CN111559122A

CN111559122A - Novel corrugated paper embossing and gluing device and corrugated paper embossing and gluing method

Info

Publication number: CN111559122A
Application number: CN202010415729.0A
Authority: CN
Inventors: 商兆惠; 邵龙; 张利粉
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-16
Filing date: 2020-05-16
Publication date: 2020-08-21

Abstract

The invention discloses a novel corrugated paper embossing and gluing device and a corrugated paper embossing and gluing method, wherein the novel corrugated paper embossing and gluing device comprises an embossing mechanism, wherein the input end of the embossing mechanism is provided with a raw paper conveying mechanism, and the output end of the embossing mechanism is provided with a gluing mechanism; the base paper conveying mechanism is used for conveying a paper board to the embossing mechanism, the embossing mechanism is used for pressing protrusions on the paper board, and the gluing mechanism is used for coating glue on the protrusions pressed on the paper board; this novel corrugated paper impress rubberizing device can realize the impression of novel corrugated paper raw materials, and the rubber coating is folded and is pressed, and production efficiency is high, and the novel corrugated paper quality of producing moreover is unified.

Description

Novel corrugated paper embossing and gluing device and corrugated paper embossing and gluing method

Technical Field

The invention relates to the corrugated paper processing industry, in particular to a novel corrugated paper impression gluing device and a corrugated paper impression gluing method.

Background

Along with the rise of network electricity merchants, the scale of the express delivery industry is increasingly huge, a large amount of corrugated paper is needed for packaging operation, and the corrugated paper industry is also developed. Along with the rapid development of the E-commerce, the express industry is prosperous and brings troubles, the packaging weight is reduced, the packaging garbage is treated, and the environment is protected. Conventional corrugated paper is typically shaped into three, U, V, or UV, sheets, and then laminated with three, five, or seven layers of paperboard. Taking three layers as an example, regardless of the U-shaped, V-shaped or UV-shaped corrugated board, each piece of corrugated board needs a relatively long base paper, and the weight of the board is relatively heavy with respect to the raw materials. The corrugated paper finished product with the same length has the advantages that compared with the traditional U, V corrugated paper and UV corrugated paper finished product, the corrugated paper finished product with the same length has the advantages that raw materials are saved, the weight is lighter, the strength and the rigidity are good, and the effects of the traditional three layers can be achieved only by two layers, so that materials are saved; however, most of new corrugated paper processing is carried out manually, the embossing is carried out manually, then the glue is coated manually, the whole process is time-consuming and labor-consuming, and the production efficiency is low.

Disclosure of Invention

The invention aims to provide a novel corrugated paper embossing and gluing device which can realize embossing, gluing and laminating of novel corrugated paper raw materials, is high in production efficiency, and can produce novel corrugated paper with uniform quality.

In order to achieve the purpose, the invention provides the following technical scheme:

a novel corrugated paper embossing and gluing device comprises an embossing mechanism, wherein a raw paper conveying mechanism is arranged at the input end of the embossing mechanism, and a gluing mechanism is arranged at the output end of the embossing mechanism; body paper conveying mechanism is used for conveying the cardboard to the mechanism of embossing, the mechanism of embossing is used for suppressing the arch on the cardboard, glue is paintd to the arch that the rubber coating mechanism is used for suppressing on the cardboard.

Through above-mentioned technical scheme, this novel corrugated paper impress rubberizing device during operation, control body paper conveying mechanism is to the delivery board of bellying mechanism, the bellying mechanism is protruding to the cardboard suppression of carrying to deliver to the rubber coating mechanism, the rubber coating mechanism paints glue to the arch of suppressing on the cardboard.

In a further technical scheme, the base paper conveying mechanism comprises a conveying frame, a roller is rotatably connected in the conveying frame, a paper board is wound on the roller, an output end of the conveying frame is rotatably connected with an upper output roller, the upper output roller and the roller are arranged in parallel, and the conveying frame is fixedly provided with an output motor for driving the upper output roller to rotate through a first support; two sides of the conveying frame are respectively provided with a first limiting sliding groove below two ends of the upper output roller along the vertical direction, a lower output roller is rotatably connected between the two first limiting sliding grooves, two ends of the upper output roller are respectively and fixedly provided with an upper gear, and two ends of the lower output roller are respectively and fixedly provided with a lower gear meshed with the upper gear; and the two sides of the conveying frame are provided with first pressing assemblies below the two ends of the lower output roller through bumps, and the first pressing assemblies are used for forcing the lower output roller to be pressed on the upper output roller.

According to the technical scheme, when the base paper conveying mechanism works, the roller with the paper board wound thereon is placed on the conveying frame, and the paper board is manually conveyed between the upper output roller and the lower output roller; controlling an output motor to drive an upper output roller to rotate, driving an upper gear to rotate when the upper output roller rotates, driving a lower output roller to synchronously and reversely rotate through a lower gear when the upper gear rotates, so that the paper board positioned between the upper output roller and the lower output roller is output, and a roller with the paper board coiled therein rotates along with the paper board when the paper board is output; in addition, the first pressing assembly is arranged, so that the lower output roller is pressed upwards on the upper output roller, and stable output of the paper board is guaranteed.

In a further technical scheme, two sides of the conveying frame are rotatably connected with first rotating shafts which are arranged in parallel with the roller, each first rotating shaft is rotatably connected with a turnover frame, and two sides of the conveying frame are respectively hinged with a turnover cylinder for driving the turnover frame to rotate around the first rotating shafts; each roll-over stand is provided with a middle sliding chute, a compression roller arranged in parallel with the roller is arranged between the two roll-over stands, and two ends of the compression roller are respectively positioned in the middle sliding chutes; each first rotating shaft is fixedly provided with a first gear meshed with the upper gear between the roll-over stand and the conveying frame, and one end extending out of the roll-over stand is fixedly provided with a first belt wheel; guide sliding rods arranged along the length direction of the middle sliding chute are fixedly arranged on two sides of the middle sliding chute on each turnover frame, a sliding block is arranged between the two guide sliding rods, and each guide sliding rod is provided with a first spring used for forcing the sliding block to move in the direction away from the first gear; notches are formed in the two sides of the middle sliding groove of each overturning frame, and are arranged along the length direction of the middle sliding groove; the sliding block is provided with second rotating shafts extending out of the two notches, and each second rotating shaft is provided with a second belt wheel; the compression roller is fixedly provided with a third belt wheel at one end extending out of the middle sliding chute; and fourth belt wheels are rotatably connected to two sides of the first belt wheel on each roll-over stand, first tensioning transmission belts are arranged among the first belt wheel, the two second belt wheels, the third belt wheel and the two fourth belt wheels, and the first tensioning transmission belts are used for forcing the third belt wheels to move in the direction away from the first belt wheels.

Through the technical scheme, when the upper gear rotates, the first rotating shaft is driven to rotate through the first gear, the first rotating shaft is driven to rotate through the first belt wheel, the first belt wheel drives the compression roller to rotate through the first transmission belt when rotating, and the compression roller is compressed outside the reeled paper board under the action of the tensioned first belt wheel, so that the compression roller drives the reeled paper board on the roller to rotate when rotating, the first spring presses the sliding block to move in the rotating process, the sliding block drives the first transmission belt to be tensioned through the two second belt wheels, and the compression roller is pulled to be compressed outside the reeled paper board all the time. In addition, because the compression roller rotates synchronously with the upper output roller and the lower output roller, the linear speed of the paper outlet plate of the roller can be ensured to be the same as the outer diameter linear speed of the upper output roller and the outer diameter linear speed of the lower output roller, so that the condition of paper breaking or paper jamming can not occur, and the condition of paper breaking or paper jamming can not occur due to the mechanical structure; after the cardboard of roll-up was used up on the roller, when the roller that new roll-up had the cardboard was put into to needs, earlier control upset cylinder stretch out and drive the roll-over stand and rotate, and drive the pressure roller when the roll-over stand rotates and leave, put the roller of new roll-up cardboard after, control upset cylinder withdrawal for the compression roller resets and compresses tightly on the cardboard of roll-up.

In a further technical scheme, the embossing mechanism comprises an embossing frame, a concave roller which is parallel to the upper output roller is rotationally connected in the embossing frame, second limiting sliding grooves are respectively formed in two sides of the embossing frame below two ends of the concave roller along the vertical direction, and a convex roller which is parallel to the concave roller is rotationally connected between the two second limiting sliding grooves; second gears are fixedly arranged at two ends of the concave surface roller, and third gears meshed with the second gears are fixedly arranged at two ends of the convex surface roller; the two sides of the convex pressing frame are provided with second pressing assemblies below the two ends of the convex roller through bumps, and the second pressing assemblies are used for forcing the convex roller to be pressed on the concave roller; one end of the convex roller is provided with a first convex shaft, the end of the lower output roller in the body paper conveying mechanism in the same direction is provided with a second convex shaft, and a second transmission belt is arranged between the first convex shaft and the second convex shaft.

Through the technical scheme, the embossing mechanism during operation, lower delivery roll by in the body paper conveying mechanism drives the second protruding axle and rotates, it rotates to drive first protruding axle through the second drive belt during the second protruding axle rotates, it rotates to drive the convex roller when first protruding axle rotates, the convex roller drives the synchronous antiport of concave roller through the meshing of third gear and second gear when rotating, set up the second in addition and compress tightly the subassembly and make the convex roller upwards compress tightly on the concave roller, thereby when guaranteeing the steady output of cardboard, bellied suppression on the cardboard has been guaranteed effectively.

In a further technical scheme, the first compressing assembly and the second compressing assembly have the same structure and respectively comprise a top block, two sliding rods are arranged on the top block, and the two sliding rods are connected in the convex block in a sliding manner along the vertical direction; a spring plate is connected between the two slide rods in a sliding manner, and a compression spring for forcing the top block to move upwards is arranged between the spring plate and the top block on each slide rod; the upper end of the ejector block is provided with an arc-shaped positioning groove; an adjusting screw is connected in the lug in a rotating mode and used for controlling the spring plate to move up and down.

Through above-mentioned technical scheme, the kicking block upward movement plays the effect that compresses tightly under compression spring's effect, rotates adjusting screw and adjusts the position of spring board, and then adjusts compression spring's pretightning force to can realize the ascending packing force of kicking block.

In a further technical scheme, the gluing mechanism comprises a gluing support, a top plate of the gluing support is provided with a support frame, and the support frame is provided with a glue storage box; a roller for coating glue on a bulge pressed on a paper plate is rotatably connected to an outlet at the lower end of the glue storage box, and a plurality of strip-shaped grooves are uniformly arranged on the side surface of the outer circumference of the roller at intervals; a gluing motor for driving the roller to rotate is fixedly arranged on two sides of the glue storage box through support plates; a third limiting sliding groove is formed in the support frame along the vertical direction, and a convex column extending into the third limiting sliding groove is arranged on the side face of the glue storage box; the two sides of the gluing support are respectively provided with a gluing cylinder, and the telescopic end of each gluing cylinder is connected with the glue storage box; when the gluing cylinder stretches out, the glue storage box moves upwards, and when the gluing cylinder contracts, the glue storage box moves downwards.

Through above-mentioned technical scheme, when carrying out the rubber coating to the arch on the cardboard, the cardboard extends between the roof of roller and rubber coating support, and control rubber coating cylinder shrink makes the roller compress tightly in the protruding top of cardboard, and control rubber coating motor drives the cylinder and rotates, carries out the rubber coating when the cylinder rotates on the one hand, and on the other hand drives the cardboard and moves to second body paper conveying mechanism.

In addition, the invention also provides a novel corrugated paper embossing and gluing method, which comprises the following steps:

controlling an output motor in a base paper conveying mechanism to drive an upper output roller and a lower output roller to synchronously and reversely rotate, and conveying a paper board wound on a roller to a embossing mechanism;

step two, synchronously and reversely rotating a concave roller and a convex roller in the embossing mechanism to emboss the pressed part of the paperboard, and conveying the paperboard embossed with the embossments to the gluing mechanism;

and step three, controlling the gluing cylinder to move downwards, enabling the roller to be pressed on the protrusion of the paperboard, controlling the gluing motor to drive the roller to rotate, and controlling the linear speed of the rotation of the roller to be consistent with the movement speed of the paperboard.

Advantageous effects

Compared with the prior art, the technical scheme of the invention has the following advantages:

according to the automatic corrugated paper embossing machine, the raw paper conveying mechanism is used for automatically conveying the paper boards to the embossing mechanism, the embossing mechanism is used for pressing the conveyed paper boards to form the protrusions, and then glue is automatically applied to the protrusions formed on the paper boards, so that automatic operation of paper board embossing and gluing is realized, labor input is greatly saved, and the quality of produced corrugated paper is uniform; in addition, because the compression roller rotates synchronously with the upper output roller and the lower output roller, the linear speed of the paper outlet plate of the roller can be ensured to be the same as the outer diameter linear speed of the upper output roller and the outer diameter linear speed of the lower output roller, so that the condition of paper breaking or paper jamming can not occur, and the condition of paper breaking or paper jamming can not occur due to the mechanical structure; after the cardboard of roll-up was used up on the roller, when the roller that new roll-up had the cardboard was put into to needs, earlier control upset cylinder stretch out and drive the roll-over stand and rotate, and drive the pressure roller when the roll-over stand rotates and leave, put the roller of new roll-up cardboard after, control upset cylinder withdrawal for the compression roller resets and compresses tightly on the cardboard of roll-up.

Drawings

FIGS. 1-2 are perspective views of the present invention;

FIG. 3 is a view showing a structure of the combination of the base paper conveying mechanism and the embossing mechanism according to the present invention;

FIGS. 4 to 8 are structural views of a base paper conveying mechanism according to the present invention;

FIG. 9 is an enlarged view of the structure at A in FIG. 8;

FIGS. 10-11 are structural views of the embossing mechanism of the present invention;

FIG. 12 is a structural view of a glue applying mechanism of the present invention.

Detailed Description

Please refer to fig. 1-12, which illustrate a novel corrugated paper embossing and gluing device, comprising an embossing mechanism 1, wherein the input end of the embossing mechanism 1 is provided with a raw paper conveying mechanism 21, and the output end of the embossing mechanism 1 is provided with a gluing mechanism 3; body paper conveying mechanism 21 is used for conveying the cardboard to embossing mechanism 1, embossing mechanism 1 is used for suppressing the arch on the cardboard, glue is paintd to the arch that rubber coating mechanism 3 is used for suppressing on the cardboard.

The base paper conveying mechanism 21 comprises a conveying frame 2a, a roller 2b is rotatably connected in the conveying frame 2a, a paperboard is wound on the roller 2b, an upper output roller 2c is rotatably connected at the output end of the conveying frame 2a, the upper output roller 2c is arranged in parallel with the roller 2b, and an output motor 2d for driving the upper output roller 2c to rotate is fixedly mounted on the conveying frame 2a through a first support 2a 1; two sides of the conveying frame 2a are respectively provided with a first limiting sliding groove 2a2 below two ends of an upper output roller 2c along the vertical direction, a lower output roller 2e is rotatably connected between the two first limiting sliding grooves 2a2, two ends of the upper output roller 2c are respectively and fixedly provided with an upper gear 2c1, and two ends of the lower output roller 2e are respectively and fixedly provided with a lower gear 2e1 meshed with the upper gear 2c 1; two sides of the conveying frame 2a are provided with first pressing assemblies 61 below two ends of the lower output roller 2e through the bumps 7, and the first pressing assemblies 61 are used for forcing the lower output roller 2e to be pressed on the upper output roller 2 c.

Two sides of the conveying frame 2a are rotatably connected with first rotating shafts 2f which are arranged in parallel with the rollers 2b, each first rotating shaft 2f is rotatably connected with a turning frame 2g, and two sides of the conveying frame 2a are respectively hinged with a turning cylinder 2h for driving the turning frames 2g to rotate around the first rotating shafts 2 f; each roll-over stand 2g is provided with a middle sliding groove 2g1, a press roller 2i arranged in parallel with the roller 2b is arranged between the two roll-over stands 2g, and two ends of the press roller 2i are respectively positioned in the middle sliding groove 2g 1; each first rotating shaft 2f is fixedly provided with a first gear 2j meshed with the upper gear 2c1 between the roll-over stand 2g and the conveying frame 2a, and one end extending out of the roll-over stand 2g is fixedly provided with a first belt pulley 2 k; each roll-over stand 2g is fixedly provided with a guide slide bar 2m arranged along the length direction of the middle slide groove 2g1 at two sides of the middle slide groove 2g1, a slide block 2n is arranged between the two guide slide bars 2m, and each guide slide bar 2m is provided with a first spring 2p used for forcing the slide block 2n to move in the direction away from the first gear 2 j; each roll-over stand 2g is provided with notches 2g2 at two sides of the middle sliding chute 2g1, and the notches 2g2 are arranged along the length direction of the middle sliding chute 2g 1; second rotating shafts (both shown in the figures) extending out of the two notches 2g2 are arranged on the sliding block 2n, and each second rotating shaft (both shown in the figures) is provided with a second belt wheel 2 r; one end of the compression roller 2i extending out of the middle chute 2g1 is fixedly provided with a third belt wheel 2 s; fourth pulleys 2t are rotatably connected to two sides of the first pulley 2k on each roll-over stand 2g, first tensioned transmission belts 2u are arranged among the first pulley 2k, the two second pulleys 2r, the third pulley 2s and the two fourth pulleys 2t, and the first tensioned transmission belts 2u are used for forcing the third pulley 2s to move in the direction away from the first pulley 2 k.

When the base paper conveying mechanism 21 works, the roller 2b wound with the paper board is placed on the conveying frame 2a, and the paper board is manually fed between the upper output roller 2c and the lower output roller 2 e; control output motor 2d and drive last output roller 2c and rotate, go up output roller 2c and drive gear 2c1 rotation when rotating, go up gear 2c1 and drive down synchronous antiport of output roller 2e through lower gear 2e1 when rotating, thereby will be located the cardboard output between output roller 2c and the lower output roller 2e, set up first compress tightly subassembly 61 in addition and make lower output roller 2e upwards compress tightly on last output roller 2c, thereby guarantee the steady output of cardboard. In addition, when the upper gear 2c1 rotates, the first gear 2j drives the first rotating shaft 2f to rotate, the first rotating shaft 2f drives the first belt pulley 2k to rotate when rotating, the first belt pulley drives the press roller 2i to rotate through the first transmission belt 2u when rotating, and as the press roller 2i is pressed on the outer side of the reeled paper board under the action of the tensioned first belt pulley 2k, the press roller 2i drives the paper board reeled on the roller 2b to rotate when rotating, the first spring 2p presses the sliding block 2n to move in the rotating process, the sliding block 2n drives the first transmission belt 2u to tension through the two second belt pulleys 2r, and the press roller 2i is pulled to be pressed on the outer side of the reeled paper board all the time. In addition, because the compression roller 2i rotates synchronously with the upper output roller 2c and the lower output roller 2e, the linear speed of the paper output of the roller 2b can be ensured to be the same as the outer diameter linear speed of the upper output roller 2c and the lower output roller 2e, so that the conditions of paper output speed change and paper breaking or paper jamming caused by the diameter change of the paper can be avoided, and the condition is ensured by a mechanical structure, so that errors can be avoided; after the cardboard of roll-up was used up on roller 2b, when need put into the roller 2b that new roll-up had the cardboard, earlier control upset cylinder 2h stretches out and drives roll-over stand 2g and rotate, drives pressure roller 2i when roll-over stand 2g rotates and leaves, puts the roller 2b back of new roll-up cardboard, controls upset cylinder 2h withdrawal for pressure roller 2i resets and compresses tightly on the cardboard of roll-up.

The embossing mechanism 1 comprises an embossing frame 11, a concave roller 12 which is parallel to the upper output roller 2c is rotatably connected in the embossing frame 11, second limiting sliding grooves 11a are respectively formed in two sides of the embossing frame 11 below two ends of the concave roller 12 along the vertical direction, and a convex roller 13 which is parallel to the concave roller 12 is rotatably connected between the two second limiting sliding grooves 11 a; a second gear 14 is fixedly arranged at each of two ends of the concave roller 12, and a third gear 15 meshed with the second gear 14 is fixedly arranged at each of two ends of the convex roller 13; the two sides of the convex pressing frame 11 are provided with second pressing assemblies 62 below the two ends of the convex roller 13 through the convex blocks 7, and the second pressing assemblies 62 are used for forcing the convex roller 13 to be pressed on the concave roller 12; one end of the convex roller 13 is provided with a first convex shaft 13a, the end of the lower output roller 2e in the base paper conveying mechanism 21 in the same direction is provided with a second convex shaft 2e2, and a second transmission belt 16 is arranged between the first convex shaft 13a and the second convex shaft 2e 2.

The first pressing component 61 and the second pressing component 62 have the same structure and respectively comprise a top block 6a, two sliding rods 6b are arranged on the top block 6a, and the two sliding rods 6b are connected in the lug 7 in a sliding manner along the vertical direction; a spring plate 6c is connected between the two sliding rods 6b in a sliding manner, and a compression spring 6d for forcing the top block 6a to move upwards is arranged between the spring plate 6c and the top block 6a on each sliding rod 6 b; the upper end of the top block 6a is provided with an arc-shaped positioning groove; an adjusting screw 6e is rotatably connected in the lug 7, and the adjusting screw 6e is used for controlling the spring plate 6c to move up and down; the top block 6a moves upwards under the action of the compression spring 6d to play a role in compressing, the adjusting screw 6e is rotated to adjust the position of the spring plate 6c, and then the pretightening force of the compression spring 6d is adjusted, so that the upward pressing force of the top block 6a can be realized.

The gluing mechanism 3 comprises a gluing support 31, a support frame 32 is arranged on a top plate of the gluing support 31, and a glue storage box 33 is arranged on the support frame 32; a roller 34 for coating glue on a bulge pressed on a paper board is rotatably connected to an outlet at the lower end of the glue storage box 33, and a plurality of strip-shaped grooves 341 are uniformly arranged on the outer circumferential side surface of the roller 34 at intervals; a gluing motor 35 for driving the roller 34 to rotate is fixedly arranged on two sides of the glue storage box 33 through support plates; a third limiting sliding groove 321 is arranged in the support frame 32 along the vertical direction, and a convex column 331 extending into the third limiting sliding groove 321 is arranged on the side surface of the glue storage box 33; the two sides of the gluing bracket 31 are both provided with gluing cylinders 36, and the telescopic end of each gluing cylinder 36 is connected with the glue storage box 33; when the gluing cylinder 36 extends out, the glue storage box 33 moves upwards, and when the gluing cylinder 36 contracts, the glue storage box 33 moves downwards.

A novel corrugated paper embossing and gluing method comprises the following steps:

step one, controlling an output motor 2d in a base paper conveying mechanism 21 to drive an upper output roller 2c and a lower output roller 2e to synchronously and reversely rotate, and conveying a paper board wound on a roller 2b to a embossing mechanism 1;

step two, synchronously and reversely rotating a concave roller 12 and a convex roller 13 in the embossing mechanism 1 to emboss the part on the paperboard, and conveying the paperboard embossed with the embossment to the gluing mechanism 3;

and step three, controlling the gluing cylinder 36 to move downwards, so that the roller 34 is pressed on the protrusion of the paperboard, controlling the gluing motor 35 to drive the roller 34 to rotate, and controlling the linear speed of the rotation of the roller 34 to be consistent with the movement speed of the paperboard.

When the convex pressing mechanism 1 works in the steps, the lower output roller 2e in the base paper conveying mechanism 21 drives the second convex shaft 2e2 to rotate, the second convex shaft 2e2 drives the first convex shaft 13a to rotate through the second transmission belt 16 when rotating, the first convex shaft 13a drives the convex roller 13 to rotate when rotating, the convex roller 13 drives the concave roller 12 to synchronously rotate in the opposite direction through the meshing of the third gear 15 and the second gear 14 when rotating, in addition, the second pressing component 62 is arranged to enable the convex roller 13 to upwards press on the concave roller 12, so that the stable output of the paperboard is ensured, and the convex pressing on the paperboard is effectively ensured.

When gluing is carried out on the protrusions on the paperboard in the above steps, the paperboard extends to a position between the roller 2b and the top plate of the gluing support 31, the gluing cylinder 36 is controlled to contract so that the roller 2b is pressed above the protrusions of the paperboard, the gluing motor 35 is controlled to drive the roller 34 to rotate, gluing is carried out on one hand when the roller 34 rotates, and the paperboard is driven to move towards the second base paper conveying mechanism 22 on the other hand.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The novel corrugated paper embossing and gluing device is characterized by comprising an embossing mechanism, wherein a raw paper conveying mechanism is arranged at the input end of the embossing mechanism, and a gluing mechanism is arranged at the output end of the embossing mechanism; body paper conveying mechanism is used for conveying the cardboard to the mechanism of embossing, the mechanism of embossing is used for suppressing the arch on the cardboard, glue is paintd to the arch that the rubber coating mechanism is used for suppressing on the cardboard.

2. The novel corrugated paper embossing and gluing device according to claim 1, wherein the raw paper conveying mechanism comprises a conveying frame, a roller is rotatably connected in the conveying frame, a paper board is wound on the roller, an upper output roller is rotatably connected to an output end of the conveying frame, the upper output roller is arranged in parallel with the roller, and an output motor for driving the upper output roller to rotate is fixedly mounted on the conveying frame through a first support; two sides of the conveying frame are respectively provided with a first limiting sliding groove below two ends of the upper output roller along the vertical direction, a lower output roller is rotatably connected between the two first limiting sliding grooves, two ends of the upper output roller are respectively and fixedly provided with an upper gear, and two ends of the lower output roller are respectively and fixedly provided with a lower gear meshed with the upper gear; and the two sides of the conveying frame are provided with first pressing assemblies below the two ends of the lower output roller through bumps, and the first pressing assemblies are used for forcing the lower output roller to be pressed on the upper output roller.

3. The novel corrugated paper embossing and gluing device as claimed in claim 2, wherein first rotating shafts arranged in parallel with the rollers are rotatably connected to both sides of the conveying frame, a roll-over frame is rotatably connected to each first rotating shaft, and roll-over cylinders for driving the roll-over frames to rotate around the first rotating shafts are hinged to both sides of the conveying frame; each roll-over stand is provided with a middle sliding chute, a compression roller arranged in parallel with the roller is arranged between the two roll-over stands, and two ends of the compression roller are respectively positioned in the middle sliding chutes; each first rotating shaft is fixedly provided with a first gear meshed with the upper gear between the roll-over stand and the conveying frame, and one end extending out of the roll-over stand is fixedly provided with a first belt wheel; guide sliding rods arranged along the length direction of the middle sliding chute are fixedly arranged on two sides of the middle sliding chute on each turnover frame, a sliding block is arranged between the two guide sliding rods, and each guide sliding rod is provided with a first spring used for forcing the sliding block to move in the direction away from the first gear; notches are formed in the two sides of the middle sliding groove of each overturning frame, and are arranged along the length direction of the middle sliding groove; the sliding block is provided with second rotating shafts extending out of the two notches, and each second rotating shaft is provided with a second belt wheel; the compression roller is fixedly provided with a third belt wheel at one end extending out of the middle sliding chute; and fourth belt wheels are rotatably connected to two sides of the first belt wheel on each roll-over stand, first tensioning transmission belts are arranged among the first belt wheel, the two second belt wheels, the third belt wheel and the two fourth belt wheels, and the first tensioning transmission belts are used for forcing the third belt wheels to move in the direction away from the first belt wheels.

4. The novel corrugated paper embossing and gluing device according to claim 2, wherein the embossing mechanism comprises an embossing frame, a concave roller arranged in parallel with the upper output roller is rotatably connected in the embossing frame, second limiting sliding grooves are respectively formed in two sides of the embossing frame below two ends of the concave roller along the vertical direction, and a convex roller arranged in parallel with the concave roller is rotatably connected between the two second limiting sliding grooves; second gears are fixedly arranged at two ends of the concave surface roller, and third gears meshed with the second gears are fixedly arranged at two ends of the convex surface roller; the two sides of the convex pressing frame are provided with second pressing assemblies below the two ends of the convex roller through bumps, and the second pressing assemblies are used for forcing the convex roller to be pressed on the concave roller; one end of the convex roller is provided with a first convex shaft, the end of the lower output roller in the body paper conveying mechanism in the same direction is provided with a second convex shaft, and a second transmission belt is arranged between the first convex shaft and the second convex shaft.

5. The novel corrugated paper embossing and gluing device according to claim 4, wherein the first pressing assembly and the second pressing assembly have the same structure and comprise a top block, two sliding rods are arranged on the top block, and the two sliding rods are slidably connected in the convex block along the vertical direction; a spring plate is connected between the two slide rods in a sliding manner, and a compression spring for forcing the top block to move upwards is arranged between the spring plate and the top block on each slide rod; the upper end of the ejector block is provided with an arc-shaped positioning groove; an adjusting screw is connected in the lug in a rotating mode and used for controlling the spring plate to move up and down.

6. The novel corrugated paper embossing and gluing device according to claim 1, wherein the gluing mechanism comprises a gluing support, a top plate of the gluing support is provided with a support frame, and the support frame is provided with a glue storage box; a roller for coating glue on a bulge pressed on a paper plate is rotatably connected to an outlet at the lower end of the glue storage box, and a plurality of strip-shaped grooves are uniformly arranged on the side surface of the outer circumference of the roller at intervals; a gluing motor for driving the roller to rotate is fixedly arranged on two sides of the glue storage box through support plates; a third limiting sliding groove is formed in the support frame along the vertical direction, and a convex column extending into the third limiting sliding groove is arranged on the side face of the glue storage box; the two sides of the gluing support are respectively provided with a gluing cylinder, and the telescopic end of each gluing cylinder is connected with the glue storage box; when the gluing cylinder stretches out, the glue storage box moves upwards, and when the gluing cylinder contracts, the glue storage box moves downwards.