KR20160125930A - An Foam Lining Paper Having Property of Insulation and Vapor Proof - Google Patents

Abstract

The present invention relates to a foam lining with heat-insulating and damp-proof properties. More specifically, the present invention relates to a foam lining with heat-insulating and damp-proof properties, which comprises a layer coated with synthetic resin and a heat-insulating foam layer and has enhanced heat-insulating and damp-proof properties. the foam lining with heat-insulating and damp-proof properties comprises: a heat-insulating layer (11) which is made of a foam sheet using a polyethylene or polypropylene material; and damp-proof layers (15a, 15b) which are coupled to both sides of the heat-insulating layer (11) and are made of paper or nonwoven fabric coated with a polyethylene or polypropylene material. The damp-proof layers (15a, 15b) are coupled to the heat-insulating layer (11) through a pressure thermal bonding process.

Description

[0002] An Foam Lining Paper Having Property of Insulation and Vapor Proof with Insulation and Moisture-

The present invention relates to a foamed soybean paste having a heat insulating property and a moisture-proofing property, and more particularly to a foamed soybean paste having a heat-insulating property and a moisture-proof property, which is composed of a layer coated with a synthetic resin and a heat insulating foam layer.

Wallpaper is made of paper like material used for wall protection and interior decoration, and has the largest construction area of the finishing materials, thus it becomes a main component for creating the image of the interior space. Wallpaper should be kept on the wall for a long time as it is after construction, but may have various problems due to the environmental factors of the wall which is the boundary between indoor and outdoor and indoor.

Condensation is a phenomenon that occurs frequently in winter, and when the temperature difference between indoor and outdoor is severe, the moisture of the hot air layer is formed as dew on a cool wall or ceiling. Condensation not only causes water stains on the wallpaper but also promotes the development and propagation of fungi due to the formation of a wet environment. This not only damages the wallpaper to be preserved and used in the long term, but also provides an environment that can cause ticks and various germs, which can cause various respiratory and skin diseases in the human body.

Because of the low adhesion to the wall, the wallpaper is usually preceded by the preliminary work before the work is performed. Accordingly, instead of the wallpaper which is apparently exposed, the pine grove is used to provide the flat surface to the uneven wall surface such as the concrete wall, thereby providing the easiness of the expressive finish, while using the non-woven cloth- . ≪ / RTI > Various problems occurring in wallpaper can be solved by using the pineapple.

Patent Registration No. 10-0541743 discloses a two-layered double-stranded layer; A foam layer foamed on the double-layered paper so that a pattern appears; And a printing layer on which the pattern is printed on the upper end of the foam layer. Since the wall surface does not shine even when the papermaking paper is not applied, the foam wallpaper can be directly applied to the wall surface, The foamed layer of the existing wallpaper can be easily removed and the raw paper can be utilized as a pineapple, so that the foamed wallpaper using the dual paper having the excellent reheating property is disclosed.

The Utility Model Registration No. 20-0424159 relates to a multifunctional insulating material capable of preventing the phenomenon of moisture transferred from the outside to the room side by attaching a moisture proof film to both sides of the nonwoven fabric and preventing condensation and recycling the nonwoven fabric, A nonwoven fabric provided so as to be able to absorb the nonwoven fabric; A moisture-impermeable film adhered to both sides of the nonwoven fabric so that the moisture absorbed in the nonwoven fabric is not transmitted to the inside; A PE foam attached to the moisture-proof film to block heat transmission; And an outer film attached to each of the PE foams to protect the PE foam and to block radiant heat.

The foamed wallpaper or the multifunctional insulating material disclosed in the prior art has a problem that the heat insulating function and the dehumidifying function are difficult to exhibit sufficiently. Also, there is a problem that it is difficult to produce a pine cones which exhibits such a function at a low cost.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Registration No. 10-0541743 (published Jan. 11, 2006, DSpace East Wall Paper Co., Ltd.) Prior art 2: Utility model registration number 20-0424159 (disclosed on Aug. 16, 2006, Seokbong iron) Multifunctional insulation

It is an object of the present invention to provide a foamed papermaking paper having heat insulation and moisture-proof properties that can be easily manufactured at low cost while simultaneously exhibiting heat insulation and moisture-proof functions by a coated paper or non-woven fabric layer and a synthetic resin foam layer.

According to a preferred embodiment of the present invention, the foamed insulated board having the heat insulating property and the moisture-proofing property is composed of a heat insulating layer made of a foamed sheet made of polyethylene or polypropylene; And a moisture-proof layer coated on a paper or non-woven fabric bonded to both sides of the heat-insulating layer with a polyethylene or polypropylene material, and the moisture-proof layer is bonded to the heat-insulating layer by pressure heat bonding.

According to another preferred embodiment of the present invention, at least one of the moisture-proof layer comprises a flame retardant fiber.

According to still another preferred embodiment of the present invention, a flow path disposed in the moisture-proof layer is further included.

The paper of the present invention is made of a paper or non-woven fabric layer which is coated with a foam layer formed by a synthetic resin such as polyethylene, while exhibiting a moisture-proof or dehumidifying function. In addition, the honeycomb according to the present invention maintains cleanliness by preventing the generation of mold by the moisture-proof or dehumidifying function while reducing the cost for heating by the effect of warming. In addition, the plaster according to the present invention can be applied to various wall surfaces, ceiling surfaces or floor surfaces.

FIG. 1 shows an embodiment of the structure of a hyperplane according to the present invention.
2 shows another embodiment of the structure of the hyperplane according to the present invention.
FIG. 3 shows an embodiment of a process for manufacturing a micro-paper according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

FIG. 1 shows an embodiment of the structure of the ultra-fine paper 10 according to the present invention.

Referring to FIG. 1, the foamed insulated board 10 having the heat insulating property and the moisture-proofing characteristic comprises a heat insulating layer 11 made of a foamed sheet made of polyethylene or polypropylene; And a moisture-proof layer (15a, 15b) coated with a polyethylene or polypropylene material on a paper or nonwoven fabric bonded to both sides of the heat insulating layer (11). The moisture-proof layers (15a, 15b) Layer (11).

The micro pavement 10 according to the present invention refers to the interior of a wall or ceiling forming a closed space such as a residential space, a work space, or a resting space. The papermaking paper can be adhered to a concrete surface, a heat insulating lining material or other material, and the wallpaper can be attached to the papermaking paper 10. However, depending on the material of the heat insulating layers 15a and 15b, only the super-ply paper 10 can be applied without wallpaper. In addition, the insert 10 may be used for a certain period of time and then the wallpaper may be attached. In the present specification, the wallpaper capable of attaching wallpaper can be formed of a plurality of layers, and may include a heat insulating layer 11 made of a foam sheet made of a material such as polyethylene or polypropylene. The foam sheet may be formed by, for example, applying heat to a low-density polyethylene raw material to melt it, and then injecting gas to form a cell. When the cell is formed, it is foamed by applying pressure while cooling, and then it can be made into a sheet shape through a suitable die. The foam sheet may have a lower density than other materials and may be disposed inside the moisture-proof layers 15a and 15b to exhibit a buffering function, a warming function, or a heat insulating function.

The foam sheet may be a plate-shaped synthetic resin foam made from various materials, and a plurality of independent bubbles may be formed in the foam sheet. Independent foams can be formed by cross-linking of synthetic resins and gases such as nitrogen (N ₂ ), pentane, butane, propane, etc., (ADCD) can be added and chemically treated.

The closed air layer in which air or a specific component gas is trapped inside the closed bubble formed in the synthetic resin can function as a heat insulating material or a thermal insulating material, . Further, fine pores can be formed in the material of the foam sheet, and moisture or moisture penetrating from the wall surface can be absorbed by the pores and can be diverted to the outside. If necessary, the foam sheet may include flame retardant fibers. For example, fluorine-based flame retardant fibers can be irregularly injected during the foaming process.

The moisture-proof layers (15a, 15b) can be adhered to both sides of the heat insulating layer (11). The moisture-proof layers 15a and 15b may have a structure in which adhesive layers 13a and 13b made of polyethylene or polypropylene are bonded to a sheet such as paper or a nonwoven fabric. The moisture-proof layers 15a and 15b are formed by coating a paper or a nonwoven fabric sheet with a polyethylene or polypropylene material to form adhesive layers 13a and 13b or by attaching a polyethylene or polypropylene thin film to a paper or nonwoven fabric sheet to form an adhesive layer 13a , 13b). ≪ / RTI > The adhesive layers 13a and 13b made of a polyethylene or polypropylene coating layer or a thin film can be made to have a relatively high density and have a function of preventing external moisture from entering the room. At the same time, the adhesive layers 13a and 13b may have a function of allowing the paper or nonwoven fabric to adhere to the heat insulating layer 11. [

The thicknesses of the adhesive layers 13a and 13b formed on both sides of the heat insulating layer 11 may be different from each other. For example, the first adhesive layer 13a serving as an indoor surface is formed as a second adhesive layer 13b ). ≪ / RTI > Therefore, the effect of heat insulation and moisture absorption can be enhanced.

The adhesive layers 13a and 13b may be in the form of a thin film having a thickness of, for example, 0.1 to 10 mm, and may be made to have a relatively small thickness as compared with other layers. The moisture-proof layers 15a and 15b can be adhered to both surfaces of the heat insulating layer 11 by a heat fusion bonding method, a pressurizing method, or a mixing method thereof by the adhesive layers 13a and 13b.

The moisture barrier layers 15a and 15b are adhered to both sides of the heat insulating layer 11 by the adhesive layers 13a and 13b to make the microporous paper 10 and the moisture barrier layers 15a and 15b are formed, mm, but is not limited thereto. Thereafter, wallpaper may be attached to one side of the insert paper 10 as necessary.

The micro-insert 10 according to the present invention may include a flame retardant material. For example, a flame retardant material may be included in the process of forming the insulating layer 11 or in the moisture-proof layers 15a and 15b made of a nonwoven fabric. The flame retardant material may be, for example, a fluorine-based fiber, and specifically a fluorine-modified fiber.

By the addition of the flame retardant material, the action of the heat insulating property can be improved by restricting the movement of the heat while the inorganic filler 10 has heat resistance. In addition, the antimicrobial action of the flame retardant material may block the occurrence of mold or other bacteria. The flame retardant material may be added non-uniformly in a fiber form or may be disposed between the adhesive layers 13a, 13b and the insulating layers 15a, 15b in the form of a thin film. When a flame retardant material is disposed in the form of a film, a plurality of through holes may be formed in the flame retardant material. The formation of the through-holes can make the overall size of the insert 10 light, while at the same time the expansion or contraction of the foam sheet can be complemented. A flame retardant material may be added during the production of the foam sheet in the form of fibers.

The flame retardant material can be added to the micro-pouch 10 according to the present invention in various ways, and the present invention is not limited to the illustrated embodiments.

FIG. 2 shows another embodiment of the structure of the ultra-fine paper 10 according to the present invention.

Referring to FIG. 2, the moisture-proof layers 15a and 15b attached to both sides of the heat insulating layer 11 in the insert paper 10 may have different thicknesses. For example, the first moisture-proof layer 15a corresponding to the indoor surface may have a larger overall thickness than the first moisture-proof layer 15b corresponding to the outdoor surface. The thickness of the first adhesive layer 13a corresponding to the indoor surface may be smaller than the thickness of the second adhesive layer 13b corresponding to the outdoor surface. Such a structure enhances the moisture-proof effect while simultaneously improving the heat insulation performance. The flow path 27 may be disposed in the moisture-proof layers 15a and 15b.

The flow path 27 can function to discharge the moisture or gas of the heat insulating layer 11 to the outside or to discharge the moisture introduced from the outside back to the outside. The flow path 27 may be formed separately or formed using a plurality of breathable fiber strands. 2 (a) and 2 (b), the flow path 27 can be formed in the outer moisture-proof layer 15a of the heat insulating layer 11 corresponding to the outdoor surface, and specifically, the moisture-proof layer 15b ) And the adhesive layer 13b. Alternatively, the flow path 27 may be disposed between the insulating layer 11 and the adhesive layer 13b. 2 (b), in order to form the flow path 27, a material for forming the flow path 27 composed of a plurality of fiber strands is formed on one side of the moisture-proof layer 15b made of a material such as paper Can be irregularly arranged on the surface. The irregular arrangement of the flow path 27 allows one end of the flow path 27 to be connected to the outside even if the extrusion path is cut at an arbitrary position. One end of the flow path 27 may be coated with a synthetic resin adhesive when it is arranged to be connected to the outside. Alternatively, by applying a pressure to one side of the moisture-proof layer 15b or the adhesive layer 13b made of a paper material by using a device in which a protruding portion for forming the flow path 27 is formed in advance, a flow path 27 is formed can do. The flow path 27 can be formed in various ways and the present invention is not limited to the embodiments shown.

The flow path 27 may function to introduce moisture to the outside and to discharge the moisture or gas introduced into the heat insulating layer 11 to the outside. Also, it has a function to prevent swelling caused by a gas that can not be discharged to a part of a pine tree. The flow path 27 having various structures can be formed of various materials, and the present invention is not limited to the embodiments shown.

Hereinafter, the process of manufacturing the ultra-fine paper 10 according to the present invention will be described.

FIG. 3 shows an embodiment of a process for manufacturing the ultra-fine paper 10 according to the present invention.

Referring to FIG. 3, a paper or nonwoven fabric coated with polyethylene resin or polypropylene synthetic resin may be prepared for the production of the extruded paper 10 according to the present invention. The paper or nonwoven fabric may be a moisture-proof layer 15a, and the coating layer may be an adhesive layer 13a. Alternatively, a thin film of polyethylene or polypropylene synthetic resin may be attached to the moisture-proof layer 15a, and the thin film may be an adhesive layer 13a. If necessary, the adhesive strip 31 may be disposed on one side of the adhesive layer 13a. The adhesive strip 31 may be made of a synthetic resin adhesive having a lower softening point than the adhesive layer 13a, and a plurality of the adhesive strips 31 may be linearly arranged. The adhesive strip 31 may function to adhere the heat insulating layer 11 and the moisture-proof layer 15a of the foam sheet material to each other at a predetermined position in the bonding process, while at the same time forming the flow path described above. The adhesive strips 31 are formed to be connected to each other linearly along both edges of the adhesive layer 13a, but the adhesive strips 31 disposed on the inner surface can be arranged in various forms. However, depending on the material of the adhesive layer 13a, the adhesive strip 31 may not necessarily be disposed.

The moisture-proof layer 15a having the adhesive layer 13a on one side can be continuously attached to both sides of the heat-insulating layer 11. [ The heat insulating layer 11 of the foam sheet material can be continuously supplied between the pair of pressure rollers 33a and 33b and at the same time the sheet-shaped moisture-proof layer 15a can be supplied from the lower and upper sides of the heat insulating layer 11 The pressurizing rollers 33a and 33b of the pressurizing device can be supplied. A heater can be built in the pair of pressure rollers 33a and 33b and the pressure can be applied to the moisture-proof layer 15a supplied by the pair of pressure rollers 33a and 33b, have. The moisture-proof layer 15a and the heat-insulating layer 11 adhered to each other may be formed into a sheet shape to be a micro-paper according to the present invention. The pressure rollers 33a and 33b can be any shape known in the art and the moisture-proof layer 15a and the heat-insulating layer 11 can be adhered to each other in various ways, and the present invention is not limited to the embodiments shown .

The paper of the present invention is made of a paper or non-woven fabric layer which is coated with a foam layer formed by a synthetic resin such as polyethylene, while exhibiting a moisture-proof or dehumidifying function. In addition, the honeycomb according to the present invention maintains cleanliness by preventing the generation of mold by the moisture-proof or dehumidifying function while reducing the cost for heating by the effect of warming. Further, the papermaking paper according to the present invention can be applied to various wall surfaces, ceiling surfaces or floor surfaces.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: Insecticide 11: Insulating layer
13a and 13b: adhesive layers 15a and 15b: moisture-proof layer
27: flow path 31: adhesive strip
33a, 33b: pressure roller

Claims (1)

A heat insulating layer 11 made of a foamed sheet made of polyethylene or polypropylene; And
Moisture-proof layers (15a, 15b) coated with a polyethylene or polypropylene material on a paper or nonwoven fabric bonded to both sides of the heat insulating layer (11)
The moisture-proof layers 15a and 15b are bonded to the heat insulating layer 11 by pressure heat bonding and the adhesive layers 13a and 13b formed on both sides of the heat insulating layer 11 have different thicknesses, A linear adhesive strip 31 having a lower softening point than polyethylene or polypropylene is disposed in the moisture-proof layers 15a and 15b to form a flow path 27 for discharging the moisture or gas of the heat insulating layer 11 to the outside, Characterized in that at least one of the moisture-proof layers (15a, 15b) comprises a fluorine-based flame retardant fiber, and the flame retardant fiber is injected during the foaming process of the foam sheet.

Images