CN209626332U - A kind of battery core coating device - Google Patents

Abstract

The utility model provides a kind of battery core coating device, turnover mechanism and counterdie film coating mechanism are set in chassis setting, side form film coating mechanism is set on turnover mechanism, the first coating plate and the second coating plate is arranged in turnover mechanism, the backing plate for placing battery core is equipped between first coating plate and the second coating plate, first coating plate, protective film is placed after second coating plate and backing plate tiled arrangements, by battery core it is vertical be placed on protective film and be located at backing plate on, pass through turnover mechanism, counterdie film coating mechanism and side form film coating mechanism carry out coating to four parallel side forms of battery core.Precisely, coating precision is high, and gap is small between packaging film and battery core after packing, and improves the quality of production of product for a kind of battery core coating device provided by the utility model, protective film and battery contraposition.

Description

A kind of battery core coating device

Technical field

The utility model belongs to cell manufacturing techniques field more particularly to a kind of battery core coating device.

Background technique

The ratio in naked battery core packet protective film production process, needing to guarantee that the relative offset of film and battery core is small, and wrapping up It is relatively tight.Naked battery core packet protective film is generallyd use using equipment currently on the market and lays flat battery core, then passes through a series of actions Packet protective film is carried out to battery core, the manner of packing that such equipment uses is easy to shift battery core in coating, it is difficult to ensure that protecting Cuticula is aligned with battery core or the protective film and direct gap of battery core is excessive so that protective film is more loose, and coating precision is low, also It will affect the production and processing of subsequent handling, reduce product quality.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of battery core coating devices, it is intended to solve the prior art Middle protective film and battery core, which are easy to appear displacement, to be influenced the processing of subsequent handling or makes the gap mistake between protective film and battery core The technical issues of making protective film more loose greatly, reducing product quality.

In order to solve the above technical problems, the utility model is realized in this way: a kind of battery core coating device, comprising:

Chassis；

Turnover mechanism, including the first coating plate and the second coating plate, the first coating plate and the second coating plate are arranged in a straight line And it is spaced and is set to chassis, the backing plate for placing battery core, the first coating plate are equipped between the first coating plate and the second coating plate It can be rotated around both a respective lateral edge close to each other close to backing plate direction with the second coating plate, when the first coating plate, the Two coating plates and backing plate tiled arrangements are simultaneously placed after protective film when backing plate places battery core, the first coating plate and the second coating plate It rotates and protective film is driven to fit in battery core；

Counterdie film coating mechanism, including counterdie push plate, counterdie push plate are slidably arranged in the opposite sides of backing plate, 2 counterdies Line between push plate is perpendicular to the line between the first coating plate and the second coating plate, when backing plate places battery core, counterdie Push plate stretches out the surface of backing plate and protective film is driven to fit in battery core；

The side towards chassis of side form film coating mechanism, the first coating plate and the second coating plate is each equipped with side form coating machine Structure, side form film coating mechanism include two side form push plates, and two side form push plates being connected on the first coating plate are pushed away with two counterdies Plate difference is corresponding, and two side form push plates being connected on the second coating plate are corresponding with two counterdie push plate difference, when first When coating plate and the dynamic protective film of the second coating strip are bonded with battery core, side form push plate is movable to battery core and protective film is driven to be bonded In in battery core；

Fixed mechanism, set on the side of chassis, the first coating plate and the second coating plate by protective film conform to battery core it The preceding battery core to fixed placement on backing plate.

Further, the side of the first coating plate of direction of the side of the close backing plate of the first coating plate and backing plate is hinged, The side of the second coating plate of direction of the side and backing plate of the close backing plate of second coating plate is hinged；

Turnover mechanism further includes the first driving mechanism, and the first driving mechanism and the first coating plate, the second coating plate one are a pair of It answers, the first driving mechanism is set to chassis, and the first driving mechanism driving the first coating plate corresponding thereto, the second coating plate are around it It is rotated with the hinged place of backing plate.

Further, backing plate away from the surface of chassis, the surface away from chassis of the first coating plate and the second coating The surface away from chassis of plate is respectively positioned in same plane in three's tiled arrangements.

Further, the surface of the separate chassis of backing plate is equipped with limited block, when the first coating plate and the second coating plate rotate When protective film being driven to be bonded with battery core, opposite sides point of the limited block along the first coating plate and the second coating plate direction arranged in a straight line It is not abutted against with the first coating plate, the second coating plate.

Further, counterdie film coating mechanism further includes the second driving mechanism matched with counterdie push plate, the second driving mechanism It is fixedly arranged on chassis and is located at the lower section of backing plate, counterdie push plate is set to the driving end of the second driving mechanism, and backing plate is equipped with the first empty avoiding Position, counterdie push plate is corresponding with the first clearance position and can move perpendicular to backing plate direction on edge in the first clearance position.

Further, side form film coating mechanism further includes the first connecting plate, third driving mechanism, and the first connecting plate is fixed on One coating plate, third driving mechanism are fixed on the side far from the first coating plate of the first connecting plate, the drive of third driving mechanism Moved end is equipped with the second connecting plate, and side form push plate is set to the side corresponding with counterdie push plate of the second connecting plate, when the first coating After the dynamic protective film of strip is bonded with battery core, third driving mechanism drives the second connecting plate mobile toward battery core direction, side form push plate Protective film is pushed to be bonded with battery core.

Further, the first coating plate position corresponding with side form push plate is equipped with the second clearance position, when third driving machine When structure drives the second connecting plate mobile toward the first coating plate direction, side form push plate may pass through the second clearance position and move toward battery core direction It is dynamic.

Further, side form film coating mechanism further includes the 4th driving mechanism, and the second connecting plate is in the side for being parallel to chassis It is slidably equipped with the first pinboard and the second pinboard, side form push plate is located remotely from each other set on the first pinboard and the second pinboard Side, after side form push plate, which passes through the second clearance position, to be moved to beside battery core, the 4th driving mechanism drive the first pinboard and The close to each other perhaps separate two side form push plates of second pinboard can be located remotely from each other in the second clearance position or close to mobile.

Further, fixed mechanism includes support frame, and support frame is set to the side of chassis, and the top of support frame is equipped with the 5th Driving mechanism, the opposite two sides of the 5th driving mechanism have driving end, and driving end is equipped with gripping block, the 5th driving mechanism driving two A gripping block is located remotely from each other or close, clamping and release with realization to battery core.

Further, the first coating plate and the second coating plate are equipped with several mounting holes, are provided in each mounting hole Adsorption piece, when the first coating plate, the second coating plate and backing plate, which tile, places protective film, adsorption piece can adsorb protective film solid It is fixed.

Compared with prior art, beneficial effect is the utility model: a kind of battery core coating dress provided by the utility model It sets, turnover mechanism and counterdie film coating mechanism is set in chassis setting, side form film coating mechanism is set on turnover mechanism, overturning is turned over The first coating plate and the second coating plate is arranged in rotation mechanism, is equipped between the first coating plate and the second coating plate for placing battery core Backing plate places protective film after the first coating plate, the second coating plate and backing plate tiled arrangements, is placed in protective film for battery core is vertical Above and it is located on backing plate, by turnover mechanism, counterdie film coating mechanism and side form film coating mechanism to four parallel sides of battery core Film carries out coating.Precisely, coating precision is high for a kind of battery core coating device provided by the utility model, protective film and battery contraposition, And gap is small between packaging film and battery core after packing, and improves the quality of production of product.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of battery core coating device of the utility model embodiment；

Fig. 2 is a kind of turnover mechanism of battery core coating device of the utility model embodiment and the structure of counterdie film coating mechanism Schematic diagram；

Fig. 3 is a kind of turnover mechanism of battery core coating device of the utility model embodiment and the part of counterdie film coating mechanism Structural schematic diagram；

Fig. 4 is a kind of structural schematic diagram of the side form film coating mechanism of battery core coating device of the utility model embodiment；

Fig. 5 is that a kind of another visual direction structure of the side form film coating mechanism of battery core coating device of the utility model embodiment is shown It is intended to；

Fig. 6 be a kind of battery core coating device of the utility model embodiment turnover mechanism overturning rear side membrane envelope mechanism with The configuration state schematic diagram of turnover mechanism；

Fig. 7 be a kind of battery core coating device of the utility model embodiment turnover mechanism overturning rear side membrane envelope mechanism to Structure shape body schematic diagram after battery core is mobile with turnover mechanism；

Fig. 8 is a kind of fixed mechanism structural schematic diagram of battery core coating device of the utility model embodiment；

Fig. 9 is the structural schematic diagram of protective film.

In the accompanying drawings, each appended drawing reference indicates:

1, chassis；2, turnover mechanism；21, the first coating plate；211, the second clearance position；22, the second coating plate；23, first Driving mechanism；3, counterdie film coating mechanism；31, counterdie push plate；32, the second driving mechanism；4, side form film coating mechanism；41, side form pushes away Plate；42, the first connecting plate；43, third driving mechanism；44, the second connecting plate；441, the first guide rail；442, the second guide rail；45, 4th driving mechanism；46, the first pinboard；47, the second pinboard；481, the first rotating block；482, the second rotating block；483, Three rotating blocks；5, fixed mechanism；51, support frame；52, the 5th driving mechanism；53, gripping block；6, backing plate；61, limited block；62, First clearance position；7, mounting hole；8, adsorption piece；10, battery core；20, protective film；201, first area；202, second area；203, Third region；204, the fourth region；205, the 5th region；206, the 6th region；207, District 7 domain；208, Section Eight domain； 209, the 9th region.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

It is a kind of preferred embodiment of battery core coating device provided by the utility model, the coating device packet referring to Fig. 1-3 Include chassis 1, turnover mechanism 2, counterdie film coating mechanism 3, side form film coating mechanism 4, fixed mechanism 5.Wherein:

Turnover mechanism 2, including the first coating plate 21 and the second coating plate 22, the first coating plate 21 and the second coating plate 22 Arranged in a straight line and interval is set to chassis 1, is equipped between the first coating plate 21 and the second coating plate 22 for placing battery core 10 Backing plate 6, the first coating plate 21 and the second coating plate 22 can be around both a respective lateral edges close to each other close to 6 direction of backing plate Rotation is placed when the first coating plate 21, the second coating plate 22 and 6 tiled arrangements of backing plate and in backing plate 6 after place protective film 20 When battery core 10, the first coating plate 21 and the second coating plate 22 rotate and protective film 20 are driven to fit in battery core 10；

Counterdie film coating mechanism 3, including counterdie push plate 31, counterdie push plate 31 are slidably arranged in the opposite sides of backing plate 6, and 2 Line between a counterdie push plate 31 is put perpendicular to the line between the first coating plate 21 and the second coating plate 22 when in backing plate 6 When setting battery core 10, counterdie push plate 31 stretches out the surface of backing plate 6 and protective film 20 is driven to fit in battery core 10；

The side towards chassis 1 of side form film coating mechanism 4, the first coating plate 21 and the second coating plate 22 is each equipped with side form Film coating mechanism 4, side form film coating mechanism 4 include two side form push plates 41, two side form push plates being connected on the first coating plate 21 41 distinguish corresponding with two counterdie push plates 31, and two side form push plates 41 being connected on the second coating plate 22 are pushed away with two counterdies Plate 31 is distinguished corresponding, and when the first coating plate 21 and the second coating plate 22 drive protective film 20 to be bonded with battery core 10, side form is pushed away Plate 41 is movable to battery core 10 and protective film 20 is driven to fit in battery core 10；

Protective film 20 is bonded set on the side of chassis 1 in the first coating plate 21 and the second coating plate 22 by fixed mechanism 5 Battery core 10 before to battery core 10 to fixed placement on backing plate 6.

Working principle: it should be noted that in fact, battery core 10 be usually cube, before wrapping protective film 20, battery core It needing to weld upper cover plate in advance on 10 side, 10 surface of battery core for being welded with cover board does not need packet protective film 20, therefore, It only needs to wrap protective film 20 to other five sides of battery core 10.The step of packaging protecting film 20 specifically: in advance will protection Film 20 tiles, and referring to Fig. 9, dotted line in figure is the folding line that the packet of protective film 20 is folded to the needs of battery core 10, and folding line is by protective film 20 It is divided into nine regions, for ease of description, the nine of protective film 20 corresponding labels in region will be illustrated.By battery core 10 The middle part for being placed in protective film 20, the 9th region 209 in as Fig. 9, at this point, the side that battery core 10 is contacted with protective film 20 For side corresponding with cover board, in the first coating plate 21, the second coating plate 22 and backing plate 6 in tiled arrangements, manipulator (not shown) grabs protective film 20 simultaneously and battery core 10 is put into together on the first coating plate 21, the second coating plate 22 and backing plate 6, By positioning so that battery core 10 is just fallen on the predeterminated position of backing plate 6, guarantee protective film 20 and battery core 10 are placed manipulator Relative position does not change when on to 10 coating device of battery core, at this time the first area 201 of protective film 20, second area 202 and Third region 203 is located on the first coating plate 21, and the fourth region 204, the 5th region 205 and the 6th region 206 are located at second On coating plate 22, District 7 domain 207, Section Eight domain 208 and the 9th region 209 are located on backing plate 6, and fixed mechanism 5 is to battery core 10 are fixed, and the first coating plate 21 and the second coating plate 22 rotate simultaneously to 6 direction of backing plate to drive protective film 20 later The fourth region 204 of 201 sum of first area is fitted in respectively on corresponding 10 side of battery core, at this point, being located at the first coating plate 21 and the lower section of the second coating plate 22 (referring to Fig. 1, for ease of description, lower section being known as towards the side of chassis 1 with backing plate 6) follow First coating plate 21 and the second coating plate 22 are turned to be horizontally disposed with backing plate 6, i.e., positioned at the opposite sides of backing plate 6 (referring to figure 6, Fig. 6 drive protective film 20 to fit to the status diagram in battery core 10 for the first coating plate 21 and the second coating plate 22)； After the completion of one coating plate 21 and the movement of the second coating plate 22, counterdie push plate 31 stretches out backing plate 6 and pushes the District 7 of protective film 20 Domain 207, Section Eight domain 208 are bonded the side corresponding with the two of battery core 10；After the completion of counterdie push plate 31 acts, the first coating Two side form push plates 41 of the side form film coating mechanism 4 of plate 21 are moved to 10 side of battery core simultaneously and push the second area of protective film 20 202, third region 203 is bonded with the side of battery core 10, and two side forms of the side form film coating mechanism 4 of the second coating plate 22 push away later Mobile 10 side of battery core of plate 41 simultaneously pushes the 5th region 205, the 6th region 206 of protective film 20 to be bonded with the side of battery core 10, wraps (referring to Fig. 7, Fig. 7 is the status diagram after side form push plate 41 pushes protective film 20 to be bonded with battery core 10) is completed in film movement.It needs It is noted that the side form push plate 41 of the first coating plate 21 pushes the of protective film 20 in the side form push plate 41 of the second coating plate 22 Original position is retracted in four regions 204, the 5th region 205 before being bonded with battery core 10.After the completion of protective film 20 is bonded, the of protective film 20 Two regions 202 are pushed down by the 5th region 205, and District 7 domain 207 is pushed down by second area 202 and the 5th region 205 simultaneously, third Region 203 is pushed down by the 6th region 206, and Section Eight domain 208 is pushed down by third region 203 and the 6th region 206, in this way second Under side form push plate 41 on coating plate 22 always compresses the 5th region 205 and the 6th region 206, entire protective film 20 not with Will not be loose before the cover board of battery core 10 is fixed, this state is kept later, and chassis 1 is moved integrally to next station to protective film 20 carry out hot melt fixation.

Precisely, coating precision is high for 10 coating device of a kind of battery core provided by the utility model, protective film 20 and battery contraposition, And gap is small between packaging film and battery core 10 after packing, and improves the quality of production of product.

Referring to fig. 2, specifically, the first coating plate 21 of direction of the side of the close backing plate 6 of the first coating plate 21 and backing plate 6 Side it is hinged, the side of the second coating plate 22 of direction of the side of the close backing plate 6 of the second coating plate 22 and backing plate 6 is hinged； Turnover mechanism 2 further includes the first driving mechanism 23, and the first driving mechanism 23 and the first coating plate 21, the second coating plate 22 1 are a pair of It answers, the first driving mechanism 23 is set to chassis 1, the first coating plate 21, second packet of the first driving mechanism 23 driving corresponding thereto Diaphragm plate 22 is rotated around the hinged place of itself and backing plate 6.Wherein, backing plate 6 deviates from away from the surface of chassis 1, the first coating plate 21 The surface of chassis 1 and the surface away from chassis 1 of the second coating plate 22 are respectively positioned in same plane in three's tiled arrangements. Guarantee the smooth and precise positioning of protective film 20 and the relative position of battery core 10, the accuracy of packaging after improving coating.

Further, the surface of the separate chassis 1 of backing plate 6 is equipped with limited block 61, when the first coating plate 21 and the second coating When the rotation of plate 22 drives protective film 20 to be bonded with battery core 10, limited block 61 is arranged along the first coating plate 21 and 22 straight line of the second coating plate The opposite sides of column direction is abutted against with the first coating plate 21, the second coating plate 22 respectively.Limited block 61 can be to the first coating Plate 21 and the second coating limit the two when rotating toward 6 direction of backing plate, avoid the first coating plate 21 and the second coating plate 22 inordinate rotations and cause hit battery core 10.In the present embodiment, backing plate 6 uses split settings, and further, backing plate 6 is by two A equal parts carry out setting arranged in a straight line, corresponding, and limited block 61 is arranged multiple, and multiple limited blocks 61 are arranged in backing plate 6 Close to the setting of the side of the first coating plate 21 and the second coating plate 22, using this design structure, the production convenient for backing plate 6 adds Work and installation.

Referring to Fig. 3, specifically, counterdie film coating mechanism 3 further includes second driving mechanism 32 matched with counterdie push plate 31, the Two driving mechanisms 32 are fixedly arranged on chassis 1 and are located at the lower section of backing plate 6, and counterdie push plate 31 is set to the driving of the second driving mechanism 32 End, backing plate 6 be equipped with the first clearance position 62, counterdie push plate 31 it is corresponding with the first clearance position 62 and can in the first clearance position 62 edge It is mobile perpendicular to 6 direction of backing plate.The flexible of counterdie push plate 31 is driven by the second driving mechanism 32, is hung down so that counterdie push plate 31 is past Directly when 6 direction of backing plate is mobile, the third region 203 of packaging film and the fourth region 204 are pushed by patch by the first clearance position 62 It closes in battery core 10.

Referring to fig. 4,5, specifically, side form film coating mechanism 4 further includes the first connecting plate 42, third driving mechanism 43, first Connecting plate 42 is fixed on the first coating plate 21, and third driving mechanism 43 is fixed on the separate first coating plate 21 of the first connecting plate 42 Side, the driving end of third driving mechanism 43 is equipped with the second connecting plate 44, side form push plate 41 be set to the second connecting plate 44 with The corresponding side of counterdie push plate 31, after the first coating plate 21 drives protective film 20 to be bonded with battery core 10, third driving machine Structure 43 drives the second connecting plate 44 mobile toward 10 direction of battery core, and side form push plate 41 pushes protective film 20 to be bonded with battery core 10.

When the first coating plate 21 rotates, and protective film 20 is driven to be fitted in battery core 10, the driving of third driving mechanism 43 second Connecting plate 44 drives the side form push plate 41 of two sides to move along 10 direction of battery core, and side form push plate 41 drives the second area of protective film 20 202 and third region 203 be bonded with the side of battery core 10.

Wherein, the first coating plate 21 position corresponding with side form push plate 41 is equipped with the second clearance position 211, when third drives When mechanism 43 drives the second connecting plate 44 mobile toward 21 direction of the first coating plate, side form push plate 41 may pass through the second clearance position 211 It is mobile toward 10 direction of battery core.

Further, side form film coating mechanism 4 further includes the 4th driving mechanism 45, and the second connecting plate 44 is being parallel to chassis 1 Side be slidably equipped with the first pinboard 46 and the second pinboard 47, side form push plate 41 is set to the first pinboard 46 and second turn The side that fishplate bar 47 is located remotely from each other, after side form push plate 41, which passes through the second clearance position 211, is moved to 10 side of battery core, 4 wheel driven Motivation structure 45 drives the first pinboard 46 and the second pinboard 47 close to each other or separate, and two side form push plates 41 can be second It is located remotely from each other in clearance position 211 or close to mobile.When side form push plate 41 pushes third region 203, the fourth region 204 to be bonded electricity When core 10, the 4th driving mechanism 45 drives the first rotor plate, the second rotor plate close to each other, and then drives and be set to the first rotor plate It is close to each other protective film 20 to be pressed in battery core 10 with the side form push plate 41 of the second rotor plate.

It is 4 structure of the side form film coating mechanism explanation being arranged on the first coating plate 21 above, the side on the second coating plate 22 The structure and mounting means of membrane envelope mechanism 4 are consistent with the mounting means of the first coating plate 21, and details are not described herein.

It should be noted that the side form coating on side form film coating mechanism 4 and the second coating plate 22 on the first coating plate 21 In work, there are sequencings for mechanism 4, therefore two side forms on the first coating plate 21 or on the second coating plate 22 The needs of push plate 41 are located remotely from each other or close to being in order to avoid the side form push plate 41 of the first coating plate 21 and second push away diaphragm plate dynamic As when there is interference problem.Specifically: after the side form push plate 41 on the first coating plate 21 has acted, on the second coating plate 22 Side form push plate 41 carry out movement move on to battery side drive protective film 20 the 5th region 205 and the 6th region 206 fitting Onto battery core 10, at this point, the second coating plate 22 side form push plate 41 it is close to each other with by protective film 20 be pressed on battery core 10 it Before, the side form push plate 41 of the first coating plate 21 is located remotely from each other to retract original position, the side form of the second coating plate 22 after unclamping battery core 10 Push plate 41 is close to each other to compress protective film 20 again, and entire coating movement is completed.Wherein, two side forms of the first coating plate 21 push away Moving distance close to each other or separate between plate 41 is less than the phase between two side form push plates 41 of the second coating plate 22 Mutually close or separate moving distance can guarantee that the side form push plate 41 of the second coating plate 22 is being located at by battery core 10 in this way When, two side form push plates 41 of the first coating plate 21 will not generate interference when unclamping battery core 10.

Specifically, the second connecting plate 44 is equipped with the first guide rail 441 and the second guide rail 442, between the two is on same straight line Every arrangement, and the straight line drives moving rail trace to be vertically arranged with the second connecting plate 44 by third driving mechanism 43, and first leads Rail 441 is slidably matched with the first pinboard 46, and the second guide rail 442 is slidably matched with the second pinboard 47, and the second connecting plate 44 exists The first rotating block 481,481 middle part of the first rotating block and the second connecting plate 44 are equipped between first guide rail 441 and the second guide rail 442 Hingedly, the first pinboard 46 is equipped with the second rotating block 482, and one end of the second rotating block 482 is articulated with the first pinboard 46, separately One end and one end of the first rotating block 481 are hinged, and the second pinboard 47 is equipped with third rotating block 483, third rotating block 483 One end is articulated with the second pinboard 47, the separate one end hinge hinged with the second rotating block 482 of the other end and the first rotating block 481 It connects, the 4th driving mechanism 45 is fixed on the first pinboard 46 or the second pinboard 47, and driving end drives the second pinboard 47 move or the first pinboard 46 is moved along the first guide rail 441 along the second guide rail 442, and the first rotating block 481 drives first turn Fishplate bar 46 is synchronize located remotely from each other or close with the second pinboard 47.

Referring to Fig. 8, fixed mechanism 5 includes support frame 51, and support frame 51 is set to the side of chassis 1, the top of support frame 51 Equipped with the 5th driving mechanism 52, the opposite two sides of the 5th driving mechanism 52 have driving end, driving end be equipped with gripping block 53, the 5th Two gripping blocks 53 of the driving of driving mechanism 52 are located remotely from each other or close, clamping and release with realization to battery core 10.It is fixed Mechanism 5 is clamped fixation when placing battery core 10, to battery core 10, avoids battery core 10 mobile, when the first coating plate 21 and second Coating plate 22 rotates and when protective film 20 being driven to fit in battery core 10, at this time the first coating plate 21 and the second coating plate 22 incited somebody to action Battery core 10 is fixedly clamped, and the 5th driving mechanism 52 drives gripping block 53 to unclamp battery core 10, to guarantee subsequent 31 He of counterdie push plate Side form push plate 41 can be acted smoothly and protective film 20 is fitted in battery core 10.

Referring to fig. 2, specifically, the first coating plate 21 and the second coating plate 22 are equipped with several mounting holes 7, each mounting hole It is provided with adsorption piece 8 in 7, when the first coating plate 21, the second coating plate 22 and backing plate 6, which tile, places protective film 20, inhales Protective film 20 can be adsorbed and be fixed by attachment 8.

In the present embodiment, adsorption piece 8 can use sucker.

The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all practical at this Made any modifications, equivalent replacements, and improvements etc., should be included in the guarantor of the utility model within novel spirit and principle Within the scope of shield.

Claims (10)

1. a kind of battery core coating device characterized by comprising

Chassis (1)；

Turnover mechanism (2), including the first coating plate (21) and the second coating plate (22), the first coating plate (21) and described Second coating plate (22) is arranged in a straight line and is spaced set on the chassis (1), the first coating plate (21) and second packet The backing plate (6) for placing battery core, the first coating plate (21) and the second coating plate (22) are equipped between diaphragm plate (22) Can be rotated around both a respective lateral edge close to each other close to the backing plate (6) direction, when the first coating plate (21), The second coating plate (22) and the backing plate (6) tiled arrangements simultaneously place and place battery core in the backing plate (6) after protective film When, the first coating plate (21) and the second coating plate (22) rotate and protective film are driven to fit in battery core；

Counterdie film coating mechanism (3), including counterdie push plate (31), the counterdie push plate (31) are slidably arranged in the backing plate (6) Opposite sides, the line between 2 counterdie push plates (31) is perpendicular to the first coating plate (21) and second packet Line between diaphragm plate (22), when the backing plate (6) place battery core, the counterdie push plate (31) stretches out the backing plate (6) Surface and drive protective film to fit in the battery core；

Side form film coating mechanism (4), the first coating plate (21) and the second coating plate (22) towards the chassis (1) Side is each equipped with the side form film coating mechanism (4), and the side form film coating mechanism (4) includes two side form push plates (41), connection Two side form push plates (41) and two counterdie push plates (31) on the first coating plate (21) are corresponding respectively, Two be connected on the second coating plate (22) the side form push plate (41) and two counterdie push plates (31) difference phases It is corresponding, it is described when the first coating plate (21) and the second coating plate (22) drive protective film are bonded with the battery core Side form push plate (41) is movable to the battery core and protective film is driven to fit in the battery core；

Fixed mechanism (5) is set to the side of the chassis (1), in the first coating plate (21) and the second coating plate (22) protective film is conformed to the battery core before battery core to fixed placement on the backing plate (6).

2. battery core coating device according to claim 1, which is characterized in that the first coating plate (21) close to described The side of backing plate (6) and the side towards the first coating plate (21) of the backing plate (6) are hinged, the second coating plate (22) side of close the backing plate (6) and the side towards the second coating plate (22) of the backing plate (6) are hinged；

The turnover mechanism (2) further includes the first driving mechanism (23), first driving mechanism (23) and first coating Plate (21), the second coating plate (22) correspond, and first driving mechanism (23) is set to the chassis (1), and described the One driving mechanism (23) driving the first coating plate (21) corresponding thereto, the second coating plate (22) are around itself and the backing plate (6) hinged place rotation.

3. battery core coating device according to claim 1, which is characterized in that the backing plate (6) deviates from the chassis (1) Surface, the first coating plate (21) deviate from the surface of the chassis (1) and deviating from for the second coating plate (22) The surface of the chassis (1) is respectively positioned in same plane in three's tiled arrangements.

4. battery core coating device according to claim 2 or 3, which is characterized in that the separate chassis of the backing plate (6) (1) surface is equipped with limited block (61), when the first coating plate (21) and the second coating plate (22) rotation drive protection When film is bonded with battery core, the limited block (61) is arranged in a straight line along the first coating plate (21) and the second coating plate (22) The opposite sides in direction is abutted against with the first coating plate (21), the second coating plate (22) respectively.

5. battery core coating device according to claim 2, which is characterized in that the counterdie film coating mechanism (3) further include with Matched second driving mechanism (32) of the counterdie push plate (31), second driving mechanism (32) are fixedly arranged on the chassis (1) And it is located at the lower section of the backing plate (6), the counterdie push plate (31) is set to the driving end of second driving mechanism (32), described Backing plate (6) is equipped with the first clearance position (62), and the counterdie push plate (31) is corresponding with the first clearance position (62) and can be in institute It states in the first clearance position (62) along mobile perpendicular to the backing plate (6) direction.

6. battery core coating device according to claim 1, which is characterized in that the side form film coating mechanism (4) further includes One connecting plate (42), third driving mechanism (43), first connecting plate (42) is fixed on the first coating plate (21), described Third driving mechanism (43) is fixed on the side far from the first coating plate (21) of first connecting plate (42), and described the The driving end of three driving mechanisms (43) is equipped with the second connecting plate (44), and the side form push plate (41) is set to second connecting plate (44) side corresponding with counterdie push plate (31), when the first coating plate (21) drives protective film to be bonded with the battery core Later, the third driving mechanism (43) drives second connecting plate (44) mobile toward battery core direction, the side form push plate (41) protective film is pushed to be bonded with battery core.

7. battery core coating device according to claim 6, which is characterized in that the first coating plate (21) and the side form The corresponding position of push plate (41) is equipped with the second clearance position (211), when the third driving mechanism (43) driving described second connects When fishplate bar (44) is mobile toward the first coating plate (21) direction, the side form push plate (41) may pass through second clearance position (211) mobile toward the battery core direction.

8. battery core coating device according to claim 7, which is characterized in that the side form film coating mechanism (4) further includes Four driving mechanisms (45), second connecting plate (44) are slidably equipped with the first switching in the side for being parallel to the chassis (1) Plate (46) and the second pinboard (47), the side form push plate (41) are set to first pinboard (46) and second pinboard (47) side being located remotely from each other is moved to battery core side when the side form push plate (41) passes through second clearance position (211) Afterwards, the 4th driving mechanism (45) drive first pinboard (46) and second pinboard (47) it is close to each other or Separate, two side form push plates (41) can be located remotely from each other or close to mobile in second clearance position (211).

9. battery core coating device according to claim 1, which is characterized in that the fixed mechanism (5) includes support frame (51), support frame as described above (51) is set to the side of the chassis (1), and the top of support frame as described above (51) is equipped with the 5th driving mechanism (52), the opposite two sides of the 5th driving mechanism (52) have driving end, and the driving end is equipped with gripping block (53), and described the Five driving mechanisms (52), two gripping blocks (53) of driving are located remotely from each other or close, clamping and pine with realization to battery core It opens.

10. battery core coating device according to claim 1, which is characterized in that the first coating plate (21) and described Two coating plates (22) are equipped with several mounting holes (7), are provided with adsorption piece (8) in each mounting hole (7), when described the When protective film is placed in one coating plate (21), the second coating plate (22) and the backing plate (6) tiling, the adsorption piece (8) The protective film can be adsorbed and be fixed.