KR20020058926A - adiabatic material using styrofoam - Google Patents

Abstract

PURPOSE: Insulating materials are provided, which prevent styrofoam from melting by adhering incombustible materials on both sides of styrofoam, delay poisonous gas, and maximize insulating efficiency by reflect heat source. CONSTITUTION: The thermal insulating materials using styrofoam comprise incombustible materials(120) adhered inside by weaving glass fiber yarn or polyester yarn(122) between aluminum sheet(121) and vinyl chloride(123), but attached and adhered to aluminum sheet(121) and vinyl chloride(123) with an adhesive and styrofoam block(110) attaching the incombustible materials(120) on both sides.

Description

Insulation Using Styrofoam {adiabatic material using styrofoam}

The present invention relates to a heat insulating material using a styrofoam, and more particularly, to a heat insulating material using a styrofoam to improve the fire resistance and heat insulating properties and easy handling to improve workability.

In general, the building material is a general term for the materials constituting the building, also called building materials.

In general, building materials refer to materials provided in the place of construction such as cement, gravel, glass, brick, and wallpaper.

Combined or processed with building materials to form members or parts, for example, sandwich panels, precast concrete plates, prefab members, and the like, are also widely used building materials.

Different external forces act on each part of the building, so those with quality that can respond to them are selected and used.

The roofing material has various working factors such as fire, snow, rain, temperature, fire at neighboring houses, and more in terms of strength, durability, and fire resistance. It must be able to adapt to serious conditions.

The outer wall acts almost the same as the roofing material but does not require the strength of the roof as much as the roof. The material of the floor is to be suitable for abrasion, slippage, walking comfort, and ease of cleaning.

Inner wall material requires surface hardness, touch, flame retardancy, sound absorption, heat insulation, ease of repair, etc., and the ceiling material is lightweight, Fire retardancy, design, etc. are important.

The performances commonly required for each site include durability, resistance, workability, maintenance, and ease of management. Of course, it should be sufficient in strength and economical.

Building materials include organic materials, inorganic materials, and metal materials. Organic materials are easy to burn and have no durability. Inorganic materials are heavy and have poor processability. Metals are rust-proof, requiring waterproofing. Each has its own shortcomings.

In particular, the conventional inner wall material requires the hardness, touch, flame retardancy, sound absorption, insulation, ease of repair, etc. of the surface, so that the inner wall material of high steel Should be used.

Among these inner wall materials, the insulator refers to a material having a low thermal conductivity used to block heat flow, and is classified into a heat insulating material, a heat insulating material, a heat insulating material, and a fire insulating material according to the use temperature.

Among these insulation materials, styrofoam (foamed polystyrene) has been widely used as an insulation material for buildings due to its ease of use, excellent insulation effect and low price.

However, such styrofoam is very weak to heat, so it is not only vulnerable to fire, but also easily melts in the early stages of fire to generate toxic gases, causing serious human injury by toxic gases.

In addition, the styrofoam has a weak strength, such as good handleability but easily crushing.

Therefore, the main object of the present invention is to attach a non-combustible material on both sides of the styrofoam block to suppress the easy melting of the styrofoam early in the event of a fire to delay the generation of toxic gas.

Another object of the present invention is to maximize the thermal insulation of the non-combustible material attached to the styrofoam block reflects the heat source.

Another object of the present invention is to improve the strength of the styrofoam block to be able to suppress the brittle easily.

1 is a perspective view showing a heat insulating material using styrofoam according to the present invention.

Figure 2 is a schematic diagram for explaining the manufacturing process of the non-combustible material of the insulation using styrofoam according to the present invention.

Explanation of symbols of main part of drawing

100: heat insulating material 110: styrofoam block

120: non-combustible material 121: aluminum sheet

122: glass fiber yarn or polyester yarn

123: vinyl chloride

In order to achieve this purpose, the insulating material using styrofoam is configured to attach non-combustible materials to both sides of the styrofoam block to improve flame retardancy and maximize insulation and to dissolve easily in the initial flame to delay the generation of toxic gas. Basic features of the award.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention configured as described above are as follows.

1 is a perspective view showing a heat insulating material using a styrofoam according to the present invention, Figure 2 is a schematic diagram for explaining the manufacturing process of the non-combustible material of the heat insulating material using the styrofoam according to the present invention.

1 and 2, the insulating material 100 using the styrofoam of the present invention is attached to the non-combustible material 120 on both sides of the styrofoam block 110 to improve the flame retardancy and maximize the thermal insulation to easily melt in the initial flame To lower the generation of toxic gases.

The non-combustible material 140 is attached to the aluminum sheet 121 and the vinyl chloride 123 by an adhesive, but the glass fiber yarn or polyester yarn 122 between the aluminum sheet 121 and the softened vinyl 123 It is preferable to weave and join together together.

The non-combustible material 140 may be formed using only the aluminum sheet 121 and attached to both sides of the styrofoam block 110.

Furthermore, the non-combustible material 120 may be attached to both sides of the styrofoam block 110 by attaching only vinyl chloride 123 to the aluminum sheet 121.

Referring to the operation of the present invention as follows.

First, the aluminum sheet 121 and the vinyl chloride 123 are attached to each other, and a nonwoven material 120 is attached to both sides of the styrofoam by inserting a woven glass fiber yarn or polyester yarn 122 therebetween.

The non-combustible material 120 thus manufactured is attached to both sides of the styrofoam with an adhesive, and then cut to block a styrofoam to which the non-combustible material 120 is attached to a prescribed size.

Therefore, the non-combustible material 120 having excellent fire resistance produces and completes the styrofoam block 110.

Further, the completed insulation 100 is attached to the interior of the wall of the building and installed by finishing.

In the present invention, the insulating material 100 is attached to both sides of the styrofoam block 110, the non-combustible material 110 is attached to improve the fire resistance and thermal insulation.

In particular, the aluminum sheet 120 of the heat insulating material 100 reflects most of the radiant heat without storing heat, so that the heat insulating property of the styrofoam and the heat source reflecting property of aluminum are combined to obtain the best heat insulating effect.

In addition, since the non-combustible material 120 of the heat insulating material 100 blocks heat at the early stage of the fire occurrence, the styrofoam block 110 is easily melted to suppress the toxic gas generation due to the phenomena of melting of the styrofoam. Evacuation can be minimized to minimize human injury.

Therefore, the heat insulating material 100 of the present invention is not only inexpensive but also improves heat insulation and heat insulation, and in particular, it is possible to secure the disadvantages of styrofoam by suppressing the generation of toxic gases at the early stage of fire.

As described above, the heat insulating material using the styrofoam of the present invention is attached to the aluminum sheet 121 and the vinyl chloride 123 by an adhesive, but the glass fiber yarn or poly between the aluminum sheet 121 and the softened vinyl (123) Since the non-combustible material 120, which is woven together with the ester yarn yarn 122, and the styrofoam block 110 attaching the non-combustible material 120 to both sides, the styrofoam can be easily melted at the beginning of the fire. By delaying the generation of toxic gas to minimize the damage to human life due to toxic gas, the aluminum sheet of the non-combustible material reflects the heat source to maximize the thermal insulation and improve the strength of the insulating material to suppress the brittleness easily.

Claims (1)

The aluminum sheet 121 and the vinyl chloride 123 are attached to each other by an adhesive, and the non-combustible fabric is bonded between the aluminum sheet 121 and the softened vinyl 123 by weaving glass fiber yarn or polyester yarn 122 together. Material 120, Insulation using styrofoam consisting of a styrofoam block 110 to attach the non-combustible material 120 on both sides.