CN109808936A - A kind of improved-type battery protection film coating unit - Google Patents

Abstract

A kind of improved-type battery protection film coating unit; it include: folding and side film cladding processing apparatus under the film of end, battery basolateral membrane coats processing apparatus, battery end film rolls attached processing apparatus; each processing apparatus only needs a power source device in above-mentioned apparatus; structure is simple; and the cladding operation of insulating protective film can be completed by the setting of cam stroke; movement debugging is convenient, high-efficient；Secondly, the setting of battery end hook membrane module 25 guarantees that side film will not be wrapped in the outside of end film, the setting that end film pushes away whole group part 38 avoids the end film after lower 90 ° of folding that reverse folded phenomenon occurs, and end film ejection component 40 further improves end film in the flatness of battery base surface and attaches fastness；Furthermore the associated component of 4 groups of cladding membrane operations is set side by side in each processing apparatus, coating efficiency is improved four times on the basis of existing.

Description

A kind of improved-type battery protection film coating unit

Technical field

The present invention relates to the coating technology field of battery insulation protective film in storage battery, specially a kind of improved-type battery is protected Cuticula coating unit.

Background technique

The surface of battery of mobile phone needs to coat one layer of insulating protective film, on the one hand can protect inside battery structure, avoids outer Boundary's pollution；On the other hand good insulating effect can be played, prevents battery of mobile phone leaky in transit.Insulating film Cladding process includes the cladding of upper and lower plate face and the cladding operation of thickness side, with the rise of automation equipment, artificial cladding Operation, which has been automated, to be coated replaced, is on the one hand improved the coating efficiency of insulating film, is on the other hand improved coating film Qualification rate, the phenomenon that avoiding bottom pour ladle from wrapping again.But coating film generallys use multiple groups motor with equipment in the prior art and cylinder is assisted Blending is made to complete complicated coating technology, attach between operation sequencing, time difference and different cladding movements Fusion, complicated clad structure causes cladding movement debugging difficult in the prior art, once go wrong the cost of overhaul compared with It is high；Secondly, complicated structure leads to complicated movement and then causes the cladding period of single battery of mobile phone insulating film longer, it is difficult To realize the new breakthrough of coating efficiency.So the related technical personnel in the field have been devoted to study novel cladding transmission Device expects the simplicity of new breakthrough and the movement debugging of coating efficiency.Battery insulation protective film attaches to battery maximum plate face Afterwards, end film is now rolled over to 90 ° under the end face of battery length end, is in same plane with end film originally and along end film two sides Vertically extending side film be located exactly at after 90 ° of lower folding of end film battery end position and with battery two sides width face Vertically, it is equally in same plane with end film at this time and is still located at battery along the vertically extending basolateral membrane in end film two sides Above plate face and perpendicular to battery length direction, need first to be coated on side film along the length direction of battery the thickness of battery In lateral plates, then again will survey counterdie under folding 90 ° and by the survey counterdie after lower folding roll it is attached be wrapped in battery lower face, finally, will Descended folding 90 ° after end film along battery length direction roll it is attached be wrapped in battery lower face, wherein survey counterdie be located under battery The part of plate face, which is laminated, to be coated on the inside of the film of end.

Summary of the invention

A kind of improved-type battery protection film coating unit, comprising: under the film of end folding and side film cladding processing apparatus, Battery basolateral membrane cladding processing apparatus, battery end film roll attached processing apparatus；

Processing apparatus: the motor 1 being fixed on motor fixing frame 11 is coated for folding under the film of end and side film, it is fixed Shell 2, before fixed shell 2 is including back plate 21, intermediate plate 22, foreboard 23, upper plate 24, the first L-shaped fixed plate 25, bottom plate 26, bottom Plate 27, the second L-shaped fixed plate 28, side plate 29, the rear ends of upper plate 24 are solid with foreboard 23,21 spiral shell of back plate respectively, upper and lower 29 both ends of side plate are also solid with foreboard 23,21 spiral shell of back plate, and the upper face of top side plate 29 and the lower face spiral shell of upper plate 24 are solid, the first L Shape fixed plate 25 and 21 spiral shell of back plate are solid, and the second L-shaped fixed plate 28 and bottom plate spiral shell are solid, the front and back end of bottom plate 26 respectively with bottom foreboard 27,21 spiral shell of back plate is solid；

The power output shaft of motor 1 sequentially passes through the back plate 21 of fixed shell 2, intermediate plate 22, foreboard 23, and motor 1 moves Power output shaft, which passes through, to be realized between rolling bearing and back plate 21, foreboard 23 without rolling friction type connection, while the power of motor 1 Output shaft passes through diameter in intermediate plate 22 and is greater than the hole of power output shaft and does not contact with hole inner wall, is in back plate 21, intermediate plate The first helical gear 31 is nested and fixed on motor power output shaft between 22, the second of connection is engaged with the first helical gear 31 Helical gear 32 is sleeved and fixed in the first bearing 41 of vertical direction, and first bearing 41 is fixed on vertically by bearing fixed seat In the back plate 21 of fixed shell 2, the length section that first bearing 41 is located between upper plate 24, the first L-shaped fixed plate 25 is sleeved and fixed There is third helical gear 33, the rear ends of second bearing 42 pass through back plate 21, bottom foreboard 27 in rolling bearing and fixed shell 2 Plate face realized by rolling bearing without frictional connection and pass through and be greater than 42 diameter of second bearing in the second L-shaped fixed plate 28 Hole do not contacted with the inner wall in the hole, the 4th helical gear 34,1 power output shaft of motor are nested and fixed in second bearing 42 Length section between intermediate plate 22, foreboard 23 is fixed with the first cam 61, the second cam 62 by cam fixing piece 5, The first guide rail slide block component 71 of vertical direction is fixed in the plate face of intermediate plate 22, end coats component 8 and coats including end Component fixed plate 81, roller bearing fixed plate 82, cylindrical surface are socketed with the roller bearing 83 for rolling housing, and end coats component fixed plate 81 It is screwed in and is coated in the total fixed plate 11 of component with the end being fixedly connected with a slide block in the first guide rail slide block component 71, end packet The intrinsic roller bearing fixed plate 82 of each spiral shell in width two sides of component fixed plate 81 is covered, the both ends of roller bearing 83 pass through the axis of rolling It holds and is connected and fixed with the realization of the roller bearing fixed plate 82 at both ends without rolling friction type, end coats the upper of the total fixed plate 11 of component End, which is machined in U-shaped groove and U-shaped groove, is equipped with the first rolling bearing 91 by fixing axle, with the first guide rail guide block group Parallel 101 both ends of the first tension spring of guide rail are fixed by tension spring fixed ear in part 71, during one end of the first tension spring 101 is fixed on Between tension spring fixed ear on plate 22 hanging hole in, the tension spring that is fixed in cladding total 11 lateral plates of fixed plate of component of the other end it is solid Determine in ear-hang hole, the first tension spring 101 restoring force effect under the first rolling bearing 91 periphery always with the first cam 61 Circumferential surface it is tangent；Foreboard 23 is equipped with the second guide rail slide block component 72 of vertical direction in the plate face of intermediate plate 22, electricity Pond top mounting subassembly 12 includes battery top mounting subassembly fixed plate 121, battery upper face locating piece 122, battery top mounting subassembly Fixed plate 121 is screwed in the total fixed plate 16 of battery top mounting subassembly fixed with sliding block in the second guide rail slide block component 72, electricity Pond upper face locating piece 122 is fixed on the lower face of battery top mounting subassembly fixed plate 121 and battery upper face locating piece 122 End be machined with battery upper face profile department 1221 (being mainly used for pushing down battery upper face), battery top mounting subassembly is fixed Plate 121 is fixed in the total fixed plate 16 of battery top mounting subassembly, and the upper end of the total fixed plate 16 of battery top mounting subassembly is machined with U The second rolling bearing 92 is equipped with by fixing axle in connected in star and the U-shaped groove, passes through both ends in the plate face of back plate 23 The tension spring fixed ear in portion is fixed with second tension spring 102 parallel with guide rail direction in the second guide rail guide block assembly 72, the second tension spring The tension spring fixed ear of 102 upper ends is fixed on 23 plate face of back plate, the tension spring fixed ear of lower end is fixed on battery top mounting subassembly The lateral plates of total fixed plate 16, the periphery of second rolling bearing 92 and second convex under the restoring force effect of the second tension spring 102 The circumferential surface moment of wheel 62 keeps tangent state；The third guide rail slide block component of the intrinsic vertical direction of front face spiral shell of bottom foreboard 27 73, fixation kit 13 under battery, fixation kit 13 includes fixation kit fixed plate 131, battery lower face under battery under battery Locating piece 132, fixation kit fixed plate 131 is screwed on the sliding block of third guide rail slide block component 73 under battery, battery lower face Locating piece 132 is screwed in 131 upper end of fixation kit fixed plate under battery by L shape fixed block and battery is extended in upper surface Lower 131 upper surface a distance of fixation kit fixed plate, battery upper face locating piece 122 in battery top mounting subassembly 12 with Battery lower face locating piece 132 under battery in fixation kit 13 is in positive alignment (i.e. battery upper plate in vertical space Face locating piece 122, battery lower face locating piece 132 are located at the upper and lower of battery same position), in second bearing 42 Third cam 63 is nested and fixed by cam fixing piece 5, is additionally provided with flat with guide rail direction in third guide rail slide block component 73 Capable third tension spring 103, wherein the tension spring fixed ear of 103 upper end of third tension spring is located at 131 side of fixation kit fixed plate under battery Plate plate face, lower end tension spring fixed ear are located at 26 plate face of bottom plate in fixed shell 2, under battery under fixation kit fixed plate 131 End, which is machined in U-shaped groove and U-shaped groove, is equipped with third rolling bearing 93 by fixing axle, and passes through third tension spring 103 Restoring force make the periphery of third rolling bearing 93 and the circumferential surface of third cam 103 remains tangent state；First L shape 4th guide rail slide block component 74 of the intrinsic horizontal direction ornaments of the upper face spiral shell of fixed plate 25, side coat component 14, side packet Covering component 14 includes that side coats component fixed plate 141, air cylinder fixed plate 142, cylinder 143, clamp rear fixed plate 144, clamp Upper mounted plate 145, clamp bottom plate 146, the pivot bolt 147 of the smooth lower thread in upper end, clamping jaw tension spring 148, clamping jaw 149, side coats the side cladding component fixed plate 141 in component 14 and is screwed in the 4th guide rail slide block component 74 and sliding block In the solid side cladding total fixed plate 15 of component of spiral shell, air cylinder fixed plate 142 is screwed in side cladding 141 upper plate of component fixed plate Face, cylinder 143 are screwed in 142 upper face of air cylinder fixed plate, and clamp rear fixed plate 144 is fixed on side cladding component fixed plate The front end of 141 upper faces, clamp upper mounted plate 145 are screwed in L-shaped 146 upper face of clamp bottom plate, pivot bolt 147 pass through clamp upper mounted plate 145, clamp bottom plate 146, L clevis pawl 149 corner part can be around fulcrum spiral shell by clamping jaw 149 In the gap of 147 rotary type of bolt being fixed between clamp upper mounted plate 145, clamp bottom plate 146, the work of cylinder 143 Plug axis passes through the piston shaft via hole of clamp rear fixed plate 144 and is resisted against the rear end face of the lateral pawl of two clamping jaws 149, two folders Pawl tension spring fixed ear is extended through from the outside vertical of two clamping jaws 149 to 149 medial surface of clamping jaw respectively, and two tension springs are solid Determine the fixation that 148 both ends of clamping jaw tension spring are respectively used in the hanging hole of ear, the 4th tension spring 104 is fixed by the tension spring at both ends Ear is arranged in parallel with guide rail direction in the 4th guide rail slide block component 74, and the tension spring fixed ear of one end is fixed on the first L shape and fixes 25 plate face of plate, the tension spring fixed ear of the other end are fixed on sliding block side or side cladding in the 4th guide rail slide block component 74 The lateral plates of component fixed plate 141 or side coat the lateral plates of the total fixed plate 15 of component, pass through cam in first bearing 41 Fixing piece 5 is socketed with the 4th cam 64, and side coats the total fixed plate 15 of component and is machined with U-shaped close to the end of the 4th cam 64 Groove, U-shaped groove is interior to be equipped with the 4th rolling bearing 94 by fixing axle, acts on lower side panel in the restoring force of the 4th tension spring 104 Periphery and the circumferential surface of the 4th cam 64 remain tangent state；

Battery basolateral membrane cladding mould group processing apparatus includes: motor 17, motor fixing plate 171, with motor power output shaft The active force bearing 172 being fixedly connected, fixed shell 18, helical gear 19, bearing 20, cam 21, tension spring 22, guide rail slide block group Part 23, positioning component 24 on battery, battery end hook membrane module 25, side form foldable component 26, side form roll attached component 27, position Adjust component 28, rolling bearing 29；

Fixed shell 18 includes back plate 181, upper plate 182, epipleural 183, middle plate 184, foreboard 185, lower side panel 186, bottom Plate 187, bottom side plate 188, bottom foreboard 189, bearing (setting) plate 190, wherein after motor fixing plate 171 is screwed in back plate 181 Lateral plates, motor are screwed on motor fixing plate 171, and the both ends of upper plate 182 are hung down with back plate 22, the plate face of foreboard 185 respectively Straight spiral shell is solidly connected, the length both ends of two epipleurals 183 respectively spiral shell vertical with the plate face of back plate 22, foreboard 185 be solidly connected, on End face is solidly connected with 182 bottom panel spiral shell of upper plate, and middle 184 upper surface of plate and 182 spiral shell of upper plate are solid, and middle plate 184 passes through position tune Save component 28 between foreboard 185, back plate 22 it is adjustable sliding (mainly by position adjust component 28 adjust in plate and The relative position of foreboard 185 makes the component be located at the work of battery to adjust the position for being mounted on corresponding assembly on middle plate 184 With right above position, spiral shell vertical with back plate 181, bottom foreboard 189 is solid respectively at the both ends of bottom plate 187, the both ends of bottom side plate 188 Spiral shell vertical with back plate 181, bottom foreboard 189 is solid respectively in portion, and the bottom faces of two bottom side plates 188 is upper with 187 width two sides of bottom plate The vertical spiral shell of plate face is solidly connected；

The first cam 211 (between back plate 181, middle plate 184), the second cam are fixed on active force bearing 172 212 (close to middle 184 side of plate between middle plate 184, foreboards 185), third cam 213 (are located at middle plate 184, foreboard 185 Between close to 185 side of foreboard), 172 friction free of active force bearing passes through middle plate and both ends pass through rolling bearing with after Plate 181, the realization of foreboard 185 are fixed without rolling friction type；

The rear side plate face of back plate 181 is vertically fixed first bearing 201 by bearing fixed seat, second laterally put Bearing 202,203 both ends of 3rd bearing pass through rolling bearing and connect respectively with back plate 181, bottom foreboard 189 without rolling friction type It connects, the both ends of fourth bearing 204 are with back plate 181, between back plate 181 and bottom foreboard 189 and vertical solid by rolling bearing The bearing (setting) plate 190 being scheduled on bottom plate 187 is realized to be connected without rolling friction type；Active force bearing 172 is located at motor fixing plate Length sections in 171 encirclement spaces are nested and fixed the first helical gear 191, and 201 upper and lower end parts of first bearing are respectively sleeved on the Two helical gears 192, third helical gear 193, the end that second bearing 202 is located at 181 rear side plate face of back plate are fixed with the 4th tiltedly Gear 194, engagement connection transmission, third helical gear 193, the 4th helical gear between the first helical gear 191, the second helical gear 192 Engaged transmission between 194, second bearing 202,3rd bearing 203 are socketed with gear, fourth bearing in fourth bearing 204 Gear on 204 is contacted with the gear in second bearing 202, the engagement of the gear in 3rd bearing 203 respectively；Motor 17 passes through The engagement of engagement and gear between helical gear by the rotary power of motor 17 pass to second bearing 202,3rd bearing 203, Fourth bearing 204；The 4th cam 214, the 5th cam 215, the 6th cam 216, third are nested and fixed in second bearing 202 One end of bearing 203 is fixed with the 7th cam 217；

Positioning component 24 includes the total fixed plate 241 of positioning component on battery, positioning component fixed plate on battery on battery 242, front end is machined with positioning plate 243 on the battery of battery imitated structure 2431, leading in the first guide rail slide block component 231 Rail vertical direction is screwed in the plate face of foreboard 185, and the total fixed plate 241 of positioning component is screwed in the first guide rail slide block on battery Elevating movement is carried out on sliding block in component 231 and along guide rail, it is parallel by the first fixed tension spring 221 of both ends tension spring fixed ear Guide rail direction in the first guide rail slide block component 231, the upper end of the first tension spring 221 are fixed on 185 upper and lower end of foreboard and fix In the first guide rail slide block component 231 on sliding block, the upper end of the total fixed plate 241 of positioning component is machined with U-shaped groove on battery And first rolling bearing 291 be fixed in U-shaped groove by fixing axle, 221 restoring force of the first tension spring effect under third cam 213 circumferential surface with the periphery of the first rolling bearing 291 is tangent always contacts；

Battery end hook membrane module 25 includes hook membrane module fixed plate 92, hook diaphragm plate 253, is mounted on hook diaphragm plate front end Hook film sheet metal component 254, hook membrane module are driven fixed plate 255, and hook membrane module slope pushes mould group 256, hook membrane module fixed plate 92 Including horizontal fixed plate 251, U-board 252,252 reverse buckling type of U-board is screwed in the rear and front end portion of horizontal fixed plate 251, hook One end that diaphragm plate 253 passes through slidingtype inner cavity and hook diaphragm plate 253 that horizontal fixed plate 251 is surrounded with U-board 252 is machined with U-shaped Groove is fixed with the second rolling bearing 292 by fixing axle in U-shaped groove, hook membrane module slope push mould group 256 include plus Work has the pushing plate 2561 of inclined surface, the vertical driver plate 2562 in the slope being fixedly connected with pushing plate 2561, the second tension spring 222 It is parallel to horizontal fixed plate 251 by the tension spring fixed ear at both ends to be arranged, wherein the one end of the second tension spring 222 is fixed on U On the side of shape plate 252, the other end be fixed on the side of hook diaphragm plate 253, the second tension spring 222 restoring force effect under The periphery of second rolling bearing 292 and the inclined plate surface of pushing plate 2561 are in tangent contact condition, are vertically fixed on bottom plate Distinguish in the two sides plate face of the first guide rail fixed plate on 187 the intrinsic vertical direction of spiral shell the second guide rail slide block component 232, the Three guide rail slide block components 233, the vertical driver plate 2562 in slope are fixed on the sliding block in the second guide rail slide block component 232, tiltedly The lower end of the vertical driver plate 2562 in slope, which is machined in U-shaped groove and U-shaped groove, is fixed with third rolling bearing by fixing axle 293, the guide rail side in the second guide rail slide block component 232 is parallel to by the third tension spring 223 at the fixed both ends of tension spring fixed ear To the lateral plates upper and lower end that wherein upper end of third tension spring 223 is fixed on the vertical driver plate 2562 in slope is fixed on bottom plate 187 On, the week of the 7th cam 217 of the periphery and underface of third rolling bearing 293 under the effect of 223 restoring force of third tension spring Face remains tangent contact；The spiral shell vertical with the hook membrane module transmission upper surface of fixed plate 255 of hook membrane module fixed plate 92 is solid The rear plate face of connection, hook membrane module transmission fixed plate 255 is fixed with the sliding block in third guide rail slide block component 233, hook membrane module The lower end of transmission fixed plate 255, which is machined in U-shaped groove and the U-shaped groove, is equipped with the 4th rolling bearing by fixing axle 294, the guide rail side in third guide rail slide block component 233 is parallel to by the 4th tension spring 224 at the fixed both ends of tension spring fixed ear To wherein the sliding block lateral plates that are fixed in third guide rail slide block component 233 of the upper end of the 4th tension spring 224, lower end are fixed on bottom On plate 187, the periphery of the 4th rolling bearing 294 and the week of the 4th cam 214 under the restoring force effect of the 4th tension spring 224 Face remains tangent contact；

It is vertically fixed on the front and rear sides plate face difference intrinsic vertical direction of spiral shell of the second guide rail fixed plate on bottom plate 187 The 4th guide rail slide block component 234, the 5th guide rail slide block component 235, side form roll in attached component 27 be located at the second guide rail fixed plate 271 upper surface of T shape fixed plate of front and rear sides respectively with 272 spiral shell of T shape fixed plate connecting plate right above the second guide rail fixed plate Gu two T shape fixed plates 271 and the second guide rail fixed plate after the connection of T shape fixed plate connecting plate 272 are without being directly connected to The T shape fixed plate 271 of fixed relationship, rear is fixed on the sliding block in the 4th guide rail slide block component 234 and the T shape fixed plate 271 lower face is machined in U-shaped groove and the U-shaped groove and is equipped with the 5th rolling bearing 295 by fixing axle, by both ends The 5th fixed tension spring 225 of tension spring fixed ear is parallel to guide rail direction in the 4th guide rail slide block component 234 and is arranged, the 5th tension spring 225 upper end is fixed on sliding block lateral plates, lower end in the 4th guide rail slide block component 234 and is fixed on bottom plate 187, draws the 5th The circumferential surface of the periphery and the 5th cam 215 of the 5th rolling bearing 295 is set to remain phase cut-grafting under the effect of 225 restoring force of spring Touching, the front face of the T shape fixed plate 271 in front are fixed with cross slide way 2711, are equipped with packaged type on cross slide way 2711 Pulley fixed plate 280 is fixedly installed on a pair of of the sliding block and the sliding block of sliding respectively, outside the lower section of pulley fixed plate 280 Side angle position is equipped with rolling pulley 273, top is equipped with by middle fixing plate and rolls attached pulley 274, two pulley fixed plates Be fixedly connected between 280 by compressed spring 275, compressed spring 275 by elongation can propelling sheave fixed plate 280 in transverse direction The disengaging movement of opposite direction is done on guide rail 2711 and then rolling attached pulley 274 to both sides promotion makes two to roll between attached pulley 274 Distance become larger, pulley fixed plate 280 be arranged right below with 273 periphery of rolling pulley it is tangent contact and with inclination The inclined lift track pad 276 in face passes through the periphery for laterally urging effect and guaranteeing rolling pulley 273 of compressed spring 275 Always with the inclined plate surface in inclined lift track pad 276 is tangent contacts, inclined lift track pad 276 is fixed on L shape liter vertically In the lateral plate face for dropping track pad fixed plate 277, L shape lifting track pad fixed plate 277 is fixed on right-angle bending shape fixed plate The T shape fixed plate 271 on 278 and front is located above the folding surface of right-angle bending shape fixed plate 278 and therewith without being fixedly connected Relationship, right-angle bending shape fixed plate 278 are fixed in 279 plate face of formation plate, and formation plate 279 is fixed on the 5th guide rail slide block group On sliding block in part 235, the bottom end of formation plate 279, which is machined in U-shaped groove and the U-shaped groove, is equipped with by fixing axle The both ends of six rolling bearings 296, the 6th tension spring 226 pass through guide rail direction in tension spring fixed ear and the 5th guide rail slide block component 235 It is arranged in parallel, wherein the upper end of the 6th tension spring 226 is fixed on the lateral plates upper and lower end of sliding block in the 5th guide rail slide block component 235 It is fixed on bottom plate 187, the periphery and the 6th cam of the 6th rolling bearing 296 under the restoring force effect of the 6th tension spring 226 216 circumferential surface remains tangent contact；

Side form foldable component 26 is fixed on middle plate 184, the rear plate face of middle plate 184 is fixed with the 6th guide rail slide block component 236, front face is fixed with the 7th guide rail slide block component 237, and it is sliding that the rear plate face of combined type gas-liquid-solid fixed board 261 is screwed in the 6th guide rail On sliding block in block assembly 236, the lower face of combined type gas-liquid-solid fixed board 261 laterally across middle plate 184 lower section and extend to middle plate 184 front side, the upper end of 261 back plate of combined type gas-liquid-solid fixed board are machined in U-shaped groove and the U-shaped groove solid by fixing axle Surely there is the 7th rolling bearing 297, the 7th tension spring 227 is parallel to the setting of the guide rail direction in the 6th guide rail slide block component 236, And the 7th the upper end of tension spring 227 be fixed on the rear plate face upper and lower end portion of middle plate 184 and be fixed on the 6th guide rail slide block component In 236 sliding block lateral plates, the periphery of the 7th rolling bearing 297 is always with the under the restoring force effect of the 7th tension spring 227 The tangent contact of circumferential surface of one cam 211；Sliding block and total 262 plate of fixed plate of side form foldable component in 7th guide rail slide block component 237 Face is fixed, and the total fixed plate 262 of side form foldable component is fixed with lifting 263 plate face of axis fixing plate, goes up and down the water of axis fixing plate 263 It is machined in platen surface in mounting hole and the mounting hole and lifting shaft 264 is installed, spiral shell on the lower face of combined type gas-liquid-solid fixed board 261 Intrinsic clamping jaw fixed plate 265, the plate face of clamping jaw fixed plate 265 is machined with the hole passed through for lifting shaft 264, clamping jaw fixed plate 265 width two sides are machined with the groove for accommodating inversed l-shaped clamping jaw 266, and pivot bolt 267 passes through clamping jaw fixed plate 265, L shape Clamping jaw 266 by L clevis pawl 266 being fixed in groove around 267 rotary type of pivot bolt, L clevis pawl 266 two sides difference The 9th drawing for being fixed with tension spring fixed ear and being put by two tension spring fixed ears in two 266 inside fixed laterals of L clevis pawl Spring 229, the lower end of lifting shaft 264 are resisted against the upper surface of transverse plate in two L clevis pawls 266, and side form foldable component is always solid The upper surface of fixed board 262 is machined in U-shaped groove and the U-shaped groove and is equipped with the 8th rolling bearing 298 by fixing axle, the Eight tension springs 228 are parallel to guide rail direction in the 7th guide rail slide block component 237, and the upper end of the 8th tension spring 228 is fixed on middle plate 184 Front face, lower end are fixed in the 7th guide rail slide block component 237 in sliding block lateral plates, are acted in the restoring force of the 8th tension spring 228 Under make the periphery of the 8th rolling bearing 298 with the circumferential surface of the second cam 212 is tangent always contacts；

It includes: motor 30 that battery end film, which rolls attached processing apparatus, and motor fixing plate 301 is solid with motor power export structure Surely the active force bearing 302 connected, fixed shell 31, helical gear 32, bearing 33, cam 34, tension spring 35, guide rail slide block component 36, positioning component 37 on battery, end film pushes away whole group part 38, and end film rolls attached component 39, and end film ejection component 40 rolls Bearing 41；

Fixed shell 31 includes back plate 311, upper plate 312, epipleural 313, middle plate 314, foreboard 315, lower side panel 316, bottom Plate 317, bottom side plate 318, bottom foreboard 319, the first L-shaped fixed plate 320, the second L-shaped fixed plate 321；Wherein, motor fixing plate 301 are screwed in the rear side plate face of back plate 311, and motor is screwed on motor fixing plate 301, the both ends of upper plate 312 respectively with it is rear Plate 311, foreboard 315 the vertical spiral shell of plate face be solidly connected, the length both ends of two epipleurals 313 respectively with back plate 311, foreboard 315 The vertical spiral shell of plate face be solidly connected, upper surface and 312 bottom panel spiral shell of upper plate are solidly connected, middle 314 upper surface of plate and 312 spiral shell of upper plate Gu middle plate 314, which adjusts the adjustable sliding between foreboard 315, back plate 311 of component 42 by position, (mainly passes through position The relative position of plate and foreboard 315 in the adjusting of component 42 is adjusted, to adjust the position for being mounted on corresponding assembly on middle plate 314) It is located at the component right above the active position of battery, the both ends of bottom plate 317 are vertical with back plate 311, bottom foreboard 319 respectively Spiral shell is solid, and spiral shell vertical with back plate 311, bottom foreboard 319 is solid respectively at the both ends of bottom side plate 318, the bottom face of two bottom side plates 318 Spiral shell vertical with the upper face of 317 width two sides of bottom plate is solidly connected, and the first L-shaped fixed plate 320 is fixed in back plate 311 and is located at Between lower side panel 316 and bottom plate 317, the second L-shaped fixed plate 321 is fixed on the upper face of bottom plate 317；

The first cam 341 is fixed on active force bearing 302 (close to middle plate 314 between middle plate 314, foreboard 315 Side), the second cam 342 (close to 315 side of foreboard between middle plate 314, foreboard 315), active force bearing 302 is without rubbing Middle plate and both ends pass through rolling bearing and back plate 311, the realization of foreboard 315 are fixed without rolling friction type for passing through of wiping；

Back plate 311 is vertically fixed first bearing 331 by bearing fixed seat, and the second bearing 332 laterally put passes through Rolling bearing is connect with back plate 311, bottom foreboard 319 without rolling friction type respectively；Active force bearing 302 is close to 30 end cap of motor It connects and is fixed with the first helical gear 321,331 upper and lower end parts of first bearing are respectively sleeved on the second helical gear 322, third helical gear 323, second bearing 332 is located at 311 end of back plate and is fixed with the 4th helical gear 324, the first helical gear 321, the second helical gear 322 Between engagement connection transmission, between third helical gear 323, the 4th helical gear 324 engaged transmission, motor 30 by helical gear it Between engagement and the engagement of gear the rotary power of motor 30 is passed into first bearing 331, second bearing 332；First bearing Third cam 343 is nested and fixed on 331, the 4th cam 344 is nested and fixed in second bearing 332；

Positioning component 37 includes the total fixed plate 371 of positioning component on battery, positioning component fixed plate on battery on battery 372, front end is machined with positioning plate 373 on the battery of battery imitated structure 3731, leading in the first guide rail slide block component 361 Rail vertical direction is screwed in the plate face of foreboard 315, and the total fixed plate 371 of positioning component is screwed in the first guide rail slide block on battery Elevating movement is carried out on sliding block in component 361 and along guide rail, the first guide rail slide block component 361 is fixed on the plate face of foreboard 315 On, the guide rail direction in the first guide rail slide block component 361 is parallel to by the first fixed tension spring 351 of both ends tension spring fixed ear, the The upper end of one tension spring 351 is fixed on 315 upper and lower end of foreboard and is fixed in the total fixed plate 371 of positioning component on battery, on battery The upper end of the total fixed plate 371 of positioning component be machined with U-shaped groove and the first rolling bearing 411 to be fixed on U-shaped by fixing axle recessed In slot, 351 restoring force of the first tension spring effect under the second cam 342 circumferential surface and the first rolling bearing 411 periphery always Tangent contact；

It includes end cladding component fixed plate 381, the roller bearing fixed plate 382 of inclination installation, circle that end film, which pushes away whole group part 38, Cylinder is socketed with the roller bearing 383 of rolling housing, the end cladding total fixed plate 384 of component, and end coats the total fixed plate 384 of component It is screwed in and in the plate face of sliding block, the second guide rail slide block component 362 is screwed in middle plate 314 in the second guide rail slide block component 362 In plate face, end cladding component fixed plate 381 is screwed in the plate face of the end cladding total fixed plate 384 of component, and cladding component is fixed The both ends of the intrinsic roller bearing fixed plate 382 of the 91 each spiral shell in width two sides of plate, roller bearing 383 pass through rolling bearing and both ends Roller bearing fixed plate 382 realization be connected and fixed without rolling friction type, end coat the total fixed plate 384 of component upper end processing Have in U-shaped groove and U-shaped groove and the second rolling bearing 412 is equipped with by fixing axle, both ends are fixed by tension spring fixed ear Second tension spring 352 is parallel with guide rail in the second guide rail slide block component 362, and the upper end of the second tension spring 352 is fixed on intermediate plate 22 Upper and lower end is fixed in cladding total 94 lateral plates of fixed plate of component, and second rolls under the restoring force effect of the second tension spring 352 The periphery of bearing 412 is tangent with the circumferential surface of the first cam 341 always；

End film roll attached component 39 include end film roll the total fixed plate 391 of attached component, end cladding component fixed plate 392, The roller bearing fixed plate 393 that is horizontally mounted, the external roller bearing 394 for being socketed with rolling housing, 320 upper face spiral shell of the first L-shaped fixed plate The third guide rail slide block component 363 of intrinsic horizontal direction, end film roll the total fixed plate 391 of attached component and are screwed in third guide rail cunning On sliding block in block assembly 363, two 393 horizontal directions of roller bearing fixed plate are mounted on the width of end cladding component fixed plate 392 Two sides are spent, the length both ends of roller bearing 394 are fixed by the roller bearing fixed plate 393 of rolling bearing and end without rolling friction type, are held The end that portion's film rolls the total fixed plate 391 of attached component is machined with U-shaped groove and U-shaped groove is equipped with third by fixing axle and rolls Bearing 413, both ends are parallel with guide rail in third guide rail slide block component 363 by the fixed third tension spring 353 of tension spring fixed ear, One end of third tension spring 353 is fixed on the first L-shaped fixed plate 320, the other end is fixed on and rolls the total fixed plate 101 of attached component In lateral plates, the circumferential surface of third cam 343 and the circumference of third rolling bearing 413 under the restoring force effect of third tension spring 353 Face remains tangent contact:

End film ejection component 40 includes the total fixed plate 401 of end film ejection component, to be fixed on end film ejection component total L shape end film ejection component fixed plate 402 in fixed plate 401 is fixed on 402 upper end of L shape end film ejection component fixed plate The outside plate face of the ejection rectangular block 403 in face, the second L-shaped fixed plate 321 is fixed with the 4th guide rail slide block component of vertical direction 364, in the total fixed plate 401 of end film ejection component, the sliding block being fixed in the 4th guide rail slide block component 364, end film ejection The end of the total fixed plate 401 of component, which is machined in U-shaped groove and U-shaped groove, is equipped with the 4th rolling bearing by fixing axle 414, both ends are parallel with guide rail in the 4th guide rail guide block assembly 74 by the 4th fixed tension spring 354 of tension spring fixed ear, and the 4th draws The upper end of spring 354 is fixed on the total 401 lateral plates upper and lower end of fixed plate of end film ejection component and is fixed on the second L-shaped fixed plate In 321 base surfaces, the periphery and the 4th cam 344 of the 4th rolling bearing 414 under the restoring force effect of the 4th tension spring 354 Circumferential surface remain tangent contact.

The effect process of folding and side film cladding processing apparatus is as follows under the film of end: battery is under the carrying of carrier with biography The underface for sending workbench to reach device；Battery top mounting subassembly 12 is pushed to move downward directly while second cam 62 rotates The upper face of battery is pushed down to the battery upper face profile department 1221 of the end of battery upper face locating piece 122, at the same time Three cams 63, which rotate and fixation kit 13 is pushed under battery to move up, resists battery lower face, and so far the upper and lower of battery has been fixed At avoiding battery in the subsequent cladding course of work from shaking；Then the first cam 61 pushes end to coat component 8 from battery It moves down to push above overhang insulation protective film and rolls over 90 ° of directions, while folding under the protective film of end, third under the film The ejection effect of cam 63 terminates and the restoring force drop-down of third tension spring 103 effect occupies leading position, in third tension spring 103 Lower motive force under under battery fixation kit 13 progressively disengage battery lower surface, avoid the structure under battery in fixation kit 13 Hinder the operation of end cladding component 8；After completion end tentatively coats process, the ejection effect of the first cam 61 is drawn by first The reversed pulling function of the restoring force of spring 101 is replaced, and coats component 8 in the upward restoring force effect lower end of the first tension spring 101 It is returned to home position upwards；At the same time, in the case where adjacent component operation is not interfere with each other, the 4th cam 64 is to being pushed forward Dynamic side cladding component 14 will while running two clamping jaws 149 from two side of width of battery front end to battery rear end respectively The lateral plates of battery are attached to perpendicular to the side insulation protective film of battery lateral plates, after the completion of side insulation protective film attaches The piston shaft of cylinder 143 extends forward and the rear end face of the lateral pawl of two clamping jaws of ejection 149, and the turning position of clamping jaw 149 is around branch The bar rotation of point bolt 147, while stretching occurs for clamping jaw tension spring 148, the end of clamping jaw 149 opens distance and is greater than cell widths Size, 104 impetus of the 4th cam by the 4th tension spring 104 reverse reverting power act on replace, the 4th tension spring 104 backward Restoring force effect under, side including clamping jaw 149 cladding component 14 is whole to move to original position backward, so far, end Portion just coats and cladding movement in side is completed and reaches battery basolateral membrane cladding process；

It is as follows that battery basolateral membrane coats processing apparatus effect process: battery is passed under the loading of carrier by transfer table It is sent to the underface of positioning component 24 on battery, positioning component 24, which drops on battery, on the promotion battery of third cam 213 positions Battery is fixed in carrier by the corresponding site that the battery imitated structure 2431 in plate 243 is just resisted against battery upper face, electricity Pond end hook membrane module 25 is located at by the hook film sheet metal component 254 that the 4th cam 214 pushes its rising to make 253 front end of hook diaphragm plate Lower end in front of the battery end film of lower 90 ° of folding, then drives hook membrane module slope to push under mould group 256 by the 7th cam 217 Drop, and then hook diaphragm plate 253 makes the hook film metal plate of 253 front end of hook diaphragm plate towards promotion 256 direction of the mould group translation of hook membrane module slope Golden part 254 catches on end film from end film front end and a distance (avoids attaching in the film of end with sticking one side backward To battery lower face, further avoid that side film is attached to the outside of end film and thus bring protective film fold is existing As), the first cam 211 push side form foldable component 26 in combined type gas-liquid-solid fixed board 261 decline so that drive clamping jaw fixed plate 265, The decline of L clevis pawl 266 simultaneously rolls over downwards 90 ° from the width two sides of battery by side film in battery two sides is expanded horizontally, and then the Two cams 212 push lifting axis fixing plate 263 and then lifting shaft 264 are pushed to decline, and lifting shaft 264 pushes in L clevis pawl 266 Transverse slat face open and be greater than the width of battery in the lower end of L clevis pawl 266 while stretch the 9th tension spring 229, Combined type gas-liquid-solid fixed board 261, lifting axis fixing plate 263, lifting shaft under the action of 7th tension spring 227,228 restoring force of the 8th tension spring 264, after L clevis pawl 266 is lifted off battery location, lifting shaft 264 continue rise no longer to the transverse plate of L clevis pawl 266 into Row ejection, the 9th tension spring 229 returns to raw footage, the distance of 266 lower end of L clevis pawl returns to reset condition；5th cam 215 It first pushes the rising of T shape fixed plate 271 to extend compressed spring 275 and two side roller fixed plates 280 is pushed to open, roll attached pulley Distance becomes larger the spacing that medial surface between attached pulley 274 is rolled until two greater than after cell widths between 274, and the 6th cam 216 pushes away Dynamic right-angle bending shape fixed plate 278, L shape lifting track pad fixed plate 277, inclined lift track pad 276 rise to and roll attached pulley After 274 upper roller face is concordant with battery lower face, the 5th cam 215 is not rolled attached pulley 274 in promotion and is risen, and the 6th is convex Wheel 216 continue to press on inclined lift track pad 276 rising, make two rolling pulleies 273 along inclined lift track pad 276 most Compressed spring 275 occurs further to compress while lower position is mobile inwardly for high position, rolls attached pulley 274 for two at this time Folding 90 ° of sides side film will be descended to roll while doing movement adjacent to each other towards battery in the case where height is constant attached viscous It is attached to the lower face of battery, the ejection effect of subsequent 6th cam 216 is replaced by the restoring force pulling function of the 6th tension spring 226, Entire side form rolls attached component 27 and is lowered away from battery lower face；The restoring force of first tension spring 221 pulls positioning component 24 on battery Climb away battery upper face, while carrying hook membrane module slope under the restoring force effect of third tension spring 223, the second tension spring 222 and pushing away The decline of dynamic model group 256, hook diaphragm plate 253 are moved towards battery side, and the restoring force of the 4th tension spring 224 pulls hook film at the same time Component is driven fixed plate 255, hook membrane module fixed plate 92, hook diaphragm plate 253, peace 254 descending motion of hook film sheet metal component to former height Degree；Battery after side film is covered to complete reaches battery end film with transfer table and rolls attached process；

The effect process that battery end film rolls attached processing apparatus is as follows:, will by helical gear transmission after motor 30 is run Rotary power passes to cam 34, firstly, battery under the transmitting of transfer table by running to the dress after the preliminary clamping of carrier The following position directly set, positioning component 37 drops to positioning plate on battery on battery under the impetus of the second cam 342 Battery upper face is pushed down under 373, the first cam 341, which pushes down on end film, which pushes away whole group part 38, pushes away end film in whole group part 38 Rolling housing move straight down the end film after tentatively lower 90 ° of folding is pushed away again it is whole to avoid passing through multiple tracks coating film Between end coating film after process and battery end side angle be greater than 90 °, end film push away it is whole after the completion of, in the second tension spring 352 restoring force effect lower end film pushes away whole group part 38 and climbs away battery location, while end film rolls attached component 39 in third Translated under the impetus of cam 343 towards battery side, and end film roll put on outside the rolling in attached component 39 rolling surface with The lower face of battery is in sustained height position, and end film rolls attached component 39 and is constantly being directed towards the translation of battery direction and in translation The end film for having descended 90 ° of folding is pushed to battery lower face and is rolled by pressure drop end film in the process to be attached to battery lower face, with Rolling attached component 39 in the restoring force effect lower end film of third tension spring 353 afterwards, to do the translational motion far from battery attached to rolling End film do it is secondary roll affixed conjunction, and then the 4th cam 344 drive end film ejection component 40 rising makes end film ejection The lucky ejection of ejection rectangular block 403 in component 40 cover the end film location positioned at battery lower face will roll it is affixed The end film of conjunction carries out another ejection bonding, then makes electricity respectively under the action of the first tension spring 351, the 4th tension spring 354 Positioning component 37 climbs away battery upper face on pond, the decline of end film ejection component 40 is detached from battery lower face.

Each processing apparatus only needs a power source device in above-mentioned apparatus, and structure is simple, and passes through cam stroke Both the cladding operation of achievable insulating protective film is set, and movement debugging is convenient, high-efficient；Secondly, battery end hook membrane module 25 Setting guarantee that side film will not be wrapped in the outside of end film, the setting that end film pushes away whole group part 38 avoid it is lower roll over 90 ° after Reverse folded phenomenon occurs for end film, and end film ejection component 40 further improves end film in the smooth of battery base surface Degree and attaching fastness.

Preferably, the improved-type battery protection film coating unit, the first tension spring 101, the second tension spring 102, third are drawn Spring 103, the 4th tension spring beginning the 104, first tension spring 221, the second tension spring 222, third tension spring 223, the 4th tension spring 224, the 5th tension spring 225, the 6th tension spring 226, the 7th tension spring 227, the 8th tension spring 228, the first tension spring 351, the second tension spring 352, third tension spring 353, 4th tension spring 354 is in tensional state always.When corresponding assembly is in home position, the level of stretch of each tension spring is minimum, when The restoring force that respective cams drive the stretching that more large deformation occurs for corresponding tension spring when corresponding assembly movement to generate greater role makes The periphery moment of cam circumferential surface and corresponding rolling bearing keeps stablizing tangent state, while generating bigger restoring force for phase It answers component to retract home position, prepares for period run next time.

Preferably, the improved-type battery protection film coating unit coats the width two sides pair of the total fixed plate 11 of component Title formula is fixed, and there are two the first tension spring 101, total 16 bilateral type of fixed plate of battery top mounting subassembly, fixed there are two second to draw There are two third tension spring 103, side cladding component are total for the fixation of 131 bilateral type of fixation kit fixed plate under spring 102, battery The lateral plates bilateral type of fixed plate 15 is fixed, and there are two the 4th tension springs 104；First tension spring 221, the second tension spring 222, third Tension spring 223, the 4th tension spring 224, the 5th tension spring 225, the 6th tension spring 226, the 7th tension spring 227, the 8th tension spring 228 are corresponding The setting of site of action Zygomorphy；The width two sides of the total fixed plate 371 of positioning component are provided with the first tension spring on battery 351, the two sides of the cladding total fixed plate 94 of component are provided with the second tension spring 352, roll the two sides of the total fixed plate 101 of attached component It is provided with third tension spring 353, is provided with the 4th tension spring 354 in the total 401 two sides plate face of fixed plate of end film ejection component.

Being equipped with tension spring in total fixed plate bilateral type of associated component can guarantee that the restoring force of associated component two sides is equal Even effect, guarantee associated component carried out more smoothly returning under the action of restoring force after corresponding operation again it is original go out Send out position.

Preferably, the improved-type battery protection film coating unit, end coats pacifies side by side in the total fixed plate 11 of component Component 8 is coated equipped with N group end, N group battery top mounting subassembly is installed side by side in the total fixed plate 16 of battery top mounting subassembly 12, the positioning of N group battery lower face is installed side by side in fixation kit fixed plate 131 under the battery under battery in fixation kit 13 Block 132, side coats is equipped with N group side cladding component 14 side by side in the total fixed plate 15 of component；It is equipped with side by side on foreboard 24 Positioning component 24 on N number of battery is equipped on the battery of N number of group of set side by side in the total fixed plate 241 of positioning component that is, on battery and determines Positioning plate 243 in hyte part fixed plate 242, battery；N hook membrane module is installed side by side solid in the total fixed plate 91 of hook membrane module Fixed board 92, hook diaphragm plate 253, the hook film sheet metal component 254 for being mounted on hook diaphragm plate front end, hook membrane module are driven fixed plate 255, and every A 253 rear of hook diaphragm plate is correspondingly arranged on one group of hook membrane module slope and pushes mould group 256, correspondingly, each hook membrane module is oblique Slope pushes the underface of mould group 256 to have corresponding 7th cam 217 and dependency structure；Side form is rolled in side form foldable component 26 N number of lifting axis fixing plate 263 for being equipped with lifting shaft 264, combined type gas-liquid-solid fixed board 261 are fixed in the curved total fixed plate 262 of component Lower face on the inherently N number of clamping jaw fixed plate 265 of spiral shell, be provided with and can be pushed away in lifting shaft 264 in each clamping jaw fixed plate 265 The L clevis pawl 266 of opening and closing movement, the second guide rail fixed plate front and rear sides are rotated and generated under power around pivot bolt 267 Slideable installation N group side form is rolled on the 4th guide rail slide block component 234 installed in plate face, the 5th guide rail slide block component 235 Attached component 27；In the total fixed plate 371 of positioning component and positioning component fixed plate 372 on N group battery, preceding is not installed on battery End is machined with positioning plate 373 on the battery of battery imitated structure 3731；End coats block form in the total fixed plate 384 of component Be equipped with N group end cladding component fixed plate 381, inclination installation roller bearing fixed plate 382, cylindrical surface be socketed with rolling housing Roller bearing 383；End film rolls block form in the total fixed plate 391 of attached component and is equipped with N group end cladding component fixed plate 392, water The roller bearing fixed plate 393 of safety dress, the external roller bearing 394 for being socketed with rolling housing；The total fixed plate 401 of end film ejection component Upper block form is equipped with N group L shape end film ejection component fixed plate 402, ejection rectangular block 403, the nature that wherein N is 2~5 Number.

Multiple groups associated component be set side by side and meanwhile complete N number of battery end film rolls attached operation, significantly improve insulating protective film The coating efficiency of concerned process steps.

Preferably, the improved-type battery protection film coating unit, back plate 21, intermediate plate 22 in fixed shell 2, Two 3rd bearings 43 being laterally arranged, 3rd bearing are symmetrically installed between foreboard 23 in the two sides of 2 power output shaft of motor 43 both ends spiral shell vertical with back plate 21, foreboard 23 is solid, and 3rd bearing 43 passes through intermediate plate 22 and passes through linear axis with intermediate plate 22 221 connections are held, intermediate plate 22 nothing can frictionally move before and after 43 direction of 3rd bearing；The width two sides of intermediate plate 22 are logical It overregulates jam plate 222 and amesdial 224 is installed, the middle position of two amesdials 224 adds in each adjusting screw plate 222 Work has the bolt C-shaped aperture 2221 being connected to side, in screw nut assembly 225 screw rod passed through from 2221 one side of bolt C shape hole, Nut is screwed on screw rod and is resisted against the another side of bolt C-shaped aperture 2221 and screw rod passes through rear adjusting screw plate 222 Threaded hole, adjusting screw plate 222 are screwed on the side plate 29 in fixed shell 2, make centre by forward and backward direction rotary screw Length direction of the plate 22 under the action of linear bearing 221 along 3rd bearing 43 moves completion to being mounted on intermediate plate 22 Corresponding assembly position is adjusted (horizontal distance for being suitable for adjustment end cladding component 8 at this), passes through in adjustment process The registration of amesdial 224 can show moving distance, be mainly used for the assembly precision according to device, battery transmission positioning accuracy And different battery specifications are finely adjusted corresponding assembly position.In addition also using above-mentioned amesdial, adjusting screw plate, bolt C The structures such as shape hole, bolt and nut component, which combine, to be formed fine tuning structure and (such as fixes group on battery for adjusting other active components Fixation kit 13, side cladding component 14 and other components for needing to adjust under part 12, battery, no longer huge legendary turtle is stated one by one herein)； It includes linear bearing 121, bearing 282, amesdial 283, the adjusting spiral shell for being machined with bolt C-shaped aperture 2841 that position, which adjusts component 28, Filament plate 284, screw nut assembly 285, the both ends of adjusting screw plate 284 are screwed in epipleural 183, in 186 plate face of lower side panel, The middle position of the adjusting screw plate 284 of fixed 18 two sides of shell is machined with bolt C-shaped aperture 2841, and bolt C-shaped aperture 2841 Upper and lower position is symmetrically installed there are two amesdial 283, and the screw rod in screw nut assembly 285, which passes through, bolt C-shaped aperture 2841, The nut being screwed on screw rod is resisted against in the plate face of adjusting screw plate 284, and the end of screw rod passes through the width two of middle plate 184 The threaded hole of side；The two sides of active force bearing 172 are symmetrically arranged with bearing 282, and bearing 282 passes through middle plate 184 and front and back ends Spiral shell vertical with foreboard 185, back plate 181 is solidly connected respectively, and bearing 282 is connected across middle plate 184 by linear bearing 281； It includes linear bearing 421, bearing 422, amesdial 423, the tune for being machined with bolt C-shaped aperture 4241 that position, which adjusts component 42 to include, Jam plate 424, screw nut assembly 425 are saved, the both ends of adjusting screw plate 424 are screwed in epipleural 313,316 plate face of lower side panel On, the middle position of the adjusting screw plate 424 of fixed 31 two sides of shell is machined with bolt C-shaped aperture 4241, and bolt C-shaped aperture 4241 upper and lower positions are symmetrically installed there are two amesdial 423, and the screw rod in screw nut assembly 425, which passes through, bolt C-shaped aperture 4241, the nut being screwed on screw rod is resisted against in the plate face of adjusting screw plate 424, and the end of screw rod passes through the width of middle plate 314 Spend the threaded hole of two sides；The two sides of active force bearing 302 are symmetrically arranged with bearing 422, bearing 422 pass through middle plate 314 and it is preceding, Spiral shell vertical with foreboard 315, back plate 311 is solidly connected respectively for rear end, and bearing 422 passes through linear bearing 421 across middle plate 314 Connection.

Screw rod in rotary screw nut assembly adjusted by the spinning in and out of screw thread in plate position, while thousand points The registration of table can be with the distance parameter of vision-control.

Preferably, the improved-type battery protection film coating unit, cam fixing piece 5 include expansion sleeve 51, ladder-like Cam retainer plate 52, expansion sleeve 51 is socketed on corresponding axis, and cam retainer plate 52 is socketed on expansion sleeve 51, cam Basic circle circle center hole is socketed on the relatively small circle in stepped cam retainer plate 52, and screw passes through the larger of cam retainer plate 52 Cam is fixed on biggish circle surface in cam retainer plate 52 by circle plate face, cam plate face, expansion sleeve 51 by corresponding axis and Inside and outside clamp of cam retainer plate 52 makes corresponding cam synchronize rotation with corresponding axis.The fixation of other cams can also be taken Aforesaid way or other fixed forms in the prior art.

Preferably, the improved-type battery protection film coating unit, the front end of clamping jaw 149, which is machined with, extends out clamping jaw Face 1491, the rear for extending out clamping jaw face 1491 are machined with convex clamping jaw face 1492, and two of them extend out between clamping jaw face 1491 Distance is greater than the distance between battery two sides, and the distance between two convex clamping jaw faces 1492 are less than between battery two sides Distance and it is unilateral apart from small 0.35mm~0.65mm with battery side.Two of them two extend out clamping jaw face 1491 and first contact Side coating film and push side bread overlay film in insulating protective film is then right by convex clamping jaw face 1492 close to battery side Side coating film applies the side that side coating film is adhered to battery by excess pressure.Correspondingly, the L shape in other two process Clamping jaw can also selectively take the design that clamping jaw face 1491 and convex clamping jaw face 1492 are extended out in clamping jaw 149 according to actual needs.

Preferably, the improved-type battery protection film coating unit, 1492 position of convex clamping jaw face set in clamping jaw 149 It is connected to soft rubber.

Detailed description of the invention:

Specific embodiment is further described with reference to the accompanying drawing, in which:

Fig. 1-1 is the overall structure diagram of folding and side film cladding processing apparatus under end film of the present invention；

Fig. 1-2 is folding and side film cladding processing apparatus structural schematic diagram under end film of the present invention；

Fig. 1-3 is folding and side film cladding processing apparatus partial structure diagram under end film of the present invention；

Fig. 1-4 is folding and side film cladding processing apparatus partial structure diagram under end film of the present invention；

Fig. 1-5 is that folding and side film coat side cladding component and electricity in processing apparatus under end film of the present invention The structural schematic diagram of fixation kit under pond；

Fig. 1-6 is folding and side film cladding processing apparatus medial end portions cladding component and electricity under end film of the present invention Pond top mounting subassembly structural schematic diagram；

Fig. 1-7 is the knot that folding and side film coat cladding component in side in processing apparatus under end film of the present invention Structure schematic diagram；

Fig. 1-8 is folding and side film cladding processing apparatus medial end portions cladding modular construction under end film of the present invention Schematic diagram；

Fig. 1-9 is the schematic diagram of fixation kit.

Fig. 1-10 is the schematic diagram of cam fixing piece.

Fig. 2-1 is battery basolateral membrane cladding processing apparatus overall structure diagram of the present invention；

Fig. 2-2a, 2-2b are after battery basolateral membrane cladding processing apparatus of the present invention dismantles fixed shell respectively Isometric views and side view；

Fig. 2-3 is positioning component and former board part on battery in battery basolateral membrane of the present invention cladding processing apparatus Attachment structure schematic diagram；

Fig. 2-4 is the structural schematic diagram of side form foldable component in battery basolateral membrane cladding processing apparatus of the present invention；

Fig. 2-5a, 2-5b are the separation that side form rolls attached component in battery basolateral membrane cladding processing apparatus of the present invention Formula structural schematic diagram；

Fig. 2-6 is the front view that side form rolls attached modular construction in battery basolateral membrane cladding processing apparatus of the present invention；

Fig. 3-1 is that battery end film of the present invention rolls attached processing apparatus overall structure diagram；

Fig. 3-2 is that battery end film of the present invention rolls attached processing apparatus partial structure diagram；

Fig. 3-3 is the structural representation that battery end film of the present invention rolls positioning component on battery in attached processing apparatus Figure；

Fig. 3-4 is the structural schematic diagram that battery end film of the present invention rolls that attached processing apparatus medial end portions film pushes away whole group part；

Fig. 3-5 is the structural schematic diagram that battery end film of the present invention rolls that attached processing apparatus medial end portions film rolls attached component；

Fig. 3-6 battery end film of the present invention rolls the structural schematic diagram of attached processing apparatus medial end portions film ejection component；

It is as follows to number corresponding specific structure:

Motor 1, motor fixing frame 11, fixed shell 2, back plate 21, intermediate plate 22, linear bearing 221, adjusting screw plate 222, bolt C-shaped aperture 2221, amesdial 224, bolt and nut component 225, foreboard 23, upper plate 24, the first L-shaped fixed plate 25, bottom Foreboard 27, the second L-shaped fixed plate 28, side plate 29, bottom plate 26, the first helical gear 31, the second helical gear 32, third helical gear 33, 4th helical gear 34, first bearing 41, second bearing 42,3rd bearing 43, cam fixing piece 5, expansion sleeve 51, cam is fixed Circle 52, the first cam 61, the second cam 62, third cam 63, the 4th cam 64, the first guide rail slide block component 71, the second guide rail Slide block assembly 72, third guide rail slide block component 73, the 4th guide rail slide block component 74, end coat component 8, and end coats component Fixed plate 81, roller bearing fixed plate 82, roller bearing 83, the first rolling bearing 91, the second rolling bearing 92, third rolling bearing 93, the Four rolling bearings 94, the first tension spring 101, the second tension spring 102, third tension spring 103, the 4th tension spring 104, it is total that end coats component Fixed plate 11, battery top mounting subassembly 12, battery top mounting subassembly fixed plate 121, battery upper face locating piece 122, on battery Plate face profile department 1221, fixation kit 13 under battery, fixation kit fixed plate 131 under battery, battery lower face locating piece 132, Side cladding component 14, side cladding component fixed plate 141, air cylinder fixed plate 142, cylinder 143, clamp rear fixed plate 144, Clamp upper mounted plate 145, clamp bottom plate 146, pivot bolt 147, clamping jaw tension spring 148, clamping jaw 149 extend out clamping jaw face 1491, convex clamping jaw face 1492, the side cladding total fixed plate 15 of component, the total fixed plate 16 of battery top mounting subassembly, motor 17, Motor fixing plate 171, active force bearing 172, fixed shell 18, back plate 181, upper plate 182, epipleural 183, middle plate 184 are preceding Plate 185, lower side panel 186, bottom plate 187, bottom side plate 188, bottom foreboard 189, bearing (setting) plate 190, helical gear 19, the first helical teeth Wheel 191, the second helical gear 192, third helical gear 193, the 4th helical gear 194, bearing 20, first bearing 201, second bearing 202,3rd bearing 203, fourth bearing 204, cam 21, the first cam 211, the second cam 212, third cam 213, the 4th Cam 214, the 5th cam 215, the 6th cam 216, the 7th cam 217, tension spring 22, the first tension spring 221, the second tension spring 222, Third tension spring 223, the 4th tension spring 224, the 5th tension spring 225, the 6th tension spring 226, the 7th tension spring 227, the 8th tension spring 228, the 9th Tension spring 229, guide rail slide block component 23, the first guide rail slide block component 231, the second guide rail slide block component 232, third guide rail slide block Component 233, the 4th guide rail slide block component 234, the 5th guide rail slide block component 235, the 6th guide rail slide block component 236, the 7th guide rail Slide block assembly 237, positioning component 24 on battery, the total fixed plate 241 of positioning component on battery, positioning component fixed plate on battery 242, positioning plate 243 on battery, battery imitated structure 2431, battery end hook membrane module 25, horizontal fixed plate 251, U-board 252, hook diaphragm plate 253, hook film sheet metal component 254, hook membrane module transmission fixed plate 255, hook membrane module slope pushes mould group 256, pushes away Movable plate 2561, the vertical driver plate 2562 in slope, side form foldable component 26, combined type gas-liquid-solid fixed board 261, side form foldable component are always solid Fixed board 262 goes up and down axis fixing plate 263, lifting shaft 264, clamping jaw fixed plate 265, L clevis pawl 266, pivot bolt 267, side form Attached component 27 is rolled, T shape fixed plate 271, cross slide way 2711, T shape fixed plate connecting plate 272, rolling pulley 273 rolls attached pulley 274, compressed spring 275, inclined lift track pad 276, L shape lifting track pad fixed plate 277, right-angle bending shape fixed plate 278, formation plate 279, pulley fixed plate 280, position adjusts component 28, linear bearing 281, bearing 282, amesdial 283, tune Save jam plate 284, bolt C-shaped aperture 2841, screw nut assembly 285, rolling bearing 29, the first rolling bearing 291, the second rolling Dynamic bearing 292, third rolling bearing 293, the 4th rolling bearing 294, the 5th rolling bearing 295, the 6th rolling bearing 296, the Seven rolling bearings 297, the 8th rolling bearing 298, motor 30, motor fixing plate 301, active force bearing 302, fixed shell 31, Back plate 311, upper plate 312, epipleural 313, middle plate 314, foreboard 315, lower side panel 316, bottom plate 317, bottom side plate 318, before bottom Plate 319, the first L-shaped fixed plate 320, the second L-shaped fixed plate 321, helical gear 32, the first helical gear 321, the second helical gear 322, third helical gear 323, the 4th helical gear 324, bearing 33, first bearing 331, second bearing 332, cam 34, first is convex Wheel 341, the second cam 342, third cam 343, the 4th cam 344, tension spring 35, the first tension spring 351, the second tension spring 352, the Three tension springs 353, the 4th tension spring 354, guide rail slide block component 36, the first guide rail slide block component 361, the second guide rail slide block component 362, third guide rail slide block component 363, the 4th guide rail slide block component 364, positioning component 37 on battery, positioning component on battery Total fixed plate 371, positioning component fixed plate 372 on battery, positioning plate 373 on battery, battery imitated structure 3731, end film Whole group part 38 is pushed away, end coats component fixed plate 381, and roller bearing fixed plate 382, roller bearing 383, end coats the total fixed plate of component 384, end film rolls attached component 39, and end film rolls the total fixed plate 391 of attached component, and end coats component fixed plate 392, and roller bearing is solid Fixed board 393, roller bearing 394, end film ejection component 40, the total fixed plate 401 of end film ejection component, L shape end film ejection component Fixed plate 402, ejection rectangular block 403, rolling bearing 41, the first rolling bearing 411, the second rolling bearing 412, third roll Bearing 413, the 4th rolling bearing 414, position adjust component 42, linear bearing 421, bearing 422, amesdial 423, adjusting spiral shell Filament plate 424, bolt C shape hole 4241, screw nut assembly 425,

The present invention that the following detailed description will be further explained with reference to the above drawings.

Specific embodiment

Case 1 is embodied:

A kind of improved-type battery protection film coating unit, comprising: under the film of end folding and side film cladding processing apparatus, Battery basolateral membrane cladding processing apparatus, battery end film roll attached processing apparatus；

Processing apparatus: the motor 1 being fixed on motor fixing frame 11 is coated for folding under the film of end and side film, it is fixed Shell 2, before fixed shell 2 is including back plate 21, intermediate plate 22, foreboard 23, upper plate 24, the first L-shaped fixed plate 25, bottom plate 26, bottom Plate 27, the second L-shaped fixed plate 28, side plate 29, the rear ends of upper plate 24 are solid with foreboard 23,21 spiral shell of back plate respectively, upper and lower 29 both ends of side plate are also solid with foreboard 23,21 spiral shell of back plate, and the upper face of top side plate 29 and the lower face spiral shell of upper plate 24 are solid, the first L Shape fixed plate 25 and 21 spiral shell of back plate are solid, and the second L-shaped fixed plate 28 and bottom plate spiral shell are solid, the front and back end of bottom plate 26 respectively with bottom foreboard 27,21 spiral shell of back plate is solid；

The power output shaft of motor 1 sequentially passes through the back plate 21 of fixed shell 2, intermediate plate 22, foreboard 23, and motor 1 moves Power output shaft, which passes through, to be realized between rolling bearing and back plate 21, foreboard 23 without rolling friction type connection, while the power of motor 1 Output shaft passes through diameter in intermediate plate 22 and is greater than the hole of power output shaft and does not contact with hole inner wall, is in back plate 21, intermediate plate The first helical gear 31 is nested and fixed on motor power output shaft between 22, the second of connection is engaged with the first helical gear 31 Helical gear 32 is sleeved and fixed in the first bearing 41 of vertical direction, and first bearing 41 is fixed on vertically by bearing fixed seat In the back plate 21 of fixed shell 2, the length section that first bearing 41 is located between upper plate 24, the first L-shaped fixed plate 25 is sleeved and fixed There is third helical gear 33, the rear ends of second bearing 42 pass through back plate 21, bottom foreboard 27 in rolling bearing and fixed shell 2 Plate face realized by rolling bearing without frictional connection and pass through and be greater than 42 diameter of second bearing in the second L-shaped fixed plate 28 Hole do not contacted with the inner wall in the hole, the 4th helical gear 34,1 power output shaft of motor are nested and fixed in second bearing 42 Length section between intermediate plate 22, foreboard 23 is fixed with the first cam 61, the second cam 62 by cam fixing piece 5, The first guide rail slide block component 71 of vertical direction is fixed in the plate face of intermediate plate 22, end coats component 8 and coats including end Component fixed plate 81, roller bearing fixed plate 82, cylindrical surface are socketed with the roller bearing 83 for rolling housing, and end coats component fixed plate 81 It is screwed in and is coated in the total fixed plate 11 of component with the end being fixedly connected with a slide block in the first guide rail slide block component 71, end packet The intrinsic roller bearing fixed plate 82 of each spiral shell in width two sides of component fixed plate 81 is covered, the both ends of roller bearing 83 pass through the axis of rolling It holds and is connected and fixed with the realization of the roller bearing fixed plate 82 at both ends without rolling friction type, end coats the upper of the total fixed plate 11 of component End, which is machined in U-shaped groove and U-shaped groove, is equipped with the first rolling bearing 91 by fixing axle, with the first guide rail guide block group Parallel 101 both ends of the first tension spring of guide rail are fixed by tension spring fixed ear in part 71, during one end of the first tension spring 101 is fixed on Between tension spring fixed ear on plate 22 hanging hole in, the tension spring that is fixed in cladding total 11 lateral plates of fixed plate of component of the other end it is solid Determine in ear-hang hole, the first tension spring 101 restoring force effect under the first rolling bearing 91 periphery always with the first cam 61 Circumferential surface it is tangent；Foreboard 23 is equipped with the second guide rail slide block component 72 of vertical direction in the plate face of intermediate plate 22, electricity Pond top mounting subassembly 12 includes battery top mounting subassembly fixed plate 121, battery upper face locating piece 122, battery top mounting subassembly Fixed plate 121 is screwed in the total fixed plate 16 of battery top mounting subassembly fixed with sliding block in the second guide rail slide block component 72, electricity Pond upper face locating piece 122 is fixed on the lower face of battery top mounting subassembly fixed plate 121 and battery upper face locating piece 122 End be machined with battery upper face profile department 1221 (being mainly used for pushing down battery upper face), battery top mounting subassembly is fixed Plate 121 is fixed in the total fixed plate 16 of battery top mounting subassembly, and the upper end of the total fixed plate 16 of battery top mounting subassembly is machined with U The second rolling bearing 92 is equipped with by fixing axle in connected in star and the U-shaped groove, passes through both ends in the plate face of back plate 23 The tension spring fixed ear in portion is fixed with second tension spring 102 parallel with guide rail direction in the second guide rail guide block assembly 72, the second tension spring The tension spring fixed ear of 102 upper ends is fixed on 23 plate face of back plate, the tension spring fixed ear of lower end is fixed on battery top mounting subassembly The lateral plates of total fixed plate 16, the periphery of second rolling bearing 92 and second convex under the restoring force effect of the second tension spring 102 The circumferential surface moment of wheel 62 keeps tangent state；The third guide rail slide block component of the intrinsic vertical direction of front face spiral shell of bottom foreboard 27 73, fixation kit 13 under battery, fixation kit 13 includes fixation kit fixed plate 131, battery lower face under battery under battery Locating piece 132, fixation kit fixed plate 131 is screwed on the sliding block of third guide rail slide block component 73 under battery, battery lower face Locating piece 132 is screwed in 131 upper end of fixation kit fixed plate under battery by L shape fixed block and battery is extended in upper surface Lower 131 upper surface a distance of fixation kit fixed plate, battery upper face locating piece 122 in battery top mounting subassembly 12 with Battery lower face locating piece 132 under battery in fixation kit 13 is in positive alignment (i.e. battery upper plate in vertical space Face locating piece 122, battery lower face locating piece 132 are located at the upper and lower of battery same position), in second bearing 42 Third cam 63 is nested and fixed by cam fixing piece 5, is additionally provided with flat with guide rail direction in third guide rail slide block component 73 Capable third tension spring 103, wherein the tension spring fixed ear of 103 upper end of third tension spring is located at 131 side of fixation kit fixed plate under battery Plate plate face, lower end tension spring fixed ear are located at 26 plate face of bottom plate in fixed shell 2, under battery under fixation kit fixed plate 131 End, which is machined in U-shaped groove and U-shaped groove, is equipped with third rolling bearing 93 by fixing axle, and passes through third tension spring 103 Restoring force make the periphery of third rolling bearing 93 and the circumferential surface of third cam 103 remains tangent state；First L shape 4th guide rail slide block component 74 of the intrinsic horizontal direction ornaments of the upper face spiral shell of fixed plate 25, side coat component 14, side packet Covering component 14 includes that side coats component fixed plate 141, air cylinder fixed plate 142, cylinder 143, clamp rear fixed plate 144, clamp Upper mounted plate 145, clamp bottom plate 146, the pivot bolt 147 of the smooth lower thread in upper end, clamping jaw tension spring 148, clamping jaw 149, side coats the side cladding component fixed plate 141 in component 14 and is screwed in the 4th guide rail slide block component 74 and sliding block In the solid side cladding total fixed plate 15 of component of spiral shell, air cylinder fixed plate 142 is screwed in side cladding 141 upper plate of component fixed plate Face, cylinder 143 are screwed in 142 upper face of air cylinder fixed plate, and clamp rear fixed plate 144 is fixed on side cladding component fixed plate The front end of 141 upper faces, clamp upper mounted plate 145 are screwed in L-shaped 146 upper face of clamp bottom plate, pivot bolt 147 pass through clamp upper mounted plate 145, clamp bottom plate 146, L clevis pawl 149 corner part can be around fulcrum spiral shell by clamping jaw 149 In the gap of 147 rotary type of bolt being fixed between clamp upper mounted plate 145, clamp bottom plate 146, the work of cylinder 143 Plug axis passes through the piston shaft via hole of clamp rear fixed plate 144 and is resisted against the rear end face of the lateral pawl of two clamping jaws 149, two folders Pawl tension spring fixed ear is extended through from the outside vertical of two clamping jaws 149 to 149 medial surface of clamping jaw respectively, and two tension springs are solid Determine the fixation that 148 both ends of clamping jaw tension spring are respectively used in the hanging hole of ear, the 4th tension spring 104 is fixed by the tension spring at both ends Ear is arranged in parallel with guide rail direction in the 4th guide rail slide block component 74, and the tension spring fixed ear of one end is fixed on the first L shape and fixes 25 plate face of plate, the tension spring fixed ear of the other end are fixed on sliding block side or side cladding in the 4th guide rail slide block component 74 The lateral plates of component fixed plate 141 or side coat the lateral plates of the total fixed plate 15 of component, pass through cam in first bearing 41 Fixing piece 5 is socketed with the 4th cam 64, and side coats the total fixed plate 15 of component and is machined with U-shaped close to the end of the 4th cam 64 Groove, U-shaped groove is interior to be equipped with the 4th rolling bearing 94 by fixing axle, acts on lower side panel in the restoring force of the 4th tension spring 104 Periphery and the circumferential surface of the 4th cam 64 remain tangent state；

Battery basolateral membrane cladding mould group processing apparatus includes: motor 17, motor fixing plate 171, with motor power output shaft The active force bearing 172 being fixedly connected, fixed shell 18, helical gear 19, bearing 20, cam 21, tension spring 22, guide rail slide block group Part 23, positioning component 24 on battery, battery end hook membrane module 25, side form foldable component 26, side form roll attached component 27, position Adjust component 28, rolling bearing 29；

Fixed shell 18 includes back plate 181, upper plate 182, epipleural 183, middle plate 184, foreboard 185, lower side panel 186, bottom Plate 187, bottom side plate 188, bottom foreboard 189, bearing (setting) plate 190, wherein after motor fixing plate 171 is screwed in back plate 181 Lateral plates, motor are screwed on motor fixing plate 171, and the both ends of upper plate 182 are hung down with back plate 22, the plate face of foreboard 185 respectively Straight spiral shell is solidly connected, the length both ends of two epipleurals 183 respectively spiral shell vertical with the plate face of back plate 22, foreboard 185 be solidly connected, on End face is solidly connected with 182 bottom panel spiral shell of upper plate, and middle 184 upper surface of plate and 182 spiral shell of upper plate are solid, and middle plate 184 passes through position tune Save component 28 between foreboard 185, back plate 22 it is adjustable sliding (mainly by position adjust component 28 adjust in plate and The relative position of foreboard 185 makes the component be located at the work of battery to adjust the position for being mounted on corresponding assembly on middle plate 184 With right above position, spiral shell vertical with back plate 181, bottom foreboard 189 is solid respectively at the both ends of bottom plate 187, the both ends of bottom side plate 188 Spiral shell vertical with back plate 181, bottom foreboard 189 is solid respectively in portion, and the bottom faces of two bottom side plates 188 is upper with 187 width two sides of bottom plate The vertical spiral shell of plate face is solidly connected；

The first cam 211 (between back plate 181, middle plate 184), the second cam are fixed on active force bearing 172 212 (close to middle 184 side of plate between middle plate 184, foreboards 185), third cam 213 (are located at middle plate 184, foreboard 185 Between close to 185 side of foreboard), 172 friction free of active force bearing passes through middle plate and both ends pass through rolling bearing with after Plate 181, the realization of foreboard 185 are fixed without rolling friction type；

The rear side plate face of back plate 181 is vertically fixed first bearing 201 by bearing fixed seat, second laterally put Bearing 202,203 both ends of 3rd bearing pass through rolling bearing and connect respectively with back plate 181, bottom foreboard 189 without rolling friction type It connects, the both ends of fourth bearing 204 are with back plate 181, between back plate 181 and bottom foreboard 189 and vertical solid by rolling bearing The bearing (setting) plate 190 being scheduled on bottom plate 187 is realized to be connected without rolling friction type；Active force bearing 172 is located at motor fixing plate Length sections in 171 encirclement spaces are nested and fixed the first helical gear 191, and 201 upper and lower end parts of first bearing are respectively sleeved on the Two helical gears 192, third helical gear 193, the end that second bearing 202 is located at 181 rear side plate face of back plate are fixed with the 4th tiltedly Gear 194, engagement connection transmission, third helical gear 193, the 4th helical gear between the first helical gear 191, the second helical gear 192 Engaged transmission between 194, second bearing 202,3rd bearing 203 are socketed with gear, fourth bearing in fourth bearing 204 Gear on 204 is contacted with the gear in second bearing 202, the engagement of the gear in 3rd bearing 203 respectively；Motor 17 passes through The engagement of engagement and gear between helical gear by the rotary power of motor 17 pass to second bearing 202,3rd bearing 203, Fourth bearing 204；The 4th cam 214, the 5th cam 215, the 6th cam 216, third are nested and fixed in second bearing 202 One end of bearing 203 is fixed with the 7th cam 217；

Positioning component 24 includes the total fixed plate 241 of positioning component on battery, positioning component fixed plate on battery on battery 242, front end is machined with positioning plate 243 on the battery of battery imitated structure 2431, leading in the first guide rail slide block component 231 Rail vertical direction is screwed in the plate face of foreboard 185, and the total fixed plate 241 of positioning component is screwed in the first guide rail slide block on battery Elevating movement is carried out on sliding block in component 231 and along guide rail, it is parallel by the first fixed tension spring 221 of both ends tension spring fixed ear Guide rail direction in the first guide rail slide block component 231, the upper end of the first tension spring 221 are fixed on 185 upper and lower end of foreboard and fix In the first guide rail slide block component 231 on sliding block, the upper end of the total fixed plate 241 of positioning component is machined with U-shaped groove on battery And first rolling bearing 291 be fixed in U-shaped groove by fixing axle, 221 restoring force of the first tension spring effect under third cam 213 circumferential surface with the periphery of the first rolling bearing 291 is tangent always contacts；

Battery end hook membrane module 25 includes hook membrane module fixed plate 92, hook diaphragm plate 253, is mounted on hook diaphragm plate front end Hook film sheet metal component 254, hook membrane module are driven fixed plate 255, and hook membrane module slope pushes mould group 256, hook membrane module fixed plate 92 Including horizontal fixed plate 251, U-board 252,252 reverse buckling type of U-board is screwed in the rear and front end portion of horizontal fixed plate 251, hook One end that diaphragm plate 253 passes through slidingtype inner cavity and hook diaphragm plate 253 that horizontal fixed plate 251 is surrounded with U-board 252 is machined with U-shaped Groove is fixed with the second rolling bearing 292 by fixing axle in U-shaped groove, hook membrane module slope push mould group 256 include plus Work has the pushing plate 2561 of inclined surface, the vertical driver plate 2562 in the slope being fixedly connected with pushing plate 2561, the second tension spring 222 It is parallel to horizontal fixed plate 251 by the tension spring fixed ear at both ends to be arranged, wherein the one end of the second tension spring 222 is fixed on U On the side of shape plate 252, the other end be fixed on the side of hook diaphragm plate 253, the second tension spring 222 restoring force effect under The periphery of second rolling bearing 292 and the inclined plate surface of pushing plate 2561 are in tangent contact condition, are vertically fixed on bottom plate Distinguish in the two sides plate face of the first guide rail fixed plate on 187 the intrinsic vertical direction of spiral shell the second guide rail slide block component 232, the Three guide rail slide block components 233, the vertical driver plate 2562 in slope are fixed on the sliding block in the second guide rail slide block component 232, tiltedly The lower end of the vertical driver plate 2562 in slope, which is machined in U-shaped groove and U-shaped groove, is fixed with third rolling bearing by fixing axle 293, the guide rail side in the second guide rail slide block component 232 is parallel to by the third tension spring 223 at the fixed both ends of tension spring fixed ear To the lateral plates upper and lower end that wherein upper end of third tension spring 223 is fixed on the vertical driver plate 2562 in slope is fixed on bottom plate 187 On, the week of the 7th cam 217 of the periphery and underface of third rolling bearing 293 under the effect of 223 restoring force of third tension spring Face remains tangent contact；The spiral shell vertical with the hook membrane module transmission upper surface of fixed plate 255 of hook membrane module fixed plate 92 is solid The rear plate face of connection, hook membrane module transmission fixed plate 255 is fixed with the sliding block in third guide rail slide block component 233, hook membrane module The lower end of transmission fixed plate 255, which is machined in U-shaped groove and the U-shaped groove, is equipped with the 4th rolling bearing by fixing axle 294, the guide rail side in third guide rail slide block component 233 is parallel to by the 4th tension spring 224 at the fixed both ends of tension spring fixed ear To wherein the sliding block lateral plates that are fixed in third guide rail slide block component 233 of the upper end of the 4th tension spring 224, lower end are fixed on bottom On plate 187, the periphery of the 4th rolling bearing 294 and the week of the 4th cam 214 under the restoring force effect of the 4th tension spring 224 Face remains tangent contact；

It is vertically fixed on the front and rear sides plate face difference intrinsic vertical direction of spiral shell of the second guide rail fixed plate on bottom plate 187 The 4th guide rail slide block component 234, the 5th guide rail slide block component 235, side form roll in attached component 27 be located at the second guide rail fixed plate 271 upper surface of T shape fixed plate of front and rear sides respectively with 272 spiral shell of T shape fixed plate connecting plate right above the second guide rail fixed plate Gu two T shape fixed plates 271 and the second guide rail fixed plate after the connection of T shape fixed plate connecting plate 272 are without being directly connected to The T shape fixed plate 271 of fixed relationship, rear is fixed on the sliding block in the 4th guide rail slide block component 234 and the T shape fixed plate 271 lower face is machined in U-shaped groove and the U-shaped groove and is equipped with the 5th rolling bearing 295 by fixing axle, by both ends The 5th fixed tension spring 225 of tension spring fixed ear is parallel to guide rail direction in the 4th guide rail slide block component 234 and is arranged, the 5th tension spring 225 upper end is fixed on sliding block lateral plates, lower end in the 4th guide rail slide block component 234 and is fixed on bottom plate 187, draws the 5th The circumferential surface of the periphery and the 5th cam 215 of the 5th rolling bearing 295 is set to remain phase cut-grafting under the effect of 225 restoring force of spring Touching, the front face of the T shape fixed plate 271 in front are fixed with cross slide way 2711, are equipped with packaged type on cross slide way 2711 It is fixedly installed with pulley fixed plate 280, the lower outer of pulley fixed plate 280 respectively on a pair of of the sliding block and the sliding block of sliding Angle position is equipped with rolling pulley 273, top is equipped with by middle fixing plate and rolls attached pulley 274, two pulley fixed plates 280 Between be fixedly connected by compressed spring 275, compressed spring 275 by elongation can propelling sheave fixed plate 280 in cross slide way Done on 2711 opposite direction disengaging movement so as to both sides push roll attached pulley 274 make two roll between attached pulley 274 away from From becoming larger, pulley fixed plate 280 be arranged right below with 273 periphery of rolling pulley is tangent contacts and with inclined surface Inclined lift track pad 276 guarantees the periphery of rolling pulley 273 always by the effect that laterally urges of compressed spring 275 With the inclined plate surface in inclined lift track pad 276 is tangent contacts, inclined lift track pad 276 is fixed on L shape lift rail vertically In the lateral plate face of mark plate fixed plate 277, L shape lifting track pad fixed plate 277 is fixed in right-angle bending shape fixed plate 278 And the T shape fixed plate 271 in front is located above the folding surface of right-angle bending shape fixed plate 278 and therewith without being fixedly connected with relationship, Right-angle bending shape fixed plate 278 is fixed in 279 plate face of formation plate, and formation plate 279 is fixed on the 5th guide rail slide block component 235 In sliding block on, the bottom end of formation plate 279 be machined in U-shaped groove and the U-shaped groove by fixing axle is equipped with the 6th rolling The both ends of dynamic bearing 296, the 6th tension spring 226 are parallel with guide rail direction in the 5th guide rail slide block component 235 by tension spring fixed ear Setting, wherein the lateral plates upper and lower end that the upper end of the 6th tension spring 226 is fixed on sliding block in the 5th guide rail slide block component 235 is fixed On bottom plate 187, the periphery and the 6th cam 216 of the 6th rolling bearing 296 under the restoring force effect of the 6th tension spring 226 Circumferential surface remain tangent contact；

Side form foldable component 26 is fixed on middle plate 184, the rear plate face of middle plate 184 is fixed with the 6th guide rail slide block component 236, front face is fixed with the 7th guide rail slide block component 237, and it is sliding that the rear plate face of combined type gas-liquid-solid fixed board 261 is screwed in the 6th guide rail On sliding block in block assembly 236, the lower face of combined type gas-liquid-solid fixed board 261 laterally across middle plate 184 lower section and extend to middle plate 184 front side, the upper end of 261 back plate of combined type gas-liquid-solid fixed board are machined in U-shaped groove and the U-shaped groove solid by fixing axle Surely there is the 7th rolling bearing 297, the 7th tension spring 227 is parallel to the setting of the guide rail direction in the 6th guide rail slide block component 236, And the 7th the upper end of tension spring 227 be fixed on the rear plate face upper and lower end portion of middle plate 184 and be fixed on the 6th guide rail slide block component In 236 sliding block lateral plates, the periphery of the 7th rolling bearing 297 is always with the under the restoring force effect of the 7th tension spring 227 The tangent contact of circumferential surface of one cam 211；Sliding block and total 262 plate of fixed plate of side form foldable component in 7th guide rail slide block component 237 Face is fixed, and the total fixed plate 262 of side form foldable component is fixed with lifting 263 plate face of axis fixing plate, goes up and down the water of axis fixing plate 263 It is machined in platen surface in mounting hole and the mounting hole and lifting shaft 264 is installed, spiral shell on the lower face of combined type gas-liquid-solid fixed board 261 Intrinsic clamping jaw fixed plate 265, the plate face of clamping jaw fixed plate 265 is machined with the hole passed through for lifting shaft 264, clamping jaw fixed plate 265 width two sides are machined with the groove for accommodating inversed l-shaped clamping jaw 266, and pivot bolt 267 passes through clamping jaw fixed plate 265, L shape Clamping jaw 266 by L clevis pawl 266 being fixed in groove around 267 rotary type of pivot bolt, L clevis pawl 266 two sides difference The 9th drawing for being fixed with tension spring fixed ear and being put by two tension spring fixed ears in two 266 inside fixed laterals of L clevis pawl Spring 229, the lower end of lifting shaft 264 are resisted against the upper surface of transverse plate in two L clevis pawls 266, and side form foldable component is always solid The upper surface of fixed board 262 is machined in U-shaped groove and the U-shaped groove and is equipped with the 8th rolling bearing 298 by fixing axle, the Eight tension springs 228 are parallel to guide rail direction in the 7th guide rail slide block component 237, and the upper end of the 8th tension spring 228 is fixed on middle plate 184 Front face, lower end are fixed in the 7th guide rail slide block component 237 in sliding block lateral plates, are acted in the restoring force of the 8th tension spring 228 Under make the periphery of the 8th rolling bearing 298 with the circumferential surface of the second cam 212 is tangent always contacts；

It includes: motor 30 that battery end film, which rolls attached processing apparatus, and motor fixing plate 301 is solid with motor power export structure Surely the active force bearing 302 connected, fixed shell 31, helical gear 32, bearing 33, cam 34, tension spring 35, guide rail slide block component 36, positioning component 37 on battery, end film pushes away whole group part 38, and end film rolls attached component 39, and end film ejection component 40 rolls Bearing 41；

Fixed shell 31 includes back plate 311, upper plate 312, epipleural 313, middle plate 314, foreboard 315, lower side panel 316, bottom Plate 317, bottom side plate 318, bottom foreboard 319, the first L-shaped fixed plate 320, the second L-shaped fixed plate 321；Wherein, motor fixing plate 301 are screwed in the rear side plate face of back plate 311, and motor is screwed on motor fixing plate 301, the both ends of upper plate 312 respectively with it is rear Plate 311, foreboard 315 the vertical spiral shell of plate face be solidly connected, the length both ends of two epipleurals 313 respectively with back plate 311, foreboard 315 The vertical spiral shell of plate face be solidly connected, upper surface and 312 bottom panel spiral shell of upper plate are solidly connected, middle 314 upper surface of plate and 312 spiral shell of upper plate Gu middle plate 314, which adjusts the adjustable sliding between foreboard 315, back plate 311 of component 42 by position, (mainly passes through position The relative position of plate and foreboard 315 in the adjusting of component 42 is adjusted, to adjust the position for being mounted on corresponding assembly on middle plate 314) It is located at the component right above the active position of battery, the both ends of bottom plate 317 are vertical with back plate 311, bottom foreboard 319 respectively Spiral shell is solid, and spiral shell vertical with back plate 311, bottom foreboard 319 is solid respectively at the both ends of bottom side plate 318, the bottom face of two bottom side plates 318 Spiral shell vertical with the upper face of 317 width two sides of bottom plate is solidly connected, and the first L-shaped fixed plate 320 is fixed in back plate 311 and is located at Between lower side panel 316 and bottom plate 317, the second L-shaped fixed plate 321 is fixed on the upper face of bottom plate 317；

The first cam 341 is fixed on active force bearing 302 (close to middle plate 314 between middle plate 314, foreboard 315 Side), the second cam 342 (close to 315 side of foreboard between middle plate 314, foreboard 315), active force bearing 302 is without friction Pass through that middle plate and both ends pass through rolling bearing and back plate 311, the realization of foreboard 315 are fixed without rolling friction type；

Back plate 311 is vertically fixed first bearing 331 by bearing fixed seat, and the second bearing 332 laterally put passes through Rolling bearing is connect with back plate 311, bottom foreboard 319 without rolling friction type respectively；Active force bearing 302 is close to 30 end cap of motor It connects and is fixed with the first helical gear 321,331 upper and lower end parts of first bearing are respectively sleeved on the second helical gear 322, third helical gear 323, second bearing 332 is located at 311 end of back plate and is fixed with the 4th helical gear 324, the first helical gear 321, the second helical gear 322 Between engagement connection transmission, between third helical gear 323, the 4th helical gear 324 engaged transmission, motor 30 by helical gear it Between engagement and the engagement of gear the rotary power of motor 30 is passed into first bearing 331, second bearing 332；First bearing Third cam 343 is nested and fixed on 331, the 4th cam 344 is nested and fixed in second bearing 332；

Positioning component 37 includes the total fixed plate 371 of positioning component on battery, positioning component fixed plate on battery on battery 372, front end is machined with positioning plate 373 on the battery of battery imitated structure 3731, leading in the first guide rail slide block component 361 Rail vertical direction is screwed in the plate face of foreboard 315, and the total fixed plate 371 of positioning component is screwed in the first guide rail slide block on battery Elevating movement is carried out on sliding block in component 361 and along guide rail, the first guide rail slide block component 361 is fixed on the plate face of foreboard 315 On, the guide rail direction in the first guide rail slide block component 361 is parallel to by the first fixed tension spring 351 of both ends tension spring fixed ear, the The upper end of one tension spring 351 is fixed on 315 upper and lower end of foreboard and is fixed in the total fixed plate 371 of positioning component on battery, on battery The upper end of the total fixed plate 371 of positioning component be machined with U-shaped groove and the first rolling bearing 411 to be fixed on U-shaped by fixing axle recessed In slot, 351 restoring force of the first tension spring effect under the second cam 342 circumferential surface and the first rolling bearing 411 periphery always Tangent contact；

It includes end cladding component fixed plate 381, the roller bearing fixed plate 382 of inclination installation, circle that end film, which pushes away whole group part 38, Cylinder is socketed with the roller bearing 383 of rolling housing, the end cladding total fixed plate 384 of component, and end coats the total fixed plate 384 of component It is screwed in and in the plate face of sliding block, the second guide rail slide block component 362 is screwed in middle plate 314 in the second guide rail slide block component 362 In plate face, end cladding component fixed plate 381 is screwed in the plate face of the end cladding total fixed plate 384 of component, and cladding component is fixed The both ends of the intrinsic roller bearing fixed plate 382 of the 91 each spiral shell in width two sides of plate, roller bearing 383 pass through rolling bearing and both ends Roller bearing fixed plate 382 realization be connected and fixed without rolling friction type, end coat the total fixed plate 384 of component upper end processing Have in U-shaped groove and U-shaped groove and the second rolling bearing 412 is equipped with by fixing axle, both ends are fixed by tension spring fixed ear Second tension spring 352 is parallel with guide rail in the second guide rail slide block component 362, and the upper end of the second tension spring 352 is fixed on intermediate plate 22 Upper and lower end is fixed in cladding total 94 lateral plates of fixed plate of component, and second rolls under the restoring force effect of the second tension spring 352 The periphery of bearing 412 is tangent with the circumferential surface of the first cam 341 always；

End film roll attached component 39 include end film roll the total fixed plate 391 of attached component, end cladding component fixed plate 392, The roller bearing fixed plate 393 that is horizontally mounted, the external roller bearing 394 for being socketed with rolling housing, 320 upper face spiral shell of the first L-shaped fixed plate The third guide rail slide block component 363 of intrinsic horizontal direction, end film roll the total fixed plate 391 of attached component and are screwed in third guide rail cunning On sliding block in block assembly 363, two 393 horizontal directions of roller bearing fixed plate are mounted on the width of end cladding component fixed plate 392 Two sides are spent, the length both ends of roller bearing 394 are fixed by the roller bearing fixed plate 393 of rolling bearing and end without rolling friction type, are held The end that portion's film rolls the total fixed plate 391 of attached component is machined with U-shaped groove and U-shaped groove is equipped with third by fixing axle and rolls Bearing 413, both ends are parallel with guide rail in third guide rail slide block component 363 by the fixed third tension spring 353 of tension spring fixed ear, One end of third tension spring 353 is fixed on the first L-shaped fixed plate 320, the other end is fixed on and rolls the total fixed plate 101 of attached component In lateral plates, the circumferential surface of third cam 343 and the circumference of third rolling bearing 413 under the restoring force effect of third tension spring 353 Face remains tangent contact；

End film ejection component 40 includes the total fixed plate 401 of end film ejection component, to be fixed on end film ejection component total L shape end film ejection component fixed plate 402 in fixed plate 401 is fixed on 402 upper end of L shape end film ejection component fixed plate The outside plate face of the ejection rectangular block 403 in face, the second L-shaped fixed plate 321 is fixed with the 4th guide rail slide block component of vertical direction 364, in the total fixed plate 401 of end film ejection component, the sliding block being fixed in the 4th guide rail slide block component 364, end film ejection The end of the total fixed plate 401 of component, which is machined in U-shaped groove and U-shaped groove, is equipped with the 4th rolling bearing by fixing axle 414, both ends are parallel with guide rail in the 4th guide rail guide block assembly 74 by the 4th fixed tension spring 354 of tension spring fixed ear, and the 4th draws The upper end of spring 354 is fixed on the total 401 lateral plates upper and lower end of fixed plate of end film ejection component and is fixed on the second L-shaped fixed plate In 321 base surfaces, the periphery and the 4th cam 344 of the 4th rolling bearing 414 under the restoring force effect of the 4th tension spring 354 Circumferential surface remain tangent contact.

Further, the first tension spring 101, the second tension spring 102, third tension spring 103, the 104, first tension spring of the 4th tension spring beginning 221, the second tension spring 222, third tension spring 223, the 4th tension spring 224, the 5th tension spring 225, the 6th tension spring 226, the 7th tension spring 227, 8th tension spring 228, the first tension spring 351, the second tension spring 352, third tension spring 353, the 4th tension spring 354 are in tensional state always.

Further, there are two the first tension springs 101, battery for the width bilateral type fixation of the cladding total fixed plate 11 of component Total 16 bilateral type of fixed plate of top mounting subassembly is fixed, and there are two fixation kit fixed plates 131 under the second tension spring 102, battery The fixed lateral plates bilateral type there are two third tension spring 103, the side cladding total fixed plate 15 of component of bilateral type is fixed There are two the 4th tension springs 104；First tension spring 221, the second tension spring 222, third tension spring 223, the 4th tension spring 224, the 5th tension spring 225, the 6th tension spring 226, the 7th tension spring 227, the 8th tension spring 228 are arranged in respective action position Zygomorphy；On battery The width two sides of the total fixed plate 371 of positioning component are provided with the first tension spring 351, and the two sides for coating the total fixed plate 94 of component are equal It is provided with the second tension spring 352, the two sides for rolling the total fixed plate 101 of attached component are provided with third tension spring 353, end film ejection The 4th tension spring 354 is provided in the total 401 two sides plate face of fixed plate of component.

Further, end coats and is equipped with 2 groups of ends cladding components 8 in the total fixed plate 11 of component side by side, solid on battery Determine that 2 groups of battery top mounting subassemblies 12 are installed side by side in the total fixed plate 16 of component, it is solid under the battery under battery in fixation kit 13 Determine that 2 groups of battery lower face locating pieces 132 are installed side by side in component fixed plate 131, side coats in the total fixed plate 15 of component simultaneously Column are equipped with 2 groups of side cladding components 14；Positioning component 24 on 2 batteries is installed side by side on foreboard 24, i.e., is positioned on battery Positioning component fixed plate 242 on the battery of 2 groups set, positioning plate 243 on battery are installed side by side in the total fixed plate 241 of component； 2 hook membrane module fixed plates 92 are installed side by side in the total fixed plate 91 of hook membrane module, hook diaphragm plate 253, are mounted on hook diaphragm plate front end Hook film sheet metal component 254, hook membrane module be driven fixed plate 255, and each 253 rear of hook diaphragm plate is correspondingly arranged on one group of hook Membrane module slope pushes mould group 256, correspondingly, each hook membrane module slope pushes the underface of mould group 256 to have corresponding the Seven cams 217 and dependency structure；2 are fixed in the total fixed plate 262 of side form foldable component in side form foldable component 26 to be equipped with The lifting axis fixing plate 263 of lifting shaft 264, the intrinsic 2 clamping jaw fixed plates 265 of spiral shell on the lower face of combined type gas-liquid-solid fixed board 261, Being provided in each clamping jaw fixed plate 265 can be rotated and be generated around pivot bolt 267 under 264 motive force of lifting shaft The L clevis pawl 266 of opening and closing movement, the 4th guide rail slide block component 234 installed in the second guide rail fixed plate front and rear sides plate face, 2 groups of side forms of slideable installation roll attached component 27 on 5th guide rail slide block component 235；The total fixed plate of positioning component on battery Positioning component fixed plate 372 on 2 groups of batteries is not installed in 371 and, front end is machined with the battery of battery imitated structure 3731 Upper positioning plate 373；In the cladding total fixed plate 384 of component of end block form be equipped with 2 groups of ends cladding component fixed plates 381, Tilt the roller bearing fixed plate 382 of installation, cylindrical surface is socketed with the roller bearing 383 for rolling housing；End film rolls the total fixed plate of attached component Block form is equipped with 2 groups of end cladding component fixed plates 392, the roller bearing fixed plate 393 being horizontally mounted, outsides and is socketed on 391 Roll the roller bearing 394 of housing；Block form is equipped with 2 groups of L shape end film ejection groups in the total fixed plate 401 of end film ejection component Part fixed plate 402, ejection rectangular block 403.

Further, the back plate 21 in fixed shell 2, intermediate plate 22, between foreboard 23 in 2 power output shaft of motor Two sides are symmetrically installed with two 3rd bearings 43 being laterally arranged, the both ends of 3rd bearing 43 spiral shell vertical with back plate 21, foreboard 23 Gu 3rd bearing 43 passes through intermediate plate 22 and connect with intermediate plate 22 by linear bearing 221, intermediate plate 22 can be along third axis Nothing is frictional mobile before and after holding 43 directions；The width two sides of intermediate plate 22 pass through adjusting screw plate 222 and are equipped with amesdial 224, the middle position of two amesdials 224 is machined with the bolt C-shaped aperture being connected to side in each adjusting screw plate 222 2221, screw rod is from 2221 one side of bolt C-shaped aperture passes through, nut is screwed on screw rod and is resisted against spiral shell in screw nut assembly 225 The another side of bolt C-shaped aperture 2221 and screw rod pass through the threaded hole of rear adjusting screw plate 222, and adjusting screw plate 222 is screwed in On side plate 29 in fixed shell 2, make intermediate plate 22 under the action of linear bearing 221 by forward and backward direction rotary screw Completion is moved along the length direction of 3rd bearing 43 corresponding assembly position being mounted on intermediate plate 22 is adjusted (at this Horizontal distance suitable for adjustment end cladding component 8), movement can be shown by the registration of amesdial 224 in adjustment process Distance is mainly used for the assembly precision according to device, battery transmission positioning accuracy and different battery specifications to corresponding assembly position It sets and is finely adjusted.In addition also using structures groups such as above-mentioned amesdial, adjusting screw plate, bolt C-shaped aperture, bolt and nut components Conjunction forms fine tuning structure for adjusting other active components (such as fixation kit 13, side under battery top mounting subassembly 12, battery Bread covers component 14 and other components for needing to adjust, and no longer huge legendary turtle is stated one by one herein)；It includes linear axes that position, which adjusts component 28, 121, bearing 282, amesdial 283, the adjusting screw plate 284 for being machined with bolt C-shaped aperture 2841, screw nut assembly 285 are held, The both ends of adjusting screw plate 284 are screwed in epipleural 183, in 186 plate face of lower side panel, the adjusting screw of fixed 18 two sides of shell The middle position of plate 284 is machined with bolt C-shaped aperture 2841, and 2841 upper and lower position of bolt C-shaped aperture is symmetrically installed that there are two thousand Divide table 283, the screw rod in screw nut assembly 285, which passes through, bolt C-shaped aperture 2841, and the nut being screwed on screw rod is resisted against In the plate face of adjusting screw plate 284, the end of screw rod passes through the threaded hole of the width two sides of middle plate 184；Active force bearing 172 Two sides be symmetrically arranged with bearing 282, bearing 282 passes through middle plate 184 and front and back ends hang down with foreboard 185, back plate 181 respectively Straight spiral shell is solidly connected, and bearing 282 is connected across middle plate 184 by linear bearing 281；Position adjusts component 42 Linear bearing 421, bearing 422, amesdial 423, the adjusting screw plate 424 for being machined with bolt C-shaped aperture 4241, bolt and nut group Part 425, the both ends of adjusting screw plate 424 are screwed in epipleural 313, in 316 plate face of lower side panel, the tune of fixed 31 two sides of shell The middle position of section jam plate 424 is machined with bolt C-shaped aperture 4241, and 4241 upper and lower position of bolt C-shaped aperture is symmetrically installed with Two amesdials 423, the screw rod in screw nut assembly 425, which passes through, bolt C-shaped aperture 4241, the nut being screwed on screw rod It is resisted against in the plate face of adjusting screw plate 424, the end of screw rod passes through the threaded hole of the width two sides of middle plate 314；Main power shaft The two sides for holding 302 are symmetrically arranged with bearing 422, bearing 422 pass through middle plate 314 and front and back ends respectively with foreboard 315, back plate 311 vertical spiral shells are solidly connected, and bearing 422 is connected across middle plate 314 by linear bearing 421.

Further, cam fixing piece 5 includes expansion sleeve 51, stair-stepping cam retainer plate 52, and expansion sleeve 51 is socketed in On corresponding axis, cam retainer plate 52 is socketed on expansion sleeve 51, and the basic circle circle center hole of cam is socketed in stepped cam and fixes On relatively small circle in circle 52, cam is fixed on convex by larger circle plate face, the cam plate face that screw passes through cam retainer plate 52 Take turns biggish circle surface in retainer plate 52, expansion sleeve 51 will be clamped inside and outside corresponding axis and cam retainer plate 52 make it is corresponding convex Wheel synchronizes rotation with corresponding axis.The fixation of other cams can also take aforesaid way or in the prior art other to fix Mode.

Further, the front end of clamping jaw 149, which is machined with, extends out clamping jaw face 1491, and the rear for extending out clamping jaw face 1491 adds Work has convex clamping jaw face 1492, and two of them extend out the distance between clamping jaw face 1491 and are greater than the distance between battery two sides, The distance between two convex clamping jaw faces 1492 are less than the distance between battery two sides and unilateral apart from small with battery side 0.35mm~0.65mm.Two of them two extend out clamping jaw face 1491 and first contact the side coating film in insulating protective film and push away Side coating film is moved close to battery side, excess pressure is then applied by 1492 opposite side bread overlay film of convex clamping jaw face and wraps side Overlay film is adhered to the side of battery.Correspondingly, the L clevis pawl in other two process can also be adopted selectively according to actual needs Take the design that clamping jaw face 1491 and convex clamping jaw face 1492 are extended out in clamping jaw 149.

Further, 1492 position of convex clamping jaw face is socketed with soft rubber in clamping jaw 149.

Each processing apparatus only needs a power source device in above-mentioned apparatus, and structure is simple, and passes through cam stroke The cladding operation that insulating protective film can be completed is set, and movement debugging is convenient, high-efficient；Secondly, battery end hook membrane module 25 Setting guarantee that side film will not be wrapped in the outside of end film, the setting that end film pushes away whole group part 38 avoid it is lower roll over 90 ° after Reverse folded phenomenon occurs for end film, and end film ejection component 40 further improves end film in the smooth of battery base surface Degree and attaching fastness；Furthermore the associated component of 2 groups of cladding membrane operations is set side by side in each processing apparatus, cladding has been imitated Rate improves twice on the basis of existing.

Case 2 is embodied:

4 groups of end cladding components 8 are installed side by side, battery top mounting subassembly is total in the cladding total fixed plate 11 of component of end 4 groups of battery top mounting subassemblies 12 are installed side by side, fixation kit is solid under the battery under battery in fixation kit 13 in fixed plate 16 4 groups of battery lower face locating pieces 132 are installed side by side on fixed board 131, are equipped with side by side in the cladding total fixed plate 15 of component of side 4 groups of sides coat component 14；Positioning component 24 on 4 batteries is installed side by side, i.e., positioning component is always solid on battery on foreboard 24 Positioning component fixed plate 242 on the battery of 4 groups set, positioning plate 243 on battery are installed side by side on fixed board 241；Hook membrane module 4 hook membrane module fixed plates 92, hook diaphragm plate 253, the hook film for being mounted on hook diaphragm plate front end are installed side by side in total fixed plate 91 Sheet metal component 254, hook membrane module are driven fixed plate 255, and each 253 rear of hook diaphragm plate is correspondingly arranged on one group of hook membrane module Slope pushes mould group 256, correspondingly, each hook membrane module slope pushes the underface of mould group 256 to have corresponding 7th cam 217 and dependency structure；4 are fixed in the total fixed plate 262 of side form foldable component in side form foldable component 26, and lifting shaft is installed 264 lifting axis fixing plate 263, the intrinsic 4 clamping jaw fixed plates 265 of spiral shell on the lower face of combined type gas-liquid-solid fixed board 261, each folder Opening and closing can be rotated under 264 motive force of lifting shaft around pivot bolt 267 and be generated by, which being provided in pawl fixed plate 265, moves The L clevis pawl 266 of work, the 4th guide rail slide block component the 234, the 5th installed in the second guide rail fixed plate front and rear sides plate face are led 4 groups of side forms of slideable installation roll attached component 27 on rail slide block assembly 235；On battery in the total fixed plate 371 of positioning component simultaneously Positioning component fixed plate 372 on 4 groups of batteries is not installed, front end is machined on the battery of battery imitated structure 3731 and positions Plate 373；Block form is equipped with 4 groups of end cladding component fixed plates 381, inclination installations in the cladding total fixed plate 384 of component of end Roller bearing fixed plate 382, cylindrical surface be socketed with rolling housing roller bearing 383；End film is rolled in the total fixed plate 391 of attached component simultaneously Column is equipped with 4 groups of end cladding component fixed plates 392, the roller bearing fixed plate 393 being horizontally mounted, outsides and is socketed with outside rolling The roller bearing 394 of set；Block form is equipped with 4 groups of L shape end film ejection components and fixes in the total fixed plate 401 of end film ejection component Plate 402, ejection rectangular block 403.

Other specific structures are identical as case study on implementation 1 in the present apparatus.

Each processing apparatus only needs a power source device in above-mentioned apparatus, and structure is simple, and passes through cam stroke The cladding operation that insulating protective film can be completed is set, and movement debugging is convenient, high-efficient；Secondly, battery end hook membrane module 25 Setting guarantee that side film will not be wrapped in the outside of end film, the setting that end film pushes away whole group part 38 avoid it is lower roll over 90 ° after Reverse folded phenomenon occurs for end film, and end film ejection component 40 further improves end film in the smooth of battery base surface Degree and attaching fastness；Furthermore the associated component of 4 groups of cladding membrane operations is set side by side in each processing apparatus, cladding has been imitated Rate improves four times on the basis of existing.

Case 3 is embodied:

5 groups of end cladding components 8 are installed side by side, battery top mounting subassembly is total in the cladding total fixed plate 11 of component of end 5 groups of battery top mounting subassemblies 12 are installed side by side, fixation kit is solid under the battery under battery in fixation kit 13 in fixed plate 16 5 groups of battery lower face locating pieces 132 are installed side by side on fixed board 131, are equipped with side by side in the cladding total fixed plate 15 of component of side 5 groups of sides coat component 14；Positioning component 24 on 5 batteries is installed side by side, i.e., positioning component is always solid on battery on foreboard 24 Positioning component fixed plate 242 on the battery of 5 groups set, positioning plate 243 on battery are installed side by side on fixed board 241；Hook membrane module 5 hook membrane module fixed plates 92, hook diaphragm plate 253, the hook film for being mounted on hook diaphragm plate front end are installed side by side in total fixed plate 91 Sheet metal component 254, hook membrane module are driven fixed plate 255, and each 253 rear of hook diaphragm plate is correspondingly arranged on one group of hook membrane module Slope pushes mould group 256, correspondingly, each hook membrane module slope pushes the underface of mould group 256 to have corresponding 7th cam 217 and dependency structure；5 are fixed in the total fixed plate 262 of side form foldable component in side form foldable component 26, and lifting shaft is installed 264 lifting axis fixing plate 263, the intrinsic 5 clamping jaw fixed plates 265 of spiral shell on the lower face of combined type gas-liquid-solid fixed board 261, each folder Opening and closing can be rotated under 264 motive force of lifting shaft around pivot bolt 267 and be generated by, which being provided in pawl fixed plate 265, moves The L clevis pawl 266 of work, the 4th guide rail slide block component the 234, the 5th installed in the second guide rail fixed plate front and rear sides plate face are led 5 groups of side forms of slideable installation roll attached component 27 on rail slide block assembly 235；On battery in the total fixed plate 371 of positioning component simultaneously Positioning component fixed plate 372 on 5 groups of batteries is not installed, front end is machined on the battery of battery imitated structure 3731 and positions Plate 373；Block form is equipped with 5 groups of end cladding component fixed plates 381, inclination installations in the cladding total fixed plate 384 of component of end Roller bearing fixed plate 382, cylindrical surface be socketed with rolling housing roller bearing 383；End film is rolled in the total fixed plate 391 of attached component simultaneously Column is equipped with 5 groups of end cladding component fixed plates 392, the roller bearing fixed plate 393 being horizontally mounted, outsides and is socketed with outside rolling The roller bearing 394 of set；Block form is equipped with 5 groups of L shape end film ejection components and fixes in the total fixed plate 401 of end film ejection component Plate 402, ejection rectangular block 403.

Other specific structures are identical as case study on implementation 1 in the present apparatus.

Each processing apparatus only needs a power source device in above-mentioned apparatus, and structure is simple, and passes through cam stroke The cladding operation that insulating protective film can be completed is set, and movement debugging is convenient, high-efficient；Secondly, battery end hook membrane module 25 Setting guarantee that side film will not be wrapped in the outside of end film, the setting that end film pushes away whole group part 38 avoid it is lower roll over 90 ° after Reverse folded phenomenon occurs for end film, and end film ejection component 40 further improves end film in the smooth of battery base surface Degree and attaching fastness；Furthermore the associated component of 5 groups of cladding membrane operations is set side by side in each processing apparatus, cladding has been imitated Rate improves five times on the basis of existing.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously Limitations on the scope of the patent of the present invention therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to of the invention Protection scope.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (8)

1. a kind of improved-type battery protection film coating unit, comprising: folding and side film coat processing apparatus, battery under the film of end Basolateral membrane cladding processing apparatus, battery end film roll attached processing apparatus；

Folding and side film cladding processing apparatus include: motor under the film of end, and fixed shell, motor is fixed on motor fixing frame, Fixed shell includes back plate, intermediate plate, foreboard, upper plate, the first L-shaped fixed plate, bottom plate, bottom foreboard, the second L-shaped fixed plate, side Plate, the rear ends of upper plate are solid with foreboard 23, back plate spiral shell respectively, and upper and lower side plate both ends are also solid with foreboard, back plate spiral shell, top The upper face of side plate and the lower face spiral shell of upper plate are solid, and the first L-shaped fixed plate and back plate spiral shell are solid, the second L-shaped fixed plate and bottom plate spiral shell Gu the front and back end of bottom plate is solid with bottom foreboard, back plate spiral shell respectively；The power output shaft of motor sequentially pass through fixed shell back plate, Intermediate plate, foreboard, the power output shaft of motor, which passes through, to be realized between rolling bearing and back plate, foreboard without rolling friction type connection, The power output shaft of motor pass through intermediate plate in diameter be greater than power output shaft hole and do not contacted with hole inner wall, in back plate, The first helical gear is nested and fixed on motor power output shaft between intermediate plate, second that connection is engaged with the first helical gear is oblique Gear socket is fixed in the first bearing of vertical direction, and first bearing is fixed on fixed shell by bearing fixed seat vertically In back plate, third helical gear, the second axis is nested and fixed in length section of the first bearing between upper plate, the first L-shaped fixed plate The rear ends held are realized by rolling bearing without frictional by back plate, the plate face of bottom foreboard in rolling bearing and fixed shell It connects and the hole passed through in the second L-shaped fixed plate greater than second bearing diameter is not contacted with the inner wall in the hole, in second bearing It is nested and fixed the 4th helical gear, the length section on motor power output shaft between intermediate plate, foreboard is fixed by cam Part is fixed with the first cam, the second cam, and the first guide rail slide block component of vertical direction, end are fixed in the plate face of intermediate plate Cladding component includes that end cladding component fixed plate, roller bearing fixed plate, cylindrical surface are socketed with the roller bearing of rolling housing, end cladding Component fixed plate is screwed in be coated in the total fixed plate of component with the end that sliding block is fixedly connected in the first guide rail slide block component, end The intrinsic roller bearing fixed plate of each spiral shell in width two sides of component fixed plate is coated, the both ends of roller bearing pass through rolling bearing and two The roller bearing fixed plate realization of end is connected and fixed without rolling friction type, and the upper end of the end cladding total fixed plate of component is machined with U The first rolling bearing is equipped with by fixing axle in connected in star and U-shaped groove, it is parallel with guide rail in the first guide rail guide block assembly First tension spring both ends are fixed by tension spring fixed ear, and one end of the first tension spring is fixed on the hanging hole of the tension spring fixed ear on intermediate plate In, the other end be fixed on cladding the total fixed plate lateral plates of component on tension spring fixed ear hanging hole in, in the restoring force of the first tension spring The periphery for acting on lower first rolling bearing is tangent with the circumferential surface of the first cam always；

Foreboard is equipped with the second guide rail slide block component of vertical direction in the plate face of intermediate plate, and battery top mounting subassembly includes Battery top mounting subassembly fixed plate, battery upper face locating piece, battery top mounting subassembly fixed plate are screwed in the second guide rail slide block In component in the total fixed plate of battery top mounting subassembly fixed with sliding block, battery upper face locating piece, which is fixed on battery, fixes group The lower face of the part fixed plate and end of battery upper face locating piece is machined with battery upper face profile department, battery top mounting subassembly Fixed plate is fixed in the total fixed plate of battery top mounting subassembly, and it is recessed that the upper end of the total fixed plate of battery top mounting subassembly is machined with U-shaped The second rolling bearing is equipped with by fixing axle in slot and the U-shaped groove, is consolidated in the plate face of back plate by the tension spring at both ends Determine ear and be fixed with second tension spring parallel with guide rail direction in the second guide rail guide block assembly, the tension spring of the second tension spring upper end is fixed Ear is fixed on back plate plate face, the tension spring fixed ear of lower end is fixed on the lateral plates of the total fixed plate of battery top mounting subassembly, The circumferential surface moment of periphery and the second cam that the restoring force of two tension springs acts on lower second rolling bearing keeps tangent state；

Fixation kit under the third guide rail slide block component of the intrinsic vertical direction of front face spiral shell of bottom foreboard, battery, it is fixed under battery Component includes fixation kit fixed plate under battery, battery lower face locating piece, and fixation kit fixed plate is screwed in third under battery On the sliding block of guide rail slide block component, battery lower face locating piece is screwed in fixation kit fixed plate under battery by L shape fixed block Fixation kit dead plate upper end face a distance under battery, the battery in battery top mounting subassembly are extended in upper end and upper surface Battery lower face locating piece under upper face locating piece and battery in fixation kit is in positive alignment in vertical space, the Third cam is nested and fixed by cam fixing piece on two bearings；It is arranged with guide rail parallel direction in third guide rail slide block component There is third tension spring, wherein the tension spring fixed ear of third tension spring upper end is located at fixation kit fixed plate side plate plate face, lower end under battery Tension spring fixed ear is located at the bottom plate plate face in fixed shell, and the lower end of fixation kit fixed plate is machined with U-shaped groove under battery And third rolling bearing is equipped with by fixing axle in U-shaped groove, and third rolling bearing is made by the restoring force of third tension spring Periphery and the circumferential surface of third cam remain tangent state；

4th guide rail slide block component of the intrinsic horizontal direction ornaments of the upper face spiral shell of the first L-shaped fixed plate, side coat component, side It includes side cladding component fixed plate, air cylinder fixed plate, cylinder, clamp rear fixed plate, clamp upper mounted plate, folder that bread, which covers component, Bottom plate, the pivot bolt of the smooth lower thread in upper end, clamping jaw tension spring, clamping jaw are clamped, side coats the side cladding in component Component fixed plate is screwed in the side cladding total fixed plate of component solid with sliding block spiral shell in the 4th guide rail slide block component, and cylinder is fixed Plate is screwed in side cladding component fixed plate upper face, and cylinder is screwed in air cylinder fixed plate upper face, and clamp rear fixed plate is fixed In the front end of side cladding component fixed plate upper face, clamp upper mounted plate is screwed in L-shaped clamp bottom plate upper face, Pivot bolt pass through clamp upper mounted plate, clamp bottom plate, L clevis pawl corner part can be around pivot bolt rotary type by clamping jaw The gap being fixed between clamp upper mounted plate, clamp bottom plate in, the piston shaft of cylinder passes through clamp rear fixed plate Piston shaft via hole and the rear end face for being resisted against two clamping jaw transverse direction pawls, two clamping jaw tension spring fixed ears are respectively from the outer of two clamping jaws Side passes perpendicularly through and extends to clamping jaw medial surface, and consolidating for clamping jaw tension spring both ends is respectively used in the hanging hole of two tension spring fixed ears Fixed, the 4th tension spring is arranged in parallel by the tension spring fixed ear at both ends with guide rail direction in the 4th guide rail slide block component, one end Tension spring fixed ear be fixed on the first L-shaped fixed plate plate face, the tension spring fixed ear of the other end is fixed on the 4th guide rail slide block group The lateral plates of sliding block side or side cladding component fixed plate in part or the lateral plates of the side cladding total fixed plate of component, first The 4th cam is socketed with by cam fixing piece on bearing, side coats the total fixed plate of component and processes close to the end of the 4th cam There is U-shaped groove, U-shaped groove is interior to be equipped with the 4th rolling bearing by fixing axle, acts on lower side panel in the restoring force of the 4th tension spring Periphery and the circumferential surface of the 4th cam remain tangent state

It includes: motor, motor fixing plate, the active being fixedly connected with motor power output shaft that battery basolateral membrane, which coats processing apparatus, Power bearing, fixed shell, helical gear, bearing, cam, tension spring, guide rail slide block component, positioning component on battery, battery end hook Membrane module, side form foldable component, side form roll attached component, and position adjusts component, rolling bearing；

Fixed shell includes back plate, upper plate, epipleural, middle plate, foreboard, lower side panel, bottom plate, bottom side plate, bottom foreboard, and bearing is fixed Plate, wherein motor fixing plate is screwed in the rear side plate face of back plate, and motor is screwed on motor fixing plate, the both ends part of upper plate Spiral shell not vertical with back plate, the plate face of foreboard is solidly connected, and the length both ends of two epipleurals are vertical with back plate, the plate face of foreboard respectively Spiral shell is solidly connected, upper surface and upper plate bottom panel spiral shell are solidly connected, and middle plate upper surface and upper plate spiral shell are solid, and middle plate adjusts group by position Part adjustable sliding between foreboard, back plate, spiral shell vertical with back plate, bottom foreboard is solid respectively at the both ends of bottom plate, bottom side plate Spiral shell vertical with back plate, bottom foreboard is solid respectively at both ends, and the bottom face of two bottom side plates is vertical with the upper face of baseplate width two sides Spiral shell is solidly connected；

Be fixed with the first cam, the second cam, third cam on active force bearing, active force bearing friction free pass through middle plate and Both ends pass through rolling bearing and fix with back plate, foreboard realization without rolling friction type；

The rear side plate face of back plate is vertically fixed first bearing by bearing fixed seat, the second bearing laterally put, third axis It holds both ends and passes through rolling bearing and connect respectively with back plate, bottom foreboard without rolling friction type, the both ends of fourth bearing pass through rolling Bearing and back plate between back plate and bottom foreboard and are vertically fixed on the bearing (setting) plate of bottom plate connection and realize without rolling friction Formula connection；Active force bearing is located at the length section that motor fixing plate surrounds in space and the first helical gear, first axle is nested and fixed It holds upper and lower end parts and is respectively sleeved on the second helical gear, third helical gear, the end that second bearing is located at plate face on rear side of back plate is fixed There is the 4th helical gear, engagement connection transmission between the first helical gear, the second helical gear, between third helical gear, the 4th helical gear Engaged transmission, second bearing, 3rd bearing are socketed with gear in fourth bearing, and the gear in fourth bearing is respectively with second Gear on gear, 3rd bearing on bearing engages contact；Motor will by the engagement of engagement and gear between helical gear The rotary power of motor passes to second bearing, 3rd bearing, fourth bearing；Be nested and fixed in second bearing the 4th cam, 5th cam, the 6th cam, one end of 3rd bearing are fixed with the 7th cam；

Positioning component includes the total fixed plate of positioning component on battery, positioning component fixed plate, front end processing on battery on battery There is positioning plate on the battery of battery imitated structure, the guide rail vertical direction in the first guide rail slide block component is screwed in the plate face of foreboard On, lifting fortune is carried out on the sliding block that the total fixed plate of positioning component is screwed in the first guide rail slide block component on battery and along guide rail It is dynamic, the guide rail direction in the first guide rail slide block component, the first tension spring are parallel to by the first fixed tension spring of both ends tension spring fixed ear Upper end be fixed on foreboard upper and lower end and be fixed in the first guide rail slide block component on sliding block, the total fixed plate of positioning component on battery Upper end be machined with U-shaped groove and the first rolling bearing is fixed in U-shaped groove by fixing axle, reply masterpiece in the first tension spring With the circumferential surface of lower third cam with the periphery of the first rolling bearing is tangent always contacts；

Battery end hook membrane module includes hook membrane module fixed plate, hook diaphragm plate, hook film sheet metal component, the hook for being mounted on hook diaphragm plate front end Membrane module is driven fixed plate, and hook membrane module slope pushes mould group, and hook membrane module fixed plate includes horizontal fixed plate, U-board, U-shaped Plate reverse buckling type is screwed in the rear and front end portion of horizontal fixed plate, the slidingtype that hook diaphragm plate passes through horizontal fixed plate and U-board surrounds Inner cavity and one end of hook diaphragm plate are machined with U-shaped groove, are fixed with the second rolling bearing, hook film group by fixing axle in U-shaped groove It includes the pushing plate for being machined with inclined surface, the vertical driver plate in the slope being fixedly connected with pushing plate that part slope, which pushes mould group, and second Tension spring is parallel to horizontal fixed plate setting by the tension spring fixed ear at both ends, wherein the one end of the second tension spring is fixed on U-shaped On the side of plate, the other end be fixed on the side of hook diaphragm plate, the second tension spring restoring force effect under the second rolling bearing Periphery and the inclined plate surface of pushing plate be in tangent contact condition, be vertically fixed on the first guide rail fixed plate on bottom plate The second guide rail slide block component, the third guide rail slide block component of the intrinsic vertical direction of spiral shell are distinguished in the plate face of two sides, slope is driven vertically Plate is fixed on the sliding block in the second guide rail slide block component, and the lower end of the vertical driver plate in slope is machined with U-shaped groove and U-shaped is recessed Third rolling bearing is fixed with by fixing axle in slot, second is parallel to by the third tension spring at the fixed both ends of tension spring fixed ear and leads Guide rail direction in rail slide block assembly, wherein the upper end of third tension spring is fixed on the lateral plates upper and lower end of the vertical driver plate in slope It is fixed on bottom plate, the week of the 7th cam of the periphery and underface of third rolling bearing under the effect of third tension spring restoring force Face remains tangent contact；It hangs down the upper surface of horizontal fixed plate and hook membrane module transmission fixed plate in hook membrane module fixed plate Straight spiral shell is solidly connected, and the rear plate face of hook membrane module transmission fixed plate is fixed with the sliding block in third guide rail slide block component, hook membrane module The lower end of transmission fixed plate, which is machined in U-shaped groove and the U-shaped groove, is equipped with the 4th rolling bearing by fixing axle, by drawing 4th tension spring at the fixed both ends of spring fixed ear is parallel to the guide rail direction in third guide rail slide block component, wherein the 4th tension spring Sliding block lateral plates that upper end is fixed in third guide rail slide block component, lower end are fixed on bottom plate, in the restoring force of the 4th tension spring The periphery for acting on lower 4th rolling bearing remains tangent with the circumferential surface of the 4th cam and contacts；

The front and rear sides plate face for the second guide rail fixed plate being vertically fixed on bottom plate respectively the 4th lead by the intrinsic vertical direction of spiral shell Rail slide block assembly, the 5th guide rail slide block component, the T shape that side form rolls in attached component positioned at the second guide rail fixed plate front and rear sides are fixed Plate upper surface is solid with the T shape fixed plate connecting plate spiral shell right above the second guide rail fixed plate respectively, connects by T shape fixed plate connecting plate Without being directly connected to fixed relationship, the T shape fixed plate at rear is fixed on for two T shape fixed plates after connecing and the second guide rail fixed plate On sliding block in four guide rail slide block components and the lower face of the T shape fixed plate is machined in U-shaped groove and the U-shaped groove by solid Dead axle is equipped with the 5th rolling bearing, is parallel in the 4th guide rail slide block component by the 5th fixed tension spring of both ends tension spring fixed ear Guide rail direction setting, the upper end of the 5th tension spring is fixed on sliding block lateral plates, lower end in the 4th guide rail slide block component and is fixed on bottom plate On, so that the circumferential surface of the periphery and the 5th cam of the 5th rolling bearing is remained phase cut-grafting under the effect of the 5th tension spring restoring force Touching, the front face of the T shape fixed plate in front are fixed with cross slide way, and a pair that packaged type sliding is equipped on cross slide way is sliding Pulley fixed plate is fixedly installed on block and the sliding block respectively, the lower outer angle position of pulley fixed plate is equipped with rolling and slides Wheel, top are equipped with by middle fixing plate and roll attached pulley, are fixedly connected between two pulley fixed plates by compressed spring, are pressed Contracting spring by elongation can propelling sheave fixed plate the disengaging movement of opposite direction is done on cross slide way to both sides promotion Roll attached pulley and make two to roll the distance between attached pulley and become larger, pulley fixed plate be arranged right below with rolling pulley periphery Tangent contact and the inclined lift track pad for having inclined surface guarantee rolling pulley by the effect that laterally urges of compressed spring Periphery always with the inclined plate surface in inclined lift track pad is tangent contacts, inclined lift track pad is fixed on L shape liter vertically In the lateral plate face for dropping track pad fixed plate, L shape lifting track pad fixed plate is fixed in right-angle bending shape fixed plate and front T shape fixed plate be located above the folding surface of right-angle bending shape fixed plate and therewith without the relationship that is fixedly connected, right-angle bending shape is consolidated Fixed board is fixed in formation plate plate face, and formation plate is fixed on the sliding block in the 5th guide rail slide block component, and the bottom end of formation plate adds Work, which has in U-shaped groove and the U-shaped groove, is equipped with the 6th rolling bearing by fixing axle, and the both ends of the 6th tension spring are solid by tension spring Determine ear to be arranged in parallel with guide rail direction in the 5th guide rail slide block component, wherein the upper end of the 6th tension spring is fixed on the 5th guide rail slide block The lateral plates upper and lower end of sliding block is fixed on bottom plate in component, the 6th rolling bearing under the restoring force effect of the 6th tension spring Periphery remains tangent with the circumferential surface of the 6th cam and contacts；

Side form foldable component is fixed on middle plate, the rear plate face of middle plate is fixed with the 6th guide rail slide block component, front face is fixed with 7th guide rail slide block component, the rear plate face of combined type gas-liquid-solid fixed board are screwed on the sliding block in the 6th guide rail slide block component, combined type The lower face of fixed plate laterally across middle plate lower section and extend to the front side of middle plate, the upper end of combined type gas-liquid-solid fixed board back plate adds Work, which has in U-shaped groove and the U-shaped groove, is fixed with the 7th rolling bearing by fixing axle, and the 7th tension spring has been parallel to the 6th guide rail Guide rail direction setting in slide block assembly, and the upper end of the 7th tension spring is fixed on the rear plate face upper and lower end portion of middle plate and is fixed on In the sliding block lateral plates of 6th guide rail slide block component, the periphery of the 7th rolling bearing begins under the restoring force effect of the 7th tension spring Eventually with the circumferential surface of the first cam is tangent contacts；Sliding block and the total fixed plate plate face of side form foldable component are solid in 7th guide rail slide block component Fixed, the total fixed plate of side form foldable component is fixed with lifting axis fixing plate plate face, is gone up and down in the horizontal plate face of axis fixing plate and is machined with Lifting shaft is installed, the intrinsic clamping jaw fixed plate of spiral shell, clamping jaw are solid on the lower face of combined type gas-liquid-solid fixed board in mounting hole and the mounting hole The plate face of fixed board is machined with the hole passed through for lifting shaft, and the fixed board width two sides of clamping jaw, which are machined with, accommodates inversed l-shaped clamping jaw Groove, pivot bolt pass through clamping jaw fixed plate, L clevis pawl by L clevis pawl being fixed in groove around pivot bolt rotary type, The two sides of L clevis pawl are respectively fixed with tension spring fixed ear and are fixed on the inside of two L clevis pawls by two tension spring fixed ears horizontal To the 9th tension spring put, the lower end of lifting shaft is resisted against the upper surface of transverse plate in two L clevis pawls, side form foldable component The upper surface of total fixed plate, which is machined in U-shaped groove and the U-shaped groove, is equipped with the 8th rolling bearing by fixing axle, and the 8th draws Spring is parallel to guide rail direction in the 7th guide rail slide block component, and the upper end of the 8th tension spring is fixed on middle plate front face, lower end is fixed on In 7th guide rail slide block component in sliding block lateral plates, the periphery of the 8th rolling bearing is made under the restoring force effect of the 8th tension spring With the circumferential surface of the second cam is tangent always contacts

It includes: motor, motor fixing plate, the master being fixedly connected with motor power export structure that battery end film, which rolls attached processing apparatus, Motive bearing, fixed shell, helical gear, bearing, cam, tension spring, guide rail slide block component, positioning component on battery, end film push away Whole group part, end film roll attached component, end film ejection component, rolling bearing；

Fixed shell includes back plate, upper plate, epipleural, middle plate, foreboard, lower side panel, bottom plate, bottom side plate, bottom foreboard, the first L shape Fixed plate, the second L-shaped fixed plate；Wherein, motor fixing plate is screwed in the rear side plate face of back plate, and motor is screwed in motor fixing plate On, spiral shell vertical with back plate, the plate face of foreboard is solidly connected respectively at the both ends of upper plate, the length both ends of two epipleurals respectively with it is rear Plate, foreboard the vertical spiral shell of plate face be solidly connected, upper surface and upper plate bottom panel spiral shell are solidly connected, middle plate upper surface and upper plate spiral shell are solid, Middle plate by position adjust component adjustable sliding between foreboard, back plate make the component be located at the active position of battery just on Side, spiral shell vertical with back plate, bottom foreboard is solid respectively at the both ends of bottom plate, and the both ends of bottom side plate are vertical with back plate, bottom foreboard respectively Spiral shell is solid, and the bottom face of two bottom side plates spiral shell vertical with the upper face of baseplate width two sides is solidly connected, and the first L-shaped fixed plate is fixed on In back plate and between lower side panel and bottom plate, the second L-shaped fixed plate is fixed on the upper face of bottom plate；

The first cam, the second cam are fixed on active force bearing, active force bearing friction free passes through middle plate and both ends are equal It is realized by rolling bearing with back plate, foreboard and is fixed without rolling friction type；

Back plate is vertically fixed first bearing by bearing fixed seat, the second bearing laterally put by rolling bearing respectively with Back plate, bottom foreboard are connected without rolling friction type；Main power shaft bears against nearly motor side and the first helical gear, first bearing is nested and fixed Upper and lower end parts are respectively sleeved on the second helical gear, third helical gear, and second bearing is located at back plate end and is fixed with the 4th helical gear, the Engagement connection transmission between one helical gear, the second helical gear, engaged transmission between third helical gear, the 4th helical gear, motor are logical The rotary power of motor is passed to first bearing, second bearing by the engagement of the engagement and gear crossed between helical gear；First axle It holds and third cam is nested and fixed, the 4th cam is nested and fixed in second bearing；

Positioning component includes the total fixed plate of positioning component on battery, positioning component fixed plate, front end processing on battery on battery There is positioning plate on the battery of battery imitated structure, the guide rail vertical direction in the first guide rail slide block component is screwed in the plate face of foreboard On, lifting fortune is carried out on the sliding block that the total fixed plate of positioning component is screwed in the first guide rail slide block component on battery and along guide rail Dynamic, the first guide rail slide block component is fixed in the plate face of foreboard, is parallel to the by the first fixed tension spring of both ends tension spring fixed ear Guide rail direction in one guide rail slide block component, the upper end of the first tension spring are fixed on foreboard upper and lower end and are fixed on positioning group on battery In the total fixed plate of part, the upper end of the total fixed plate of positioning component is machined with U-shaped groove on battery and the first rolling bearing passes through fixation Axis is fixed in U-shaped groove, the circumferential surface of the second cam and the periphery of the first rolling bearing under the effect of the first tension spring restoring force Always tangent contact；

End film push away whole group part include end cladding component fixed plate, inclination installation roller bearing fixed plate, cylindrical surface be socketed with rolling The roller bearing of housing, end is pressed to coat the total fixed plate of component, the end cladding total fixed plate of component is screwed in and the second guide rail slide block group In part in the plate face of sliding block, the second guide rail slide block component is screwed in the plate face of middle plate, and end cladding component fixed plate is screwed in End coats the plate face of the total fixed plate of component, the fixed intrinsic roller bearing fixed plate of each spiral shell in board width two sides of cladding component, rolling The both ends of axis are connected and fixed by the realization of the roller bearing fixed plate at rolling bearing and both ends without rolling friction type, end cladding group The upper end of the total fixed plate of part, which is machined in U-shaped groove and U-shaped groove, is equipped with the second rolling bearing by fixing axle, and both ends are logical It crosses during the second fixed tension spring of tension spring fixed ear is parallel with guide rail in the second guide rail slide block component, and the upper end of the second tension spring is fixed on Between plate upper and lower end be fixed on cladding the total fixed plate lateral plates of component on, the second tension spring restoring force effect under second axis of rolling The periphery held is tangent with the circumferential surface of the first cam always；

It includes the rolling that end film rolls the total fixed plate of attached component, end coats component fixed plate, is horizontally mounted that end film, which rolls attached component, Axis fixing plate, the external roller bearing for being socketed with rolling housing, the third guide rail of the first intrinsic horizontal direction of L-shaped fixed plate upper face spiral shell Slide block assembly, end film are rolled on the sliding block that the total fixed plate of attached component is screwed in third guide rail slide block component, and two roller bearings are fixed Plate horizontal direction is mounted on the width two sides of end cladding component fixed plate, and the length both ends of roller bearing pass through rolling bearing and end Roller bearing fixed plate fixed without rolling friction type, the end that end film rolls the total fixed plate of attached component is machined with U-shaped groove and U-shaped is recessed Slot is equipped with third rolling bearing, both ends the third tension spring and third guide rail slide block fixed by tension spring fixed ear by fixing axle Guide rail is parallel in component, and one end of third tension spring is fixed on the first L-shaped fixed plate, the other end is fixed on and rolls attached component and always fix In the lateral plates of plate, third tension spring restoring force effect under third cam circumferential surface and third rolling bearing periphery always Keep tangent contact；

End film ejection component includes the total fixed plate of end film ejection component, is fixed in the total fixed plate of end film ejection component L shape end film ejection component fixed plate, the ejection rectangular block for being fixed on L shape end film ejection component dead plate upper end face, the 2nd L The outside plate face of shape fixed plate is fixed with the 4th guide rail slide block component of vertical direction, and film ejection component total fixed plate in end is consolidated It is scheduled on the sliding block in the 4th guide rail slide block component, the end of the total fixed plate of end film ejection component is machined with U-shaped groove and U-shaped The 4th rolling bearing is equipped with by fixing axle in groove, both ends pass through fixed the 4th tension spring and the 4th guide rail of tension spring fixed ear Guide rail is parallel in guide block assembly, and it is solid that the upper end of the 4th tension spring is fixed on the total fixed plate lateral plates upper and lower end of end film ejection component It is scheduled in the second L-shaped fixed plate base surface, the periphery and the 4th of the 4th rolling bearing under the restoring force effect of the 4th tension spring The circumferential surface of cam remains tangent contact.

2. improved-type battery protection film coating unit as described in claim 1, its feature is as follows: all tension springs are located always In tensional state.

3. improved-type battery protection film coating unit as described in claim 1, it is characterised in that: folding and side film under the film of end Coat coated in processing apparatus the total fixed plate of component width bilateral type it is fixed there are two the first tension spring, fix group on battery The total fixed plate bilateral type of part is fixed there are two the second tension spring, and fixation kit fixed plate bilateral type is fixed with two under battery A third tension spring, the lateral plates bilateral type of the side cladding total fixed plate of component is fixed, and there are two the 4th tension springs；Under the film of end The first tension spring, the second tension spring, third tension spring, the 4th tension spring, the 5th tension spring, the 6th draw in folding and side film cladding processing apparatus Spring, the 7th tension spring, the 8th tension spring are arranged in respective action position Zygomorphy；Battery end film is rolled electric in attached processing apparatus The width two sides of the total fixed plate of positioning component are provided with the first tension spring on pond, and the two sides of the cladding total fixed plate of component are provided with Second tension spring, the two sides for rolling the total fixed plate of attached component are provided with third tension spring, the end total fixed plate two sides of film ejection component The 4th tension spring is provided in plate face.

4. claim 1~in it is any as described in improved-type battery protection film coating unit, its feature is as follows: being rolled under the film of end And N group end cladding component is installed side by side in the side film cladding processing apparatus medial end portions cladding total fixed plate of component, on battery N group battery top mounting subassembly is installed side by side in the total fixed plate of fixation kit, fixes group under the battery under battery in fixation kit N group battery lower face locating piece is installed side by side in part fixed plate, N group side is installed side by side in the cladding total fixed plate of component of side Bread covers component；Positioning component on N number of battery is installed side by side on foreboard in battery basolateral membrane cladding processing apparatus, i.e., on battery Positioning component fixed plate on the battery of N number of group of set, positioning plate on battery are installed side by side in the total fixed plate of positioning component；Hook film group N number of hook membrane module fixed plate, hook diaphragm plate, hook film sheet metal component, hook membrane module transmission fixed plate are installed side by side in the total fixed plate of part, And each hook diaphragm plate rear is correspondingly arranged on one group of hook membrane module slope and pushes mould group, correspondingly, each hook membrane module slope Pushing the underface of mould group has corresponding 7th cam and dependency structure；Side form foldable component is always fixed in side form foldable component N number of lifting axis fixing plate for being equipped with lifting shaft is fixed on plate, the inherently N number of clamping jaw of spiral shell is solid on the lower face of combined type gas-liquid-solid fixed board Fixed board, is provided with that can be rotated and be generated opening and closing around pivot bolt under lifting shaft motive force dynamic in each clamping jaw fixed plate The L clevis pawl of work, the 4th guide rail slide block component installed in the second guide rail fixed plate front and rear sides plate face, the 5th guide rail slide block group Slideable installation N group side form rolls attached component on part；It is always solid that battery end film rolls in attached processing apparatus positioning component on battery Positioning component fixed plate on N group battery is not installed in fixed board and, front end is machined on the battery of battery imitated structure and positions Plate；Block form is equipped with N group end cladding component fixed plate in the cladding total fixed plate of component of end, the roller bearing of inclination installation is fixed Plate, cylindrical surface are socketed with the roller bearing of rolling housing；End film rolls block form in the total fixed plate of attached component and is equipped with N group end cladding Component fixed plate, the roller bearing fixed plate being horizontally mounted, the external roller bearing for being socketed with rolling housing；End film ejection component is always fixed Block form is equipped with N group L shape end film ejection component fixed plate, ejection rectangular block on plate, the natural number that wherein N is 2~5.

5. improved-type battery protection film coating unit as described in claim 1, its feature is as follows: folding and side film under the film of end The back plate in shell, intermediate plate are fixed in cladding processing apparatus, are symmetrically installed between foreboard in the two sides of motor power output shaft There are two 3rd bearings being laterally arranged, the both ends of 3rd bearing spiral shell vertical with back plate, foreboard is solid, and 3rd bearing passes through intermediate plate And connect by linear bearing with intermediate plate, intermediate plate nothing can frictionally move before and after 3rd bearing direction；The width of intermediate plate Degree two sides pass through adjusting screw plate and are equipped with amesdial, and the middle position of two amesdials is machined in each adjusting screw plate The bolt C-shaped aperture being connected to side, screw rod is from bolt C-shaped aperture passes through on one side, nut is screwed on screw rod in screw nut assembly And it is resisted against the another side of bolt C-shaped aperture and screw rod passes through the threaded hole of rear adjusting screw plate, adjusting screw plate is screwed in On side plate in fixed shell, make intermediate plate under the action of linear bearing along 3rd bearing by forward and backward direction rotary screw Length direction it is mobile；Battery basolateral membrane cladding processing apparatus in position adjust component include linear bearing, bearing, amesdial, It is machined with adjusting screw plate, the screw nut assembly of bolt C-shaped aperture, the both ends of adjusting screw plate are screwed in epipleural, lower side panel In plate face, the middle position of the adjusting screw plate of fixed shell two sides is machined with bolt C-shaped aperture, and the next in bolt C-shaped aperture Amesdial there are two being symmetrically installed is set, the screw rod in screw nut assembly, which passes through, bolt C-shaped aperture, the nut being screwed on screw rod It is resisted against in the plate face of adjusting screw plate, the end of screw rod passes through the threaded hole of the width two sides of middle plate；The two of active force bearing Side is symmetrically arranged with bearing, and bearing passes through middle plate and front and back ends, and spiral shell vertical with foreboard, back plate is solidly connected respectively, during bearing passes through It is connected between plate by linear bearing；It includes linear axis that battery end film, which rolls the position in attached processing apparatus to adjust component to include, It holds, bearing, amesdial, adjusting screw plate, the screw nut assembly for being machined with bolt C-shaped aperture, the both ends spiral shell of adjusting screw plate is solid In epipleural, lower side panel plate face, the middle position of the adjusting screw plate of fixed shell two sides is machined with bolt C-shaped aperture, and Bolt C-shaped aperture upper and lower position is symmetrically installed there are two amesdial, and the screw rod in screw nut assembly, which passes through, bolt C-shaped aperture, spiral shell Gu the nut on screw rod is resisted against in the plate face of adjusting screw plate, the end of screw rod passes through the screw thread of the width two sides of middle plate Hole；The two sides of active force bearing are symmetrically arranged with bearing, and bearing passes through middle plate and front and back ends spiral shell vertical with foreboard, back plate respectively It is solidly connected, bearing is connected across middle plate by linear bearing.

6. improved-type battery protection film coating unit as described in claim 1, it is characterised in that: folding and side film under the film of end Coating cam fixing piece in processing apparatus includes expansion sleeve, stair-stepping cam retainer plate, and expansion sleeve is socketed on corresponding axis, Cam retainer plate is socketed on expansion sleeve, and the basic circle circle center hole of cam is socketed on the relatively small circle of stepped cam retainer plate, Cam is fixed on the larger circle plate face of cam retainer plate by larger circle plate face, the cam plate face that screw passes through cam retainer plate On, expansion sleeve will clamp inside and outside corresponding axis and cam retainer plate makes respective cams synchronize rotation with corresponding axis.

7. improved-type battery protection film coating unit as described in claim 1, it is characterised in that: folding and side film under the film of end The front end of clamping jaw, which is machined with, in cladding processing apparatus extends out clamping jaw face, and the rear for extending out clamping jaw face is machined with convex clamping jaw face, Two of them extend out the distance between clamping jaw face greater than the distance between battery two sides, the distance between two convex clamping jaw faces Less than the distance between battery two sides and unilateral apart from small 0.35mm~0.65mm with battery side.

8. improved-type battery protection film coating unit as claimed in claim 7, it is characterised in that: convex clamping jaw face position in clamping jaw It sets and is socketed with soft rubber.