KR200420635Y1 - construction method for hypocaust Heating using carbon flexible mesh - Google Patents

Abstract

The present invention relates to an ondol construction structure, and in particular, the insulating member which is stacked on the concrete slab to perform sound insulation and insulation; Lightweight bubble-type mortar for placing in the horizontal portion of the heat insulating member for waterproof and warmth action; A conductive planar heating element which is covered on an upper portion of the light-weight foam mortar; Cement mortar for the heat conduction and warmth is laid horizontally with a predetermined thickness on top of the planar heating element; If the carbon flexible heating mesh mortar ondol heating structure is provided, the finishing material is laminated on top of the cement mortar, the carbon flexible heating mesh used as the planar heating element is embedded in the floor of the heating part to dry electricity on heating This method is economical, practical, and suitable for independent heating because it costs less installation than existing hot water pipe heating, and the main material of carbon flexible heating mesh used as planar heating element is composed of carbon. Negative ions and far-infrared radiation can induce phenomena such as bird house syndrome can be suppressed.

Description

Construction method for hypocaust heating using carbon flexible mesh

1 is a cross-sectional view showing a conventional ondol structure

Figure 2 is an exemplary view showing a mesh structure of the surface heating element applied to the present invention

Figure 3 is a view illustrating a construction ondol cross-section for explaining the carbon flexible heating mesh mortar ondol heating structure according to the present invention

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

100: concrete slab 110: heat insulating member

120: lightweight foam mortar

150: cement mortar 200: planar heating element

160: finish

The present invention relates to an ondol construction structure capable of heating a room using a planar heating element that is generated by electricity, and in particular, a mass ratio of liquid silicone rubber and conductive carbon black is 100: 1 to 15, and , Carbon flexible heating mesh for minimizing the load acting on the building while heating by using the carbon flexible heating structure made by coating the conductive composition to a certain shape or a structural frame having a certain shape It relates to a mortar heating structure.

In general, when laying the floor of a bedroom, living room, kitchen, etc. in a single house or apartment, the underfloor pipe is piped to concrete floor or concrete sleeve, and then mortar mixed with cement and sand is kneaded with water on the top surface. This will be described with reference to FIG. 1 attached to this example.

Figure 1 is a cross-sectional view showing a conventional ondol structure, looking at the conventional ondol structure with reference to Figure 1 as follows.

In the conventional ondol structure, the heat insulating member 2 is provided on the upper part of the foundation slab 1, and the waterproof sheet 3 and the gravel 4 are sequentially stacked on the upper side of the heat insulating member 2, and the gravel ( 4) The Excel pipe 5 through which hot water passes is piped.

When the pipe of the Excel pipe 5 is finished, the mortar (6) is poured into the horizontal work, and the upper side of the mortar (6) is finished with a finishing material (7) such as floors, tiles, and floor coverings.

The conventional ondol structure configured as described above circulates and supplies hot water through the Excel pipe 5 to heat the room. In another example of the related art, a room is heated by supplying electricity by installing a heating wire such as a nichrome wire instead of an excel pipe through which hot water is circulated and supplied.

However, such a conventional ondol structure has a complexity in the construction of the pipe to be connected to the excel pipe connected to the boiler, the heat loss is generated as the hot water pipe is aged, the problem is that the efficiency is lowered .

In addition, when heating using a heating wire, electromagnetic waves harmful to the human body are generated, and problems such as weakness of moisture are generated.

In the case of a high-rise building, the conventional ondol structure may cause a safety problem, such as an excessive load on a building, such as cracks in a building wall or floor.

An object of the present invention for solving the above problems relates to an ondol construction structure capable of heating the room using a planar heating element that is generated by electricity, in particular, the mass ratio of the liquid silicone rubber and the conductive carbon black is 100: 1 ~ 15 and the inside of the building at the same time heating and using a conductive composition, characterized in that the conductive composition and a carbon flexible heating structure made by coating the conductive composition in a structural frame having a predetermined shape In order to minimize the load to provide a carbon flexible heating mesh mortar ondol heating structure.

Features of the carbon flexible heating mesh mortar ondol heating structure according to the present invention for achieving the above object, the insulating member is placed on the concrete slab to perform sound insulation and insulation; Lightweight bubble-type mortar for pouring and horizontally placed on top of the heat insulating member for waterproofing and warming action; Covered on the upper surface of the light-foamed mortar is made of a mixture of liquid silicone rubber and conductive carbon black of the graphite powder component, the conductive carbon black has a particle size of 20 to 40 nm, the absorption amount of DBP (300) To 500 ml / 100g, the mass ratio of the liquid silicone rubber and the conductive carbon black is 100: 1 to 15, and the graphite powder has a particle size of 1 to 10 µm and an electrical resistance of 0.0005 to 0.08 Ω · cm A heating element; A cement mortar layer having a predetermined thickness on the top surface of the planar heating element and placed horizontally for heat conduction and thermal insulation; The finishing material is laminated on the cement mortar layer.

As an additional feature of the carbon flexible heating mesh mortar ondol heating structure according to the present invention for achieving the above object, the finish is to the floor, tile, floorboards and the like.

As another additional feature of the carbon flexible heating mesh mortar ondol heating structure according to the present invention for achieving the above object, the cement mortar layer has a predetermined thickness using wood to prevent settlement phenomenon due to flow during cement pouring. It has a grid partition.

The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

First, the planar heating element applied in the present invention will be described with reference to the accompanying drawings. The planar heating element applied in the present invention is shown in FIG. 2, in the case of the carbon flexible heating mesh 200, the seed line 230. And as a woven fabric to the blade 220, a terminal for supplying power to both ends of the string 230 or the blade 220 is a terminal portion 210a formed longer than the string 230 or the blade 220 of the woven fabric 210b).

The terminal portions 210a and 210b may be made of a conductive metal wire having excellent conductivity. In this case, the conductive metal wire may be made of tin, a gold copper wire, a silver wire, or the like having excellent conductivity.

In addition, it is preferable that the conductive composition (not shown) coated or applied to the structural frame 240 has a thickness of about 0.05 to 0.15 mm on the structural frame 240.

In addition, the carbon flexible heating mesh 200 may be insulated by coating the surface of the carbon flexible heating mesh 200 by mixing only the liquid silicone rubber and the diluent as needed.

Since the insulating coating is made of a liquid silicone rubber of the same material as the conductive composition (not shown), there is an advantage that the peeling phenomenon of the mesh 200 does not occur even if repeated thermal expansion and thermal contraction occurs periodically.

Such a planar heating element is a conductive composition consisting of a mixture of liquid silicone rubber and conductive carbon black or graphite powder, wherein the mass ratio of the liquid silicone rubber and conductive carbon black is from 100: 1 to 1. It is preferable that it is 15 or the mass ratio of the said liquid silicone rubber and graphite powder is 100: 10-150, and the thermal expansion coefficient of the said liquid silicone rubber exists in the range of 200 * 10 <-6> -300 * 10 <-6>.

In addition, the conductive carbon black particles have a size of 20 to 40 nanometers (nm), dibutyl phthalate (DBP) is preferably 300 to 500 ml / 100g, the particle size of the graphite powder is 1 to. It is 10 micrometers, and it is preferable that electric resistance is 0.0005-0.08 ohm * cm.

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

3 is a cross-sectional view illustrating the structure of the carbon flexible heating mesh mortar ondol heating structure according to the present invention, and the heat insulating member 110 is placed on the concrete slab 100 for soundproofing and insulation. On the upper part of the 110, a light-bubble type mortar 120 for waterproofing and warming is poured into the horizontal work.

After the lightweight foam mortar 120 is poured, the planar heating element 200 is covered on the upper portion thereof.

Cement mortar layer 150 is placed horizontally by mortar of a predetermined thickness for conduction and thermal insulation of heat generated from the planar heating element 200 on top of the planar heating element 200.

After the cement mortar layer 150 is poured, a finishing material 160 is covered and finished on the upper side.

In this case, the finishing material 160 may be made of flooring, tiles, floorboards, etc., and finishes by covering the hakama (not shown) after covering the finishing material 170.

In addition, the cement mortar layer 150 may form a grid partition wall of a predetermined thickness in order to prevent the settlement phenomenon caused by the flow of cement cement, the material used is wood.

In addition, the cement mortar layer 150 has a thickness of about 2cm.

Although the present invention in the above description has been shown and described with respect to specific embodiments, it is common in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the utility model registration claims. Anyone with knowledge will know it easily.

If the carbon flexible heating mesh mortar ondol heating structure according to the present invention as described above is provided, the carbon flexible heating mesh used as the planar heating element is embedded in the floor of the heating part and is heated by heating to generate electricity. The installation cost is lower than that of hot water pipe heating, so it is economical, practical, suitable for independent heating and semi-permanent.

In addition, since the main material of the carbon flexible heating mesh used as the planar heating element is composed of carbon, it is possible to suppress the sick house syndrome due to the anion and the far-infrared radiation phenomenon of the planar heating element itself during the heating operation.

Claims (3)

An insulation member disposed on the concrete slab to perform sound insulation blocking and insulation; Lightweight bubble-type mortar for pouring and horizontally placed on top of the heat insulating member for waterproofing and warming action; A conductive planar heating element which is covered on top of the lightweight foam mortar and is made of a mixture of liquid silicone rubber and conductive carbon black of graphite powder component; A cement mortar layer having a predetermined thickness on the top surface of the planar heating element and placed horizontally for heat conduction and thermal insulation; Carbon flexible heat generating mesh mortar ondol heating structure, characterized in that the finishing material is laminated on the cement mortar layer. The method of claim 1, The finishing material is a carbon flexible heating mesh mortar ondol heating structure, characterized in that the flooring, tiles, floorboards and the like. The method of claim 1, The cement mortar layer, carbon flexible heat generating mesh mortar ondol heating structure, characterized in that to form a lattice partition wall of a predetermined thickness using wood in order to prevent the settlement phenomenon caused by the flow of cement during pouring.

Images