KR100361460B1 - Method for manufacturing wallpaper or floor paper comprising far-infrared ray radiating substance between pulps and wallpaper or floor paper made from the method - Google Patents

Abstract

The present invention relates to a wall paper or floorboard which is a finishing material of a wall or a floor in a room, and in particular, a method for producing a wall paper or a sheet of paper by synthesizing far-infrared radiation materials such as ocher, elvan, ceramic or kaolin with paper mulberry pulp or pulp for sun It relates to a wallpaper or a sheet of cardboard produced by the production method.

In the present invention, after the ignition loss treatment of the far-infrared radiator such as ocher, illite, silica sand or kaolin at a predetermined temperature (800 ℃-1000 ℃ or 1450 ℃) by grinding to a predetermined particle size (200 mesh 80% sieve and particle size) Make fine powder, mix the processed far-infrared emitter powder with 5% -25%: 75% -95% ratio in the stock solution mixed with water and beaten pulp, and then the sulfuric root mucus, polyacrylamide or polyethylene Agitated by adding a predetermined amount (0.12% -0.25% of the paper liquid) to the mucus agent of the oxide, and draining the synthetic paper solution into the papermaking network of the paper machine, and then laminating the finishing paper layer thereon as necessary and compressing and dehydrating them integrally. It is a method for producing a wallpaper or a sheet of cardboard having a synthetic paper layer containing a far-infrared radiation material consisting of a step.

Description

TECHNICAL FOR MANUFACTURING WALLPAPER OR FLOOR PAPER COMPRISING FAR-INFRARED RAY RADIATING SUBSTANCE BETWEEN PULPS AND WALLPAPER OR FLOOR PAPER MADE FROM THE METHOD}

The present invention relates to a wall paper or floorboard which is a finishing material of a wall or a floor in a room, and in particular, a method for producing a wall paper or a sheet of paper by synthesizing far-infrared radiation materials such as ocher, elvan, ceramic or kaolin with paper mulberry pulp or pulp for sun It relates to a wallpaper or a sheet of cardboard produced by the production method.

Far infrared rays are electromagnetic waves that have a stronger thermal effect than the red color of visible light. The most widely known usefulness of far infrared rays is the heating function of an object. Far infrared rays have been reported to activate cells in living organisms. Due to the useful action of the far-infrared radiation material on the human body, the far-infrared radiation material is widely used in almost all industries such as home appliance industry, plastic industry, textile industry, paint ink industry, construction housing industry, automobile industry and paper industry. In particular, as interest in health housing and consumers' desire for a living environment have increased recently, far-infrared radiation natural materials such as ocher, elvan, biotite, jade, and charcoal have been widely used in the construction field. The theoretical basis for the use of such far-infrared radiation-inorganic materials in construction is the change of residential heating system converted from conventional on-floor floor radiant heating to air convection and the unhealthy effects on the human body of heated and dried indoor air according to the change of such heating system. , By applying condensation and mold to the flooring materials, wall materials, ceiling materials, wall papers, bricks, etc. that apply to far-infrared radiation ceramics. It is obtained from the thing which aims at the insect repellent, deodorization, and heat insulation effect.

The present invention relates to a wallpaper or a sheet of cardboard which is one of the interior finishing materials, so that the far-infrared radiation material contained in the interior finishing material so that the far-infrared radiation emitted from the far-infrared radiation material can be shot on the human body. In this regard, the present invention is basically different from the existing patent application or utility model registration application technology for providing a more comfortable living environment by applying far-infrared radiation material to conventional wallpaper or sheetboard.

However, the wallpaper application technology of far-infrared radiation material proposed so far as a domestic patent application or utility model application uses an adhesive on the surface of previously manufactured wallpaper or the like and is mixed with an adhesive to subsequently adhering the far-infrared radiation material such as ocher or the like. Coating technology accounts for the majority.

For example, in Korean Patent Publication No. 99-47992 of Woori Industrial Co., Ltd., the surface is coated with PVC compound to a certain thickness, then foamed and cooled, mixed with ocher and coated with a surface treatment agent, and then subjected to normal post-treatment. A yellow clay-containing wallpaper and a method for manufacturing the same, which have a structure of a / PVC coating layer / ocher mixed surface treatment agent and a printing ink layer, are disclosed in Korean Patent Application Publication No. 99-39262. It is proposed a technology that can obtain the humidity control, deodorizing function and bio and far-infrared radiation effect by ocher component by coating resin mixed with ocher. In addition, Chung Myung-sun discloses a structure for adhering ocher and graphite layers to wallpaper in Korean Patent Publication No. 98-35896, and Korean Patent Publication No. 98-50621 of Poongwon Products Co., Ltd. uses synthetic resin and far-infrared radioactive ceramic material. It discloses a technology that the far-infrared radiation beneficial to the human body is radiated instead of absorbing and removing radon harmful to the human body when using it by coating it to a base paper by coating it in a predetermined range, and Chun Hyo-cheol in Korea Patent No. 98-2434 -20 wt%, binder 30-40 wt%, ocher powder 5 wt%, illite 0-2 wt%, elvan 0-2 wt%, starch 0.3-0.5 wt%, antifoam 0.25-0.3 wt%, dispersant 0.2 wt% Gravure on the surface of the backing paper, non-woven fabric or base coating layer of far-infrared radiation material in the mixture of%, calcium bicarbonate 15-25%, microcell 11-15%, volcanic ash 1-10%, other 1-1.25% by weight Me reverse It discloses a technique for applying the expression. In addition, Papyrus Co., Ltd., in Korea Patent Publication No. 97-15927, has a predetermined thickness of the surface of the backing paper with a radioactive material obtained by mixing ocher powder, illite powder, elvan powder and the like with water, a binder, an antifoaming agent, a starch and a dispersant at a predetermined ratio. The present invention discloses a method for producing a wallpaper containing a radiation material, which is made by applying and drying the coating, printing a pattern on the upper layer, and top coating one of UV, urethane, and moisture-permeable urethane.

As described above, most of the technologies applied to the wallpaper or sheet paper of the far-infrared radiation material proposed so far are simply a method of bonding or coating the far-infrared radiation material of a predetermined composition on the surface or the back surface of the wallpaper. Since it is a laminated structure that adheres or coats the far-infrared radiation layer such as ocher on the surface or the back side of the wallpaper, sufficient far-infrared ray is enough to actually act on the human body in relation to the overall thickness of the wallpaper and the amount of binder (adhesive) after coating. Although it is difficult to contain the radiation material, even if it can be coated with a large amount of far-infrared radiation material such as ocher, in this case, because it is not a monolithic structure but a laminated structure in which layers are separated, the drying of the far-infrared radiation layer over time Problems such as shrinkage, cracking and peeling Since these post-coating techniques are post-treatment techniques of far-infrared radiation on the finished wallpaper in the manufacturing process, they are usually applied to the rolled paper after having applied or adhered to the far-infrared material. Considering that it must be distributed in the form of rolls, there is a problem in that a separate laminating facility is required and a chemical resin adhesive as a binder for manufacturing the same is used. This is because these conventionally proposed techniques actually overlook the specific situation of the papermaking process, or merely suggest consequent implementations by focusing only on the desired effect without suggesting the specific and economic process of adhesion or coating. Most of them are technical and unrealistic.

On the other hand, unlike the above-described conventional techniques for adhering or coating far-infrared radiation material on the wallpaper afterwards, in the papermaking process during the papermaking process, the far-infrared radiation fine powder such as loess, elvan, etc. is mixed with the paper itself. Several techniques for fixing the powder of far-infrared radiation material between fibers (pulp) have been proposed, such as the following.

In other words, the domestic Sungki Ki, the absorbing paper, absorbent paper such as electromagnetic wave blocking paper, deodorizing paper, fragrance paper, deodorizing paper, sterilizing paper, precision storage paper, toilet paper, disposable underwear, paper towel, wet towel, etc. in Korean Patent No. 99-54963 As a technology for paper compositions that can be used for various purposes, such as fruit bags for agriculture, wallpaper, and the like, adding granite granite to ordinary paper materials, adding the ratio of core granite to normal paper materials is 40 to 90: 10 to 60. The present invention discloses a technique using far-infrared rays of deep-strengthened steel mixed with paper by obtaining a paper composition and manufacturing a paper by using the same method, and in Korean Utility Model No. 97-13810 published by Kim Chang-ryul, a paperboard and wallpaper. In order to allow the presence of fine particles of ocher between fibers and fibers, the floorboard and wallpaper having strong absorbency, which is characteristic of ocher, are finished in the room. And and at the same time it wishes to reduce the odor prevention discloses a technique to maintain the human health. In addition, Lee Kwan-mo, a Korean, discloses a method for manufacturing wallpaper and floorboards made of ocher and elvan in Korean Patent Publication No. 98-9655, and after mixing ocher and elvan in powder of bast fiber or wood pulp such as mulberry and anarch The present invention discloses a method for manufacturing wallpaper obtained by papermaking. This technique specifically comprises steaming bast fibers such as mulberry and anarch, and then putting it in an aqueous sodium hydroxide solution to bleach and dust the powder to make it be crushed. It is a manufacturing method of fuji for wallpaper and floorboards mixed with ocher and elvan, mixed with ocher and elvan powder 60% -70% in a paper machine. In addition, Korean Patent Publication No. 98-67303, which was invented by Jang Chun-geun, sizing as a method of pulverizing far-infrared radiation material into particles of 0.1-100㎛ diameter and classifying them by particle size and adding them to the paper. Before and after the previous process of mixing minerals such as clay, talc, lime carbonate, magnesium carbonate and barium sulfate in the paper and paperboard paper in the blast furnace, It discloses a method for producing a paper and a sheet of paper, characterized in that the powder) in the 0.01% -30% range.

The techniques for mixing the far-infrared radiant fine powder into the paper liquid during the papermaking process in the papermaking process are to mix the far-infrared radiant fine powder into the paper liquid during the papermaking process as compared to the coating method of the post-laminated structure for the finished wallpaper described above. Because it is a technology, it is a more advanced approach, and it is not a layer structure (lamination structure by coating or adhesion) but rather an integrated structure of paper material (pulp) of far-infrared radiation material. In addition, the conventional papermaking process is used as it is without requiring a separate post application or bonding process, and thus, it can be said to be a more realistic and feasible approach not only in the manufacturing process but also in the interior construction of the finished wallpaper.

However, such a method of mixing the far-infrared radiation material with the paper during the papermaking process has not been considered at all, and thus, such a method has not been put to practical use until now.

That is, in general, the paper is a paper raw material wood is subjected to a predetermined pre-treatment using a pulverizer to finely pulp (fiber), and then a predetermined filtrate enhancer, strength enhancer, A sizing material (additive for improving the smoothness, writing feeling, ink bleeding, color, etc. of finished paper) is added by adding a fiber dispersing material, etc., and obtained by thinly pulping and dehydrating and drying the pulp using a papermaking net. However, when ocher and elvan powders are added to the paper stock in the paper machine and mixed, the ocher and elvan powders are only partially attached to the pulp fibers despite the stickiness and agitation of the pulp itself. Due to the significant specific gravity difference, there is a decisive problem that most of the amount is deposited on the bottom of the paper machine. Therefore, in the technology of fixing the deep granite powder presented in the above-mentioned Patent No. 99-54963 of Sung Sung-gi in wood pulp during the papermaking process, or in the manufacture of the cardboard and wallpaper presented in Chang-Yul Kim's Publication Utility Model No. 97-13810 None of the techniques for the presence of fine particles of loess between the fibers and the fabrication methods of wallpaper based on loess and elvan according to Korean Patent Publication No. 98-9655 by Lee Kwan-mo, a native, has not been given a solution to this problem. When carried out as disclosed in these patent specifications, the resulting product (dry paper) is not as proportional to the components of the far-infrared radioactive material introduced during the papermaking process as it is, for example, only to the extent that the paper is loessed. Far-infrared radiant solids will not adhere to the fiber in the desired amount at all. This implies that it is impossible to properly achieve the purpose of containing the far-infrared radiation material in the interior finishing material such as wallpaper or sheetboard so that the far-infrared radiation emitted from the far-infrared radiation material can be effectively shot on the human body.

The present invention has been made in view of the problems of the prior art as described above and has the following object.

The present invention is a technology for effectively fixing the powder of far-infrared radiation material between paper fibers (pulps) by mixing the far-infrared radiation fine powders such as ocher and elvan in the papermaking process during papermaking process. It is an object to provide a process by which a large amount of far infrared radiant powder as possible can be integrally fixed to paper fibers.

Still another object of the present invention is to provide a high-strength wallpaper or a sheet of cardboard free from dry shrinkage, cracking and peeling, despite the large amount of far-infrared radiation material used.

Other features and advantages of the invention will be understood from the construction and operation of the invention set forth below.

According to the present invention, a method of manufacturing a double wallpaper or a sheet of cardboard having a synthetic paper layer containing a far-infrared radiation material comprises the following steps.

Step 1: heat crushing process of far-infrared radiation material

In general, minerals that emit a large amount of far-infrared rays in the natural world are known as elvan, loess, illite, biotite, jade, etc., and the far-infrared radiation dose varies according to the mining site and the process of formation of the sandstone material. In the present invention, since the technical focus is on synthesis (integration) of paper pulp and minerals described below, the materials used are limited to ocher, illite, silica, and kaolin, among the above-mentioned various far-infrared radiation materials obtained in nature. In the present invention, in order to remove the organic materials contained in these far-infrared radiating materials and to obtain the maximum possible far-infrared radiation amount, the melting point of the far-infrared radiant mixed in the paper liquid does not deform the molecular bonding structure in its natural state. After about 15 minutes of ignition loss treatment in the range of 800 ° C. to 1000 ° C. below, milling and pulverization is performed such that the 200 mesh sieve passing rate is 80% or more. However, kaolin and silica sand are calcined at about 1450 ° C for about 1 hour to allow the material to melt, and then mill and pulverize the 200 mesh sieve to 80% or more after recombination and activation of molecules.

Second Step: Manufacturing Process of Synthetic Paper Solution

As the pulp material used in the present invention, the mulberry pulp and the sun pulp are used alone or in combination. Cellulose, the main component of plant fiber, is a polymer material in which a large number of glucoses are polymerized and forms fibrils, thus forming a complex binding fiber cell. Although paper is generally manufactured without using adhesives, its shape is maintained because of the chemical bonds in the form of hydrogen bonds between cellulose molecules, in addition to the physical strength of the cilia. Ciliization increases and decreases according to the degree of calcination in the pulp treatment process, and as the number of cilia increases, the number of adhesive points increases, thereby increasing the tensile strength and the bursting strength of the paper.

5% -25%: 75% -95% of the dry weight of the wood pulp contained in the stock solution with the far-infrared radiator powder processed through the first step in the stock solution mixed with water and the beaten pulp. Mix

Third Step: Adding Mucus and Stirring

In the present invention, when the far-infrared emitting material powder prepared in the first step is mixed with the pulp liquid mixed with water, only some of the fine particles adhere to the cilia of the pulp, but most of the emitting material powder is changed over time due to the specific gravity difference. There is a feature in solving the conventional problem of sinking.

The present invention is characterized in that a predetermined mucus is added to a synthetic paper solution mixed with water, pulp and far-infrared emitter powder in order to fix most of the injected far-infrared emitting material powder between pulp cilia. The viscosities employed in the present invention are polyacrylamide and polyethylene oxide aqueous solutions which are sulfuric muscle root mucus used in papermaking of Hanji or synthetic products for papermaking. After mixing the far-infrared radiating material in the stock solution and slowly stirring the mucus agent, even the far-infrared radiating material powder deposited on the bottom adheres to the pulp cilia. If such a mucus is added, the reason why the precipitated far-infrared radioactive powder may adhere to the pulp cilia is because the mucus, which is a water-soluble polymer, is dissolved to make the whole paper liquor into a viscous colloidal solution. It is believed that this is because the powder of substance aggregates and adheres between the cilia. The concentration of the slime may vary depending on the type of pulp, the mixing ratio of water and pulp, and the degree of pulverization of the pulp, and may also vary depending on the thickness and production speed of the synthetic paper to be manufactured. Preference is given to about 0.12% to 0.25% by weight.

One thing to note in this process is the order of input of materials. That is, according to the experiment, when the mucus agent is added to the pulp solution (paper liquid) first, and then the far-infrared radiation material is added later, the far-infrared radiation material does not adhere between the cilia of the pulp, but the sedimentation phenomenon occurs. After adding the far-infrared radiation material and adding a mucus later, the far-infrared radiation material adheres smoothly between the cilia. Therefore, the present invention is an important feature of each order of the addition of the far-infrared radiator powder and the slime to the paper liquid.

Fourth step: lamination process using papermaking process

This process is a process of removing water + pulp + far infrared emitter powder + mucus (hereinafter referred to as synthetic papermaking solution) prepared through the third process using a papermaking network of papermaking machine. The paper machine may be either a long mesh type or a circular net type, but a ring type type is more preferable in view of the characteristics of the spinning material incorporated in the stock liquid. The present invention relates to a synthetic paper layer obtained from the above-described synthetic grass paper solution (synthetic paper layer meaning that far-infrared radiant powder was synthesized homogeneously with pulp). After the finishing layer is laminated in a conventional papermaking process, pressing and dehydration are simultaneously carried out by rollers on the dewatering part felt to complete the lamination, and after winding through the drying step of the drying part, a rolled paper in the form of a double lamination is obtained. Although the present invention is a multi-layered wallpaper having a synthetic layer and a finishing layer, it is far infrared rays between pulp cilia in the paper liquid, unlike a laminated structure in which a far-infrared radiation material is applied or adhered to a conventionally completed wallpaper. The synthetic paper layer obtained from the synthetic paper solution in which the radioactive powder is uniformly fixed and the non-dehydrated synthetic paper layer are laminated on the finishing paper layer according to the conventional papermaking process, and then they are integrally compressed and dehydrated as a whole. Since it is dried, there is no problem such as separation of paper, separation of materials in synthetic paper layer, dry shrinkage, cracking or peeling of far-infrared radiation material.

On the other hand, the above example illustrates a double laminated form consisting of one synthetic paper layer + one finishing paper layer, but the present invention, if you want to manufacture Fuji (厚紙) after stacking a plurality of synthetic paper layers of the top and / or top It can also be formed in a multi-layer structure of laminating the finishing layer below, and the lamination process is all carried out in the same manner as the papermaking process so that they are integrally compressed and dehydrated as a whole and then dried. In the case of a multi-layer structure, it is particularly suitable to be used as a thicker cardboard by performing an additional process of applying soybean oil in addition to the wallpaper.

Even if the wallpaper according to the present invention made through the above process is compressed in the laminated state by the dehydration roller, the color of the far-infrared radiation material present in the synthetic layer does not leak out onto the finishing layer and contaminate the finishing layer. This is because the mucus and the far-infrared radiating material are tightly bonded to each other between the pulp cilia.

In the above process, the finishing layer is an essential element when printing various colors and patterns on the surface, but if the focus is on manufacturing a wallpaper having far infrared radiation, only the above-mentioned synthetic layer is not laminated. Since it is possible to manufacture a single-walled wallpaper by pressing and dehydrating and drying, it is an optional element according to the needs, such a synthetic paper single-walled wallpaper can also be used as a wallpaper (super medium) before applying the wall paper. Therefore, the wallpaper consisting of only a synthetic layer composed of the far-infrared radiator powder integrally fixed between the pulp fibers by mixing the above-mentioned mucus agent in the paper should also be considered within the scope of the present invention.

<Example 1>

In the preparation of the synthetic paper solution of the second step, a pulp solution using ocher, illite, and silica sand alone was used, and any two kinds thereof were mixed and any three kinds thereof were used. In either case, it was confirmed that the adsorption effect of far-infrared radiation material on the pulp cilia was good regardless of the type of material. Synthetic paper is composed of 50% of mulberry pulp and 50% of ocher, illite, and silica sand alone or mixed with two or more kinds of far-infrared ray emitting materials, and the upper finishing layer is 100% mulberry pulp. The upper finishing paper was prepared as a roll wallpaper about 70g / m ² basis weight. After completion, the total basis weight averaged 182 g / m ² , forming a clean and smooth finish layer on which the surface was printable, and the back surface having a homogeneous color of far-infrared radiating material.

<Example 2>

The composition of the synthetic paper material was prepared in the same manner as in Example 1, except that the weight of the far infrared emitting material was gradually increased in steps of 10% instead of decreasing the weight of the mulberry pulp in steps of 10%. As a result of the sequential content change, it was confirmed that it is possible to mix up to 10% of mulberry and 90% of far-infrared radiation materials, and the total basis weight after completion was about 215g / m ² . When the amount of far-infrared ray emitting material is more than 90%, a slight deviation of the far-infrared radiation powder occurs on the surface of the synthetic strata. The far infrared emitter powder input can be up to 90% of the dry weight of the pulp as a result of the breakthrough of any prior art presented in the prior art, and thus the present invention can achieve the substantial effectiveness of the far infrared radiation effect.

<Example 3>

It was prepared in the same manner as in Example 2 except that the average particle size of the far infrared ray emitting material was reprocessed to about 250 mesh and the pulp weight of the synthetic layer was 5% and the weight of the far infrared ray emitting material was 95%. After completion, the total basis weight was 220 g / m ² and the material separation of the far-infrared radiating material was reduced compared to using 90% or more of the far-infrared radiating material in Example 2 described above.

<Example 4>

The composition of the synthetic layer material was prepared in the same manner as in Example 1, except that 5% of mulberry pulp, 20% of pulp for pulp, and 75% of far-infrared radiation materials were mixed in a dry weight ratio. After completion, the average basis weight of the dried state was 203g / m ² and there was no material separation of far-infrared radiation material.

<Example 5>

In the composition of synthetic geological material, 3% of mulberry pulp, sunny pulp of 7%, far-infrared ray emitting material is mixed in dry weight ratio, and the upper finishing material is mixed of 20% of mulberry pulp and 80% of pulp of paper It was prepared in the same manner as in Example 1. The total basis weight after drying was 223 g / m ² on average, and surface finish, color appearance, and material separation of far-infrared radiation materials were found to be good.

The double wall paper produced in the above embodiment was able to print all colors on the surface of the finished paper as in the conventional wallpaper, and the workability was very good at the time of papering. Table 1 summarizes the composition of the far-infrared radiation material and pulp according to the above embodiment.

Composition ratio of far-infrared radiation material and pulp in wallpaper according to the present invention Example Upper finishing layer (% by weight) Synthetic strata (% by weight) Basis weight (g / m ² ) Docpulp Sunny pulp Docpulp Sunny pulp Emitter Radiation particle size (mesh) One 100 50 50 200 182 2 100 10 90 200 215 3 100 5 95 250 220 4 100 5 20 75 200 203 5 20 80 3 7 90 200 223

When reviewing the results of the embodiment as shown in Table 1, the higher the amount of top wood pulp, the more beautiful the texture after the completion of the wallpaper, and the more profound feeling, but the manufacturing technology had no significant effect. The finer the fine particles, the more the spinning material could be mixed. The higher the amount of the white paper pulp than the pulp of the sun, the higher the content of the spinning material. This is because the mulberry pulp is advantageous in that the number of cilia is longer and the length is longer than that of the sun pulp. In addition, it was found that the higher the mixing ratio of the spinning material, the more the amount of the slime is increased.

As the society becomes industrialized, it is difficult to find natural materials around them, and even synthetic materials such as plastic are used in the residential environment. Petrochemicals are also widely used in wallpaper and floorboards, and studies have shown that large amounts of bisphenol-A, an environmental hormone, are released at 80 ° C. The present invention relates to a wallpaper manufactured from natural wood fibers, not petroleum-based synthetic resin wallpaper, and is characterized in that the natural far-infrared radiating material and the pure natural pulp are integrally synthesized without using a chemical resin or an adhesive, and also far-infrared The content of the emissive material can be maximized without causing any subsequent change in properties (dry shrinkage, cracking, peeling off, etc.), and its content is integrally fixed between the pulp fibers. Are distinguished.

In addition, the manufacturing method of double wallpaper or sheet paper having a synthetic paper layer containing far-infrared radiation material according to the present invention and the wallpaper or sheet paper produced by the manufacturing method is very similar to the conventional papermaking process, so that most existing paper The facility can be used as it is, and because the finished wallpaper is finished by one-time construction without using ocher grass mixed with a separate synthetic resin adhesive, there is a good workability.

Claims (6)

Far-infrared radiator processing process of cleaning the organic matter by ignition loss for about 15 minutes in the range of 800 ℃ -1000 ℃, and milling and pulverizing 200 mesh sieve through 80% fair); Preparation of a synthetic paper solution which mixes the processed far-infrared radiator powder in a ratio of 5% -25%: 75% -95% of the dry weight of the pulp contained in the stock solution in a paper liquid mixed with water and a beaten pulp. Process (second process); After the second step, 0.12 wt% to 0.25 wt% of the mucus root mucus, polyacrylamide, or polyethylene oxide is added to the synthetic paper solution and stirred at a concentration of 0.12 wt% to 0.25 wt% of the paper liquid mixed with water and pulp. (Third process); And, Water + pulp + far-infrared radiant powder + slime from the above process by using a papermaking network of paper machine and then dewatering and drying (fourth step) Method for producing a wallpaper or a cardboard having a synthetic paper layer containing far-infrared radiation material, characterized in that comprising a The method of claim 1, In the fourth step, before the synthetic paper is pressed and dewatered, a paper lamination step of laminating and laminating any one of the mulberry pulp, the pulp for the sun or pulp mixed with the conventional papermaking method is further provided on the synthetic paper. Method for producing wallpaper or sheet paper with synthetic paper layer containing far-infrared radiation material, characterized in that the double lamination integrally compressed dewatering The method according to claim 1 or 2, After the fourth step is performed, the fourth step is repeated on the synthetic paper layer so that a plurality of synthetic paper layers are laminated so that the composite paper layer containing the far-infrared radiation material is manufactured. A far-infrared radiator processing step (first step) in which silica sand or kaolin is subjected to ignition loss treatment at about 1450 ° C. for 1 hour and milled and pulverized to have a 200 mesh sieve pass rate of 80% or more (first step); Preparation of a synthetic paper solution which mixes the processed far-infrared radiator powder in a ratio of 5% -25%: 75% -95% of the dry weight of the pulp contained in the stock solution in a paper liquid mixed with water and a beaten pulp. Process (second process); After the second step, a step of adding 0.12 wt% to 0.25 wt% of the mucus, mucopolyacrylamide or polyethylene oxide of the paper liquid mixed with water and pulp to the synthetic paper solution and stirring (Third process); Extracting synthetic paper from the water + pulp + far-infrared radiant powder + mucus solution prepared through the process using a papermaking network of paper machine (fourth step); And, Before the synthetic paper is pressed and dehydrated, a process of laminating and laminating any one of the mulberry pulp, the sunny pulp or the mixed pulp on the synthetic paper by a common papermaking method, and then pressing and dehydrating and drying them integrally. 5 step) Method for producing a wallpaper or a cardboard having a synthetic paper layer containing far-infrared radiation material, characterized in that comprising a Far-infrared emitter powder having a particle size of about 80% of 200 mesh between pulp constituting the paper is integrated between the pulp's cilia in a ratio of 5% -25%: 75% -95% in dry weight to that of the pulp. At least a synthetic stratified layer comprising at least 0.12 wt% to 0.25 wt% of a mucus composed of sulfuric root mucus, polyacrylamide, or polyethylene oxide as a fixing aid thereof, relative to a stock solution mixed with water and pulp Wallpaper or sheetboard having a synthetic paper layer containing the far-infrared radiation material, characterized in that it comprises at least one layer. The method of claim 5, The far-infrared radiator powder having a particle size of about 80% of 200 mesh between pulp constituting the paper is integrated between the pulp's cilia in a ratio of 5% -25%: 75% -95% by dry weight to the pulp. A wallpaper or sheetboard having a synthetic paper layer containing far-infrared radiation material, characterized in that the finishing paper layer obtained from any one or more pulp of mulberry or pulp pulp is integrally laminated on the synthetic paper layer which is adhered to.