KR100236635B1 - Upper panel for built-up type heating panel - Google Patents

Abstract

The present invention relates to a top panel for prefabricated ondol, and attaches lattice fiber nets to the upper and lower surfaces of panel-like plate formed with ocher or feldspar as main materials to construct a prefabricated lightweight ondol heating system with a health-friendly and inexpensive material. After that, it is formed by pressing at a high temperature.

Description

Prefabricated Ondol Top Panel

1 is a perspective view of a prefabricated ondol top panel according to the present invention.

2 is a cross-sectional view taken along line A-A of FIG.

Figure 3 is a cross-sectional view showing an example of use of the prefabricated ondol top panel of the present invention.

* Explanation of symbols for main parts of the drawings

1: lower slab 2: prefabricated ondol top panel

3: prefabricated ondol lower panel 4: hot water piping

5: plate made of feldspar or loess

6: lattice fiber mesh

The present invention relates to a top panel for prefabricated ondol, and in particular, the inside of the top panel for prefabricated ondol is filled with ocher or feldspar as a main material, and a lattice fiber network is attached to the top and bottom surfaces of the panel, followed by press molding at high temperature. One prefabricated ondol top panel is provided.

In general, the construction of apartments is underfloor heating using cement mortar. Such heating mortars using cement mortar not only take a long time to cure cement, but also affect the tenant's health due to the toxicity of cement. The week had a problem.

In order to overcome this problem, the development of prefabricated ondol heating system without using cement is required. The structure of the conventional prefabricated lightweight ondol heating system proposed for this is shown in FIG.

In the figure, "1" represents a lower slab, "2" represents a prefabricated ondol upper panel, "3" represents a prefabricated ondol lower panel, and "4" represents a hot water pipe.

In general, the prefabricated lightweight ondol heating system has a prefabricated ondol lower panel 3 installed on the upper side of the lower slab 1, and a prefabricated ondol upper panel 2 is installed on the prefabricated ondol lower panel 3. Is formed. In addition, the prefabricated ondol top panel 2 generally used iron plates or plywood. For this reason, the upper panel 2 is weak to moisture, and thus it is impossible to use it for a long time. As a result, the conventional prefabricated ondol heating system is being used in small amounts, such as temporary houses or private houses, which are to be quickly converted into existing houses.

In addition to the above-described iron sheets and plywood, the prefabricated ondol top panel 2 is a panel in which high-temperature press-molding is made of fibrous materials and liquid polymers based on silica sand, elvan, and mica. Panels) have been developed and used. The lightweight ondol heating system using such a polymer concrete panel does not use toxic cement, and despite the advantages of excellent durability, it uses expensive materials, and thus the unit price is not widely used.

Therefore, the present invention is to provide a low-cost upper panel while solving the problems of the prior art as described above, the object of the present invention is to manufacture the upper panel for the ondol using feldspar or loess, the upper portion as hot water during heating When the panel is heated, far infrared rays are generated, and far infrared rays are maintained at room temperature even during blame prevention, to provide a prefabricated ondol top panel that can provide a comfortable living space.

One embodiment of the present invention for achieving the above object is characterized in that the lattice fiber net is attached to the entire surface of the panel-like plate formed mainly of ocher, and then formed by pressing at a high temperature.

In addition, another embodiment of the present invention for achieving the above object is characterized in that the lattice fiber net is attached to the entire surface of the panel-like plate formed with feldspar as the main material, and then formed by pressing at a high temperature.

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

1 is a perspective view showing an embodiment of a prefabricated ondol top panel according to the present invention, and FIG. 2 is a cross-sectional view of part A-A of FIG.

In the present invention, the upper panel for ondol may be manufactured using ocher or feldspar as a main material.

First, the configuration of the top panel mainly made of ocher is as follows.

The material of the upper panel is ocher or a material in which ocher powder is added in a small amount to generate far infrared rays (for example, elvan, mica, artificial ceramics, etc.). When such materials are simply baked at a high temperature of about 1,000 ° C. or more, they are brittle, such as ceramics, and may be damaged by slight impact during transportation or installation.

Therefore, in order to prevent this by attaching the lattice fiber mesh 6 to both the upper and lower surfaces as well as the side surface of the plate 5 manufactured in the shape of a panel using ocher, by pressing at a high temperature to produce a molded panel, It has elasticity and tensile strength to prevent damage from external impact. Here, the material of the fibrous net 6 attached to the upper and lower surfaces of the panel-like plate 5 may be glass fiber, carbon fiber and synthetic fiber. In addition, when the lattice fibrous mesh 6 is combined with the plate material 5 made of ocher, it is possible to strengthen the rigidity of the plate material made of ocher by attaching the fiber material to the edge portion of the plate material (5). have.

Next, look at the configuration of the upper panel with a feldspar as the main material.

The upper panel made of feldspar as a main material can be manufactured at a lower cost than the upper panel made of ocher as a main material, and can generate a good living environment by generating far-infrared rays beneficial to the human body even at room temperature.

The basic structure of the top panel is feldspar, silica sand, lattice fibrous mesh and aqueous polymer. Here, the plate-like plate material may be manufactured using only one feldspar material, or the panel-like plate material 5 may be manufactured from a material in which feldspar and silica are mixed. In addition to this, an aqueous polymer may be added, which is added to the mixed material so that the lattice fiber network can be combined with the plate well.

Then, the upper panel is manufactured by pressing at high temperature so that the lattice fiber net 6 is attached to the upper and lower portions of the plate 5 thus manufactured, such as the upper panel using ocher. The manufactured top panel has elasticity and tensile strength, so that it is not easily damaged even by external impact. Here, the upper panel is heated to a high temperature of about 150 to 250 ℃, it is compressed to a pressure of 40 to 50 tons (ton). Similarly, the material of the lattice fiber net 6 used herein may be glass fiber, carbon fiber, synthetic fiber, or the like.

Looking at the operation of the present invention having the configuration as described above are as follows.

The upper panel 2 for prefabricated ondol, which is formed at high temperature and high pressure by attaching a lattice fiber mesh 6 to the upper and lower portions of the panel-like plate 5 mainly made of feldspar or loess, is provided with a hot water pipe. Install ondol heating system by installing above 3). Such an ondol heating system generates far-infrared rays when heated, thereby solving the toxicity problem of wet ondol using cement mortar. Here, the panel made of ocher or feldspar as the main material has a high far-infrared emissivity of about 92 to 95%, whereas for ordinary ondol floors made of cement, the far-infrared emissivity is low as about 84 to 86%, and the high far-infrared emissivity is It is reported to be beneficial to health by effectively transmitting heat as well as promoting metabolism of inte. In addition, far-infrared radiation intensity is lowered or emissivity is maintained at room temperature of the blame release, and the occurrence wavelength of natural materials such as ocher or feldspar may be more beneficial to the human body than the cement generation wavelength. That is, about 70% of the human body is composed of water, and the infrared absorption around 10㎛, the energy absorption wavelength band of water molecules, absorbs the resonance effect of water molecules, while cement reacts with the water in the air to react with strong alkali (calcium hydroxide). pH12 ~ 130), which is harmful to human skin, which is slightly acidic (pH5.5). Therefore, if the top plate made of a material such as ocher or feldspar, not cement as a finishing material can provide a comfortable and healthy living space. On the other hand, the prefabricated ondol top panel 2 has a rigidity and tensile strength is reinforced by the grid fiber mesh 6 can withstand the impact of heavy objects.

The present invention made as described above can solve the problem of the generation of harmful gases such as radon gas generated in the conventional cement floor structure, the far infrared wavelength is generated during heating, can provide a better living space, By using readily available materials, it is possible to construct an on-heating heating system at low cost.

Claims (7)

A top panel for prefabricated ondol, characterized in that it is formed by attaching a lattice fiber net (6) to the entire surface of a panel-like plate material (5) formed mainly of ocher, followed by pressure molding at a high temperature. The prefabricated ondol top panel according to claim 1, wherein the panel type plate is formed by further adding far infrared powder in addition to the yellow soil. The prefabricated ondol top panel according to claim 1 or 2, wherein the lattice fiber network comprises one of glass fibers, carbon fibers or synthetic fibers as a fibrous material. A top panel for prefabricated ondol, characterized in that the lattice fiber net (6) is attached to the entire surface of the panel-like plate material (5) formed with feldspar as a main material, and then formed by pressing at a high temperature. The prefabricated ondol top panel according to claim 4, wherein the panel-shaped plate is formed by further adding quartzite in addition to the feldspar. 6. The prefabricated ondol top panel according to claim 4 or 5, wherein an aqueous polymer is further added to the panel-like plate to enhance adhesion. 7. The prefabricated ondol top panel according to claim 6, wherein the lattice fiber net comprises one of glass fibers, carbon fibers or synthetic fibers as a fibrous material.

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