KR200344271Y1 - Soft foil used as thermal insulator - Google Patents

Abstract

The present invention relates to an eco-friendly insulation material for construction in which a coated woven fabric sheet and aluminum foil are combined. ), Coated on one side of the woven fabric sheet (1), consisting of the same raw material as the woven fabric sheet (1), the coating layer (2) to fix the shape of the woven fabric sheet (1) and maintain the tension, It is bonded to the other side of the woven fabric sheet (1) and is placed between the aluminum foil (3), which reflects heat and resists fire, and between the woven fabric sheet (1) and the aluminum foil (3). It consists of a hot melt adhesive layer (4) bonding the foil (3), thereby providing an environmentally friendly building insulation material having insulation properties, moisture barrier properties, fire resistance properties, flame retardant properties, noise blocking properties, human harm .

Description

Eco-friendly insulation for construction {SOFT FOIL USED AS THERMAL INSULATOR}

The present invention relates to a building insulation, and more particularly to a building environmentally friendly insulation combined with a coated woven fabric sheet and aluminum foil.

Styrofoam and glass fiber as a typical insulation, Styrofoam in the case of fire hazard and construction and transportation is not easy, there is a problem that harms the environment and human body in the case of glass fiber.

As shown in FIG. 1, Korean Laid-Open Patent Publication No. 2001-0091178 discloses aluminum silver foil 111 on both sides or one side of a known heat insulating material 110 such as polyethylene (PE) foam or styrofoam having a predetermined thickness. By fastening the method, and both sides or one side of the silver foil 111 by repeatedly tightening the heat insulating material is known to provide a heat insulating material so that the aluminum silver foil 111 is fastened three or more times to the known heat insulating material 110, There are still problems in construction and transportation of the foam material.

Utility Model Registration No. 0021592 is a non-woven fabric 212 (212a) and a synthetic resin film paper (for example; polyethylene film paper) 214, 214a so as to be symmetric up and down based on the adhesive layer 210 disposed in the center However, the present invention provides a heat insulating material 220 in which aluminum deposition layers 216 and 216a and synthetic resin film papers (eg, polyethylene terephthalate resin film papers) 218 and 218a are sequentially bonded. Has

The present invention has been made to solve the above problems, and an object of the present invention is to provide a new building insulation that is environmentally friendly, resistant to fire, and excellent in transport and construction.

In addition, the present invention aims to provide a new building insulation to increase the energy efficiency to block the sunlight coming into the interior to cool in the summer and warm effect in the winter.

1 is a view illustrating a heat insulating material of Unexamined Patent Publication No. 2001-0091178,

2 is a view for explaining the heat insulating material of Utility Model Registration No. 0021592,

3 is an enlarged cross-sectional view of the heat insulating material 5 according to the present invention,

4 is a view showing another embodiment of the present invention.

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

3 is an enlarged cross-sectional view of the heat insulating material 5 according to the present invention, the present invention is coated on one side of the woven fabric sheet 1, the woven fabric sheet (1), the same raw material as the woven fabric sheet (1) Aluminum foil composed of a coating layer (2) to fix the shape of the woven fabric sheet (1) and maintain the tension, bonded to the other side of the woven fabric sheet (1), reflects heat and resists fire ( 3) and a hot melt adhesive layer 4 placed between the woven fabric sheet 1 and the aluminum foil 3 to bond the sheet 1 and the foil 3 together.

The woven fabric sheet 1 serves to reinforce the strength and flexibility of the aluminum foil 3 as a base material of the heat insulating material 5 according to the present invention, and the raw material of the sheet 1 preferably has heat resistance and Polypropylene excellent in wear resistance is used, and polyethylene may be used.

The woven fabric sheet 1 can be achieved by flattening the foil 3 without warping (wrinkle) in order to increase the reflectivity of the aluminum foil 3 to be bonded (the sheet 1 and the foil 3 combined). It is important to maintain a uniform tension as a whole, and a method for maintaining a uniform tension of the woven fabric sheet 1 will be described later.

The coating layer 2 uses the same raw material as the woven fabric sheet 1, and serves to fix the shape of the woven fabric sheet 1 and to maintain a uniform tension, using a master batch It is possible to form a coating layer of the color.

The aluminum foil 3 is combined with the fabric sheet 1 woven on the opposite side of the coating layer 2, and has heat reflecting properties to prevent combustion of the fabric sheet 1 woven in the fire. By combining the woven fabric sheet 1 and the aluminum foil 3, both the strength and flexibility of the entire insulation material 5 are improved, and the volume is reduced so that it can be rolled up and transported and stored. It is easy to construct because it is only necessary.

When the woven fabric sheet 1 and the aluminum foil 3 are combined, it is important to keep the aluminum foil 3 flat to increase the heat reflection characteristics of the aluminum foil 3, which is the woven fabric sheet 1. By weaving a uniform tension to the fabric sheet can be made by maintaining a uniform tension through the coating layer (2).

The use of HOT MELT to join the woven fabric sheet 1 and the aluminum foil 3 not only reduces flame retardancy in the case of PET FILM, but also causes wrinkles on the aluminum foil 3 to reduce heat reflection characteristics. Because. The hotmelt preferably has high flame retardancy. In addition, bonding using hot melt ensures stronger bonding of the woven fabric sheet 1 and the aluminum foil 3.

Next, the manufacturing process of the heat insulating material 5 according to the present invention will be described.

The manufacturing process of the heat insulating material 5 according to the present invention consists of a weaving process, a weaving process, a coating process, a lamination process of the foil 3 and the coated fabric sheet, and each process itself is a weaving / weaving / coating of synthetic fibers. The detailed description of the process and the lamination process of the woven fabric and the metal foil will be omitted, and only the parts necessary for the manufacture of the heat insulating material 5 according to the present invention will be described, and the case of using polypropylene as a raw material will be described.

1) Sacrificial process (plucking thread)

The polypropylene is prepared by mixing-> extrusion-> extension-> winding. Preferably, heat is applied at 230 ~ 240 ℃ to the bobbin with a width of 2-3mm. Wind up

2) Weaving process (fabric weaving process)

After weaving the thread into the weaving bobbin, weaving it to a width of preferably 1.48 ~ 1.83m. When weaving, the fabric should maintain a constant tension, and the drawing ratio is 7.5: 1 during weaving, the drawing winder is 90mm in diameter for weft, 35mm in diameter for weaving, and 4 for weaving. Inch bobbins were used. The tension range was minimized by attaching one more tension roller.

3) Fabric coating (polypropylene coating)

After the woven fabric sheet 1 is attached to the bobbin, it is preferably coated on one side with a thickness of preferably 30 μm (please check the unit). The coating color at this time is determined by adding a master batch.

4) lamination process of foil (3) and coated fabric sheet

The insulating material 5 according to the present invention is completed by laminating the aluminum foil 3 and the coated fabric sheet using the hot melt applicator.

FIG. 4 is a view showing another embodiment of the present invention, and unlike FIG. 3, a heat insulating material in which a paper sheet 6 is further added between the aluminum foil 3 and the hot melt adhesive layer 4 to reinforce the effect of moisture proofing. 7) is presented. The bonding of the aluminum foil 3 and the paper sheet 6 is made by the hot melt adhesive layer 4.

The heat insulating material 7 according to the present invention, after coating the woven fabric sheet 1, combines the sheet 1 side and the paper sheet 6 through the hot melt adhesive layer 4, and again the hot melt adhesive layer (4) It is completed by bonding the paper sheet 6 side and the aluminum foil 3 through.

The invention combines aluminum foil with a woven high strength reinforced polymer, which combines strength with flexibility, has a waterproofing effect, acts as a reliable barrier to steam, and prevents heat and air through the building's exterior walls. Can regulate the flow In addition, the surface of the aluminum foil can use heat reflection properties to reflect heat in summer and maintain heat in the building in winter.

The present invention protects the walls of the building from rain and wind through a tough, strong coated woven fabric sheet and aluminum foil double barriers, prevents the release of heat through the walls and roofs in winter, and as a shield against radiant heat. Role. In addition, by blocking the heat entering the building from the wall and roof using the reflective properties of the present invention plays an excellent role in cooling.

The present invention provides excellent thermal insulation properties to increase the energy efficiency of the building, to prevent the building from getting wet, to minimize the damage to the building even if it is wet, and has excellent fire resistance.

The present invention can be used not only as a heat insulating material in buildings, but also used at connection parts such as water pipes to prevent leakage of moisture, and can also be used as waterproof membranes under tile roofs.

Claims (6)

Woven fabric sheet 1; A coating layer 2 coated on one surface of the woven fabric sheet 1, made of the same raw material as the woven fabric sheet 1, and fixing the form of the woven fabric sheet 1 and maintaining tension; An aluminum foil (3) bonded to the other side of the woven fabric sheet (1), which reflects heat and resists fire; And, A hot melt adhesive layer 4 placed between the woven fabric sheet 1 and the aluminum foil 3 to bond the sheet 1 and the foil 3 to each other; Eco-friendly insulation for building, characterized in that consisting of only. The method of claim 1, Woven fabric sheet (1) is an eco-friendly insulation for building, characterized in that made of polypropylene. The method of claim 1, Woven fabric sheet (1) is an environmentally friendly building insulation, characterized in that made of polyethylene. The method according to claim 1 or 2, The coating layer 3 has a required color, and the required color is obtained by adding a master batch. The method of claim 4, wherein Hot melt adhesive layer (4) is an environmentally friendly insulation for building, characterized in that it has a flame retardant. The method of claim 5, wherein The combination of the remaining face of the woven fabric sheet 1 and the aluminum foil 3 has a paper sheet 7 therebetween, between the paper sheet 7 and the remaining side of the paper sheet 1 which is interwoven. An environmentally friendly insulating material for building, characterized in that it is formed by bonding a hot melt adhesive layer (4) between (7) and aluminum foil (3).