KR101495817B1 - Heating Film Contain Jade - Google Patents

Abstract

The present invention relates to a heating film, in particular, a carbon heating element of a heating film is manufactured by mixing a jade powder and a carbon paste to generate heat uniformly over the entire surface of the heating film, thereby improving the thermal conductivity, So as to enhance the health of the human body in addition to heating.

Description

Heating Film Containing Jade {Heating Film Contain Jade}

The present invention relates to a heating film, in particular, a carbon heating element of a heating film is manufactured by mixing a jade powder and a carbon paste to generate heat uniformly over the entire surface of the heating film, thereby improving the thermal conductivity, So as to enhance the health of the human body in addition to heating.

Heating films that generate heat by electric current are widely used for domestic and industrial use because of easy temperature control and no harmful gas or noise during operation.

The initial product of the heating film uses a metal wire as a heat generating material. However, since a local heat is generated only in a heating wire portion, uniformity of the temperature distribution is lowered. Recently, carbon paste is applied over the entire surface of the carbon layer instead of the metal heating wire A heating film which can uniformly generate heat across the entire surface of the heating film is mainly used.

The heating film is used for household and industrial purposes, such as a window or a heating mat for a vehicle, a heating garment for cold weather, a dryer for agricultural and marine products, and a device for preventing freezing of roads and parking lots.

In recent years, efforts have been made to release far-infrared rays by mixing minerals such as charcoal, jade, yellow soil, and elvan, not just simple heating. That is, Korean Patent Registration No. 0806764 (a surface heating element added with jade) shows a surface heating element printed with a far infrared ray radiation printed in the form of an octagon in an empty space between the carbon layers in the heating portion. However, There is a problem that it must be installed. On the other hand, Korean Patent Laid-Open Publication No. 2011-0118286 (a warm mat using a surface heating element) allows a gel-like oxime composition to permeate between the carbon surface heating element and the netting to control free flow by the carbon surface heating element and net, The present invention provides a thermal mat which is configured such that the oxime composition is heated by directly heating the carbon surface heating element. However, the heating mat may form a silicon coating layer covering the carbon surface heating element, the mesh and the oxime composition in a bag shape, The structure of the cushion layer and the surface of the cushion layer is complicated by covering the outer surface with a fabric or an appropriate material. Korean Patent No. 0662013 (seat-type waist protector) also comprises a far-infrared radiation material separately. In addition, since all the above-mentioned patents are provided separately with the jade and carbon heating elements, expensive jade is used more than necessary, resulting in an increase in production cost.

Therefore, it is desired to develop a heating film that can use the active ingredient of the jade sufficiently while using a minimum amount of jade and a simple structure of the heating film while using a small amount of jade.

The present invention has been developed in order to achieve the above-mentioned object, and it is an object of the present invention to provide a heating apparatus and a method of manufacturing a carbon- By developing the film, it became possible to solve it.

The heating element of the heating film is integrally formed with the jade, so that the heat can be uniformly transferred to the entire surface area of the heating film, and the heat of the heating element is directly transferred to the jade, so that far infrared rays and negative ions can be sufficiently emitted even at a relatively low temperature.

Also, by developing a carbon heating element which is made of carbon and jade by mixing the powder of jade and carbon paste, it is possible to enjoy the original effect of jade while using the least expensive jade.

1 is an exploded perspective view of a conventional heating film.

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

1 is an exploded perspective view of a conventional heating film.

As shown in the figure, the conventional heating film includes a carbon heating element 10 coated with carbon paste over the entire surface of the carbon layer so as to uniformly heat the heating film over the entire surface of the heating film, An insulating layer 30, a copper booth bar 20 laminated on the insulating layer 30 located on the upper surface of the carbon heating element 10, and a protective film 40 laminated on the upper surface of the copper bar 20, And the heating film can generate heat by an electric cord (not shown).

In the present invention, the existing heating film is used as it is, but only the carbon heating element is modified so that the jade becomes a part of the carbon heating element, so that the far infrared ray and the anion can be sufficiently emitted without energy consumption.

For this purpose, in the present invention, a crude carbonaceous powder is prepared by blending the jade powder and the carbon paste, and then a carbon heating element is prepared from the carbonaceous raw material. In another embodiment of the present invention, after the jade powder is fused to the nonwoven fabric, the nonwoven fabric is attached to the carbon heating element so that the nonwoven fabric and the carbon heating element are integrated. Further, a mixture of jade powder and dyestuff was prepared, and the mixture was dyed with a nonwoven fabric and adhered to a heating film. As a result, the heating film becomes turquoise and the merchantability can be increased.

Or a jade powder is mixed with an adhesive to produce a heating film, the same effect can be obtained by attaching the carbon heating element and the insulating layer using the adhesive containing the jade.

Hereinafter, the embodiments will be described in order.

1. When making a carbon heating element from carbon stock solution prepared by mixing jade powder and carbon paste

Jade is a collective term for microcrystalline or siliceous minerals consisting of pyroxene, amphibole, serpentine and silica and has been used all over the world since the Stone Age as a source of weapons, money, amulets, ornaments or crafts. Jade is used widely as a medical minerals for health as well as traditional use as a jewel.

Jade is used for jadeite and jewelery, and for medical use, it is expensive nephrite.

Nephrite contains calcium and magnesium, which are extremely important minerals in the human body. Among them, magnesium accounts for more than 40%. Magnesium is a constituent of chlorophyll.

On the other hand, since the cells constituting the human cells are also made of magnesium, the waves coming from the jade are the same as those of the human cells, so that the waves radiating from the breathing jade penetrate all over the human cells, Revitalization, circulation of blood, weak alkalization of blood, and excretion of harmful waste products in the body.

When jade receives heat, far-infrared rays and negative ions are emitted.

Far infrared rays penetrate deeply into the skin of human body up to 40mm to promote the movement of molecules constituting human cells to warm the body from inside the body, thereby maintaining the body temperature at an appropriate temperature (thermal action) and promoting growth. In addition, it maintains proper moisture in the human body and promotes waste excretion.

In addition to eliminating odors, it also breaks down various nutrients to balance and promotes metabolism. Far infrared rays are best known to the human body when they are released by more than 88% at 40 ℃.

The table below shows the experimental results of the materials research institute, which shows that the radiant energy is greater when it is released more than 88% at 40 ℃.

Temperature

Emissivity
Radiant energy
Issue number
40 ℃

89.2%
3.60x100
FIR-194

On the other hand, negative ions are present in the forests, waterfalls, and beaches, making them feel refreshing and comfortable. In addition, negative ions prevent the aging of cells by inhibiting the production of active oxygen, making the blood alkaline and prevent the acidification of the blood is very beneficial to the human body.

In the present invention, 10 to 30% by weight of the jade powder and 70 to 90% by weight of the carbon paste, which have a beneficial effect on the human body as described above, are mixed to prepare the carbon stock solution, and the carbon stock solution is applied to the entire surface of the heating element) To prepare a carbon heating element (10). At this time, the thickness of the film used as the carbon heating element 10 is preferably 0.2 to 0.4 mm.

When the carbon heating element 10 containing jade is heated as described above, the jade component contained in the carbon heating element 10 immediately receives the heating of the carbon heating element 10 immediately, and immediately emits far infrared rays and anions, It can be utilized.

If the content of the jade powder is less than 10 wt%, the effect of the jade is remarkably decreased. On the other hand, if the content of the jade powder exceeds 30 wt%, the expensive jade is excessively used and the manufacturing cost is greatly increased.

2. When the jade powder is fused to the nonwoven fabric and the nonwoven fabric is attached to the heating element

As described above, it is the most cost-effective to produce the carbon heating element by mixing the jade powder and the carbon paste to prepare the carbon stock solution and then applying the carbon stock solution to the film, and the jade effect can be most effectively exhibited. However, There is also a way to use it by fusion. That is, after the jade powder was fused to the nonwoven fabric, the nonwoven fabric was attached to the carbon heating element 10 so that the nonwoven fabric and the carbon heating element 10 were integrated.

3. Dyeing non-woven fabric with mixture of jade powder and liquid dye and attaching to carbon heating element

Further, a mixture of the jade powder and a liquid dye was prepared, and the nonwoven fabric was dyed with the mixture to be attached to the carbon heating element 10. In this case, the blending ratio of the mixture is 10 to 30% by weight of the jute powder and 70 to 90% by weight of the liquid dye. As a result, the heating film becomes turquoise and the merchantability can be improved.

4. Making a heating film using an adhesive containing jade powder.

Also, when preparing a heating film by mixing the jade powder with an adhesive, the film and the insulating layer are attached using the jade-containing adhesive to prepare a carbon stock solution by mixing the jade powder and the carbon paste, and then the film is made with the carbon stock solution The same effect can be seen in one case.

10: carbon heating element 20: copper bar
30: insulating layer 40: protective film

Claims (2)

delete A carbon heating element 10 coated with carbon paste over the entire surface of the carbon layer so as to uniformly generate heat across the entire surface of the heating film, an insulating layer 30 laminated on the upper and lower surfaces of the carbon heating element 10, And a protective film 40 laminated on the upper surface of the copper bar 20. The heating film is electrically connected to the electric wire 10, In a heating film which can be heated by a cord,
The carbon heating element 10 includes
The mixture of 10 to 30% by weight of the jute powder and 70 to 90% by weight of the liquid dye is mixed to form a mixture. The mixture is dyed with the mixture and attached to the carbon heating element 10 to emit at least 88% A heating film containing jade, characterized in that the heating film

Images