KR200425788Y1 - The base paper - Google Patents

Abstract

The present invention relates to a general cigarette pack paper manufacturing process and its base, and in particular, cigarette packs were manufactured by tobacco manufacturers with base paper having functionalities by coating (coating) anion and paper far-infrared radiation on the base surface and back surface respectively. The case relates to a cigarette pack base that can give a beneficial function to the purifying function of the internal cigarette itself and the human body of a person having a cigarette pack under the influence of anion and far-infrared rays emitted from outside in the pack.

Therefore, the present invention can manufacture a paper with far-infrared rays and anions applied to the cigarette pack paper producer in a single production, so that the cigarette manufacturer or other materials such as cigarette paper and sealing strips separately for the purpose of giving functionality to the cigarette. There is no need to add and accordingly to reduce the production cost of cigarette manufacturers, due to the production of environmentally friendly cigarette packs, purifying the harmful components of cigarettes, as well as carrying a cigarette pack made of the present invention will have a beneficial effect on the human body.

In addition, the present invention is a breakthrough in the functionalization of packs of cigarettes, and does not need to change the composition of cigarette paper or the cigarette itself in the pack manufacturer, and does not have a separate device and equipment, such as printing, picking, processing of the jerseys in existing facilities In the case of manufacturing cigarettes through the high-quality printing and the cigarette box by the caddy has a function as a base paper itself.

Cigarette Pack, Far Infrared Ray, Anion, Functional Base

Description

Cigarette Pack Base {The base paper}

1 is a view schematically showing a manufacturing step of a conventional cigarette pack paper;

Figure 2 is a view showing the manufacturing apparatus of the far infrared and anion radiation material coating process of cigarette paper base according to the present invention,

3 is a view showing a cigarette pack finally manufactured according to the present invention.

<Description of the symbols for the main parts of the drawings>

100-Coating Process 200-First Coating Department

210-First Drying Unit 220-Second Coating Unit

230-2nd drying unit 240-3rd coating unit

250-3rd Drying Department

The present invention relates to a general cigarette pack paper manufacturing process and its base, and in particular, cigarette packs were manufactured by tobacco manufacturers with base paper having functionalities by coating (coating) anion and paper far-infrared radiation on the base surface and back surface respectively. The case relates to a cigarette pack base that can give a beneficial function to the purifying function of the internal cigarette itself and the human body of a person having a pack of cigarettes under the influence of anion and far infrared rays emitted from outside in the pack.

In the past, there have been several techniques for emphasizing the functionality of cigarette cigarette paper or tobacco tobacco itself, but in case of production of cigarette pack paper, there is no case of adding such functional material, In the case of utility model 20-0206631, mineral powders such as brush, tea mugwort and herb incense extract, charcoal, elvan, and ocher were sprayed on the sealing band to enable far-infrared radiation and deodorization.

However, the method of spraying the material on such a sealing band requires a separate facility and technology for the tobacco manufacturer to settle the material on the cigarette pack itself, and is extremely small compared to the total weight of the cigarette pack. The effect on the human body is minimal.

The present invention that solves the above problems, and relates to a general cigarette pack paper manufacturing process and the base paper, in particular, has a base paper in the functional state by coating (coating) an anion and a paper far-infrared radiation material on the surface and back surface of the base paper, respectively When cigarette packs are manufactured by a tobacco manufacturer, we will provide a base for cigarette packs that can give a beneficial function to the purifying function of the internal cigarette itself and the human body of the person with the pack due to the influence of negative ion and far-infrared rays emitted from outside. .

Therefore, the present invention in the cigarette pack base, the surface of the cigarette pack (front) is 3-20% of 800-1,500 mesh tourmaline powder, 50-80% heavy calcium carbonate, 10-20% clay, dispersant 0.04-0.1 % And 10-15% of the adhesive are coated (coated) with an anionic coating solution, which is a weight ratio chemical; Tobacco back is 50-80% heavy calcium carbonate, a fine mineral raw material of 800-1500 mesh, 10-20% clay, 1-30% purgatory, 1-30% ocher, and illite 1 To provide a cigarette pack base paper made by coating (coating) a far-infrared medicine with -30%, a dispersant 0.04-0.1%, and an adhesive 10-15% evenly stirred in a weight ratio to produce far-infrared rays and anions. .

Conventionally, as shown in FIG. 1, raw paper is largely produced in four processes, and is classified into a composition process 10, a papermaking process 20, a coating process 100, and a papermaking process 2. Produced.

In the present invention, the composition process (10), the first papermaking step (20), and the second papermaking step (40) are the same as before, and the first coating part (200) and the first drying part (210) in the coating step (100). ), And the second and the third coating process will be described in detail with reference to the drawings shown.

The present invention is a manufacturing process for manufacturing cigarette pack paper P as shown in Figs. 2 and 3, the first step: a known composition process of pulverizing the pulp in water, and a basic known paper for making paper Go through 1 step.

That is, the process for cutting the pulp supplied in the form of a roll and releasing it into water is a composition process.

The papermaking process 1 is a process of making the first form of paper, and it is a process of forming a certain thickness of paper and hardening it into a paper.

Next, the present invention undergoes a second step: coating the far-infrared drug on the rear surface A of the paper supplied to the first coating unit 200 and drying it in the first drying unit 210.

That is, as shown in Figure 2 is to start the first coating process for coating the far-infrared chemical on the back surface (A) of the base paper (P) after the first papermaking process.

Here, the coating process refers to a process of coating on the back side (A) of the base paper (P), in the present invention is treated with the far-infrared chemicals mentioned in the coating process for this coating.

That is, the far-infrared chemicals are 50-80% of heavy calcium carbonate, 10-20% of clay (clay), 1-30% of nephrite, 1-30% of ocher, 1-30% of fine mineral raw material of 800-1500 mesh. The chemical | medical agent which stirred the light 1-30%, the dispersing agent 0.04-0.1%, and the adhesive agent 10-15% evenly by weight ratio.

In other words, the very fine form of heavy calcium carbonate is the cheapest and white color among the materials for coating, which also has a whitening effect of paper.

In addition, purgatory and illite, which are added together, emit far infrared rays.

In addition, the loess also emits far-infrared rays, causing a beneficial effect on the person in close proximity.

However, in the present invention, it is possible to use such ocher directly by crushing such ocher or produced by the following process.

In other words, the ocher of the present invention is obtained by taking high quality ocher from Sancheong area and drying it for 3-10 days at room temperature with sunlight, or drying it at 100-200 ° C for 1-10 hours, or at 300-600 ° C. Spray dry with a spray dryer.

Therefore, the dried ocher is pulverized by various mills such as ball mills to form small particles having a size of 800-1500 mesh.

On the other hand, the dispersant is put into the far-infrared chemicals to act so that each of the components can be mixed better, the adhesive serves to make the far-infrared chemicals are well adhered to the base to be a coating.

Therefore, the base of the present invention, as described above, is subjected to the coating of the far-infrared chemicals through the first coating, and then subjected to a drying step.

By the way, the far-infrared chemicals are directly put into the base paper (P) and are not used to go through the coating step, but are used in a slurry state in water.

That is, the stirring ratio of the far-infrared chemical and water is slurryed by stirring with 50-65% by weight of the far-infrared chemical and 35-50% of water.

This slurryed material is used for the coating process.

That is, as shown in Figure 2, the coating process 100 is a far-infrared chemical using a coating device that the coating proceeds by a common roll on the back surface (A) of the base paper (P) supplied from the first coating unit 200 Coating and drying the back side (A) of the base paper (P) coated with the far-infrared chemical in the first coating unit 200 in the first drying unit 210.

At this time, the first drying unit 210 to dry the base paper (P) coated with the far-infrared chemical using hot air, convection and radiant heat, etc., it is preferable to dry for about 7 seconds at about 120 ℃.

Next, the present invention is the third step: the first coating and the first drying and the first (dry surface) of the base paper (surface; B) mixed with 3-20% tourmaline and the pigment through the second coating unit 220 through the pre-colored anionic coating solution The coating is performed, and the second drying unit 230 undergoes a process of drying the surface.

That is, in this design, the ground paper P, which is a ground-breaking process of the far-infrared coating, becomes a pre-color coating on the surface of the paper P in the second coating part 220, which is beneficial to the human body in the second coating liquid. It is an anion coating liquid which added an anion material to the precolor.

The anion coating solution is made of tourmaline in the form of fine powder, and the second coating is made. Then, as shown in FIG. 2, the surface of the base paper P coated with the pre-color is coated in the second drying unit 230. It will be dried.

And it is preferable to use the composition ratio of the anion coating liquid (= precalado conjugate) of the third step used in the present invention as follows.

That is, a weight ratio of a drug in which 3-20% of 800-1,500 mesh tourmaline powder, 50-80% of heavy calcium carbonate, 10-20% of clay, 0.04-0.1% of a dispersant, and 10-15% of an adhesive are uniformly stirred. Slurry in water to use.

Of course, at this time, the stirring ratio of the anion coating solution and water is preferably 55-70% of the anion coating solution and 30-45% of the water is added in a weight ratio and stirred.

In other words, in the form of the fine powder tourmaline and heavy calcium carbonate, clay, dispersant and adhesive in a suitable amount of agitation and stirred again with water to coat the base paper.

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

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

Next, the present invention is a fourth step: a third coating process of coating the dried paper P again with the high-quality printing coating solution from the third coating part 240 and the third through the third drying part 250. Go through the drying process.

That is, this step is the same step as the known coating step through the second coating unit and the second drying unit, the anion is bonded, coating (drying) and drying the paper (P) in the dried state once again will be.

In other words, this step is to make the printing better when printing on the surface B of the paper P to be generated later.

Then, we will look at the components of the advanced printing solution used in the fourth step of the present invention for this work in detail.

That is, the high-quality printing coating liquid of the fourth step of the present invention, 60-80% heavy calcium, 10-30% clay, 10-15% adhesive, 0.04-0.5% dispersant in a weight ratio of the drug It is preferable to use it by slurrying in water.

Although there is no difference from the existing coating solution, the composition ratio is important, and the use of such composition ratio makes it possible to print more well at the stage of post-processing printing.

Of course, the limitation of these values has been proved through many experiments of the applicant of the present invention.

Next, the present invention is a step 5: papermaking process of finishing the finished paper (P), which is a coating process and a drying process, is carried out sequentially to produce far infrared rays and negative ions.

In other words, this papermaking 2 process is a method that has been used in the conventional paper manufacturing process.

This step, of course, is a process for glossing the surface of the base paper (P) so that it can be transformed into a base paper that can be printed more easily in the step of post-processing printing or cutting.

And in the present invention cigarette pack paper (P), the cigarette pack paper (P) produced by the above-described method of manufacturing a cigarette pack paper is also subject to the rights.

Then look at in detail with the cigarette pack paper P of the present invention shown in Figure 3 as follows.

In the present invention, the pack of cigarette packs, the surface (front; B) of the pack of cigarettes is 3-20% of 800-1,500 mesh tourmaline powder, 50-80% heavy calcium carbonate, 10-20% clay, and a dispersant 0.04- 0.1% and 10-15% of the adhesive are coated (coated) with an anionic coating solution, which is a drug in a weight ratio that is uniformly stirred; The back side of the tobacco value (A) is 50-80% of heavy calcium carbonate, a fine mineral raw material of 800-1500 mesh, 10-20% of clay (clay), 1-30% of nephrite, 1-30% of ocher, 1-30% of illite, 0.04-0.1% of dispersant, and 10-15% of adhesive are coated (coated) with far-infrared drugs, which are evenly stirred in a weight ratio, to prepare a cigarette pack to produce far-infrared rays and anions.

That is, the surface B of the cigarette pack K is coated (coated) with an anion coating solution, and the rear surface A is coated with a far infrared chemical (coating).

Of course, the anion coating solution has been described through the above-described manufacturing method, but 3-20% of 800-1,500 mesh tourmaline powder, 50-80% of heavy calcium carbonate, 10-20% of clay, dispersant 0.04- It is a chemical of the weight ratio which stirred 0.1% and 10-15% of adhesives evenly.

Therefore, it is preferable that the anion coating solution stirred at the above ratio is used for the cigarette pack used in the present invention.

And the far-infrared medicine of the present invention is a heavy mineral carbonate 50-80%, clay (clay) 10-20%, purgatory 1-30%, loess 1-30%, 800-1500 mesh fine mineral raw material, It is a chemical of weight ratio which uniformly stirred 1-30% of an illite, 0.04-0.1% of a dispersing agent, and 10-15% of an adhesive agent by weight ratio.

In addition, in the cigarette pack (K) used in the present invention, it is preferable to use the far-infrared medicine stirred at the above ratio to coat the rear surface thereof.

To describe the features of the present invention, the first coating unit 200 is coated on the base paper (P) using the far-infrared ray-emitting mineral to produce an effect of 90% or more of emissivity to the inside and outside of the cigarette pack. The far-infrared rays emitted upon completion will act to purify the harmful tobacco substances inside.

In addition, the anion material added to the second coating has an effect of more than 400 / CC to the health of the end by releasing an anion beneficial to the human body to the cigarette pack (K) surface when possessed by the end smoker.

Here, 400 / CC refers to the number of negative ions emitted per CC.

Furthermore, the above-described effects were measured by the applicant of the cigarette pack and the application of the far-infrared and anion-applied base (P) to the Korea Far Infrared Association and the Korea Building Materials Testing and Research Institute.

<Table 1-Emissivity measurement results of coating of far-infrared material inside cigarette pack>

Additive material jade ocher Illite Addition cost 1st Coating 1 10% 20% 30% 10% 10% 1st Coating 2 0% 10% 0% 10% - 10% - 0% 0% Emissivity 0.900 0.902 0.903 0.905 0.897 0.900 0.898 0.902 0.895

<Table 2-Result of measurement of the number of anions when coating anion material

Addition cost Second coating 0 % 3% 5% 10% 20% 30% 3rd Coating 5% 10% 0% 0% 0% 5% 10% 0% 5% 10% 0% 5% 10% Anion Count (pcs / cc) 1500 2200 700 430 2600 3400 4800 3600 4800 5700 4600 7200 8000

Table 1 shows the far-infrared emissivity measurement and Table 2 shows the anion number measurement.

In this case, the far-infrared emissivity measurement test measures how much energy can be re-released from the standard radiator (black body) when the same energy is given by using a radial FT-IR. The emissivity is a ratio value compared with the black body.

Negative ion count test includes suction type and contact type, measured by suction type.

It is a value that is obtained by measuring the potential of air by inhaling air in the vicinity of the product to which an anion material is added in the inhalation type meter and inverting the number of molecules of the air again to calculate the number of anions. It is beneficial to release only enough to compensate for this heterogeneous anion.

Therefore, this result should be considered that stable and effective results were obtained from far-infrared emissivity and anion number, which are the measures of functionalization of cigarette pack paper.
Then with reference to Figure 3 will be described in detail the tobacco value (K) produced by the tobacco value (K) base paper of the present invention.
That is, the tobacco value (K) of the present invention is the overall shape of the rectangular parallelepiped shape, there is a lid portion 1000 that can be opened and closed on the upper side in the drawing, and the body portion 2000 to the lower end and have.
And the lid portion 1000 and the lower body portion 2000 is a state coupled to only one side through the fold line (3000).
Accordingly, the folding line 3000 is bent and the lid portion 1000 is bent to remove the cigarette, and the lid is closed in the reverse direction again.
By the way, the tobacco base that can form the tobacco value (K) is characterized in that the surface (B) is coated with an anionic coating solution, the back (A) is coated with far-infrared chemicals.

As described in the above description, the present invention can manufacture raw paper with far-infrared rays and negative ions in one production at the cigarette pack raw paper producer, so the cigarette manufacturer or cigarette paper and sealing strips for the purpose of giving functionality to the cigarette separately from the cigarette manufacturer. There is no need to add other materials to the back, thus reducing the production cost of cigarette manufacturers, and purifying the harmful ingredients of cigarettes by producing environmentally friendly cigarette packs. Will see.

In addition, the present invention is a breakthrough in the functionalization of packs of cigarettes, and does not need to change the composition of cigarette paper or the cigarette itself in the pack manufacturer, and does not have a separate device and equipment, such as printing, picking, processing of the jerseys in existing facilities In the case of manufacturing cigarettes through the high-quality printing and the cigarette box by the caddy has a function as a base paper itself.

In addition, by the far-infrared material in the cigarette pack innovatively improve the consumer's smoking taste and the human benefit of the anion outside the cigarette pack, if the smoker possesses the cigarette pack of the present invention can contribute to health promotion by the negative effect.

Claims (1)

A lid portion formed in a state in which only one side is connected to the body at an upper end of a cuboid shape, a body portion in a state where a cigarette accommodation space is formed at the bottom of the lid portion, and connecting the lid portion and the body portion through one side. In the tobacco value base paper which forms the tobacco value comprised of a fold line, Anion, which is a weight ratio chemical, which is a mixture of 800-1,500 mesh tourmaline powder, 50-80% heavy calcium carbonate, 10-20% clay, 0.04-0.1% dispersant, and 10-15% adhesive. A surface (front side: B) of the cigarette pack K, which becomes a surface of the lid part 1000 and the body part 2000 coated (coated) with a coating solution;  50-80% of heavy calcium carbonate, 10-20% of clay (clay), 1-30% of jade, 1-30% of ocher, 1-30% of illite, and dispersant 0.04-0.1% and 10-15% of the adhesive with a weight ratio of the far infrared medicine coated (coated) with the lid portion (1000), the rear portion (A) of the cigarette pack to be the interior of the body portion (2000); Cigarette pack base paper, characterized in that to produce a tobacco value (K) of the rectangular parallelepiped formed a portion 1000, the body portion 2000 and the folding line 3000.

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