KR20170002574U - Apparatus for manufacturing muti­fuctional complex cigarette case - Google Patents

Abstract

The present invention relates to a multifunctional composite cigarette manufacturing apparatus. More particularly, the present invention relates to a coating apparatus for coating a functional coating liquid on a raw paper having been subjected to a composition process and a papermaking process; A printing apparatus for printing a design through a dye and producing a three-dimensional pattern on an original coated with the coating apparatus; A cutting device for delivering the original printed on the design by the printing device; And an armouring device for dispensing the cut raw paper to produce a cigarette pack.

Description

[0001] The present invention relates to a multifunctional composite cigarette manufacturing apparatus,

The present invention relates to a multifunctional composite cigarette manufacturing apparatus.

The manufacture of tobacco products consists of processes similar to fabrics, paper making and coating processes. In addition, there have been many techniques for emphasizing the functionality of cigarettes or tobacco tobacco itself in the past, but there have been no cases of addition of such functional materials in the case of production of cigarette butts. In addition to the present invention, For registration of utility model 20-0206631, mineral powder such as sol, tea mugwort and herbal extracts, charcoal, elvan, and loess were sprayed on the top of cigarette pack for the far-infrared radiation and deodorization.

FIG. 1 is a flow chart showing steps of manufacturing a cigarette pack. Typically, the cigarette pack is manufactured by the process shown in Fig. The processes described in Fig. 1 are not essential, and there are processes that are conventional and can be partially deleted and added as needed.

1, the cigarette pack manufacturing process includes a composition process S1, a first papermaking process S2, a coating process S3, a second papermaking process S4, a printing process S5, A cutting step (S6), a weft processing step (S7), and the like.

The composition process, the first papermaking process, the coating process, and the second papermaking process are processes for producing grass papermaking. Generally, the composition process is a process of loosening the pulp into water, and the first papermaking process is a process It is a basic process that forms the shape of a paper, forms a certain thickness of paper, and hardens it in the form of paper.

In addition, the coating process is a process of coating various functional coating liquid on a raw paper, and is composed of a plurality of coating parts and a dryer, and coating the paper with various functions such as antibacterial and anion generation.

The second papermaking process is a process of completing the paper making process before performing the printing process. The second papermaking process changes the surface of the original paper to the original paper which can be printed more easily in the printing or cutting step, It is a process that allows you to do.

In addition, the printing process is a process for printing a desired shape on a base paper and forming an embossed shape by a plurality of devices including a paper feeding device, a printing machine, an embossing machine and the like. In general, printing techniques include gravure, decal comania, and many other printing methods.

For example, a gravure printing method is one of the most popular printing methods. An ink is applied to a printing roll designed to have a predetermined pattern, and then the ink is applied to the printing roll Quot; directly "

Such a gravure method has advantages in that it can produce various colors, but it has a disadvantage that it can only perform a planar printing and can not produce a three-dimensional effect.

Particularly, even in the case of printing, it is possible to use only paper, PVC sheet, deco sheet, flooring material, wallpaper and the like, and in the case of fiber, there is a disadvantage in that it is also impossible to print a powdery pigment having a large particle size. It is possible to print only in the following sizes.

Therefore, such a printing method can not satisfy the desire of consumers who prefer a variety of products due to the improvement of living standards and higher quality products due to the boredom due to the simple repeatability of the flat pattern and the tiredness of the simple flat color There was no.

A lot of efforts have been made to improve this. As a part of this, there is a sol screen method in which a PVC sol is injected into a screen roll in a screen roll, and then the rubber ball is pushed into a printed pattern hole to print a three- .

However, in the case of the sol-screen method, the drying temperature is higher than the gravure ink at a temperature of 170 ° C or higher, and the printing speed is not halved compared to the gravure printing due to the dryness.

Another method for achieving a stereoscopic effect is to use embossing rolls to form a desired pattern or pattern on an embossing roll, passing the material between the embossing rolls and the rubber roll, It is a method of embossing water.

However, despite the advantage that such an embossing printing method gives a three-dimensional feeling and can provide a more luxurious feeling, there is a limit in that the color can not be variously implemented as in the case of a gravure printing, which is monotonous, and its price is relatively high, The embossing printing paper of the embossing printing paper depends on the import. Therefore, it is disadvantageous in that it is expensive to manufacture the printing material using the embossing printing paper.

In addition, there is a limit to the embossing pattern embossed on the embossing roll, and the printing ink can not be uniformly applied due to the embossed patterned surface, resulting in a significant decrease in the sharpness of the printed substrate.

In recent years, studies have been made to develop a technique capable of obtaining a stereoscopic effect capable of expressing various colors by merely combining these two methods so as to obtain merits of an embossing method and a gravure method. However, When the ink is not dried, it is difficult to express the three-dimensional effect as well as the problem of the address, and it is difficult to perform the printing operation due to difficulty in releasing the ink when the ink is overcooled.

This is because it is related to the durability of the roll and the processing performance of the roll, as well as the relationship between the material and the cooling degree of the roll itself, which is very subtle and has a complicated and difficult dynamics relationship.

As mentioned above, in order to manufacture the cigarette packs, various existing devices are separately formed, and there is a problem that the manufacturing cost, the cost, and the time are increased because a new process must be performed for each device.

Accordingly, there has been a demand for a multi-functional composite cigarette packet manufacturing apparatus capable of integrating various processes into one device and system.

Korean Patent No. 0376604 Korea Patent Publication No. 2010-0020980 Korea registered utility model 0321033 Korean Registered Utility Model No. 0373444

Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a cigarette, It is possible to minimize the installation space as a compact structure by achieving the stabilization of mass production system by fully integrated automation of printing and various coating and bonding technologies such as bonding, And to provide a high-value-added multifunctional composite cigarette packet manufacturing apparatus that can enhance the competitiveness by reducing manufacturing cost.

According to another embodiment of the present invention, there is provided a cigarette packet manufacturing apparatus having an improved printing apparatus for three-dimensional pattern printing so that various colors and three-dimensional effects can be easily and inexpensively produced without embossing to the ground for manufacturing a cigarette pack. The purpose of the device is to provide.

According to one embodiment of the present invention, when a functional coating liquid such as an anion emitting material is coated on the ground surface and the rear surface, respectively, to manufacture a cigarette, The present invention provides a multifunctional composite cigarette pack manufacturing apparatus capable of providing a purifying function of the internal cigarette itself and an advantageous function to the human body possessing the cigarette pack by the influence of the negative ions emitted from the inside and the outside.

The technical problems to be solved by the present invention are not limited to the technical problems mentioned above, and other technical problems which are not mentioned are clearly described from the following description to those skilled in the art It can be understood.

An object of the present invention is to provide a cigarette box manufacturing apparatus comprising: a coating apparatus for coating a functional coating liquid on a raw paper having been subjected to a composition process and a papermaking process; A printing apparatus for printing a design through a dye and producing a three-dimensional pattern on an original coated with the coating apparatus; A cutting device for delivering the original printed on the design by the printing device; And an armouring device for dispensing the cut raw paper to produce a tobacco packet.

The functional coating solution was prepared by stirring 3-20% of tourmaline powder of 800-1,500 mesh, 50-80% of heavy calcium carbonate, 10-20% of clay, 0.04-0.1% of dispersant, and 10-15% And the negative ion conductivity, which is a medicine in a weight ratio, is composed of a conjugate.

The coating apparatus may further include a first coating unit coating the functional coating liquid on the rear surface of the base paper, a first drying unit drying the coated paper coated with the first coating unit, A second coating unit coating the surface of the base paper with the functional coating liquid; a second drying unit drying the coated paper coated with the second coating unit; And a third coating unit coating the surface of the base paper with a printing coating solution, and a third drying unit drying the base paper coated with the third coating unit.

The printing apparatus may further comprise: a feeding device having a feeding roll interposed therebetween in the form of a roll, and feeding the fed roll uniformly through the feeding roller; A printing machine having a plurality of rollers in a conveying state, a plurality of designs printed on a surface of the rollers in a conveying state; A printer having a doctor blade and a doctor, wherein the paper is passed between a press ball and a plurality of printing rolls in a feeding state to print various designs on a surface thereof, A drying device for passing the raw paper through a chamber divided vertically in a conveying state and warming the surface to rapidly dye and dry the dye; And an embossing machine which passes the paper between the rollers in a conveying state and engraves the surface with a pattern of a flat or concave-convex shape.

The printing apparatus includes a printing roll configured by a printing apparatus for printing a three-dimensional pattern, the inside of which is an empty cylindrical shape, and the outer surface of which is rotated by a plurality of three-dimensional patterns; A supply nozzle provided on one side of the upper side of the printing roll to supply ink into the recessed pattern; A knife installed at an end of the supply nozzle and guided to form a uniform and accurate three-dimensional printed pattern by scraping the remaining ink injected into the three-dimensional pattern of the supplied ink; A plurality of tension rolls having an infinite track type tension band which is in close contact with a part of the outer surface of the printing roll and which is rotated while being in contact with the printing roll to move the tension band; And a cooling unit provided inside the printing roll and having a cooling water flow path radially formed on the outer surface of the roll shaft.

According to one embodiment of the present invention, various processing processes for manufacturing a cigarette pack, such as various coating processes, printing processes, drying processes, embossing processes, bonding, and various coating and bonding technologies, By achieving the stabilization of the mass production system by fully automated, the installation space can be minimized by a compact structure. In addition, it is possible to increase the competitiveness by reducing the manufacturing cost by cutting the processing facilities and production personnel, and to manufacture high value multi- It is possible to provide a device.

According to another embodiment of the present invention, there is an advantage in that various colors and three-dimensional effects can be easily and easily implemented at a low cost without embossing up to the ground for manufacturing the cigarette pack.

According to one embodiment of the present invention, when a functional coating liquid such as an anion emitting material is coated on the ground surface and the rear surface, respectively, to manufacture a cigarette, There is an advantage that the function of purifying the internal cigarette itself and the function of beneficial to the human body possessing the cigarette shell can be given by the influence of the negative ions emitted from inside and outside.

It should be understood, however, that the effects attained by the present invention are not limited to those described above, and that other effects not mentioned are clearly understood by those skilled in the art from the following description. It will be possible.

The following drawings attached hereto illustrate a preferred embodiment of the present invention and together with the detailed description of the invention serve to further understand the technical idea of the present invention, It should not be construed as limited.
FIG. 1 is a flow chart showing steps of manufacturing a cigarette pack,
FIG. 2 is a block diagram of a multifunctional composite cigarette box manufacturing apparatus according to an embodiment of the present invention;
3 is a structural view showing a configuration of a coating apparatus according to an embodiment of the present invention;
4 is a configuration diagram showing the configuration of a printing apparatus according to an embodiment of the present invention;
FIG. 5A is a front view of a feeding apparatus which is one configuration of a printing apparatus according to an embodiment of the present invention; FIG.
Fig. 5B is a side view of the feeding device, which is one configuration of the printing apparatus according to one embodiment of the present invention; Fig.
FIG. 6A is a front view of a printing press, which is a constitution of a printing apparatus according to an embodiment of the present invention; FIG.
FIG. 6B is a side view of the printing machine, which is a constitution of the printing apparatus according to the embodiment of the present invention;
7 is a cross-sectional view of a printer, which is a constitution of a printing apparatus according to an embodiment of the present invention;
8 is a cross-sectional view of a drying apparatus which is a constitution of a printing apparatus according to an embodiment of the present invention;
9A is a front view of an embossing machine which is an embodiment of a printing apparatus according to an embodiment of the present invention;
Fig. 9B is a side view of the embossing machine which is an embodiment of the printing apparatus according to an embodiment of the present invention; Fig.
10 is a cross-sectional view of a printing apparatus for three-dimensional pattern printing according to one embodiment of the present invention,
Fig. 11 is an exploded perspective view showing a cooling structure of a printing apparatus for printing a three-dimensional pattern according to an embodiment of the present invention,
12 is a cross-sectional view of a printing apparatus for printing a three-dimensional pattern according to another embodiment of the present invention.

The above objects, other objects, features and advantages of the present invention will become readily apparent from the following preferred embodiments with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art.

In this specification, when an element is referred to as being on another element, it may be directly formed on another element, or a third element may be interposed therebetween. Also in the figures, the thickness of the components is exaggerated for an effective description of the technical content.

The embodiments described herein will be described with reference to cross-sectional views and / or plan views which are ideal illustrations of the present invention. In the drawings, the thicknesses of the films and regions are exaggerated for an effective description of the technical content. Thus, the shape of the illustrations may be modified by manufacturing techniques and / or tolerances. Accordingly, the embodiments of the present invention are not limited to the specific forms shown but also include changes in the forms that are generated according to the manufacturing process. For example, the area shown at right angles may be rounded or may have a shape with a certain curvature. Thus, the regions illustrated in the figures have attributes, and the shapes of the regions illustrated in the figures are intended to illustrate specific forms of regions of the elements and are not intended to limit the scope of design. Although the terms first, second, etc. have been used in various embodiments of the present disclosure to describe various components, these components should not be limited by these terms. These terms have only been used to distinguish one component from another. The embodiments described and exemplified herein also include their complementary embodiments.

The terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. The terms "comprises" and / or "comprising" used in the specification do not exclude the presence or addition of one or more other elements.

In describing the specific embodiments below, various specific details have been set forth in order to provide a more concise and clear understanding of the design. However, readers with knowledge in this area can understand that this design can be used without any of these specific details. In some cases, it should be noted that parts of the design that are commonly known but not significantly related to the design are not described in order to prevent chaos from happening without reason to explain the design.

Hereinafter, the configuration and functions of the multifunctional composite cigarette box manufacturing apparatus 1 according to one embodiment of the present invention will be described. 2 is a block diagram showing a configuration of a multifunctional composite cigarette box manufacturing apparatus 1 according to an embodiment of the present invention. 2, the multifunctional composite cigarette box manufacturing apparatus 1 according to an embodiment of the present invention generally includes a supply roll, a feeding device 300, a coating device 100, and a second paper making device 200 ), A printing device, a cutting device 800, a mobile device 2, and the like.

The feed roll 10 is subjected to a composition step and a raw paper on which the first papermaking process is completed, and the raw paper is moved to the coating device side while the roll of the feed device and the feed roll are rotated together. As shown in FIG. 2, the multifunctional composite cigarette box manufacturing apparatus according to an embodiment of the present invention corresponds to a complex device capable of performing multiple functions on one system.

Hereinafter, the construction of the coating apparatus 100, which is a constitution of the multifunctional composite cigarette box manufacturing apparatus 1 according to one embodiment of the present invention, will be described in more detail. FIG. 3 is a block diagram showing a configuration of a coating apparatus 100 according to an embodiment of the present invention. 3, the coating apparatus 100 includes a first coating unit 110 and a first drying unit 111 in a coating process, and a second coating unit 120 and a second drying unit 121, a third coating part 130, and a third drying part 131, which will be described in detail with reference to the drawings.

The present invention relates to a process for producing a functional ground paper (P) for the production of a cigarette box as shown in FIG. 3, wherein a known composition step of pulping the pulp into water, So that the raw paper P having been subjected to the process is supplied.

That is, a process for cutting pulp supplied in the form of rolls and releasing it into water is a composition process. The first papermaking process is a process of making the first form of paper, which is a process of forming a certain thickness of paper, and hardening it in the form of paper.

Next, as shown in FIG. 3, the functional coating solution is coated on the rear surface of the raw paper supplied to the first coating portion 110. Such a functional coating solution may be composed of an anionic coating liquid in a specific embodiment. The anion coating solution is coated with an anionic coating liquid prepared by mixing 3-20% tourmaline with a pigment and dried in a first drying unit 111.

That is, the first coating process for coating the backside (A) of the base paper (P) having been subjected to the first paper making process with an anion conductivity conjugate is started. Here, the process of coating the back side of the base paper (P) is performed in the present invention with the anion coating solution mentioned in the coating process for the coating.

That is, the anionic coating liquid is an aqueous solution containing 3-20% of tourmaline powder of 800-1,500 mesh, 50-80% of heavy calcium carbonate, 10-20% of clay, 0.04-0.1% of dispersant, and 10-15% Refers to the drug that has been stirred.

In other words, a very fine form of heavy calcium carbonate is the cheapest white color material for the coating and also has a whitening effect on the paper. The tourmaline which is put in together emits negative ions.

On the other hand, the dispersing agent is added to the anion coating solution so that the respective components can be mixed well, and the adhesive functions to make the anion coating solution closely adhere to the raw paper to be coated.

Therefore, as described above, the substrate of the present invention is coated with an anionic coating solution through the first coating part, and after the coating, the coating is subjected to a drying step. However, the anionic coating liquid is not directly applied to the paper P and is not subjected to a coating step but is used in a slurry form in water.

That is, the mixing ratio of the anion coating solution and water is 55 to 70% of anion and 30 to 45% of water are mixed and stirred to form a slurry. This slurried material is used for the coating step. 3, in the coating process, the anion coating solution is coated on the rear surface of the base paper P supplied from the first coating portion 110 using the coating apparatus 100, The first coating unit 110 in the first drying unit 111 dries the backside of the base paper P coated with the anion coating solution.

At this time, in the first drying unit 111, the base paper P coated with the anion coating solution is dried using hot air, convection, radiant heat or the like, and preferably dried at about 120 ° C for about 7 seconds.

Next, in the present invention, the entire surface of the raw paper which has passed through the first coating portion 110 and the first drying portion 111 is mixed with 3-20% tourmaline and pigment, and is coated with an anionic coating liquid through a second coating portion 120, And the surface is dried in the second drying unit 121. That is, in the present invention, the base paper P from which the anion coating solution has been dried is pre-coated on the surface of the base paper P in the second coating portion 120. In this second coating solution, an anionic material useful for the human body is added to the pre- Is an anionic coating liquid.

3, the surface of the raw paper P coated with the precolor is dried in the second drying unit 121, and then dried in the second drying unit 121. Thereafter, .

The anionic coating liquid (= precolor coating liquid) used in the present invention is preferably used in the following proportions. That is, a mixture of 3-20% of tourmaline powder of 800-1,500 mesh, 50-80% of heavy calcium carbonate, 10-20% of clay, 0.04-0.1% of dispersant, and 10-15% Which is used as a slurry in water. Of course, at this time, it is preferable that the anionic coating solution and water are stirred at a weight ratio of 55-70% of an anionic coating solution and 30-45% of water. That is, tourmaline, heavy calcium carbonate, clay, dispersant, and adhesive are mixed with the appropriate amount of the tourmaline in the form of fine powder, and then stirred with water to coat the raw paper.

Through this process, the anion material (= tourmaline) is coated on the surface (front side; B) of the raw paper, so that it will emit anion and maintain a beneficial wavelength to the human body.

Of course, this anion also serves to purify the toxicity of tobacco when the ground (P) of the present invention is manufactured and used as a tobacco (K).

A third coating process in which the dried base paper P is once again coated with the advanced printing coating liquid in the third coating unit 130 and a third drying process through the third drying unit 131. [ That is, this step is performed by passing through the second coating part 120 and the second drying part 121 to bind the negative ions and to coat the dried paper P once again in the same step as the known coating step Coating) and drying.

In other words, this step is a step that allows the printing to be performed more successfully when printing on the surface of the paper P to be generated later. For this task, we will examine in detail the components of the advanced printing coating solution used in the fourth step of the present invention.

That is, the advanced printing coating solution of the fourth step of the present invention is prepared by mixing 60 to 80% of heavy calcium carbonate, 10 to 30% of Clay, 10 to 15% of an adhesive, and 0.04 to 0.5% of a dispersant in a weight ratio It is preferable to use a slurry in water. Although the composition ratio is not different from the conventional coating solution, the composition ratio is important, so that the use of such a composition ratio makes it possible to print more easily at the post-printing step.

Next, in the present invention, the second papermaking process for finishing the coating (P) finished with the coating and drying process is sequentially performed so that the negative ions are radiated. That is, this second papermaking process has been used in the conventional paper manufacturing process.

Of course, this step is a step for lustering the surface of the paper P so that it can be transformed into a paper that can be printed more easily in a post-process printing or cutting step.

Then, the printing process is performed by the printing apparatus when the second initial process is completed.

Hereinafter, the configuration and function of the printing apparatus according to an embodiment of the present invention will be described in more detail. 4 is a block diagram showing a configuration of a printing apparatus according to an embodiment of the present invention. As shown in FIG. 4, the printing apparatus according to an embodiment of the present invention can be configured to include a supplying apparatus, a printer, a printer, a drying apparatus, an embossing machine, and the like.

FIG. 5A shows a front view of a feeding apparatus which is an embodiment of a printing apparatus according to an embodiment of the present invention. FIG. FIG. 5B is a side view of the supplying apparatus, which is one embodiment of the printing apparatus according to an embodiment of the present invention. The feeding device shown in Figs. 5A and 5B is merely one preferred example, and the scope of the right should not be limited to these drawings.

As shown in Figs. 5A and 5B, the feeding device 300 feeds the paper P uniformly through the feeding roller 310 and the guide roller 320, which are wound in a roll form. The feeding device is guided by the guide roller 320 and fed with the paper P on the feeding roller 310 as shown in the figure. The feeding device 300 is supplied by a motor that drives the main device located at the downstream end, that is, the printing device 400, the printer 500, and the like, rather than supplying the paper by the motor.

As shown in the side view of the feeding roller 310, the paper P is interposed in the form of a roll. Accordingly, the feeding roller 310 has a structure in which the roll paper P can be inserted and removed . The supply roller 310 is connected to the power brake 311 at one end to drive the supply roller 310. The gear train 312 is installed on the supply roller 310 and the power brake 311 to rotate, Respectively.

The guide roller 320 is installed at the upper end of the tension sensor 330 that detects the tension force of the paper P while being positioned at the upper end of the feed roller 310. Accordingly, when the paper is fed, a tension force is sensed and a signal is sent to a control panel (not shown) to control the motor rotation force of the main device.

6A is a front view of a printing machine which is a constitution of a printing apparatus according to an embodiment of the present invention. FIG. 6B is a side view of the printing apparatus, which is a constitution of the printing apparatus according to an embodiment of the present invention. 6A and 6B show only one preferred example, and the scope of the right should not be limited to these drawings.

6A and 6B, the printing machine 400 is a gravure printing machine in which the paper P is passed between the mesh roller 410 and the silicon roller 411 in a conveying state to print various designs on the surface, The knife 460 is provided at the lower end of the roller 411 together with the container 440 for receiving the dye. The printing machine 400 is supplied with a sheet of paper from the feeding device 300 and prints various designs by being meshed and transported by the respective mesh rollers 410 and the silicon rollers 411. By the mesh rollers 410, Can be expressed. The mesh roller 410 is provided with a container 440 for supplying dye to the lower end of the mesh roller 410. The height of the mesh roller 410 is adjusted by the cylinder 420. The mesh roller 410 is coated with a dye And the like.

The driving mesh roller 410 at one end is connected to the motor 430 by a gear and at the same time can be moved to the cylinder 420 while being engaged with the driven silicon roller 411. One side of the pair of rollers 410 and 412 is of a type having a pattern and the other side is of a flat type, but it is also possible to replace them with each other as needed. The motor 430 is mounted with a separate box so as to avoid interference on the frame. The motor 430 extends the central axis of the mesh roller 410 and mounts gears and gears the rotation shaft of the motor 430. The cylinder 420 is provided to vary the distance between the mesh roller 410 and the silicon roller 411 on the side of the frame and is used to adjust the depth of the pattern by changing the distance between the silicon rollers 411, The distance is adjusted by a handle provided on the housing 420. Accordingly, a suitable pattern can be continuously impressed on the base paper P.

7 is a cross-sectional view of a printer, which is one embodiment of a printing apparatus according to an embodiment of the present invention. The printer shown in Fig. 7 is merely a preferred example, and the scope of the right should not be limited to these drawings.

The printer 500 according to the present invention as shown in Figure 7 passes the base paper P between the press ball 510 and the plurality of printing rolls 520 in the conveying state to print various designs on the surface, A cleaning doctor 580, and a lint doctor 590, which are capable of controlling the indentation depth, and collecting dyes. The printer 500 is supplied with the paper from the printer 400 and the feeder 300 and prints various designs while being intermeshed and transported by the respective printing rolls 520 and the press balls 510.

The printing roll 520 can be controlled by a cylinder 560 on the outer circumferential surface of the press ball 510 and can be adjusted by a laser beam etching method using a flange type It is possible to do fine printing and chart painting that could not be done. The cylinder 560 arranged in the printing roll 520 adjusts the depth of the design by varying the distance between the press ball 510 and the printing roll 520. The printing roll 520 is rotated in a direction opposite to that of the press ball 510 to apply the dye to the printing roll 530. The printing roll 530 rotates in contact with the application roll 530 and is received at a proper depth from the container 550 for storing the dye, Is fed to the printing roll 520. At this time, the container 550 is interlocked by the operation of the handle 540, and the application roll 530 is interlocked with this.

In the printer 500, the bladed roll 570 is installed on the outer circumferential surface of the press ball 510. This is operated by the cylinder to adjust the press-in depth and to recover the remaining dye on the press ball 510 do. Each of the printing rolls 520 is provided with a doctor 580 (590) for applying dyes or the like to the base paper in a uniform thickness. The cleaning doctor 580 of the doctor 580 and the cleaning doctor 580 performs a function of filling the dyeing roll 520 with the dye and removing the overflowing dye and the Lint doctor 590 And removes dyes that are printed by the leading printing roll 520 and are not dried. The cleaning doctor 580 contacts the cutting edge in the rotating direction of the printing roller 520, while the lint doctor 590 is mounted so that the cutting edge is opposite to the rotating direction.

8 is a cross-sectional view of a drying apparatus which is a constitution of a printing apparatus according to an embodiment of the present invention. The drying apparatus shown in Fig. 8 is merely a preferred example, and the scope of the right should not be limited to these drawings.

The dryer 600 of the present invention passes through the upper chamber 601 and the lower chamber 606, which are vertically divided in the conveying state, and warms the surface of the raw paper P to rapidly dye and dry the dye. The dryer 600 has a double chamber 601 and a pair of upper and lower chambers 601 and 606 separated from each other by a center frame as shown in FIG. do. That is, the upper chamber 601 performs roll coating (urethane, acrylic) and foil printing, and the lower chamber 606 performs dew drop / dot, ripple printing, Embossing, laminating, and bonding are performed.

The upper chamber 601 of the present invention is a fruit nozzle system in which a blowing fan 602 with a built-in internal heat is mounted and hot air is supplied to the paper by a plurality of nozzles 604 connected through a duct 603 . As shown in the figure, the upper chamber 601 is mounted inside the drying apparatus 600. The upper part of the upper chamber 601 is provided with a blowing fan 602 having a built- A fan 602 is installed.

That is, since the upper chamber 601 uses the heat, the temperature deviation is within ± 2 ° C. The blower fan 602 uses the duct 603 to supply hot air to the plurality of nozzles 604. The upper chamber 601 is provided with a plurality of rolls for conveying the paper, which is a driven roller.

The hot air heated by the heat is circulated by the blowing fan 602 and is sprayed onto the plurality of nozzles 604 through the duct 603 to be heated to the surface after printing on the paper which is moved in a roll form, And then dried. In this case, reference numeral 605 denotes an exhaust fan which is mounted outside the drying apparatus 600 and forcibly discharges the inside air. Therefore, the upper chamber 601 can be easily controlled in temperature by using the heat as a heat source, and a shutoff valve (not shown) can be individually mounted on the plurality of nozzles 604 to adjust and spray hot air according to the product Can produce good quality products.

The lower chamber 606 of the present invention is an infrared heater type in which an infrared heater 607 and a reflection plate 608 are mounted in the inside and forced air is blown to the raw paper P by radiant heat. Unlike the upper chamber 601, the lower chamber 606 is provided with an infrared heater 607 and a reflection plate 608 at an upper portion thereof. This is because the lower chamber 606 uses the infrared heater 607 and the radiant heat directly raises the product by the reflection plate 608. The infrared heater 607 and the reflection plate 608 are arranged in a four- And is vertically adjustable by a lifting device (not shown).

Since the lower chamber 606 uses the infrared heater 607, the temperature deviation is within ± 2 ° C and the temperature can be adjusted from 20 to 300 ° C. The lower chamber 606 is provided with a plurality of rolls for transporting the paper P, and one of them is driven by a motor 615, and a detailed description thereof will be described later.

Accordingly, the lower chamber 606 is irradiated with the radiation heat heated by the infrared heater 607 by the reflection plate 608 to maximize the reflection effect and is heated on the paper P, which is moved to the roll form, / Dry. Since the radiant heat direct method is used, it is possible to produce products such as color sharpness and precision because it is excellent in fixation of urethane and acrylic on the base paper (P), and instant thermal conduction is possible in the nipple processing.

8, the lower chamber 606 supports a conveyor 610 for conveying the fabric using a plurality of rollers mounted on the frame 617, and one end of the drive roller 611 supports the motor 615, And the center variable roller 612 can change the position of the conveyor 610 to the cylinder 616 while the turning roller 613 at the other end is connected to the conveyor 610 with the cylinder 616. [ It is possible to adjust the tension of

The lower chamber 606 supports the conveyor 610 using a plurality of rollers 611, 612, 613, and 614 mounted on the frame 617. At this time, the conveyor 610 uses a Teflon glass net. The driving roller 611 and the turning roller 613 provided at both ends of the frame 617 are simply cylindrical and the variable roller 612 and the feeding roller 614 are connected to both the driving roller 611 and the turning roller 613 at both ends, And are disposed at appropriate intervals to contact one surface of the conveyor 610. [

At this time, one end of the driving roller 611 is connected to the motor 615 by a belt, and the central variable roller 612 and the other end turning roller 613 can be moved to the cylinder 616. The motor 615 is mounted on the lower chamber 606 to avoid interference with the conveyor 610. A central axis of the drive roller 611 is extended to mount a pulley and connected to the rotation shaft of the motor 615 by a belt. The cylinder 616 is controlled and operated by the control panel and is installed to change the position of the conveyor 610 on the roller by rotating the variable roller 612 on the frame 617, The distance of the roller 613 is variable. Accordingly, the tension adjustment or replacement work of the conveyor 610 is easy.

9A is a front view of an embossing machine which is an embodiment of a printing apparatus according to an embodiment of the present invention. 9B is a side view of an embossing machine which is an embodiment of a printing apparatus according to an embodiment of the present invention. The embossing machine shown in Figs. 9A and 9B is only one preferred example, and the scope of the right should not be limited to these drawings.

9A and 9B, the embossing machine 700 passes the paper P between the embossing roll 710 and the silicon roll 720 in a conveying state, and engraves the surface with a flat or concave-convex pattern. The embossing machine 700 includes an embossing roll 710 having a built-in heater 750 as shown and capable of replacing and adjusting the indentation depth by means of a handle 760 and a cylinder 770 and an embossing roll 710 corresponding to the embossing roll 710 And a silicon roll 720 to be installed.

The embossing machine 700 is a device for processing various shapes of patterns into planar or concave-convex shapes by the combination of rollers, and each of the rollers 710 and 720 conveys and feeds the raw paper, . The embossing roll 710 is made by an embossing roll 710 among the rollers 710 and 720 which processes patterns of various shapes. At this time, the embossing machine 700 frequently changes the rollers 710 and 720 in order to process various patterns, so that it is possible to replace the rollers 710 and 720 with the cylinder 770 simply by replacing them, , Various fabric work is carried out.

The drive silicone roll 720 is connected to the motor 730 by a belt and engaged with the driven embossing roll 710 and the gear 740. In the embossing machine 100, one of the pair of rollers 710 and 720 uses a flat type and the other side has a pattern, but it is easy to replace them in mutually different combinations as needed.

The handle 760 disposed on the upper side of the embossing machine 700 is used to adjust the depth of the pattern by changing the interval of the embossing roll 710. As a result, patterns of appropriate surface roughness can be continuously impressed on one side or both sides of the base paper (P). In addition, the embossing machine (700) can be mixed with various foil print, roller printing, and coating materials to produce multi-purpose, multi-functional paper.

10 is a cross-sectional view of a printing apparatus for printing a three-dimensional pattern according to an embodiment of the present invention. As shown in Fig. 10, the printing apparatus according to an embodiment of the present invention may be configured as a stereoscopic printing apparatus 900 for printing. 11 is an exploded perspective view and a cross-sectional view showing a cooling structure of a printing apparatus for printing a three-dimensional pattern according to an embodiment of the present invention.

As shown in Fig. 10, the printing apparatus according to the present invention includes a printing roll 910 in the form of a cylinder, that is, a pipe in the shape of an empty inside. On the outer surface of the printing roll 910, a three-dimensional pattern 911 such as patterns, patterns, patterns, and letters of various shapes is formed in a recessed shape in accordance with the three-dimensional pattern to be printed.

A plurality of tension rolls 912 are provided on the lower side of the printing roll 910 so as to be adjacent to the printing roll 910. A tension band 913 is wound around the tension roll 912 in the form of an endless track . At this time, the tension band 913 is in contact with a part of the outer circumferential surface of the printing roll 910 and has a certain tension so that the paper can be completely brought into close contact with the outer circumferential surface of the printing roll 910.

That is, the original is moved from one side of the printing roll 910 to the other side via the printing roll 910. In this case, the original is separated from the printing roll 910 by the tension band 913, The ink in the three-dimensional pattern 911 formed on the printing roll 910 is formed on the printing surface of the paper so that the three-dimensional printing pattern 901 is formed. For reference, the term "ink" used in the present invention refers to a term selected in the description of the printing field, not a general ink containing volatile matter but a "resin ", more preferably a" thermoplastic resin ". In addition, it is more preferable that the base sheet is configured so that both ends thereof can be wound and unwound on roll-shaped reels, thereby enhancing the convenience of the printing operation.

A supply nozzle 920 for supplying ink is provided on one side of the upper portion of the printing roll 910 and a knife finely spaced from the outer surface of the printing roll 910 921). The knife 921 is a kind of scraper which is injected into the three-dimensional pattern 911 of the ink supplied to the surface of the printing roll 910 through the supply nozzle 920 and scatters the remaining ink, So that an accurate three-dimensional printed pattern 901 can be formed.

In addition, although not shown, the supply nozzle 920 is connected to the extruder to receive printing ink. On the other hand, a cooling unit 930 as shown in FIG. 11 is provided inside the printing roll 910. The cooling unit 930 includes a plurality of diaphragms 932 radially formed on a roll axis 931 forming a rotation center of the printing roll 910 and a plurality of diaphragms 932 formed inside the printing roll 910 formed by the diaphragm 932 And a sealing plate 940 having a cooling water supply port 941 for supplying and discharging cooling water to and from the cooling water channel and a cooling water discharge port 942 for sealing an open side of the printing roll 910.

The diaphragm 932 may protrude from the outer circumferential surface of the roll shaft 931 so as to be in contact with the inner circumferential surface of the printing roll 910 to form a cooling water flow path. In the radial direction of the printing roll 910, It is preferable that the roll axes 931 are staggered in the longitudinal direction in order to form the cooling water flow path in the form of a pipe.

The sealing plate 940 is fixed to the open end of the printing roll 910 with a sealing member (mainly an O-ring), not shown, . The cooling unit 930 is detachably and detachably installed. The cooling unit 930 can be replaced when the printing roll 910 is replaced while the cooling unit 930 is provided for each size of the printing roll 910. Can be freely attached and detached and reused, thereby reducing cost.

The printing roll 910 according to the present invention can be made of nickel material. If the printing roll 910 is made of Fe, the printing roll 910 can be formed only of an anti- In addition, due to the internal foreign matter, the slot corresponding to the diaphragm 932 must be further machined on the inner circumferential surface of the printing roll 910 made of Fe material, which is very inconvenient and troublesome and the manufacturing cost is increased. This is the most reasonable, but such a fixed type can only be an integrated type in which the printing roll 910 and the cooling unit 930 are composed of one set.

In contrast, in the present invention, if the printing roll 910 is made of a nickel material, the inner roundness of the printing roll 910 can be used as it is, This is possible and smooth and is good for reuse.

12 is a cross-sectional view of a printing apparatus for printing a three-dimensional pattern according to another embodiment of the present invention. 12, a brush 950 is further provided on the upper portion of the printing roll 910 to clean minute residues remaining on the three-dimensional pattern 1911 reprinted on the surface of the printing roll 910 It will be possible to realize a more clear and superior quality three-dimensional pattern.

In addition, the release agent 960 may be further injected to improve the releasability of the ink, or a heater 970 may be further provided to improve the scraping function. Particularly, in the case of the heater 970, it is required to be provided for drying the release agent 960 when the release agent 960 is used, and further, It should be installed if possible so that the inks can be scraped off smoothly.

It should be noted that the above-described apparatus and method are not limited to the configurations and methods of the embodiments described above, but the embodiments may be modified so that all or some of the embodiments are selectively combined .

1: Multifunctional composite cigarette maker
2: Mobile device
10: Supply roll
100: Coating device
110: first coating part
111: first drying section
120: second coating part
121: Second drying section
130: Third coating part
131: Third drying section
200: second paper making device
300: Feeder
310: Feed roller
311: Power brake
312: Gear Train
320: guide roller
330: tension sensor
400: printing press
410: mesh roller
411: Silicone roller
420, 450: Cylinder
430: motor
440: container
460: Knife
500: Printer
510: free ball
520: printing roll
530:
540: Handle
550: container
560: Cylinder
570: Mangrol
580: Cleaning Doctor
590: Lint Doctor
600: Drying device
601: upper chamber
602: blowing fan
603: Duct
604: Nozzle
605: Exhaust fan
606: Lower chamber
607: Infrared heater
608: Reflector
610: Conveyor
611: drive roller
612: Variable roller
613: Turning roller
614: Feed roller
615: Motor
616: Cylinder
617: Frame
700: Embossing machine
710: Embossing roll
720: Silicone roll
730: motor
740: gear
750: heater
760: Handle
770: Cylinder
800: Cutting device
900: Printing device for three-dimensional pattern printing
901: Stereoscopic pattern
910: printing roll
911: three-dimensional pattern
912: Tension roll
913: tension band
920: Supply nozzle
921: Knives
930: Cooling unit
931:
932: diaphragm
940: sealing plate
941: Cooling water supply port
942: Cooling water outlet
950: Brushes
960: Releasing agent
970: Heater

Claims (5)

1. A cigarette pack manufacturing apparatus comprising:
A coating apparatus for coating a functional coating liquid on a raw paper having been subjected to a composition process and a papermaking process;
A printing apparatus for printing a design through a dye and producing a three-dimensional pattern on an original coated with the coating apparatus;
A cutting device for delivering the original printed on the design by the printing device; And
And an armouring device for dispensing the cut raw paper to produce a cigarette packet.
The method according to claim 1,
In the functional coating liquid,
3-20% of tourmaline powder of 800-1,500 mesh, 50-80% of heavy calcium carbonate, 10-20% of clay,
0.04-0.1% of a powder, and 10-15% of an adhesive, wherein the weight ratio of the drug is anionic.
3. The method of claim 2,
The coating apparatus includes:
A first coating unit coating the functional coating liquid on a rear surface of the base paper; a first drying unit drying the coated paper coated with the first coating unit;
A second coating unit coating the surface of the base paper with the functional coating liquid; a second drying unit drying the coated paper coated with the second coating unit; And
A third coating unit coating a printing coating liquid on the surface of the base paper; and a third drying unit drying the coated paper coated with the third coating unit.
The method according to claim 1,
The printing apparatus includes:
A feeding device having a supply roll interposed therebetween in the form of a roll, and feeding the same uniformly through a guide roller;
A printing machine having a plurality of rollers in a conveying state, a plurality of designs printed on a surface of the rollers in a conveying state;
A printer having a doctor blade and a doctor, wherein the paper is passed between a press ball and a plurality of printing rolls in a feeding state to print various designs on a surface thereof,
A drying device for passing the raw paper through a chamber divided vertically in a conveying state and warming the surface to rapidly dye and dry the dye; And
And an embossing machine for passing the raw paper through the rollers in a conveying state and engraving a flat or concave-convex pattern on the surface of the multi-function composite cigarette box.
The method according to claim 1,
Wherein the printing apparatus is constituted by a printing apparatus for printing a three-
A printing roll having an inner hollow cylindrical shape and a plurality of solid patterns on an outer surface thereof;
A supply nozzle provided on one side of the upper side of the printing roll to supply ink into the recessed pattern;
A knife installed at an end of the supply nozzle and guided to form a uniform and accurate three-dimensional printed pattern by scraping the remaining ink injected into the three-dimensional pattern of the supplied ink;
A plurality of tension rolls having an infinite track type tension band which is in close contact with a part of the outer surface of the printing roll, and which moves in contact with the printing roll while moving the tension band; And
And a cooling unit provided inside the printing roll and having a cooling water flow path radially formed on the outer surface of the roll shaft.

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