KR20120039370A - A heating pad using carbon fiber radiator of plate heating element - Google Patents

Abstract

PURPOSE: A heating pad which applies a carbon fiber surface heating element is provided to maximize far infrared ray heating effects using the heating pad in which the carbon fiber surface heating element is applied. CONSTITUTION: An electrode plate(33) and an electromagnetic wave blocking sheet(34) are respectively attached to the both ends of a carbon fiber surface heating element(30). The carbon fiber surface heating element is coated with epoxy resin or silicon. A reflective sheet(20) emits heat only to the upper side. A heating pad is comprised of a single sheet by pressurizing with a roller.

Description

Heating pad using carbon fiber radiator of plate heating element

The present invention relates to a heating pad to which a carbon fiber planar heating element is applied, and more specifically, a heating pad to which a carbon fiber planar heating element is applied provides a far-infrared ray thermal effect, and thus it is used for housing, construction and civil engineering, industrial, It is intended to be used for a variety of purposes such as aviation and space use, agriculture, forestry and fisheries use, vehicle use, food use, and medical use. Will be planted.

As is well known, the carbon fiber planar heating element is a far-infrared heating element that emits far infrared rays with a wavelength of 4 ~ 16 (microns) .It is a new material heating element that protects a healthy life because it emits dozens of times more far infrared rays than other ordinary heating elements at the same temperature. Considering that the carbon fiber cotton radiator with strong 4-16 micron far infrared rays radiates 8-14 microns of far-infrared radiation from the human body, the effect on the human body is to treat all diseases. Excellent effect

The carbon fiber planar heating element is a processing material of artificial diamond (cubic), and the fiber is carbonized. In terminology, the term 'carbon fiber planar heating element' is applied to the epoxy resin coating to prevent damage or disconnection on both sides. Connecting power to both ends generates heat on the fiberized surface due to carbon resistance.

The far-infrared carbon fiber planar heating element is converted into far-infrared by vibration when the rotating electromagnetic waves rotating around the carbon-fiber carbon atoms come out into free space. It is similar to the intermolecular distance of the body, which effectively vibrates the constituent molecules of the human body to emit rotating electromagnetic waves (bio energy) and activates the energy flow of the human body, which promotes metabolism and facilitates blood circulation. It has the effect of boosting immunity by increasing active energy.

Existing far-infrared products have artificially obtained far-infrared rays by heating ceramics (ocher, jade, germanium, elvan, etc.). That is why I could not get a big effect.

On the other hand, boiler heating is the most common floor heating, but in recent years, maintenance costs are soaring according to high oil prices, construction is complicated, and expensive construction costs are required.

As an example, as shown in Figure 1, the bottom surface is closed, the surface heating element is applied to the power supply is made of a sheet of paper to close the heat generating element and the upper end, the surface heating element is woven with a weft (11) and inclined 12 The longitudinal direction of the weft yarn 11 so that both ends of the carbon yarn 13 and the carbon yarn 13 which is woven at a predetermined interval between the woven fabric 10 and the weft yarn 11 and radiates the application of current. A heating sheet provided with a far-infrared planar heating element including a conductive yarn 14 which is woven at both ends and applies a current to the carbon yarn 13 is introduced. 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 manufactured by coating the carbon paste made of carbon black, acrylic resin, toluene resin and MEK on the outer surface of the yarn and then drying the carbon paste, which is separated from the outer surface of the yarn by external friction. This occurred and accordingly there was a problem that heat is not generated in that portion.

In order to solve the above problems, conventionally disclosed Patent Publication No. 2009-0076005 (Application No. 2008-0001712) (name: heating sheet and warm warrant plate using the same) has been filed. That is, the conventional technique described above is a fabric sheet in which the weft yarn 110 and the warp yarn 120 are woven with each other, as shown in FIGS. 2 (a) (b) (c), and the weft yarn 110 ) And the inclination 120 are not easily deformed by heat, it is preferable to use a polyester high strength yarn resistant to heat shrinkage. 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 so that the carbon layer 170 is coated on the outer surfaces of the weft yarn 110, the warp yarn 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 heating sheet configured as described above generates resistance heat while the current applied to the conductive wire 150 in the center, which is the + electrode, is divided in the direction of the conductive yarn 160 on both sides, and then is induced to the conductive yarn 160 on both sides of the negative electrode. . 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. In other words, in the case of the known heating sheet in which current flows from one side to the other side, the heat of resistance decreases at the center portion away from the electrode, so that a large heating deviation occurs between the electrode portion and the center portion. Since the current flows by dividing the current from the central portion to both sides, the heating sheet having the same width can significantly 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, the number of conductive yarns 160 on both sides is 7 lines, while the number of conductive wires 150 in the center is 14 lines, which is equal to the number of conductive yarns 160 on both sides of the center. 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 resistance heat, thereby reducing the amount of heat generated. 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. Therefore, the number of conductive yarns 150 woven in the center is 2 compared to the number of conductive yarns 160 woven on the sides. By configuring to double, it solves the above problems. 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, the carbon face composed of carbon black, acrylic resin, toluene resin, and MEK is coated on the outer surface of the sheet and then cured so that the carbon face is separated and broken away due to external friction, so that no heat is generated. The carbon layer is cured in such a way that it is not partially broken and separated, and then the polyurethane resin is coated. 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 configured as described above can be used for a variety of uses, as an example shows a heat sheet using a heat generating sheet. The heating sheet is configured by sequentially stacking the bottom sheet 200 to close the bottom, the above-described heating sheet 100 and the sheet 300 to close the top. 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 heating sheet is not only ensures cracked heat generation because the current is divided into both sides from the center of the heat generating sheet, and there is no phenomenon that the carbon layer is separated and separated by the polyurethane coating layer. The advantage is that it can be used without. However, the above-described prior art also has many problems as follows. That is, the conventional technology cannot be used for a variety of purposes such as housing-related, construction and civil engineering, industrial, aviation and space, agriculture, forestry and fisheries, vehicle-related, food-related, and medical-related. It was pointed out as a big problem.

The present invention has been made in order to solve the above problems of the prior art, a heating pad and a polyoletin gel and electromagnetic shielding sheet, carbon fiber surface heating element and a train consisting of a reflective sheet, carbon fiber surface heating element and flame retardant high strength mesh The first object is to provide a heating pad consisting of a short sheet and a contactless charging battery, the second object of the present invention by the above technical configuration is that the heating pad to which the carbon fiber planar heating element is applied to provide a far-infrared heating effect. The third purpose is to use the above-mentioned heating pads for housing-related purposes (e.g. floor heating, fireplaces, ceiling heating, bathroom toilet heating, desks, duvets, towels, clothes drying, far infrared radiation panels, household saunas, etc.) Civil engineering use (e.g. concrete curing, roads, freezing prevention of overpasses, heavy snowfall, freeze protection, etc.), industrial use (e.g. pipe tanks, drums) And thermal insulation of the machine, promotion of resin reinforcement, adhesive drying, printing drying, metal device drying, etc., aerospace and space-related applications (e.g., aviation and space related, such as antennas, re-installation, runway freeze protection, back wing freeze protection, etc.) Fisheries-related applications (e.g. greenhouse nursery, pig farming, poultry, fish farming, wood drying, etc.), vehicles-related applications (e.g. seat heating, mirrors, anti-sexuality of windows, thermal storage, etc.), food-related applications (e.g. fermentation, Food drying, brewing, etc.) and medical-related purposes (e.g., thermal packs, medical beds, medical supplies insulation, trauma treatment, etc.), and the fourth purpose is to greatly improve the quality and reliability of the product. It provides heating pads with carbon fiber planar heating elements that can be improved to give consumers a good image.

In order to achieve the object of the present invention, the carbon fiber and the normal cotton fibers are woven in a lattice pattern to emit far infrared rays, and electrode plates and electromagnetic wave shielding sheets are attached to both ends, respectively, and the outer circumferential surface thereof is epoxy resin or Carbon fiber cotton heating element coated with silicon; A reflection sheet attached to a lower end of the carbon fiber plane heating element and blocking heat to be radiated only upwards; And it provides a heating pad to which the carbon fiber planar heating element, characterized in that consisting of a heating pad which is a sheet (sheet) by passing the carbon fiber planar heating element and the reflective sheet through the roller.

In addition, the present invention is a polyoletin gel is less irritation even in contact with the skin, excellent adhesion, no foreign matter even after desorption; An electromagnetic wave blocking sheet attached to an upper end of the polyoletin gel; A carbon fiber plane heating element attached to an upper end of the electromagnetic wave shielding sheet and woven in a lattice shape to emit far infrared rays; A heat shield sheet attached to an upper end of the carbon fiber plane heating element; And a heating pad provided with a plurality of contactless charging batteries and a switch at an upper end of the thermal barrier sheet. The heating pad is provided with the carbon fiber planar heating element.

As described in detail above, the present invention provides a heating pad made of a reflective sheet, a carbon fiber planar heating element, and a flame retardant high-strength mesh, and a heating pad made of a polyolefin gel, an electromagnetic wave shielding sheet, a carbon fiber planar heating element, a thermal barrier sheet, and a contactless charging battery. The pad is to be provided.

According to the present invention by the above technical configuration, the heating pad to which the carbon fiber planar heating element is applied provides a far infrared ray heating effect.

In addition, the present invention uses the above-described heating pads for home-related applications (eg floor heating, fireplaces, ceiling heating, bathroom toilet heating, desks, blankets, towels, clothing drying, far infrared radiation panels, household saunas, etc.), construction and civil engineering. Related applications (e.g. concrete curing, roads, freezing prevention of overpasses, heavy snowfall, water freeze prevention, etc.), and industrial related applications (e.g. pipe tanks, drums and machinery insulation, promotion of resin reinforcement, adhesive drying, printing drying, metal equipment) Aerospace and aerospace applications (e.g. antennas, snowfall, runway freeze protection, aviation and aerospace protection, etc.), agro-forestry and fisheries applications (e.g. greenhouse nursery, hogs, poultry, fish farms, timber) Vehicle-related applications (e.g. seat heating, mirrors, anti-sexuality of windows, thermal storage, etc.), food-related applications (e.g. fermentation, food drying, brewing, etc.), medical-related applications (e.g. thermal packs, medical Bed, medical supplies insulation, trauma treatment, etc.) It will have to be used for the purpose.

The present invention is a very useful invention that can significantly improve the quality and reliability of the product due to the above-described effect so that the user as a consumer can plant a good image.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this effect are as follows.

1 is a view showing a general heating sheet.
2 (a) is a view showing a conventional heating sheet,
(b) is a figure for explaining the conventional polyurethane resin layer,
(c) is an exploded perspective view of a conventional heating sheet.
Figure 3 is a first chamber of the heating pad to which the carbon fiber planar heating element applied to the present invention
Example exploded perspective view.
4 is a perspective view of the coupled state of FIG.
5 is a cross-sectional view of the main portion of the engaged state of FIG.
Figure 6 is a second chamber of the heating pad to which the carbon fiber planar heating element applied to the present invention
Example exploded perspective view.
7 is a perspective view of the coupled state of FIG.
8 is a cross-sectional view of the main portion of the engaged state of FIG.

The heating pad to which the carbon fiber planar heating element applied to the present invention is configured as shown in FIGS. 3 to 8.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

First, the heating pad (1) (2) to which the carbon fiber planar heating element of the present invention is applied is constituted by the first embodiment and the second embodiment.

The technical configuration of the heating pad 1 of the first embodiment is as follows, in particular, the size and length of the heating pad 1 can be made to the desired size and length, and made of a structure that can be cut and used as needed by the user do.

As shown in FIGS. 3 to 5, the carbon fibers 31 and the normal cotton fibers 32 are woven in a lattice pattern to emit far infrared rays, and the electrode plates 33 and the electromagnetic shielding sheet 34 are attached to both ends thereof, respectively. The outer circumferential surface is provided with a carbon fiber plane heating element 30 coated with epoxy resin or silicon to prevent damage or disconnection.

And it is attached to the lower end of the carbon fiber surface heating element 30, the reflective sheet 20 is provided so as to block the heat to only dissipate upward.

According to the present invention, the carbon fiber planar heating element 30 and the reflective sheet 20 constituted as described above are pressurized through a roller (not shown in the figure) to constitute a heating pad 1 which is one sheet. .

In addition, the flame-retardant high-strength mesh net 35 made of a grid pattern is integrally provided at the upper end of the carbon fiber surface heating element 30 applied to the present invention to reinforce the tensile strength and the load strength of the heating pad 1.

In particular, the carbon fiber planar heating element 30 applied to the present invention is a plurality of carbon fibers 31 and a general cotton fiber 32 consisting of a group in the horizontal or vertical direction in succession weaving sequentially, the reflective sheet 20 Is a portion in contact with the plurality of carbon fibers 31 is formed of an aluminum coating surface 21, the portion facing the normal cotton fiber 32 is made of a mesh 22, the aluminum coating surface 21 and the mesh 22 is Successively provided sequentially.

On the other hand, the technical configuration of the heating pad (2) of the second embodiment is as follows, in particular the size and length of the heating pad (2) can be produced in a desired size and length, the user can cut and use as needed Will be done.

As shown in FIGS. 6 to 8, the polyoletin gel 40 provided with less irritation even in contact with the skin, excellent adhesion, and no foreign matter even after desorption is provided.

And the electromagnetic wave blocking sheet 50 is attached to the upper end of the polyoletin gel 40.

In addition, the top of the electromagnetic wave shielding sheet 50 is attached to the carbon fiber surface heating element 55 woven in a lattice shape to emit far infrared rays.

In addition, the thermal cut sheet 60 is attached to the upper end of the carbon fiber surface heating element 55.

In addition, a plurality of rechargeable batteries or a non-contact rechargeable battery 70 and a switch 71 are provided at the upper end of the heat shield sheet 60.

In this case, the contactless charging battery 70 flows current through electromagnetic induction, and a magnetic field generated in the primary coil of the charging pad is induced in the secondary coil of the battery part to supply current. Say

In addition, a protective film 41 to protect the polyoletin gel 40 is attached to the bottom of the polyoletin gel 40 applied to the present invention, clothes on the bottom of the protective film 41 An adhesive nonwoven fabric 42 is provided to attach to or adhere to a place to be heated.

Finally, a transparent epoxy resin or silicone 80 is applied to the outer circumferential surface of the heating pad 2 except for the polyoletin gel 40 applied to the present invention.

The carbon fiber plane heating element 30, 55 applied to the present invention is a heating element used by setting the heating temperature and voltage (DC, AC) and is called a cotton mesh heating element or a fiber reinforced plane electric conductor, and carbon and carbon are It is a planar heating element which is woven in the form of a thread having a constant resistance value. The electric shock voltage is set to DC 3.7V and the temperature is set between 40 ~ 60 ℃.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

It is to be understood that the invention is not to be limited to the specific forms thereof which are to be described in the foregoing description, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

Referring to the effect of the heating pad to which the present invention carbon fiber planar heating element configured as described above are as follows.

First, the present invention is because the heating pad to which the carbon fiber planar heating element is applied to provide a far-infrared heat effect, it is used for housing, construction and civil engineering, industrial, aviation and space, agriculture, forestry and fishery, vehicle It is intended to be used for a variety of purposes, such as food-related and medical-related purposes.

Effects of the first embodiment of the present invention for this purpose are as follows.

According to the present invention, the heating pad 1 rolled and spread on the floor is heated and connected to a terminal on the electrode plate 33 of the heating element. Then, the silicon is insulated and the electrode plate of the terminal and the cut surfaces at both ends is sealed and insulated. After checking the condition, connect the temperature sensor (not shown) to the temperature sensor (not shown) and glue the floor covering and carpet or tile to the bottom and the heating pad through the hole with adhesive or cement. Will be used.

In particular, in the first embodiment of the present invention, when the heating pad 1 is placed on the floor and an adhesive or cement is applied thereon, the adhesive or cement is flame retardant high strength mesh 35 and carbon. Passed through the holes of the fibrous heating element 30 and the mesh 22 is attached to the bottom surface, the remaining adhesive and cement is located above the top of the aluminum coating surface 21, which causes the heating pad (1) It will be firmly attached to the floor.

At this time, the carbon fiber plane heating element (30) dissipates heat, and the cotton fiber (32), which is a general fiber, has a hole and is used in such a manner that an adhesive is directly bonded between a bottom hole and a middle hole of a product.

In the present invention as described above, the conventional product is bonded by laying an insulating material on the concrete floor, and the product is formed by adhering a heating element on top of it, and then attaching the plywood or PE foam on the heating element and then attaching the carpet and sheet or tile construction The construction cost is lower than that of the method, and heat is generated directly under the carpet or the floor plate, so the energy efficiency is good, and even the adhesive or concrete is adhered with a small amount and the thickness is thinly installed, so that the heating pad (1) In addition, it can be used underneath, and it is a one-piece standardized product, so it costs less materials and is easy to install because it is bonded and bonded like carpet or flooring.

In particular, in the present invention, when the power source is connected to the electrode plate 33, the carbon fiber 31 is heated while being heated. At this time, the material to be heated can be uniformly heated, and the surface temperature is up to 100 ° C. within 2 to 3 minutes. The far infrared emissivity reaches 90% or more and the heating temperature is maintained up to 110 ° C.

As described above, the heating pad 1 of the present invention provides a thermal effect by releasing far-infrared rays, and the far-infrared rays help to eliminate bacteria that cause various diseases, and expand the capillaries to generate blood circulation and tissues. To help. In addition, by touching the water and protein molecules that make up the cells, the cells are shaken finely 2,000 times per minute to activate cell tissue, which is effective in preventing various adult diseases such as aging, promoting metabolism, and chronic fatigue.

On the other hand, the operational effects of the second embodiment of the present invention are as follows.

In the second embodiment of the present invention, as shown in FIGS. 6 to 8, the heating pad 2 is mainly attached to the body to be used for medical or cosmetic purposes, and is attached to the skin using the polyoletin gel 40. Alternatively, the protective film 41 may be peeled off and attached to clothes using the adhesive nonwoven fabric 42.

The polyoletin gel 40 is less irritation even when touching the skin, excellent adhesion, and there is no foreign matter even after desorption, heat shield sheet 60 to block the heat generated from the carbon fiber surface heating element 55 It is.

The contactless charging battery 70 applied to the present invention is made of a charger of 4.2V to a DC 3.7V battery, such as for a mobile phone, and induces a magnetic field between the charger and the battery on a chair or desk in a state where the heating pad 2 is attached to the body. It generates electricity and charges it.

When the charging of the heating pad 2 is placed on the contactless charger, the contactless charging battery 70 is automatically charged by the principle of electromagnetic induction or the principle of magnetic resonance.

In particular, the present invention can be used as a face mask pack, the carbon fiber heating pad (2) set between the voltage (DC 3.7V) and the heating temperature of about 36 ℃ ~ 60 ℃ and the heating time 10-30 minutes to make the face shape eyes You can use the hole in the location of the nose.

Then, the far infrared rays are emitted from the heating pad (2) to decompose body fat to relieve obesity, which is good for skin beauty, reduce constipation by reducing diabetes and intestinal movement, increase body temperature by 1 ~ 2 ℃, increase and decrease natural healing power, and improve sexual function by hepatic brain stimulation. In addition, blood circulation improvement and blood donation and blood donation, pain relief, blood pressure control, autonomic nerve activation, cancer prevention, body waste discharge, chronic fatigue recovery and various adult diseases can be prevented.

As described above, the present invention uses heating pads (1) and (2) for home-related applications (eg floor heating, fireplaces, ceiling heating, bathroom toilet heating, desks, duvets, towels, clothes drying, far infrared radiation panels, household saunas). Etc.), construction and civil engineering related applications (e.g. concrete curing, freezing prevention of roads, overpasses, heavy snowfall, freeze protection, etc.), and industrial related applications (e.g. pipe tanks, drums and machinery insulation, promotion of resin reinforcement, adhesive drying) , Printing drying, metal equipment drying, etc., aerospace and space-related uses (e.g. antennas, snowfall, runway freeze protection, back wing freeze protection, etc.) and aerospace and fisheries-related uses (e.g. greenhouse raising, hog, Poultry, fish farm insulation, wood drying, etc., vehicle-related uses (e.g. seat heating, mirrors, anti-sexuality of windows, thermal storage, etc.), food-related uses (e.g. fermentation, food drying, brewing, etc.), medical-related uses ( Example: thermal packs, medical beds, medical supplies, trauma care, etc.) It is intended to be versatile.

The technical idea of the heating pad to which the carbon fiber planar heating element of the present invention is applied can actually repeat the same result, and in particular, the present invention can be promoted and contributed to industrial development, thereby providing sufficient protection.

<Explanation of symbols for the main parts of the drawings>
1, 2: heating pad 20: reflective sheet
30, 55: carbon fiber planar heating element 35: flame retardant high strength mesh
40: polyoletin gel 50: electromagnetic wave blocking sheet
60: thermal cut sheet 70: contactless charging battery

Claims (6)

The carbon fibers 31 and the normal cotton fibers 32 are woven in a lattice pattern to emit far infrared rays, and electrode plates 33 and electromagnetic wave shield sheets 34 are attached to both ends, respectively, and to prevent damage or disconnection on the outer circumferential surface. Carbon fiber cotton heating element 30 which is coated with epoxy resin or silicon;
A reflection sheet 20 attached to the lower end of the carbon fiber plane heating element 30 and blocking the heat to be radiated only upwards; And
Heating the carbon fiber planar heating element 30 and the reflective sheet 20 by passing through the roller to each other, consisting of a heating pad (1) of a sheet (sheet).
The method according to claim 1,
The carbon fiber planar heating element, characterized in that the upper end of the carbon fiber planar heating element 30 is further provided with a flame retardant high strength mesh net 35 made of a grid pattern to reinforce the tensile strength and the load strength of the heating pad (1). Heated pad applied.
The method according to claim 1,
The carbon fiber planar heating element 30 is a plurality of carbon fibers 31 and a general cotton fiber 32 consisting of a group in the horizontal or vertical direction in succession weaving sequentially,
The reflective sheet 20 is a portion of the contact with the plurality of carbon fibers 31 is formed of an aluminum coating surface 21, the portion facing the normal cotton fiber 32 is made of a mesh 22 made of an aluminum coating surface 21 Heating pads are applied to the carbon fiber planar heating element, characterized in that the mesh 22 is successively provided in succession.
Polyoletin gel (40) that is less irritating to the skin, excellent adhesion, no foreign matter even after desorption;
An electromagnetic wave blocking sheet 50 attached to an upper end of the polyoletin gel 40;
A carbon fiber planar heating element 55 attached to an upper end of the electromagnetic wave shielding sheet 50 and woven in a lattice shape to emit far infrared rays;
A heat shield sheet 60 attached to an upper end of the carbon fiber plane heating element 55; And
Heating pads having a carbon fiber planar heating element, characterized in that consisting of a plurality of charging batteries or contactless charging battery 70 and the heating pad (2) provided with a switch 71 on the upper end of the thermal barrier sheet (60). .
The method of claim 4,
A protective film 41 for protecting the polyoletin gel 40 is attached to the bottom of the polyoletin gel 40, and an adhesive nonwoven fabric is attached to the bottom surface of the protective film 41 to attach to clothes or to generate heat. A heating pad to which the carbon fiber planar heating element is applied, characterized in that (42) is further provided.
The method of claim 4,
Exothermic pad of the heating pad (2) except for the polyoletin gel (40) is a heating pad applying a carbon fiber planar heating element, characterized in that the transparent epoxy resin or silicone (80) is further applied.

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