KR20090131559A - A calorific pad for a human body - Google Patents

Abstract

PURPOSE: A heating pad for the human body is provided to create the heat for its own without the external electric power supply and efficiently block out the heat to expand for outside direction. CONSTITUTION: The heating pad for the human body includes: a fabric layer(20); a graphite layer(30), coated in the surface of the fabric layer, for generating the heat inside the human body by generating the activating vibration after radiating and absorbing the far infrared rays to the human body in responsive to the body temperature of the human body; and a warmth keeping layer(40), attached to the surface of the graphite layer, for blocking off the diffusion of the heat generated from the inside of the human body by the graphite layer. The graphite layer includes the graphite 30~40 weight%, and resin paste 60~70 weight%.

Description

Heat pad for human body {A CALORIFIC PAD FOR A HUMAN BODY}

The present invention relates to a heating pad, and more particularly, to a heating pad for a human body capable of easily and efficiently generating heat of a predetermined temperature in connection with the body temperature of the human body.

In general, a heating element is a term that collectively refers to an object that generates heat under specific conditions, and the heating element is variously applied to various products including a mat.

In particular, research on far-infrared heating elements considering health has been actively conducted.

As far-infrared heating element, fluorite, nephrite, ceramic, ocher or graphite are already used, and among them, graphite having the highest far-infrared intensity as well as having a wavelength (4-12 μm) useful for the human body. It is already known that the wavelength of 4-12 µm is not only the most intense wavelength for generating excitation vibrations of living things but also the wavelength for generating cellular activity.

However, graphite is not only low in specific gravity, but also due to structural features such as atomic arrangement, it is easily broken in the form of flaky powder, which makes it difficult to stably maintain the installation state.

Therefore, although the characteristics of graphite itself are excellent, the situation is not properly utilized.

In addition, most of the heating elements using graphite have limitations in their use because they require a separate power source, and the structure thereof is considerably complicated, resulting in inferior fabrication and economic efficiency.

This, in turn, results in relatively lowering the functionality and usability of the heating element.

The present invention can generate heat itself without an external power supply, as well as can effectively prevent the generated heat is diffused to the outside, the heating pad for the human body that can maintain a more stable installation state of graphite The purpose is to provide.

Heating pad for the human body according to the present invention, the fabric layer; A graphite layer coated on the surface of the fabric layer and configured to generate heat inside the human body by causing excitation and vibration by emitting and absorbing far infrared rays to the human body in response to body temperature of the human body; It is attached to the surface of the graphite layer, it comprises a thermal insulation layer to block the heat generated in the interior of the human body by the graphite layer to the outside has its technical features.

It is preferable that the said graphite layer consists of 30-40 weight% of graphite, and 60-70 weight% of resin adhesive.

Preferably, the graphite has a particle size of 100 to 150 mesh.

It is preferable that the said resin adhesive is a liquid polypropylene resin.

It is preferable that the said graphite layer is 0.3-0.4 mm in thickness, and the said heat insulation layer is 2.0-3.0 mm in thickness.

It is preferable that the said insulating layer consists of cotton.

According to the present invention, by generating heat in the human body by emitting far infrared rays in response to the body temperature of the human body can increase the productivity and economical efficiency of the heating pad, simple structure of the heating pad products such as blankets, blankets, clothing It can be applied in various ways.

In addition, due to factors such as the component ratio, thickness, and particle size of the graphite layer, it is possible to maintain a stable and stable coating state of the graphite layer, and increase its efficiency.

In addition, due to the characteristic properties of the graphite itself and the characteristics of far-infrared, the immune function of the human body is not only high, but also can achieve a good night's sleep, waste excretion and cell activity is improved, which is advantageous for promoting metabolism.

Therefore, the functionality and usability of the heating pad for human body can be relatively improved.

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

As shown in Figures 1 to 3, the heating pad 10 for a human body according to the present invention is a fabric layer 20; A graphite layer 30 coated on the surface of the fabric layer 20; Thermal insulation layer 40 attached to the surface of the graphite layer 30: the fabric layer 20 and the graphite layer 30 and the outer layer 50 covering the insulating layer 40 is configured to include.

Fabric layer 20 has a predetermined size and shape, preferably made of cotton material.

The graphite layer 30 is coated in a colloidal state and serves to generate heat by radiating and absorbing far infrared rays into the human body in response to body temperature of the human body to generate excitation vibrations.

Coating method of the graphite layer 30 can be used a variety of known methods, including spray spraying, the coating thickness is formed in about 0.3 ~ 0.4mm in consideration of the thickness of the heating pad 10 and the far infrared strength.

The graphite layer 30 is composed of 30 to 40% by weight of graphite, 60 to 70% by weight of a resin adhesive, and when out of the numerical range, some problems occur in adhesive force or far infrared ray divergence capacity.

That is, when the ratio of graphite is less than 30% by weight, the far-infrared divergence capacity is significantly lowered, and when the ratio of graphite is more than 40% by weight, not only the adhesive force is reduced but also it is difficult to form a uniform thin film. Similarly, when the ratio of the resin adhesive is less than 60% by weight, not only the adhesive force is lowered but also it is difficult to form a uniform thin film, and when the ratio of the resin adhesive is more than 70% by weight, the far-infrared divergence capacity is significantly lowered.

As graphite, artificial graphite having a particle size of about 100 to 150 mesh is preferably used. In other words, the graphite in the flake state is weak in strength and low in specific gravity, not only brittle, but also formed of a film by the resin adhesive, so that the particle size is preferably maintained at about 100 to 150 mesh.

For example, when the particle size of the graphite is less than 100 mesh, the graphite is likely to be broken, and when the particle size of the graphite exceeds 150 mesh, the amount of the resin adhesive is increased together, so it is difficult to increase the amount of graphite.

Graphite can use both natural graphite or artificial graphite, and the effect is better if the purity is 99.5% or more. Since natural graphite is low in purity, it is possible to increase the purity by 96% by physically removing foreign substances, but in order to increase the purity to 99%, additional foreign substances should be removed by chemical methods. However, when using artificial graphite, it is preferable to use artificial graphite because purity of 99.5% or more can be easily obtained.

On the other hand, graphite has a high sensitivity to temperature and emits far infrared rays by reacting immediately with the body temperature of about 36 ° C. The far infrared rays are absorbed by electrolyte particles contained in the human skin and generate excitation vibrations. It is possible to generate heat 3 to 5 ° C higher than the body temperature.

The effect of far-infrared rays on the human body is already known, so the detailed description thereof will be omitted.

As the resin adhesive, it is preferable to use a liquid polypropylene resin, but various kinds of resins may be selectively applied within a range that is excellent in adhesive strength and does not interfere with the far-infrared light emitting ability of graphite.

It is preferable that the heat insulation layer 40 is 2.0-3.0 mm in thickness. For example, when the thickness of the thermal insulation layer 40 is less than 2.0 mm, the pass rate of the far infrared rays is increased but the heat retention is low. When the thickness of the heat insulating layer 40 is exceeded, the heat retention is increased, but the far infrared ray transmission rate is lowered.

The thermal insulation layer 40 serves to effectively block the diffusion of heat generated inside the human body by the graphite layer 30 to the outside, preferably made of a material such as cotton.

Cotton has the advantage of excellent thermal insulation as well as the passage of far infrared rays emitted from the graphite layer (30).

The total thickness of the fabric layer 20, the graphite layer 30, and the thermal insulation layer 40 is preferably about 5 mm.

The outer skin layer 50 merely serves as a cover and may be appropriately changed according to the use of the heating pad 10.

Figure 4 is a schematic diagram showing a step of generating heat of the heating pad for a human body according to the present invention.

First, when heat emitted from the human skin passes through the insulating layer 40 to reach the graphite layer 20, the graphite contained in the graphite layer 20 reacts to emit far infrared rays.

The emitted far infrared rays pass through the heat insulation layer 40 again and are absorbed by the human skin to generate excitation vibrations, thereby generating heat of 3 to 5 ° C. higher than the human body temperature, and a part of the heat generated is scattered by the blood circulation. Others are discharged to the outside and diffuse into the air.

At this time, the heat diffused into the air is blocked by the thermal insulation layer 40, the heat balance is achieved.

On the other hand, the reason that the heat generated by the heating pad becomes about 3 to 5 ° C. higher than the body temperature is based on the surface temperature of the contact area when the person is lying on the heating pad and the person lying on the heating pad for about 2 to 3 minutes. It is derived from comparing the result of measuring the surface temperature of the contact area at.

1 is a perspective view of a heating pad for a human body according to the present invention;

Figure 2 is a partially cutaway perspective view of the heating pad for human body according to the present invention,

3 is a cross-sectional view of the heating pad for a human body according to the present invention;

4 is a cross-sectional view illustrating a step of generating heat of a heating pad for a human body according to the present invention.

              <Description of Symbols for Main Parts of Drawings>

              10: heating pad 20: fabric layer

              30: graphite layer 40: thermal insulation layer

              50: outer layer

Claims (6)

In the heating pad for the human body capable of generating a predetermined heat in response to the body temperature of the human body, Fabric layer; A graphite layer coated on the surface of the fabric layer and configured to generate heat inside the human body by causing excitation and vibration by emitting and absorbing far infrared rays to the human body in response to body temperature of the human body; The heating pad is attached to the surface of the graphite layer, the heating pad for a human body, characterized in that it comprises a thermal insulation layer to block the heat generated inside the human body by the graphite layer to diffuse to the outside. The method of claim 1, The graphite layer, A heating pad for a human body, comprising 30 to 40% by weight of graphite and 60 to 70% by weight of a resin adhesive. The method of claim 2, The graphite is a human heating pad, characterized in that the artificial graphite having a particle size of 100 ~ 150 mesh. The method of claim 2, The resin adhesive is a human heating pad, characterized in that the liquid polypropylene resin. The method according to claim 2 or 3, The graphite layer has a thickness of 0.3 to 0.4 mm, The heat insulating layer is a human heating pad, characterized in that the thickness of 2.0 to 3.0mm. The method of claim 5, The warming layer is a human heating pad, characterized in that made of cotton material.

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