CN116826138A - Cylindrical battery cover gum cutting mechanism - Google Patents

Abstract

The invention discloses a cylindrical battery rubber-covering and rubber-cutting mechanism, which comprises a rubber-covering rod and a rubber-pulling mechanism, wherein a rubber film annular cutting mechanism and a rubber film clamping and positioning mechanism are arranged below the rubber-covering rod; the adhesive film clamping and positioning mechanism clamps the adhesive film and pulls the adhesive film downwards for a certain length; the film taking and film covering device is vertical to the same position, the film taking and film covering at different positions do not need to be rotated, the whole structure of the mechanism is simpler, the waiting time for film taking by rotation is not needed, and the film covering efficiency is higher. The adhesive film cutting mode adopts an annular cutting mode, so that the flatness of the adhesive film after cutting can be maintained, and the adhesive film sleeving quality is improved.

Description

Cylindrical battery cover gum cutting mechanism

Technical Field

The invention relates to battery rubber sleeving equipment, in particular to a cylindrical battery rubber sleeving and cutting mechanism.

Background

At present, the existing battery glue sleeving equipment generally separates the position of a glue film from the position of the glue film, rotates or swings the glue sleeving mechanism to the position of a battery in a rotating or swinging angle mode after the glue film is taken, and then sleeves the glue film on a cylindrical battery. For example, the patent number 2008200461510 is entitled an automatic rubber tube sleeving device which adopts a mode of taking rubber and sleeving rubber separately. The glue sleeving mechanism has the advantages of lower glue sleeving efficiency, complex mechanism and higher manufacturing cost. In addition, the glue cutting of the glue sleeving mechanism adopts a mode of transversely cutting off by a single cutter, and the cutting mode easily causes uneven cuts of the glue film and influences the glue sleeving quality of the next time.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the invention aims to provide a cylindrical battery casing glue cutting mechanism.

The aim of the invention is achieved by the following technical scheme: the rubber cutting mechanism comprises a rubber sleeving rod and a rubber pulling mechanism, wherein a rubber film annular cutting mechanism and a rubber film clamping and positioning mechanism are arranged below the rubber sleeving rod, and the rubber pulling mechanism can take a rubber film from the upper end of the rubber sleeving rod and elongate the rubber film to the lower end of the rubber sleeving rod; the adhesive film clamping and positioning mechanism clamps the adhesive film and pulls the adhesive film downwards;

the adhesive film circular cutting mechanism comprises a driven synchronous wheel and a driving synchronous wheel, wherein the driven synchronous wheel and the driving synchronous wheel are linked through a synchronous belt, a cutter assembly is arranged at the bottom edge of the driven synchronous wheel, the driven synchronous wheel can drive the cutter assembly to do circular motion, a perforation is arranged in the middle of the driven synchronous wheel, the bottom of the adhesive rod is stretched into the perforation, and the driving synchronous wheel is connected with a cutter servo motor.

As an improvement of the cylindrical battery casing glue cutting mechanism, the cutter assembly comprises a blade mounting plate capable of swinging, a blade and a blade pressing block, the blade is arranged between the blade pressing block and the blade mounting plate, and the free end of the blade mounting plate is provided with a cam. The blade mounting plate is movably connected to the driven synchronous wheel through a shaft pin.

As an improvement of the cylindrical battery rubber sleeve rubber cutting mechanism, the cylindrical battery rubber sleeve rubber cutting mechanism further comprises a track plate, wherein an annular chute is formed in the track plate, arc-shaped notches are formed in the side wall of the annular chute, starting and stopping positions of cams are located at the arc-shaped notches, when the cams are separated from the arc-shaped notch positions, a blade starts to cut a rubber film, the cams can slide along the annular chute, and when the cams slide along the annular chute, the blade mounting plate drives the blade to swing against the rubber film and cut off the rubber film.

As an improvement of the cylindrical battery rubber sleeve rubber cutting mechanism, the rubber film clamping and positioning mechanism comprises a lifting plate and two lifting cylinders for controlling the lifting plate to lift, wherein the lifting plate is provided with a clamping and positioning cylinder for controlling the two clamping and positioning blocks to clamp the rubber film, semicircular gaps are formed in the corresponding surfaces of the two clamping and positioning blocks, and the lower end of a rubber sleeve rod extends into the space between the two clamping and positioning blocks. The adhesive film clamping and positioning mechanism can clamp the adhesive film and pull down to a certain length, the adhesive film is fixedly clamped before the adhesive film is cut off, and the adhesive film is loosened after the adhesive film is cut off. The lower end of the adhesive film is provided with a reserved part which extends out of the lower end of the adhesive rod, so that the next film sleeving is convenient.

As an improvement of the cylindrical battery rubber-covering and rubber-cutting mechanism, the lifting plate is provided with the first through hole, the lifting plate is provided with a plurality of first rubber-pressing rollers at intervals corresponding to the circumferential edge of the first through hole, and a rubber film passes through between the first rubber-pressing rollers and the rubber-covering rod, and when the rubber film is pulled down, the first rubber-pressing rollers can roll the rubber film.

As an improvement of the cylindrical battery rubber-covering and rubber-cutting mechanism, the invention further comprises a rubber film guide assembly, wherein the rubber film guide assembly is arranged at the upper end of the rubber-covering rod, the rubber film guide assembly comprises a mounting vertical plate, a transverse guide roller group and a horizontal mounting plate are arranged at the upper end of the mounting vertical plate, a vertical guide roller group is arranged on the horizontal mounting plate, the transverse guide roller group and the vertical guide roller group are both composed of two rollers, a rubber film passes through between the two rollers, a film-covering tip is arranged at the upper end of the rubber-covering rod, and the film-covering tip is aligned with the position between the two rollers of the vertical guide roller group.

As an improvement of the cylindrical battery rubber sleeve rubber cutting mechanism, one side of the mounting vertical plate is provided with a rubber pressing roller mounting plate, two mounting arms are arranged on the rubber pressing roller mounting plate, grooves are formed between the two mounting arms, roller mounting seats are arranged on the two mounting arms, rollers are arranged on the roller mounting seats, and the upper end of a rubber sleeve rod is positioned between the two rollers.

As an improvement of the cylindrical battery rubber sleeve rubber cutting mechanism, the cylindrical battery rubber sleeve rubber cutting mechanism further comprises an upper positioning plate, wherein a second through hole is formed in the upper positioning plate, the rubber sleeve rod is arranged in the second through hole in a penetrating mode, and a plurality of second rubber pressing rollers are arranged on the upper positioning plate at intervals corresponding to the circumferential edge of the second through hole.

As an improvement of the cylindrical battery sleeve glue cutting mechanism, the glue pulling mechanism comprises a glue film clamping mechanism and a glue pulling drive, and the glue pulling drive controls the glue film clamping mechanism to lift;

the glue pulling drive comprises a glue pulling servo motor, a glue pulling screw rod and a glue pulling side plate, wherein the bottom of the glue pulling screw rod is connected with the glue pulling servo motor through a coupler, a screw rod nut is arranged on the glue pulling screw rod, a lifting slide block is arranged on the screw rod nut, a linear slide rail is arranged on the glue pulling side plate, the lifting slide block is connected to the linear slide rail, and the glue film clamping mechanism is connected to the lifting slide block;

the adhesive film clamping mechanism comprises two-way air cylinders, the two-way air cylinders control the two clamping arms to move, adhesive pulling clamping blocks are arranged on the two clamping arms, semicircular grooves are formed in corresponding faces of the two adhesive pulling clamping blocks, and the adhesive sleeving rod is located between the two semicircular grooves.

As an improvement of the cylindrical battery rubber-covering rubber-cutting mechanism, the invention also comprises a rubber-releasing reel, a rubber-releasing servo motor for controlling the rotation of the rubber-releasing reel and a rubber film tensioning assembly;

the adhesive film tensioning assembly comprises a roller mounting plate, a plurality of fixed rollers and a movable roller are arranged on the roller mounting plate at intervals, the movable roller is connected to the roller mounting plate through a sliding rail and a sliding block, an induction piece is arranged on the sliding block connected with the movable roller, an upper inductor and a lower inductor are further arranged on the roller mounting plate, the upper inductor is used for inducing the induction piece, the adhesive film discharging servo motor is used for starting the adhesive film discharging, and the lower inductor is used for inducing the induction piece, and the adhesive film with a certain length is withdrawn by the adhesive discharging servo motor.

The invention has the beneficial effects that: the film taking and film covering device is vertical to the same position, the film taking and film covering at different positions do not need to be rotated, the whole structure of the mechanism is simpler, the waiting time for film taking by rotation is not needed, and the film covering efficiency is higher. The glued membrane is cylindrical through the bracing of mantle fiber stick, and glued membrane vertical drop-down, when the transfer chain that carries the battery carried the battery to the position under the mantle fiber stick, draw gluey mechanism with cylindrical glued membrane drop-down to sufficient length, glued membrane centre gripping positioning mechanism centre gripping comes down the glued membrane again, makes the glued membrane cut off the back and leaves certain length and come out, makes things convenient for the mantle next time. The adhesive film cutting mode adopts an annular cutting mode, so that the flatness of the adhesive film after cutting can be maintained, and the adhesive film sleeving quality is improved.

Drawings

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

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic view of the bottom structure of the present invention;

FIG. 4 is a schematic view of a portion of the adhesive film guide assembly of the present invention;

FIG. 5 is a schematic diagram of the assembly structure of the adhesive pulling mechanism, the adhesive film circular cutting mechanism and the adhesive film clamping and positioning mechanism of the invention;

fig. 6 is another directional perspective view of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that, in the embodiments of the present invention, all directional indicators (such as up, down, left, right, front, and rear … …) are merely used to explain the relative positional relationship, movement conditions, and the like between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicators are correspondingly changed.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be regarded as not exist and not within the protection scope of the present invention.

As shown in fig. 1-6, a cylindrical battery rubber-covering and rubber-cutting mechanism comprises a rubber-covering rod 1 and a rubber-pulling mechanism 2, wherein a rubber film annular cutting mechanism 3 and a rubber film clamping and positioning mechanism 4 are arranged below the rubber-covering rod 1, and the rubber-pulling mechanism 2 can take a rubber film from the upper end of the rubber-covering rod 1 and elongate the rubber film to the lower end of the rubber-covering rod 1; the adhesive film clamping and positioning mechanism 4 clamps the adhesive film and pulls the adhesive film out downwards for a certain length, so that a part of the adhesive film is reserved after the adhesive film is cut off, and the next film covering is facilitated;

the adhesive film circular cutting mechanism 3 comprises a driven synchronous wheel 31 and a driving synchronous wheel 32, wherein the driven synchronous wheel 31 and the driving synchronous wheel 32 are linked through a synchronous belt 33, a cutter assembly 34 is arranged at the bottom edge of the driven synchronous wheel 31, the driven synchronous wheel 31 can drive the cutter assembly 34 to do circular motion, a perforation is arranged in the middle of the driven synchronous wheel 31, the bottom of the adhesive rod 1 is inserted into the perforation, and the driving synchronous wheel 32 is connected with a cutter servo motor 35.

Preferably, the cutter assembly 34 includes a blade mounting plate 341 capable of swinging, a blade 342, and a blade pressing block 343, the blade 342 being disposed between the blade pressing block 343 and the blade mounting plate 341, and a free end of the blade mounting plate 341 being provided with a cam 344. The blade mounting plate 341 is movably connected to the driven synchronizing wheel 31 by a shaft pin, and when the cam 344 circumferentially slides from the annular chute,

preferably, the adhesive film cutting device further comprises a track board 35, the track board 35 is provided with an annular chute 36, the side wall of the annular chute 36 is provided with an arc notch, the start and stop positions of the cam 344 are all located at the arc notch, when the cam 344 is separated from the arc notch, the blade 342 starts to cut the adhesive film, the cam 344 can slide along the annular chute 36, and when the cam 344 slides along the annular chute 36, the blade mounting plate 341 drives the blade 342 to swing against the adhesive film and cut off the adhesive film.

Preferably, the adhesive film clamping and positioning mechanism 4 comprises a lifting plate 41 and two lifting air cylinders 42 for controlling the lifting plate 41 to lift, wherein the lifting plate 41 is provided with a clamping and positioning air cylinder 43, the clamping and positioning air cylinder 43 controls two clamping and positioning blocks 44 to clamp the adhesive film, corresponding surfaces of the two clamping and positioning blocks 44 are provided with semicircular notches, and the lower end of the adhesive rod 1 stretches into between the two clamping and positioning blocks 44. The adhesive film clamping and positioning mechanism 4 can clamp and pull down the adhesive film to a certain length, and the adhesive film is fixedly clamped before cutting off the adhesive film and then loosened after cutting off the adhesive film.

Preferably, the lifting plate 41 is provided with a first through hole, the lifting plate 41 is provided with a plurality of first glue pressing rollers 45 corresponding to the circumferential edge of the first through hole at intervals, and the glue film passes through the first glue pressing rollers 45 and the glue sleeving rod 1, and when the glue film is pulled down, the first glue pressing rollers 45 can roll the glue film.

Preferably, the adhesive film laminating machine further comprises an adhesive film guiding assembly 5, the adhesive film guiding assembly 5 is arranged at the upper end of the laminating rod 1, the adhesive film guiding assembly 5 comprises an installation vertical plate 51, a transverse guiding roller group 52 and a horizontal installation plate 53 are arranged at the upper end of the installation vertical plate 51, a vertical guiding roller group 54 is arranged on the horizontal installation plate 53, the transverse guiding roller group 52 and the vertical guiding roller group 54 are composed of two rollers, an adhesive film passes through between the two rollers, a laminating tip 6 is arranged at the upper end of the laminating rod 1, and the laminating tip 6 is aligned with the position between the two rollers of the vertical guiding roller group 54.

Preferably, one side of the installation vertical plate 51 is provided with a glue pressing roller installation plate 55, two installation arms 56 are arranged on the glue pressing roller installation plate 55, grooves are arranged between the two installation arms 56, roller installation seats are arranged on the two installation arms 56, rollers 57 are arranged on the roller installation seats, and the upper end of the glue sleeving rod 1 is positioned between the two rollers.

Preferably, the adhesive pressing device further comprises an upper positioning plate 7, wherein a second through hole is formed in the upper positioning plate 7, the adhesive sleeving rod 1 is arranged in the second through hole in a penetrating mode, and a plurality of second adhesive pressing rollers 71 are arranged on the upper positioning plate 7 at intervals corresponding to the circumferential edge of the second through hole.

Preferably, the glue pulling mechanism 2 comprises a glue film clamping mechanism 21 and a glue pulling drive 22, and the glue pulling drive 22 controls the glue film clamping mechanism 21 to lift;

the glue pulling drive 22 comprises a glue pulling servo motor 221, a glue pulling screw rod 222 and a glue pulling side plate 223, wherein the bottom of the glue pulling screw rod 222 is connected with the glue pulling servo motor 221 through a coupler, a screw rod nut 224 is arranged on the glue pulling screw rod 222, a lifting slide block 225 is arranged on the screw rod nut 224, a linear slide rail 226 is arranged on the glue pulling side plate 223, the lifting slide block 225 is connected with the linear slide rail 226, and the glue film clamping mechanism 21 is connected with the lifting slide block 225;

the adhesive film clamping mechanism 21 comprises a bidirectional air cylinder 211, the bidirectional air cylinder 211 controls two clamping arms 212 to move, adhesive pulling clamping blocks 213 are arranged on the two clamping arms 212, semicircular grooves are formed in corresponding surfaces of the two adhesive pulling clamping blocks 213, and the adhesive sleeving rod 1 is located between the two semicircular grooves.

Preferably, the device also comprises a glue discharging reel 8, a glue discharging servo motor 81 for controlling the rotation of the glue discharging reel 8 and a glue film tensioning assembly 9; the adhesive film tensioning assembly 9 comprises a roller mounting plate 91, a plurality of fixed rollers 92 and a movable roller 93 are arranged on the roller mounting plate 91 at intervals, the movable roller 93 is connected to the roller mounting plate 91 through a sliding rail and a sliding block, an induction piece 94 is arranged on the sliding block connected with the movable roller 93, an upper inductor 95 and a lower inductor 96 are further arranged on the roller mounting plate 91, when the upper inductor 95 senses the induction piece 94, the adhesive discharging servo motor 81 starts the adhesive discharging film, and when the lower inductor 96 senses the induction piece 94, the adhesive discharging servo motor 81 withdraws the adhesive film with a certain length. The adhesive film tensioning assembly 9 can control the tensioning degree of the adhesive film, so that the adhesive film is stably conveyed, and the adhesive film is conveniently pulled out by the adhesive pulling mechanism.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations may be made therein without departing from the principles and structure of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The cylindrical battery rubber sleeving and cutting mechanism is characterized by comprising a rubber sleeving rod and a rubber pulling mechanism, wherein a rubber film annular cutting mechanism and a rubber film clamping and positioning mechanism are arranged below the rubber sleeving rod, and the rubber pulling mechanism can take a rubber film from the upper end of the rubber sleeving rod and elongate the rubber film to the lower end of the rubber sleeving rod; the adhesive film clamping and positioning mechanism clamps the adhesive film and pulls the adhesive film downwards;

the adhesive film circular cutting mechanism comprises a driven synchronous wheel and a driving synchronous wheel, wherein the driven synchronous wheel and the driving synchronous wheel are linked through a synchronous belt, a cutter assembly is arranged at the bottom edge of the driven synchronous wheel, the driven synchronous wheel can drive the cutter assembly to do circular motion, a perforation is arranged in the middle of the driven synchronous wheel, the bottom of the adhesive rod is stretched into the perforation, and the driving synchronous wheel is connected with a cutter servo motor.

2. The cylindrical battery casing glue cutting mechanism of claim 1, wherein the cutter assembly comprises a blade mounting plate capable of swinging, a blade and a blade press block, the blade is arranged between the blade press block and the blade mounting plate, and a cam is arranged at the free end of the blade mounting plate.

3. The cylindrical battery casing glue cutting mechanism according to claim 2, further comprising a track plate, wherein the track plate is provided with an annular chute, the cam can slide along the side wall of the annular chute, and the blade mounting plate drives the blade to swing against the glue film and cut off the glue film when the cam slides along the annular chute.

4. The cylindrical battery sleeve adhesive cutting mechanism according to claim 1, wherein the adhesive film clamping and positioning mechanism comprises a lifting plate and two lifting cylinders for controlling the lifting plate to lift, the lifting plate is provided with a clamping and positioning cylinder for controlling the two clamping and positioning blocks to clamp the adhesive film, corresponding surfaces of the two clamping and positioning blocks are provided with semicircular gaps, and the lower end of the sleeve adhesive rod extends into the space between the two clamping and positioning blocks.

5. The cylindrical battery casing glue cutting mechanism according to claim 4, wherein the lifting plate is provided with a first through hole, and a plurality of first glue pressing rollers are arranged at intervals on the lifting plate corresponding to the circumferential edge of the first through hole.

6. The cylindrical battery rubber sleeve rubber cutting mechanism according to claim 1, further comprising a rubber film guide assembly, wherein the rubber film guide assembly is arranged at the upper end of the rubber sleeve rod, the rubber film guide assembly comprises an installation vertical plate, a transverse guide roller group and a horizontal installation plate are arranged at the upper end of the installation vertical plate, a vertical guide roller group is arranged on the horizontal installation plate, the transverse guide roller group and the vertical guide roller group are composed of two rollers, a rubber film passes through between the two rollers, a film sleeve tip is arranged at the upper end of the rubber sleeve rod, and the film sleeve tip is aligned with the position between the two rollers of the vertical guide roller group.

7. The cylindrical battery rubber sleeve rubber cutting mechanism according to claim 6, wherein a rubber pressing roller mounting plate is arranged on one side of the mounting vertical plate, two mounting arms are arranged on the rubber pressing roller mounting plate, grooves are formed between the two mounting arms, roller mounting seats are arranged on the two mounting arms, rollers are arranged on the roller mounting seats, and the upper end of the rubber sleeve rod is located between the two rollers.

8. The cylindrical battery rubber sleeve cutting mechanism according to claim 1, further comprising an upper positioning plate, wherein a second through hole is formed in the upper positioning plate, the rubber sleeve rod is arranged in the second through hole in a penetrating mode, and a plurality of second rubber pressing rollers are arranged on the upper positioning plate at intervals corresponding to the circumferential edge of the second through hole.

9. The cylindrical battery casing glue cutting mechanism according to claim 1, wherein the glue pulling mechanism comprises a glue film clamping mechanism and a glue pulling drive, and the glue pulling drive controls the glue film clamping mechanism to lift;

the glue pulling drive comprises a glue pulling servo motor, a glue pulling screw rod and a glue pulling side plate, wherein the bottom of the glue pulling screw rod is connected with the glue pulling servo motor through a coupler, a screw rod nut is arranged on the glue pulling screw rod, a lifting slide block is arranged on the screw rod nut, a linear slide rail is arranged on the glue pulling side plate, the lifting slide block is connected to the linear slide rail, and the glue film clamping mechanism is connected to the lifting slide block;

the adhesive film clamping mechanism comprises two-way air cylinders, the two-way air cylinders control the two clamping arms to move, adhesive pulling clamping blocks are arranged on the two clamping arms, semicircular grooves are formed in corresponding faces of the two adhesive pulling clamping blocks, and the adhesive sleeving rod is located between the two semicircular grooves.

10. The cylindrical battery casing glue cutting mechanism of claim 1, further comprising a glue release reel, a glue release servo motor for controlling the rotation of the glue release reel, and a glue film tensioning assembly;

the adhesive film tensioning assembly comprises a roller mounting plate, a plurality of fixed rollers and a movable roller are arranged on the roller mounting plate at intervals, the movable roller is connected to the roller mounting plate through a sliding rail and a sliding block, an induction piece is arranged on the sliding block connected with the movable roller, an upper inductor and a lower inductor are further arranged on the roller mounting plate, the upper inductor is used for inducing the induction piece, the adhesive film discharging servo motor is used for starting the adhesive film discharging, and the lower inductor is used for inducing the induction piece, and the adhesive film with a certain length is withdrawn by the adhesive discharging servo motor.