CN219998260U - Rubberizing mechanism and automatic rubberizing device that is just glued in positive and negative - Google Patents

Abstract

The utility model provides a rubberizing mechanism and an automatic rubberizing device for both sides, wherein the rubberizing mechanism comprises: the base, the third sucking disc, rotate drive assembly and be used for driving the third sucking disc lateral shifting and longitudinal movement in order to be close to the displacement drive assembly of offset paper on the base, displacement drive assembly sets up on the base, displacement drive assembly is connected with the drive of rotation drive assembly, rotates drive assembly and third sucking disc drive and is connected, and the third sucking disc rotates and sets up on displacement drive assembly. After positive and negative glue is formed through rotation of the third sucker, the displacement driving assembly drives the third sucker to longitudinally move to be close to the pole piece material roll, the third sucker is rotated after the third sucker is in place, the displacement driving assembly drives the third sucker to transversely move to be close to the pole piece material roll, and glue on the third sucker is arranged on the pole piece material roll. Therefore, the positive and negative glue is prepared and stuck mainly through the movement of the third sucker, the flowing parts of the gummed paper are effectively reduced, the structure is more simplified, and the mechanism is smaller in size.

Description

Rubberizing mechanism and automatic rubberizing device that is just glued in positive and negative

Technical Field

The utility model relates to a rubberizing device, in particular to a rubberizing mechanism and an automatic rubberizing device for both sides.

Background

The battery mainly comprises positive plate, negative plate, diaphragm, etc. the plate is rolled and unreeled by the plate rolling barrel, the material rolling is needed to be butt jointed after the material rolling is used, the head and tail parts of the plate are needed to be connected in the butt jointing process, and before the connection operation of the new and old plate is carried out, the bar code adhesive paper of the new plate rolling is needed to be torn off from the rolled material for the equipment to continue to operate. The rubberizing mode of tradition is generally accomplished through supplying rubberizing mechanism, transport mechanism, bale splitter and rubberizing mechanism mutually supporting, and mainly carries out the preparation and the pasting of positive and negative rubberizing through rubberizing mechanism, but when rubberizing mechanism work, needs rubberizing subassembly and viscose subassembly to work respectively, like this, the gummed paper needs to process through rubberizing subassembly and viscose subassembly in proper order for rubberizing mechanism's structure is comparatively complicated, and the volume that takes up is great.

Disclosure of Invention

The utility model provides the rubberizing mechanism and the automatic rubberizing device, which aim to overcome the defects that the rubberizing mechanism is complex in structure and large in occupied volume because the rubberizing assembly and the viscose assembly are required to work respectively when the rubberizing mechanism works, and thus, the gumming paper is required to be processed through the rubberizing assembly and the viscose assembly in sequence.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a rubberizing mechanism comprising: the base, third sucking disc, rotation drive assembly and be used for driving the third sucking disc is in lateral shifting and longitudinal movement are in order to be close to the displacement drive assembly of offset paper on the base, displacement drive assembly sets up on the base, displacement drive assembly with rotation drive assembly drive connection, rotation drive assembly with third sucking disc drive connection, third sucking disc rotates and sets up on the displacement drive assembly.

In one embodiment, the third sucker is provided with a vacuum surface and a mounting surface, the vacuum surface and the mounting surface are arranged away from each other, and an auxiliary roller is rotatably arranged on the mounting surface.

In one embodiment, the displacement driving assembly comprises a transverse plate, a transverse driver, a longitudinal plate and a longitudinal driver, wherein the transverse plate is arranged on the base in a sliding manner, the transverse driver is arranged on the base, the transverse driver is in driving connection with the transverse plate, the longitudinal plate is arranged on the transverse plate in a sliding manner, the longitudinal driver is arranged on the transverse plate, the longitudinal driver is in driving connection with the longitudinal plate, and the rotation driving assembly is arranged on the longitudinal plate.

The automatic positive and negative glue pasting device comprises the glue pasting mechanism for forming positive and negative glue and pasting the positive and negative glue on the pole piece material roll, a side plate, a first sucker, a second sucker, a cutting mechanism for cutting off glue paper at two ends of the second sucker and a pulling mechanism for pulling the glue paper on the first sucker to the glue pasting mechanism;

the first sucking disc and the second sucking disc are arranged on the side plate in parallel, the pulling and conveying mechanism and the cutting mechanism are arranged on the side plate, the base is arranged on the side plate, and the third sucking disc and the second sucking disc are movably arranged in parallel.

In one embodiment, the pulling and conveying mechanism comprises a wire rail connecting seat, a rail seat, a guide rail, a roller used for driving the gummed paper to pass from the first sucker to the third sucker, a lifting driver used for driving the roller to pass close to the gummed paper on the first sucker, and a pulling and conveying driving assembly used for driving the roller to pass from the first sucker to the third sucker, wherein the rail seat is arranged on the side plate, the guide rail is arranged on the rail seat, the wire rail connecting seat is slidably arranged on the guide rail, the pulling and conveying driving assembly is arranged on the side plate, the pulling and conveying driving assembly is in driving connection with the wire rail connecting seat, the lifting driver is arranged on the wire rail connecting seat, and the lifting driver is in driving connection with the roller.

In one embodiment, the pulling and conveying mechanism comprises a connecting block, the output end of the lifting driver is connected with the connecting block, a fixed block and a supporting driver are arranged on the connecting block, a rotating hole is formed in the fixed block, the passing roller is rotatably arranged in the rotating hole, a through hole is formed in the side wall of the rotating hole, and the output end of the supporting driver is inserted into the through hole and is movably abutted to the passing roller.

In one embodiment, the pulling mechanism comprises a connecting block, the output end of the lifting driver is connected with the connecting block, a motor is arranged on the connecting block, and the motor is in driving connection with the roller.

In one embodiment, the cutting mechanism comprises a mounting and retaining plate, a cutting unit for cutting off the gummed paper at two ends of the second sucker, and a pressing unit for pressing the gummed paper so that the cutting unit cuts off the gummed paper, the cutting unit comprises a cutting driver, a fixing plate and two cutters, the mounting and retaining plate is arranged on the side plate, the fixing plate is arranged on the mounting and retaining plate in a sliding manner, the fixing plate is arranged adjacent to the pressing unit, the cutting driver is arranged on the mounting and retaining plate, the output end of the cutting driver is connected with the fixing plate, and the two cutters are arranged on the fixing plate.

In one embodiment, the pressing unit includes a pressing driver, a mounting plate and a pressing block, the pressing driver is disposed on the mounting and retaining plate, an output end of the pressing driver is connected with the mounting plate, the mounting plate is slidably disposed on the mounting and retaining plate, the mounting plate is disposed adjacent to the fixing plate, and the pressing block is disposed on the mounting plate.

In one embodiment, the device further comprises an unreeling mechanism, the unreeling mechanism comprises an unreeling plate, glue containing rollers, winding rollers, tensioning drivers and compacting blocks, the unreeling plate is arranged on the side plates, the glue containing rollers are arranged on the unreeling plate, the winding rollers are rotatably arranged on the unreeling plate, the winding rollers are located below the glue containing rollers, the tensioning drivers are arranged on the unreeling plate, the tensioning drivers are in driving connection with the compacting blocks, and the compacting blocks are located above the winding rollers.

Compared with the prior art, the beneficial effects are that: the adhesive paper has viscosity, the external mechanism is arranged in parallel with the third sucker, part of adhesive paper is arranged on the external mechanism, the third sucker is driven by the rotation driving assembly to rotate 180 degrees clockwise, the adhesive paper on the third sucker can be adhered to the adhesive paper on the external mechanism to form positive and negative adhesives, namely, after the third sucker rotates 180 degrees, the adhesive paper below the third sucker has viscosity, the adhesive paper above the external mechanism also has viscosity, two sections of adhesive paper can be adhered together to form positive and negative adhesives, the third sucker is driven by the displacement driving assembly to longitudinally approach the pole piece material roll, namely, to move forward to approach the pole piece material roll, to rotate the third sucker clockwise by 90 degrees after being in place, and then the third sucker is driven by the displacement driving assembly to transversely approach the pole piece material roll, namely, to move towards the left side or the right side to approach the pole piece material roll, so that the adhesive paper on the third sucker can be installed on the pole piece material roll. Therefore, the positive and negative glue can be prepared and pasted mainly through the movement of the third sucker, the flowing-through parts of the gummed paper are effectively reduced, the structure is more simplified, the mechanism is smaller in size, and the matching effect is better.

Drawings

FIG. 1 is a schematic diagram of an automatic positive and negative adhesive applying device;

FIG. 2 is a schematic view of a part of the structure of the automatic positive and negative glue applying device;

FIG. 3 is a schematic view of the structure of the pulling mechanism on the side plate;

FIG. 4 is a schematic view of the structure of the pulling mechanism on the side plate;

FIG. 5 is a schematic view of the structure of the cutting mechanism;

FIG. 6 is a schematic structural view of the rubberizing mechanism;

FIG. 7 is a schematic view of the unreeling mechanism;

FIG. 8 is a schematic diagram of the structure of the rubberizing mechanism with the third sucker rotating to press the gummed paper to form the positive and negative rubberizing;

FIG. 9 is a schematic diagram of a third suction cup in the rubberizing mechanism rotating to drive the positive and negative adhesives to a predetermined position;

fig. 10 is a schematic structural view of the third suction cup in the rubberizing mechanism for attaching the positive and negative adhesives to the pole piece material roll.

10. A positive and negative glue pasting device automatically; 100. a side plate; 110. a first suction cup; 120. a second suction cup; 200. a pulling and conveying mechanism; 210. a wire rail connecting seat; 220. a track seat; 230. a guide rail; 240. a lifting driver; 250. passing through a roller; 251. an anti-skid sleeve; 260. a pull-feed drive assembly; 261. a screw rod; 262. a synchronous belt; 270. a connecting block; 271. a fixed block; 272. a holding driver; 300. a cutting mechanism; 310. installing a retention plate; 320. a cutting unit; 321. cutting off the driver; 322. a fixing plate; 323. a cutter; 330. a pressing unit; 331. a push-down driver; 332. a mounting plate; 333. briquetting; 400. a rubberizing mechanism; 410. a third suction cup; 411. vacuum surface; 412. a mounting surface; 413. an auxiliary roller; 420. a base; 430. a rotary drive assembly; 440. a displacement drive assembly; 441. a cross plate; 442. a lateral driver; 443. a longitudinal plate; 444. a longitudinal driver; 500. an unreeling mechanism; 510. placing a glue plate; 520. a glue containing roller; 530. a winding roller; 540. a tensioning drive; 550. and (5) compacting the block.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent; for the purpose of better illustrating the embodiments, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the actual product dimensions; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationship depicted in the drawings is for illustrative purposes only and is not to be construed as limiting the present patent.

The same or similar reference numbers in the drawings of embodiments of the utility model correspond to the same or similar components; in the description of the present utility model, it should be understood that, if there are orientations or positional relationships indicated by terms "upper", "lower", "left", "right", "long", "short", etc., based on the orientations or positional relationships shown in the drawings, this is merely for convenience in describing the present utility model and simplifying the description, and is not an indication or suggestion that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, so that the terms describing the positional relationships in the drawings are merely for exemplary illustration and are not to be construed as limitations of the present patent, and that it is possible for those of ordinary skill in the art to understand the specific meaning of the terms described above according to specific circumstances. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The "vertical" is not strictly vertical but is within the allowable error range. "parallel" is not strictly parallel but is within the tolerance of the error.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and for example, the particular relationship represented may be either fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. It will be understood by those of ordinary skill in the art that the specific meaning of the terms described above in this disclosure may be understood as appropriate.

The technical scheme of the utility model is further specifically described by the following specific embodiments with reference to the accompanying drawings:

example 1

In this embodiment, as shown in fig. 6, a rubberizing mechanism 400 is provided, which includes a base 420, a third suction cup 410, a rotation driving assembly 430 and a displacement driving assembly 440 for driving the third suction cup 410 to move transversely and longitudinally on the base 420 so as to approach to the gummed paper, wherein the displacement driving assembly 440 is disposed on the base 420, the displacement driving assembly 440 is in driving connection with the rotation driving assembly 430, the rotation driving assembly 430 is in driving connection with the third suction cup 410, and the third suction cup 410 is rotatably disposed on the displacement driving assembly 440.

Specifically, the adhesive tape has viscosity, the external mechanism is arranged in parallel with the third sucker 410, part of adhesive tape is arranged on the external mechanism, part of adhesive tape is arranged on the third sucker 410, the third sucker 410 is driven to rotate clockwise by 180 degrees through the rotation driving assembly 430, so that the adhesive tape on the third sucker 410 can be adhered to the adhesive tape on the external mechanism to form positive and negative adhesives, namely, after the third sucker 410 rotates 180 degrees, the adhesive tape below the third sucker 410 has viscosity, the adhesive tape above the external mechanism also has viscosity, two sections of adhesive tape can be adhered together to form positive and negative adhesives, the third sucker 410 is driven to longitudinally approach the pole piece material roll through the displacement driving assembly 440, namely, to move forward to approach the pole piece material roll, and after the third sucker 410 is in place, the third sucker 410 is driven to transversely approach the pole piece material roll through the displacement driving assembly 440, namely, to move towards the left side or the right side to approach the pole piece material roll, so that the adhesive tape on the third sucker 410 can be installed on the pole piece material roll. Thus, the preparation and the adhesion of the positive and negative adhesives can be realized mainly through the movement of the third sucker 410, the flowing parts of the gummed paper are effectively reduced, the structure is more simplified, the mechanism volume is smaller, and the matching effect is better. Wherein, rotate drive assembly 430 includes sucking disc mount pad, motor and gear, and displacement drive assembly 440 is connected with sucking disc mount pad drive, and the motor mount pad sets up on the sucking disc mount pad, and the motor setting is on the motor mount pad, and the output and the gear drive of motor are connected, and the gear rotates with third sucking disc 410 and sets up on the sucking disc mount pad, and the gear passes through the transfer line and is connected with the transmission of third sucking disc 410. The motor is connected with the gear in a transmission manner, and the gear drives the third sucker 410 to rotate through the transmission rod, which is known to those skilled in the art and can be implemented, and in this embodiment, a redundant description is not needed.

In order to facilitate the better adhesion of the positive and negative adhesive to the web pole roll, as shown in fig. 6, in this embodiment, the third suction cup 410 has a vacuum surface 411 and a mounting surface 412, where the vacuum surface 411 and the mounting surface 412 are disposed away from each other, and an auxiliary roller 413 is rotatably disposed on the mounting surface 412.

Specifically, the auxiliary roller 413 is used for compressing positive and negative glue adhered to the web pole roll, the auxiliary roller 413 comprises a rotating roller, a rotating rod and two vertical plates, the two vertical plates are oppositely arranged on the mounting surface 412, rotating holes are formed in the two vertical plates, two ends of the rotating rod are respectively arranged in the rotating holes in a rotating mode, the rotating roller is sleeved on the rotating rod, and the cross section of the rotating roller is square, fan-shaped or round. After the gummed paper on the third sucker 410 is mounted on the pole piece roll, as shown in fig. 10, the third sucker 410 is driven to rotate anticlockwise by the rotation driving assembly 430, so that the auxiliary roller 413 is abutted against the gummed paper, and the auxiliary roller 413 can compress the gummed paper by rotating the pole piece roll, so that the positive and negative gumming is firmer.

To facilitate driving the displacement of the third suction cup 410, as shown in fig. 6, in this embodiment, the displacement driving assembly 440 includes a transverse plate 441, a transverse driver 442, a longitudinal plate 443, and a longitudinal driver 444, wherein the transverse plate 441 is slidably disposed on the base 420, the transverse driver 442 is disposed on the base 420, and the transverse driver 442 is in driving connection with the transverse plate 441, the longitudinal plate 443 is slidably disposed on the transverse plate 441, the longitudinal driver 444 is disposed on the transverse plate 441, and the longitudinal driver 444 is in driving connection with the longitudinal plate 443, and the rotation driving assembly 430 is disposed on the longitudinal plate 443.

Specifically, the transverse plate 441 is slidably disposed on the base 420 in a manner of matching the sliding rail with the sliding block, the vertical plate 443 is slidably disposed on the transverse plate 441 in a manner of matching the sliding rail with the sliding block, and the suction cup mounting seat is disposed on the vertical plate 443. After the positive and negative glue is formed, the longitudinal plate 443 is driven by the longitudinal driver 444 to longitudinally approach the pole piece roll, and after the third sucker 410 is rotated 90 degrees clockwise, the transverse plate 441 is driven by the transverse driver 442 to transversely approach the glue paper roll, so that glue paper on the third sucker 410 can be abutted against the pole piece roll, and the glue paper can be mounted on the pole piece roll. The transverse driver 442 and the longitudinal driver 444 are both configured as air cylinders, and the air cylinders drive the transverse plate 441 to slide on the base 420 and the air cylinders drive the longitudinal plate 443 to slide on the transverse plate 441, which are known to those skilled in the art and can be implemented, and are not described in detail in this embodiment.

Example 2

As shown in fig. 1 and 6, an automatic positive and negative glue attaching device 10 is provided, including the glue attaching mechanism for forming positive and negative glue and attaching positive and negative glue to a pole piece roll according to embodiment 1, further including: a side plate 100, a first sucking disc 110, a second sucking disc 120, a cutting mechanism 300 for cutting off the gummed paper at two ends of the second sucking disc 120, and a pulling mechanism 200 for pulling the gummed paper on the first sucking disc 110 to the rubberizing mechanism 400; the first suction cup 110 and the second suction cup 120 are arranged on the side plate 100 in parallel, the pulling mechanism 200 and the cutting mechanism 300 are arranged on the side plate 100, the base 420 is arranged on the side plate 100, and the third suction cup 410 and the second suction cup 120 are movably arranged in parallel.

Specifically, a clamping groove is formed in the side plate 100, the first suction cup 110 and the second suction cup 120 are arranged on the first surface of the side plate 100 in parallel, the first suction cup 110 and the second suction cup 120 are located in the middle of the side plate 100, the pulling and conveying mechanism 200 is located on one side of the first suction cup 110, the cutting mechanism 300 is located above the second suction cup 120, the base 420 is connected with the side wall of the clamping groove, and the third suction cup 410 and the second suction cup 120 are arranged in parallel in an initial state.

It should be noted that, in the initial state, the third suction cup 410 is arranged in parallel with the second suction cup 120, when in first use, the gummed paper is manually pulled onto the first suction cup 110, and the gummed paper on the first suction cup 110 is stuck by the pulling and feeding mechanism 200, so that the pulling and feeding mechanism 200 can convey the gummed paper on the first suction cup 110 onto the third suction cup 410, then the gummed paper at two ends of the second suction cup 120 is cut off by the cutting mechanism 300, so that part of gummed paper is arranged on the second suction cup 120, part of gummed paper is arranged on the third suction cup 410, and then as shown in fig. 8, the third suction cup 410 is driven by the rotation driving component 430 to rotate 180 degrees clockwise, so that part of gummed paper on the third suction cup 410 can be stuck with part of gummed paper on the second suction cup 120 to form positive and negative glue, that is, after the third suction cup 410 rotates 180 °, the adhesive paper below the third suction cup 410 has viscosity, the adhesive paper above the second suction cup 120 also has viscosity, the two sections of adhesive paper can be adhered together to form positive and negative adhesives, the third suction cup 410 is driven by the displacement driving assembly 440 to longitudinally approach the pole piece material roll, that is, to move forward to approach the pole piece material roll, after that, as shown in fig. 8 to 9, the third suction cup 410 is rotated 90 ° clockwise, and the third suction cup 410 is driven by the displacement driving assembly 440 to transversely approach the pole piece material roll, that is, to move towards the left side or the right side to approach the pole piece material roll, so that the adhesive paper on the third suction cup 410 can be mounted on the pole piece material roll. In this way, the adhesive paper is cut off and the positive and negative adhesive is formed by the mutual matching of the pulling mechanism 200, the cutting mechanism 300 and the adhesive sticking mechanism 400, and the positive and negative adhesive is stuck on the pole piece material roll. The automatic operation of positive and negative glue is effectively realized, and the processing efficiency is improved. And after the gummed paper is pulled out from the feeding end mechanism, the gummed paper only needs to flow from the first sucker 110 to the third sucker 410, and the preparation and the adhesion of positive and negative glues can be realized mainly through the movement of the third sucker 410, so that the flowing-through components of the gummed paper are effectively reduced, the structure is more simplified, the volume of the whole device is smaller, and the matching effect is better.

In order to facilitate pulling the adhesive paper from the first suction cup 110 to the third suction cup 410, as shown in fig. 2, 3 and 4, in this embodiment, the pulling mechanism 200 includes a wire rail connecting seat 210, a rail seat 220, a guide rail 230, a roller 250 for driving the adhesive paper from the first suction cup 110 to the third suction cup 410, a lifting driver 240 for driving the roller 250 to approach the adhesive paper on the first suction cup 110, and a pulling driving assembly 260 for driving the roller 250 from the first suction cup 110 to the third suction cup 410, the rail seat 220 is disposed on the side plate 100, the rail 230 is disposed on the rail seat 220, the wire rail connecting seat 210 is slidably disposed on the rail 230, the pulling driving assembly 260 is disposed on the side plate 100, the pulling driving assembly 260 is in driving connection with the wire rail connecting seat 210, the lifting driver 240 is disposed on the wire rail connecting seat 210, and the lifting driver 240 is in driving connection with the roller 250.

Specifically, the track base 220 is disposed on the first surface of the side plate 100, the guide rail 230 is disposed on the surface of the track base 220 away from the side plate 100, the bottom of the wire rail connecting base 210 is provided with a slider, and the slider is matched with the guide rail 230, so that the wire rail connecting base 210 is slidably disposed on the guide rail 230, and the pulling driving assembly 260 is disposed on the first surface of the side plate 100. In the initial state, the over-roller 250 is located above the first suction cup 110, after the adhesive paper reaches the first suction cup 110, the lifting driver 240 drives the over-roller 250 to approach and press the adhesive paper, so that the adhesive surface of the adhesive paper can be adhered to the over-roller 250, then the wire rail connecting seat 210 is driven by the pulling driving assembly 260 to move towards the direction approaching the third suction cup 410, namely, the wire rail connecting seat 210 slides towards the left direction, so that the over-roller 250 drives the adhesive paper to reach the third suction cup 410 from the first suction cup 110, after the third suction cup 410 sucks the adhesive paper, the pulling driving assembly 260 drives the over-roller 250 to move towards the left side continuously, so that the adhesive paper can move forwards for a certain distance relative to the second suction cup 120 until the adhesive paper is adhered to the over-roller 250, after the adhesive paper is cut off by the cutting mechanism 300, the lifting driver 240 drives the over-roller 250 to move upwards, thus avoiding influencing the subsequent processing, and after the subsequent processing is completed, the pulling driving assembly 260 drives the over-roller 250 to restore to the original position. The lifting driver 240 is configured as an air cylinder, the pull driving assembly 260 includes a motor, a synchronous belt 262 and a screw rod 261, the wire rail connecting seat 210 is connected with the screw rod 261, the screw rod 261 rotates synchronously with the motor through the synchronous belt 262, the motor and the screw rod 261 are both disposed on the first surface of the side plate 100, the air cylinder drives the roller 250 to move up and down, and the motor drives the wire rail connecting seat 210 to slide on the guide rail 230 through the screw rod 261, which is known by those skilled in the art and can be realized, and no redundant description is made in the embodiment.

In order to facilitate the pulling and feeding of the gummed paper by the roller 250, as shown in fig. 2, 3 and 4, in this embodiment, the pulling and feeding mechanism 200 includes a connection block 270, an output end of the lifting driver 240 is connected with the connection block 270, a fixing block 271 and a supporting driver 272 are disposed on the connection block 270, a rotation hole is disposed on the fixing block 271, the roller 250 is rotatably disposed in the rotation hole, a through hole is disposed on a side wall of the rotation hole, and an output end of the supporting driver 272 is inserted into the through hole and movably abuts against the roller 250.

Specifically, the shape of the rotation hole is adapted to the shape of the passing roller 250, so that the passing roller 250 can just rotate in the rotation hole without being separated from the rotation hole, and the shape of the through hole is adapted to the shape of the output end of the holding driver 272, and the holding driver 272 is used to hold the passing roller 250 to limit the rotation of the passing roller 250. After the lifting driver 240 drives the connecting block 270 to move so as to drive the over roller 250 to approach and press the adhesive paper, the pulling driving component 260 drives the over roller 250 to move in a direction far away from the third sucker 410, namely, the pulling driving component 260 moves rightwards, so that the over roller 250 rotates in the rotating hole, the contact area between the adhesive surface of the adhesive paper and the over roller 250 is larger, the adhesive surface of the adhesive paper can be better adhered to the over roller 250, the output end of the supporting driver 272 supports against the over roller 250, the rotation of the over roller 250 is limited, the adhesive paper can be effectively prevented from falling due to rotation in the moving process, the adhesive paper is driven by the pulling driving component 260 to reach the third sucker 410 from the first sucker 110, the output end of the supporting driver 272 is far away from the over roller 250 after the adhesive paper is sucked by the third sucker 410, the over roller 250 can rotate in the rotating hole, the adhesive paper is driven by the pulling driving component 260 to continue to move leftwards, the adhesive paper is enabled to move forwards for a certain distance, and the adhesive paper is adhered to the over roller 250 through the rotation of the sucking force of the sucker and the over roller 250, and the adhesive paper is cut off through the cutting mechanism 300. The abutting driver 272 is configured as an air cylinder, and the manner in which the output end of the air cylinder abuts against the roller 250 is known to those skilled in the art, and may be implemented, which is not described in detail in this embodiment.

Further, an anti-slip sleeve 251 is disposed on the roller 250, and a plurality of grooves are formed on the anti-slip sleeve 251.

Specifically, the anti-slip sleeve 251 is used for being sleeved on the outer side surface of the roller 250, and the anti-slip sleeve 251 is provided with the grooves, so that the contact area of the adhesive tape and the anti-slip sleeve 251 is reduced, the overlarge contact area of the adhesive tape and the anti-slip sleeve 251 is effectively avoided, the adhesive tape is prevented from being tightly stuck on the anti-slip sleeve 251 due to strong viscosity of the adhesive tape, the adhesive tape is convenient to separate from the roller 250, the adhesive tape can be prevented from being damaged due to large pulling force when the adhesive tape is separated from the roller 250, and the practicability of the automatic adhesive tape sticking and reversing device 10 is effectively improved.

In order to facilitate the cutting mechanism 300 to cut the adhesive paper at both ends of the second suction cup 120, as shown in fig. 2 and 5, in the present embodiment, the cutting mechanism 300 includes a mounting fixture plate 310, a cutting unit 320 for cutting the adhesive paper at both ends of the second suction cup 120, and a pressing unit 330 for pressing the adhesive paper such that the cutting unit 320 cuts the adhesive paper, the cutting unit 320 includes a cutting driver 321, a fixing plate 322, and two cutters 323, the mounting fixture plate 310 is disposed on the side plate 100, the fixing plate 322 is slidably disposed on the mounting fixture plate 310, and the fixing plate 322 is disposed adjacent to the pressing unit 330, the cutting driver 321 is disposed on the mounting fixture plate 310, an output end of the cutting driver 321 is connected to the fixing plate 322, and the two cutters 323 are disposed on the fixing plate 322.

Specifically, the cutting driver 321 is configured to drive the fixed plate 322 to be slidably disposed on the mounting and retaining plate 310, the fixed plate 322 is slidably disposed on the mounting and retaining plate 310 in a manner of matching the sliding rail with the sliding block, two cutters 323 are mounted on both sides of the fixed plate 322 at intervals, one cutter 323 is located between the first suction cup 110 and the second suction cup 120, and the other cutter 323 is located between the second suction cup 120 and the third suction cup 410, so that the two cutters 323 can cut the adhesive tape on both ends of the second suction cup 120. When the gummed paper is transferred to the third sucker 410, the gummed paper on the third sucker 410 is pressed down by the pressing unit 330, the gummed paper is sucked by the third sucker 410 after the pressing, and meanwhile, the gummed paper is pressed by the feeding end mechanism of the gummed paper, so that the gummed paper is tensioned, the fixed plate 322 is driven to slide downwards by the cutting driver 321, so that the two cutters 323 are driven to move downwards and cut off the gummed paper at two ends of the second sucker 120, the second sucker 120 is provided with part of gummed paper, and the third sucker 410 is provided with part of gummed paper. The cutting driver 321 is configured as an air cylinder, and the air cylinder drives the fixing plate 322 to slide on the mounting plate 310, which is known to those skilled in the art and can be implemented, and is not described in detail in this embodiment.

Further, the pressing unit 330 includes a pressing driver 331, a mounting plate 332, and a pressing block 333, the pressing driver 331 is disposed on the mounting plate 310, an output end of the pressing driver 331 is connected to the mounting plate 332, the mounting plate 332 is slidably disposed on the mounting plate 310, the mounting plate 332 is disposed adjacent to the fixing plate 322, and the pressing block 333 is disposed on the mounting plate 332.

Specifically, the mounting plate 332 is slidably disposed on the mounting plate 310 in a manner of matching the sliding rail and the sliding block, and the pressing block 333 is located above the third suction cup 410, so that the pressing block 333 can press the gummed paper on the third suction cup 410. When the gummed paper is conveyed to the third sucker 410, the mounting plate 332 is driven to slide downwards through the pressing driver 331, so that the pressing block 333 is driven to press the gummed paper on the third sucker 410, the third sucker 410 sucks the gummed paper after pressing, and meanwhile, the feeding end mechanism of the gummed paper presses the gummed paper, so that the gummed paper tensioning effect is achieved. The pressing driver 331 is configured as an air cylinder, and the air cylinder drives the mounting plate 332 to slide on the mounting plate 310, which is known to those skilled in the art and can be implemented, and is not described in detail in this embodiment.

Still further, the two pressing blocks 333 are provided, the fixing plate 322 includes a cutting slide plate, a first cutting plate and a second cutting plate, the cutting slide plate is connected to the output end of the cutting driver 321, the cutting slide plate is slidably disposed on the mounting and fixing plate 310, two ends of the cutting slide plate are respectively connected to the first cutting plate and the second cutting plate, the cutting slide plate, the first cutting plate and the second cutting plate form a staggered slot, the first cutting plate is connected to one cutting knife 323, and the second cutting plate is connected to the other cutting knife 323; the mounting plate 332 comprises a pressing slide plate and a concave plate, the pressing slide plate is connected with the output end of the pressing driver 331, the pressing plate is slidably arranged on the mounting and retaining plate 310, two ends of the concave plate are respectively connected with two pressing blocks 333, and one end of the concave plate movably passes through the staggered grooves.

Specifically, two pressing blocks 333 are installed on the mounting plate 332 at intervals, one pressing block 333 is located above the second sucking disc 120, and the other pressing block 333 is located above the third sucking disc 410, so that the two pressing blocks 333 can press down the gummed paper on the second sucking disc 120 and the gummed paper on the third sucking disc 410, and the cross-sectional area of the top of the two pressing blocks 333 is larger than that of the bottom, so that the cost is effectively reduced while the gummed paper can be held. Cutting off the slide through slider and slide rail matched with mode slip setting on installation retainer plate 310, pushing down the slide through slider and slide rail matched with mode slip setting on installation retainer plate 310, first cutting board and the mutual parallel arrangement of second cutting board cut off slide and first cutting board mutually perpendicular setting, the shape looks adaptation of the shape in staggered groove and the one end of concave plate to make the one end of concave plate can pass the staggered groove, the briquetting 333 that is connected with the one end of concave plate can be located the top of second sucking disc 120 through the staggered groove promptly. When the gummed paper is required to be pressed down, the pressing slide plate is driven to slide on the mounting and retaining plate 310 by the pressing driver 331, so that one end of the concave plate passes through the staggered groove, and thus, while the two cutters 323 are respectively positioned at two sides of the second sucker 120, a pressing block 333 is positioned above the second sucker 120, and can press the second sucker 120 when the two cutters 323 shear two sides of the second sucker 120. So that the cutting effect of the gummed paper is better. And make full use of installation space for the installation of mechanism is better.

In order to facilitate feeding of the adhesive paper, as shown in fig. 7, in this embodiment, the automatic laminating apparatus 10 further includes an unreeling mechanism 500, where the unreeling mechanism 500 includes an unreeling plate 510, a glue containing roller 520, a winding roller 530, a tensioning driver 540 and a compacting block 550, where the unreeling plate 510 is disposed on the side plate 100, the glue containing roller 520 is disposed on the unreeling plate 510, each winding roller 530 is rotatably disposed on the unreeling plate 510, and each winding roller 530 is disposed below the glue containing roller 520, the tensioning driver 540 is disposed on the unreeling plate 510, the tensioning driver 540 is in driving connection with the compacting block 550, and the compacting block 550 is disposed above one winding roller 530.

Specifically, the roll paper is wound on the glue containing roller 520, and is conveyed and stretched by the plurality of rotating winding rollers 530, so that the feeding of the roll paper is facilitated, when the feeding end of the roll paper needs to be tensioned, the compression block 550 is driven to be pressed down by the tensioning driver 540, so that the roll paper is subjected to the clamping action of the compression block 550 and the winding rollers 530, and the feeding end of the roll paper is compressed, so that the roll paper is tensioned conveniently.

Example 3

This embodiment is similar to embodiment 2, except that: in this embodiment, the pulling and feeding mechanism 200 includes a connection block 270, an output end of the lifting driver 240 is connected to the connection block 270, and a motor is disposed on the connection block 270, and is in driving connection with the roller 250.

Specifically, when the rotation is required, the motor drives the roller 250 to rotate, and when the rotation of the roller 250 is required to be prevented, the motor stops rotating, so that the structure is simpler, and the rotation of the roller 250 is convenient to control. The manner in which the motor drives the roller 250 to rotate is known to those skilled in the art, and can be implemented, and is not described in detail in this embodiment.

Example 4

This embodiment is similar to embodiment 2, except that: as shown in fig. 1, in this embodiment, the side plate 100 is provided with a through slot, the pull-and-send driving assembly 260 is disposed on the second surface of the side plate 100, one end of the wire rail mounting seat is slidably disposed on the guide rail 230, and the other end of the wire rail mounting seat passes through the through slot and is connected with the pull-and-send driving assembly 260.

Specifically, the track seat 220 is located on the first surface of the side plate 100, and by disposing the pull driving assembly 260 on the second surface of the side plate 100, the installation space of the side plate 100 is fully utilized, so that the mechanism installation effect of the automatic positive and negative adhesive sticking device 10 is better, and multiple mechanisms are effectively avoided from being installed on a plane. The pull driving assembly 260 includes a motor, a synchronous belt 262 and a screw rod 261, the motor is disposed on the second surface of the side plate 100, the screw rod 261 is rotationally disposed on the second surface of the side plate 100, an output end of the motor is synchronously connected with the screw rod 261 through the synchronous belt 262, one end of the wire rail connecting seat 210 far away from the guide rail 230 is slidingly disposed on the screw rod 261, and the motor drives the screw rod 261 to rotate so as to drive the wire rail connecting seat 210 to slide on the guide rail 230, which is known by those skilled in the art and can be realized, and no redundant description is made in the embodiment.

It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. The utility model provides a rubberizing mechanism, its characterized in that includes base (420), third sucking disc (410), rotates drive assembly (430) and is used for driving third sucking disc (410) lateral shifting and longitudinal movement are in order to be close to displacement drive assembly (440) of gummed paper on base (420), displacement drive assembly (440) set up on base (420), displacement drive assembly (440) with rotate drive assembly (430) drive connection, rotate drive assembly (430) with third sucking disc (410) drive connection, third sucking disc (410) rotate and set up on displacement drive assembly (440).

2. The rubberizing mechanism according to claim 1, wherein the third suction cup (410) is provided with a vacuum surface (411) and a mounting surface (412), the vacuum surface (411) and the mounting surface (412) are arranged away from each other, and an auxiliary roller (413) is rotatably arranged on the mounting surface (412).

3. The rubberizing mechanism of claim 1, wherein said displacement drive assembly (440) comprises a cross plate (441), a cross drive (442), a longitudinal plate (443), and a longitudinal drive (444), said cross plate (441) being slidably disposed on said base (420), said cross drive (442) being disposed on said base (420) and said cross drive (442) being drivingly connected to said cross plate (441), said longitudinal plate (443) being slidably disposed on said cross plate (441), said longitudinal drive (444) being disposed on said cross plate (441) and said longitudinal drive (444) being drivingly connected to said longitudinal plate (443), said rotary drive assembly (430) being disposed on said longitudinal plate (443).

4. An automatic positive and negative glue applying device, characterized by comprising the glue applying mechanism (400) for forming positive and negative glue and applying positive and negative glue to a pole piece roll according to any one of claims 1-3, further comprising: a side plate (100), a first sucker (110), a second sucker (120), a cutting mechanism (300) for cutting off the gummed paper at two ends of the second sucker (120), and a pulling mechanism (200) for pulling the gummed paper on the first sucker (110) to the rubberizing mechanism (400);

the first sucker (110) and the second sucker (120) are arranged on the side plate (100) in parallel, the pulling mechanism (200) and the cutting mechanism (300) are arranged on the side plate (100), the base (420) is arranged on the side plate (100), and the third sucker (410) and the second sucker (120) are movably arranged in parallel.

5. The automatic positive and negative glue applying device according to claim 4, wherein the pulling and feeding mechanism (200) comprises a wire rail connecting seat (210), a rail seat (220), a guide rail (230), a roller (250) for driving glue paper from the first suction cup (110) to the third suction cup (410), a lifting driver (240) for driving the roller (250) to approach the glue paper on the first suction cup (110), and a pulling and feeding driving assembly (260) for driving the roller (250) from the first suction cup (110) to the third suction cup (410), the rail seat (220) is arranged on the side plate (100), the guide rail (230) is arranged on the rail seat (220), the wire rail connecting seat (210) is arranged on the guide rail (230) in a sliding manner, the pulling and feeding driving assembly (260) is arranged on the side plate (100), the pulling and feeding driving assembly (260) is connected with the wire rail connecting seat (210) in a driving manner, and the pulling and feeding driving assembly (260) is arranged on the wire rail connecting seat (240).

6. The automatic positive and negative glue pasting device according to claim 5, wherein the pulling and feeding mechanism (200) comprises a connecting block (270), an output end of the lifting driver (240) is connected with the connecting block (270), a fixed block (271) and a propping driver (272) are arranged on the connecting block (270), a rotating hole is formed in the fixed block (271), the roller (250) is rotatably arranged in the rotating hole, a through hole is formed in a side wall of the rotating hole, and an output end of the propping driver (272) is inserted into the through hole to movably prop against the roller (250).

7. The automatic positive and negative glue sticking device according to claim 5, wherein the pulling and feeding mechanism (200) comprises a connecting block (270), an output end of the lifting driver (240) is connected with the connecting block (270), and a motor is arranged on the connecting block (270) and is in driving connection with the passing roller (250).

8. The automatic positive and negative glue applying device according to claim 4, wherein the cutting mechanism (300) comprises a mounting and fixing plate (310), a cutting unit (320) for cutting off the gummed paper at both ends of the second suction cup (120), and a pressing unit (330) for pressing down the gummed paper so that the cutting unit (320) cuts off the gummed paper, the cutting unit (320) comprises a cutting driver (321), a fixing plate (322), and two cutters (323), the mounting and fixing plate (310) is disposed on the side plate (100), the fixing plate (322) is slidably disposed on the mounting and fixing plate (310), the fixing plate (322) is disposed adjacent to the pressing unit (330), the cutting driver (321) is disposed on the mounting and fixing plate (310), an output end of the cutting driver (321) is connected to the fixing plate (322), and the two cutters (323) are disposed on the fixing plate (322).

9. The automatic positive and negative glue attaching device according to claim 8, wherein the pressing unit (330) includes a pressing driver (331), a mounting plate (332), and a pressing block (333), the pressing driver (331) is disposed on the mounting and retaining plate (310), an output end of the pressing driver (331) is connected with the mounting plate (332), the mounting plate (332) is slidably disposed on the mounting and retaining plate (310), the mounting plate (332) is disposed adjacent to the fixing plate (322), and the pressing block (333) is disposed on the mounting plate (332).

10. The automatic positive and negative glue attaching device according to claim 4, further comprising an unreeling mechanism (500), wherein the unreeling mechanism (500) comprises a glue unreeling plate (510), a glue containing roller (520), a winding roller (530), a tensioning driver (540) and a compacting block (550), the glue unreeling plate (510) is arranged on the side plate (100), the glue containing roller (520) is arranged on the glue unreeling plate (510), each winding roller (530) is rotatably arranged on the glue unreeling plate (510), each winding roller (530) is arranged below the glue containing roller (520), the tensioning driver (540) is arranged on the glue unreeling plate (510), the tensioning driver (540) is in driving connection with the compacting block (550), and the compacting block (550) is arranged above one winding roller (530).