KR101184827B1 - An insulating wallpaper which prevents the moisture and cold air - Google Patents

Abstract

The present invention relates to a heat-reflective insulating wallpaper having excellent moisture-proof and heat-insulating effect, and a method for manufacturing the same, comprising a paper, a polyethylene foam formed on the paper, and a hollow fiber long fiber nonwoven fabric formed on the polyethylene (PE) foam. And a PE foam formed on the hollow fiber long fiber nonwoven layer, an aluminum foil reflective film layer formed on the PE foam, and a nonwoven layer formed on the film layer.
The heat-reflective insulation wallpaper and the method of manufacturing the excellent moisture-proof and heat-insulating effect of the present invention configured as described above is a multi-layer comprising a reflective film layer having excellent heat reflection properties on the wallpaper and a hollow fiber long fiber nonwoven layer having a thermal insulation insulation performance As it provides insulation wall of structure, it not only effectively blocks the internal heat dissipation by heat reflection but also provides excellent heat insulation and insulation, and improves the heat insulation effect of the building and prevents dew condensation by capillary action. And it provides a heat-reflective insulation wallpaper that is excellent in the shielding function and flame retardancy between the interior and the exterior, such as soundproofing, and also excellent workability.

Description

Heat-reflective insulation wallpaper with excellent moisture-proof and insulation effect and manufacturing method thereof {An insulating wallpaper which prevents the moisture and cold air}

The present invention relates to a heat reflection insulation wallpaper having excellent moisture-proof and heat insulation effect, and to a method for manufacturing the same, and more particularly, to prevent the internal heat dissipation due to heat reflection through a functional layer having excellent heat reflection characteristics and insulation insulation performance. In addition, the thermal insulation insulation wallpaper, which is excellent in insulation and flame retardancy between interior and exterior, such as moisture proofing and soundproofing, and excellent workability, as well as the insulation effect of buildings is improved by making the insulation insulation excellent. It is about a method.

In general, most modern buildings are constructed with concrete reinforcement structures based on concrete, which has a certain amount of aggregates mixed with cement to provide excellent properties such as mechanical strength, durability, and heat resistance. In general, as well as the interior of the super badge for the purpose of insulation, moisture proof, etc., it is common to apply a finishing paper having a variety of patterns on the finish construction.

The finishing of the interior surface of the building by the super medium and paper medium is to prevent the harmful components that may occur from the cement into the room and to achieve the fundamental purpose of the interior, as well as a variety of other functionalities have been added. In addition to the fact that the heat insulation, moisture proof, sound insulation blocking function to the outside is required, as well as the development of technology and the enlargement of the building, the current situation is required to be flame retardant.

Various wallpaper has been proposed to meet these various needs, the most widely known structure is a PE film layer made of moisture-proof polyethylene; Aluminum layer; Nonwoven layer; PE foam layer made of polyethylene; Insulating material of a layer structure consisting of an adhesive layer or a super medium layer is disclosed, and such a conventional layer structure of the heat insulating material is to solve the problem that the heat insulating effect is lowered, the Republic of Korea Utility Model Registration No. 2004-0019290 Insulation / insulation sheet of 2005-0024004 and "Heat insulation sheet" of 2005-0024004, a heat insulation sheet composed of a super medium layer, an aluminum film layer, a flame retardant / non-flame retardant foam layer, an adhesive layer and a protective layer, and a first reflection layer, an adhesive layer, and a second reflection layer The present invention discloses a building insulation composed of a molding reinforcement layer and a moisture proof layer.

However, the above-described conventional design still has a disadvantage in that a structure which does not deviate significantly from the heat insulating material of the general layer structure does not exhibit satisfactory characteristics of not only heat insulation effect but also insulation, moisture proof, and soundproofing.

Accordingly, in order to solve this problem, the present applicant has a "insulation material and a manufacturing method thereof" of Korean Patent Application No. 2008-0079865, "a first surface is a glossy surface, the other surface is a matt aluminum surface; the first aluminum foil; A first polyester film adhered to the matt surface of the aluminum foil, a polyethylene foam thermally fused with polyethylene interposed on the first polyester film, and a nonwoven fabric thermally fused with polyethylene interposed on the polyethylene foam, 1 is a heat insulating material characterized in that the glossiness of the glossy surface and the matte surface of the first aluminum foil is set differently by adjusting the roughness of the work roll for rolling the aluminum foil. Using layers and spunbonded nonwovens, Korean Patent Application No. 2008-0134252 states, "It is attached to the wall of a building. A spunbond nonwoven fabric for imparting heat retention, including an aluminum deposition layer deposited on a surface of the spunbond nonwoven fabric to reflect heat, and an adhesive layer is coated on a back surface of the spunbond nonwoven fabric, and a release paper is attached to the adhesive layer Wherein, the adhesive layer is a condensation preventing heat reflection insulating medium that is entirely coated on the back surface of the non-spun bond fabric, and the adhesive layer is partially coated on the back surface of the non-condensing nonwoven fabric. Korean Utility Model Registration Application No. 2009-0002396 discloses that "a spunbond molding nonwoven fabric, an aluminum reflection sheet and an aluminum reflection sheet provided to be bonded to a lower end of the spunbond molding nonwoven fabric to reflect internal heat Known thermal insulation and moisture barrier made of hollow fiber long fiber nonwoven fabric bonded to the bottom The spunbond molded nonwoven fabric is made of polyester filament yarn; the hollow fiber long fiber nonwoven fabric is made of polyester hollow filament yarn; and the bottom end of the hollow fiber long fiber nonwoven fabric is made of acrylic water-soluble eco-friendly adhesive And a release layer is provided at the lower end of the adhesive layer.

However, the conventional various heat insulators disclosed above are still a long time for the wallpaper that satisfies both moisture-proof, sound-proof and flame-retardant properties with excellent heat insulating properties. In particular, the conventional conventional nonwoven fabric or hollow fiber long fiber nonwoven fabric to form a layer to improve the heat insulation and moisture-proofing effect is disclosed that these nonwoven fabrics have the function of exhibiting a sufficient heat insulation and moisture-proofing effect of the desired degree The above technical problem is still not solved.

Patent Document 1: Korean Utility Model Registration Application No. 2004-0019290 Patent Document 2: Republic of Korea Utility Model Registration Application No. 2005-0024004 Patent Document 3: Republic of Korea Patent Application No. 2008-0079865 Patent Document 4: Republic of Korea Patent Application No. 2008-0134252 Patent Document 5: Republic of Korea Utility Model Patent Application No. 2009-0002396

The present invention has been made in view of the above technical problems in the prior art, the main object of the present invention is to block the dissipation of internal heat by heat reflection, so as to improve the heat insulation effect in the building with excellent moisture and sound insulation and It is to provide a heat-reflective insulation wallpaper that can be excellent in the interior and exterior interception function and flame retardancy and also excellent construction properties.

Another object of the present invention is to provide a manufacturing method that can more easily produce a heat reflection insulating wallpaper having the above excellent characteristics.

The present invention may also be aimed at achieving, in addition to the above-mentioned specific objects, other objects which can be easily derived by those skilled in the art from this and the overall description of the present specification.

The heat reflection insulation wallpaper excellent in moisture-proof and heat insulation effect of the present invention for achieving the above object; Paper; Polyethylene foam formed on the paper; A hollow fiber long fiber nonwoven layer formed on the polyethylene (PE) foam; PE foam formed on the hollow fiber long fiber nonwoven layer; An aluminum foil reflective film layer formed on the PE foam; And a nonwoven layer formed on the film layer; The nonwoven fabric layer formed on the outermost layer is sequentially composed of a non-combustible composite sheet, and the sheet is bonded to a non-woven fabric of a polyester material on a non-combustible fiber or a short cut of a yarn to be bonded in a proking style. Characterized in that it is configured.

According to another configuration of the present invention, the hollow fiber long fiber nonwoven fabric is a polyester fiber material is spun into a hollow sphere having a circular or oval cross section to form a polyester hollow filament having a single yarn diameter of 22 to 40㎛, The web in which the polyester hollow filament is laminated is characterized in that the hollow filament polyester hollow spunbond nonwoven fabric is formed by heat-pressing into an embossed shape by a calender roll.

According to another configuration of the present invention, the hollow fiber long fiber nonwoven fabric is a single yarn diameter by spinning a polyester fiber material having an intrinsic viscosity of 0.6 to 0.7 with a discharge amount of 0.1 to 25 g / min.hole in a hollow mold having a circular or oval cross section After forming a polyester hollow filament of 22 to 40㎛ and laminating it to form a filament web, characterized in that the filament web is obtained by heating and pressing so that the area of the thermocompression bonding portion is 5 to 20%.

According to another configuration of the present invention, the nonwoven fabric of the polyester material bonded to the non-combustible fibers, the melting point of 30 to 90% by weight of the high-melting polyester fibers (polyester fiber) and the melting point 20 ℃ or more lower than the high-melting polyester fibers It is preferable that it is the polyester nonwoven fabric layer which 10-70 weight% of low melting polyester fibers are mixed at random.

According to another configuration of the present invention for achieving the above object, the heat-reflective insulation wallpaper excellent in the moisture-proof and heat insulation effect of the present invention; Paper; Polyethylene foam formed on the paper; A hollow fiber long fiber nonwoven layer formed on the polyethylene (PE) foam; PE foam formed on the hollow fiber long fiber nonwoven layer; An aluminum foil reflective film layer formed on the PE foam; And a nonwoven layer formed on the film layer; The nonwoven fabric layer formed sequentially on the outermost layer includes a spunbond nonwoven fabric layer comprising a low sheath polyester polymer composed of a deep sheath fiber which encloses a high melting polyester polymer in the longitudinal direction of the fiber, and the spunbond layer. Melt-blown nonwoven fabric layers are formed between the nonwoven fabric layers, laminated on a continuous belt to form a web, and bonded by thermocompression bonding to form a sheet.

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According to another configuration of the present invention, the aluminum foil is characterized in that the gloss is set to be different from each other by adjusting the roughness of the work roll for rolling the aluminum foil so that one surface is a glossy surface and the other surface is a matt surface. .

According to another configuration of the present invention, the aluminum foil reflective film layer is characterized by consisting of a polyethylene (PE) film coated with aluminum foil on at least one of the upper and lower surfaces.

According to another configuration of the invention, the adhesive layer and the release agent layer is further formed sequentially on the back of the paper on which the polyethylene foam layer is formed.

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The heat-reflective insulating wallpaper and the method of manufacturing the excellent heat-insulating effect of the present invention configured as described above, the multi-layer structure comprising a reflective film layer having excellent heat reflection properties on the wallpaper and a hollow fiber long fiber nonwoven layer having a heat insulating insulation performance As it provides insulation wallpaper of, it not only effectively prevents heat dissipation by heat reflection, but also excellent insulation insulation, improves the insulation effect of the building, and prevents dew condensation by capillary action. Provides heat reflection insulation wallpaper with excellent shielding function and flame retardancy and excellent workability between interior and exterior such as soundproofing.

1 is a cross-sectional view of a heat insulation wallpaper according to a preferred embodiment of the present invention,
2 is a cross-sectional view of a heat insulation wallpaper according to another preferred embodiment of the present invention,
Figure 3 is a transfer micrograph of a cross section of a hollow fiber long fiber nonwoven fabric used in accordance with a preferred embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in more detail by preferred embodiments.

First, FIG. 1 is a cross-sectional view of a heat insulation wallpaper according to a preferred embodiment of the present invention, FIG. 2 is a cross-sectional view of a heat insulation wallpaper according to another preferred embodiment of the present invention, and FIG. 3 is used according to a preferred embodiment of the present invention. Transfer micrograph of cross section of hollow fiber long fiber nonwoven fabric.

As shown in the figure, the heat-reflective thermal insulation wallpaper 10 excellent in the thermal insulation effect according to an embodiment of the present invention is a paper 11, a first polyethylene foam (polyethylene foam) layer formed on the paper 11 (12), a hollow fiber long fiber nonwoven layer 13 formed on the polyethylene foam layer, a second polyethylene foam layer 14 formed on the hollow fiber long fiber nonwoven layer 13, on the second polyethylene foam layer The aluminum foil reflecting film layer 15 formed on the nonwoven fabric layer 16 formed on the aluminum foil reflecting film layer 15 is formed in a multi-layered layer structure sequentially stacked.

The hollow fiber filament nonwoven layer 13 according to a preferred embodiment of the present invention is a polyester fiber material and is spun into a hollow sphere having a circular or oval cross section, and has a single yarn diameter of 22 to 40 μm. And a hollow long fiber polyester nonwoven fabric obtained by laminating the polyester hollow filament to form a web, and then heat-compressing it into an embossed shape with a calender roll.

More preferably, the hollow fiber long fiber nonwoven layer 13 according to the present invention has a discharge amount of 0.1 to 25 g / min.hole of a polyester fiber material having an intrinsic viscosity of 0.6 to 0.7 in a hollow mold having a circular or oval cross section. After spinning to form a polyester hollow filament having a single yarn diameter of 22 to 40㎛ and laminating it to form a filament web, the nonwoven fabric obtained by heat-compressing the filament web into an embossed shape so that the area of the thermocompression bonding portion is 5 to 20%. Can be used.

As described above, the hollow fiber long fiber nonwoven layer 13 forming one layer of the thermal insulation wallpaper 10 according to the present invention is produced by hollow detention having a circular or oval cross section, as shown in FIG. It is formed of a hollow long fiber nonwoven fabric having a cross section of a single yarn having a single yarn diameter of 22 to 40 µm and formed into a nonwoven fabric. The nonwoven fabric having a hollow cross section captures air having low thermal conductivity in the fiber. Because of this, it shows excellent heat insulation and heat insulation. In addition, the long fiber has a more dense feature than the short fiber, so it has a function of absorbing and releasing moisture quickly through the capillary action of the empty space between the long fibers. great.

In addition, due to the denseness of the long fibers, the moisture from the outside almost completely prevents invasion, or captures the invasive moisture and prevents it from penetrating, thus additionally having a moisture-proof function. If the long fiber having a single yarn diameter of less than 22 μm is used, the moisture content (the ratio of air trapped in the nonwoven fabric) is lower than the correction level, so that the insulation insulation is poor. The long fiber having a single yarn diameter of more than 40 μm is used. If the use of the filament in the space between the capillary action is not smooth and the condensation prevention effect is not preferable because it is not preferable.

In addition, since the hollow fiber long fiber nonwoven fabric 13 is used in accordance with the present invention, it is light in weight compared to using a fiber product of the same thickness, and thus excellent in moisture resistance, sound insulation and weather resistance, while being excellent in handling and construction properties.

In addition, as described above, the hollow fiber long fiber nonwoven fabric 13 of the present invention can be excellent in lightness, handleability, and workability by using an embossing formed such that the area of the thermocompression-bonding portion is 5 to 20%. In particular, when the area of the thermocompression part exceeds 20%, it is not preferable that not only the light weight, handleability and workability are deteriorated, but also the thermal insulation effect is significantly reduced.

Since the hollow fiber long fiber nonwoven fabric 13 according to the present invention further uses a polyester material mainly used in clothing, unlike the conventional glass wool or asbestos, it is an environmentally friendly product.

First and second polyethylene foam layers 12 and 14 are formed above and below the hollow fiber long fiber nonwoven layer 13 of the thermal insulation wallpaper 10 according to the preferred embodiment of the present invention. And since the second polyethylene foam layer (12, 14) has a porous structure and exhibits a property of blocking heat, it serves to further increase the thermal insulation effect of the hollow fiber long fiber nonwoven layer 13 of the present invention.

In addition, the heat insulating wallpaper 10 according to a preferred embodiment of the present invention, the nonwoven layer 16 is formed on the outermost layer, the nonwoven layer 16 is 30 to 90% by weight of the high-melting polyester fibers It can be formed using a polyester nonwoven fabric in which 10 to 70% by weight of the low melting point polyester fiber having a melting point of 20 ° C. or more lower than the high melting point polyester fiber is randomly mixed.

More specifically, as the nonwoven fabric 16 formed in the outermost layer in the thermal insulation wallpaper 10 according to the preferred embodiment of the present invention, a low melting polyester polymer wraps the high melting polyester polymer in the longitudinal direction of the fiber. It is preferable that a spunbond nonwoven fabric layer formed of a long filament and a meltblown nonwoven fabric layer formed between the spunbond nonwoven fabric layer and laminated on a continuous belt to form a web and bonded by thermocompression to be manufactured in the form of a sheet. Can be used.

As described above, according to the present invention, the low-melting polymer has a high-melting polymer as the outermost layer of the spunbonded nonwoven layer made of a long sheath fiber in the longitudinal direction of the fiber, and forms an inner layer between the spunbonded nonwoven layers forming the outermost layer. By using the nonwoven fabric 16 optimized to the amount of the melt-blown nonwoven fabric layer, the adhesive strength is strengthened to provide excellent fluff resistance and mechanical strength, excellent moisture barrier properties, and excellent flexibility to maintain wallpaper. It is possible to provide an advantage of excellent workability of the.

More specifically, the high melting point polyester polymer of the nonwoven fabric 16 forming the outermost layer of the present invention serves to increase the heat resistance and mechanical strength, and the low melting polyester polymer is melted by heat when molded into the nonwoven fabric to form a high melting point. It serves to bond easily with polyester polymer fibers.

The nonwoven fabric 16 constituting the outermost layer of the heat insulating wallpaper 10 according to the preferred embodiment of the present invention may be used a nonwoven fabric having excellent flame retardancy by adding a flame retardant such as phosphorus. 16) may use a composite sheet having a non-combustible, wherein the sheet may be used by bonding a non-woven fabric of a polyester material on the non-combustible fiber, or may be configured by short-cutting the yarn and bonded in a proking style.

As described above, since the nonwoven fabric layer 16 of the present invention is used in addition to flame retardancy, the heat insulating wallpaper 10 according to the present invention may exhibit excellent flame retardant properties as a whole.

The aluminum foil reflecting film 15 constituting one layer of the thermal insulation wallpaper 10 according to the preferred embodiment of the present invention has one surface so that its gloss is set differently by adjusting the roughness of the work roll for rolling the aluminum foil. It is possible to use a silver polished surface and the other surface as a matte surface.

As described above, a detailed method and process for adjusting the gloss through the roughness adjustment of the work roll rolling the aluminum foil to provide the aluminum foil reflecting film 15 to form a layer of the thermal insulation wallpaper 10 according to the present invention Although, reference may be made to the method disclosed in the patent document 3 previously filed by the present applicant, but briefly described, first, various surface defects such as oxidation, scratch, foreign matters, etc. on the wound aluminum raw material are examined, A first rolling step of passing the re-wound aluminum raw material between two rotating work rolls to compress them; a polymerization step of overlapping and winding the two aluminum foils to the two aluminum foils through a polymerizer; It consists of a second rolling process for passing the compressed aluminum foil between two rotating work rolls to compress, In this case, the work roll is to be roughened by the polishing member by a linear polishing method, the polishing member is made of a silicon carbide material made of a number of 280 abrasives in one inch (Inch), the The work roll causes a gloss surface to be formed on the outer surface of the overlapped aluminum foil in contact with the work roll in rolling the overlapped aluminum foil. The outer surface of the overlapped aluminum foil in contact with the work roll is adjusted to be different from the inner surface of the aluminum foil and the glossiness different from each other. It produces and uses the said glossy aluminum foil formed by the matte surface. In addition, the second rolling process may be repeatedly performed so that the glossy aluminum foil has a desired thickness.

As described above, the aluminum foil reflective film layer 15 constituting one layer of the heat insulating wallpaper 10 of the present invention has excellent heat insulating properties and is excellent in blocking cold and heat. Since it reflects to the indoor side, the heat of the room is completely blocked from going out to have the effect of increasing the temperature of the room.

As described above, the aluminum foil reflective film 15 forming one layer of the thermal insulation wallpaper 10 of the present invention may be composed of a polyethylene (PE) film coated with aluminum foil on at least one of the upper and lower surfaces, and in this case, the flexibility and flexibility Not only can the improvement be expected, but also the desired moisture-proof and insulation effect can be maintained stably.

According to another preferred embodiment of the present invention, the adhesive layer 21 and the release paper layer 22 are formed on the back side of the paper 11 on which the first polyethylene foam layer 12 is formed as shown in FIG. ) May be further formed sequentially.

The adhesive layer 21 may be formed by various kinds of adhesives known in the art, but it is particularly preferable that the adhesive layer 21 is formed of an acrylic-based, non-toxic, non-toxic, water-soluble, eco-friendly adhesive to prevent harmful substances from being released. .

As described above, when the adhesive layer 21 and the release paper layer 22 are sequentially stacked on the bottom of the paper 11, the thermal insulation wallpaper 10 of the present invention has the simplicity of construction and the thermal insulation wallpaper 10 ) To the wall surface of the building, first cut to correspond to the surface to be applied to the insulating wallpaper 10, remove the release paper layer 22 attached to maintain the adhesive force of the adhesive layer 21, and then remove the adhesive layer 21 Since it attaches easily to a wall surface, and can carry out the construction of the heat insulation wallpaper of this invention more easily.

According to another preferred embodiment of the present invention, the heat reflection insulating wallpaper (10) comprises the steps of forming a polyethylene foam on paper, and laminating a hollow fiber long fiber nonwoven fabric on the polyethylene foam formed in the step. Forming a polyethylene foam on the hollow fiber long fiber nonwoven layer, laminating an aluminum foil on the polyethylene foam formed in the step, and forming a reflective film layer on the film layer Laminating the nonwoven fabric to form the outermost nonwoven layer can be produced by sequentially proceeding, and additionally can be prepared by thermo-pressure molding the thermal insulation wallpaper of a multi-layered structure according to the present invention obtained as described above.

10; Heat insulation wallpaper
11; Paper layer
12; First polyethylene foam layer
13; Hollow Fiber Long Fiber Nonwoven Layer
14; Second polyethylene foam layer
15; Reflective film layer
16; Nonwoven layer
21; Adhesive layer
22; Release paper layer

Claims (10)

Paper;
Polyethylene foam formed on the paper;
A hollow fiber long fiber nonwoven layer formed on the polyethylene (PE) foam;
PE foam formed on the hollow fiber long fiber nonwoven layer;
An aluminum foil reflective film layer formed on the PE foam; And
A nonwoven layer formed on the film layer; Sequentially stacked,
The nonwoven layer formed on the outermost layer,
A composite sheet having a nonflammable, wherein the sheet is a heat-resistant thermal insulation wallpaper excellent in moisture-proof and heat-insulating effect, characterized in that the non-woven fabric of a polyester material bonded to the non-combustible fiber or a short cut yarn is bonded in a proking style. The method of claim 1,
The hollow fiber long fiber nonwoven fabric,
A polyester fiber material is spun into a hollow sphere having a circular or oval cross section to form a polyester hollow filament having a single yarn diameter of 22 to 40 μm, and the web on which the polyester hollow filament is laminated is embossed by a calender roll Hollow filament polyester hollow spunbond non-woven fabric which is constructed by heat-compression with excellent heat-reflective insulation wallpaper, characterized in that the moisture-proof and heat-insulating effect. The method of claim 1,
The hollow fiber long fiber nonwoven fabric,
A polyester fiber material having an intrinsic viscosity of 0.6 to 0.7 was spun into a hollow orifice having a circular or oval cross section at a discharge amount of 0.1 to 25 g / min.hole to form a polyester hollow filament having a single yarn diameter of 22 to 40 µm, and laminated thereon. After the formation of the web, heat filament heat-resistant wallpaper excellent heat reflection thermal insulation, characterized in that obtained by heat-compression so that the area of the thermal compression portion of 5 to 20%. The method of claim 1,
The nonwoven fabric of the polyester material bonded to the non-combustible fibers,
30 to 90% by weight of the high-melting polyester fiber and 10 to 70% by weight of the low-melting polyester fiber having a melting point of 20 ° C. or more lower than that of the high-melting polyester fiber are randomly mixed polyester nonwoven fabrics. Thermal reflection insulation wallpaper with excellent moisture and insulation effect. Paper;
Polyethylene foam formed on the paper;
A hollow fiber long fiber nonwoven layer formed on the polyethylene (PE) foam;
PE foam formed on the hollow fiber long fiber nonwoven layer;
An aluminum foil reflective film layer formed on the PE foam; And
A nonwoven layer formed on the film layer; Sequentially stacked,
The nonwoven fabric formed in the outermost layer is
The low-melting polyester polymer forms a meltblown nonwoven layer between the spunbond nonwoven layer consisting of a deep sheath filament which surrounds the high melting point polyester polymer in the longitudinal direction of the fiber, and the spunbond nonwoven layer on a continuous belt. The heat-reflective insulation wallpaper excellent in moisture-proof and heat insulation, characterized in that the laminated to form a web and bonded by thermocompression bonding to form a sheet. delete The method according to claim 1 or 5,
The aluminum foil is,
The heat-reflective insulation wallpaper with excellent moisture-proof and heat-insulating effect, characterized in that the gloss surface is set differently by adjusting the roughness of the work roll for rolling aluminum foil, and the other surface is a matte surface. The method according to claim 1 or 5,
The aluminum foil reflective film layer,
Excellent heat-reflective heat-insulating wallpaper, characterized in that made of polyethylene (PE) film coated with aluminum foil on at least one of the upper and lower sides. The method according to claim 1 or 5,
An excellent heat-reflective heat-insulating wallpaper, characterized in that the adhesive layer and the release agent layer is further formed on the back of the paper on which the polyethylene foam layer is formed. delete

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