KR20220155888A - Eco-friendly insulation panel for a construction and method of manufacturing the same - Google Patents

Abstract

The present invention relates to an eco-friendly insulation panel for construction, comprising: an outer panel and an inner panel spaced apart from each other to face each other; and an inner member for supporting a portion between the outer panel and the inner panel and maintaining the thickness of the panel, wherein the inner member has a plurality of filling space parts formed in the shape of a through-hole throughout an entire space by corresponding to the outer panel and the inner panel. At least one kind of eco-friendly filling material having at least a heat insulating function and a dehumidifying function is filled in the filling space parts. The filling space parts are formed by continuously stacking or arranging corrugated cores having wavy wrinkles or valleys in one direction. The eco-friendly insulation panel emits no harmful substances and generates no toxic gas in an event of a fire.

Description

Eco-friendly insulation panel for construction and its manufacturing method {ECO-FRIENDLY INSULATION PANEL FOR A CONSTRUCTION AND METHOD OF MANUFACTURING THE SAME}

The present invention relates to an insulating panel for construction, and more particularly, to an eco-friendly insulating panel for construction in which various functions are enhanced as well as insulation and dehumidification functions by using an eco-friendly material.

Insulation panels for construction are generally manufactured using filling materials such as urethane foam, styrofoam, glass fiber, rice straw, and charcoal. In addition, insulation panels made of urethane foam, styrofoam, and glass fibers provide improved effects in heat insulation and sound insulation.

However, the material of these insulation panels continuously leaks substances harmful to the human body after the building is completed, and there is a problem that the health of workers is harmed by dust generated during construction or removal of the insulation panels. Moreover, it is difficult to dispose of waste of insulation panels generated by demolition, etc., and environmental pollution problems due to waste are also increasing.

On the other hand, when a fire occurs in a building in which conventional insulation panels are constructed, urethane foam, Styrofoam, glass fiber, etc. provided as internal insulation materials are easily burned and emit a lot of toxic gases, and the toxic gases generated in this way are It is a major factor in deaths caused by suffocation.

In the case of other materials, for example, rice straw, charcoal, etc., certain effects can be expected in insulation as well as dehumidification and soundproofing functions. Since it is used by spraying antiseptic materials, it may have a harmful effect on the health of workers who install or demolish insulation panels and residents of houses. In addition, rice straw serves as a kindling that increases fire in the event of a fire, so it is also a factor that makes the fire more certain. In particular, the insulation method using rice straw has the hassle of having to do rough plastering and chaebol plastering after construction.

In the case of an insulation panel using charcoal, there is the hassle of having to do a rough plastering and ashes plastering, and in the event of a fire, it acts as a fire starter and becomes a factor in spreading the fire. In addition, the heat insulation panel using such charcoal has a problem in that the heat insulation performance gradually deteriorates because the charcoal sinks over time to create a space.

[Patent Literature]

Republic of Korea Patent No. 1537006 (Announcement date: July 15, 2015)

Therefore, the present invention was developed to solve the above problems, and as an eco-friendly filling material, no harmful substances are emitted, no toxic gases are generated in the event of a fire, and functions such as insulation, dehumidification and deodorization, anti-corruption, and sound insulation are provided. An object of the present invention is to provide an eco-friendly insulation panel for construction.

An object of the present invention is to provide a method for manufacturing an eco-friendly insulating panel for construction, which is more robust and can finish the work with one plastering, as well as improving productivity and workability through structural simplification and modularization.

According to one form of the present invention for achieving the above object, an outer panel and an inner panel facing each other and spaced apart, and a filling member for supporting between the outer panel and the inner panel and maintaining the thickness of the panel, Corresponding to the outer panel and the inner panel, the inner member is formed with a plurality of through-shaped filling spaces throughout, and the filling space is filled with at least one kind of eco-friendly filling material having at least a heat insulating function and a dehumidifying function. The filling space portion is provided with an eco-friendly insulation panel for construction formed by continuously stacking or arranging corrugated mediums having wavy wrinkles or valleys in one direction.

According to the present invention, the inner member may be made of a corrugated cardboard having a hole-shaped filling space portion, or a flame-retardant or non-flammable synthetic resin material having a hole-shaped filling space portion, which is an eco-friendly material. The eco-friendly filling material is preferably a zeolite, airgel, charcoal or lacquer material, or a mixture containing at least two or more of these components. The outer panel and the inner panel are made of wood plywood or an eco-friendly synthetic resin material, and cement boards may be attached to the surfaces of the outer panel and the inner panel or a mesh for plastering may be attached to facilitate plastering. And, the outer panel and the inner panel itself may be made of cement board. In addition, at least a heat reflecting paper or a heat reflecting film may be installed between the cement board, the inner panel and the outer panel, or between the inner panel and the outer panel and the inner member to block the inflow of radiant heat from the outside.

According to the present invention, one or a plurality of heat insulating sealing tubes are embedded in the filling space, and the inside of the heat insulating sealing tube is vacuum or at least one inert gas of argon gas, nitrogen gas, carbon dioxide gas, or group 18 element of the periodic table. It is filled with gas, and a filling material, which is a mixture of zeolite, airgel, charcoal or lacquer material, or at least two or more of these components, is filled in the space around the heat-insulating sealing tube.

According to the present invention, a plurality of hollow bead-shaped spheres having a certain diameter are accommodated in the filling space, and each sphere has a vacuum inside or argon gas, nitrogen gas, carbon dioxide gas, or a group 18 element of the periodic table. At least one of the inert gas is filled, and the space around the sphere is filled with zeolite, airgel, charcoal or lacquer material, or a filling material that is a mixture containing at least two or more of these components.

According to the present invention, at least one circular block or polyhedron block having a plurality of holes is embedded in the filling space portion, and a heat insulating sealing tube is inserted into each hole of the circular block or polyhedral block, and each heat insulating sealing tube The inside is vacuum or filled with argon gas, nitrogen gas, carbon dioxide gas, or at least one inert gas of group 18 elements of the periodic table, and zeolite, airgel, charcoal or lacquer material in the space around the circular block or polyhedral block , or a filling material that is a mixture containing at least two or more of these components is filled.

The above-described eco-friendly insulation panels for construction include the following processes, that is,

a) attaching one end of the inner member to one of the outer panel and the inner panel;

b) filling a mixture containing zeolite, airgel, charcoal, lacquer material, or at least two or more of these components into the filling space of the filling member; and

c) attaching the other end of the inner member to the other of the outer panel and the inner panel, and this method may be manufactured as needed.

d) forming an insulating panel having a predetermined thickness by laminating insulating panels by repeating steps a) to c) may be further included.

From the above-described features, the present invention enables the provision of a safe and eco-friendly insulating panel for construction because no harmful substances are discharged and no toxic gas is generated even in the event of a fire due to the use of an eco-friendly filling material, which is a heat insulating material.

In addition, according to the present invention, not only insulation and dehumidification functions, but also increased effects of deodorization, decay prevention, and sound insulation functions are guaranteed, and productivity and workability are improved through structural simplification and modularization of the insulation panel, as well as more robust and one-time plastering. It has the effect of easily completing the work.

1 is an assembled perspective view of an eco-friendly insulation panel for construction according to the present invention;
Figure 2 is a view showing a first embodiment of the internal configuration of the eco-friendly insulation panel according to Figure 1,
3 is a partially enlarged view showing a state in which the filling material is filled in FIG. 2;
Figure 4 is a process diagram showing a process for manufacturing an eco-friendly insulation panel according to Figure 1,
Figure 5 is a view showing a second embodiment of the internal configuration of the eco-friendly insulation panel according to Figure 1,
Figure 6 is a view showing a third embodiment of the internal configuration of the eco-friendly insulation panel according to Figure 1,
Figure 7 is a view showing a fourth embodiment of the internal configuration of the eco-friendly insulation panel according to Figure 1,
Figure 8 is a view showing a fifth embodiment of the internal configuration of the eco-friendly insulation panel according to Figure 1;

Hereinafter, the present invention will be described in more detail through the accompanying drawings and embodiments.

In the following embodiments, the drawings and descriptions are omitted except for essential parts in describing the invention, and the same reference numerals are assigned to the same and similar elements throughout the specification, and detailed descriptions thereof will be omitted without repetition. do.

1 shows a schematic form of an eco-friendly insulating panel for construction according to the present invention, and the insulating panel of the present invention can be used to construct a wall of a building.

In the present invention, the insulation panel 100 uses an eco-friendly material and basically has a heat insulation and dehumidification function, and supports the outer panel 10 and the inner panel 20 spaced apart from each other, and between these panels, and the panel It can be composed of the inner member 30 constituting the thickness of.

The outer panel 10 and the inner panel 20 are generally made of wood plywood or other eco-friendly synthetic resin materials, such as PLA (Poly Latic Acid), PBAT (Poly Buthylene co-Adipate co-Terephthalate), PHA ( It can be composed of biodegradable plastics such as Poly Hydroxy Alkanoate), PBS (Poly Butylene Succinate), PCL (Polycaprolactone), PVA (Polyvinyl Alcohol), PGA (Polyglycolic Acid), or biomass-based plastics. In this case, a cement board (not shown) is attached to the surface of each panel 10 or 20 or a mesh for plastering is attached to the surface of the outer panel 10 and the inner panel 20 to facilitate plastering on the surface. and can be used. Alternatively, the outer panel 10 and the inner panel 20 may themselves be constructed of cement board.

In addition, in the present invention, in order to block the inflow of radiant heat from the outside between the cement board and the inner and outer panels 10 and 20 or between the inner and outer panels 10 and 20 and the inner member 30 A heat reflective paper or a heat reflective film (not shown) may be installed, and the inner member 30 may be configured using corrugated cardboard or a flame retardant or non-flammable eco-friendly synthetic resin material having the same shape as the corrugated cardboard.

In addition, the inner member 30 has a structure in which a plurality of through-holes (corresponding to 'filling space' below) are formed throughout the outer panel 10 and the inner panel 20, and each through-hole is It can be formed by continuously stacking corrugated mediums (31; see FIG. 2) having wavy corrugations or valleys. Directions of these through-holes are preferably formed to face the outer panel 10 and the inner panel 20, and the inside of each through-hole may be filled with an environmentally friendly filling material having at least a heat insulating function and a dehumidifying function.

Next, more diverse and specific embodiments of the eco-friendly insulation panel for construction of the present invention will be described with reference to the drawings.

[Example 1]

2 is a view showing a first embodiment of the internal configuration of an eco-friendly insulation panel for construction according to the present invention, and FIG. 3 is a partially enlarged view of the insulation panel of FIG. 2 filled with a filling material.

The inner member 30 positioned between the outer panel 10 and the inner panel 20 may be configured using corrugated cardboard. In this case, the above-described through-type filling space portion 30h may be formed between the corrugated cardboard 30, that is, between the valleys of the vertical concavo-convex walls 31 continuously stacked or arranged in the horizontal direction in the drawing. The filling space portion 30h may have a honeycomb shape in cross section, and a non-combustible or flame retardant eco-friendly filling material having a heat insulation function, dehumidification, deodorization, and sound insulation function may be filled inside the filling space portion 30h. . These eco-friendly filling materials are particularly composed of, for example, zeolite 51, airgel 52, charcoal 53, or lacquer material 54 to remove moisture and prevent decay of the insulation panel. It can be composed of a mixture containing at least two or more of the components.

4 shows a manufacturing process of an eco-friendly insulating panel for construction according to the present invention. In the method for manufacturing an eco-friendly insulating panel for construction of the present invention, first, corrugated cardboard ( Step a) of attaching one end of 30) is performed. In this case, the through-holes of the corrugated cardboard 30, that is, one side of the filling space portion 30h are tightly attached to the panel surface so as to be sealed. Next, zeolite 51, airgel 52, charcoal 53 or lacquer material 54, or a mixture containing at least two or more of these components are filled in the filling space 30h of the corrugated cardboard 30 Step b) is performed. Subsequently, step c) of attaching the other end of the corrugated cardboard 30 to the other one of the outer panel 10 and the inner panel 20 is performed. Through this, the corrugated cardboard 30 is completely sealed by the outer panel 10 and the inner panel 20 openings on both sides of the filling space portion 30h. Next, the manufacturing process of the eco-friendly insulating panel for construction of the present invention is performed in step d) in which a heat insulating panel having a predetermined thickness is formed through the process of laminating by repeating steps a) to c).

By this method, the eco-friendly insulation panel for construction of the present invention includes corrugated cardboard 30 having a hole inside (filling space 30h), zeolite 51, airgel 52, charcoal 53 or lacquer material ( 54), or a filling material, which is a mixture containing at least two or more of these components, and the inner and outer panels (10, 20) (or cement board), which are eco-friendly materials, as main materials. There is an effect of improving functions such as sound insulation, and since all materials themselves are eco-friendly materials, they can always be maintained in their original state without decaying for a long time, which has the advantage of minimizing environmental pollution.

In addition, the eco-friendly insulation panel of the present invention can be manufactured in the form of an assembly module, through which an eco-friendly prefabricated insulation wall for construction can be configured. In this way, the eco-friendly prefabricated insulation wall for construction, which is assembled using the modular type of eco-friendly insulation panel, enables a more robust construction as well as improving productivity and workability.

[Example 2]

Figure 5 shows a second embodiment of the internal configuration of the eco-friendly insulation panel for construction according to the present invention, the core member 30, that is, the through-hole form between the valleys of the vertical concave-convex wall 31 arranged continuously in the horizontal direction. A filling space portion 30h is formed, and at least one or more heat insulating sealing tubes 60 (see FIG. 5B) having a predetermined diameter and length are embedded in each filling space portion 30h. The heat insulating sealing tube 60 may be filled with a vacuum in the interior 61 or with at least one inert gas, for example, argon gas, nitrogen gas, carbon dioxide gas, or other gas composed of elements of group 18 of the periodic table.

In the drawing, the heat insulating sealing tube (s) 60 is shown as being inserted in the thickness direction of the insulating panel of the present invention, that is, in the height direction of the filling space portion 30h, but is not limited thereto, and is inserted in the width direction of the insulating panel, that is, the filling space portion 30h. It can also be embedded by inserting it in the width direction of the space part 30h.

In addition, in the present embodiment, the heat insulating sealing tube(s) 60 is generally preferably formed of a material obtained from a natural product such as a plant, but in addition, an eco-friendly synthetic resin material such as PLA (Poly Latic Acid) , PBAT (Poly Buthylene co-Adipate co-Terephthalate), PHA (Poly Hydroxy Alkanoate), PBS (Poly Butylene Succinate), PCL (Polycaprolactone), PVA (Polyvinyl Alcohol), PGA (Polyglycolic Acid), etc. It can also be made of mass-based plastic or the like.

According to FIG. 5A, a heat insulating sealing tube having a size that completely fills the filling space portion 30h may be embedded between the valleys of the vertical concave-convex wall 31, and the inside of the heat insulating sealing tube forms a vacuum or contains the above-described inert gas. It is filled with one of the gases, and in the space around the heat insulating sealing tube 60 in the filling space 30h, an eco-friendly filling material having a dehumidifying, deodorizing, and soundproofing function as well as a heat insulating function, for example, zeolite 51, airgel ( 52), charcoal 53 or lacquer material 54, or a mixture containing at least two or more of these components may be filled.

According to FIG. 5C, a plurality of heat insulating sealing tubes 60 having smaller diameters than those of FIG. 5A may be embedded in the filling space 30h between the valleys of the vertical concave-convex wall 31, and each of the heat insulating sealing tubes 60 ) The inside of the vacuum is formed or filled with one of the above-mentioned inert gases, and the space around the heat insulating sealing tubes 60 in the filling space 30h has a dehumidifying, deodorizing, and soundproofing function as well as a heat insulating function. An eco-friendly filling material, for example, zeolite 51, airgel 52, charcoal 53 or lacquer material 54, or a mixture containing at least two or more of these components may be filled.

Although not shown in the drawings, a plurality of hollow ball-shaped balls may be accommodated inside each heat insulating sealing tube 60, and these spheres may have a vacuum inside or at least one inert gas, for example It can be filled with argon gas, nitrogen gas, carbon dioxide gas, and other gases composed of elements in group 18 of the periodic table.

[Example 3]

Figure 6 shows a third embodiment of the internal configuration of the eco-friendly insulation panel for construction according to the present invention, the core of the inner member 30, that is, the form of through-holes between the valleys of the vertical concave-convex walls 31 continuously arranged in the horizontal direction A filling space portion 30h is formed, and a plurality of hollow bead-shaped spheres 70 having a certain diameter may be accommodated in each filling space portion 30h.

In addition, each of the spheres 70 may have an interior 71 filled with a vacuum or at least one inert gas, such as argon gas, nitrogen gas, carbon dioxide gas, or other gas composed of elements of group 18 of the periodic table. In the space around the spheres 70 in the space portion 30h, an eco-friendly filling material having a dehumidifying, deodorizing, and soundproofing function as well as a heat insulation function, for example, zeolite 51, airgel 52, charcoal 53, or lacquer material ( 54), or a mixture containing at least two or more of these components.

On the other hand, the hollow bead-shaped sphere(s) 70 is generally preferably formed from a material obtained from a natural product such as a plant, but in addition to that, it is preferable to form an eco-friendly synthetic resin material such as PLA (Poly Latic Acid), Biodegradable plastics or biomass such as PBAT (Poly Buthylene co-Adipate co-Terephthalate), PHA (Poly Hydroxy Alkanoate), PBS (Poly Butylene Succinate), PCL (Polycaprolactone), PVA (Polyvinyl Alcohol), PGA (Polyglycolic Acid), etc. It can also be composed of a base plastic or the like.

[Example 4]

Figure 7 shows a fourth embodiment of the internal configuration of the eco-friendly insulation panel for construction according to the present invention, the core member 30, that is, the through-hole form between the valleys of the vertical concave-convex walls 31 continuously arranged in the horizontal direction. A filling space portion 30h is formed, and at least one circular block 80 having a plurality of holes is embedded in each filling space portion 30h. In addition, a heat insulating sealing tube 60 as shown in FIG. 5 may be inserted into each hole 81 of the circular block, and each heat insulating sealing tube 60 evacuates the inside or contains at least one inert gas. , For example, it may be filled with argon gas, nitrogen gas, carbon dioxide gas, and other gases composed of elements of group 18 of the periodic table.

In the drawing, the circular block(s) 80 are shown inserted so that the direction of each hole 81 is directed toward the thickness direction of the insulation panel of the present invention, that is, the height direction of the filling space portion 30h, but is not limited thereto. It may be embedded by inserting it in the direction of the width of the insulation panel, that is, in the direction of the width of the filling space portion 30h.

According to FIG. 7A, between the valleys of the vertical concave-convex wall 31, a circular block 80 having a size that fills the filling space 30h may be embedded, and each hole 81 of the circular block 80 has A heat insulating sealing tube 60 is inserted, and the inside of each heat insulating sealing tube 60 forms a vacuum or is filled with at least one of the aforementioned inert gases. In the space around the circular block 80 in the filling space 30h, an eco-friendly filling material having a dehumidifying, deodorizing, and soundproofing function as well as an insulation function, for example, zeolite 51, airgel 52, charcoal 53, or lacquer The material 54 or a mixture including at least two or more of these components may be filled.

According to FIG. 7B, a plurality of circular blocks 80 having a smaller diameter than those of FIG. 7A may be embedded in the filling space 30h between the valleys of the vertical concave-convex wall 31, and the holes of each circular block 80 may be embedded. A heat insulating sealing tube 60 is inserted into the field, and the inside of each heat insulating sealing tube 60 forms a vacuum or is filled with at least one of the aforementioned inert gases. In the space around each circular block 80 in the filling space 30h, an eco-friendly filling material having a dehumidifying, deodorizing, and soundproofing function as well as a heat insulation function, for example, zeolite 51, airgel 52, charcoal 53, or The lacquer material 54, or a mixture containing at least two or more of these components may be filled.

Although not shown in the drawing, a plurality of hollow spheres in the form of beads may be accommodated inside the heat insulating sealing tube 60 inserted into each hole 81 of the circular block (s) 80. The spheres may have a vacuum inside or be filled with at least one inert gas, such as argon gas, nitrogen gas, carbon dioxide gas, or other gas composed of elements of group 18 of the periodic table.

[Example 5]

Figure 8 shows a fifth embodiment of the internal configuration of the eco-friendly insulation panel for construction according to the present invention, the core of the inner member 30, that is, through-holes between the valleys of the longitudinally concave-convex walls 31 continuously arranged in the horizontal direction A filling space portion 30h is formed, and at least one polyhedron block 90 having a plurality of holes 91 is embedded in each filling space portion 30h. In addition, a heat insulating sealing tube 60 as shown in FIG. 5 may be inserted into each hole 91 of the polyhedron block 90, and each heat insulating sealing tube 60 evacuates the inside or at least one of inert gas, for example, argon gas, nitrogen gas, carbon dioxide gas, and other gases composed of elements of group 18 of the periodic table.

In the drawing, the polyhedral block(s) 90 are shown inserted so that the direction of each hole 91 is directed toward the thickness direction of the insulation panel of the present invention, that is, the height direction of the filling space portion 30h, but is not limited thereto It may be embedded by inserting it in the direction of the width of the insulation panel, that is, in the direction of the width of the filling space.

According to FIG. 8A, a polyhedral block 90 having a size that fills the filling space 30h may be embedded between the valleys of the vertical concave-convex wall 31, and each hole 91 of the polyhedral block 90 has A heat insulating sealing tube 60 is inserted, and the inside of each heat insulating sealing tube 60 may form a vacuum or be filled with at least one of the aforementioned inert gases. In the space around the polyhedral block 90 in the filling space 30h, an eco-friendly filling material having a dehumidifying, deodorizing, and soundproofing function as well as an insulation function, for example, zeolite 51, airgel 52, charcoal 53, or lacquer The material 54 or a mixture including at least two or more of these components may be filled. Although not shown, each hole 91 of the polyhedron block 90 contains zeolite 51, airgel 52, charcoal 53 or lacquer material 54 instead of a heat insulating tube, or at least two or more of these components A mixture containing may be filled.

According to FIG. 8B, a plurality of polyhedral blocks 90 having a smaller area than that of FIG. 8A may be embedded in the filling space 30h between the valleys of the vertical concave-convex wall 31, and the holes of each polyhedron block 90 A heat insulating sealing tube 60 is inserted into the 91, and the inside of each heat insulating sealing tube 60 may form a vacuum or be filled with at least one of the aforementioned inert gases. In the space around each polyhedron block 90 in the filling space 30h, an eco-friendly filling material having a dehumidifying, deodorizing, and soundproofing function as well as an insulation function, for example, zeolite 51, airgel 52, charcoal 53, or The lacquer material 54, or a mixture containing at least two or more of these components may be filled. Of course, although not shown, zeolite 51, airgel 52, charcoal 53 or lacquer material 54, or at least two or more of these A mixture containing the ingredients may be filled.

In addition, although not shown in the drawings, a plurality of hollow ball-shaped balls may be accommodated inside the heat insulating sealing tube 60 inserted into each hole 91 of the polyhedral block (s) 90, These spheres may have a vacuum inside or be filled with at least one inert gas, such as argon gas, nitrogen gas, carbon dioxide gas, or other gas composed of elements of group 18 of the periodic table.

On the other hand, the circular block(s) 80 in the above embodiment 4 and the polyhedron block(s) 90 in the above embodiment 5 are generally preferably formed from materials collected from natural objects such as plants. , In addition, eco-friendly synthetic resin materials such as PLA (Poly Latic Acid), PBAT (Poly Buthylene co-Adipate co-Terephthalate), PHA (Poly Hydroxy Alkanoate), PBS (Poly Butylene Succinate), PCL (Polycaprolactone), It can also be composed of biodegradable plastics such as PVA (Polyvinyl Alcohol) and PGA (Polyglycolic Acid) or biomass-based plastics.

Although various embodiments of the present invention have been described above, the contents described so far are merely examples of some of the preferred embodiments of the present invention, except for what may appear in the claims appended below. It is not limited by the above content. Therefore, the present invention understands that many changes, modifications and substitutions of equivalents can be made by those skilled in the art without departing from the technical spirit and gist of the invention within the scope described in the claims below. will have to

Claims (10)

An outer panel and an inner panel spaced apart from each other, and
Includes a filling member for supporting between the outer panel and the inner panel and maintaining the thickness of the panel,
The inner member corresponds to the outer panel and the inner panel, and a plurality of through-holes are formed throughout the space,
At least one kind of eco-friendly filling material having at least a heat insulating function and a dehumidifying function is filled in the filling space,
The filling space portion is an eco-friendly insulation panel for construction, characterized in that formed by continuously stacking or arranging corrugated medium having wavy wrinkles or valleys in one direction. According to claim 1,
The inner member is made of a synthetic resin material of a flame retardant or non-combustible eco-friendly material having a hole-shaped filling space, or a corrugated cardboard having a hole-shaped filling space. Insulation panel. According to claim 1,
The eco-friendly filling material is an eco-friendly insulation panel for construction, characterized in that zeolite, airgel (aerogel), charcoal or lacquer material, or a mixture containing at least two or more of these components. According to claim 1,
The outer panel and the inner panel are made of wood plywood or an eco-friendly synthetic resin material, and cement boards are attached to the surfaces of the outer panel and the inner panel to facilitate plastering or a mesh for plastering is used. , Or an eco-friendly insulation panel for construction, characterized in that the outer panel and the inner panel itself is composed of a cement board.
According to claim 1,
Eco-friendly insulation for construction, characterized in that at least a heat reflective paper or a heat reflective film is installed between the cement board and the inner panel and the outer panel, or between the inner panel and the outer panel and the inner member to block the inflow of radiant heat from the outside. panel. According to any one of claims 1 to 5,
One or a plurality of heat insulating tubes are embedded in the filling space, and the inside of the heat insulating sealing tube is vacuum or filled with at least one inert gas of argon gas, nitrogen gas, carbon dioxide gas, or an element in group 18 of the periodic table, An eco-friendly insulating panel for construction, characterized in that the space around the insulating sealing tube is filled with zeolite, airgel, charcoal or lacquer material, or a filling material that is a mixture containing at least two or more of these components. According to any one of claims 1 to 5,
A plurality of spheres in the form of hollow beads having a certain diameter are accommodated in the filling space, and each sphere has a vacuum inside or at least one inert gas of argon gas, nitrogen gas, carbon dioxide gas, or a group 18 element of the periodic table. It is filled with gas, and the space around the sphere is filled with zeolite, airgel, charcoal or lacquer material, or a filling material that is a mixture containing at least two or more of these components. According to any one of claims 1 to 5,
At least one circular block or polyhedron block having a plurality of holes is embedded in the filling space portion, and a heat insulating tube is inserted into each hole of the circular block or polyhedron block, and each heat insulating sealing tube has a vacuum inside or Filled with argon gas, nitrogen gas, carbon dioxide gas, or an inert gas of at least one of group 18 elements of the periodic table, and zeolite, airgel, charcoal or lacquer material, or any of these components in the space around the circular block or polyhedron block An eco-friendly insulation panel for construction, characterized in that the filling material is a mixture containing at least two or more components. A method for manufacturing the eco-friendly insulation panel for construction according to any one of claims 1 to 5,
a) attaching one end of the inner member to one of the outer panel and the inner panel;
b) filling a mixture containing zeolite, airgel, charcoal, lacquer material, or at least two or more of these components into the filling space of the filling member; and
c) a method of manufacturing an eco-friendly insulating panel for construction comprising the step of attaching the other end of the inner member to the other of the outer panel and the inner panel. According to claim 9,
d) forming a heat insulating panel having a certain thickness by repeating steps a) to c) to laminate the heat insulating panels.

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