KR100703029B1 - Heating Unit with Good Resistance Properties - Google Patents

Abstract

The present invention relates to a planar heating element having excellent resistance characteristics. The planar heating element having excellent resistance characteristics according to the present invention includes a conductive resistor coated with carbon ink on a glass fiber or polyethylene terephthalate (PET) film, and both ends of the resistor. And an adhesive insulating material laminated on a nonwoven fabric stacked on the upper and lower surfaces of the resistor, the electrode being elongated in the resistor, and is pressed by hot press.

Accordingly, the use of the nonwoven fabric prevents the adhesive component of the adhesive insulating material from penetrating into the resistor and thereby lowers the resistivity characteristic of the resistor, and also generates heat uniformly throughout the planar heating element, thereby improving heat generation efficiency. There is an advantage.

Planar heating element, resistor, nonwoven fabric, resistance characteristic

Description

Planar heating element with excellent resistance characteristics {Heating Unit with Good Resistance Properties}             

1 is an exploded perspective view showing the structure of a conventional planar heating element.

Figure 2 is an exploded perspective view showing the structure of the planar heating element according to the present invention.

** Description of reference numerals for major parts of the drawings **

1: resistor 2: electrode

3: nonwoven fabric 5: adhesive insulation

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a planar heating element having excellent resistance characteristics. The present invention relates to a mat type planar heating element which has electrodes installed at both ends of carbon fibers and converts electrical energy into thermal energy through electrical resistance of carbon.

As shown in FIG. 1, a conventional planar heating element includes a resistor 101 made of paper and a planar shape, an electrode 102 provided at both ends of the resistor 101, and the resistor 101. It is made of an insulating material (103) laminated on the upper and lower surfaces of the press is manufactured by pressing with a hot press.

What is known as a manufacturing method of a planar heating element is the method using carbon fiber mostly. This method has a problem that carbon fibers cannot be uniformly applied, and thus the temperature distribution variation of the finally produced planar heating element is large. Moreover, carbon fiber is very expensive, which contributes to a rise in manufacturing costs. In addition, the movement and distortion of the carbon fiber occurs due to the pressure during hot press molding, causing a temperature deviation.

There are a few cases in which conductive ink is prepared by mixing general thermoplastic polymer with carbon powder as a binder, but since the method of applying to heating paper is silk screen printing method, there is a limit on the coating area and is coated by pressing force. Because of this method, if the force and squeegee blade angles are not always constant, there is a problem that the temperature is increased due to the change in coating thickness.

Korean Patent Laid-Open Publication No. 10-2004-0089969 filed by the present applicant to improve the above problems (name of the invention: high-temperature and general-purpose carbon ink, continuous dip coating apparatus for carbon paper production and high-temperature and general-purpose surface heating element And a method for manufacturing the same) disclose a planar heating element produced by attaching electrodes to conductive carbon paper coated with carbon powder on paper and attaching various kinds of insulating coating materials.

In the planar heating element, the adhesive insulating material 103 made of epoxy resin is partially infiltrated into the resistor 101 by hot and high pressure during hot press molding. As such, when the epoxy resin penetrates into the resistor 101, a problem arises in that the resistivity characteristic of carbon is degraded. In addition, the resistance heat generated from the conductive carbon paper is not generated evenly as a whole, there is also a problem that the thermal efficiency is lowered.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to prevent the adhesive insulating material from penetrating the resistor of the conductive carbon coated glass fiber to improve the resistivity characteristics of the resistor It is to provide a planar heating element that is excellent in the heat generating efficiency, and less risk of fire, and excellent resistance properties of the planar heating element by preventing the fall, by generating heat uniformly throughout the planar heating element.

The present invention for achieving the object as described above, the conductive carbon coated surface of the resistor coated with carbon powder on a glass fiber or polyethylene terephthalate (PET) film, the electrode is installed on both ends of the resistor, It consists of a non-woven fabric laminated on the upper and lower surfaces of the resistor, and an adhesive insulating material of glass epoxy prepreg laminated on the upper and lower surfaces of the nonwoven fabric, it is characterized in that it is pressurized by a hot press produced.

In addition, the carbon ink used in the present invention includes nitrocellulose, a solvent, a carbon powder, and a surfactant, and the solvent uses a composition using any one or more selected from toluene, xylene, acetone, and thinner. The carbon ink of the composition is preferably applied to a polyethylene terephthalate (PET) film.

Other compositions of the carbon ink used in the present invention include a zirconia sol solution or an alumina sol solution or a mixture of both, carbon powder and a surfactant, and the zirconia sol solution includes zirconia alkoxide, silane, silica sol, nitric acid and solvent. It includes, the alumina sol solution is characterized in that it comprises aluminum alkoxide, silane, silica sol, nitric acid and a solvent, the solvent is any one or more selected from isopropyl alcohol, methanol, ethanol. Carbon ink of the composition is preferably applied to the glass fiber.

The coating of the carbon ink on the PET film is suitable for the preparation of the low-temperature planar heating element, and the glass fiber using the carbon ink containing the zirconia sol solution or the alumina sol solution is suitable for the preparation of the high-temperature planar heating element, The heating element is not limited to the use for low temperature and high temperature, and may be selectively used as necessary.

Preferably, the nonwoven fabric of the present invention is a polyester fiber, but is not limited thereto, and any nonwoven fabric can be used.

In addition, the pressurized and heated conditions used in the present invention are characterized in that the temperature is gradually raised from room temperature to 180 ° C. for 2 hours at a pressure of 8 to 10 kg / cm ² .

Hereinafter, a planar heating element having excellent resistance characteristics according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

The planar heating element of the present invention includes a high temperature planar heating element or a general planar heating element, but is not limited thereto.

As shown, the planar heating element having excellent resistance characteristics according to the present invention includes a resistor 1 made of glass fiber or polyethylene terephthalate (PET) film coated with conductive carbon ink, and electrodes provided at both ends of the resistor. (2), the nonwoven fabric 3 laminated | stacked on the upper and lower surfaces of the said resistor 1, and the adhesive insulating material 5 laminated | stacked on the upper and lower surfaces of the said nonwoven fabric.

The resistor 1 is a glass fiber or polyethylene terephthalate (PET) film coated with a conductive carbon ink.

The principle of heat generation of the resistor 1 is to use the principle of heat generation by the resistive resistance of the resistor 1 when it is energized by the electrodes 2 provided at both ends of the resistor 1.

The carbon ink is disclosed in Korean Patent Application Laid-open No. 10-2004-0089969 filed by the present applicant (name of the invention: high-temperature and general-purpose carbon ink, continuous dip coating apparatus for producing carbon paper, and high-temperature and general-purpose planar heating element and its manufacturing method) The high temperature carbon ink or the general carbon ink disclosed in the above) may be used, for example, a zirconia sol solution including zirconia alkoxide, silane, silica sol, nitric acid and solvent or aluminum alkoxide, silane, silica sol, Alumina sol solution or mixture of both, nitric acid and solvent, carbon powder and surfactant. The solvent preferably contains water and further includes at least one selected from the group consisting of alcohol and acetone. Examples of the alcohol include isopropyl alcohol (IPA), methanol, ethanol and the like. The content of the carbon powder is preferably 5 to 50% by weight depending on the resistance required by the planar heating element to be produced. If it is less than 5% by weight, there is a problem in that the resistance of the finally prepared conductive ink is high, and if it exceeds 50% by weight, the coating state is poor due to poor adhesion between the coating and the ink after coating.

In addition, general-purpose carbon inks include nitrocellulose, solvents, carbon powders and surfactants.

The solvent is preferably at least one selected from the group consisting of toluene, xylene, acetone and thinner, and the other composition is the same as the high temperature carbon ink.

The electrode 2 is usually installed parallel to both ends of the resistor 1 to supply current to the resistor 1. The electrode 2 is a copper foil, a copper tape, an aluminum foil, a silver foil, a silver tape of about 10 mm in width and excellent electrical conductivity.

The nonwoven fabric 3 improves the conventional problem that the epoxy resin component of the adhesive insulating material 5 penetrates the resistor 1 when pressure is applied by using a hot press during the planar heating element manufacturing. 1) prevents the deterioration of the resistance characteristics. The nonwoven fabric 3 is made of polyester fibers, preferably a flame retardant polyester nonwoven fabric.

As said adhesive insulating material 5, glass epoxy prepreg is preferable. These are laminated and adhered according to the desired thickness.

According to the present invention, printing such as gravure printing, offset printing, rotary screen printing, silk printing, etc. can be performed by a conventional method in order to give a decorative effect to the upper surface of the adhesive insulating material of the glass epoxy prepreg. have. It is also possible to bond the paper or film printed by the above printing method to the upper layer of the insulating material without printing directly on the insulating material.

Laminating to have the above-described structure and pressurized using a hot press to produce a planar heating element. At this time, the pressurized and heated conditions are manufactured by gradually raising the temperature for 2 hours from normal temperature to 180 ° C. at a pressure of 8 to 10 kg / cm ² . When hot pressing is performed as described above, the epoxy component of the adhesive insulating material 5 penetrates into the nonwoven fabric 3 and thus does not affect the resistor 1, thereby preventing the resistance of the resistor 1 from being lowered. . Accordingly, as in the prior art, the epoxy resin component of the adhesive insulating material penetrates into the resistor, thereby reducing resistance characteristics of the penetrated portion, thereby improving the problem of uniformly generating heat throughout the planar heating element, thereby improving heat generation efficiency.

Although the present invention described above has been described in detail only with respect to specific examples described, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims. It is natural.

As described above, the planar heating element having excellent resistance characteristics according to the present invention prevents the adhesive component of the adhesive insulating material from penetrating into the resistor and deteriorates the resistivity characteristic of the resistor, and generates heat uniformly throughout the planar heating element. There is an advantage that the heat generating efficiency is excellent. In addition, there is an effect of extending the life of the planar heating element by improving the durability of the planar heating element.

Claims (6)

Conductive resistor coated with carbon ink on glass fiber or polyethylene terephthalate (PET) film, Electrodes provided at both ends of the resistor for a long time; Non-woven fabric laminated on the upper and lower surfaces of the resistor, It consists of an adhesive insulating material of glass epoxy prepreg laminated on the upper and lower surfaces of the nonwoven fabric, The planar heating element having excellent resistance characteristics, characterized in that is produced by pressing the hot press. The method of claim 1, The carbon ink coated on the resistor includes nitrocellulose, a solvent, carbon powder, and a surfactant, and the solvent has an excellent surface resistance property, characterized in that any one or more selected from toluene, xylene, acetone, and thinner is used. Heating element. The method of claim 1, The carbon ink applied to the resistor includes a zirconia sol solution or an alumina sol solution or a mixture of both, carbon powder and surfactant, The zirconia sol solution includes zirconia alkoxide, silane, silica sol, nitric acid and solvent, The alumina sol solution includes aluminum alkoxide, silane, silica sol, nitric acid and a solvent, The solvent is a planar heating element having excellent resistance characteristics, characterized in that any one selected from isopropyl alcohol, methanol, ethanol. The method of claim 1, The nonwoven fabric is a planar heating element having excellent resistance characteristics, characterized in that the polyester fiber. The method of claim 1, The pressurized and heated condition is a planar heating element with excellent resistance characteristics, characterized in that the temperature is gradually raised from room temperature to 180 ℃ for 2 hours at a pressure of 3 to 10kg / cm ² . The method of claim 1, To give a decorative effect on the upper surface of the adhesive insulating material of the glass epoxy prepreg (glass epoxy prepreg) characterized in that the printed paper or film is attached to any one selected from gravure printing, offset printing, rotary screen printing, silk printing Planar heating element with excellent resistance characteristics.

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