KR20140132257A - Hypocaust structure Hypocaust pannel with dry type in using floor - Google Patents

Abstract

The present invention relates to a dry type ondol construction structure and a panel for constructing a dry type ondol. Panel blocks are lightweight and are formed of at least one among pulverized perlite, vermiculite, oxide of magnesium, and silica stone as a main material by a forming method including at least one of a foaming method or a bubble method. The panel blocks are arranged on an upper surface of a base floor layer forming a framework of a building, and then a heating material for ondol is inserted into an insertion groove formed on the panel block. Therefore, the ondol floor can be simply constructed by a dry construction method without casting concrete, and can be lightweight. Also, heating efficiency can be increased despite of a dry construction method.

Description

[0001] Description [0002] Hypocaust structure [0003] Hypocaust pannel with dry type in using floor [0004]

The present invention relates to a dry type ondol construction and a panel for the dry type ondol construction. The present invention relates to a construction method of a dry type ondol construction method, in which a lightweight foam material is produced using natural minerals as raw materials, So that the building can be lightweight and has a fireproof function.

In general, apartment houses intended for residential purposes such as apartments or multi-purpose houses are constructed by laying foam concrete on the foundation floor which is constructed by interlayer frame construction for floor heating, while heating material supplied with hot water is buried, As for the construction, most of the apartment houses in Korea are constructed by the ondol method.

That is, most of the ondol structures are constructed by laying lightweight foamed concrete on a concrete slab with a wet method, applying wire mesh on the concrete slab, fixing the heating material for the ondol to a wire mesh, and then placing the concrete mortar on the concrete slab. There is a problem that the problem of the material is very vulnerable to the shock to the interlayer noise and vibration, and since the weight of the concrete is heavy and the concrete is to be installed at a certain thickness or more in order to fill the heating material, its own load is very high. There is a problem in that it is necessary to wait until the curing is performed after the pouring, and it is impossible to construct in winter.

In addition, it is very difficult to find leakage points and it is difficult to maintain because it is necessary to remove the concrete that has been poured in order to check when defects such as leakage of heating material occur.

In recent years, a method has been proposed in which a panel is made of plastic, and a lightweight and dry method is applied. However, since the plastic itself has a low thermal conductivity and a low heat retention rate, And the temperature of the heating water continuously flows at a very high temperature. In the case of plastic, since the thermal deformation is large, it is unsuitable for such floor use.

In addition, when heat is applied to such a plastic, there is a problem that a harmful component is generated, and since it is very vulnerable to fire, it is difficult to commercialize it for practical use at the bottom.

The present invention can be applied simply by using a lightweight panel made of natural minerals, light weight of the building is light due to its light load, and it is constructed by a dry method so that it can be applied without being influenced by temperature. .

In addition, although the construction is simple and lightweight, it is possible to increase the heat storage efficiency during the floor heating, to improve the heating efficiency, to reduce the interlayer noise, and to prevent the fire from being burned.

To this end, the present invention relates to a method for producing a panel block by using as a main material, at least one of crushed stone, vermiculite, magnesium oxide and silica, which is a natural mineral material having a high heat retention ratio, as a main material, And a bubble forming process in which a foaming process is performed by adding a foaming agent, and the inner surface of the panel block is formed with a straight or curved inner groove It is possible to install the ondol by simply dry method by buying the heating material for the ondol furnace into the inner groove without pouring the concrete, and the final floor finishing such as the tile, carpet, So that the floor construction is simple.

In addition, since the protrusions are formed on the lower surface of the panel block, the protrusions are formed to be spaced apart from the foundation floor so that the impact generated from the upper portion is transmitted by the protrusion mount, So that the noise caused by the resonance can be reduced, thereby reducing the interlayer noise.

In addition, a socket portion is formed on a side surface of the panel block, and a horizontal adjusting element is inserted into the socket portion, so that a plurality of panel blocks are arranged to be connected to each other while the floor surface is horizontally installed.

Therefore, the present invention is not only easy to manufacture panels but also can be manufactured at low cost and can be applied by a dry method, so that the construction is simple and is not affected by the temperature, It is possible to shorten the construction cost, thereby reducing the construction cost.

In addition, although it is a dry method, the heat storage efficiency of the floor can be raised to improve the heating efficiency and the energy can be saved. In addition, while the impact transmitted to the lower layer is minimized by the structure of the panel, The noise is reduced by the space and the noise between the layers can be reduced.

Since the thickness of the panel is slimmer than the thickness of the concrete, it is possible to secure the space and the construction is very light, but the thickness of the construction is very thin, so that it can be installed when necessary for remodeling or renovation.

In addition, since the panel's own load is very light, the load on the building is prevented, and in particular, in the case of a high-rise building, the load to be saved in the ondol construction is very large. Therefore, the durability of the building can be increased, There is a very economical effect.

In addition, since it is a dry method, it is possible to apply ondol to wooden houses, and it will be possible to spread the ondol culture worldwide by constructing it in a foreign country with a high proportion of wooden houses. Because it is environmentally friendly and incombustible, It is possible to be free from the harmfulness of the fire, and the flame and toxic gas are not generated when a fire occurs, thereby contributing to protection of human life in case of emergency.

1 is an external perspective view of a panel block according to the present invention;
2 is a cross-sectional view showing a dry type ondol construction using the panel block of the present invention
Fig. 3 is an external view showing a state in which the heating material for ondol is installed in the panel block of the present invention
4 is a bottom perspective view of the panel block of the present invention.
5 is a bottom perspective view showing another embodiment of the concave-
Figure 6 is a side cross-sectional view of the panel block of Figure 5;
Fig. 7 is a perspective view showing the construction of the heating module for the ondol in the present invention
8 is a cross-sectional structural view showing a structure in which a slide-in element is formed in a panel block of the present invention
9 and 10 are cross-sectional views showing another construction of the present invention

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

1 to 3, the present invention is characterized in that, as a raw material, a mineral base containing at least one of perlite, vermiculite, magnesium oxide, and silica is used as a base bottom layer 100 to be formed by frame construction, The panel block 10 made of a lightweight material including at least one of the molding methods is arranged to form the ondol layer 200 and the inner block 210 formed on the upper surface of the panel block 10 of the ondol layer 200 A floor finish material 400 such as a tile, a carpet, and an ondol floor is installed on the upper surface of the ondol heating material 300 installed on the ondol layer 200 after the heating material 300 for ondol is installed on the floor heating furnace 11 And it is possible to easily construct the Ondol structure by dry finishing.

At this time, the panel block 10 may be made of any one of a natural material, such as perlite, vermiculite, magnesium oxide, and silica, which is a natural mineral material and has a constant hardness and can retain heat for a long time, or at least one raw material , Or a bubble-forming process in which the particles are foam-molded at a high temperature while being mixed with a binder or a bubble-forming process is carried out by adding a foaming agent to the panel block (10) by a lightweight material Such natural mineral materials can be variously used as natural mineral materials which can be produced in a light weight by foam molding or bubble forming.

At this time, the inner block 11 having a straight line or a curved line is integrally formed on the upper surface of the panel block 10 so that the ondol heating material can be directly inserted into the panel block 10 so that the floor heating floor can be constructed by a dry process will be.

Therefore, the present invention can easily manufacture the panel block 10, and at the same time, it can be manufactured at a low cost. In the floor construction, it is possible to fill the heating material 300 for floor heating for floor heating without installing concrete Therefore, it is possible to construct the floor under the subzero temperature in the winter, and it is possible to shorten the construction period because the curing period is not required separately from the wet concrete method.

At this time, the panel block 10 preferably has a thickness of at least 20 mm in order to have a certain hardness, and it can be relatively slimly installed compared to a general thickness of 70 to 100 mm of a concrete mortar, which is a wet method, Since the panel block 10 itself is formed of a lightweight material by foam molding or bubble forming even when the thickness of the concrete block is made similar to the thickness of the concrete mortar in order to increase the load that can bear the panel block 10, Can be significantly reduced.

When the concave and convex portions 12 having the plurality of protruding mounts 12a are formed in the lower part of the panel block 10, the Ondol layer 20 is installed in a floating state so as to have a spacing space from the bottom floor layer 10 It is possible to reduce the noise caused by the resonance in the spacing space 12b while minimizing the impact transmitted by the protrusion mount 12a from the upper part, thereby reducing the interlayer noise. In spite of the dry method, The noise transmitted to the lower layer can be minimized while the noise is reduced in the process of transmitting the noise, and the noise between the layers can be reduced.

At this time, the concave-convex part 12 may be formed to protrude in the form of a bar as shown in FIG. 4, or to protrude in a hemispherical shape as shown in FIG. The concavo-convex part 12 may be formed on the bottom surface 100 of the panel block 10 along the rim of the lower surface of the panel block 10 in order to maintain the horizontal state when the panel block 10 is arranged on the bottom floor layer 100. [ 12c are formed.

7, when the socket block 13 is formed on the side surface of the panel block 10, the horizontal adjustment element 20 is inserted into the socket block 13 to insert the panel block 10 into a plurality of the panel blocks 10 So that it is possible to adjust the horizontal level of each of the panel blocks 10 while being connected to each other so that the ondol layer 200 can be arranged in such a manner that the plurality of panel blocks 10 are connected to each other by the horizontal adjusting element 20. [ So that the floor can be horizontally installed.

The horizontal adjustment structure of the panel block 10 is such that the slide elements 30 are formed on the side of the panel block 10 so as to correspond to each other as shown in FIG. 8 so that the plurality of panel blocks 10 are engaged It is possible to adjust the horizontal level of the panel block.

As shown in FIG. 9, an auxiliary plate 500 may be attached to the upper surface of the ondol layer 200 to increase the smoothness of a surface for constructing the floor finish 400. In this case, It is preferable to use a material having a high thermal conductivity while maintaining flatness.

10, the panel block 10 may further include a finishing material 10a to be inserted into the inner groove 11 of the panel block 10 to prevent the heating material for ondol heating from being directly exposed, And the thermal conductivity efficiency can be further increased. In this case, the finishing material 10a can be manufactured so as to be integrated with the supporting plate 500. [

It is preferable that the depth at which the inner groove 11 is formed in the panel block 10 is formed to be different according to the thickness of the panel block 10, that is, the heat is transmitted from the lower side to the upper side The heating material 300 for the ondol heating is positioned at the center of the panel block 10 so that the heat generated from the heating material 300 for ondol heating spreads widely to the upper side while a certain heat is conducted to the lower side, And it is possible to design and install the floor so as to increase or decrease the time for which the floor is faded depending on the thickness of the panel block 10.

In addition, the heating material 300 for ondol heating can selectively use a heating pipe or an electric heating cable. The structure of the heating material 300 for ondol heating does not limit the object of the present invention, The present invention can be carried out in various ways.

10: Panel block 10a: Finishing material
11: inner groove 12: concave / convex portion
12a: projecting mount 12b: spacing space
12c:
13:
20: Leveling element
30: Slide-in element
100: Foundation floor
200: Ondol layer
300: Ondol heating material
400: Floor Finish
500: Support plate

Claims (8)

A panel block 10 made of a lightweight material, which is formed by applying at least one of foam molding and bubble forming using natural minerals as a raw material to a base floor layer 100 formed by frame construction, is arranged to form a Ondol layer 200 And the heating material 300 for the ondol is installed in the inner groove 11 formed on the upper surface of the panel block 10 of the heating module 200. The heating material 300 for ondol heating, Is finished with the final floor finishing material (400). 2. The dry type ondol construction structure according to claim 1, wherein the ondol layer (200) comprises at least one of natural minerals as a raw material of the panel block (10), perlite, vermiculite, magnesium oxide and silica. The ondol layer (200) according to any one of claims 1 to 3, wherein the plurality of panel blocks (10) are arranged to be connected to each other by the horizontal adjustment element (20) Construction of dry type Ondol construction. 4. The dry ondol construction structure according to claim 3, wherein an auxiliary plate (500) is placed on the upper surface of the ondol layer (200) to increase the smoothness of a surface to be installed for the floor finish material (400). A panel block (10) is made of a lightweight material molded by applying at least one of a foaming process and a bubble forming process using as a main material at least any one of crushed stone, perlite, vermiculite, magnesium oxide and silica, (10) has an inner groove (11) formed of a straight line or a curved line on the upper surface of the panel block (10) so that the heating floor for ondol heating can be directly inserted into the panel block (10). 6. The panel for dry-on-heating construction according to claim 5, wherein the panel block (10) is provided with a recessed portion (12) having a plurality of protruding mounts (12a) at a lower portion thereof. The panel block according to claim 5 or 6, wherein the panel block (10) is formed with a socket portion (13) on a side surface thereof to insert the horizontal adjusting element (20) So that it is possible to adjust the horizontal position of the oven door. The panel block according to claim 5 or 6, wherein the slide blocks (30) are formed to correspond to each other on the side of the panel block (10) so that the plurality of panel blocks (10) It is characterized by the panel for dry type ondol construction.

Images