CN109334125B - Continuous production and processing technology for coating, gold stamping and embossing for papermaking - Google Patents

Abstract

The invention relates to the field of papermaking production, in particular to a coating, gold stamping and embossing continuous production processing technology for papermaking, which can realize coating, gold stamping and embossing of paper on the same equipment so as to improve the papermaking efficiency; the feeding mechanism is arranged on the top surface of one end of the supporting platform; the conveying mechanism is arranged on the supporting platform; the coating mechanism is arranged in the first fixed shell; the drying mechanism is arranged in a ventilation hole on the first fixed shell; the mechanism for gold stamping of the paper raw material is arranged in the second fixed shell; an embossing mechanism for embossing the paper stock is arranged in the third fixed shell. The invention realizes coating, gold stamping and embossing integrated papermaking, and the coating effect is better.

Description

Continuous production and processing technology for coating, gold stamping and embossing for papermaking

Technical Field

The invention relates to the field of papermaking production, in particular to a continuous production and processing technology for coating, gold stamping and embossing for papermaking.

Background

The coating is a method for preparing a composite material (film) by coating pasty polymer, molten polymer or polymer solution on paper, cloth and plastic films, and comprises the following steps: for the purposes of corrosion protection, insulation, decoration, etc., a thin layer of plastic is applied in liquid or powder form to the surface of an object such as fabric, paper, metal foil or board. Note: the lining is divided, coated and coated, and the coating thickness is reduced in sequence. Gold stamping is a printing decoration process. Heating the metal printing plate, and stamping golden characters or patterns on the printed matter by applying foil. The principle of hot-pressing transfer is utilized to transfer an aluminum layer in the electrochemical aluminum to the surface of a printing stock to form a special metal effect, and because the main material used for gold stamping is the electrochemical aluminum foil, the gold stamping is also called as the electrochemical aluminum hot stamping. Embossing is a common decorative packaging material processing technology. According to the embossing mode, flat plate embossing and roller embossing are divided. The embossing process is a technology for artistic processing of the surface of a decorative packaging material by deforming a pressure-bearing material (PVC, aluminum, wood, paper, etc.) under the action of certain pressure and temperature by using a die with concave-convex grains.

However, the traditional coating equipment, gold stamping equipment and embossing equipment for papermaking are used separately, and in the papermaking process, the high-efficiency coating, gold stamping and embossing of paper are difficult to realize, so that the production efficiency is influenced. Meanwhile, in the integrated coating gold stamping and embossing process, the coating is not uniform in the coating process. In the paper production process, the original paper head cannot be coated with gold stamping embossing before being fixed on the material receiving roller, and the paper needs to be cut off, so that the waste of the paper is caused.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a continuous production and processing technology of coating, gold stamping and embossing for papermaking, which adopts continuous production equipment for production of papermaking, wherein a first fixed shell, a second fixed shell and a third fixed shell are arranged on a supporting platform of the continuous production equipment for papermaking and positioned between a feeding mechanism and a receiving mechanism, a coating mechanism and a drying mechanism are arranged in the first fixed shell, a gold stamping mechanism and heat dissipation holes are arranged in the second fixed shell, and an embossing mechanism is arranged in the third fixed shell, so that the coating, gold stamping and embossing of paper are realized on the same equipment, and the papermaking efficiency is improved; during the process of coating paper, the paste is fed to the surface of the paper by using the blanking plate and the feeding pipe, and during the feeding process, the blanking plate is driven by using the lead screw to move and blank along the direction vertical to the paper conveying direction, so that the paste is uniformly extruded on the paper, and meanwhile, the paste is uniformly scraped by using the scraper, and the paper coating effect is better; supporting platform's the conveyer belt that is equipped with the bottom that runs through first fixed casing, the fixed casing of second and the fixed casing of third on the surface, and be equipped with the bayonet lock on the conveyer belt, realize in the inception, the head end of paper can be fixed the conveying on the conveyer belt through the bayonet lock and carry out the gilt impressed watermark of coating, prevents that the in-process of receiving the material roller is sent from the feed roll to the one end of paper to the people is manual during the inception, can not process the paper, causes the waste of paper.

The technical scheme adopted by the invention for solving the technical problems is as follows: a continuous production and processing technology of coating, gold stamping and embossing for papermaking comprises the following steps:

s1, fixing the paper on the feeding mechanism;

s2, fixedly connecting one end of the paper with a conveyor belt, wherein the conveyor belt drives one end of the paper to sequentially penetrate through a conveying mechanism, a coating mechanism, a drying mechanism, a gold stamping mechanism, a drying mechanism and an embossing mechanism; in the process of passing through the paper, the paper is sequentially coated, dried, gold-stamped, dried and embossed, and then the treated paper is wound on a winding mechanism;

the process adopts papermaking continuous production equipment for production, wherein the papermaking continuous production equipment comprises a supporting platform, a feeding mechanism, a first fixed shell, a second fixed shell, a third fixed shell, a conveying mechanism, a material receiving mechanism, a coating mechanism, an embossing mechanism, a gold stamping mechanism and a drying mechanism; the feeding mechanism for fixing and outputting the paper materials is arranged on the top surface of one end of the supporting platform; the conveying mechanism is used for conveying paper materials from one end of the supporting platform to the other end of the supporting platform and is arranged on the supporting platform, the conveying mechanism comprises a conveying belt, a clamping pin, a roller and a first servo motor, the first servo motor is installed in the side wall of the supporting platform, the roller is connected to a rotating shaft of the first servo motor, the conveying belt is sleeved on the roller, and the clamping pin is arranged on the surface of the conveying belt; the first fixing shell, the second fixing shell and the third fixing shell for fixedly installing equipment are arranged on the top surface of the supporting platform positioned at the top of the conveyor belt, the first fixing shell is arranged at one end, close to the feeding mechanism, of the supporting platform, the third fixing shell is arranged at one end, far away from the feeding mechanism, of the supporting platform, and the second fixing shell is arranged on the supporting platform between the first fixing shell and the second fixing shell; the coating mechanism for coating materials on the paper raw materials is arranged in the first fixed shell and comprises a feeding pipe, a scraping plate, a blanking plate, a screw rod and a third servo motor, the third servo motor is arranged in the first fixed shell, the screw rod is connected to a rotating shaft of the third servo motor, the screw rod and the conveying belt are vertically arranged, the blanking plate is sleeved on the screw rod and connected to the inside of the first fixed shell in a sliding mode, and the feeding pipe penetrating through a containing cavity of the blanking plate is arranged on the top surface of the first fixed shell; the drying mechanism is arranged in a ventilation hole in the first fixed shell and used for drying after gold stamping, the drying mechanism comprises a fan, a sixth servo motor and a second heating wire, the sixth servo motor is arranged on the first fixed shell at the ventilation hole, the fan is arranged on a rotating shaft of the sixth servo motor, and the second heating wire is arranged in the ventilation hole and positioned inside the fan; the gold stamping mechanism is used for gold stamping of paper raw materials and arranged in the second fixed shell, and a radiating hole is formed in the side wall of one end, close to the third fixed shell, of the second fixed shell; the embossing mechanism for embossing the paper raw material is arranged in the third fixed shell; the material receiving mechanism is used for collecting the coated, gold-stamped and embossed paper materials and is arranged at one end, deviating from the feeding mechanism, of the supporting platform.

Specifically, the feeding mechanism comprises a first fixing plate, a first feeding roller, second fixing plates, a first guide roller and a first fixing column, the first fixing plate is arranged at the edge of the top surface of one end, close to the first fixing shell, of the supporting platform, the first feeding roller is connected onto the first fixing plate, two second fixing plates are symmetrically arranged at the edge of two sides, located between the first fixing plate and the first fixing shell, of the supporting platform, the first fixing column is connected between the two second fixing plates, and the first guide roller is fixedly sleeved on the first fixing column.

Specifically, the gold stamping mechanism comprises a third fixing column, a fifth servo motor, a gold stamping roller, a first heating wire, a second module, a second feeding roller and a fourth fixing column, the fifth servo motor is installed in the second fixing shell, the third fixing column is fixedly connected to a rotating shaft of the fifth servo motor, the gold stamping roller is fixedly connected to the third fixing column, the first heating wire is arranged in a cavity in front of the gold stamping roller and the third fixing column, the second module is fixedly sleeved on the outer surface of the gold stamping roller, the fourth fixing column is arranged at the top of the third fixing column in the second fixing shell, and the second feeding roller is rotatably sleeved on the fourth fixing column.

Specifically, the embossing mechanism includes first module, embossing roller and fourth servo motor, fourth servo motor locates in the third fixed casing, be connected with in fourth servo motor's the pivot the embossing roller, fixed the cup jointing has on the embossing roller first module.

Specifically, the receiving mechanism comprises a second guide roller, a receiving roller, a second fixing column and a second servo motor, the second fixing column is arranged at one end, deviating from the first fixing plate, of the supporting platform, the second guide roller is rotatably sleeved on the second fixing column, the receiving roller is arranged at the bottom of the second guide roller on the supporting platform, one end of the receiving roller is connected to a rotating shaft of the second servo motor, and the second servo motor is installed in the supporting platform.

The invention has the beneficial effects that:

(1) according to the continuous production and processing technology for coating, gold stamping and embossing for papermaking, the coating, gold stamping and embossing of paper can be realized on the same equipment, the high-efficiency coating, gold stamping and embossing of the paper are realized, the continuous production is realized, and the production efficiency of the paper is greatly improved.

(2) The process adopts the papermaking continuous production equipment for production, a first fixed shell, a second fixed shell and a third fixed shell are arranged between the feeding mechanism and the receiving mechanism on a supporting platform of the papermaking continuous production equipment, a coating mechanism and a drying mechanism are arranged in the first fixed shell, a gold stamping mechanism and heat dissipation holes are arranged in the second fixed shell, and an embossing mechanism is arranged in the third fixed shell, so that the coating gold stamping embossing of paper on the same equipment is realized, and the papermaking efficiency is improved.

(3) The process adopts papermaking continuous production equipment for production, the paste is fed to the surface of paper by using the blanking plate and the feeding pipe in the process of coating the paper, the blanking plate is driven by using the lead screw to move and blank in the direction vertical to the paper conveying direction in the feeding process, the paste is uniformly extruded on the paper, and meanwhile, the paste is uniformly scraped by using the scraper, so that the paper is better in coating effect.

(4) According to the continuous production and processing technology for coating, gold stamping and embossing for papermaking, the conveyor belt penetrating through the bottoms of the first fixed shell, the second fixed shell and the third fixed shell is arranged on the surface of the supporting platform of continuous production equipment for papermaking, the bayonet lock is arranged on the conveyor belt, the head end of paper can be fixed on the conveyor belt through the bayonet lock to be conveyed for coating, gold stamping and embossing at the beginning, and the problem that the paper cannot be processed and is wasted in the process that a person manually conveys one end of the paper from the feeding roller to the receiving roller at the beginning is solved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view showing the overall construction of a continuous papermaking apparatus used in the present invention;

FIG. 2 is a front cross-sectional view of the supporting platform, the first fixing housing, the second fixing housing and the third fixing housing shown in FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is an enlarged view of the portion B shown in FIG. 2;

FIG. 5 is an enlarged view of the portion C shown in FIG. 2;

FIG. 6 is a side cross-sectional structural view of the first stationary housing and support platform shown in FIG. 1;

fig. 7 is a side sectional structural connection diagram of the drying mechanism and the first stationary housing shown in fig. 2.

In the figure: 1. a supporting platform, 2, a feeding mechanism, 21, a first fixing plate, 22, a first feeding roller, 23, a second fixing plate, 24, a first guide roller, 25, a first fixing column, 3, a first fixing shell, 3a, a vent hole, 4, a second fixing shell, 4a, a heat dissipation hole, 5, a third fixing shell, 6, a conveying mechanism, 61, a conveying belt, 62, a clamping pin, 63, a roller, 64, a first servo motor, 7, a receiving mechanism, 71, a second guide roller, 72, a receiving roller, 73, a second fixing column, 74, a second servo motor, 8, a coating mechanism, 81, a feeding pipe, 82, a scraping plate, 83, a blanking plate, 83a, an accommodating cavity, 84, a screw rod, 85, a third servo motor, 9, an embossing mechanism, 91, a first module, 92, an embossing roller, 93, a fourth servo motor, 9A, a gold stamping mechanism, 91A, and a third fixing column, 92A, a fifth servo motor, 93A, a gold stamping roller, 94A, a first heating wire, 95A, a second module, 96A, a second feeding roller, 97A, a fourth fixing column, 9B, a drying mechanism, 91B, a fan, 92B, a sixth servo motor, 93B and a second heating wire.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 7, the continuous production process of coating, gold stamping and embossing for papermaking according to the present invention comprises the following steps:

s1, fixing the paper on the feeding mechanism;

s2, fixedly connecting one end of the paper with a conveyor belt, wherein the conveyor belt drives one end of the paper to sequentially penetrate through a conveying mechanism, a coating mechanism, a drying mechanism, a gold stamping mechanism, a drying mechanism and an embossing mechanism; in the process of passing through the paper, the paper is sequentially coated, dried, gold-stamped, dried and embossed, and then the treated paper is wound on a winding mechanism;

the process adopts papermaking continuous production equipment for production, wherein the papermaking continuous production equipment comprises a supporting platform 1, a feeding mechanism 2, a first fixed shell 3, a second fixed shell 4, a third fixed shell 5, a conveying mechanism 6, a material receiving mechanism 7, a coating mechanism 8, an embossing mechanism 9, a gold stamping mechanism 9A and a drying mechanism 9B; the feeding mechanism 2 for fixing and outputting the paper materials is arranged on the top surface of one end of the supporting platform 1; the conveying mechanism 6 is used for conveying paper materials from one end of the supporting platform 1 to the other end of the supporting platform 1 and is arranged on the supporting platform 1, the conveying mechanism 6 comprises a conveying belt 61, a clamping pin 62, a roller 63 and a first servo motor 64, the first servo motor 64 is installed in the side wall of the supporting platform 1, the roller 63 is connected to a rotating shaft of the first servo motor 64, the conveying belt 61 is sleeved on the roller 63, and the clamping pin 62 is arranged on the surface of the conveying belt 61; the first fixed housing 3, the second fixed housing 4 and the third fixed housing 5 for fixedly mounting equipment are arranged on the top surface of the supporting platform 1 positioned at the top of the conveyor belt 61, the first fixed housing 3 is arranged at one end of the supporting platform 1 close to the feeding mechanism 2, the third fixed housing 5 is arranged at one end of the supporting platform 1 far away from the feeding mechanism 2, and the second fixed housing 4 is arranged on the supporting platform 1 between the first fixed housing 3 and the second fixed housing 4; the coating mechanism 8 for coating materials on paper raw materials is arranged in the first fixed shell 3, the coating mechanism 8 comprises a feeding pipe 81, a scraping plate 82, a blanking plate 83, a screw rod 84 and a third servo motor 85, the third servo motor 85 is arranged in the first fixed shell 3, the screw rod 84 is connected to a rotating shaft of the third servo motor 85, the screw rod 84 and the conveyor belt 61 are vertically arranged, the blanking plate 83 is sleeved on the screw rod 84, the blanking plate 83 is clamped and slidably connected inside the first fixed shell 3, and the feeding pipe 81 penetrating through an accommodating cavity 83a of the blanking plate 83 is arranged on the top surface of the first fixed shell 3; the drying mechanism 9B is arranged in the ventilation hole 3a of the first fixed housing 3 and used for drying after gold stamping, the drying mechanism 9B comprises a fan 91B, a sixth servo motor 92B and a second heating wire 93B, the sixth servo motor 92B is arranged on the first fixed housing 3 at the ventilation hole 3a, the fan 91B is arranged on a rotating shaft of the sixth servo motor 92B, and the second heating wire 93B is arranged in the ventilation hole 3a and positioned inside the fan 91B; the gold stamping mechanism 9A is used for gold stamping of paper raw materials and arranged in the second fixed shell 4, and a heat radiating hole 4a is formed in the side wall of one end, close to the third fixed shell 5, of the second fixed shell 4; the embossing mechanism 9 for embossing the paper raw material is arranged in the third fixed shell 5; the material receiving mechanism 7 is used for collecting the coated, gold stamped and embossed paper materials and is arranged at one end, away from the feeding mechanism 2, of the supporting platform 1.

Specifically, the feeding mechanism 2 includes a first fixing plate 21, a first feeding roller 22, a second fixing plate 23, a first guide roller 24, and a first fixing column 25, the first fixing plate 21 is disposed at an edge of a top surface of one end of the supporting platform 1 close to the first fixing housing 3, the first feeding roller 22 is connected to the first fixing plate 21, two second fixing plates 23 are symmetrically disposed at edges of two sides of the supporting platform 1 between the first fixing plate 21 and the first fixing housing 3, the first fixing column 25 is connected between the two second fixing plates 23, and the first guide roller 24 is fixedly sleeved on the first fixing column 25, so that paper raw materials are fixedly conveyed. When the device is used, the paper raw material roll is sleeved on the first feeding roller 22, then the head end of the paper raw material is pulled out and penetrates through the bottom of the first guide roller 24, and the head end of the paper raw material is fixed on the conveying belt 61 through the clamping pins 62.

Specifically, the gold stamping mechanism 9A includes a third fixed column 91A, a fifth servo motor 92A, a gold stamping roller 93A, a first heating wire 94A, a second module 95A, a second feeding roller 96A and a fourth fixed column 97A, the fifth servo motor 92A is installed in the second fixed housing 4, the third fixed column 91A is fixedly connected to a rotating shaft of the fifth servo motor 92A, the gold stamping roller 93A is fixedly connected to the third fixed column 91A, the first heating wire 94A is arranged in a cavity in front of the gold stamping roller 93A and the third fixed column 91A, the second module 95A is fixedly sleeved on an outer surface of the gold stamping roller 93A, the fourth fixed column 97A is arranged at the top of the third fixed column 91A in the second fixed housing 4, the second feeding roller 96A is rotatably sleeved on the fourth fixed column 97A, realize the gold stamping treatment of the paper raw material. When the conveyor belt 61 with the coated paper passes through the bottom of the second module 95A, the set second module 95A is sleeved on the gold stamping roller 93A in advance, then the tin foil gold stamping material is sleeved on the second feeding roller 96A in advance, then one end of the tin foil gold stamping material is pulled out to bypass the bottom of the second module 95A, then the fifth servo motor 92A is started, the fifth servo motor 92A is used for driving the third fixed column 91A to rotate, and meanwhile, the first heating wire 94A is started to heat oil in a cavity between the gold stamping roller 93A and the third fixed column 91A, so that the hot oil is uniformly heated and transferred to the second module 95A sleeved on the surface of the gold stamping roller 93A. When the third fixing column 91A drives the gold stamping roller 93A and the second module 95A to rotate, the tin foil gold material is effectively stamped on the surface of the coated paper raw material and is transmitted to the heat dissipation holes 4a on the second fixing shell 4, and the fan 91B is used for effectively cooling the hot stamped paper, so that the gold stamping is effectively fixed on the paper.

Specifically, the embossing mechanism 9 includes a first module 91, an embossing roller 92 and a fourth servo motor 93, the fourth servo motor 93 is disposed in the third fixed housing 5, the embossing roller 92 is connected to a rotating shaft of the fourth servo motor 93, the first module 91 is fixedly connected to the embossing roller 92, and embossing processing of the gilded paper is achieved. During the use, with first module 91 fixed mounting on embossing roller 92 in advance, when the bottom of first module 91 is conveyed to the paper after gilding, open fourth servo motor 93, utilize fourth servo motor 93 to drive embossing roller 92 and first module 91 and rotate to when the paper passes the bottom of first module 91, realize the impressed watermark in the surface of paper.

Specifically, the receiving mechanism 7 includes a second guide roller 71, a receiving roller 72, a second fixing column 73 and a second servo motor 74, the second fixing column 73 is arranged at one end of the supporting platform 1 deviating from the first fixing plate 21, the second guide roller 71 is rotatably sleeved on the second fixing column 73, the receiving roller 72 is arranged at the bottom of the second guide roller 71 on the supporting platform 1, one end of the receiving roller 72 is connected to a rotating shaft of the second servo motor 74, and the second servo motor 74 is installed in the supporting platform 1, so that quick and effective receiving is realized. During the use, after conveyer belt 61 drove paper raw materials and passes through third fixed casing 5, take out the paper head that utilizes bayonet lock 62 to fix on the conveyer belt, and the second guide roll 71 winding is on receiving the material roller 72 by the round trip, opens second servo motor 74 and drives second fixed column 73 and rotate to beat receiving the material roller 72 and rotate and realize receiving the material.

When the device is used, the whole device is connected with a power supply. The roll of paper stock is first wound around the first feed roll 22 and the leading end of the paper stock is then pulled out through the bottom of the first guide roll 24 and secured to the conveyor 61 by the pins 62. Then, the first servo motor 64 is turned on, and the roller 63 is driven by the first servo motor 64 to rotate the conveyor belt 61, so that the conveyor belt 61 pulls one end of the paper material to pass through the ground fixing housing. When the sheet passes through the first stationary casing 3, the feed pipe 81 is connected to the feed pump, and the paste is continuously fed into the accommodating cavity 83a in the downstream plate 83. Then, the third servo motor 85 is turned on, the third servo motor 85 drives the screw 84 to rotate, the blanking plate 83 moves longitudinally in the first fixed shell 3 for blanking, so that the paste is uniformly extruded and falls on the surface of the paper, and the paper is scraped evenly and uniformly by the scraper 82 after being continuously conveyed by the conveyor belt 61. And then, the paper is continuously conveyed to a vent on the first fixed casing 3, the sixth servo motor 92B and the second heating wire 93B are turned on, and hot air is supplied to and discharged from the paper in the first fixed casing 3 by the fan 91B, so that the paper raw material is quickly dried. And then continues into the second stationary housing 4. When the conveyor belt 61 with the coated paper passes through the bottom of the second module 95A, the set second module 95A is sleeved on the gold stamping roller 93A in advance, then the tin foil gold stamping material is sleeved on the second feeding roller 96A in advance, then one end of the tin foil gold stamping material is pulled out to bypass and be fixed at the bottom of the second module 95A, then the fifth servo motor 92A is started, the fifth servo motor 92A is utilized to drive the third fixed column 91A to rotate, and meanwhile, the first heating wire 94A is started to heat oil in a cavity between the gold stamping roller 93A and the third fixed column 91A, so that the hot oil is uniformly heated and transferred to the second module 95A sleeved on the surface of the gold stamping roller 93A. When the third fixing column 91A drives the gold stamping roller 93A and the second module 95A to rotate, the tin foil gold material is effectively stamped on the surface of the coated paper raw material and is transmitted to the heat dissipation holes 4a on the second fixing shell 4, and the fan 91B is used for effectively cooling the hot stamped paper, so that the gold stamping is effectively fixed on the paper. When the paper is conveyed into the third fixed shell 5, the first module 91 is fixedly installed on the embossing roller 92 in advance, when the paper subjected to gold stamping is conveyed to the bottom of the first module 91, the fourth servo motor 93 is turned on, and the fourth servo motor 93 is utilized to drive the embossing roller 92 and the first module 91 to rotate, so that embossing is realized on the surface of the paper when the paper passes through the bottom of the first module 91. After the conveyor belt 61 drives the paper raw material to pass through the third fixing housing 5, the paper head fixed by the bayonet 62 on the conveyor belt is taken out and wound on the material receiving roller 72 by the second guide roller 71, and the second servo motor 74 is turned on to drive the second fixing column 73 to rotate, so that the material receiving roller 72 is driven to rotate to receive the material.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (1)

1. A continuous production and processing technology for coating, gold stamping and embossing for papermaking is characterized by comprising the following steps:

s1, fixing the paper on the feeding mechanism;

s2, fixedly connecting one end of the paper with a conveyor belt, wherein the conveyor belt drives one end of the paper to sequentially penetrate through a conveying mechanism, a coating mechanism, a drying mechanism, a gold stamping mechanism, a drying mechanism and an embossing mechanism; in the process of passing through the paper, the paper is sequentially coated, dried, gold-stamped, dried and embossed, and then the treated paper is wound on a winding mechanism;

the process adopts papermaking continuous production equipment for production, wherein the papermaking continuous production equipment comprises a supporting platform (1), a feeding mechanism (2), a first fixed shell (3), a second fixed shell (4), a third fixed shell (5), a conveying mechanism (6), a material receiving mechanism (7), a coating mechanism (8), an embossing mechanism (9), a gold stamping mechanism (9A) and a drying mechanism (9B); the feeding mechanism (2) for fixing and outputting the paper materials is arranged on the top surface of one end of the supporting platform (1); the conveying mechanism (6) is used for conveying paper materials from one end of the supporting platform (1) to the other end of the supporting platform (1) and is arranged on the supporting platform (1), the conveying mechanism (6) comprises a conveying belt (61), a clamping pin (62), a roller (63) and a first servo motor (64), the first servo motor (64) is installed in the side wall of the supporting platform (1), the roller (63) is connected to a rotating shaft of the first servo motor (64), the conveying belt (61) is sleeved on the roller (63), and the clamping pin (62) is arranged on the surface of the conveying belt (61); the first fixing shell (3), the second fixing shell (4) and the third fixing shell (5) for fixedly mounting equipment are arranged on the top surface of the supporting platform (1) positioned at the top of the conveyor belt (61), the first fixing shell (3) is arranged at one end, close to the feeding mechanism (2), of the supporting platform (1), the third fixing shell (5) is arranged at one end, far away from the feeding mechanism (2), of the supporting platform (1), and the second fixing shell (4) is arranged on the supporting platform (1) positioned between the first fixing shell (3) and the second fixing shell (4); the coating mechanism (8) for coating the material on the paper raw material is arranged in the first fixed shell (3), the coating mechanism (8) comprises a feeding pipe (81), a scraping plate (82), a blanking plate (83), a screw rod (84) and a third servo motor (85), the third servo motor (85) is arranged in the first fixed shell (3), the screw rod (84) is connected to a rotating shaft of the third servo motor (85), the screw rod (84) is vertically arranged with the conveyor belt (61), the screw rod (84) is sleeved with the blanking plate (83), and the blanking plate (83) is clamped and slidably connected in the first fixed shell (3), the top surface of the first fixed shell (3) is provided with the feeding pipe (81) which penetrates through the accommodating cavity (83a) of the blanking plate (83); the drying mechanism (9B) for drying after gold stamping is arranged in a vent hole (3a) in the first fixed shell (3), the drying mechanism (9B) comprises a fan (91B), a sixth servo motor (92B) and a second heating wire (93B), the sixth servo motor (92B) is arranged on the first fixed shell (3) at the vent hole (3a), the fan (91B) is arranged on a rotating shaft of the sixth servo motor (92B), and the second heating wire (93B) is arranged in the vent hole (3a) and positioned inside the fan (91B); the gold stamping mechanism (9A) is used for gold stamping of paper raw materials and arranged in the second fixed shell (4), and a radiating hole (4a) is formed in the side wall of one end, close to the third fixed shell (5), of the second fixed shell (4); the embossing mechanism (9) for embossing the paper raw material is arranged in the third fixed shell (5); the material receiving mechanism (7) used for collecting the coated, gold-stamped and embossed paper materials is arranged at one end, deviating from the feeding mechanism (2), of the supporting platform (1);

the feeding mechanism (2) comprises a first fixing plate (21), a first feeding roller (22), a second fixing plate (23), a first guide roller (24) and a first fixing column (25), the first fixing plate (21) is arranged on the supporting platform (1) and close to the edge of the top surface of one end of the first fixing shell (3), the first feeding roller (22) is connected onto the first fixing plate (21), two second fixing plates (23) are symmetrically arranged on the supporting platform (1) and located on the edge of two sides between the first fixing plate (21) and the first fixing shell (3), the first fixing column (25) is connected between the two second fixing plates (23), and the first guide roller (24) is fixedly sleeved on the first fixing column (25);

the gold stamping mechanism (9A) comprises a third fixing column (91A), a fifth servo motor (92A), a gold stamping roller (93A), a first heating wire (94A), a second module (95A), a second feeding roller (96A) and a fourth fixing column (97A), the fifth servo motor (92A) is installed in the second fixing shell (4), the third fixing column (91A) is fixedly connected to a rotating shaft of the fifth servo motor (92A), the gold stamping roller (93A) is fixedly connected to the third fixing column (91A), the first heating wire (94A) is arranged in a cavity in front of the gold stamping roller (93A) and the third fixing column (91A), the second module (95A) is fixedly sleeved on the outer surface of the gold stamping roller (93A), and the fourth fixing column (97A) is arranged at the top of the third fixing column (91A) in the second fixing shell (4), the fourth fixing column (97A) is sleeved with the second feeding roller (96A) in a rotating manner;

the embossing mechanism (9) comprises a first module (91), an embossing roller (92) and a fourth servo motor (93), the fourth servo motor (93) is arranged in the third fixed shell (5), a rotating shaft of the fourth servo motor (93) is connected with the embossing roller (92), and the embossing roller (92) is fixedly sleeved with the first module (91);

the receiving mechanism (7) comprises a second guide roller (71), a receiving roller (72), a second fixing column (73) and a second servo motor (74), the second fixing column (73) is arranged at one end, deviating from the first fixing plate (21), of the supporting platform (1), the second guide roller (71) is rotatably sleeved on the second fixing column (73), the receiving roller (72) is arranged at the bottom of the second guide roller (71) on the supporting platform (1), one end of the receiving roller (72) is connected to a rotating shaft of the second servo motor (74), and the second servo motor (74) is installed in the supporting platform (1);

the step S1: when in use, the whole equipment is connected with a power supply; firstly, a paper raw material roll is sleeved on a first feeding roller (22); the step S2: then the head end of the paper raw material is pulled out and penetrates through the bottom of the first guide roller (24), and the head end of the paper raw material is fixed on the conveyor belt (61) by using a clamping pin (62); then, a first servo motor (64) is started, a roller (63) is driven by the first servo motor (64) to enable a conveyor belt (61) to rotate, and one end of a paper raw material is pulled by the conveyor belt (61) to penetrate through the ground body fixing shell; when the paper passes through the first fixed shell (3), the feeding pipe (81) is communicated to the feeding pump, and the pasty material is continuously fed into the accommodating cavity (83a) in the blanking plate (83); then, a third servo motor (85) is started, the third servo motor (85) is utilized to drive a screw rod (84) to rotate, so that a blanking plate (83) longitudinally moves in the first fixed shell (3) for blanking, paste is uniformly extruded and falls on the surface of the paper, and the paper is scraped flatly and uniformly by a scraper (82) after being continuously conveyed by a conveyor belt (61); then, continuously conveying the paper to a vent on the first fixed shell (3), opening a sixth servo motor (92B) and a second heating wire (93B), and utilizing a fan (91B) to supply hot air to and discharge hot air from the paper in the first fixed shell (3) so as to quickly dry the paper raw materials; then continuously transmitting the waste water into a second fixed shell (4); when the conveyor belt (61) with the coated paper passes through the bottom of the second module (95A), the set second module (95A) is sleeved on the gold stamping roller (93A) in advance, then the tin foil gold stamping material is sleeved on the second feeding roller (96A) in advance, then one end of the tin foil gold stamping material is pulled out to bypass the bottom of the second module (95A), then the fifth servo motor (92A) is started, the fifth servo motor (92A) is utilized to drive the third fixed column (91A) to rotate, and meanwhile the first electric heating wire (94A) is started to heat oil in a cavity between the gold stamping roller (93A) and the third fixed column (91A), so that the hot oil is uniformly heated and transferred to the second module (95A) sleeved on the surface of the gold stamping roller (93A); when the third fixing column (91A) drives the gold stamping roller (93A) and the second module (95A) to rotate, the tin foil alloy materials are effectively stamped on the surface of the coated paper raw material and are transmitted to the heat dissipation holes (4a) in the second fixing shell (4), and the hot stamped paper is effectively cooled by the fan (91B) so as to be effectively fixed on the paper; when paper is conveyed into the third fixed shell (5), the first module (91) is fixedly installed on the embossing roller (92) in advance, when the paper subjected to gold stamping is conveyed to the bottom of the first module (91), the fourth servo motor (93) is turned on, and the fourth servo motor (93) is utilized to drive the embossing roller (92) and the first module (91) to rotate, so that embossing is realized on the surface of the paper when the paper passes through the bottom of the first module (91); after the conveying belt (61) drives the paper raw materials to pass through the third fixing shell (5), the paper heads fixed by the clamping pins (62) on the conveying belt are taken out and wound on the material receiving roller (72) by the second guide roller (71), the second servo motor (74) is started to drive the second fixing column (73) to rotate, and therefore the material receiving roller (72) is driven to rotate to receive materials.

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