CN210706230U - Gluing mechanism - Google Patents

Abstract

The utility model provides a gluing mechanism, which comprises a feeding mechanism for bearing and driving facial tissues to lift, a paper feeding mechanism for sucking single facial tissues and sending the single facial tissues to a next station, a conveying mechanism for pressing the facial tissues to the next station, a gluing mechanism for gluing the facial tissues and a glue supplying mechanism for supplying glue to the gluing mechanism, wherein the feeding mechanism is positioned below the paper feeding mechanism; the utility model provides a realize automatic feeding and rubberizing in order to improve work efficiency's technical problem to the face paper.

Description

Gluing mechanism

Technical Field

The utility model belongs to the technical field of mechanical equipment, especially, relate to a gluing machine.

Background

Most of the packaging boxes generally comprise surface paper and a bottom plate, wherein the bottom plate mainly plays a supporting role for the packaging box, the surface paper is a layer of paper adhered to the outer surface of the bottom plate and mainly plays a decorative role for the packaging box, and in the adhering process of the surface paper and the bottom plate, the adhering surfaces of the surface paper and the bottom plate need to be coated with glue to ensure the adhering effect; because the thickness of the facial tissue is thin and the texture is soft, most small and medium-sized enterprises still adopt manual cooperation semi-automatic equipment to glue (gluing can also be interpreted as gluing or pasting), the specific operation is that the facial tissue is fed one by one to the semi-automatic equipment for gluing, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a to facial tissue realize automatic feeding and rubberizing in order to improve work efficiency's gluing mechanism to solve the problem that proposes in the background art.

In order to achieve the above object, the present invention adopts the following solutions:

the utility model provides a gluing mechanism, is including bearing and driving the feed mechanism that the facial tissue goes up and down, absorbing the sola facial tissue and sending to the paper feeding mechanism of next station, with facial tissue forced lubrication to the conveying mechanism of next station, carry out the rubberizing mechanism of rubberizing and for the gluey mechanism of confession that provides glue of rubberizing mechanism, feed mechanism is located paper feeding mechanism's below, conveying mechanism locates between paper feeding mechanism and the rubberizing mechanism, it is located one side of rubberizing mechanism to supply gluey mechanism.

Further, feed mechanism includes material loading platform, first motor, along first slide rail and the belt subassembly of vertical direction setting, the material loading platform slides and sets up on first slide rail, first motor passes through the belt subassembly drive material loading platform and slides on first slide rail.

Further, the paper feeding mechanism comprises a sucker assembly, a second motor, a cam shaft, a lifting assembly and a pushing assembly, wherein the second motor drives the cam shaft to rotate;

the sucker assembly comprises a sucker, an upper lifting block, a push block and a guide rod, the sucker is fixedly arranged at the lower end of the upper lifting block, the guide rod is vertically and fixedly arranged at the upper end of the push block, and the upper end of the guide rod penetrates through the upper lifting block and is in sliding connection with the upper lifting block;

the lifting assembly comprises a first cam and a first arm, the cam shaft penetrates through and is fixed to the wheel center of the first cam, and the first cam rotates to drive the first arm to lift the lifting block upwards;

the pushing assembly comprises a second cam and a second arm, the cam shaft penetrates through and is fixed to the wheel center of the second cam, and the second cam rotates to drive the second arm to push the pushing block forwards and backwards.

Further, the paper feeding mechanism further comprises a stepping assembly, the stepping assembly comprises a third cam, a third arm and a stepping block, the cam shaft penetrates through and is fixed to the wheel center of the third cam, the stepping block is fixedly arranged at the lower end of the third arm, and the third cam rotates to drive the third arm to move up and down.

Further, conveying mechanism includes third motor, conveying roller and layering, the third motor drive conveying roller rotates, the layering is mutually supported with the conveying roller, and the layering is located the conveying roller top.

Further, conveying mechanism still includes transfers wide subassembly, transfer wide subassembly including hand wheel, lead screw subassembly and the bumping post that sets up along the vertical direction, the hand wheel passes through the lead screw subassembly and drives the bumping post and remove along the horizontal direction.

Further, rubberizing mechanism includes fourth motor, sprocket assembly, the big cylinder that sets up along the horizontal direction and the little cylinder of mutually supporting with big cylinder, the axle center of big cylinder is parallel to each other with the axle center of little cylinder, the fourth motor passes through sprocket assembly and drives big cylinder and little cylinder rotation simultaneously.

Further, the glue supply mechanism comprises a glue barrel, a pump for pumping glue out of the glue barrel and a glue outlet, the pump is communicated with the glue outlet through a pipe, and the glue outlet is positioned above the large roller and the small roller.

Further, still include scraper assembly, scraper assembly includes handle of a knife and scraper, the one end of scraper is equipped with the cutting edge, the other end and handle of a knife fixed connection, the cutting edge is mutually supported with big cylinder.

Further, still include the glue collection subassembly, the glue collection subassembly includes the collecting vat and collects the funnel, the collecting vat is located big cylinder and little cylinder under, one side of collecting vat is equipped with the overflow mouth, the upper end of collecting the funnel is located the below of overflow mouth, and the lower extreme is located gluey bucket.

The utility model has the advantages that: the utility model discloses a feed mechanism drives the facial tissue of piling and rises, sends the facial tissue to paper feeding mechanism's below, absorbs the facial tissue of the superiors in proper order and send to conveying mechanism through paper feeding mechanism, and conveying mechanism feeds the pressure feed that the facial tissue is stable to gluing mechanism, provides required glue through supplying gluey mechanism to gluing mechanism, and gluing mechanism carries out the rubberizing operation with the one side of facial tissue, makes the facial tissue need not manual operation from the process of material feeding rubberizing, compares with manual fit semi-automatization equipment, the utility model discloses need not the manual work and go on the material loading in proper order, avoided the influence of factors such as artifical easy fatigue, easy mistake, thereby make the utility model discloses work efficiency has been improved to a certain extent.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a part of the structure of the present invention;

fig. 3 is a schematic structural diagram of the feeding mechanism of the present invention;

FIG. 4 is a schematic view of the paper feeding mechanism of the present invention;

fig. 5 is a schematic structural diagram of the lifting assembly, the pushing assembly and the stepping assembly of the present invention;

FIG. 6 is a schematic structural view of the chuck assembly of the present invention;

fig. 7 is a schematic structural diagram of the lifting assembly of the present invention;

fig. 8 is a schematic structural view of the pushing assembly of the present invention;

fig. 9 is a side view of the pushing assembly of the present invention;

fig. 10 is a schematic structural view of the step-down assembly of the present invention;

FIG. 11 is a front view of the structure of the step-down assembly of the present invention;

fig. 12 is a partial schematic structural view of the conveying mechanism of the present invention;

fig. 13 is a schematic structural view of the conveying mechanism of the present invention;

fig. 14 is a schematic structural view of the width adjusting assembly of the present invention;

fig. 15 is a schematic structural view of the gluing mechanism of the present invention;

FIG. 16 is a schematic view of the construction of the doctor assembly, large and small rolls of the present invention;

FIG. 17 is a schematic view of the structure of the scraper and the handle of the present invention;

FIG. 18 is a schematic structural view of the glue supply mechanism, the large roller and the small roller of the present invention;

fig. 19 is a schematic structural diagram of the blanking mechanism, the glue barrel, the big roller and the small roller of the present invention.

The attached drawings are illustrated as follows:

a frame 1;

the device comprises a feeding mechanism 2, a feeding table 21, a first motor 22, a first slide rail 23, a belt assembly 24 and a limiting column 25;

a paper feeding mechanism 3, a saw-tooth lever 31, a cam box 32;

the sucker component 33, the sucker 331, the lifting block 332, the small roller 333, the push block 334 and the guide rod 335;

a second motor 34, a cam shaft 35;

the lifting assembly 36, the first cam 361, the first bearing 362, the first arm 363;

the pushing member 37, the second cam 371, the second bearing 372, the second arm 373, the second push rod 374;

a step-down assembly 38; a third cam 381, a third bearing 382, a third arm 383, a third push rod 384, a V-shaped block 385, a pivoting block 386, a transmission rod 387 and a stepping-down block 388;

a fixed shaft 39;

the conveying mechanism 4, the third motor 41, the conveying roller 42, the supporting rod 43, the pressing strip 44, the width adjusting assembly 45, the hand wheel 451, the screw rod assembly 452 and the blocking column 453;

a gluing mechanism 5, a fourth motor 51, a chain wheel component 52, a large roller 53 and a small roller 54;

scraper assembly 6, knife handle 61, scraper 62, knife edge 621, support bar 63;

the glue supply mechanism 7, the glue barrel 71, the pump 72 and the glue outlet 73;

glue collecting assembly 8, collecting tank 81, collecting funnel 82, baffle 83 and collecting pipe 84;

the blanking mechanism 9, the fifth motor 91 and the conveyor belt 92.

Detailed Description

The invention is further explained below with reference to the drawings:

the gluing mechanism shown in fig. 1 and 2 comprises a frame 1, a feeding mechanism 2 for bearing and driving facial tissues to lift, a paper feeding mechanism 3 for sucking a single piece of facial tissues and sending the single piece of facial tissues to a next station, a conveying mechanism 4 for pressure-feeding the facial tissues to the next station, a gluing mechanism 5 for gluing the facial tissues, a scraper component 6, a glue supplying mechanism 7 for supplying glue to the gluing mechanism 5, a glue collecting component 8 and a blanking mechanism 9 for conveying the glued facial tissues away, wherein the feeding mechanism 2 is positioned below the paper feeding mechanism 3, the conveying mechanism 4 is arranged between the paper feeding mechanism 3 and the gluing mechanism 5, and the glue supplying mechanism 7 is positioned on one side of the gluing mechanism 5.

As shown in fig. 3, the feeding mechanism 2 includes a feeding table 21, a first motor 22, a first slide rail 23 disposed along a vertical direction, a belt assembly 24 and a limiting column 25, the feeding table 21 is disposed along a horizontal direction, a side surface of the feeding table 21 is slidably disposed on the first slide rail 23, the first motor 22 drives the feeding table 21 to slide on the first slide rail 23 through the belt assembly 24, when the feeding table 21 slides upward, the facial tissue stack is driven to move upward, so as to deliver the facial tissue to a lower station of the paper feeding mechanism 3, the paper feeding mechanism 3 operates the facial tissue, the limiting column 25 is vertically fixed on the feeding table 21, and is used for abutting against the facial tissue in a stack, so as to prevent the facial tissue stack from skewing.

As shown in fig. 4 and 5, the paper feeding mechanism 3 includes a saw tooth bar 31, a cam box 32, a suction cup assembly 33, a second motor 34, a cam shaft 35, a lifting assembly 36, a pushing assembly 37, a stepping assembly 38 and a fixing shaft 39, the second motor 34 drives the cam shaft 35 to rotate, one end of the saw tooth bar 31 is fixedly arranged on the frame 1, the other end of the saw tooth bar passes through the cam box 32, the cam box 32 can slide along the saw tooth bar 31 to adjust the position, the fixing shaft 39 and the cam shaft 35 are both fixed in the cam box 32 along the horizontal direction, and the cam shaft 35 is located at the lower position between the fixing shaft 39 and the conveying mechanism 4.

As shown in fig. 6, the suction cup assembly 33 includes a suction cup 331, an upper lifting block 332, a small roller 333, a pushing block 334 and a guide rod 335, the suction cup 331 is fixedly disposed at the lower end of the upper lifting block 332, a notch is disposed at the upper end of the upper lifting block 332, the small roller 333 is pivoted in the notch, the guide rod 335 is vertically and fixedly disposed at the upper end of the pushing block 334, the upper end of the guide rod 335 passes through the upper lifting block 332 and is slidably connected with the upper lifting block 332, and the functions of the arrangement are as follows: when the lifting block 332 drives the suction cup 331 to move upward, the lifting block 332 and the guide rod 335 slide with each other, at this time, the pushing block 334 is stationary, and when the pushing block 334 pushes forward, the lifting block 332 and the suction cup 331 are driven to move forward together.

As shown in fig. 7, the upward lifting assembly 36 includes a first cam 361, a first bearing 362 and a first arm 363, the cam shaft 35 passes through and is fixed at the wheel center of the first cam 361, one end of the first arm 363 is pivoted on the fixed shaft 39, the other end of the first arm 363 extends into the notch at the upper end of the upward lifting block 332 and abuts against the lower end of the small roller 333, the first bearing 362 is pivoted at the middle part of the first arm 363, the outer ring of the first bearing 362 rolls along the circumferential surface of the first cam 361, the first cam 361 rotates to drive the first arm 363 to lift the upward lifting block 332, that is, the first cam 361 rotates to drive the first bearing 362 to move up and down, and further drives the first arm 363 to rotate around the fixed shaft 39, so that the first arm 363 lifts up the small roller 333;

as shown in fig. 8 and 9, the pushing assembly 37 includes a second cam 371, a second bearing 372, a second arm 373, and a second push rod 374, the cam shaft 35 passes through and is fixed at the wheel center of the second cam 371, one end of the second arm 373 is pivoted on the fixed shaft 39, the other end is hinged with the second push rod 374, one end of the second push rod 374 is fixedly connected with the push block 334, the second bearing 372 is pivoted at the middle portion of the second arm 373, and the outer ring of the second bearing 372 rolls along the circumferential surface of the second cam 371, the second cam 371 rotates to drive the second bearing 372 to move back and forth, thereby driving the lower end of the second arm 373 to swing around the fixed shaft 39 as the axle center, and simultaneously driving the push block 334 to move back and forth through the second push rod 374.

As shown in fig. 10 and 11, the stepping-down assembly 38 includes a third cam 381, a third bearing 382, a third arm 383, a third push rod 384, a V-shaped block 385, a pivot block 386, a transmission rod 387, and a stepping-down block 388, wherein the cam shaft 35 passes through and is fixed at the wheel center of the third cam 381, one end of the third arm 383 is pivoted on the fixed shaft 39, the other end is hinged with the third push rod 384, the third bearing 382 is pivoted at the middle part of the third arm 383, the outer ring of the third bearing 382 rolls along the circumferential surface of the third cam 381, the third push rod 384 is hinged with one end of the V-shaped block 385, the other end of the V-shaped block 385 is hinged at the middle part of the transmission rod 387, the middle part of the V-shaped block is hinged on the cam box 32, one end of the pivot block 386 is hinged on the cam box 32, the other end is hinged on one end of the transmission rod 387, the other end of the transmission rod 387 is fixedly connected, the lower end of the third arm 383 can move back and forth by taking the fixed shaft 39 as an axis, and meanwhile, the third push rod 384 can be driven to move back and forth, so that the third push rod 384 can push one end of the V-shaped block 385 to move back and forth, the other end of the V-shaped block 385 is driven to move up and down, the transmission rod 387 is driven to move up and down, the lower treading block 388 is driven to move up and down, when the transmission rod 387 moves up and down, the upper end of the transmission rod 387 can only swing within a fixed range through the pivoting block 386, and therefore the swinging range of the lower end of the transmission rod; the step-down assembly 38 is configured to: after the sucking disc 331 sucks away the first layer facial tissue that is the topmost one deck facial tissue of facial tissue heap, because the facial tissue is lighter, when the first layer facial tissue was lifted up, probably can drive the facial tissue of second floor, stepped on the second layer facial tissue through stepping down the piece 388 during this time, avoid the second floor to be moved, the correct posture of facial tissue when having guaranteed the feeding in the removal degree.

As shown in fig. 12 and 13, the conveying mechanism 4 includes a third motor 41, a conveying roller 42, a supporting rod 43, a pressing bar 44 and a width adjusting assembly 45, the axial center of the conveying roller 42 and the axial center of the supporting rod 43 are parallel to each other, the middle part of the pressing bar 44 is fixedly arranged on the supporting rod 43, the third motor 41 drives the conveying roller 42 to rotate, the pressing bar 44 is matched with the conveying roller 42, the pressing bar 44 is arranged above the conveying roller 42, that is, one surface of the pressing bar 44 faces the circumferential surface of the conveying roller 42, one end of the pressing bar 44 points to the gluing mechanism 5, and the conveying roller 42 rotates to enable the facial tissue to be conveyed to the gluing mechanism 5 from between the.

As shown in fig. 14, the width adjusting assembly 45 includes a hand wheel 451, a screw assembly 452, and a stop column 453 disposed along a vertical direction, the hand wheel 451 drives the stop column 453 through the screw assembly 452 to move along a horizontal direction, that is, by rotating the hand wheel 451, the screw assembly 452 is driven to rotate, so as to drive the stop column 453 to move, the stop column 453 is located between the conveying roller 42 and the paper feeding mechanism 3, and is used for ensuring that the facial tissue is not skewed when being conveyed to the conveying roller 42, and playing a certain limiting role on the facial tissue.

As shown in fig. 15, the gluing mechanism 5 includes a fourth motor 51, a chain wheel assembly 52, a large roller 53 arranged along the horizontal direction and a small roller 54 matched with the large roller 53, the axis of the large roller 53 is parallel to the axis of the small roller 54, the fourth motor 51 drives the large roller 53 and the small roller 54 to rotate simultaneously through the chain wheel assembly 52, the small roller 54 is positioned between the large roller 53 and the width adjusting assembly 45, the large roller 53 and the small roller 54 rotate oppositely, i.e. in the direction shown in fig. 16, the distance between the large roller 53 and the small roller 54 is set according to the needed gluing thickness, the conveying mechanism 4 conveys facial tissue to the lower end of the large roller 53 and enables the facial tissue to be pressed against the circumferential surface of the large roller 53, and the facial tissue is glued along with the rotation of the large roller 53.

Although some of the facial tissue is thin, the facial tissue is hard and wide in size, and is directly conveyed away by the blanking mechanism 9 after being fed by the large roller 53, but some of the facial tissue is soft, and when the facial tissue is glued by the large roller 53, the facial tissue is attached to the large roller 53 and rotates along with the large roller 53, and at the moment, the facial tissue needs to be scraped from the large roller 53 by using the scraper assembly 6.

As shown in fig. 16 and 17, the scraper assembly 6 includes a knife handle 61, a scraper 62 and a support rod 63, one end of the scraper 62 is provided with a knife edge 621, the other end is fixedly connected with the knife handle 61, the knife handle 61 is connected to the support rod 63, the support rod 63 is fixedly arranged on the frame 1, the knife edge 621 and the large roller 53 are mutually matched, that is, the direction indicated by the knife edge 621 is tangent to the circumferential surface of the large roller 53, and when the large roller 53 drives the facial tissue to rotate to the knife edge 621, the knife edge 621 can scrape the facial tissue and make the facial tissue fall to the blanking mechanism 9.

As shown in fig. 18, the glue supply mechanism 7 includes a glue tank 71, a pump 72 for pumping glue out of the glue tank 71, and a glue outlet 73, the pump 72 is communicated with the glue outlet 73 through a pipe, the glue outlet 73 is located above the space between the large roller 53 and the small roller 54, and the pump 72 pumps the glue in the glue tank 71 and flows between the large roller 53 and the small roller 54 through the glue outlet 73.

As shown in fig. 19, the glue collecting assembly 8 includes a collecting tank 81, a collecting funnel 82, two baffles 83 and two collecting pipes 84 respectively matched with the two baffles 83, the collecting tank 81 is located under the large roller 53 and the small roller 54, an overflow outlet is arranged at one side of the collecting tank 81, the upper end of the collecting funnel 82 is located under the overflow outlet, and the lower end of the collecting funnel 82 is located in the glue bucket 71, when glue overflows from the large roller 53 and the small roller 54, the glue just drops into the collecting tank 81, flows into the collecting funnel 82 through the overflow outlet on the collecting tank 81, and flows into the glue bucket 71 through the collecting funnel 82, so that the glue is not wasted; two baffles 83 are respectively arranged at two ends between the large roller 53 and the small roller 54 to ensure that enough glue is arranged between the large roller 53 and the small roller 54, one end of a collecting pipe 84 penetrates through the baffles 83, and the other end of the collecting pipe 84 is arranged above the collecting tank 81, when too much glue is arranged between the large roller 53 and the small roller 54, the excessive glue flows into the collecting tank 81 through the collecting pipe 84, and therefore the glue between the large roller 53 and the small roller 54 is ensured to be kept in a required amount.

The blanking mechanism 9 comprises a fifth motor 91 and a conveyor belt 92, wherein the fifth motor 91 drives the conveyor belt 92 to rotate, and the conveyor belt 92 is used for conveying the facial tissue subjected to gluing to stations of other equipment for processing.

The utility model discloses a theory of operation does: 1. the stacked facial tissue is placed on the feeding table 21 and is abutted against the limiting column 25, the first motor 22 drives the feeding table 21 to ascend, and meanwhile, the facial tissue is sent to a corresponding station of the paper feeding mechanism 3;

2. the sucking disc 331 sucks the topmost layer of facial tissue of the facial tissue stack, the lifting assembly 36 drives the sucking disc 331 to ascend, the pushing assembly 37 pushes the sucking disc 331 to move forwards, so that the facial tissue is conveyed between the conveying roller 42 and the pressing bar 44, and meanwhile, the lower stepping assembly 38 steps on the second layer of facial tissue to prevent the second layer of facial tissue from being moved;

3. the pump 72 pumps out the glue in the glue barrel 71 and flows between the large roller 53 and the small roller 54 through the glue outlet 73;

4. the facial tissue is driven by the conveying roller 42 to be conveyed and attached to the lower end of the circumferential surface of the large roller 53 for gluing;

5. the scraper 62 scrapes the facial tissue attached to the large roller 53 onto the conveyor belt 92, and the glued facial tissue is conveyed to a station of other equipment for processing through the conveyor belt 92.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (10)

1. A gluing mechanism is characterized in that: the automatic tissue gluing machine comprises a feeding mechanism (2) for bearing and driving tissue paper to lift, a paper feeding mechanism (3) for sucking single tissue paper and conveying the single tissue paper to a next station, a conveying mechanism (4) for conveying the tissue paper to the next station, a gluing mechanism (5) for gluing the tissue paper and a glue supplying mechanism (7) for supplying glue to the gluing mechanism (5), wherein the feeding mechanism (2) is located below the paper feeding mechanism (3), the conveying mechanism (4) is arranged between the paper feeding mechanism (3) and the gluing mechanism (5), and the glue supplying mechanism (7) is located on one side of the gluing mechanism (5).

2. A gluing mechanism according to claim 1, wherein: the feeding mechanism (2) comprises a feeding table (21), a first motor (22), a first sliding rail (23) and a belt assembly (24), wherein the first sliding rail (23) and the belt assembly (24) are arranged in the vertical direction, the feeding table (21) is arranged on the first sliding rail (23) in a sliding mode, and the first motor (22) drives the feeding table (21) to slide on the first sliding rail (23) through the belt assembly (24).

3. A gluing mechanism according to claim 1, wherein: the paper feeding mechanism (3) comprises a sucker assembly (33), a second motor (34), a cam shaft (35), a lifting assembly (36) and a pushing assembly (37), wherein the second motor (34) drives the cam shaft (35) to rotate;

the sucker component (33) comprises a sucker (331), an upper lifting block (332), a pushing block (334) and a guide rod (335), the sucker (331) is fixedly arranged at the lower end of the upper lifting block (332), the guide rod (335) is vertically and fixedly arranged at the upper end of the pushing block (334), and the upper end of the guide rod (335) penetrates through the upper lifting block (332) and is in sliding connection with the upper lifting block (332);

the lifting assembly (36) comprises a first cam (361) and a first arm (363), the cam shaft (35) penetrates through and is fixed to the wheel center of the first cam (361), and the first cam (361) rotates to drive the first arm (363) to lift the lifting block (332) upwards;

the pushing assembly (37) comprises a second cam (371) and a second arm (373), the cam shaft (35) penetrates through and is fixed to the wheel center of the second cam (371), and the second cam (371) rotates to drive the second arm (373) to push the push block (334) forwards and backwards.

4. A gluing mechanism according to claim 3, wherein: the paper feeding mechanism (3) further comprises a stepping assembly (38), the stepping assembly (38) comprises a third cam (381), a third arm (383) and a stepping block (388), the cam shaft (35) penetrates through and is fixed to the wheel center of the third cam (381), the stepping block (388) is fixedly arranged at the lower end of the third arm (383), and the third cam (381) rotates to drive the third arm (383) to move up and down.

5. A gluing mechanism according to claim 1, wherein: conveying mechanism (4) include third motor (41), conveying roller (42) and layering (44), third motor (41) drive conveying roller (42) rotate, layering (44) and conveying roller (42) mutually support, and conveying roller (42) top is located in layering (44).

6. A gluing mechanism according to claim 5, wherein: the conveying mechanism (4) further comprises a width adjusting assembly (45), the width adjusting assembly (45) comprises a hand wheel (451), a screw rod assembly (452) and a blocking column (453) arranged along the vertical direction, and the hand wheel (451) drives the blocking column (453) to move along the horizontal direction through the screw rod assembly (452).

7. A gluing mechanism according to claim 1, wherein: gluing mechanism (5) include fourth motor (51), sprocket assembly (52), along big cylinder (53) that the horizontal direction set up and with big cylinder (53) little cylinder (54) of mutually supporting, the axle center of big cylinder (53) is parallel to each other with the axle center of little cylinder (54), fourth motor (51) pass through sprocket assembly (52) and drive big cylinder (53) and little cylinder (54) simultaneously and rotate.

8. A gluing mechanism according to claim 7, wherein: the glue supply mechanism (7) comprises a glue barrel (71), a pump (72) and a glue outlet (73), wherein glue is pumped out from the glue barrel (71), the pump (72) is communicated with the glue outlet (73) through a pipe, and the glue outlet (73) is positioned above the space between the large roller (53) and the small roller (54).

9. A gluing mechanism according to claim 7, wherein: still include scraper subassembly (6), scraper subassembly (6) are including handle of a knife (61) and scraper (62), the one end of scraper (62) is equipped with cutting edge (621), the other end and handle of a knife (61) fixed connection, cutting edge (621) and big cylinder (53) are mutually supported.

10. A gluing mechanism according to claim 8, wherein: still include glue collection assembly (8), glue collection assembly (8) are including collecting vat (81) and collection funnel (82), collecting vat (81) are located big cylinder (53) and little cylinder (54) under, one side of collecting vat (81) is equipped with the overflow mouth, the upper end of collecting funnel (82) is located the below of overflow mouth, and the lower extreme is located gluey bucket (71).

Images