KR100741951B1 - Reflecting heat insulation inside and outside of building - Google Patents

Abstract

A reflective insulation for internal and external walls of a building is provided to maximize insulation effect by cutting off cool air, hot air and radiant heat by attaching a polyester non-woven fabric layer and a polyethylene foam layer on each inside of an aluminum foil layer and attaching an air cap layer between the polyester non-woven fabric layer and the polyethylene foam layer. The reflective insulation(10) for internal and external walls of a building comprises an aluminum foil layer(10a) made of aluminum or aluminum alloy and formed on one side of a non-woven fabric layer(20) made of polyester to reflect heat, an air cap layer(30) formed on the other side of the non-woven fabric layer to have an air layer for insulation, a PE(polyethylene) foam layer(40) made of polyolefin based polyethylene resins and formed on the other side of the air cap layer, and an adhesion layer(50) and release paper(60) attached to one side of the aluminum foil layer attached to one side of the polyethylene foam layer.

Description

Reflecting heat insulation inside and outside of building}

1 is a perspective view showing a single layer structure of a reflective insulating material according to the present invention.

2 is a cross-sectional view of the reflective insulating material of the present invention.

Figure 3 is a graph comparing the temperature rise by heat of the reflective insulation and the volume insulation according to the invention.

Figure 4 is a cross-sectional view of a heat insulating material attached to a conventional aluminum foil.

<Description of main parts in the drawing>

10a, 10b: aluminum foil layer 20: polyester nonwoven layer

30: air bubble layer 40: polyethylene foam layer

50: adhesive layer 60: release paper

The present invention relates to a reflective insulating material made of a multi-layer structure to prevent the movement of heat to the inside and outside of the building. More specifically, it is installed on the inner and outer walls of a building to reflect and block cold, heat, and radiant heat, and to keep it warm, to prevent cold and hot air from leaking out, and to provide an adhesive layer to improve workability and durability, and to roll during transportation and storage. The present invention relates to a reflective insulating material for building interior and exterior walls that can be transported in a roll type to reduce logistics costs.

Insulation, which is used as a building's internal exterior material, is defined as "low heat flow by increasing the heat transfer resistance of a flowing object." Architecturally speaking, this means reducing the heat transmission rate of the structure (particularly the wall). The purpose of using insulation in buildings for such insulation is to improve the indoor thermal environment, to prevent the occurrence of surface condensation, and to save energy.

Korea is a resource-poor country that relies on imports for most of its national energy consumption. In order to leap as an advanced country in the 21st century, saving energy consumption and energy costs through developing alternative energy is essential.

In addition, the energy problem is directly related not only to the national economic problem but also to the global environment. Korea's energy consumption usually consists of 55% in the industrial sector, 25% in the building sector, and 20% in the transportation sector.

The largest share of energy consumption in buildings is heat loss / acquisition through the skin, which typically accounts for more than 40% of the building's cooling / heating load.

Therefore, in order to save energy in buildings, proper insulation design and construction of the outer shell should be made first.

However, buildings that do not have proper insulation design and construction can maintain the indoor temperature only by constantly applying energy, resulting in high energy loss, waste of cost, and poor comfort.

In Korea, styrofoam, urethane foam, glass wool, rock wool, PE foam, etc. are mainly used for insulation, and resistance-type insulation method for suppressing heat perfusion due to conduction and convection has been mainly used.

Polystyrene foam, which is the most in demand as a conventional heat insulator, has the advantage of being easy to process and light because the air is made up of more than 98% of the volume, but has a low heat resistance temperature and a plate-like shape compared to other heat insulators. Hazardous gases such as CO, CH4, C2H4 are generated, and there is a weak point in chemical reactions, which has the disadvantage of easily invading organic solvents of aromatic hydrocarbons.

Inorganic insulation materials such as glass wool and rock wool are resistant to heat and have excellent workability at joints, but have high hygroscopicity and poor mechanical properties in the molded state, making them difficult to install on walls and heavy weight. Care must be taken to avoid inhalation or contact with dust.

Looking at the heat insulating material used in the interior and exterior materials of the conventional building, the plate-shaped Styrofoam insulator, gypsum board or paper-based honeycomb is attached to one side of the Styrofoam, but these insulators are light, easy to handle and insulated, but the wall There is a problem that can not block the loss of heat because it can not keep the air in the space because it does not reflect the heat by installing between the wall or between the wall and the exterior material such as marble,

In addition, there was a heat insulating material bonded to the aluminum foil 100 on one surface of the polystyrene foam 200, which is a volume insulating material as shown in FIG. It does not have the disadvantage that can not alleviate the internal and external shocks. In other words, the heat insulating material is important for reflection, but if the air layer is enclosed in the middle, it is not only excellent in heat insulating property but also has a sound absorbing effect by acting as a sound absorbing material, but in the case of the heat insulating material of FIG. There is a problem that is not as efficient as blocking the movement of air and block the movement of sound.

In addition, since the heat insulating material is made of a plate shape, the roll type increases the volume, and thus requires a lot of logistics costs when carrying and transporting, and thus there is a problem that it is uneconomical for long distance transportation and to be installed on the inner wall of the building as tiles.

In addition, when looking at the configuration of the insulating material using the styrofoam of the previously published Patent Publication No. 2002-58926, by attaching an aluminum sheet and vinyl chloride with an adhesive and weaving glass fiber or polyester yarn between the aluminum sheet and vinyl chloride It can be seen that the bonded non-combustible material and the styrofoam block are attached to both sides of the non-combustible material, but this also does not form an air bubble layer therein, so that the insulation effect and the noise prevention effect are reduced, and the plate shape is transported and stored in roll type. There is a problem that you can not do,

The flexible reflective insulating structure of JP-A-2002-89346 discloses a first surface facing the fibrous layer such that its composition has a radiation rate of less than 0.1 on the first surface and about 85% or more of the radiation rate on the first surface is hardly affected. Reflective thermal insulation structure has been proposed, which is arranged to form a flexible metal layer to be attached to the fiber layer, but this can be rolled, but the air bubble layer is not formed inside, the sound absorption is not made and in particular the one side brushed fiber Since the metal layer is attached to the support to be vulnerable to the external impact, there is a problem that wrinkles or breaks when unrolled after winding.

The present invention has been made to solve the above problems, which is a material having a low emissivity for the air cap (air bubble) having a polyester-based non-woven fabric and a good thermal conductivity PE foam and a low air conductivity and air layer Consists of a multi-layered reflective insulation material that is constructed in buildings using aluminum and aluminum coatings or aluminum alloys, and has an adhesive layer on one side, making it easy to attach during installation, preventing condensation on the surface, and energy with excellent heat insulation effect. The purpose is to save the cost effectively, and also to roll the reflective insulation into a roll type to carry more load than conventional insulation, and to cut and use as much as necessary for the construction. In order to provide insulation material for the convenience of To provide interior and the exterior walls reflective thermal insulation for water

 Referring to the embodiments of the present invention for achieving the above object in detail as follows.

An aluminum foil layer 10a, which is one of aluminum and aluminum coatings or aluminum alloys capable of reflecting heat on one surface of the nonwoven fabric layer 20 made of polyester, and an air layer excellent in thermal insulation on the other surface of the nonwoven fabric layer 20. On the other side of the air bubble layer (30), the other surface of the air bubble layer (30), polystyrene foam (PE foam) layer 40 foamed from a polyolefin-based polyethylene resin, and polystyrene The aluminum foil layer 10b corresponds to one surface of the foam to be overlapped, and the adhesive layer 50 and the release paper 60 are provided on one surface of the foil layer 10b.

Reflective insulation is a material with low emissivity against thermal radiation, which refers to the case of thermal insulation by reflecting radiant thermal energy. Heat transfer by radiation can be suppressed by the use of a surface with less absorption and radiation of radiant heat. These surfaces not only look shiny, but also reflect the radiant heat of electromagnetic waves that behave like light. Insulations of this type include aluminum foil layers 10a and 10b and the aluminum foil layers 10a and 10b are so thin that the effects of conduction by them are negligible.

Metallic foil is mainly used on the surface to lower radiant heat, which is not affected by time or temperature and does not help the growth of bacteria, pests and bacteria, but the surface is affected by moisture, oxidation and dust If the reflecting surface is clouded by, the efficiency is lowered.

Reflective insulation that uses heat reflection on the material surface is usually used in metal sheets with good reflectivity, which include aluminum blankets, blankets with metal sheets, gypsum boards with aluminum sheets, and special Alloy, coated iron plate heat reflecting insulation, heat reflecting coating and the like.

Reflectivity and emissivity of the reflective surface are important for reflective insulation, and the reflectance and emissivity of the metal surface are described in Table 1 below.

                 Material Reflectivity in% Average emittance ε Aluminum foil       92-97        0.05 Aluminum sheet       80-95        0.12 Aluminum coated paper       75 to 84        0.20 Steel galvanized       70-80        0.25 Aluminum paint       30 to 70        0.50

The nonwoven layer 20 made of polyester includes an air layer between the polyesters to preserve the temperature of the room, prevent the heat or cold from being transferred directly from the room or the outside atmosphere, and when it is attached to the wall, It serves to fix the. It also serves to mitigate external shocks.

The air cap 30 is also called an air bubble. The air cap 30 has a sealed air layer, which is one of low thermal conductivity materials, and provides excellent heat insulating performance, and also acts as a sound absorbing material. It also acts as a shock absorber. In addition, the air bubble prevents the aluminum foil layer adhered to the inner and outer surfaces from being damaged or wrinkled by the difference between the inner surface diameter and the outer surface diameter when the reflective insulation of the present invention is rolled.

Polyethylene foam (40) is a high foam made to have a spherical independent bubble by cross-linking, foaming, excellent buffering and restoring power, good flexibility, does not break even in repeated shocks to maintain the original form, compressive strength It has strong back and excellent chemical resistance, so it is chemically stable and can be stored for a long time. It has excellent oil resistance, heat resistance, cold resistance, durability, and is semi-permanent.

In addition, moisture does not pass, insulation does not decrease, and thermal conductivity is low, so it is excellent in heat insulation effect and condensation prevention effect. As a semi-rigid foam, it has excellent physical strength, excellent workability and workability, and is used in various molding foams.

     The aluminum foils 10a and 10b provided on both surfaces prevent the oxidation of the surface of the metal foil by coating a polyolefin-based resin on at least one surface of both sides, and the strength and toughness of the aluminum foils 10a and 10b. Complementing this weak point is made stronger than relatively simple aluminum foil (10a) (10b). In addition, if aluminum foil is attached to both sides rather than only one side, both sides have high reflectivity, and the reflective side located on the hot side can maintain heat resistance and act as moisture permeation resistance because condensation does not generally occur. .

      The configuration of the reflective insulating material for construction will be described in more detail with reference to FIG. 1.

1 is a perspective view showing a single layer structure of a reflective insulating material according to the present invention, Figure 2 is a cross-sectional view of the reflective insulating material of the present invention, the polyolefin-based resin is coated on at least one side of at least one side of the aluminum foil layer (10a) The nonwoven fabric layer 20 is bonded using thermal bonding or a synthetic resin bond, and the air cap layer 30 is bonded to the other side of the nonwoven fabric layer 20 using thermal bonding or a synthetic resin bond.

The other side of the air bubble layer 30 is bonded to the polyethylene (Polyethylene) foam layer 40, the other side of the polyethylene foam layer 40 is coated with at least one side of the polyolefin-based resin The aluminum foil 10b is thermally bonded or synthetically bonded to the resin to form a reflective insulating material for construction. The reflective insulation configured in this way forms a reflective insulation material 10 in an overlapped state.

One side of the aluminum foil (10b) bonded to one surface of the polyethylene foam (40) of the reflective insulating material made as described above is provided with an adhesive layer 50 and a release paper 60 to have the ease of construction.

That is, when installing the reflective insulating material 10 of the present invention on the inner wall of the building, first cut to correspond to the size of the wall surface to be installed the reflective insulating material 10.

At this time, the reflective insulating material 10 of the present invention is made of a roll shape, the length can be installed at any time in one of the horizontal and vertical direction of the wall surface.

 In addition, in the installation, after cutting to correspond to the installation length, the release paper 60 formed on one side is peeled off, and then bonded to be fixed to the wall by using the adhesive layer 50, and then firmly by using some places such as Takapin or nail as needed. Can be fixed.

Of course, in the present invention, when one side of the reflective insulating material 10 is not provided in the adhesive layer, only the pins or the nails can be fixed.

The release paper 60 attached to one surface of the adhesive layer 50 formed on one surface of the reflective heat insulating material of the present invention is peeled off like a conventional release paper, and thus the worker easily attaches the reflective insulating material for building to the surface of the building, and this adhesive layer The release paper 60 is attached so that the adhesion performance is not reduced because the 50 is entangled or dried.

      In addition, the reflective insulation of the present invention does not necessarily have to observe the order when manufacturing, but looking at the manufacturing process, one of two sheets of 50㎛ thick aluminum foil is bonded to one surface of the polyester nonwoven fabric layer 20, the other is polyethylene foam Adhesion to one surface of layer 40. In this case, the aluminum foil layer and the nonwoven fabric layer 20 or the aluminum foil layer and the polyethylene foam layer 40 may be bonded by using a heat bond or a synthetic resin bond.

After attaching the aluminum foil layer 10a to one surface of the nonwoven fabric layer 20 as described above, the other surface of the nonwoven fabric layer 20 is adhered to the air cap layer 30 and then the air bubble layer 30 On the other side, on one side, the aluminum foil layer 10b is bonded to the polyethylene foam layer 40 to which the aluminum foil layer 10b is adhered to form a reflective insulation 10 having a multilayer structure.

       As described above, when the materials having different structures overlap each other, the result of measuring the heat permeability by applying the reflective insulating material 10 having a multi-layer structure to an actual wall has shown the results as shown in Table 2 below.

Count Supply calories (W)   Heating box air temperature (℃)     Low temperature room air temperature (℃)    Constant temperature room air temperature (℃) Heat transmission rate [W / (㎡ · K)]   One   22.73   19.93      0.31    19.97     0.51   2   22.49   19.97      0.28    19.99     0.51   3   22.85   19.96      0.28    19.98     0.52

 As can be seen from the test results, the heat insulating coefficient of the reflective insulation of the present invention is 0.51 W / (m 2 · K).

In order to confirm the radiant heat shielding performance, 75 mm of the volume insulating material was compared with the reflective insulating material of the present invention. The air temperature was measured by applying the same heat for 5hr, and the insulation performance was compared with each other.

3 is a graph showing a temperature rise due to heat of the volume insulating material and the reflective insulating material of the present invention, and is a data capable of comparing thermal insulation performance. In the graph below, the 75T of the thermal insulation material and the temperature rise curve are almost the same, indicating that the thermal insulation effect is similar to the 75T of the thermal insulation material.

In the reflective insulating material 10 of the present invention, the aluminum foil layer is a polyolefin-based resin is coated on one side or both sides of the aluminum foil to increase the tensile strength to prevent the aluminum foil from being torn or wrinkled.

Building reflective insulation of the present invention as described above by laminating the aluminum foil and the volume insulation in multiple layers according to the properties of the resistive, reflective insulation according to the characteristics of each material, to block the heat to escape to the outside with a thin structure thickness In addition, it can block the inflow of heat from the outside air and can produce the maximum insulation effect.

The present invention can be applied to the construction of the high-thickness using the soft properties of the wall corner, slabs and the like, which is one of the characteristics of the reflective heat insulating material, which is a disadvantage of the general volume heat insulating material, thereby preventing the deterioration of the thermal insulation performance. In addition, both sides of the aluminum foil and the air cap (air bubble) has a moisture-proof function to prevent condensation on the surface, thereby preventing the deterioration of heat insulation performance.

The performance of the reflective insulation invented as described above is similar to that of EPS 75mm, which is a general bulk insulation, and thus the four sides of the building space can be used more widely than the reflective reflective insulation of thin thickness. have.

In addition, the packaging is roll type, so it is easy to transport and store, and the adhesive layer is provided so that anyone can install it easily.

Claims (4)

In the heat insulating material for the exterior wall of a building which is laminated with an aluminum foil layer, an air forming sheet layer, an aluminum foil layer, a polyethylene foam layer, an adhesive layer, a release paper, and has a multilayer structure, An aluminum foil layer 10a corresponding to reflect heat on one surface of the nonwoven fabric layer 20 made of polyester, An air bubble layer 30 corresponding to the other surface of the nonwoven fabric layer 20 and having an air layer excellent in thermal insulation; The air bubble layer 30 corresponds to the other surface, and a polystyrene foam (PE foam) layer 40 foamed using a polyolefin-based polyethylene resin as a raw material, Reflective heat insulating material for building interior and exterior walls, characterized in that the aluminum foil layer (10b) corresponding to one side of the polystyrene foam layer is bonded to overlap. The method of claim 1, The aluminum foil layer is a reflective insulating material for building interior and exterior walls, characterized in that the polyolefin-based resin is coated on one side or both sides of the aluminum foil to increase the tensile strength. delete delete

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