KR20090051305A - Functional coating manufacturing method - Google Patents

Functional coating manufacturing method Download PDF

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KR20090051305A
KR20090051305A KR1020070117630A KR20070117630A KR20090051305A KR 20090051305 A KR20090051305 A KR 20090051305A KR 1020070117630 A KR1020070117630 A KR 1020070117630A KR 20070117630 A KR20070117630 A KR 20070117630A KR 20090051305 A KR20090051305 A KR 20090051305A
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functional material
functional
film
silica
material powder
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KR100926446B1 (en
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이규주
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05DPROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05D7/00Processes, other than flocking, specially adapted for applying liquids or other fluent materials to particular surfaces or for applying particular liquids or other fluent materials
    • B05D7/24Processes, other than flocking, specially adapted for applying liquids or other fluent materials to particular surfaces or for applying particular liquids or other fluent materials for applying particular liquids or other fluent materials
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05DPROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05D1/00Processes for applying liquids or other fluent materials
    • B05D1/28Processes for applying liquids or other fluent materials performed by transfer from the surfaces of elements carrying the liquid or other fluent material, e.g. brushes, pads, rollers
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09DCOATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
    • C09D1/00Coating compositions, e.g. paints, varnishes or lacquers, based on inorganic substances
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09DCOATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
    • C09D1/00Coating compositions, e.g. paints, varnishes or lacquers, based on inorganic substances
    • C09D1/02Coating compositions, e.g. paints, varnishes or lacquers, based on inorganic substances alkali metal silicates
    • C09D1/04Coating compositions, e.g. paints, varnishes or lacquers, based on inorganic substances alkali metal silicates with organic additives

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  • Engineering & Computer Science (AREA)
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  • Application Of Or Painting With Fluid Materials (AREA)
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Abstract

본 발명은 기능성 코팅 제조방법에 관한 것으로, 음이온 원적외선이 방출되는 토르마린에서 유해 중금속, 이물질을 제거시키고 실리카에 담지시켜 많은 기공을 만들므로서 비중을 줄이고 많은 량의 음이온 원적외선을 방출시키도록 실리카 토르마린(SiO2-Tourmaline) 분말로 구성시키고, 항균력이 있는 은을 실리카에 도포시켜 항균력을 높이도록 실리카 은나노(SiO2-Ag-nano)로 구성시킨다.

이와 같이 구성시킨 기능 물질 분말을 기능 물질 분말 살포기에 구성시킨 기능 물질 내장실에 내장시키고 분사기로 분사시켜 부양된 기능 물질 일부는 냉각로라 표면에 접촉되면서 냉각로라 표면에 도포시키고, 일부는 공기흐름에 따라 PE 피막 겉쪽표면에 접착시킨다.

한편 PE 피막 안쪽면에는 종이와 같은(섬유재, 합성수지재) 물체표면에 접촉되면서 냉각로라를 통과하는 과정에서 냉각로라 표면에 붙어있던 물질분말이 PE 피막 겉쪽에 접착되면서 PE 피막 겉쪽에는 기능 물질 분말이 접착되고 PE 피막 안쪽에는 종이와 같은 물질(섬유재, 합성수지재) 표면에 접착시킨다.

따라서 PE 피막 겉쪽표면에서는 음이온, 원적외선이 방출되는 기능성을 같게되고 PE 피막 안쪽에는 종이와 같은 물질(섬유재, 합성수지재)과 접착되는 기능성 코팅이 만들어진다.

Figure P1020070117630

기능 물질 분말, 살포기, 분사기, 실리카, 토르마린, 은나노.

The present invention relates to a functional coating manufacturing method, which removes harmful heavy metals and foreign substances from the tourmaline emitted anion far infrared, and is supported on silica to make a large number of pores to reduce the specific gravity and to release a large amount of anion far infrared silica SiO 2 -Tourmaline) powder, and antimicrobial silver is applied to silica to increase the antimicrobial activity is composed of silica silver nano (SiO 2 -Ag-nano).

The functional material powder thus constructed is embedded in the functional material built-in chamber constituted in the functional material powder spreader and sprayed with an injector to apply some of the supported functional material to the cooling roller surface while contacting the surface of the cooling roller, and partially to the air flow. Therefore, it is adhered to the outer surface of the PE film.

On the other hand, on the inside of PE film, the material powder adhering to the surface of the cooling roller in the process of passing through the cooling roller while contacting the surface of an object such as paper (fiber material, synthetic resin) is adhered to the surface of PE film, and the functional material is on the outside of PE film. The powder is bonded and adhered to the surface of a paper-like material (fiber, synthetic resin) inside the PE film.

Therefore, on the outer surface of the PE film, anion and far-infrared rays are released, and a functional coating is formed on the inside of the PE film to be bonded to a paper-like material (fiber, synthetic resin).

Figure P1020070117630

Functional substance powder, duster, sandblaster, silica, tourmaline, silver nano.

Description

기능성 코팅 제조방법{omitted}Functional coating manufacturing method

본 발명은 기능성 코팅 제조방법에 관한것으로 음이온, 원적외선이 방출되는 토르마린(Tourmaline) 원석에서 통상적 방법으로 유해 중금속, 이물질을 제거시키고 실리카(SiO2)(1)에 담지시켜 많은 기공을 만들어 비중을 줄이고 많은 량의 음이온 원적외선을 방출시키도록 실리카 토르마린(SiO2-Tourmaline)(4)(이하 기능 물질로 칭함)으로 도 1과 같이 구성시키며, 항균력이 우수한 은(Ag)(5)의 표면을 실리카(SiO2)에 도포시켜 실리카 은나노(SiO2-Ag-nano)(6)(이하 기능 물질로 칭함)로 도 2와 같이 구성시킨 다음 기능 물질 분말(22)로 만들고 한가지 이상의 기능 물질 분말(22)을 기능 물질 분말 살포기(7)에 구성시킨 기능 물질 분말 내장실(11)에 내장시키고 기능 물질 분말 분사기(10)로 기능 물질 분말 분사실(9)에 분사시켜 기능 물질 분말(22)을 기능 물질 분말 부양실(8)에서 부양시키면 기능 물질 분말(22) 일부는 냉각로라(18) 표면에 도포되고 일부는 공기의 흐름에 따라 PE 피막(19) 겉쪽표면에 접착된다.The present invention relates to a method of manufacturing a functional coating to remove harmful heavy metals and foreign substances by conventional methods in tourmaline ore (Tourmaline) ore, which emits far infrared rays, and is supported on silica (SiO 2 ) (1) to reduce the specific gravity Silica tourmaline (SiO 2 -Tourmaline) 4 (hereinafter referred to as a functional material) is formed as shown in FIG. 1 to emit a large amount of anion far infrared rays, and the surface of silver (Ag) (5) having excellent antimicrobial activity is silica SiO 2 ), which is composed of silica silver nano (SiO 2 -Ag-nano) 6 (hereinafter referred to as functional material) as shown in FIG. 2, and then made into functional material powder 22 and one or more functional material powders 22. Is embedded in the functional material powder injecting chamber 11 configured in the functional material powder spreader 7, and the functional material powder injector 10 is sprayed into the functional material powder injecting chamber 9 to inject the functional material powder 22 into the functional material. Powder Floating Room (8) When the levitation at, the functional material powder 22 is partly applied to the cooling roller 18 surface and part is adhered to the outer surface of the PE film 19 in accordance with the flow of air.

한편 PE 피막(19) 안쪽면에는 종이와 같은 다른 물질(섬유재, 합성수지재)이 접착되면서 냉각로라(18)에 통과되어 PE 피막(19) 겉쪽표면에는 기능 물질 분말 (22)이 접착되고 PE 피막(19) 안쪽편에는 종이와 같은 다른 물질(합성수지재, 섬유재)과 접합되어 기능 물질의 기능과 색을 변화시키지 않고 PE 피막에 코팅시킬 수 있도록 한다.On the other hand, the inside of the PE film 19 is bonded to other materials such as paper (fiber material, synthetic resin material) while passing through the cooling roller 18, the functional material powder 22 is adhered to the outer surface of the PE film 19, PE The inner side of the film 19 is bonded with other materials such as paper (synthetic resin material, fiber material) to be coated on the PE film without changing the function and color of the functional material.

일반적으로 색료, 향료와 같은 기능 물질을 다른 물질 표면에 코팅 시키고자 할때는 색료, 향료 물질을 PE와 혼합시켜 마스터 배치(MASTER BATCH)로 구성시켜 사용하는 것이 통상적 방법으로 이용되고 있다. 그러나 색료, 향료와 같은 물질은 PE와 용해되므로 마스터 배치로 만들어 사용해도 코팅된 표면에서 색의 변화가 없고 기능의 변화가 없으나 광물질(토르마린, 은나노, 게르마늄)은 PE와 혼합시켜 마스터 배치를 만들경우 PE와 용해되지 않고 PE가 용해되는 고열로 인하여 물질입자가 타게되어 검은색, 붉은색과 같이 다양한 색으로 변하게 되면서 코팅표면에는 여러 색점으로 나타나게되고, 물질의 기능이 변질되는 결점이 있다.In general, to coat functional materials such as colorants and fragrances on the surface of other materials, it is commonly used to mix colorants and fragrance materials with PE to form a master batch. However, since materials such as colorants and fragrances are dissolved with PE, there is no change of color and no change of function on the coated surface even if used as a master batch, but minerals (tormarin, silver nano, germanium) are mixed with PE to make a master batch. Due to the high temperature in which PE is not dissolved but PE is dissolved, the material particles are burned and changed into various colors such as black and red, resulting in various color spots on the surface of the coating.

따라서 토르마린, 은나노와 같은 광물질을 마스터 배치로 만들지 않고 코팅되는 과정에 분말로 PE 피막 표면에 살포시키거나 코팅을 시키고자 하는 물질(물체) 표면에 살포시키는 방법으로 도포시키고 그 위표면에 PE 코팅을 시키는 방법을 사용하면 기능 물질은 용해되는 PE의 고열로부터 피할수 있게 되므로 색이 변하거나 물질의 기능이 변하는 것을 막을 수 있다.Therefore, do not make a master batch of minerals such as tourmaline and silver nano, but apply the powder by spraying it on the surface of the PE film with powder or by spraying it on the surface of the material (object) to be coated. In this way, the functional material can be avoided from the high heat of the dissolved PE, thereby preventing the color or the function of the material from changing.

본 발명에서는 코팅을 시키고자 하는 물질을 PE와 함께 용해시켜 마스터 배 치(MASTER BATCH)로 만들지 않고, 기능 물질 분말(22)를 도 3, 도 4와 같은 구성의 기능 물질 분말 살포기(7)를 이용하여 기능 물질 분말(22)을 도 9, 도 10과 같은 방법으로 분사시키고 도11과 같이 기능 물질 분말 부양실(8)에서 부양시켜 도 12와 같이 PE 피막(19)과 냉각로라(18) 표면에 접착시킨 다음 냉각로라(18)를 통과시켜 PE 피막 겉쪽표면에 기능 물질 분말(22)을 접합시키면 기능 물질의 색과 기능이 파괴되지 않는 기능성 코팅이 제조된다.In the present invention, the functional material powder sprayer 7 having the composition as shown in FIGS. 3 and 4 is made without dissolving the material to be coated together with PE to make a master batch. The functional material powder 22 is sprayed in the same manner as in FIGS. 9 and 10, and is suspended in the functional material powder flotation chamber 8 as shown in FIG. 11 to form the PE film 19 and the cooling roller 18 as shown in FIG. Bonding to the surface and then passing through the cooling roller 18 to bond the functional material powder 22 to the outer surface of the PE film to produce a functional coating that does not destroy the color and function of the functional material.

본 발명은 기능성 코팅 제조방법에 관한것으로 도 1, 도 2와 같은 기능 물질을 분사, 부양시키기 위해 도 3, 도 4와 같은 구성의 기능 물질 분말 살포기(7)를 기능 물질 분말 부양실(8), 기능 물질 분말 분사실(9), 부양된 기능 물질 분말 출구(10), 기능 물질 분말 내장실(11), 공기 투입구(12), 공기 배출구(13), 공기실(14), 불량 물질 분말 집하실(15), 기능 물질 분말 분사기(16) 압축공기 분사기(17)로 결합 구성시켜 도 3, 도 4와 같은 기능 물질 분말 살포기(7)를 구성시켜 만들고 기능 물질 분말(22) 한가지 이상을 기능 물질 분말 내장실(11)에 도 8과 같이 내장시켜 기능 물질 분사기(16)로 기능 물질 분말 분사실(9)에 도 9와 같이 분사시키고 도 10, 도 11과 같이 기능 물질 부양실(8)로 이송시켜 부양시키면서 도 12와 같이 일부는 냉각로라(18) 표면에 접촉되어 도포되고 일부는 PE 피막(19) 겉쪽표면에 접착시켜 종이와 같은 다른 물질(섬유재, 합성수지재) 표면에 코팅시킨다.The present invention relates to a functional coating manufacturing method to the functional material powder sprayer 7 of the configuration as shown in Figures 3 and 4 to spray and support the functional material as shown in Figures 1 and 2, the functional material powder flotation room (8) , Functional material powder spray chamber 9, suspended functional material powder outlet 10, functional material powder built-in chamber 11, air inlet 12, air outlet 13, air chamber 14, defective material powder Combining with the collection chamber 15, functional material powder injector 16, compressed air injector 17 to form a functional material powder sprayer (7) as shown in Figs. 3 and 4 and at least one functional material powder (22) It is embedded in the functional material powder interior chamber 11 as shown in FIG. 8 and injected into the functional material powder injection chamber 9 with the functional material injector 16 as shown in FIG. 9 and the functional material support chamber 8 as shown in FIGS. 10 and 11. Some parts are applied in contact with the surface of the cooling roller 18 as shown in FIG. It is bonded to the surface geotjjok PE coating 19 is coated on another material (fiber material, synthetic resin material) surface, such as paper.

본 발명은 PE에 용해되지 않는 광물질 분말을 기능 물질 분말 살포기(7)를 이용하여 통상적인 코팅작업 과정에서 PE 피막 겉쪽표면과 냉각로라(18) 표면에 기능 물질 분말(22)을 분사시키고 살포시켜 PE 피막 겉쪽표면에 접합시키므로서 기능 물질 색과 기능을 코팅표면에서 살릴 수 있는 효과(음이온, 원적외선 방출 및 항균)가 있다.The present invention sprays and sprays a functional powder (22) on the outer surface of the PE film and the surface of the cooling roller (18) in the usual coating process using the functional powder sprayer (7). By bonding to the outer surface of the PE film, the color and function of the functional material can be saved on the surface of the coating (anion, far-infrared emission and antibacterial).

본 발명을 첨부된 도면에 의거하여 설명하면 다음과 같다.Hereinafter, the present invention will be described with reference to the accompanying drawings.

음이온, 원적외선이 방출되는 토르마린(Tourmaline) 원석에서 통상적 방법으로 유해 중금속, 이물질을 제거시키고 실리카(SiO2)(1)에 담지시켜 기공(3)을 만들고 비중을 줄이며 많은 량의 음이온, 원적외선을 방출시키도록 실리카 토르마린(SiO2-Tourmaline)(4)으로 도1과 같이 구성시키고, 항균력이 있는 은(Ag)(5)을 실리카(SiO2)에 도포시켜 은(Ag) 표면을 확대시키고 많은 량의 항균력을 갖도록 실리카 은나노(SiO2-Ag-nano)(6)로 도 2와 같이 구성시켜 분말로 구성시킨다.In the tourmaline ore, which emits negative ions and far infrared rays, it removes harmful heavy metals and foreign substances in the usual way, and it is supported on silica (SiO 2 ) (1) to make pores (3), reduce specific gravity, and release a large amount of negative ions and far infrared rays. Silica tourmaline (SiO 2 -Tourmaline) (4) as shown in Figure 1, and the antimicrobial silver (Ag) (5) is applied to silica (SiO 2 ) to enlarge the silver (Ag) surface and a large amount Silica is composed of silver nano (SiO 2 -Ag-nano) (6) as shown in Figure 2 to have an antimicrobial activity of the powder.

한편 기능 물질 분말(22)을 부양시켜 냉각로라(18) 표면과 PE 피막 겉쪽표면에 접착시키고 도포시킬 수 있는 기능 물질 분말 살포기(7)를 도 3, 도 4와 같이 기능 물질 분말 부양실(8), 기능 물질 분말 분사실(9), 부양된 기능 물질 분말 출구(10), 기능 물질 분말 내장실(11), 공기 투입구(12), 공기 배출구(13) 공기실(14), 불량 물질 분말 집하실(15), 기능 물질 분말 분사기(16), 압축공기 분사기(17)를 설치하고 구성시켜 도 3, 도 4와 같은 기능 물질 분말 살포기(7)를 구성시킨 다음 기능 물질 분말 내장실(11)에 기능 물질 분말(22)을 도 6과 같이 내장시키 고, 도 7과 같이 기능 물질 분사기(16)를 후진시키면 위쪽에 있던 기능 물질 분말(22)은 기능 물질 분사기(16)가 있던 공간을 채우게 된다.On the other hand, the functional material powder flotation room (8) as shown in Figs. ), Functional material powder spray chamber (9), suspended functional material powder outlet (10), functional material powder built-in chamber (11), air inlet (12), air outlet (13), air chamber (14), defective material powder The collector 15, the functional material powder injector 16, and the compressed air injector 17 are installed and configured to configure the functional material powder sprayer 7 as shown in Figs. 6, the functional material powder 22 is embedded as shown in FIG. 6, and as shown in FIG. 7, the functional material injector 16 is retracted. Filled up.

이때 도 8과 같이 기능 물질 분사기(16)를 전진시키면 기능 물질 분사기(16) 안으로 기능 물질 분말(22)이 들어가게 되고 이때 도 9와 같이 압축공기 분사기(17)로 압축공기를 분사시키면 기능 물질 분말(22)은 기능 물질 분사실(9)로 날려 나오게 된다.In this case, when the functional material injector 16 is advanced as shown in FIG. 8, the functional material powder 22 enters the functional material injector 16, and when the compressed air is sprayed by the compressed air injector 17 as shown in FIG. 9, the functional material powder 22 is blown out to the functional material spray chamber (9).

도 5와 같이 분사실 아래쪽에 바람 발생기(14)를 설치시키고 공기 투입구(12)로 압축공기를 투입시키면 공기 배출구(13)로 공기가 나오고 바람을 만들게 되고 분사실(9)로 분사된 기능 물질 분말(22)은 바람에 의해 부양하게 되고 부양된 기능 물질 분말(22)은 도 11과 같이 공기의 흐름에 따라 기능 물질 분말 출구(10)를 통해 기능 물질 부양실(8)로 이동되어 부양된 상태에서 공기의 흐름에 따라 기능 물질 분말(22) 일부는 냉각로라(18) 표면에 도포되고 일부는 공기흐름에 따라 기능 물질 출구(24)로 나와 PE 피막 겉쪽표면에 도 12와 같이 접착되고 그와 동시에 PE 피막 안쪽표면에서는 종이와 같은 다른 물질(섬유재, 합성수지재)과 접착되면서 도 12와 같은 방법으로 냉각로라(18)를 통과하여 PE 피막 겉쪽표면에는 기능 물질 분말(22), PE 피막 안쪽에는 종이와 같은 다른 물질(섬유재, 합성수지재)과 접합되어 기능 물질 분말(22)의 색과 기능이 파괴되지 않으면서 기능성 코팅이 만들어진다.When the wind generator 14 is installed below the injection chamber as shown in FIG. 5, and compressed air is introduced into the air inlet 12, air comes out through the air outlet 13 to make wind, and the functional material is injected into the injection chamber 9. The powder 22 is supported by the wind and the supported functional material powder 22 is moved to the functional material support chamber 8 through the functional material powder outlet 10 according to the flow of air as shown in FIG. As the air flows, a part of the functional material powder 22 is applied to the surface of the cooling roller 18, and a part of the functional material powder 22 comes out of the functional material outlet 24 according to the air flow and adheres to the outer surface of the PE film as shown in FIG. At the same time, the inner surface of the PE film is bonded to other materials such as paper (fiber material, synthetic resin material) while passing through the cooling roller 18 in the same manner as in FIG. Like paper inside Other material (fiber material, synthetic resin material) is bonded with the functional coating is made stand If the color and the function of the functional material powder 22 is not destroyed.

도 1. 실리카 토르마린 구성도Figure 1. Silica tourmaline configuration

도 2. 실리카 은나노 구성도Figure 2. Silica silver nano structure diagram

도 3. 기능 물질 분말 살포기 구성도Figure 3. Functional substance powder spreader configuration diagram

도 4. 기능 물질 분말 살포기 단면도4. Functional material powder duster section

도 5. 기능 물질 분사실 구성도Figure 5. Functional material injection chamber configuration

도 6. 기능 물질 분말 분사기 단면도6. Functional material powder injector cross section

도 7. 기능 물질 분말 분사기 후진 동작 단면도7. Functional material powder injector reverse operation cross section

도 8. 기능 물질 분말 분사기 전진 동작 단면도8. Functional material powder injector forward operation cross section

도 9. 압충공기 분사도9. Blown air injection

도 10. 기능 물질 분말 부양도10. Functional substance powder flotation

도 11. 기능 물질 분말 이동 경로도Figure 11. Functional substance powder travel path diagram

도 12. 기능성 코팅 제조방법도12. Functional coating method

도 13. 기능성 코팅 단면도.13. Functional coating cross section.

( 도면의 주요 부분에 대한 부호 설명 )(Symbol description of main part of drawing)

1. 실리카 19. PE 피막Silica 19.PE film

2. 토르마린 20. PE 용해 분사기2. Tourmaline 20. PE melt injector

3. 기공 21. 종이3. Pore 21. Paper

4. 실리카 토르마린 22. 기능 물질 분말4. Silica tourmaline 22. Functional substance powder

5. 은(Ag) 23. 코로나5. Silver (Ag) 23. Corona

6. 실리카 은나노 24. 부양된 기능 물질 분말 출구6. Silica silver nano 24. Supported functional material powder outlet

7. 기능 물질 분말 살포기 25. 기능 물질 분사구7. Functional substance powder sprayer 25. Functional substance nozzle

8. 기능 물질 분말 부양실8. Functional substance powder flotation room

9. 기능 물질 분말 분사실9. Function material powder spray chamber

10. 부양된 기능 물질 분말 출구10. Dependent Functional Material Powder Outlet

11. 기능 물질 분말 내장실11. Functional substance powder built-in chamber

12. 공기 투입구12. Air inlet

13. 공기 배출구13. Air outlet

14. 바람 발생기14. Wind generator

15. 불량 물질 분말 집하실15. Bad material powder cellar

16. 기능 물질 분말 분사기16. Function substance powder injector

17. 압축공기 분사기17. Compressed Air Injector

18. 냉각로라18. Cooling roller

Claims (3)

기능성 코팅 제조방법에 있어서In the functional coating manufacturing method 기능 물질 분말을 기능 물질 살포기(7)로 냉각로라 표면과 PE 피막 겉쪽표면에 살포시킴과 동시에 PE 피막 안쪽면에는 종이와 같은 물질(섬유재, 합성수지재)과 접착시켜 냉각로라(18)를 통과시키므로서 PE 겉쪽면에는 기능성 물질을 접합시키고 PE 안쪽면에는 종이와 같은 물질(섬유재, 합성수지재)을 접합시킴을 특징으로 하는 "기능성 코팅 제조방법"The functional material powder is sprayed on the surface of the cooling roller and the outer surface of the PE film by the functional material spreader (7), and the surface of the PE film is adhered to a paper-like material (fiber, synthetic resin material) and passed through the cooling roller (18). "Functional coating manufacturing method" characterized by bonding a functional material to the outer surface of the PE and bonding a paper-like material (fiber, synthetic resin) to the inner surface of the PE. 청구항 제1항에 있어서The method of claim 1 음이온 원적외선이 방출되는 토르마린(Tourmaline) 원석에서 유해 중금속 이물질을 제거시키고 실리카(SiO2)에 담지시켜 실리카 토르마린(SiO2-Tourmaline)으로 구성시키고, 항균력이 있는 은(Ag)을 실리카(SiO2)에 도포시켜 실리카 은나노(SiO2-Ag-nano)로 구성시켜 기능 물질 분말로 구성시킴을 특징으로 하는 "기능성 코팅 제조방법"To remove the heavy metals from the debris tourmaline (Tourmaline) gemstones are anions and far infrared rays emitted supported on a silica (SiO 2) and composed of tourmaline silica (SiO 2 -Tourmaline), the silica (Ag) that has antimicrobial activity (SiO 2) "Method for producing functional coating", characterized in that it is composed of silica silver nano (SiO 2 -Ag-nano) to form a functional material powder. 청구항 제1항에 있어서The method of claim 1 기능 물질 분말 살포기(7)를 구성시킴에 있어서 기능 물질 분말 내장실(11), 기능 물질 분말 분사기(16) 기능 물질 분말 분사실(9), 바람 발생기(14), 기능 물 질 분말 부양실(8)을 구성시킴을 특징으로 하는 "기능성 코팅 제조방법"In constructing the functional material powder spreader 7, the functional material powder injecting chamber 11, the functional material powder injector 16, the functional material powder spraying chamber 9, the wind generator 14, the functional material powder flotation chamber ( 8) "functional coating manufacturing method" characterized by
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KR20120008556A (en) * 2010-07-19 2012-02-01 이규주 Paper composed of functional material and PE film
WO2018203670A1 (en) * 2017-05-02 2018-11-08 주식회사 지오엔 Microparticle coating apparatus using submerged spraying, and method for preparing substrate-microparticle film composite by using same

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KR101204682B1 (en) 2011-07-27 2012-11-29 이규주 Far Infrared Emission Functional Cushion

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US5965226A (en) * 1997-03-11 1999-10-12 Mitsubishi Polyester Film, Llc In-line method for laminating silicone-coated polyester film to paper, and laminate produced thereby
KR100605271B1 (en) * 2004-08-16 2006-07-28 한솔제지주식회사 Cooling device of coating machine for making paper

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20120008556A (en) * 2010-07-19 2012-02-01 이규주 Paper composed of functional material and PE film
WO2018203670A1 (en) * 2017-05-02 2018-11-08 주식회사 지오엔 Microparticle coating apparatus using submerged spraying, and method for preparing substrate-microparticle film composite by using same

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