KR101583379B1 - hanji insulation manufacturing method of with ocher and insulation the high thermal performance - Google Patents

Abstract

The present invention relates to a method for producing an insulating Hanji with high thermal properties using red clay and an insulating structure. By forming the insulating structure between a Hanji and a Hanji with liquid red clay sprayed thereon, moisture absorption effects and insulating properties increase. Thus, industrialization of Hanji and commercialization thereof as construction materials can be achieved. In addition, by spraying the liquid red clay on a surface of the Hanji, the Hanji can help promote health due to excellent antibacterial and deodorizing effects.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hanji insulation manufacturing method and a hanji insulation manufacturing method,

More particularly, the present invention relates to a method for manufacturing a heat insulation material having a high thermal performance using a yellow soil and a heat insulating structure. More particularly, the present invention relates to a method for manufacturing a heat insulation material having a high thermal performance by using a mortar or a three- It is possible to form a heat insulating structure between Hanji and Hanji which is sprayed with the ocher solution after sterilizing the germs by irradiating ultraviolet rays to the oily soil of the powder and mixing the environmentally friendly adhesive to the oily soil of the ultrafine powder, The present invention relates to a method for manufacturing a heat insulation material having high thermal performance using a yellow soil and a heat insulating structure which improve the heat insulation performance.

Generally, Korean paper refers to a unique paper made by a technique unique to Korea. It is generally produced by using a conventional papermaking method using bast fibers obtained from the bark such as mulberry, mulberry, mackerel and mountain mulberry.

As the fiber has a long fiber content, it has a high quality and is less acidic than alkaline paper with pH of 4.0 or lower than pH 4.0. It is less alkaline and has less lignin which causes yellowing phenomenon, so it does not discolor. And can be circulated through the formation of a certain space between the fibers. Therefore, it is advantageous in terms of preservability, moisture absorbability and air permeability, and is used for documents, sheets, windows, lamp shades, packaging paper, and handicrafts.

In recent years, it has been produced by adding loess to such Korean paper, and the loess is mainly composed of particles having a diameter of 0.002 to 0.005 mm. It is yellowish brown and weathered, and mainly contains quartz and pyroxene and amphibole It has been known that it absorbs far infrared ray which can be easily obtained from the surroundings by one calcareous substance, and has far infrared ray radiation effect, room temperature and humidity control action, antibacterial and deodorizing action, and heavy metal adsorption action.

The Korean paper and loess is an eco-friendly building material free from environmental pollution even when dismantled due to demolition of buildings, and has an excellent effect for prevention of skin diseases such as atopy. Because of this effect, consumers prefer Korean paper, but it is poor in use because of insufficient heat insulation performance.

Although the Korean paper industry is attempting to develop products with excellent insulation performance, technological development has not been accomplished due to lack of technology and lack of professional manpower.

Korean Patent Registration No. 10-0964917

The object of the present invention is to provide a method of filtering yellow soil with ultrafine powder by using a blender or three branches to immerse and filter yellow soil, After sterilizing the germs and preparing the ocher solution by mixing the ocher with the environmentally friendly adhesive agent, the heat insulating effect and the heat insulating performance are improved by forming the heat insulating structure between the ocher and the hanji where the ocher solution is sprayed. The present invention provides a method for manufacturing a heat insulation material having high thermal performance using a yellow soil and a heat insulating structure securing industrialization and commercialization of a building material item.

It is another object of the present invention to provide a method for manufacturing a heat insulation material having a high thermal performance by using a yellow soil and a heat insulating structure which is excellent in antibacterial and deodorizing effect by spraying a yellow loquette solution on a Korean paper.

The present invention relates to a method for producing heat-insulating paper having high thermal performance using loess and a heat-insulating structure, which comprises dipping and filtering the loess, drying it, filtering it with ultrafine powder using a blender or three branches and irradiating ultraviolet A first step of sterilizing bacteria and injecting an ocher solution prepared through a predetermined process on a Korean paper after a step of preparing an ocher solution to mix an ocher with an ocher adhesive of ultrafine powder;

Drying the plant fiber material, cutting the plant fiber material into a size of 1 to 3 cm, mixing the vegetable fibrous material with an environmentally friendly adhesive, and pressing to form a heat insulating structure having a thickness of 3 mm to form a uniform air layer;

A third step of spreading the Korean paper having been subjected to the first step on the floor surface, placing a heat insulating structural body of the second stage on the upper side of the Korean paper, covering the upper part of the heat insulating structural body with a Korean paper,

And drying the paper after the third step.

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In the loess liquid spraying step, the Korean paper is irregularly wrinkled, and then the loess solution is sprayed.

Also, in the loess liquid spraying step, the frame of the image is placed on the upper surface of the paper, and then the loess solution is sprayed to form a predetermined pattern.

The vegetable foam fiber can be selected from scrub brushes or corn scrubs.

The present invention relates to a method for producing a microorganism which comprises the steps of immersing and filtering yellow clay, drying it, filtering it with ultrafine powder using a blender or three branches, sterilizing microorganisms by irradiating ultra fine powder of yellow soil with ultraviolet rays, After the mixing step, the insulation structure is formed between the Korean paper and the Korean paper having the loess solution sprayed thereon, thereby improving the hygroscopic effect and the heat insulation performance, thereby securing industrialization of Korean paper and commercialization of the building material item.

In addition, the present invention has an effect of excelling in antimicrobial and deodorizing effect by spraying a loess solution on the surface of Korean paper, thereby contributing to health promotion.

Fig. 1 is a schematic view showing a manufacturing process of the present invention
Fig. 2 is a photograph showing the spraying of the yellow soil liquid onto the Korean paper
Fig. 3 is a photograph showing a wrinkle to give a three-dimensional effect to Korean paper
Fig. 4 is a photograph showing an image of a yellow paper
Fig. 5 is a photograph showing a state in which the Korean paper is laminated on both sides of the heat insulating structure
Fig. 6 is a photograph showing the temperature difference between the glass and the plain paper and the hermaphrodite paper

In order to accomplish the above object, the present invention provides a method for manufacturing a thermally insulating material having a high thermal performance using a yellow soil and a heat insulating structure, comprising the steps of spraying a yellowing liquid onto a Korean paper, forming a heat insulating structure, A step of laminating the paper on both sides of the heat insulating structure, and a step of drying the paper made by the above process.

First, the process of manufacturing Korean paper will be described as follows.

Between October and March of the following year, mackerel is picked and the collected mackerel is put into a kettle, sealed with vinyl, and steamed for 6 to 7 hours.

The husk of the black mulberry of the mulberry which is steamed as described above is peeled off and bleached with the white paper.

The above-mentioned ground surface is fully cut into water, cut into about 30 cm, put in a pot, add water and caustic soda or soda ash, and boil for 2 to 3 hours.

Squeeze the boiled water from the ground and put it on a flat surface such as a pod or a wooden plate, and bake it for 2 ~ 3 hours.

Put the dumplings together with water in the jar and stir them 200 times with a rod. Mix the dumplings and stir the paper.

Stack about 400 ~ 500 sheets of paper made by the above process, put on heavy stone, and slowly drain water.

After the water-removed paper is peeled off one by one as described above, it is attached to the earth wall and dried to complete the production of the dense paper.

After collecting the yellow clay, it is immersed in the water for at least 1 hour, and then filtered using a filter material such as gravel.

The filtered yellow loess is irradiated with ultraviolet rays for at least 1 hour to sterilize the bacteria contained in the loess, and then the environmentally friendly adhesive is mixed with the sterilized loess to prepare the yellow loess solution.

2 to 5, when the Korean paper is placed on the wall or placed on the floor, the ocher solution is uniformly sprayed on the surface of the Korean paper by a spraying method, The liquid is stored in the reservoir and the injection device such as a compressor is actuated and injected mechanically.

When the loess solution is sprayed, it is possible to irregularly spread the Korean paper and spread the loess paper so as to spray the loess solution to give a three-dimensional effect to the paper.

When the yellow loess liquid is sprayed, a frame of a certain image may be placed on the upper surface of the paper, and then the loess solution may be sprayed to make a paper of a desired pattern.

Preferably, the loess solution is sprayed at least once to adsorb it on the surface of the paper, and when the spraying area of the loess solution is narrow, it may be sprayed manually using a general spray.

In addition, vegetable foam fibers such as corn or corn shavings are dried and then cut into a size of 1 to 3 cm. When an eco-friendly adhesive is mixed with the vegetable foam fiber of the genital hernia and compressed and dried, a heat insulating structure with a thickness of 3 mm is formed.

The heat insulating structure has a high strength and maintains its shape when pressed at the upper part, and a uniform air layer is secured to improve the heat insulating performance.

When the heat insulating structure is formed as described above, the loose paper on which the loess is sprayed is laid flat on the floor surface.

When the heat insulating structure is placed on the upper surface of the paper, and the other covered with yellow soil is covered and lapped, a heat insulating structure is formed between the paper and the paper so that the paper made from the yellow soil is prepared.

Further, as shown in Fig. 6, the ordinary glass had almost no adiabatic effect, and there was a slight difference in temperature as shown in a general hanji graph.

Especially, the difference in temperature of loam insulation was more than that of glass and plain paper. There were more blue and yellow colors than red color like images taken with a thermal camera. This is because the external temperature does not transfer much to the inside because the thermal conductivity is low.

In addition, due to the nature of the heat insulating structure, the absorptivity of the low light and the solar heat transmission are relatively common, and the absorption rate is lowered to prevent the temperature from rising.

Although the present invention has been described in connection with certain exemplary embodiments and drawings, it is to be understood that the phraseology and terminology used herein are for the purpose of description and should not be interpreted to limit the scope of the present invention. It must be interpreted in terms of meaning and concept.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

Claims (5)

The ocher is dipped, filtered and dried, and then filtered with ultrafine powders using a blender or three branches. Ultraviolet rays are applied to the ocher of ultrafine powder to sterilize the bacteria, and the ocher A first step of spraying a yellow loess liquid prepared through a predetermined process on a Korean paper after a liquid preparation step;
A vegetable foam fiber material is dried and cut to a size of 1 to 3 cm, the environmentally friendly adhesive is mixed with the vegetable foam fiber material, and then compressed to form a heat insulating structure having a thickness of 3 mm to form a uniform air layer;
A third step of spreading the Korean paper having been subjected to the first step on the floor surface, placing a heat insulating structural body of the second stage on the upper side of the Korean paper, covering the upper part of the heat insulating structural body with a Korean paper,
And a fourth step of drying the Korean paper having passed through the third step. The method for producing a heat-insulating paper having high thermal performance using the yellow soil and the heat insulating structure.
delete The method according to claim 1,
Wherein the step of injecting the loess liquor comprises irregularly crushing Korean paper and spraying the loess solution after kneading.
The method according to claim 1,
Wherein the step of injecting the loess liquor comprises a step of placing an image frame on the upper surface of the paper, and then spraying a loess solution to form a predetermined pattern.
The method according to claim 1,
Wherein the vegetable foam fiber material is one of a woolen or a cornstarch.

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