KR20010094501A - Process for manufacturing the electric resistance using heating substance of graphite powder - Google Patents

Abstract

PURPOSE: A method for manufacturing resistor by using carbon-graphite pyrogen is provided to reduce the radiation of electromagnetic wave by using the carbon-graphite pyrogen. CONSTITUTION: A coating layer(3) is coated on a surface of an insulating film(2). A mixture with a carbon-graphite of 95 % and an adhesion material of 5 % is coated on the insulating film(2). The mixture is used as a pyrogen. And, the insulating film(2) coated with the mixture is dried in a pre-heater at a temperature of 60°C during about ten minutes. Then, a resistor(100) is manufactured. The resistor(100) is pressed by a press roller and dried again in a heater at a temperature of 60°C. And, the resistor(100) is dried in a cool location during ten minutes. The resistor(100) reduces the radiation of electromagnetic wave, because the carbon-graphite is employed in the resistor(100).

Description

Process for manufacturing the electric resistance using heating substance of graphite powder}

The present invention relates to a method for manufacturing a resistor using a graphite heating material, and in particular, after applying an adhesive and graphite having an adsorption force to an insulating film on a predetermined amount of a mixing ratio, the graphite heating material having a low resistance is completely completed on the insulating film using a high pressure roller. After pressing and bonding, the non-metallic resistor having a dense and consistent resistance is produced by high temperature heat, and when the power is supplied, the power is converted into a resistance and very high heat is generated from the graphite heating material, which is harmful to the human body. Is extremely low and relates to a resistor manufacturing method using a graphite heating material that can generate heat emitted by far-infrared rays, which is beneficial to the human body due to the characteristics of the ore.

In general, when electric power is supplied to the heating wire of the power coil arranged in a zigzag inside of the electric blanket, the electric heating plate emits heat to the surface of the electric blanket while the heat is emitted at a high temperature by the power heating wire. It is very detrimental to the power consumption, and the use of electric blankets for a long time can not ignore the power consumption.

In addition, in recent years, yellow earth discharge electric plates and electric floor plates for ondol have been widely constructed, but as the manufacturing process is very complicated, the price increases, expensive problems, and power consumption are increased. Even when you want to carry very uncomfortable and there was a inconvenience to be limited to fixed.

On the other hand, wallpaper using graphite is manufactured. These products are products that are mixed with graphite and ocher for the purpose of removing antibacterial and odor, and coated on ordinary wallpaper. There was this.

The present invention has been made in view of the above problems, graphite has a very small resistance value as a unit particle, and when viewed with a magnifying glass, it has a spun-shaped structure, so when two unit particles are generally compressed, they do not have a function as a resistor. It is not widely used in the original equipment.

However, in a special case made of various metal powders (silver, special compounds), some electronic component manufacturers are currently used as variable resistance carbon (CARBON) of acoustic equipment and are only used for high resistance variable per unit area.

In addition, graphite is present in the form of particles at 4500 ℃ or lower, but is changed to gasification at a temperature higher than that. Graphite and various special compounds are mixed to produce a liquid (graphite is solid), and then a resistor plate is manufactured. Graphite is mainly supplied as a solution to a company. Graphite has carbon as its main component, and especially when it generates high heat, it has the property of containing heat. Recently, it is widely known as a material that generates far-infrared rays, which is beneficial to the human body. According to the present invention, the present invention provides a thin film of an insulating film, which serves as an insulating layer, and a graphite heating material made of a high purity graphite material on the insulating film, which is strongly pressed by a high pressure roller, and compacted by high temperature heat. By hardening constantly to produce resistors with non-metallic resistors When the power is applied, the power is converted into a resistor, and the amount of heat emitted from the resistor by the resistor becomes very high while minimizing the electromagnetic waves emitted to the surface by the power, and emits far-infrared rays which is beneficial to the human body due to the characteristics of the ore. The purpose is to provide a resistor manufacturing method using ash.

1 is an exploded perspective view of the present invention,

2 is a perspective view showing a state in which the present invention is combined;

Figure 3 is an enlarged longitudinal sectional view of the main portion of the present invention.

Figure 4 is an enlarged cross-sectional view showing a state filled with a graphite heating material in the heat-resistant pipe in another embodiment of the present invention.

<Description of the reference numerals for the main parts of the drawings>

DESCRIPTION OF SYMBOLS 1 Graphite heat generating material 2 Insulation film paper 3 Coating layer

4: heat resistant pipe 100: resistor

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

When power is applied to the resistor of the present invention, the power is converted into a resistor, and the amount of heat emitted from the resistor by the resistor becomes very high at about 30 to 50 ° C. to minimize the electromagnetic waves emitted to the surface by the power source, and due to the characteristics of the ore Resistor 100 for emitting far-infrared rays, which are beneficial to the human body, has an insulating film sheet which has a graphite heating material 1 made of a graphite material having a predetermined purity and has an insulating role on both sides of the graphite heating material 100. 2) and a thin coating of the coating layer (3) is strongly pressed with a high-pressure roller and dense and consistently hardened by high temperature heat and dried to produce a non-metallic resistor to generate heat.

Referring to the configuration and effect of the present invention configured as described in more detail as follows.

1 is an exploded perspective view of the present invention, Figure 2 is a perspective view showing a state in which the present invention is combined, Figure 3 is an enlarged longitudinal sectional view of the main portion of the present invention, Figure 4 is a graphite inside the heat-resistant pipe in another embodiment of the present invention It is an expanded sectional view which shows the state which filled the heat generating material.

1 to 3, first, the coating layer 3 is applied to the surface of the insulating film 2 thinly, and the adhesive 5 having 95% graphite and adsorptive force on the insulating film 2 having excellent insulating properties. After mixing and coating the%, dry it for about 10 minutes in the preheating furnace at about 60 degrees.

As described above, the resistor 100 dried primarily is passed through a high-pressure rolling roller to be strongly pressed, and then dried again while being transported at a speed of 5 M / min in a heating furnace of about 60 degrees.

As described above, if the resistor 100 dried in the primary and secondary is left to cool for 10 minutes in a slow cooling place, the resistor of the finished product is completed.

On the other hand, the technical characteristics of the present invention are as follows.

1. Insulation film paper and graphite resistance is 10Ω / M, (30mm width × 1000mm length × 0.3 thickness),

2. Applicable voltage is: DC 12V ~ 24V (Note: AC 240V is dangerous because it is high voltage),

3. The amount of heat generated (Kcal) is: 0.24 × 1² × RX Time =

4. The generation temperature (℃) is about 30 ℃ ~ 50 ℃ (temperature = Kcal / (weight × ratio),

5. Allowable current (A): 1A ~ 2A,

6, capacity (W): W = (voltage × voltage) / insulation film paper graphite resistance = 14.4W ~ 57.6W.

(The smaller the capacity (W), the lower the power consumption rate (Kwh).)

On the other hand, the resistance rises as described above, if the far-infrared rays are radiated to the surface of the sheet by the characteristics of the ore, it is beneficial to the human body and very strong in chemical reactions, causing the action of increasing poisons harmful to the human body such as cement. will be.

In addition, the use of graphite that generates a high heat generation as described above can reduce the consumption of electricity or power consumption and emit far-infrared rays, which is beneficial to the human body, and in particular, it can minimize the deadly electromagnetic waves.

In addition, the resistor using the graphite heating material prepared as described above is another embodiment of the present invention for electric hot stone flooring, electric blankets, general flooring, bed sheets, medical sheets, electric cushions (restaurants, etc.) It is possible to install and use resistors made of graphite heating material instead of heating wire of general electric blanket. The distance that electromagnetic wave is generated by power is tested at a distance of about 30cm. Although the electromagnetic wave of mm is generated, it can be found that the resistor of the present invention can break down to 1/3 by the allowable level of the electromagnetic wave as small as 100V / mm.

In addition, the power consumed by a general electric blanket when the unit is based on an hour is about 500 ~ 600W / h of power consumption in the present invention can maintain the same temperature at a low power of about 200 ~ 300W / h 110 When the electricity of ~ 220V is introduced, a low heat temperature of 30 ~ 50 ℃ suitable for the human body can be obtained.

In addition, as shown in FIG. 4, the graphite heating material 1 is filled into the heat resistant pipe 4 to prepare a non-metal resistor 100 so that the heat resistant pipe 4 may be used as a heat insulating panel or an electric sheet. It can be installed inside and used as an electric heating product.

In another embodiment, a recess is installed in the insulation panel for heating to fill the graphite heating material 1 in the recess, and the insulation film paper 2 is attached to the surface to manufacture the insulation panel for heating in which the non-metal resistor 100 is embedded. It is usable for the panel for the electric heating ondol or the insulation wall

As described above, when the power is applied to the resistor using the graphite heating material instead of the heating wire of the general floor plate by the power plug and the power control controller, the power input to the resistor by the output plug and the socket is made from the graphite heating material composed of minerals. It is converted to resistance and transferred to the surface of the resistor at a very high temperature, so there is no damage of electromagnetic waves generated from the power source, and far infrared rays are released to the human body, and when the ondol is installed with a resistor that is a graphite heating material, the temperature of the ondol surface is 30 ~ 50 ℃ Is maintained and little electromagnetic waves are generated by the electric field, so there is no negative effect on health.

In addition, when electric heating is performed by the resistor with graphite heating material, the electric field strength is only about 1/6 of the electric field allowable for human health. Therefore, there is no health damage caused by the electric field. Rather, the far infrared rays of the ore are emitted from the resistor. Therefore, people who suffered from neuralgia, arthritis, gastric disease, etc. can cure the bottle without knowing it.

Claims (4)

When power is applied to the resistor, the power is converted into a resistor, and the amount of heat emitted from the resistor is very high at about 30 to 50 ° C, minimizing electromagnetic waves emitted to the surface, and emitting far-infrared rays that are beneficial to the human body due to the characteristics of the ore. 100 is disposed inside the graphite heating material (1) made of a graphite material of a predetermined high purity, the insulating film paper (2) and the coating layer (3) to serve as an insulation on both sides of the surface of the graphite heating material, a thin coating of the coating layer (3) A method of manufacturing a resistor using a graphite heating material, characterized in that it is strongly pressed with a roller, dense and consistently hardened by high temperature heat, and then dried to produce a non-metal resistor. The method of claim 1, Using the graphite heating material, characterized in that the resistor 100 can be installed in the electric blanket, electric hot-plate flooring, general electric blankets, bed sheets, medical sheets, electric cushions (restaurants, etc.). Resistor The method of claim 1, The resistor 100 is filled with the graphite heat generating material 1 in the heat resistant pipe 4 to install the heat resistant pipe 4 inside the heating insulation panel or the electric plate to be used as an electric heating product. Method for producing a resistor using a graphite heating material. The method of claim 1, The resistor 100 is provided with a groove in the heating insulation panel to fill the graphite heating material (1) in the groove and to attach the insulating film paper (2) on the surface to manufacture a heating insulation panel in which the non-metal resistor 100 is embedded. A method for manufacturing a resistor using graphite heating material, which can be used for ondol for electric heating or panel for heat insulation wall.