KR20090076005A - Heating sheet and heating floor using thereof - Google Patents

Abstract

A heating sheet and a heating floor using the same are provided to obtain uniformity of the heating by forming a carbon layer on the heating sheet. A heating sheet includes a sheet(100) and a carbon layer. The sheet is formed by weaving a weft(110), a warp(120) and conductive yarns(150,160). The conductive yarn is woven in both sides and the center of the sheet. The conductive yarn woven in the center of the sheet conductive yarn is a positive electrode. The conductive yarn woven in both sides of the sheet is a negative electrode. The carbon layer is formed by dipping the sheet into the carbon paste. The carbon layer is coated on the outer surface of the weft, the warp, and the conductive yarn. The polyurethane resin layer is formed in the outer surface of the carbon layer to prevent the separation of the carbon layer.

Description

Heat sheet and heated sheet using the same {HEATING SHEET AND HEATING FLOOR USING THEREOF}

The present invention relates to a heating sheet and a heating sheet using the same, and more particularly, to a heating sheet and a heating sheet using the same, which improves the uniformity of heat generation and prevents the carbon layer from being separated from the heating sheet. It is about.

Boiler heating is the most common floor heating, but in recent years, the heating cost by installing a heating sheet on the floor has been widely installed in that the maintenance cost is soaring, complex construction and expensive construction cost is required according to the high oil prices.

For example, the applicant in the patent application No. 10-2006-108995, consisting of a bottom surface finishing the bottom, a planar heating element that generates heat by applying power and a sheet of paper closing the upper, the planar heating element is shown in Figure 1 As described above, the weaving paper 10 woven from the weft yarn 11 and the warp yarn 12, the carbon yarn 13 woven at a predetermined interval between the weft yarns 11, and radiating the application of current, and the carbon yarns ( 13 is introduced a heating plate provided with a far-infrared planar heating element comprising a conductive yarn 14 is woven on both ends in the longitudinal direction of the weft yarn 11 to apply a current to the carbon yarn 13 so that both ends thereof contact. . In the thermal barrier plate as described above, when a current is applied to the conductive yarn 14, the current flows through the carbon yarn 13 to generate heat of resistance.

However, such a hot plate has a disadvantage in that uniformity of heat generation is inferior in that the carbon yarns are woven at predetermined intervals between the weft yarns, so that the heat does not occur in the entire area of the planar heating element but only in the carbon dioxide position.

In addition, the carbon yarn is produced by coating and drying the carbon paste made of carbon black, acrylic resin, toluene resin and MEK on the outer surface of the yarn, and the carbon paste is separated from the outer surface of the yarn due to external friction. This occurred and accordingly there was a problem that heat is not generated in that portion.

The present invention has been made to solve the above problems, an object of the present invention is to improve the uniformity of the heat generation and at the same time to prevent the phenomenon that the carbon layer is separated from the heat sheet is separated from the heating sheet and a heat-resistant sheet using the same To provide.

The object of the present invention is a weft yarn and a warp are woven to each other, the sheet and the plurality of conductive yarns are woven in both sides and the center in the inclined direction; The sheet is dipped in carbon paste to include a carbon layer coated on the outer surface of the weft, warp, and conductive yarns, wherein the conductive yarns at the center of the sheet are + electrodes and the conductive yarns at both sides of the sheet are-electrodes. It can be achieved by providing a heat generating sheet and a heated sheet including the same, characterized in that the applied current is divided in the conductive yarns of both sides to generate resistance heat and then induced to the conductive yarns of both sides.

The heat generating sheet and the heated sheet using the same according to the present invention have an effect of improving the uniformity of heat generation and at the same time preventing the carbon layer from being separated from the heat generating sheet.

Hereinafter, with reference to the accompanying drawings will be described in detail a heat generating sheet and a heated sheet using the same according to the present invention.

2 is a view showing a heating sheet according to the present invention. Referring to the drawings, the heat generating sheet according to the present invention includes a sheet and a carbon layer.

The sheet 100 is a weaving sheet of the weft yarn 110 and the warp 120 woven with each other, the weft yarn 110 and the warp 120 is not easily deformed by heat to use a polyester high strength yarn strong heat shrinkage desirable.

In addition, a plurality of conductive yarns 150 and 160 are woven in the inclined direction at both sides and the center of the sheet 100. The conductive yarns 150 and 160 are wire currents made of a conductive material such as gold, silver, copper, stainless steel, and nichrome, and the conductive yarns 150 woven in the center of the sheet are + electrodes and the conductive yarns 160 woven onto the sheet sides are − Electrode.

The sheet 100 as described above is dipped in carbon paste, and as shown in FIG. 3, the carbon layer 170 is coated on the outer surfaces of the weft 110, the warp 120, and the conductive yarns 150 and 160. . The carbon layer 170 serves as a heat generating layer for generating heat of resistance to generate heat. On the other hand, the carbon paste is illustrative but is composed of approximately 9 parts by weight of carbon black, 15 parts by weight of acrylic resin, 26 parts by weight of toluene resin and 50 parts by weight of MEK.

The heat generating sheet according to the present invention configured as described above generates resistance heat while the current applied to the conductive yarn 150 in the center, which is the + electrode, is divided in the direction of the conductive yarn 160 on both sides, and then the conductive yarn 160 on both sides, which is the -electrode. Is induced. Therefore, since the carbon layer 170 is formed on the entire heat generating sheet, the entire area of the heat generating sheet generates heat, thereby ensuring uniformity of heat generation.

In addition, since the electric current is divided and flows from the central conductive yarn 150 to the conductive yarn 160 on both sides, the current can be improved even more than the known heating sheet flowing from one side to the other side. There is this. That is, in the case of the known heating sheet in which current flows from one side to the other side, the heat of resistance between the electrode and the center portion is severely generated because the resistance heat decreases at the center portion away from the electrode. Since the current flows by dividing the current from both sides of the central portion where the heat generation is a concern, the heating sheet having the same width can greatly reduce the heating deviation.

Here, the number of conductive yarns 150 woven in the center of the sheet is preferably configured to double the number of conductive yarns 160 woven on both sides. For example, in FIG. 2, the number of conductive yarns 160 on both sides is 7 lines, respectively, while the number of central conductive yarns 150 is 14 lines, which is the same as the number of conductive yarns 160 on both sides. When the current is divided in the direction of the conductive yarns 160 on both sides from the central conductive yarns 150, only half of the current applied to the central conductive yarns 150 flows to both sides to generate heat of resistance, thereby reducing the amount of heat generated. If, however, if a large amount of current is applied to the central conductive yarn 150, there is a risk of fire due to excessive application of current, so in the present invention, the number of conductive yarns 150 woven in the center is woven to the sides ( 160) to solve the above problems by configuring to double the number.

In addition, the outer surface of the carbon layer 170 coated on the outer surface of the weft, warp and conductive yarn is preferably coated with a polyurethane resin to prevent the hardened carbon layer from falling apart. That is, when the carbon face composed of carbon black, acrylic resin, toluene resin, and MEK is applied to the outer surface of the sheet and cured, the carbon face is separated and separated due to external friction, and no heat is generated in the separated part. The carbon layer is cured in the carbon layer so as not to be partially separated and separated, and then coated with a polyurethane resin. Here, the polyurethane resin layer 180 may be formed by dipping the heat generating sheet on which the carbon layer 170 is formed in the polyurethane resin liquid.

On the other hand, the heat generating sheet according to the present invention configured as described above can be used for a variety of applications, as an example, Figure 4 shows a heating sheet using the heat generating sheet according to the present invention.

Referring to FIG. 4, the heated sheet according to the present invention is constructed by sequentially stacking the bottom sheet 200 finishing the lower portion, the above-described heating sheet 100, and the sheet 300 finishing the top portion. Therefore, the current applied to the conductive yarn 150 at the center of the heat generating sheet generates resistance heat while dividing in the direction of the conductive yarn 160 on both sides, and the resistance heat heats the cardboard 200 and 300. In particular, the thermal insulation sheet according to the present invention can not only ensure cracked heat generation because the current is split induction from the center of the heating sheet to both sides, as well as there is no phenomenon that the carbon layer is separated due to the polyurethane coating layer is used for a long time It also has the advantage that it can be used without a heating deviation.

1 is a view showing a conventional heating sheet,

2 is a view showing a heating sheet according to the present invention,

3 is a view for explaining the polyurethane resin layer according to the present invention,

Figure 4 is an exploded perspective view of the heated sheet according to the invention.

Claims (4)

A weft yarn and a warp yarn being woven to each other, and a sheet having a plurality of conductive yarns woven in the warp direction at both sides and the center; The sheet is dipped in carbon paste, and includes a carbon layer coated on the outer surface of the weft, warp and conductive yarns. The conductive yarn in the center of the sheet is a positive electrode, and the conductive yarn in both sides of the sheet is a negative electrode, and the current applied to the conductive yarn in the center is divided in the conductive yarn directions of both sides to generate resistance heat, and then induced to conductive wires of both sides. Heating sheet. The method of claim 1, The number of conductive yarns woven in the center of the sheet is twice as large as the number of conductive yarns woven on both sides of the sheet. The method according to claim 1 or 2, The outer surface of the carbon layer coated on the outer surface of the weft, warp and conductive yarn, the heating sheet, characterized in that the coating with polyurethane resin to prevent the carbon layer from falling apart. Heated flooring plate made by sequentially stacking the bottom floor, the heating sheet according to claim 3 and the sheet of paper closing the top.

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