric discharging roller; the second electric discharging roller is rotationally connected with the fourth connecting rod; the fourth connecting rod is connected with a fourth electric control shaft seat; the fourth electric control shaft seat is connected with the second mounting seat; the first mounting seat is connected with the electric sliding rail cutter in a sliding manner; the electric sliding rail cutter is connected with the second mounting seat in a sliding manner; the sliding assembly plate is connected with the elevated assembly frame; the sliding assembly plate is connected with the second rotating shaft rod.

6. The automatic turnover type lithium battery insulating paper coating device is characterized in that the clamping and pressing mechanism comprises a first set sliding block, a first switching mounting frame, a first electric sliding rod, a first sliding clamping plate, a built-in electric sliding rail clamping plate, an electric sliding seat, an electric saw blade, a second electric sliding rod, a second switching mounting frame and a second set sliding block; the first set sliding block is connected with the first adapter mounting frame; the first transfer mounting frame is connected with the first electric slide bar; the outer surface of the first electric slide bar is sequentially connected with the first sliding clamp plate and the built-in electric slide rail clamp plate in a sliding manner; the first sliding clamp plate is in sliding connection with the second electric sliding rod; the second electric slide bar is connected with the built-in electric slide rail clamping plate in a sliding way; the built-in electric slide rail clamping plate is connected with the electric slide carriage in a sliding way; the electric sliding seat is connected with the electric saw blade; the second electric sliding rod is connected with the second adapter mounting frame; the second switching mounting rack is connected with the second set sliding block; the second set sliding block is connected with the elevated set frame; the first set sliding block is connected with the elevated set frame.

7. The automatic turnover type lithium battery insulating paper coating device as claimed in claim 6, wherein the first electric telescopic clamping rotary table and the second electric telescopic clamping rotary table are higher than the lifting conveyor belt, and the first electric telescopic clamping rotary table and the second electric telescopic clamping rotary table are symmetrically arranged with the center line of the lifting conveyor belt as the symmetry axis.

8. The automatic turnover type lithium battery insulating paper coating device as claimed in claim 7, wherein right-angle electric sliding rails are arranged at the positions where the elevated collecting frame is connected with the first collecting sliding block and the second collecting sliding block.