CN210234001U

CN210234001U - Paper crease-resistant laminating embossing production line

Info

Publication number: CN210234001U
Application number: CN201920681896.2U
Authority: CN
Inventors: Wen Yang; 杨文�; Chiping Zhu; 朱池平; Changmu Zhang; 张昌木
Original assignee: Wenzhou Guangming Printing Machinery Co ltd
Current assignee: Wenzhou Guangming Printing Machinery Co ltd
Priority date: 2019-05-13
Filing date: 2019-05-13
Publication date: 2020-04-03
Anticipated expiration: 2029-05-13

Abstract

The utility model discloses a paper crease-resistance tectorial membrane impressed watermark production line, including adsorption paper device, laminating machine, embosser and paper collecting device, the embosser includes the frame and arranges in proper order and set up preheating roller set and impressed watermark roller set in the frame, the impressed watermark roller set preheats one side of roller set dorsad and is equipped with the crease-resistance roller set, the rotatable setting of crease-resistance roller set is in the frame to with the setting of misplacing from top to bottom of impressed watermark roller set. The utility model discloses a paper crease-resistance tectorial membrane impressed watermark production line, through the setting of crease-resistance roller set, alright effectual increase paper and the cornerite of embossing roller in the embossing roller set, so alright effectual problem of avoiding appearing the paper fold.

Description

Paper crease-resistant laminating embossing production line

Technical Field

The invention relates to a film coating and embossing production line, in particular to a paper crease-resistant film coating and embossing production line.

Background

In the production process of the film-coated paper, film coating operation needs to be carried out on the paper, in order to increase the film coating efficiency of the film-coated paper in the prior art, the film coating machine is basically adopted to realize the effect of automatic film-coated paper, and after the film coating is completed, lines are added on the paper to further increase the aesthetic degree of the paper, so that an embossing machine is added on the follow-up portion of the film coating machine to emboss the film-coated paper in the prior art.

However, in the existing embosser, the embossing function is realized by the way that the embossing roller extrudes the film-coated paper, at present, the embossing operation is realized by the way that an upper embossing roller and a lower embossing roller which are tangent to each other are matched, an embossing space is formed between the upper embossing roller and the lower embossing roller, the film-coated paper passes through the embossing space during embossing, and corresponding lines are pressed on the film-coated paper by the way that the upper embossing roller and the lower embossing roller are mutually clamped, however, in the prior art, the paper passes through the upper embossing roller and the lower embossing roller horizontally, so the paper is tangent to the embossing roller, the contact surface between the paper and the embossing roller is quite small, and the paper is generally preheated by the preheating roller in the embossing process and then embossed after the preheating is finished, and the paper can generate a thermal contraction reaction due to the preheating function, the paper can be stacked at the front side and the rear side of the preheating roller, so that the problem of paper wrinkling is easily caused when embossing is easily caused.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a paper crease-resistant film-coating embossing production line which can effectively avoid the problem of paper wrinkling in the embossing process.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a paper crease-resistance tectorial membrane impressed watermark production line, includes adsorption paper device, laminating machine, embosser and collection device, and the paper is deposited in adsorption paper device, carries the interior impressed watermark of input embosser behind the tectorial membrane in the laminating machine through adsorption paper device to collect through collection device after the impressed watermark is accomplished, the embosser includes the frame and arranges in proper order and set up preheating roller set and the impressed watermark roller set in the frame, and wherein the paper of laminating machine output enters into earlier and preheats in the roller set after, inputs impressed watermark in the embossing roller set again, the impressed watermark roller set is equipped with the crease-resistance roller set to the one side of preheating the roller set dorsad, the rotatable setting of crease-resistance roller set is in the frame to with the upper and lower dislocation set of impressed watermark roller set, wherein the paper of impressed watermark roller set output inputs in.

As a further improvement of the invention, the crease-resist roller group comprises an upper crease-resist roller and a lower crease-resist roller, the upper crease-resist roller and the lower crease-resist roller are distributed up and down, the upper crease-resist roller is positioned at the rear upper part of an embossing space in the embossing roller group, the lower crease-resist roller is positioned at the rear lower part of the embossing space in the embossing roller group, the horizontal position of the upper crease-resist roller is positioned between the lower crease-resist roller and the embossing roller group, and paper output from the embossing space is output after passing the upper crease-resist roller upwards and then passing the lower crease-resist roller downwards.

As a further improvement of the invention, the lower crease-resistant roller comprises a crease-resistant roller frame, a crease-resistant plate and a crease-resistant roller body, the crease-resistant roller frame is of a square frame structure, two ends of one long side of the crease-resistant roller frame are rotatably arranged on the frame, so that the other long side can be turned over up and down, the crease-resistant roller body and the crease-resistant plate are respectively arranged on the two long sides, the crease-resistant roller body is arranged on the turning long side, the crease-resistant plate is arranged on the connecting long side, and the crease-resistant roller on the paper passes the crease-resistant roller body downwards and then passes the crease-.

As a further improvement of the invention, one side of the preheating roller group back to the embossing roller group is provided with an auxiliary crease-resistant roller, the auxiliary crease-resistant roller is rotatably arranged on the frame and is staggered with the preheating roller group up and down, and the paper passes through the preheating roller group after bypassing the auxiliary crease-resistant roller.

As a further improvement of the invention, one side of the preheating roller group facing the auxiliary crease-resistant roller is provided with a crush-resistant fixed shaft, and two ends of the crush-resistant fixed shaft are fixed on the frame and are integrally arranged above the auxiliary crease-resistant roller with a gap between the crush-resistant fixed shaft and the auxiliary crease-resistant roller.

As a further improvement of the invention, the paper feeding device comprises a feeding frame, a paper storage chassis, a power mechanism and an output conveying belt, wherein paper is stored on the paper storage chassis and can slide up and down in the feeding frame, the paper storage chassis is controlled by the power mechanism to lift up and down, the output conveying belt is arranged on one side of the feeding frame, and a transfer component capable of sliding horizontally is arranged above the paper storage chassis so as to transfer paper on the paper storage chassis to the output conveying belt through the transfer action of the transfer component.

As a further improvement of the paper storage chassis, the power mechanism comprises a power chain and a power plate, the power plate is fixed on the side edge of the paper storage chassis and is formed by combining a trapezoidal plate and a rectangular plate, the lower bottom edge of the trapezoidal plate is fixed on the paper storage chassis, the upper bottom edge of the trapezoidal plate is fixedly connected with the lower long edge of the rectangular plate, the upper long edge of the rectangular plate is fixedly connected with a connecting plate, one section of the power chain is fixed on the upper side face of the connecting plate, and the other end of the power chain is fixedly connected with the lower side face of the connecting plate after bypassing a power chain wheel arranged on the feeding frame.

As a further improvement of the invention, the transfer assembly comprises a transfer cross frame, a transfer motor and a paper suction head, the transfer cross frame is fixed on the top of the feeding frame and spans over the paper storage chassis and the output conveyor belt, a transfer block is arranged on the transfer cross frame in a sliding manner, the paper suction head is fixed on the lower side surface of the transfer block, and the transfer block is linked with the transfer motor to be controlled by the transfer motor to slide back and forth over the paper storage chassis and the output conveyor belt so as to transfer paper from the paper storage chassis to the output conveyor belt one by one through the paper suction head.

As a further improvement of the invention, a slide rail is arranged on the lower side of the transfer cross frame, a slide block is fixedly connected to the upper side of the transfer block, the slide block is matched with the slide rail so that the transfer block can slide back and forth on the transfer cross frame, and the transfer motor is arranged on the slide block.

The invention has the advantages that the automatic film-coating embossing and paper-collecting effect can be effectively realized by arranging the paper feeding device, the film laminating machine, the embossing machine and the paper-collecting device, the effect of preheating and then embossing can be realized by arranging the embossing machine into a mode of combining the frame, the preheating roller group and the embossing roller group, the embossing operation on the film-coated paper can be well realized, the wrap angle of the paper and the embossing rollers in the embossing roller group can be effectively increased by using a staggered extension mode by arranging the crease-resistant roller group on the embossing machine, the paper can be timely and effectively cooled to be shortened after the paper is heated and extended, the embossing effect can be realized, the tensioning effect is realized, and the problem of folding caused by stacking of the paper is avoided.

Drawings

FIG. 1 is an overall structure diagram of a paper crease-resistant laminating embossing production line of the invention;

FIG. 2 is an overall block diagram of the embosser of FIG. 1;

fig. 3 is an overall structural view of the embossing roller set of fig. 2;

fig. 4 is an overall configuration diagram of the paper feeding device in fig. 1.

Detailed Description

The invention will be further described in detail with reference to the following examples, which are given in the accompanying drawings.

Referring to fig. 1 to 4, a paper crease-resistant film-covering embossing production line of this embodiment includes a paper feeding device 1, a film covering machine 2, an embossing machine 3 and a paper collecting device 4, paper is stored in the paper feeding device 1, and is conveyed into the film covering machine 2 through the paper feeding device 1 to be film-covered, then is input into the embossing machine 3 to be embossed, and is collected through the paper collecting device 4 after being embossed, the embossing machine 3 includes a frame 31, and a preheating roller set 32 and an embossing roller set 33 sequentially arranged on the frame 31, wherein the paper output by the film covering machine 2 enters the preheating roller set 32 to be preheated, then is input into the embossing roller set 33 to be embossed, one side of the embossing roller set 33 opposite to the preheating roller set 32 is provided with a crease-resistant roller set 51, the crease-resistant roller set 51 is rotatably arranged on the frame 31 and is vertically staggered with the embossing roller set 33, wherein the paper output by the embossing roller set 33 is input into the paper collecting device 4 after bypassing, in the process of using the production line of the embodiment, only the paper to be coated with the film and embossed needs to be stored in the paper feeding device 1, and in the embossing process, the paper firstly enters the embossing machine 3, firstly enters the preheating roller group 32, is heated by the preheating roller group 32, is heated to be slightly prolonged, then enters the embossing roller group 33, is embossed in the embossing space in the embossing roller group 33, and then enters the crease-resistance roller group 51, because the crease-resistance roller group 51 and the embossing roller group 33 are arranged in a vertically staggered manner, the paper between the crease-resistance roller group 51 and the embossing roller group 33 is in inclined transition, so that the contact surface between the paper and the embossing rollers in the embossing roller group 33 is more, the wrap angle between the paper and the embossing rollers is greatly increased, the paper can be cooled more quickly, and the paper can be retracted and tensioned more quickly, and then avoid appearing the fold problem that the paper piles up and leads to, wherein tectorial membrane device 2 and paper collecting device 4 in this embodiment are current laminating machine and paper collecting machine and therefore do not describe in this embodiment any more, and embossing roller set 33 and preheating roller set 32 are all realized adopting the mode of two upper and lower roller combinations simultaneously, and wherein the inside cooling water circulation system that still has of embossing roller in the embossing roller set 33 to strengthen the cooling effect.

As a modified embodiment, the blank roller group 511 includes an upper blank roller 511 and a lower blank roller 512, the upper crease-resistant roller 511 and the lower crease-resistant roller 512 are distributed up and down, the upper crease-resistant roller 511 is positioned at the rear upper part of the embossing space in the embossing roller group 33, the lower crease roller 512 is positioned at the rear lower part of the embossing space in the embossing roller group 33, the horizontal position of the upper crease roller 511 is positioned between the lower crease roller 512 and the embossing roller group 33, the paper output from the embossing space passes upward around the upper crease-resist roller 511 and then downward around the lower crease-resist roller 512, through the setting of last crease-resistance roller 511 and lower crease-resistance roller 512, can effectual increase the cornerite between paper and the embossing roller on the one hand, on the other hand also can form the effect of a tensioning between last crease-resistance roller 511 and lower crease-resistance roller 512, so just so can be better avoid appearing because the problem of the appearance fold that the paper piles up and leads to.

As an improved embodiment, the lower wrinkle preventing roller 512 includes a wrinkle preventing roller frame 5121, a wrinkle preventing plate 5122 and a wrinkle preventing roller body 5123, the wrinkle preventing roller frame 5121 is a square frame structure, both ends of one long side are rotatably disposed on the frame 31 so that the other long side can be turned upside down, the wrinkle preventing roller body 5123 and the wrinkle preventing plate 5122 are respectively disposed on the two long sides, wherein the wrinkle preventing roller body 5123 is disposed on the turning long side, the wrinkle preventing plate 5122 is disposed on the connecting long side, the upper wrinkle preventing roller 511 downwardly bypasses the wrinkle preventing roller body 5123 and then upwardly bypasses the wrinkle preventing plate 5122, by disposing the wrinkle preventing roller frame 5121, the wrinkle preventing plate 5122 and the wrinkle preventing roller body 5123, a movable roller frame is employed so that the paper can be further tensioned by the gravity action of the wrinkle preventing roller body 5123, the problem of the stacked wrinkles is avoided, and a tensioning effect can be formed between the wrinkle preventing roller body 5123 and the wrinkle preventing roller body 5122, so that the tensioning effect is better.

As a specific embodiment of the improvement, one side of the preheating roller group 32, which is opposite to the embossing roller group 33, is provided with an auxiliary crease-resistance roller 321, the auxiliary crease-resistance roller 321 is rotatably arranged on the frame 31 and is arranged in a vertically staggered manner with the preheating roller group 32, and after the paper bypasses the auxiliary crease-resistance roller 321, the paper penetrates into the preheating roller group 32 again, so that the wrap angle between the paper and the preheating roller in the preheating roller group 32 can be increased through the auxiliary crease-resistance roller 321, and when the paper is heated and extended, the problem of stacking is not easy to occur.

As an improved specific embodiment, the preheating roller set 32 is provided with an anti-pinch fixing shaft 3211 on a side facing the auxiliary crease-resistant roller 321, two ends of the anti-pinch fixing shaft 3211 are fixed on the frame 31, and are integrally disposed above the auxiliary crease-resistant roller 321, and a gap is left between the anti-pinch fixing shaft 3211 and the auxiliary crease-resistant roller 321, because the preheating roller set 32 is always in a rotating state during the operation of the apparatus, if the position of the paper deviates and needs to be manually adjusted, the problem that the finger of a person is caught in the preheating roller set 32 can be effectively prevented by the anti-pinch fixing shaft 3211, wherein the gap in this embodiment is smaller than the thickness of the finger of the person, so that the finger cannot pass through, and the anti-pinch fixing shaft 3211 can be prevented from contacting the auxiliary crease-pinch fixing shaft 321, wherein the paper passes through between the anti-pinch fixing shaft 3211 and the auxiliary crease-pinch roller 321.

As an improved specific embodiment, the paper feeding device 1 includes a feeding frame 11, a paper storage chassis 12, a power mechanism 13 and an output conveyor belt 14, the paper storage chassis 12 is disposed in the feeding frame 11 and can slide up and down, the paper storage chassis 12 is controlled by the power mechanism 13 to move up and down, the output conveyor belt 14 is disposed at one side of the feeding frame 11, a transfer component 15 capable of sliding horizontally is disposed above the paper storage chassis 12, so as to transfer the paper on the paper storage chassis 12 to the output conveyor belt 14 by the transfer action of the transfer component 15, the paper storage chassis 12 can effectively store the paper to be coated, and the paper on the paper storage chassis 12 can be effectively conveyed to the output conveyor belt 14 one by the cooperation of the power mechanism 13, the output conveyor belt 14 and the transfer component 15, and further effectively realize the effect of outputting paper into the laminating machine 2.

As an improved specific embodiment, the power mechanism 13 includes a power chain 131 and a power plate 132, the power plate 132 is fixed on the side of the paper storage chassis 12, and is formed by combining a trapezoidal plate and a rectangular plate, wherein the lower bottom edge of the trapezoidal plate is fixed on the paper storage chassis 12, the upper bottom edge is fixedly connected with the lower long edge of the rectangular plate, the upper long edge of the rectangular plate is fixedly connected with a connecting plate, one section of the power chain 131 is fixed on the upper side of the connecting plate, and the other end of the power chain 131 bypasses a power sprocket arranged on the feeding frame 11 and then is fixedly connected with the lower side of the connecting plate, through the arrangement of the power chain 131 and the power plate 132, the effect of automatically driving the paper storage chassis 12 to move up and down can be effectively realized, and meanwhile, the power plate 132 is arranged in a manner of combining the rectangular plate and the trapezoidal plate, on one hand, the occupation of the space in, on the other hand, the connection between the power plate 132 and the paper storage chassis 12 can be ensured.

As a modified embodiment, the transfer assembly 15 includes a transfer cross frame 151, a transfer motor 152 and a paper suction head 153, the transfer cross frame 151 is fixed on the top of the feeding frame 11 and spans over the paper storage chassis 12 and the output conveyor belt 14, a transfer block 154 is slidably arranged on the transfer cross frame 151, the paper suction head 153 is fixed on the lower side surface of the transfer block 154, the transfer block 154 is linked with the transfer motor 152 to be controlled by the transfer motor 152 to slide back and forth over the paper storage chassis 12 and the output conveyor belt 14, so that the paper is carried by the paper suction head 153 to be transferred from the paper storage chassis 12 to the output conveyor belt 14 one by one, the paper can be effectively grabbed and then transferred to the output conveyor belt 14 by the suction effect of the paper suction head 153, and the paper transferred at each time can be effectively guaranteed to have only one paper, while the social benefit of the transfer cross frame 151 and the transfer motor 152, the movement with the suction head 153 can be effectively realized.

As an improved specific embodiment, a slide rail 1511 is disposed on a lower side of the transfer cross frame 151, a slider 1541 is fixedly connected to an upper side of the transfer block 154, the slider 1541 cooperates with the slide rail 1511 to enable the transfer block 154 to slide back and forth on the transfer cross frame 151, the transfer motor 152 is disposed on the slider 1541, the transfer block 154 can be simply and effectively transferred through cooperation between the slider 1541 and the slide rail 1511, and the use of an upper space can be saved by disposing the transfer motor 152 on the slider 1541, wherein in this embodiment, the transfer motor 152 is driven by coaxially sleeving a gear on a rotating shaft of the transfer motor 152 and then disposing a rack on the slide rail 1511, that is, the transfer motor 152 is changed into an air cylinder, and the transfer is achieved by injecting air from the air cylinder to generate a reaction force.

In conclusion, the paper crease-resistant laminating embossing production line of this embodiment, through the setting of crease-resistant roller set 51, alright effectual increase paper and the cornerite between the embossing roller, and then avoid the problem that the fold appears in the paper.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. The utility model provides a paper crease-resistant tectorial membrane impressed watermark production line, includes adsorption paper device (1), laminating machine (2), embosser (3) and paper collecting device (4), and the paper is deposited in adsorption paper device (1), carries the interior tectorial membrane of laminating machine (2) through adsorption paper device (1) and inputs impressed watermark in embosser (3) after to collect its characterized in that through paper collecting device (4) after the impressed watermark is accomplished: the embossing machine (3) comprises a frame (31), and a preheating roller set (32) and an embossing roller set (33) which are sequentially arranged on the frame (31), wherein paper output by the laminating machine (2) enters the preheating roller set (32) to be preheated, then is input into the embossing roller set (33) to be embossed, one side of the embossing roller set (33) back to the preheating roller set (32) is provided with a crease roller set (51), the crease roller set (51) is rotatably arranged on the frame (31) and is vertically staggered with the embossing roller set (33), and the paper output by the embossing roller set (33) is input into the paper collecting device (4) after bypassing the crease roller set (51).

2. The paper crease-resistant laminating and embossing production line as claimed in claim 1, characterized in that: crease-resistance roller set (51) are including last crease-resistance roller (511) and lower crease-resistance roller (512), go up crease-resistance roller (511) and lower crease-resistance roller (512) and distribute from top to bottom, go up crease-resistance roller (511) and be in the back top in the line space in embossing roller set (33), crease-resistance roller (512) are in the back below in the line space in embossing roller set (33) down, the horizontal position of going up crease-resistance roller (511) is in down between crease-resistance roller (512) and embossing roller set (33), the paper of line space output upwards walks around last crease-resistance roller (511) back, and the paper of walking around down again is exported behind crease-resistance roller (512).

3. The paper crease-resistant laminating and embossing production line as claimed in claim 2, characterized in that: lower crease-resistance roller (512) are including crease-resistance roller frame (5121), crease-resistance board (5122) and crease-resistance roll body (5123), crease-resistance roller frame (5121) is the frame construction of square, and the rotatable setting in both ends on one long limit is in frame (31) to make another long limit overturn from top to bottom, crease-resistance roll body (5123) and crease-resistance board (5122) set up respectively on two long edges, and wherein crease-resistance roll body (5123) set up on the long edge of upset, crease-resistance board (5122) set up on connecting the long edge, upwards bypass crease-resistance board (5122) again after crease-resistance roll body (5123) is walked around downwards in crease-resistance roller (511) on the paper.

4. The paper crease-resistant film-covering embossing production line as claimed in claim 1, 2 or 3, characterized in that: preheat roller set (32) one side of embossing roller set (33) dorsad and be equipped with supplementary crease-resistance roller (321), supplementary crease-resistance roller (321) rotatable setting is on frame (31) to with preheat roller set (32) dislocation set from top to bottom, the paper is after bypassing supplementary crease-resistance roller (321), penetrates again in preheating roller set (32).

5. The paper crease-resistant laminating and embossing production line as claimed in claim 4, characterized in that: and one side of the preheating roller group (32) facing the auxiliary crease-resistant roller (321) is provided with a squeezing injury prevention fixing shaft (3211), two ends of the squeezing injury prevention fixing shaft (3211) are fixed on the rack (31), and the whole preheating roller group is arranged above the auxiliary crease-resistant roller (321) and is provided with a gap with the auxiliary crease-resistant roller (321).

6. The paper crease-resistant film-covering embossing production line as claimed in claim 1, 2 or 3, characterized in that: the paper feeding device (1) comprises a feeding frame (11), a paper storage chassis (12), a power mechanism (13) and an output conveying belt (14), paper is stored on the paper storage chassis (12) and can slide up and down in the feeding frame (11), the paper storage chassis (12) is controlled by the power mechanism (13) to lift up and down, the output conveying belt (14) is arranged on one side of the feeding frame (11), and a transfer component (15) capable of sliding horizontally is arranged above the paper storage chassis (12) so that the paper on the paper storage chassis (12) can be transferred to the output conveying belt (14) through the transfer effect of the transfer component (15).

7. The paper crease-resistant laminating and embossing production line as claimed in claim 6, characterized in that: power unit (13) are including power chain (131) and power board (132), power board (132) are fixed on the side of depositing paper chassis (12), and it is formed by a trapezoidal plate and rectangular plate combination, and wherein the lower base of trapezoidal plate is fixed on depositing paper chassis (12), goes up the lower long limit fixed connection of base and rectangular plate, the last long limit fixedly connected with connecting plate of rectangular plate, one section of power chain (131) is fixed on the last side of connecting plate, and the other end is walked around behind the power sprocket that sets up on pay-off frame (11) and is connected with the downside fixed connection of connecting plate.

8. The paper crease-resistant laminating and embossing production line as claimed in claim 6, characterized in that: the transfer assembly (15) comprises a transfer cross frame (151), a transfer motor (152) and a paper suction head (153), the transfer cross frame (151) is fixed to the top of the feeding frame (11) and stretches over the paper storage chassis (12) and the output conveyor belt (14), a transfer block (154) is arranged on the transfer cross frame (151) in a sliding mode, the paper suction head (153) is fixed to the lower side face of the transfer block (154), the transfer block (154) is linked with the transfer motor (152) to be controlled by the transfer motor (152) to slide back and forth above the paper storage chassis (12) and the output conveyor belt (14) so that paper is carried by the paper suction head (153) to be transferred to the output conveyor belt (14) one by one from the paper storage chassis (12).

9. The paper crease-resistant laminating and embossing production line as claimed in claim 8, characterized in that: the lower side of the transfer cross frame (151) is provided with a sliding rail (1511), the upper side face of the transfer block (154) is fixedly connected with a sliding block (1541), the sliding block (1541) is matched with the sliding rail (1511) so that the transfer block (154) can slide back and forth on the transfer cross frame (151), and the transfer motor (152) is arranged on the sliding block (1541).