KR100819857B1 - Ondol using schist-filling and schist-mortar, and its constructing method - Google Patents

Abstract

An Ondol using schist filling-agent and schist mortar and a construction method thereof are provided to reduce the heating cost by improving temperature keeping and adiabatic effect through applying schist powder to a heat insulation layer and a plastering layer. An Ondol using schist filling-agent and schist mortar comprises a soundproof and adiabatic layer(5) on a bottom layer(1), a hot water pipe(6) installed on the soundproof and adiabatic layer, a heat insulation layer(7) that covers the hot water pipe, and a plastering layer(8) on the heat insulation layer. The soundproof and adiabatic layer is formed by sequentially stacking a waterproof paper(2), a foamed polystyrene having a thickness of 50mm to 70mm, and an isopink(4) having a thickness of 10mm. The heat insulation layer is formed by stacking schist filling-agent having a grain size of 0.8mm to 6.0mm on the hot water pipe by a thickness of 30mm to 80mm.

Description

Ondol using schist-filling and schist-mortar, and its constructing method

1 is a process diagram of the present invention.

2 is a partially cutaway perspective view of the present invention.

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

4 to 6 is a far-infrared radiation energy test report of schist.

7 is an anion emission test report of schist cancer.

8 is a rare earth element content analysis test report of schist.

<Description of the symbols for the main parts of the drawings>

1: bottom layer

2: waterproof paper

3: expanded polystyrene

4: isopink

5: soundproof, insulation layer

6: hot water pipe

7: heat insulation layer

8: plastering layer

S100: Soundproof, insulation layer construction stage

S200: Hot water pipe construction stage

S300: Thermal insulation construction stage

S400: Plastering stage

The present invention relates to an ondol for heating a building, not only has excellent thermal insulation and insulation effect, but also can save heating energy by constructing an ondol using schist which emits far-infrared rays, negative ions, and a small amount of radiation. It is an ondol that can promote the construction and its construction method.

Conventional ondol of the hot water pipe system is made by covering the bottom layer of concrete slab with waterproof paper such as vinyl and installing a hot water pipe, and then pouring sand and cement to fill the circumference of the hot water pipe to cover the pipe.

Conventional ondol, which is constructed with cement mortar with general sand aggregate, has the advantages of simple construction process, low cost and easy to obtain materials, but low heat and insulation effect, not only high heat loss but also excessive heating cost. In addition, the heating effect by the far infrared is low and the emission effect such as far infrared rays and anions known to be beneficial to the human body was difficult to expect.

The present invention has been made in view of the above-mentioned problems, and the ondol structure is composed of a multi-layered structure, and it is possible to not only drastically reduce the fuel cost but also reduce the cost of the schist by using the schist powder, which has been crushed with excellent insulation and heat insulation, as the ondol construction material and plaster It is an object of the present invention to provide an ondol and its construction method which can radiate a far infrared ray, anion and a small amount of radiation beneficial to the human body to promote the health of the user.

In order to achieve the above object, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Fig. 1, the ondol construction method using the schist filler and schist mortar of the present invention is soundproof, insulation layer construction step (S100), hot water pipe construction step (S200), insulation layer construction step (S300) and plastering layer construction step (S400) It consists of.

Ondol using the schist filler and schist mortar constructed through the process as described above is a waterproof paper (2), foamed polystyrene (3), iso pink (4), the hot water pipe inside the bottom layer (1) as shown in FIG. The heat insulation layer 7 and the plastering layer 8 in which (6) were provided are formed in order.

As shown in FIG. 2, a waterproof paper 2 having good waterproofness is laid on the cement floor layer 1, and 50 to 70 mm thick foamed polystyrene 3 having excellent sound insulation and heat insulation is laid on the upper surface of the waterproof paper 2, and foamed polystyrene (3). The soundproofing, insulating layer construction step (S100) to form a soundproofing, insulation layer 5 is laid on the top of the iso pink (4) having excellent thermal insulation.

The waterproof paper 2 of the sound insulation and insulation layer 5 serves to block the toxicity of the cement generated from the cement floor layer 1 together with the waterproof effect, and the foamed polystyrene (3) is used as a building construction material as a heat insulation effect. Is excellent, iso pink (4) is a heat insulating material made by extruding expanded polystyrene is a very excellent heat insulation and thermal insulation effect.

The thickness of the soundproof and heat insulating layer 5 composed of the waterproof paper 2, the expanded polystyrene 3, and the iso pink 4 is generally 60-80 mm thick depending on the working conditions.

As shown in Figure 2, the sound insulation, the hot water pipe construction step (S200) to install the hot water pipe 6 on the upper portion of the heat insulating layer (5), and the sound of the gneiss filling material pulverized into granules with a particle diameter of 0.8 ~ 6.0mm, Laying on top of the heat insulating layer (5) to form a heat insulating layer (7) to lay a puffed filler to 30 ~ 80mm thickness so that the hot water pipe (6) is buried inside the heat insulating layer (7) (S300) Is carried out.

The use of the schist filler having a variety of particle sizes of 0.8 to 6.0 mm in order to improve the particle size distribution of the thermal insulation layer (7), that is to fill the pores between the granulated schist filler to fill the fine granular schist filler As a result, the insulating layer 7 has a dense structure, and the strength and heat insulating effect of the insulating layer 7 are excellent.

On the upper portion of the insulating layer 7 is mixed with 75% by weight of the gneiss powder and 25% by weight of cement, crushed schist to a diameter of 0.5 mm or less, and 15 to 15 on the upper portion of the insulating layer 7 Plastering layer construction step (S400) to apply a 30mm thickness to form a plastering layer (8).

Since the insulating layer 7 is a granulated schist filler and fine schist filler, there are almost no voids, so that the plaster layer 8 may be installed on the insulating layer 7 without mixing cement.

The present invention is completed by curing the plaster layer 8 for a predetermined time.

Through the above process, the ondol of the present invention has a waterproof paper 2, foamed polystyrene (3), iso pink (4), hot water pipe (6) is embedded in the top of the bottom layer (1) as shown in Figs. It consists of the heat insulating layer 7 and the plastering layer 8.

The heat insulation layer 7 in which the hot water pipe 6 is embedded is a schist filler with a particle diameter of 0.8 to 6.0 mm, and the plastering layer 8 on the top of the insulation layer 7 has a schist rock powder having a particle diameter of 0.5 mm or less mixed with cement. Mortar.

As described above, the insulating layer 7 and the plastering layer 8 are composed of schist powder, which is not only excellent in thermal insulation and heat insulation, but also by far-infrared rays and negative ions emitted from schist cancer, which is beneficial to the human body. Radiation is very beneficial to the human body by the hormissis effect.

Schist is a type of foliated metamorphic rock with thin layers of quartz and mica.

4 to 6 is a test report of the Korea Far Infrared Radiation Evaluation Researcher who tested the far-infrared radiation energy of schist.

As shown in Figs. 4 to 6, the schist is emitted 92.5% of far infrared rays having energy of 3.72 × 10 ² W / m 2 · µm with a wavelength of 5 to 20 µm.

7 is a test report of the Korea Far Infrared Ray Application Evaluation Institute for measuring the amount of negative ions released from schist cancer. As shown in Figure 7, schist secrete 246 anions per cc.

As described above, schist can be seen to emit a large amount of far infrared rays and anions.

8 is an analysis test report of the Korea Institute of Geoscience and Mineral Resources, which analyzed the rare earth element content of schist.

As shown in FIG. 8, schist rock contains yttrium (Y) 0.003%, lanthanum (La) 0.005%, cerium (Ce) 0.009%, and thorium (Th) 0.002%.

Yttrium (Y), lanthanum (La), cerium (Ce) and thorium (Th) are rare-earth metals that emit low doses (1000 microvolts (μSv) / year) of radiation. Induces a horsmic effect on the user.

The hormissis effect is that even a small amount of harmful substances acts as a beneficial stimulus to the human body and eventually causes an effective effect on the human body. A large amount of radiation is fatal to the human body, but a small amount of radiation improves the body's immune function and suppresses aging. It is effective in preventing cancer and diabetes.

That is, the heat-insulating layer 7 and the plastering layer 8 constituting the ondol of the present invention contain schist crushed schist, and thus far infrared rays, anions and a small amount of radiation are emitted from them, which is very good for the user's health. helpful.

In addition, crushed schist is composed of 50 to 90% by weight of schist powder with a particle diameter of 0.5 mm or less and 10 to 50% by weight of cement lime or inorganic adhesive to form schist mortar. When the schist mortar is used as an interior wall or ceiling finish, Far infrared rays, negative ions and a small amount of radiation are radiated from the walls and ceiling, which is very beneficial to the human body.

After all, the technical core of the present invention by laying the waterproof paper (2), foamed polystyrene (3) and iso pink (4) in the upper part of the bottom layer (1) to form the soundproofing, insulating layer (5), the sound insulation, insulation layer construction step ( S100 and the hot water pipe construction step (S200) of laying the hot water pipe 6 on the top of the soundproof, heat insulation layer (5),

Insulating layer construction step (S300) covering a heat insulating layer (7) consisting of a schist filler with a particle diameter of 0.8 ~ 6.0mm to a thickness of 30 ~ 80mm so that the hot water pipe (6) is buried, and a gneiss powder having a particle diameter of 0.5mm or less Plastering layer construction step of forming a plastering layer 8 by mixing 75% by weight and 25% by weight of cement and kneading mortar formed by kneading together with water to a thickness of 15 to 30 mm on top of the insulating layer 7. The ondol construction method using schist filler and schist mortar is composed.

Sound insulation, heat insulation layer 5 is formed on the bottom layer 1, and the heat insulation layer 7 is comprised so that the hot water pipe 6 installed in the upper part of the heat insulation layer 5 is buried, and on the upper part of this heat insulation layer 7 In the ondol in which the plaster layer 8 is formed,
The heat insulation layer (5) consists of a waterproof paper (2), 50 ~ 70mm thick foam polystyrene (3) and 10mm thick iso pink (4) sequentially laid,
Insulating layer (7) is composed of 30 ~ 80mm thick on the top of the hot water pipe (6) with a schist filler of particle size 0.8 ~ 6.0mm,

Plastering layer (8) is composed by applying a gneiss mortar mixed with 75% by weight of gneiss powder having a particle diameter of 0.5mm or less and 25% by weight of cement, and constitutes an ondol using graft fillers and gneiss mortar.

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As described above, the present invention is not only excellent thermal insulation and heat insulation effect by containing the schist crushed schist in the insulating layer 7 and the plastering layer 8 constituting the ondol can significantly reduce the heating cost It is very beneficial to the user's health because far infrared rays, negative ions and small amount of radiation are emitted from indoor walls, ceilings and ondol by using schist mortar, which is a mixture of schist powder and cement, lime and inorganic adhesive, as a finishing material on interior walls or ceilings. .

Claims (3)

Sound insulation, heat insulation layer 5 is formed on the bottom layer 1, and the heat insulation layer 7 is comprised so that the hot water pipe 6 installed in the upper part of the heat insulation layer 5 is buried, and on the upper part of this heat insulation layer 7 In the ondol in which the plastering layer 8 is formed, The heat insulation layer (5) consists of a waterproof paper (2), 50 ~ 70mm thick foam polystyrene (3) and 10mm thick iso pink (4) sequentially laid, Insulating layer (7) is composed of 30 ~ 80mm thick on the top of the hot water pipe (6) with a schist filler of particle size 0.8 ~ 6.0mm, Plastering layer (8) is an ondol using a schist filler and schist mortar, characterized by applying a graft mortar mixed with 75% by weight of gneiss powder having a particle diameter of 0.5mm or less and 25% by weight of cement. delete delete

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