KR101302501B1 - Anti-condensation and adiabatic tile for buiding - Google Patents

Abstract

PURPOSE: A low dew condensation insulating tile for construction is provided to improve thermal efficiency of a building by increasing internal temperature in short time in space where bulk dew condensation is generated. CONSTITUTION: A low dew condensation insulating tile (1) comprises a surface material (10) and an insulating material. The surface material protects the insulating material of the inside from an external damage force. The insulating material blocks heat exchange generated in between the inside of a building and a wall. The insulating material comprises a first hollow panel (101), a second hollow panel (102), and a spacer (200). The spacer is installed between the first hollow panel and the second hollow panel.

Description

ANTI-CONDENSATION AND ADIABATIC TILE FOR BUIDING

The present invention relates to a heat insulation tile installed inside the building to prevent the loss of energy to the wall of the building, and more particularly, is installed in the same space as the bathroom of the building is lost in the form of radiant heat, convection heat and conductive heat, etc. The present invention relates to building condensation insulation tiles for preventing condensation, which is configured to complexly block energy, and for preventing heat loss.

Various kinds of insulation materials are used in buildings, and energy-saving buildings with the concept of zero house have been in the spotlight in recent years, and much attention has been focused on insulation of buildings.

Insulation of buildings can be largely divided into external insulation and internal insulation. The outer insulation is to insulate the outside based on the walls of the building, and the inner insulation is to insulate the living space inside the walls of the building.

The double insulation is to insulate the exterior of the building's exterior walls, and to insulate almost all spaces except windows regardless of the structure of the building, and it is also effective in terms of insulation performance. have.

On the other hand, the insulation is made in the interior living space of the building, divided into a living room, a room, a kitchen, a bathroom, and the like. The insulation is divided into materials used and easy to insulate.

The living room and the room are easy to insulate, and the bathroom is in a very difficult space because of the characteristics that require a much higher room temperature in normal use. That is, in the case of a bathroom, when the insulation such as a living room or a room is insulated, the effect becomes meaningless because the required insulation effect cannot be obtained.

Dividing the phenomena into stages in more detail, first, the existing room temperature is around 20 ℃ at the beginning of the bath, but the comfortable temperature for bathing is required to be above 35 ℃, so that the indoor temperature is increased by spraying hot water with a shower. At this time, a large amount of water vapor is generated to heat indoor air. This water vapor disappears by contacting a bathroom wall with a relatively low temperature, causing vigorous condensation. This condensation continues until the wall temperature rises to some extent and the condensation slows down, so the indoor air loses its order of warming.

Therefore, the condensation generated in the bathroom wall is stopped and the room temperature of the bathroom becomes comfortable to bathe after a long time, and in some cases, at the end of the bath or shower. In this case, you have to feel cold while taking a bath, and there is a problem that the temperature of the bathroom reaches an appropriate level only when the bath is finished.

In order to solve this problem, a heat insulation tile has been developed. However, the heat capacity of the skin material is large, and the effect thereof is extremely small, and thus the effectiveness is hardly achieved.

Therefore, interior materials that can be used in a large amount of condensation, such as bathrooms, must be developed.

Domestic Patent Publication No. 10-0704012 Utility Model Registration Registration No. 20-0273595

The present invention has been invented to improve the problems of the prior art, it is an object to increase the thermal efficiency of the building by developing an interior material that can increase the indoor temperature within a short time even in a space where a large amount of condensation occurs, such as the bathroom inside the building. .

In addition, it is intended to provide interior materials that are easy to install and maintain by making it compatible with the interior materials used in the existing building so that users do not feel rejection, and construction can be the same as the existing interior materials.

The present invention devised to improve the conventional problem is provided in the heat insulation tile used to reduce the energy transferred through the wall is installed on the wall of the building, the outer surface is a flat plate; Insulation material is attached to the back surface of the skin material; consisting of a first hollow panel is attached to the back surface of the skin material, the spacer is attached to the back of the first hollow panel and the second hollow panel is attached to the back of the spacer material It is possible to realize a low-temperature insulation tiles for building, characterized in that.

In addition, the first hollow panel and the second hollow panel is provided with thin plates on both sides, integrally formed with both thin plates, and composed of spacer plates provided at equal intervals between both thin plates, between both thin plates and the spacer plate. It can be realized as a low-heat insulation tiles for buildings, characterized in that the air house is configured to be formed.

In addition, the first hollow panel and the second hollow panel can be realized as a low-temperature insulating tiles for building, characterized in that the metal coating layer for blocking the radiant heat is provided on the surface of the surface facing each other.

In addition, the coupling member is provided on the side of the first hollow panel, the second hollow panel and the spacer, the coupling member is installed so as to cover the surface exposed to the outside cross section of the air collection of the first hollow panel and the second hollow panel. It is a plate, and the coupling member is inserted between the spacer plate forming the air collection of the first hollow panel and the second hollow panel to clip the thin plate between the spacer plate to the surface of the spacer member, coupled to the inner side of the spacer member coupling member It is possible to realize a low-temperature insulation tiles for building, characterized in that the ring is formed to block the separation to the outside.

In addition, the skin material is any one of a metal plate, a resin plate, an overflow plate is used, it can be realized as a low-temperature insulating tiles for building, characterized in that bonded to the surface of the first hollow panel of the heat insulating material by an adhesive.

The present invention configured as described above has an effect of increasing the thermal efficiency of the building when installed in a space where a large amount of condensation occurs, such as a bathroom in the interior of the building, thereby suppressing the occurrence of condensation, thereby saving energy In addition, there is an effect that can improve the bathroom utilization rate at home by creating a comfortable bathroom environment.

In addition, it is compatible with the interior materials used in the existing building to give the user a friendly effect, and the construction is made the same as the existing interior materials, there is an effect that is easy to install and maintain.

1 is a perspective view of a low condensation insulating tile for building according to an embodiment of the present invention.
2 is an exploded perspective view illustrating an exploded tile of FIG. 1;
3 is a cross-sectional view showing in detail the end of the hollow panel of the tile of FIG.
Figure 4 is an exploded perspective view of a building low condensation insulation tile according to another embodiment of the present invention.
Figure 5 is a perspective view showing in detail the spacer used in the tile of Figure 4;
6 is a cross-sectional view showing that the clip of the coupling member which is a component of the tile of FIG. 4 is coupled to the hollow panel.
Figure 7 is a cross-sectional view showing that the ring of the coupling member which is a component of the tile of Figure 4 is coupled to the ring groove of the spacer.

Hereinafter, with reference to the drawings described in the description of the drawings will be described in detail for the low-condensation insulation tile for building (hereinafter, referred to as tile 1) according to the present invention.

1 to 3, the tile 1 according to the present invention is composed of a skin material 10 and the heat insulating material 20, the skin material 10 is internal from damage external forces such as moisture and moisture outside It is a plate-shaped plate to protect the heat insulating material 20, the heat insulating material 20 is configured to block heat exchange generated between the interior of the building and the wall.

It is preferable that the skin material 10 is any one of a metal plate, a resin plate, and an overflow plate, which is a problem in that the time required to increase the room temperature due to the delay of the initial preheating time, which is a problem of the existing technology, is increased. This is to solve the problem of a large loss of energy.

That is, minimizing the mass and thickness that influence the heat capacity of the material is one of the core technologies of the present invention. In addition, the skin material 10 is preferably formed in color or pattern on the surface in consideration of the interior, the heat insulating material 20 is bonded to the adhesive.

As such, the skin material made of a metal plate, a resin plate, or a bumper plate may be wiped off even if the surface gets wet in a humid area such as a bathroom, and are highly adaptable and resistant to water.

The heat insulating material 20 will be described in more detail. The heat insulating material 20 is manufactured using the first hollow panel 101, the second hollow panel 102, and the spacer 200 as main components.

The first hollow panel 101 and the second hollow panel 102 mean that a plurality of hollow parts are formed therein, as the name indicates. The hollow panel has a hollow portion in the form of air collections therein, and heat insulation by these air collections is achieved.

The hollow panel 100 is preferably made of synthetic resin, the thin plate 110 is provided on the surface of both sides, the spacer plate 120 is composed of the thin plate 110 between the two side plate 110. . At this time, the spacer plate 120 is orthogonal to the thin plate 110, and a plurality of spacer plates are provided at even intervals between the thin plate 110. Therefore, a rectangular air collector 130 is formed between both side plates 110 and the spacer plate 120.

The metal coating layer 140 may be further provided on the surface of the hollow panel 100. The reason for forming the metal coating layer 140 is to block heat transferred in the form of radiant heat. Therefore, the first hollow panel 101 and the second hollow panel 102 provided on both sides of the metal coating layer 140 is preferably formed on the surface of the surface facing each other. That is, radiant heat transferred from the inside of the building to the outside is blocked by the metal coating layer 140 of the first hollow panel 101, and radiant heat transferred from the outer wall to the inside of the building is the metal coating layer 140 of the second hollow panel 102. Is blocked).

The spacer 200 is installed between the first hollow panel 101 and the second hollow panel 102, and may be manufactured in a frame shape as shown in the drawing. The spacer 200 has a function of forming a space between the first hollow panel 101 and the second hollow panel 102 to block heat from being moved by conduction, and the first hollow panel 101. The metal coating layer 140 of the second hollow panel 102 is separated from each other to serve to block the radiant heat of both sides.

As described above, each of the components of the heat insulating material 20 including the first hollow panel 101, the second hollow panel 102, and the spacer 200 may be adhesively attached to each other. In addition, end portions of the air collector 130 of the first hollow panel 101 and the second hollow panel 102 may be finished with resin.

The method of finishing the air collector 130 of the hollow panel 100 with resin is a method of forming the resin film 400 while putting the end of the hollow panel 100 into a synthetic resin solution in a liquid form, and with an adhesive tape. It is also possible to seal with the same material.

4 to 7, as another method for implementing the present invention, the coupling member 300 is installed on the side surfaces of the first hollow panel 101, the second hollow panel 102, and the spacer 200. It is also possible to do. Coupling member 300 used in the present invention is to mechanically couple the first hollow panel 101, the second hollow panel 102 and the spacer 200, the first hollow panel 101 and the second hollow Covers both end portions of the air collector 130 of the panel 102 to seal the air collector 130.

The coupling member 300 is made of a plate that can cover the air collector 130 of the first hollow panel 101 and the second hollow panel 102 at the same time, where the air contact with both sides of the air collector 130 A clip 310 inserted between the spacer plates 120 of the house 130 to closely contact the thin plate 110 between the spacer plates 120 to the surface of the spacer 200 may be installed. These clips 310 are provided at uniform intervals along the longitudinal direction of the hollow panel 100.

Therefore, the first hollow panel 101 and the second hollow panel 102 on both sides are mechanically in close contact with the surface of the spacer 200 by the clip 310 so that the coupling member 300 is not artificially separated. It becomes impossible to separate out of the absolute spacer 200.

In addition, the coupling member 300 may be formed with a ring 320. The ring 320 is coupled to the inner side of the spacer 200, so that the coupling member 300 is mechanically coupled to the spacer 200. The ring 320 is protruded in the direction of the spacer 200 from the surface of the coupling member 300 is to be produced so that the end is caught on the side of the spacer 200, the ring 320 is the spacer 200 When pushed toward the side of the spacer is opened to the outside and is fixed while being restored by elastic at the side end of the spacer 200.

When the coupling member 300 is used, the spacer 200 is preferably provided with a ring groove 210 into which the ring 320 is inserted, and since the side surface of the ring 320 is inserted into the ring groove 210, the gap is spaced. The ash 200 and the hollow panel 100 are in close contact with each other without being spaced apart.

The tile 1 according to the present invention configured as described above is constructed on the wall surface of a place such as a bathroom like a conventional tile. The constructed tile 1 has the same appearance as the existing tiles so that users do not feel aesthetic differences and do not give a sense of rejection.

However, the tile (1) according to the present invention blocks the energy loss such as cold heat and heat transmitted from the outside through the wall, and also reduces the amount of condensation generated inside the wall, thereby reducing the energy and time required to preheat the bathroom. You save.

Looking at the heat insulation function of the tile (1) according to the present invention with reference to Figures 1 to 7, the first hollow panel 101 and the second hollow panel 102 of the air collector 130, respectively, in the form of conductive heat It blocks the heat sequentially. In addition, the spacer 200 also functions to block conduction heat because it forms a space such as the air collector 130 between the hollow panels 100.

In addition, since the spaces by the air collector 130 and the spacer 200 which are thermal insulation spaces are also blocked from each other, convection is suppressed as much as possible. Therefore, there is an effect of minimizing heat transfer by convection that can occur in these spaces.

In addition, since the metal coating layer 140 is provided on the surfaces of the first hollow panel 101 and the second hollow panel 102 that face each other, the radiant heat transmitted from the outside to the outside and the radiant heat transmitted from the inside to the outside are blocked. It works.

As such, the tile 1 according to the present invention blocks all the heat moving in a complex form, thereby minimizing heat loss. In addition, the tile (1) according to the present invention to minimize the heat capacity of the epidermal portion to minimize the generation of condensation caused by the temperature difference between the inside and outside, thereby reducing the load of energy required to preheat the bathroom. will be.

As described above, the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings. However, the present invention is not limited to the above embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the appended claims and the appended claims. All equivalents to modifications and variations should be regarded as falling within the scope of the present invention.

10: skin 20: insulation
100: hollow panel 101: first hollow panel
102: second hollow panel 110: thin plate
120: spacer 130: air collection
140: metal coating layer 200: spacer
210: ring groove 300: coupling member
310: clip 320: loop
400: resin film

Claims (5)

In the thermal insulation tile (1), which is installed on the wall of a building and used to reduce the energy moving through the wall,
Skin material 10 which is a flat plate exposed to the outside; Insulation material 20 is attached to the back surface of the skin material 10;
Insulation material 20
The first hollow panel 101 attached to the back surface of the skin 10, the spacer 200 attached to the back of the first hollow panel 101 and the second hollow attached to the back of the spacer 200. Low condensation insulation tiles for construction, characterized in that the panel 102 is configured.
The method of claim 1,
The first hollow panel 101 and the second hollow panel 102
The thin plate 110 is provided on both sides, and is composed of a spacer plate 120 that is integrally formed with both side plate 110 and provided at uniform intervals between the both side plate 110, the gap between the both side plate 110. Low condensation insulation tile for building, characterized in that the air collector 130 is formed between the plate 120.
The method of claim 1,
The first hollow panel 101 and the second hollow panel 102 is a low-temperature insulation tile for building, characterized in that the metal coating layer 140 for blocking the radiant heat is provided on the surface of the surface facing each other.
The method of claim 2,
Coupling members 300 are installed on the side surfaces of the first hollow panel 101, the second hollow panel 102, and the spacer 200.
Coupling member 300 is a plate that is installed so as to cover the surface of the cross section of the air collector 130 of the first hollow panel 101 and the second hollow panel 102 is exposed to the outside,
In the coupling member 300
The spacer 200 is inserted between the spacer plate 120 forming the air collector 130 of the first hollow panel 101 and the second hollow panel 102, thereby interposing the thin plate 110 between the spacer plate 120. The clip 310 is in close contact with the surface of the,
The low frost insulation tiles for building, characterized in that the ring 320 is coupled to the inner side of the spacer 200 to block the separation of the coupling member 300 to the outside.
The method according to claim 1 or 4,
The skin material 10 is any one of a metal plate, a resin plate, an overflow plate is used, low-heat insulation tile for building, characterized in that bonded to the surface of the first hollow panel 101 of the heat insulating material 20 by an adhesive.

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