KR100367779B1 - Panel structure for compressed hypocaust with yellow soil and ceramic - Google Patents

Abstract

The present invention can prevent heat loss with overlapping joint reinforcement panels to cover the partition line of the insertion panel for installing the hot water pipe, can reproduce the traditional saddle field with maximized thermal conductivity efficiency, and is structurally stable and prefabricated construction The aim is to provide an easy ocher ceramic compressed ondol panel structure.

In the ocher ceramic compressed ondol panel structure of the present invention, the insertion panel 40 and the joint reinforcement panel 50 and 50a, which are fixed to the upper portion of the foundation bottom surface 1, and the hot water pipe 3, are laminated in this order, the insertion panel 40. Inorganic vegetable adhesive layers 20 and 21 are formed on the upper and lower surfaces of the joint reinforcement panels 50 and 50a to cover the partition lines 49 of the insertion panel 40. By arranging (50, 50a) staggered, reproducing traditional traditional goose field, generating far-infrared rays in ocher with heat, and generating negative ions in alumite mixed with ocher, removing foreign substances in the human body, removing odor Cleanse.

Description

Clay structure for compressed hypocaust with yellow soil and ceramic}

The present invention relates to an ocher ceramic compressed ondol panel structure. More particularly, the present invention relates to an ocher ceramic compressed ondol panel structure in which an ondol panel is laminated in multiple alternating stacks, thereby maximizing heat conduction efficiency and reproducing a traditional sweet field.

Residential living spaces in Korea were traditionally houses with ondol floors using direct heat transfer. In traditional houses, the soil that ancestors regarded as a place of life in nature-friendly life was used as a basic building material in Korea, and in particular, ocher was very useful as a finishing material for walls and ceilings as well as the floor of houses. .

Ocher is a fine grain of granules, very fine powder of coarse and neutral particles of 0.02mm to 0.05mm, its chemical composition is similar to alluvial soil, silica (SiC ₂ ), iron, alumina (Al ₂ O ₃ ), magnesium (Mg), sodium (Na), kali, lime. It is known that such loess is excellent in degrading, self-cleaning, absorbing power, etc., and also has a beneficial weakness to humans.

In general, the method of constructing the ondol ocher ceramic compressed ondol panel structure using the loess is described. Pipe the hot water pipe on the insulated floor, fill the gap between the hot water pipe and the hot water pipe with gravel (in some cases, Ocher dough was covered with a thickness of 1 cm to 3 cm, and horizontally finished by a skilled plasterer.

However, such a conventional method is very difficult to construct a building, and after a certain time after construction, the ocher is hardened, there is a problem of cracking in the process of drying the ocher, there was a disadvantage that the wall under the load is broken.

The loess finishing ondol device using the loess finishing material according to the prior art has a thermal barrier on the concrete foundation ocher ceramic compressed ondol panel structure (1), as shown in Figure 1, and the ordinary insulation layer (2) is installed thereon The hot water pipe 3 is wired in an appropriate interval and shape on the heat insulating material layer, and filled with the heat storage material therebetween, and the ocher finish 4 may be laminated and finished thereon.

This ocher finish 4 is kneaded with water, flour, starch, pulverized bark, it is molded and dried by blending ocher. Such ocher finish 4 is pre-fabricated in a block form in the factory before the floor construction, it is prefabricated to facilitate the floor construction, shorten the installation time.

However, the ocher finish according to the prior art is a rectangular block formed by molding the ocher, and is placed on top of the hot water pipe, so that heat is emitted between the partition lines between the finishes and heat loss occurs.

In addition, the loess finishing ondol device using a conventional ocher finish has a construction trouble to fill the gravel, heat storage material between the hot water pipes as in the general floor construction method when installing the hot water pipes.

In addition, the conventional ocher finish is a simple molded, due to the relatively weak compressive strength, there is a disadvantage that can be broken and cracking is difficult to use for floor construction.

Therefore, an object of the present invention is to cover the partition line of the insertion panel for installing the hot water pipe, to prevent heat loss with overlapping joint reinforcement panels, to reproduce the traditional ball field with maximal heat conduction efficiency, structurally stable and The present invention is to provide an ocher ceramic compressed ondol panel structure which is easy to be assembled and constructed.

1 is a construction state diagram for explaining the loess finishing ondol device according to the prior art,

2 is a cross-sectional view illustrating the structure of an ocher ceramic compressed ondol panel structure according to a first embodiment of the present invention;

3 and 4a to 4c is a perspective view for explaining an important part of the ocher ceramic compressed ondol panel structure shown in FIG.

5 is a plan view for explaining the coupling relationship of the ocher ceramic compressed ondol panel structure shown in FIG.

6 is an exploded perspective view for explaining the coupling relationship of the bent panel of the ocher ceramic compressed ondol panel structure shown in FIG.

7 is a cross-sectional view for explaining the lamination relationship of the ocher ceramic compressed ondol panel structure according to the second embodiment of the present invention.

♣ Explanation of symbols for main part of drawing ♣

1: bottom surface 3: hot water pipe

20, 21: adhesive layer 40: insertion panel

41: mounting groove 50, 50a: joint reinforcement panel

60: aluminum plate 61: copper plate

In the above-described object of the present invention, in the ocher ceramic compression ondol panel structure in which an insertion panel and a joint reinforcement panel are laminated in order to secure the hot water pipe to the upper part of the foundation bottom surface, the joint reinforcement panel is fixed to the upper and lower surfaces of the insertion panel. An adhesive layer made of an inorganic vegetable material is formed, and is achieved by an ocher ceramic compressed ondol panel structure characterized by staggering joint reinforcement panels so as to cover the partition line of the insertion panel.

Hereinafter, the ocher ceramic compressed ondol panel structure according to the preferred embodiments of the present invention will be described in detail with reference to FIGS. 2 to 7.

First Embodiment

2 is a cross-sectional view illustrating the structure of the ocher ceramic compressed ondol panel structure according to the first embodiment of the present invention, and FIGS. 3 and 4a to 4c illustrate the ocher ceramic compressed ondol panel structure shown in FIG. 2. Figure 5 is a perspective view for explaining an important part of the, Figure 5 is a plan view for explaining the coupling relationship of the ocher ceramic compressed ondol panel structure shown in Figure 2, Figure 6 is the bending of the ocher ceramic compressed ondol panel structure shown in Figure 5 An exploded perspective view for explaining the connection relationship between panels.

As shown in FIG. 2, the ocher ceramic compressed ondol panel structure of the present invention has an upper portion of the base bottom surface 1, an insertion panel 40 fixing the first inorganic vegetable adhesive layer 20 and the hot water pipe 3. ) Layer, and the second adhesive layer 21 and the first joint reinforcement panel 50 layer of the same material.

Adhesive layer 20, 21 used in the present invention is a natural friendly formulated with water, flour, starch, loess, straw, etc., so as to firmly fix the panels 40, 50 on the base bottom surface (1) It is an adhesive with a component. The adhesive layers 20 and 21 of such a natural friendly component are generally known to be somewhat beneficial to the human body, and are materials that cause less environmental pollution even at disposal.

In addition, the insertion panel 40 is assembled on the upper surface of the basic ocher ceramic compressed ondol panel structure 1 so that the hot water pipe 3 can be disposed therein, and is fixed by the first adhesive layer 20. .

In addition, the second adhesive layer 21 on the upper portion of the insertion panel 40 layer has an additional role of preventing heat loss through partition lines between the insertion panels 40 and the joint reinforcing panel 50 layer. 40) It plays a main role of fixing on the upper surface of the floor.

In addition, the first joint reinforcement panel 50 layer is a block having a “凸” shape cross section, and is arranged on the upper surface of the second adhesive layer 21 by the interlocking manner so as to alternate with the partition lines between the insertion panels 40. Therefore, it is possible to prevent heat loss through the partition lines and at the same time have a structurally stable coupling structure, thereby maintaining a secure fastening structure without the need for additional additional bonding means.

In the following, the panel of the ocher ceramic compressed ondol panel structure of the present invention as described above will be described in detail.

As shown in FIG. 3, the insertion panel 40 has hot water pipe installation grooves 41 formed on both sides thereof so that the hot water pipe 3 can be installed in one horizontal direction of the basic ocher ceramic compressed ondol panel structure. . This installation groove 41 is formed in the middle of both sides of the insertion panel 40, and has a cross-sectional area corresponding to the radius of the hot water pipe (3).

The insert panel 40 does not fire the ocher bricks or the ocher panels like red bricks, but fine clay, ceramics of ordinary inorganic powders, jade stone, and alum stone, and palm fibers for increasing tensile strength. Is mixed with water and compression molded into a set of molds, thereby having the compression and tensile strength required as the flooring material, excellent sound insulation, and semi-permanent durability. In addition, the insertion panel 40 mainly composed of ocher as a floor construction material is intended to obtain this far infrared ray emission effect, heat insulation effect, calorie preservation effect, and the like.

As shown in Fig. 4A, the first joint reinforcement panel 50 is a block having a "凸" shaped cross section by compression molding in the same compounding method. The first joint reinforcement panel 50 is composed of a base portion 52 having a relatively large area and an upper end portion 51 having a relatively narrow area so that they can be fitted together. Here, the height b of the base part 52 and the height a of the upper end part 51 have the same height. When the first joint reinforcement panel 50 is disposed above the insertion panel as described above, the first joint reinforcement panel 50 is alternately assembled by changing the upper and lower ends of the upper and lower portions 51 and 52.

The first joint reinforcement panel 50 may be manufactured to be modified to be arranged at corners and side portions of the floor for airtightness.

As shown in FIG. 4B, the second joint reinforcement panel 50a is formed in a rectangular plate shape that is compression molded by the same compounding method. The second joint reinforcement panel 50a formed in the rectangular plate shape is easy to manufacture and can easily arrange and arrange the ocher ceramic compressed ondol panel structure.

As shown in FIG. 4C, the third joint reinforcement panel 50b is formed in a three-dimensional shape compression molded by the same compounding method. Thus, the second joint reinforcement panel 50b has a square of the edge of the base portion 52 based on the edge of the upper portion 51.

This third joint reinforcement panel 50b is used in combination with the first and second joint reinforcement panels described above.

In the following, the arrangement relationship of the ocher ceramic compressed ondol panel structure of the present invention as described in detail above will be described.

As shown in FIG. 5, in the ocher ceramic compressed ondol panel structure of the present invention, the insertion panels 40 are arranged in the horizontal and transverse directions on the base bottom surface 1 to be fixed with the first adhesive, and the insertion panel ( The hot water pipe 3 is fixedly arranged in the horizontal direction of the partition line 49 formed by the 40.

In addition, the adhesive is applied to the upper portion of the insertion panel 40 disposed in this way, the joint reinforcement panel 50 is installed to cover the partition lines 49 of the insertion panel 40 to the upper portion of the applied adhesive.

In particular, the curved first insertion panel 40a and the second insertion panel 40b shown in FIG. 6 hermetically seal the hot water pipe 3 of the bent portion in a “U” shape to the base bottom surface 1. Installation groove | channels 41a and 41b are formed in the side surface so that insertion can be fixed. The curved first insertion panel 40a has a semicircular curved portion so as to be hermetically fastened to the second insertion panel 40b, and the second insertion panel 40b has a semicircular groove-shaped portion corresponding to the curved portion. Forming.

In particular, since the joint reinforcement panels 50, 50a, and 50b are installed to cover the dividing line 49 of the insertion panel 40, the joint reinforcement panels 50, 50a, and 50b can prevent heat loss and maintain the balance of the human body due to far-infrared radiation.

Second Embodiment

The ocher ceramic compressed ondol panel structure of the present invention described in this embodiment is the same as the first embodiment except that the copper plate and the aluminum plate are disposed between the base bottom surface and the first adhesive. Therefore, the same or corresponding reference numerals will be given to the same or corresponding components in FIGS. 1 to 7, and the description thereof will be omitted here.

In the drawings, Figure 7 is a cross-sectional view for explaining the lamination relationship of the ocher ceramic compressed ondol panel structure according to the second embodiment of the present invention.

As shown in FIG. 7, the ocher ceramic compressed ondol panel structure of the present invention has an aluminum plate 60, a copper plate 61, and an inorganic vegetable-based first adhesive layer 20 on top of the base bottom surface 1. And the insertion panel 40 layer to which the hot water pipe 3 is fixed, and the second adhesive layer 21 and the joint reinforcement panel 50 layer of the same material are laminated in this order.

In the ocher ceramic compressed ondol panel structure of the present invention installed as described above, the heat radiated from the hot water pipe 3 is transmitted to the above-described insertion panel 40 and the joint reinforcement panel 50 by direct transfer method, and together with heat, far infrared rays from the loess. This occurs, and at the same time the alum is mixed with ocher plays a role in the generation of negative ions, purification and odor removal and foreign substances in the human body.

As described in detail above, the ocher ceramic compression ondol panel structure of the present invention is easy to install by bonding and inserting a compression molded insert panel and a joint reinforcement panel, and in particular, a zigzag joint reinforcement panel covers the partition line of the insert panel. There is an advantage that the heat dissipation can be minimized.

In addition, the ocher ceramic compressed ondol panel structure of the present invention does not plasticize by blending fine ocher, ceramic, jade stone crushed stone, alum stone crushed stone and palm fiber as main components with water, and compression molding is required as a floor construction material. And tensile strength, as well as traditional ball field can be reproduced.

In addition, the ocher ceramic compressed ondol panel structure of the present invention by using the adhesive of the natural material harmless to the human body by adhering the upper and lower parts of the panel, there is an advantage that can maintain a structurally stable fastening state, bringing shortening the air.

Although the technical idea of the ocher ceramic compressed ondol panel structure of the present invention described above has been described with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (5)

In the ocher ceramic compressed ondol panel structure in which the insertion panel 40 fixing the hot water pipe 3 and the joint reinforcement panels 50 and 50a are sequentially stacked on the base bottom surface 1, Adhesive layers 20 and 21 made of an inorganic vegetable material are formed on the upper and lower surfaces of the insertion panel 40 to fix the joint reinforcement panels 50, 50a and 50b. The ocher ceramic compression ondol panel structure, characterized in that the joint reinforcement panel (50, 50a, 50b) are arranged to cover the partition line 49 of the insertion panel (40). The method of claim 1, The insertion panel 40 and the joint reinforcement panel (50, 50a, 50b) is composed of the main component ocher, ceramic, jade stone crushed stone, alum stone crushed stone and palm fibers in water, and compression molded into a pair of molds Ocher ceramic compressed ondol panel structure. The method according to claim 1 or 2, The ocher ceramic compression ondol panel structure, characterized in that the installation groove 41 for fixing the hot water pipe (3) is formed on the side of the insertion panel (40). The method according to claim 1 or 2, The ocher ceramic compression ondol panel structure characterized in that the joint reinforcement panel (50a) is compression molded into blocks having a "凸" cross section, so that they can be interwoven with each other. The method according to claim 1 or 2, An ocher ceramic compressed ondol panel structure, wherein an aluminum plate 60 and a copper plate 61 are laminated between the base bottom surface 1 and the insertion panel 40.