CN209786093U - glue supply device of equipment for pasting gummed paper on tail part of battery - Google Patents

Abstract

the utility model discloses a battery afterbody gummed paper equipment supplies mucilage binding to be put, include: the adhesive supply mechanism is used for supplying adhesive tapes; the adhesive suction and sticking mechanism is positioned at the downstream of the adhesive supply mechanism along the moving direction of the adhesive tape and is used for sucking the adhesive tape part to be cut off from the adhesive tape and sticking the adhesive tape cut off from the adhesive tape on the end surface of the tail part of the battery; the drawing and cutting mechanism is positioned between the adhesive supplying mechanism and the adhesive sucking and adhering mechanism along the moving direction of the adhesive tape and is used for drawing the free end of the adhesive tape to the second end of the adsorption area and then cutting the adhesive tape; the adhesive pressing mechanism is arranged corresponding to the suction plate and used for pressing the adhesive tape part corresponding to the first end of the adsorption area onto the first end when the adhesive tape is cut, so that the adhesive tape part corresponding to the adsorption surface can not shift due to the action of cutting force when the adhesive tape is cut by the drawing and cutting mechanism, and the adhesive tape is formed on the adsorption surface in an untilted manner.

Description

Glue supply device of equipment for pasting gummed paper on tail part of battery

Technical Field

The utility model relates to a battery packaging equipment technical field especially sets up a battery afterbody gummed paper equipment and supplies mucilage binding to be put.

background

Along with the electronic industry constantly revolutionizes new development, digital product has become an indispensable partly in people's daily life, and then also bigger and bigger to the demand of the required battery of digital product, and at present, some batteries need paste the film on the terminal surface of its afterbody, and this process passes through battery afterbody rubberizing equipment to be realized, and battery afterbody rubberizing equipment is including supplying mucilage binding device and getting the battery device, supplies the mucilage binding device to be used for supplying the film of pasting on the terminal surface of battery afterbody, gets the battery device and is used for getting the battery to rubberizing station. At present, the working principle of some adhesive supplying devices is to cut off an adhesive film from an adhesive tape, and then attach the adhesive film to the end face of the tail part of a battery, during cutting, the adhesive tape part to be cut off from the adhesive tape is generally absorbed by an absorption plate, but at present, during cutting the adhesive tape, the adhesive tape part to be cut off from the adhesive tape is only absorbed by the absorption plate and is not fixed by other devices, so that the adhesive tape part absorbed by the absorption plate is easy to shift under the action of cutting force, and further, the adhesive film formed on an absorption area after cutting is easy to incline, which can influence the quality of the subsequent adhesive film attached to the end face of the tail part of the battery.

SUMMERY OF THE UTILITY MODEL

Based on this, to above-mentioned problem, provide a battery position gummed paper equipment and supply gummed paper device, it can make the cutting finish the back and form the film on the suction disc and can not take place the slope, has guaranteed that the film pastes the quality on the film pastes on battery afterbody terminal surface.

in order to achieve the purpose of the utility model, the utility model adopts the following technical proposal:

The utility model provides a battery afterbody gummed paper equipment supplies mucilage binding to be put, includes:

The adhesive supply mechanism is used for supplying adhesive tapes;

The adhesive suction and sticking mechanism is positioned at the downstream of the adhesive supply mechanism along the moving direction of the adhesive tape and is used for sucking the adhesive tape part to be cut off from the adhesive tape and sticking the adhesive sheet cut off from the adhesive tape on the end surface of the tail part of the battery, and the adhesive suction and sticking mechanism comprises a suction plate, wherein the suction plate is provided with a suction surface, and the suction surface is provided with a first end positioned at the upstream and a second end positioned at the downstream along the moving direction of the adhesive tape;

The drawing and cutting mechanism is positioned between the adhesive supplying mechanism and the adhesive sucking and adhering mechanism along the moving direction of the adhesive tape and is used for drawing the free end of the adhesive tape to the second end of the adsorption area and then cutting the adhesive tape;

The adhesive tape cutting mechanism is arranged on the suction plate and used for cutting the adhesive tape, the adhesive tape pressing mechanism is arranged corresponding to the suction plate and used for pressing the adhesive tape part corresponding to the first end of the suction area on the first end when the adhesive tape is cut, and the free end of the adhesive tape is pressed on the second end after the free end of the adhesive tape is pulled to the second end of the suction area by the drawing and cutting mechanism and before the adhesive tape is cut by the drawing and cutting mechanism.

the free end of the adhesive tape is pressed on the second end of the adsorption surface of the adsorption plate of the adhesive tape sticking mechanism through the adhesive pressing mechanism after the free end of the adhesive tape is pulled to the second end of the adsorption surface by the pulling and cutting mechanism, so that the free end shop of the adhesive tape is prevented from being pulled off from the second end of the adsorption surface when the pulling and cutting mechanism loosens the adhesive tape and withdraws from the adsorption surface, and then the adhesive tape part of the adhesive tape corresponding to the first end is pressed on the first end through the adhesive pressing mechanism when the pulling and cutting mechanism cuts the adhesive tape, so that the adhesive tape part corresponding to the adsorption surface cannot incline due to the action of cutting force, the adhesive tape is formed on the adsorption surface in an untilted manner, and the quality of the subsequent adhesive tape stuck on the end surface of the tail part of the battery is ensured.

in one embodiment, the adhesive supply mechanism comprises an adhesive tape supply assembly and a sticker recycling assembly.

In one embodiment, inhale gluey mechanism of gluing include rubberizing translation drive assembly, connect rubberizing translation drive assembly's frame, locate rotary drive assembly on the frame, connect rotary drive assembly's mounting panel, locate rubberizing on the mounting panel bulldozes the subassembly, and connect rubberizing bulldozes the subassembly with the connecting plate of suction disc.

In one embodiment, the glue pressing mechanism comprises a glue pressing translation driving assembly, a moving plate connected with the glue pressing translation driving assembly, a glue pressing lifting assembly arranged on the moving plate, and a glue pressing assembly connected with the glue pressing lifting assembly.

In one embodiment, the stretch-cutting mechanism comprises a push plate translation assembly, a first sliding plate connected with the push plate translation assembly, a push plate lifting assembly arranged on the first sliding plate, a second sliding plate connected with the push plate lifting assembly, and a glue clamping assembly and a glue cutting assembly arranged on the second sliding plate; the adhesive tape cutting assembly is located at the downstream of the adhesive tape clamping assembly along the moving direction of the adhesive tape.

In one embodiment, the glue clamping assembly comprises a first clamping block arranged on the second sliding plate, a second clamping block arranged opposite to the first clamping block and a pushing block driving module connected with the second clamping block; an adhesive tape channel for adhesive tapes to pass through is arranged between the first clamping block and the second clamping block.

in one embodiment, the glue cutting assembly comprises a push broach driving module arranged on the second sliding plate and a cutter module connected with the push broach driving module; the driving direction of the push broach driving module is perpendicular to the attachment surface.

In one embodiment, the glue cutting assembly further comprises a protective frame arranged on the second sliding plate, the cutter module is arranged in the protective frame, and one side of the protective frame, which is close to the suction plate, is open.

In one embodiment, the adhesive tape cutting device further comprises a guide mechanism, wherein the guide mechanism is located between the adhesive tape supplying mechanism and the drawing and cutting mechanism along the moving direction of the adhesive tape and is used for guiding the adhesive tape from the adhesive tape supplying mechanism to the drawing and cutting mechanism.

In one embodiment, the guide mechanism comprises a starting guide wheel, a last guide wheel positioned between the starting guide wheel and the stretch-cutting mechanism, and an intermediate guide wheel positioned between the starting guide wheel and the last guide wheel; the glue supply device of the battery tail gummed paper pasting equipment further comprises a distance sensor arranged between the tail guide wheel and the glue clamping assembly.

Drawings

Fig. 1 is a schematic perspective view of a glue supply device of a device for applying a gummed paper to a tail of a battery according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of the glue sucking and sticking mechanism in FIG. 1;

FIG. 3 is a schematic perspective view of the suction plate of FIG. 2;

FIG. 4 is a schematic perspective view of the glue pressing mechanism in FIG. 1;

FIG. 5 is a perspective view of an orientation of the stretch-cutting mechanism of FIG. 1;

FIG. 6 is a perspective view of the stretch-cutting mechanism of FIG. 1 in another orientation;

FIG. 7 is a schematic diagram of a first operating state of a glue supply device of the device for pasting gummed paper on the tail of the battery shown in FIG. 1;

FIG. 8 is a schematic diagram of a second operating state of the glue supply device of the device for pasting gummed paper on the tail of the battery shown in FIG. 1;

FIG. 9 is a schematic diagram of a third operating state of the glue supply device of the device for pasting gummed paper on the tail of the battery shown in FIG. 1;

FIG. 10 is a schematic diagram illustrating a fourth operating state of the glue supply device of the apparatus for pasting gummed paper on the tail of the battery shown in FIG. 1;

FIG. 11 is a schematic diagram of a fifth operating state of the glue supply device of the apparatus for pasting gummed paper on the tail of the battery shown in FIG. 1;

Fig. 12 is a schematic diagram of a sixth operating state of the glue supply device of the device for pasting gummed paper on the tail portion of the battery shown in fig. 1.

In the figure:

10. A frame; 20. a glue supply mechanism; 21. a tape supply assembly; 22. a sticker recycling assembly; 30. a glue sucking and sticking mechanism; 31. a rubberizing translation drive assembly; 311. driving a motor in a rubberizing translation mode; 312. driving a gear by rubberizing translation; 313. driving the rack by rubberizing translation; 32. a frame; 33. a rotary drive assembly; 34. mounting a plate; 35. a rubberizing pushing assembly; 36. a connecting plate; 37. sucking a plate; 371. an adsorption surface; 372. a first end; 373. a second end;

40. A glue pressing mechanism; 41. a glue pressing translation driving assembly; 42. a glue pressing translation driving motor; 43. the glue pressing translation driving gear; 44. the glue pressing translation drives the rack; 45. moving the plate; 46. a glue pressing lifting component; 47. a glue pressing component; 47. a mounting frame; 48. briquetting;

50. a drawing and cutting mechanism; 51. a push plate translation assembly; 511. the push plate horizontally moves to drive the motor; 512. the push plate translates to drive the gear; 513. the push plate translates to drive the rack; 52. a first slide plate; 53. a second slide plate; 54. a push plate lifting assembly; 55. a glue clamping component; 551. a first clamping block; 552. a second clamp block; 553. a push block driving module; 56. cutting the rubber component; 57. a cutter module; 58. a push-broach drive module; 59. a protective frame;

60. A guide mechanism; 61. a starting guide wheel; 62. a tail guide wheel; 63. a middle guide wheel;

70. A distance sensor.

Detailed Description

in the description of the present invention, it is to be understood that the terms "length", "width", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first", "second", may explicitly or implicitly include one or more of that feature.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., as meaning either a fixed connection or a removable connection, or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly.

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

referring to fig. 1 to 6, a glue supply device for a device for pasting a gummed paper on a battery tail according to a preferred embodiment of the present invention includes a frame 10, and a glue supply mechanism 20, a guide mechanism 60, a glue suction and pasting mechanism 30, a drawing and cutting mechanism 50, and a glue pressing mechanism 40 respectively disposed on the frame 10.

As shown in fig. 1, the adhesive supply mechanism 20 is for supplying an adhesive tape that can be adhered to the battery; specifically, the adhesive supply mechanism 20 includes an adhesive tape supply assembly 21 and a sticker recovery assembly 22; the tape supply unit 21 supplies a sticker-attached tape; the adhesive tape recycling mechanism is used for automatically recycling the sticker, driving the sticker to be separated from the adhesive tape and enabling the sticking surface of the adhesive tape to be exposed.

referring to fig. 2 and 3, the adhesive suction and sticking mechanism 30 is located downstream of the adhesive supply mechanism 20 along the moving direction of the adhesive tape, and is used for sucking the adhesive tape and sticking the adhesive sheet cut from the adhesive tape to the end surface of the tail of the battery; the adhesive suction and application mechanism 30 includes an adhesive suction plate 37, and the adhesive suction plate 37 has an adhesive suction surface 371, and the adhesive suction surface 371 has a first end 372 located upstream and a second end 373 located downstream in the moving direction of the adhesive tape.

Specifically, the adhesive suction and sticking mechanism 30 includes an adhesive transfer driving assembly 31 mounted on the frame 10, a frame 32 connected to the adhesive transfer driving assembly 31, a rotation driving assembly 33 disposed on the frame 32, a mounting plate 34 connected to the rotation driving assembly 33, a sticking pushing assembly 35 disposed on the mounting plate 34, and a connecting plate 36 connecting the sticking pushing assembly 35 and the suction plate 37. The rubberizing translation driving component 31 is used for driving the suction plate 37 to move to a battery rubberizing piece position; the rotary driving assembly 33 is used for driving the suction plate 37 to rotate 90 degrees towards the direction far away from the rack 10 when the suction plate 37 is overhauled, so that the adsorption surface 371 of the suction plate 37 faces to the worker, and the worker can conveniently overhaul the adsorption surface 371 of the suction plate 37. The adhesive tape pushing assembly 35 is used for driving the suction plate 37 to press the film to the battery when the suction plate 37 moves to the battery film sticking station, so that the film is stuck on the end face of the tail part of the battery.

the driving direction of the rubberizing translation driving component 31 is transverse to the adsorption surface 371, and the rubberizing translation driving component 31 comprises a rubberizing translation driving motor 311, a rubberizing translation driving gear 312 connected with the rubberizing translation driving motor 311, and a rubberizing translation driving rack 313 arranged on the frame 32; the rubberizing translation driving rack 313 extends along the transverse direction of the adsorption surface 371, and is used for driving the adsorption plate 37 to do linear motion along the transverse direction of the adsorption surface 371.

As shown in fig. 4, the glue pressing mechanism 40 is disposed corresponding to the suction plate 37, and is configured to press the free end of the adhesive tape onto the second end 373 when the free end of the adhesive tape moves to the second end 373 of the suction surface 371, and to press the adhesive tape portion corresponding to the first end 372 of the suction surface 371 onto the first end 372 when the adhesive tape is cut, so that the adhesive tape portion adsorbed by the suction surface 371 is not displaced when the adhesive tape is cut, thereby ensuring that the adhesive sheet formed on the suction surface 371 is not inclined, and ensuring the quality of the adhesive sheet attached to the battery.

the glue pressing mechanism 40 comprises a glue pressing translation driving assembly 41, a moving plate 45 connected with the glue pressing translation driving assembly 41, a glue pressing lifting assembly 46 arranged on the moving plate 45 and a glue pressing assembly 47 connected with the glue pressing lifting assembly 46; the driving direction of the glue pressing translation driving component 41 is the longitudinal direction of the adsorption surface 371, and is used for driving the glue pressing component 47 to do linear motion along the longitudinal direction of the adsorption surface 371; the glue pressing lifting assembly 46 is used for making linear motion along the direction vertical to the adsorption surface 371; the glue pressing assembly 47 is used for pressing the free end of the adhesive tape on the second end 373 of the absorption surface 371 or pressing the adhesive tape portion of the adhesive tape corresponding to the first end 371 of the absorption surface 37 on the first end 371 between cuts when the free end of the adhesive tape is pulled to the second end of the absorption surface 37 under the driving of the glue pressing translation driving assembly 41 and the glue pressing lifting assembly 46.

The glue pressing translation driving assembly 41 comprises a glue pressing translation driving motor 42, a glue pressing translation driving gear 43 connected with an output shaft of the glue pressing translation driving motor 42 and a glue pressing translation driving rack 44 arranged on a moving plate 45, the glue pressing translation driving rack 44 extends along the longitudinal direction of the adsorption surface 371, and the glue pressing translation driving rack 44 is meshed with the glue pressing translation driving gear 43.

the glue pressing component 47 comprises a mounting frame 47 and a pressing block 48 connected with the mounting frame 47, and the pressing block 48 is arranged corresponding to the suction plate 37.

Referring to fig. 5 and fig. 6, the cutting mechanism 50 is located between the adhesive supplying mechanism 20 and the adhesive absorbing and adhering mechanism 30 along the moving direction of the adhesive tape, and is used for pressing the free end of the adhesive tape onto the second end 373 of the absorbing surface 371, and cutting the adhesive tape after the adhesive pressing mechanism 40 presses the portion to be cut of the adhesive tape onto the first end 372 of the absorbing surface 371, so as to form the adhesive sheet on the absorbing surface 371.

Specifically, the stretch-cutting mechanism 50 comprises a push plate translation assembly 51, a first sliding plate 52 connected with the push plate translation assembly 51, a push plate lifting assembly 54 arranged on the first sliding plate 52, a second sliding plate 53 connected with the push plate lifting assembly 54, and a glue clamping assembly 55 and a glue cutting assembly 56 arranged on the second sliding plate 53; the clamping assembly 55 is used for clamping the free end of the adhesive tape; the cutter module 57 is located downstream of the adhesive tape clamping assembly 55 along the moving direction of the adhesive tape, and is used for cutting short after the adhesive tape pressing mechanism 40 presses the adhesive tape part corresponding to the first end 372 onto the first end 372 of the adsorption surface 371; the driving direction of the push plate translation assembly 51 is parallel to the longitudinal direction of the adsorption surface 371 and is used for driving the rubber clamping assembly 55 and the cutter module 57 to do linear motion along the longitudinal direction of the adsorption surface 371; the driving direction of the pushing plate lifting assembly 54 is perpendicular to the absorption surface 371, and the pushing plate lifting assembly 54 is used for driving the adhesive clamping assembly 55 to move along the direction perpendicular to the absorption surface 371 when the adhesive clamping assembly 55 loosens the adhesive tape and exits from the absorption surface 371, so that the adhesive tape part corresponding to the absorption surface 371 is completely attached to the absorption surface 371.

in this embodiment, the push plate translation assembly 51 includes a push plate translation driving motor 511 mounted on the frame 10, a push plate translation driving gear 512 connected to an output shaft of the push plate translation driving motor 511, and a push plate translation driving rack 513 disposed on the first sliding plate 52, the push plate translation driving gear 512 engaging with the push plate translation driving rack 513; the pusher translation drive rack 513 extends longitudinally along the adsorption face 371.

The glue clamping assembly 55 comprises a first clamping block 551 arranged on the second sliding plate 53, a second clamping block 552 arranged opposite to the first clamping block 551 and a push block driving module 553 connected with the second clamping block 552; a tape channel for passing the tape is arranged between the first clamping block 551 and the second clamping block 552; the pushing block driving module 553 is used for pushing the second clamping block 552 to be close to the first clamping block 551, so that the first clamping block 551 and the second clamping block 552 clamp the free end of the adhesive tape.

The rubber cutting assembly 56 comprises a push broach driving module 58 arranged on the second sliding plate 53 and a cutter module 57 connected with the push broach driving module 58; the driving direction of the push broach driving module 58 is perpendicular to the absorption surface 371, and the push broach driving module 58 is used for driving the cutter module 57 to drive the cutter module 57 to move along the direction perpendicular to the absorption surface 371 so as to cut off the adhesive tape. In this embodiment, the glue cutting assembly 56 further includes a protective frame 59 mounted on the second sliding plate 53, the cutter module 57 is mounted in the protective frame 59, and one side of the protective frame 59 close to the suction plate 37 is open, so that the cutter module 57 can extend out of the protective frame 59 under the driving of the push-type cutter driving module 58. The protective frame 59 is used to prevent a worker from touching the cutter module 57 and being cut.

Referring to fig. 1 again, the guiding mechanism 60 is located between the adhesive supplying mechanism 20 and the cutting mechanism 50 along the moving direction of the adhesive tape, and is used for guiding the adhesive tape from the adhesive supplying mechanism 20 to the cutting mechanism 50. The guide mechanism 60 includes a start guide wheel 61, a last guide wheel 62 between the start guide wheel 61 and the stretch-cut mechanism 50, and an intermediate guide wheel 63 between the start guide wheel 61 and the last guide wheel 62.

The glue supply device of the battery tail gummed paper pasting equipment further comprises a distance sensor 70 arranged between the tail guide wheel 62 and the gumming assembly 55, the distance sensor 70 is positioned above the position of the adhesive tape between the tail guide wheel 62 and the gumming assembly 55, the distance sensor 70 is used for sensing the distance between the distance sensor and the adhesive tape, and if the distance between the distance sensor and the adhesive tape is detected to be larger than a first specified distance, the glue supply mechanism 20 stops automatically supplying the adhesive tape; when the distance sensor 70 detects that the distance between the distance sensor and the tape is equal to or less than the second designated distance (the second designated distance is less than the first designated distance), the tape operating mechanism starts to operate again to supply the tape that can be applied to the battery to the pull-cutting mechanism 50.

the concrete working principle of the glue supply device of the battery tail gummed paper pasting equipment of the embodiment is as follows:

1. Glue supply: the tape supply unit 21 supplies the tape and the sticker recovery unit 22 recovers the sticker to separate the sticker from the tape, thereby exposing the adhesive surface of the tape. In the process of supplying the adhesive tape, the distance sensor 70 senses the distance from the portion of the adhesive tape between the tail guide wheel 62 and the tape clamping assembly 55, and if it is detected that the distance from the adhesive tape is greater than a first designated distance, the tape supply assembly 21 and the sticker recovery assembly 22 are both stopped, and in the process of using the adhesive tape to stick to the battery, the distance between the distance sensor 70 and the adhesive tape is gradually reduced, and when the distance sensor 70 detects that the distance from the adhesive tape to the sticker recovery assembly is less than or equal to a second designated distance, the tape working assembly and the sticker recovery assembly 22 are simultaneously operated to continue to supply the adhesive tape with the adhesive surface exposed.

2. Pulling the glue: as shown in fig. 7, the adhesive tape clamping assembly 55 clamps the free end of the adhesive tape, wherein the free end of the adhesive tape protrudes to a side of the adhesive tape clamping assembly 55 close to the adhesive cutting assembly 56, and then the pushing plate translation assembly 51 drives the adhesive tape clamping assembly 55 to pull the free end of the adhesive tape to the second end 373 of the absorption surface 371.

3. pressing glue for the first time: as shown in fig. 8, the glue pressing translation driving assembly 41 drives the glue pressing assembly 47 to move to the first end 372 of the absorption surface 371 and align to the tape portion of the side of the glue clamping assembly 55 close to the glue cutting assembly 56, and then the glue pressing lifting assembly 46 drives the pressing block 48 of the glue pressing assembly 47 to press the free end of the tape on the first end 372 of the absorption surface 371.

4. Glue release and retraction of the glue clamping assembly 55: as shown in fig. 9, after the glue pressing assembly 47 presses the free end of the adhesive tape onto the first end 372 of the absorption surface 371, the glue clamping assembly 55 releases the adhesive tape, and the push plate translation assembly 51 drives the glue clamping assembly 55 to withdraw from the absorption surface 371 and return to the original position.

5. calibration: the pushing plate lifting assembly 54 drives the adhesive clamping assembly 55 to push the adhesive tape, so that the adhesive tape corresponding to the absorption surface 371 is tightly attached to the absorption surface 371, and is tightly absorbed by the absorption surface 371.

6. And (3) second glue pressing: first, the glue pressing lifting assembly 46 drives the glue pressing assembly 47 to be away from the adsorption surface 371, then the glue pressing translation driving assembly 41 drives the glue pressing assembly 47 to move towards the first end 372 of the adsorption surface 371, and after the glue pressing assembly 47 moves to the first end 372, as shown in fig. 11, the glue pressing lifting assembly 46 drives the glue pressing assembly 47 to press the adhesive tape portion corresponding to the first end 372 on the first end 372.

7. Cutting the glue: as shown in fig. 12, the push-type knife driving module 58 of the glue cutting assembly 56 operates to drive the cutter module 57 to cut the adhesive tape so as to form the adhesive sheet on the absorption surface 371, after the glue cutting, the glue pressing lifting assembly 46 and the glue pressing translation driving assembly 41 drive the glue pressing assembly 47 to return to the original position, and simultaneously, the push-plate lifting assembly 54 drives the first clamping block 551 and the second clamping block 552 to return to the original position.

8. Gluing: the rubberizing translation driving component 31 drives the suction plate 37 to move to a battery rubberizing station, then the rubberizing pushing and pressing component 35 drives the suction plate 37 to press the film to the end face of the tail of the battery, so that the film is pasted on the end face of the tail of the battery, and after the film is pasted, the rubberizing translation driving component 31 and the rubberizing pushing and pressing component 35 drive the suction plate 37 to return to the original position.

After the free end of the adhesive tape is pulled to the second end 373 of the absorbing surface 371 of the absorbing plate 37 of the adhesive tape sticking mechanism by the pulling and cutting mechanism 50, the free end corresponding to the clamping band is firstly pressed on the second end 373 of the absorbing surface 371 through the adhesive pressing mechanism 40, the situation that the free end store of the adhesive tape is pulled off from the second end 373 of the absorbing surface 371 when the pulling and cutting mechanism 50 releases the adhesive tape and exits from the absorbing surface 371 is avoided, then the adhesive tape part corresponding to the first end 372 is pressed on the first end 372 through the adhesive pressing mechanism 40 after the pulling and cutting mechanism 50 releases the adhesive tape and exits from the absorbing surface 371, the adhesive tape part corresponding to the absorbing surface 371 cannot incline due to the action of cutting force when the pulling and cutting mechanism 50 cuts the adhesive tape, the adhesive tape is ensured to be formed on the absorbing surface 371 in a non-inclined manner, and the quality of the subsequent adhesive tape sticking on the end surface of the tail of the.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

the above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. the utility model provides a battery afterbody gummed paper equipment supplies mucilage binding to be put which characterized in that includes:

The adhesive supply mechanism is used for supplying adhesive tapes;

The adhesive suction and sticking mechanism is positioned at the downstream of the adhesive supply mechanism along the moving direction of the adhesive tape and is used for adsorbing the adhesive tape part to be cut off from the adhesive tape and sticking the adhesive tape cut off from the adhesive tape on the end surface of the tail part of the battery, and the adhesive suction and sticking mechanism comprises a suction plate, wherein the suction plate is provided with an adsorption surface, and the adsorption surface is provided with a first end positioned at the upstream and a second end positioned at the downstream along the moving direction of the adhesive tape;

The drawing and cutting mechanism is positioned between the adhesive supplying mechanism and the adhesive sucking and adhering mechanism along the moving direction of the adhesive tape and is used for drawing the free end of the adhesive tape to the second end of the adsorption area and then cutting the adhesive tape;

The adhesive tape cutting mechanism is arranged on the suction plate and used for cutting the adhesive tape, the adhesive tape pressing mechanism is arranged corresponding to the suction plate and used for pressing the adhesive tape part corresponding to the first end of the suction area on the first end when the adhesive tape is cut, and the free end of the adhesive tape is pressed on the second end after the free end of the adhesive tape is pulled to the second end of the suction area by the drawing and cutting mechanism and before the adhesive tape is cut by the drawing and cutting mechanism.

2. the glue supply device of the equipment for sticking the gummed paper on the tail part of the battery as claimed in claim 1, wherein the glue supply mechanism comprises a gummed tape supply component and a sticker recovery component.

3. The glue supply device for the equipment for pasting gummed paper on the tail part of the battery according to claim 1, wherein the glue sucking and pasting mechanism comprises a pasting translational driving component, a frame connected with the pasting translational driving component, a rotary driving component arranged on the frame, a mounting plate connected with the rotary driving component, a pasting pushing component arranged on the mounting plate, and a connecting plate connected with the pasting pushing component and the suction plate.

4. The glue supply device for the equipment for pasting gummed paper on the tail part of the battery as claimed in claim 1, wherein the gumming mechanism comprises a gumming translation driving assembly, a moving plate connected with the gumming translation driving assembly, a gumming lifting assembly arranged on the moving plate and a gumming assembly connected with the gumming lifting assembly.

5. The glue supply device of the equipment for pasting gummed paper on the tail part of the battery as claimed in claim 1, wherein the drawing and cutting mechanism comprises a push plate translation assembly, a first sliding plate connected with the push plate translation assembly, a push plate lifting assembly arranged on the first sliding plate, a second sliding plate connected with the push plate lifting assembly, and a glue clamping assembly and a glue cutting assembly arranged on the second sliding plate; the adhesive tape cutting assembly is located at the downstream of the adhesive tape clamping assembly along the moving direction of the adhesive tape.

6. The glue supply device of the equipment for pasting gummed paper on the tail part of the battery as claimed in claim 5, wherein the gumming assembly comprises a first clamping block arranged on the second sliding plate, a second clamping block arranged opposite to the first clamping block and a pushing block driving module connected with the second clamping block; an adhesive tape channel for adhesive tapes to pass through is arranged between the first clamping block and the second clamping block.

7. The glue supply device of the equipment for pasting the gummed paper on the tail part of the battery as claimed in claim 5, wherein the glue cutting assembly comprises a push broach driving module mounted on the second sliding plate and a cutter module connected with the push broach driving module; the driving direction of the push broach driving module is perpendicular to the attachment surface.

8. The glue supply device for the equipment for pasting the gummed paper on the tail part of the battery as claimed in claim 7, wherein the glue cutting assembly further comprises a protective frame arranged on the second sliding plate, the cutter module is arranged in the protective frame, and one side of the protective frame, which is close to the suction plate, is open.

9. the glue supply device of the equipment for pasting gummed paper on the tail part of the battery as claimed in claim 1, further comprising a guide mechanism, wherein the guide mechanism is positioned between the glue supply mechanism and the drawing and cutting mechanism along the moving direction of the adhesive tape and is used for guiding the adhesive tape from the glue supply mechanism to the drawing and cutting mechanism.

10. The glue supply device of the equipment for pasting gummed paper on the tail part of the battery as claimed in claim 9, wherein the guide mechanism comprises a starting guide wheel, a tail guide wheel positioned between the starting guide wheel and the drawing and cutting mechanism, and a middle guide wheel positioned between the starting guide wheel and the tail guide wheel; the glue supply device of the battery tail gummed paper pasting equipment further comprises a distance sensor arranged between the tail guide wheel and the glue clamping assembly.