KR20180106092A - the flooring insulating materials with compatibility of both sides for heating and dry construction method of heating system therewith - Google Patents

Abstract

The present invention relates to a reversible floor insulation panel for heating and a dry heating construction method using the same. According to the present invention, a pipe groove to arrange a hot water pipe therein is formed on one surface of the floor insulation panel, a line groove to arrange a heating wire therein is formed on the other surface, and a functional coating layer is formed on the surface on which the line groove is formed. The functional coating layer comprises red clay powder and tourmaline. Accordingly, while laying the floor insulation panel on an arranged slab, in the case of hot water heating, the floor insulation panel is laid to place the pipe groove on the outside, such that the hot water pipe is arranged and installed in the pipe groove. Moreover, in the case of electric heating, the floor insulation panel is laid to place the line groove on the outside, such that the heating wire is arranged in the line groove to realize a dry heating construction. Accordingly, both of hot water and electric heating constructions are available in accordance with a site, and excellent insulation is provided by the functional coating layer.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a floor heating insulation panel and a floor heating insulation panel,

The present invention relates to a floor heating insulation floor panel for heating which is compatible with both sides and a dry heating installation method using the floor insulation panel, wherein a pipe groove is formed on one side of the floor insulation panel and a heating groove is formed on the other side thereof. And a bottom insulating panel formed with a functional coating layer composed mainly of loess and tourmaline is formed on the surface where the line grooves are formed. In the hot water heating, a bottom insulating panel is laid so that the pipe groove is located at the upper side, It is possible to install hot water heating or electric heating in accordance with the site by installing piping in the pipe groove and installing the floor heating panel so that the line groove is located above the electric heating, , And excellent heat insulating property by the functional coating layer.

Generally, heating refers to heating the room and the inside of the building by supplying heat. In Korea, the house is mainly used as floor heating. In the conventional floor heating method, the foamed concrete is placed and cured in the concrete floor slab, Piping of pipes (generally using XL pipes, PB pipes, PPC pipes, copper pipes, etc.) was carried out, and wet heating construction was carried out in which mortar (mortar) was placed thereon and cured.

The above-mentioned wet heating construction has a problem that it takes a long time due to repeated installation and curing of foamed concrete and finishing mortar. Recently, a dry heating construction using a separate flooring material without using mortar has been developed and applied to heating construction have.

An example of dry heating construction is disclosed in Korean Patent Application No. 2006-0023312. In Korean Patent Application No. 2006-0023312, a polystyrene molded product, a heat dissipating member provided in a recessed portion of the molded product of polystyrene, a hot water pipe passing through the inside of the heat dissipating member, And a dry floor heating construction method in which a thermal diffusion plate (metal) covering the heat dissipating member is installed.

Korean Utility Model Registration No. 0445966 discloses a heating floor material comprising a heat insulating member having a heat insulating member groove and a heat conductive member.

In addition, Korean Utility Model Registration No. 0432466 discloses a floor heating structure using a carbon heating fiber composed of a heat insulating material, a carbon heating fiber, a power source, and a finishing material.

However, in the case of the first and second inventions described above, the heat is uniformly diffused through the thermal diffusion plate by using the polystyrene molding, and the heat is uniformly diffused through the thermal diffusion plate. However, However, since the thermal diffusion plate uniformly conveys the heat of the hot water tube, the thermal diffusion plate which is made of metal rapidly radiates heat, so that when the temperature of the hot water tube is lowered, the internal temperature quickly drops.

In the third embodiment of the present invention, the carbon heating fiber portion is installed on the entire heating surface of the carbon fiber yarn and the general fiber yarn is woven. Since the finishing material is installed in the carbon heating fiber portion, There is a possibility of partial damage or breakage of the heat generating part due to the impact, and the breakage of the heat generating part has a problem that the safety is poor along with the styrofoam which is vulnerable to fire.

In order to solve the above-mentioned problem, the present invention is to solve the above-mentioned problem, in which a pipe groove for piping a hot water pipe is formed on one surface of a bottom insulating panel, a line groove is formed on the other surface, And the bottom heat insulating panel is applied to the dry heating application. In the hot water heating, the bottom heat insulating panel is laid so that the pipe groove is located at the upper side, and the hot water pipe is connected to the pipe groove And the floor heating panel is laid so that the line grooves are located at the upper side of the electric heating, and the heating line is wired to the line grooves so that the hot water heating construction or the electric heating construction can be performed according to the site, So that the layer has a high heat insulating property.

In addition, the heat insulating material includes graphite and a flame retardant in the foamed beads to enhance the heat insulating property and to make it safe for fire. In the dry heating installation, after a pipe of the hot water pipe or the wiring of the heating wire, a pair of supporting protrusions projecting on one surface of the heat sink are integrally The heat dissipating brackets are installed along the pipe grooves or the line grooves to facilitate heat transfer and radiation to the upper side by the heat dissipating brackets.

As described above, according to the present invention, a pipe groove in which a hot water pipe is piped is formed on one surface of a bottom insulating panel, a line groove in which a heating line is wired is formed on the other surface, A floor insulation panel is formed so that the floor insulation panel is applied to dry heating construction. In the hot water heating, a floor insulation panel is laid so that pipe grooves are located above the pipe, Electric heating is done by laying the floor insulation panels so that the line grooves are located at the upper side, and by installing the heating wires in the line grooves, the hot water heating construction or electric heating construction can be performed according to the site. It is excellent and has a beneficial effect on the human body by far-infrared ray radiation. The insulation material constituting the bottom insulating panel is composed of foamed beads, It contains flame retardant and is highly insulating and has a safe effect against fire.

1 is a perspective view of a bottom insulating panel according to the present invention;
2 is a bottom perspective view of a bottom insulating panel according to the present invention.
3 is a cross-sectional view and a partial enlarged view of a bottom insulating panel according to the present invention.
4 is a cross-sectional view of a hot water heating installation to which a bottom insulating panel according to the present invention is applied.
5 is a cross-sectional view of an electric heating installation to which a floor insulation panel according to the present invention is applied.
6 is a perspective view of a construction method according to a dry heating installation method to which a floor insulation panel according to the present invention is applied.
FIG. 7 is a view showing a construction process according to a dry heating construction method to which a floor insulation panel according to the present invention is applied.

The present invention relates to a floor heating insulation floor panel for heating which is compatible with both sides and a dry heating installation method using the floor insulation panel, wherein a pipe groove is formed on one side of the floor insulation panel and a heating groove is formed on the other side thereof. And a bottom insulating panel formed with a functional coating layer composed mainly of loess and tourmaline is formed on the surface where the line grooves are formed. In the hot water heating, a bottom insulating panel is laid so that the pipe groove is located at the upper side, It is possible to install hot water heating or electric heating in accordance with the site by installing piping in the pipe groove and installing the floor heating panel so that the line groove is located above the electric heating, , And excellent heat insulating property by the functional coating layer.

1 to 3, a bottom insulating panel 100 according to the present invention will be described. A method of dry heating using the bottom insulating panel 100 will be described. First, as shown in FIGS. 1 to 3, The bottom insulating panel 100 is composed of a panel made of a heat insulating material, and a pipe groove 110 is formed on one surface of the bottom insulating panel 100 A line groove 120 is formed on the other surface, and a functional coating layer 130 is formed on the surface on which the line groove 120 is formed.

More specifically, the bottom insulating panel 100 is formed by using foamed polystyrene (foamed polystyrene, styrofoam) heat insulating material, or using heat insulating material in which graphite is added to foamed beads while producing expanded polystyrene, Insulation is improved by reducing the heat loss in the building, or insulation is added with PolyFR (Polymeric Flame Retardant), which is a flame retardant harmless to the human body while manufacturing foamed polystyrene ("Neopol" is a representative example of BASF) So that it is safe for fire.

The pipe groove 110 of the bottom insulating panel 100 is formed as a groove of '11' or 'U'. As shown in FIG. 4, the pipe groove 110 is formed of a general hot water pipe 200 XL pipe (Excel pipe), PB pipe, PPC pipe, copper pipe, etc.).

The line grooves 120 of the bottom insulating panel 100 are formed by grooves having a shape of '11' or 'U'. The line grooves 120 have a thickness and depth enough to embed general heating wires 300 A typical heating element is carbon fiber. The heating wire 300 may be made of a carbon fiber wire. Alternatively, as shown in FIG. 5, the heating wire 300 may be made of carbon fiber, A carbon fiber heating wire having a structure in which a carbon fiber line is surrounded by a protective tube 310 (a tube of an insulating material) is used.

3, the surface of the bottom insulating panel 100 on which the line grooves 120 are formed forms a functional coating layer 130. The functional coating layer 130 is formed by applying a functional paint (or, alternatively, The functional paint is a homogeneous mixture of 10 to 15 parts by weight of liquid tourmaline, 10 to 12 parts by weight of an adhesive and 10 to 12 parts by weight of a curing agent per 70 parts by weight of loess powder. A liquid tourmaline (liquid tourmaline The functional paint is applied or sprayed on the surface of the bottom insulating panel 100 on which the line grooves 120 are formed, and cured for a predetermined period of time.

The bottom surface 110 of the pipe 110 is formed on one surface and the line groove 120 is formed on the other surface of the functional coating layer 130.

7, the slab arranging step S0 is a step of arranging the floor on which the heating is to be installed, that is, the slabs 500, in a clean manner The slab 500 is the bottom portion of the building without heating, the slab 500 is generally concrete, and the surface of the slab 500 is cleaned and arranged in a flat state.

6, the bottom insulation panel installation step S1 is a step of installing the bottom insulation panel 100 on the slabs 500 arranged in a line, and the installation direction of the bottom insulation panel 100 according to the heating heat source However, when the heating source is a hot water boiler (hot water heating), the pipe groove 110 is formed to face upward, and when the heating heat source is the heating wire 300 (electric heating) (120) is formed upward.

On the other hand, if necessary, waterproof paper such as a vinyl, rubber sheet, or resin sheet, which is waterproof, is applied to the slab 500 to prevent moisture before the bottom insulating panel 100 is installed.

4 and 6, the heating element mounting step S2 is a step of installing a heating element such as the hot water pipe 200 or the heating wire 300 on the installed bottom insulating panel 100. As shown in FIGS. 4 and 6, The hot water pipes 200 are installed in the respective pipe grooves 110 so that the hot water pipes 200 enter the bottom insulating panels 100 provided thereon, And then let it out.

Alternatively, as shown in FIG. 5, when the line grooves 120 of the bottom insulating panel 100 are arranged to be exposed upward, the heating wires 300 are uniformly wired to the respective line grooves 120.

4 and 6, the heat dissipating bracket 400 is installed on one surface of the heat dissipating plate 410. The heat dissipating bracket 400 is mounted on the heat dissipating body 410, The support bracket 420 is integrally formed with the heat dissipation bracket 400. The heat dissipation bracket 400 is made of a metal having excellent thermal conductivity such as aluminum.

The heat dissipating bracket 400 has a predetermined length and a width of the heat dissipating plate 410 of the heat dissipating bracket 400 installed in the pipe groove 110 is larger than a width of the pipe groove 110, 400 are formed to be smaller than the width of the pipe grooves 110. [0053]

The width of the heat dissipation plate 410 of the heat dissipation bracket 400 provided in the line groove 120 is set to be larger than the width of the line groove 120 and the pair of support strips 420 formed on the heat dissipation bracket 400, Are formed to be smaller than the width of the line grooves 120.

The heat dissipation bracket 400 may be installed along the pipe groove 110 so that the support strip 420 is inserted into the pipe groove 110 in which the hot water pipe 200 is installed, The heat pipe 200 is installed along the line groove 120 so that the support plate 420 is inserted into the heat pipe 300 and the heat pipe 300 is installed, The heat of the heat exchanger 300 is transferred to the upper part and diverged.

Finally, the floor finish material installing step S4 is a step of finishing the installed floor finishing material 600 by crushing the installed floor finishing material 600, and the floor finishing material 600 may be used as a finish material, a wood floor finishing material, a tile, The floor is closed using the floor finishing material and the adhesive agent such as a welding agent is applied between the floor finishing materials 600 according to the type of the floor finishing material 600 to be installed and the jointing work is performed, (Wall) to which the floor insulation panel 100 is in contact, and a dry heating method using the floor insulation panel 100 is completed in this finishing step.

When the hot water pipe 200 is piped to the bottom heat insulating panel 100, the hot water of the boiler flows into the hot water pipe 200, And completes construction of the boiler so that electricity can be supplied to the heating wire 300 when the heating wire 300 is wired to the bottom insulating panel 100. [

As described above, the floor heating panel according to the present invention is characterized in that the floor heating panel can be applied to the heating by the hot water pipe 200 or the dry heating by the heating wire 300, In the heating structure, when the hot water pipe 200 is piped by the floor insulation panel 100 to heat the floor, the functional coating layer 130 on the bottom surface of the floor heating panel increases the heat insulation property, And the heat is uniformly radiated by the upper heat generating bracket.

When the heating wire 300 is wired and heated by the bottom insulating panel 100, the functional coating layer 130 on the bottom surface of the bottom heating panel increases the heat insulating property to prevent the heat from falling down, Since the heating wire 300 is embedded along the line groove 120 and is protected by the heat generating bracket, the heating wire 300 is prevented from being damaged by repeated heating of the heating wire 300, Is minimized, and the heat is uniformly radiated by the upper heat-generating bracket.

For the reference, loess and tourmaline applied to the functional coating layer will be briefly explained. First, loess has beneficial minerals and many weaknesses in the human body. It emits a large amount of far-infrared rays, has a humidity control function, insulation and warming function, And has an antibacterial, insecticide and deodorizing effect by the action of the soil microorganisms and enzymes, and an air purification function by the pollutant removing effect.

Tourmaline (tourmaline, tourmaline, and electrochemical) is a kind of silicate minerals. It is known to generate electricity and emit far-infrared rays. Far infrared rays penetrate deep into our body to warm the cells and improve blood circulation. It is known that tourmaline has far infrared emissivity nearly 100%, which is more beneficial to human body than other minerals. Tourmaline is a kind of mineral, and it is known that it has heat accumulation function together with loess.

100: bottom insulating panel 110: pipe groove 120: line groove
130: Functional coating layer 200: Hot water pipe
300: heating wire 310: protection tube
400: heat dissipating bracket 410: heat sink 420: support
500: Slab 600: Floor finish

Claims (5)

In a bottom insulating panel of a heat insulating material used for dry heating construction,
The functional insulation film layer is formed on the surface of the bottom insulation panel on the side where the line groove is formed, and the functional coating layer is formed of the loess powder And a floor insulation panel constituted by tourmaline,
It is a double-sided flooring insulation panel for heating which is characterized by the ability to install hot water pipes or heating wires according to the site through the floor insulation panels and to increase the heat insulation by functional coating layers.
The method according to claim 1,
Wherein the functional paint layer comprises 10 to 15 parts by weight of liquid tourmaline, 10 to 12 parts by weight of an adhesive, 10 to 12 parts by weight of a curing agent 10 To 12 parts by weight,
Wherein the floor insulation panel is made of a heat insulating material prepared by adding graphite or a flame retardant to foamed beads.
A method of dry heating installation in which hot water pipes are piped and heated,
A bottom insulation panel mounting step (S1) of installing a bottom insulation panel according to claim 1 or 2 on a floor, with a pipe groove formed on the floor up;
A step S2 of installing a hot water pipe in the pipe groove of the installed bottom insulating panel so that the hot water pipe enters the installed bottom insulating panel and is uniformly piped and then comes out;
The heat dissipating bracket is made of a metal material having a pair of protrusions protruding from one surface of the heat dissipating plate. The heat dissipating bracket includes a heat dissipating bracket Installation step S3;
Wherein the floor heating construction is completed in a floor finishing material installation step S4 in which a floor finishing material is laid over the installed floor insulation panel and the heat dissipation bracket.
1. A dry heating method for heating a heating wire by wiring,
A bottom insulation panel mounting step (S1) of installing a bottom insulation panel according to claim 1 or 2 on a floor, with a surface with a line groove formed upward;
A heating element mounting step (S2) for uniformly installing the heating wire in the pipe groove of the installed bottom insulating panel;
A heat dissipating bracket is installed along the pipe groove provided with the heating wire, wherein the heat dissipating bracket is made of a metal material having a pair of supporting protrusions protruding from one surface of the heat dissipating plate, and the heat dissipating bracket Step S3;
Wherein the floor heating construction is completed in a floor finishing material installation step S4 in which a floor finishing material is laid over the installed floor insulation panel and the heat dissipation bracket.
5. The method of claim 4,
The heating wire to be wired in the heating element mounting step (S2)
A method of dry heating installation using a carbon fiber heating element, comprising the steps of: using a carbon fiber line or a carbon fiber heating wire of a structure in which a carbon fiber line is surrounded by a protective tube of an insulated wire.

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