WO2004075986A1 - 温熱治療用の遠赤外線発生器および遠赤外線照射方法 - Google Patents
温熱治療用の遠赤外線発生器および遠赤外線照射方法 Download PDFInfo
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- WO2004075986A1 WO2004075986A1 PCT/JP2004/002024 JP2004002024W WO2004075986A1 WO 2004075986 A1 WO2004075986 A1 WO 2004075986A1 JP 2004002024 W JP2004002024 W JP 2004002024W WO 2004075986 A1 WO2004075986 A1 WO 2004075986A1
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- Prior art keywords
- far
- infrared ray
- radon
- infrared
- generating
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N5/00—Radiation therapy
- A61N5/06—Radiation therapy using light
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N5/00—Radiation therapy
- A61N5/06—Radiation therapy using light
- A61N2005/0635—Radiation therapy using light characterised by the body area to be irradiated
- A61N2005/0643—Applicators, probes irradiating specific body areas in close proximity
- A61N2005/0644—Handheld applicators
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N5/00—Radiation therapy
- A61N5/06—Radiation therapy using light
- A61N2005/0658—Radiation therapy using light characterised by the wavelength of light used
- A61N2005/0659—Radiation therapy using light characterised by the wavelength of light used infrared
- A61N2005/066—Radiation therapy using light characterised by the wavelength of light used infrared far infrared
Definitions
- heating the human body locally in a somewhat wide range, or systemically is effective not only for maintaining and promoting health, but also for hyperthermia. Therefore, it is more effective to use far-infrared rays that can heat the inside of a human body than to heat only the surface of the human body.
- the present invention thus relates to a far-infrared ray generator suitable for heating a human body.
- the far-infrared ray generator uses carbon black or tourmaline.
- carbon black tourmaline is used alone as a means for generating far-infrared rays, the efficiency of generating far-infrared rays is low, so that the inside of the human body cannot be efficiently heated.
- Item 1 is the far-infrared ray means used for instruments that perform thermal treatment by emitting far-infrared rays by receiving the heat of the heat-generating part, and are used for radon-generating rare element minerals alone or tolmarin ore, carbon, or radon-generating rare element minerals.
- a far-infrared ray generator characterized in that it contains two or more.
- Each layer may be in the form of a powder, an integral solid, a plate, or a sheet.
- each layer may be fixed integrally, or may be simply overlapped.
- a far-infrared ray generator capable of heating deep into the human body can be realized by mixing two or more types of tourmaline ore, carbon or radon-generating rare element mineral powder.
- tourmaline ore powder the combination of tourmaline ore powder and radon-generating rare element mineral powder is the most efficient.
- Item 4 contains only radon-producing rare element minerals or two or more of tolmaline ore, carbon or radon-producing rare element minerals as described above, and is directly or directly connected to the heat-generating portion in the trowel-shaped main body.
- Item 4. The far-infrared ray generator according to item 1, item 2 or item 3, wherein the far-infrared ray generator is integrated via a sensor unit.
- far-infrared ray generating materials containing only radon-producing rare element minerals or two or more of tourmaline ore, carbon or radon-producing rare element minerals
- a heating section such as an electric heater
- the far-infrared ray is integrated into the human body because it is integrated directly or through a spacer section in the heat-generating section of the main body. Irradiation is efficiently performed to the deep portion of the substrate and the region is heated.
- the heating of the human body is localized, but it can be easily moved and intensively heated at a desired position.
- Item 5 is that the side of the trowel-shaped main body that emits far-infrared rays A glass plate with a convex curved surface, a far-infrared ray generating material is provided inside the concave curved surface inside, and the shape and size of the main body are oval 8 to 20 cm, oval 4 to 9 cm, thickness 1.5 to Item 5.
- the side irradiated with far-infrared rays is a convexly curved glass plate, and the far-infrared ray generating material is provided inside the concavely curved surface inside, so that the slippery convexly curved glass plate covers the human body or human body. Can be smoothly slid on a cloth or the like, and treatment can be easily performed.
- the shape of the trowel-shaped main body is oval, 8 to 20 cm, oval, 4 to 9 cm, and thickness, 1.5 to 4 cm.
- Clause 6 is that the heat generating portion is provided on the front side with respect to the vibration portion, and the radon generating rare element mineral alone or tourmaline is directly or through the spacer layer as described above with respect to the heat generating portion. 4.
- a far-infrared ray generator according to paragraph 1, 2 or 3 characterized in that a far-infrared ray generator containing two or more of ore, carbon or radon-producing rare element minerals is integrated. It is.
- a far-infrared generator containing only radon-generating rare element minerals, or two or more of tourmaline ore, carbon, or radon-generating rare element minerals is directly or directly connected to the heating section provided on the front side of the shaking section. Because it is integrated through the layer, it vibrates the surface of the human body by the action of the vibrating part, relaxes the muscles, and simultaneously irradiates far-infrared rays efficiently to the deep part of the human body and heats it at the same time. it can.
- Paragraph 7 is that the heat-generating portion is provided inside the dome-shaped surface, and the radon-generating rare element mineral alone or as described above is directly or through a spacer layer inside or outside the heat-generating portion. 4.
- far-infrared generators containing radon-producing rare element minerals alone or two or more of tourmaline ore, carbon or radon-producing rare element minerals may have a dome shape Since it is integrated directly or through a spacer layer with the heat generating part provided inside the surface, if the human body is located inside the dome-shaped surface and irradiates far infrared rays, the human dome A wide area located inside the surface is efficiently irradiated with far infrared rays, and is heated deep into the human body. Therefore, it is suitable for heating a large area of the human body or the whole or most of the body below the neck. The far-infrared rays are efficiently radiated deep into the human body, so the temperature inside the dome can be lower than before, and as a result, there is no need for patience and long-time heating is possible.
- Item 8 includes: a far-infrared ray generator having the vibrating part for pressing on a steamed towel impregnated with a liquid containing an herbal component; a far-infrared ray generator having the trowel-shaped heating part; 8.
- the far-infrared ray generator according to any one of items 4, 6, and 7, comprising three points: a far-infrared ray generator having the dome-shaped surface. It should be noted that the herbs also include various “herbs”.
- the local towels warmed to the deep part the whole body or a large part of the body below the neck, or most of the body to the deep part, or a steamed towel wet with a liquid containing herbal ingredients placed on the human body From above, it can be shaken by a vibrating far-infrared ray generator and heated by far-infrared rays while penetrating the herbal or herbal ingredients in the steam from the skin, and can absorb sweat at the same time.
- Paragraph 9 states that radon-producing rare element minerals alone or two or more of tourmaline ore, carbon, or radon-producing rare element minerals are laminated in layers, or mixed in powder form, in a mixed state or in a mixed state. It has a far-infrared ray generator integrally fixed by a binder, and (1) puts the above-mentioned far-infrared ray generator having a trowel-shaped heating part on the surface of the human body, and applies a far-infrared ray to the human body.
- FIG. 3 is a conceptual diagram showing a layer configuration of a far-infrared ray generating layer having a laminated structure.
- FIG. 4 is a conceptual diagram showing a far-infrared ray generating layer having a mixed structure.
- Figure 5 is a cross-sectional view of a vibration-type far-infrared ray generator.
- Fig. 6 shows a dome-shaped far-infrared ray generator. (1) is a plan view, and (2) is a front view.
- Fig. 8 is an improved example of the trowel-shaped far-infrared generator shown in Figs. 1 and 2.
- (1) is a perspective view as viewed from the back side
- (2) is a perspective view as viewed from the far-infrared ray generation side
- (3) and (4) are cross-sectional views illustrating the inner configuration of the convexly curved glass plate.
- FIG. 9 is a diagram showing a method for measuring the temperature of the human body and measurement positions.
- FIG. 10 is a graph showing changes in the temperature of the underarm skin.
- FIG. 11 is a graph showing changes in the epidermis temperature of the chest.
- FIG. 12 is a drawing substitute photograph showing the healing process of the patient of Case No. 8.
- FIG. 13 is a drawing substitute photograph showing the healing process of the patient of Case No. 9.
- FIG. 14 is a drawing substitute photograph showing the healing process of the patient in Case No. 12.
- Figure 15 is a drawing substitute photograph showing the healing process of the patient in Case No. 21.
- FIG. 1 and 2 show a trowel-shaped far-infrared ray generator.
- FIG. 1 is a plan view of the inside
- FIG. 2 is a sectional view taken along line AA of FIG.
- reference numeral 1 denotes a metal plate having a convex curved surface on the front side, and a far-infrared ray generating section 2 is laminated on the convex surface.
- the far-infrared ray generating section 2 is layered on the surface of the metal plate 1, and a thermal treatment is performed by pressing the convex surface of the far-infrared ray generating layer 2 against the surface of the human body.
- This far-infrared ray On the convex surface of layer 2, a coating film for improving slippage may be laminated.
- the metal plate 1 may be an aluminum plate or a stainless steel plate, or may be a glass plate as described later, and the material is not particularly limited.
- a ceramic heater 3 is adhesively fixed with an epoxy resin part 4 or the like.
- the number of ceramic layers 3 is arbitrary, but dispersing and arranging a plurality as shown in the figure enables uniform heating of the far-infrared ray generating layer 2 over the entire surface.
- a plate-shaped heater can be used instead of the ceramic heater 13, which is excellent in uniform heating of the far-infrared ray generating layer 2.
- a thermal fuse 5 and a thermistor 6 are bonded and fixed to the metal plate 1 with an epoxy resin part 4 between the adjacent ceramic heaters 3.
- Reference numeral 7 denotes a case made of a synthetic resin, which incorporates the ceramic heater 3, the temperature fuse 5, the thermistor 6, and the like. That is, a window hole is opened so that the portion of the far-infrared ray generating layer 2 is exposed, and the convex curved surface of the far-infrared ray generating layer 2 is protruded from the window hole, and the outer peripheral portion of the metal plate 1 is connected to the window hole. Attach to the inner edge via insulation packing 8.
- Reference numeral 9 denotes a cord through which signal lines such as a power supply cord of the ceramic heater 3, a temperature fuse 5, and a thermistor 6 are passed.
- Reference numeral 10 denotes a back cover.When the back cover 10 is attached and fixed to the female screw hole 7 b of the synthetic resin case 7 with the screw 11, the outer peripheral portion 1 a of the metal plate 1 is the inner surface of the window hole at the holding portion of the back cover. Pressed against and fixed.
- the far-infrared ray generating layer 2 is As noted above, two or more combinations of tourmaline ore, carbon or radon-producing rare element minerals It is composed by combination. In other words, a configuration in which tourmaline ore, carbon, or a radon-generating rare element mineral is laminated in layers may be used, or a mixture of powders may be used.
- Each of tourmaline ore, carbon and radon-generating rare element minerals may be formed in powder form, and any two or more may be mixed. Then, in a mixed state, it may be solidified with a heat-resistant synthetic resin or the like to form a single plate or sheet.
- radon-generating rare element minerals compared to tourmaline ore and carbon, the effect of irradiating far-infrared rays alone is high, so radon-generating rare element minerals alone can be used as far-infrared ray generating layer 2.
- the laminated structure of the metal plate 1 and the far-infrared ray generating layer 2 is obtained.
- a resin containing only radon-generating rare element mineral or a mixture of two or more powders of tourmaline ore, carbon, or radon-generating rare element mineral can be applied to the surface of the metal plate 1 and baked if necessary.
- the metal plate 1 may be made of aluminum or stainless steel, and the material is arbitrary.
- the ceramic heater 3 is energized and generates heat, and the heat is applied to the adhesive layer of the epoxy resin part 4. And the metal plate 1 and the far-infrared ray generating layer 2 to heat the far-infrared ray generating layer 2. Then, the temperature is controlled so as to reach the temperature set in the thermistor 6.
- the trowel-shaped far-infrared ray generator When using the trowel-shaped far-infrared ray generator, hold the handles 7a and 10a in hand and push the far-infrared ray generating layer 2 that has a convex curved surface against the affected part of the human body that needs to promote blood flow. And irradiate far-infrared rays to the deep part of the human body. Treatment is performed by moving the far-infrared ray generator appropriately so as not to overheat the patient by pressing against the same site for a long time.
- the infrared ray generating layer 2 in the ⁇ -shaped far-infrared ray generator includes two or more tourmaline ores, carbon or radon-generating rare element minerals, as described above, and thus tourmaline ore, carbon or radon. Rare occurrence It generates far infrared rays far more effectively than a far infrared ray generator composed of elemental minerals, etc., and can heat deep parts of the human body with far infrared rays.
- Fig. 3 Fig. 4 shows a specific example of the far-infrared ray generation layer 1 consisting of three tourmaline ore, carbon or radon-generating rare element minerals.
- Fig. 3 is a conceptual diagram showing a laminated structure
- Fig. 4 is a conceptual diagram of a mixed structure. It is.
- Radon-generating rare element minerals are powdered rare element minerals containing a large number of elemental components such as radium and trim.They generate radon and tron, which are colorless and odorless inert gas elements, and generate It has the effect of negatively ionizing air.
- This radon-generating rare element mineral can be selected from natural minerals and used, but it is preferable to use the flower component of hot water that has been used for hot spring water treatment since ancient times. According to the experimental results of the inventor of the present invention, the radon-generating rare element mineral has been confirmed to have extremely high far-infrared ray generation efficiency, and was more effective than tourmaline ore and carbon.
- the carbon is preferably charcoal powder such as bincho charcoal, but bamboo charcoal or the like may be used.
- the radon-generating rare element mineral layer 1 r may be arranged on the surface side, and the tourmaline layer 12 t may be arranged on the back side. Further, a two-layer structure of tormarin 12 t and a carbon layer, or a two-layer structure of radon-generating rare element mineral layer 12 r and a carbon layer may be employed. Also in this case, any layers may be arranged on the front side.
- the three-layer structure in Fig. 3 (2) has a structure in which a radon-generating rare element mineral layer 12r, a tourmaline layer 12t, and a carbon layer 11c are stacked in this order from the metal plate 1 side. Also in this case, the order of lamination is arbitrary.
- each of these layers may be formed in a single plate or sheet shape, but are formed in powder form. In this state, it may be formed in a plate shape or a sheet shape. In this case, the powder may be solidified using a binder such as a synthetic resin to form a plate or sheet.
- the thickness of each of the layers 12r, 12t, and 12c is not particularly limited. For example, the total thickness of three layers is preferably about 1 to 5 mm. However, it is not limited to this layer thickness, and depending on the application and the size of the apparatus, it is possible to adopt other layer thicknesses.
- Fig. 4 shows a configuration in which radon-generating rare element mineral, tourmaline or carbon powder is mixed.
- ⁇ is a powder of a radon-generating rare element mineral
- ⁇ is a tourmaline powder
- X is a carbon powder. Therefore, Fig. 4 shows a configuration in which these powders are mixed. Has become.
- the mixed state shown in Fig. 4 may be used, for example, a layered structure may be used in combination with the heating element.
- the powder in the mixed state shown in Fig. 4 and the synthetic resin for bonding may be used. Can be mixed and solidified into a solid form for use.
- the mixed powder may be applied to the surface of the metal plate 1 with a synthetic resin binder to be integrated, or may be pre-plated.
- mixed powders formed in a sheet shape may be used repeatedly.
- the outside of the far-infrared ray generating layer 2 made of the mixed powder be covered with a lubricating film that serves both protection and sliding.
- Table 1 examines the effects of the combined use of the three layers of the tourmaline layer, the carbon layer, and the radon-generating rare element mineral layer.
- Table 1 shows an example of comparing the effects of thermal treatment when thermal treatment is performed using three layers of tolmarin layer, carbon layer, and radon-generating rare element mineral layer. Are compared with three examples, and six examples of the three-layer combination according to the present invention are compared.
- the values for tourmaline ore, Bincho charcoal (carbon), rare element minerals generating radon, glass composition, and heat-curable epoxy resin in Table 1 are the blending amounts (parts by weight).
- Fig. 8 is an improved example of the trowel-shaped far-infrared ray generator shown in Figs. 1 and 2, (1) is a perspective view seen from the back side, and (2) is a side that emits far-infrared rays against the human body. It is the perspective view seen from.
- the far-infrared ray generator in this embodiment is a glass plate 1 g having a convex curved surface on the side in contact with the human body, and the far-infrared ray generating material composed of the above-described three types of compounds is embedded in the concave curved surface on the inner surface thereof. I'm crazy.
- this glass plate has an elliptical shape, and its outer periphery is covered with a case 7 made of synthetic resin.
- the synthetic resin case 7 incorporates a heater, a control circuit element, and the like, and forms a main body of the far-infrared ray generator.
- the dimension D of the ellipse of the main body 7b is 13.5 mm, but it can be about 8 cm for a small vessel and about 20 cm for a large vessel.
- the dimension of the short circle d is about 7 cm, but it can be about 4 cm for small vessels and about 9 cm for large vessels.
- the thickness T is 2.5cm, but a thin type of about 1.5cm and a thick type of about 4cm are also possible.
- a space of about 1.5 cm to 3 cm is provided so that the grasped fingers do not hit the patient's body or other parts when grasping the handle for 7 h.
- the handle 7h has a step with respect to the body 7b, and is raised one step. It is.
- the shape and size of the trowel-shaped main body 7b having the far-infrared ray generating section, the heater, the control circuit element, and the like are set as follows: oval 8 to 20 cnu short circle 4 to 9 cm Thickness 1.5 to 4 Because of its elliptical shape of about cm, it can be easily inserted even into narrow or complex-shaped parts such as under the human body, between the crotch, under the chin, and behind the pinna. It can slide smoothly and irradiate the target affected area with far infrared rays.
- the actual size of a glass plate 1 g is 2 mm thick, the inner diameter on the long circle is 355 mm, and the inner diameter on the short circle is 78 mm. Eventually, the entire surface becomes convex spherical, and the inner concave spherical portion becomes deepest at the center.
- the back surface of the main body 7b may be flat, but may be slightly convex.
- the inner surface (the surface opposite to the glass plate 1 g) of the far-infrared ray generating unit 2 embedded in the concave curved surface is flattened, and the plate-shaped heater 13 p is overlapped. Contact can also be made.
- the plate-like heater 3p has a pattern of heating elements on a flat plate.-Suitable for heating the entire surface of the far-infrared ray generating section 2 uniformly by overlapping it on the entire surface of the far-infrared ray generating section 2. ing.
- the thickness of 1 g of a glass plate is preferably about 1 to 3 mm.
- the portion that slides in contact with the human body is made of a convexly curved glass plate 1 g, which makes it easy to slide on the human body or on a cloth over the human body, and slides smoothly over the affected area. You can move.
- the metal plate 1 is used as shown in Fig. 2, the heat generated from the heat is transmitted to the human body efficiently and directly to the human body because the heat conduction is good and the far-infrared ray generating layer 2 is thin. Is too irritating.
- the heater is immediately energized upon sensing this, and the human body is also instantly heated, so that the human body surface hardly experiences a temperature drop, and the thermal stimulation is too strong. Therefore, it is stressful for patients who are weak to thermal stimuli, such as cancer patients, the elderly, and people with weak skin, and will be resistant to thermal treatment.
- the heat conduction of the glass plate is slower than that of the metal plate, and the far-infrared ray generating part 2 in the concave curved surface is not a thin layer, but at least 3 to 8 mm at the deepest part of the concave spherical center. Due to the thickness, the heat supply to the human body from a part of the day is delayed. In other words, when the temperature of a glass plate 1 g drops due to contact with a low-temperature human body, heat is not supplied immediately from the heater 1 as in the case of a metal plate. As a result, even if it feels hot only for a moment when 1 g of the glass plate is in contact with it, the subsequent replenishment of heat from the heater is slow and soft.
- Table 2 compares the effects of heating treatment using an improved far-infrared ray generator employing such a convexly curved glass plate.
- a far-infrared ray generator that uses a convex-curved glass plate 1 g, and has a far-infrared ray generator that mixes three types of tourmaline ore, bincho charcoal (carbon), and radon-generating rare element minerals, and is embedded in the glass plate recess. The effect of using is added.
- Table 2 Comparison of the effects of heat treatment with the improved device
- Fig. 11 shows an adult (male) with a thermocouple sensor with a thickness of 1 mm taped to the right chest .
- the chest thickness of this man is 23 cm.
- a temperature rise of about 0.5 ° C or more was confirmed. Therefore, it was measured that heat was transmitted even in a thick body such as the right chest.
- the chain lines in FIGS. 10 and 11 show the case where a conventional heater was used, and no temperature change was observed.
- the far-infrared ray generator of the present invention it is clear that the temperature can be raised by heating to a deep part of the human body of 10 to 20 cm or more.
- this far-infrared ray generating means is applied to a dome-shaped far-infrared ray generator in addition to a device that focuses on heating the affected part of the human body by irradiating far-infrared rays, such as a trowel-shaped heater.
- a trowel-shaped heater such as a trowel-shaped heater.
- a steamed towel impregnated with a liquid containing herbal ingredients is placed over the human body and shaken with an electric far-infrared generator from above.
- a method of irradiating far-infrared rays is also possible, and a full course of thermal treatment combining these three methods is also possible.
- FIG. 5 is a sectional view of an embodiment in which the far-infrared ray generator according to the present invention is used for the above-mentioned vibration means.
- the main body case 16 with handles 15a and 15b on the left and right sides has a built-in vibration lance 17 driven by the motor M.
- a metal vibration plate 18 driven by vibration by the bumper weight 17, and this vibration plate 18 is provided with a heat insulating material 19 made of fireproof material for heat insulation.
- a heating element that is, a heater 120, is mounted therebetween.
- the far-infrared ray generating layer 2 is laminated on the heating element 20. That is, on the surface of the heating element 20, a carbon layer 2c, a tourmaline layer 2t, and a radon-generating rare element mineral layer 2r are laminated in this order. Carbon layer 2.
- the material may be carbon fiber cloth, felt, or paper.
- the tourmaline layer 2 ton may be made of cloth, felt, or par with kneaded tourmaline ore.
- the radon-generating rare element mineral layer 2r is a dried solid obtained from a radioactive spring containing radium and radon components.
- a cover 21 made of, for example, urethane rubber, and an interspace is filled with a filler 22 such as an epoxy resin part to be solidified.
- the carbon layer 1 c, tourmaline layer 2 t, and radon-generating rare element mineral layer 2 r may be laminated and integrated in advance to form the far-infrared ray generating layer 2.
- This shake-type far-infrared ray generator operates the entire device by holding the left and right handles 15a and 15b in the left and right hands, but touches the lower surface 21a of the cover 21 to the human body.
- the massage is applied by the vibration.
- the far-infrared ray generation layer 2 irradiates deep infrared rays to the deep part of the human body to warm it.
- the affected area can be irradiated with far-infrared rays while moving in the rain.
- the sweat generated from the human body can be absorbed by the steamed towel 24, it can be heated using the trowel-shaped far-infrared ray generator shown in Figs. 1 and 2, or the whole body can be heated using the dome-shaped far-infrared ray generator shown in Fig. 6. If used after warming, it will relieve fatigue from treatment and absorb sweat from warming treatment, which will make you feel better. Therefore, it is suitable for final finishing after performing various far-infrared heating treatments.
- FIG. 6 shows an embodiment of a dome-shaped or tunnel-type far-infrared ray generator, wherein (1) is a plan view and (2) is a front view.
- D1 and D2 are semicircular cylindrical or dome-shaped far-infrared ray generators, and are sized so that the small-diameter dome D2 can be inserted into the large-diameter dome D1. That is, the outer diameter of the smaller diameter dome D2 is slightly smaller or slightly smaller than the inner diameter of the larger diameter dome D1.
- Enlarged portions of the large and small domes D 1 and D 2 are shown in multi-layered form as shown in FIG.
- the indispensable layers among these layers are a heat generating layer, that is, a heater layer 25, and a far-infrared ray generating layer 26 inside the heater layer 25.
- a heat generating layer that is, a heater layer 25, and a far-infrared ray generating layer 26 inside the heater layer 25.
- Each layer is formed in a semi-cylindrical curved surface.
- the heater layer 25 may be disposed inside the far-infrared ray generating layer 26.
- An outer protective layer 28 is provided on the outer surface of the heat generating layer 25 as necessary.
- the outer surface protective layer 28 is laminated on the heat generating layer 25 in the order of a layer of a refractory heat insulating material, a heat reflecting plate, a layer of a cushioning material, and an outer package.
- the layer of refractory insulation is made of cloth, paper, and the heat reflector is lmm thick It is a stainless steel plate, the cushioning layer is made of cotton cloth or felt, and the outer casing is made of cotton cloth or vinyl leather like the inner casing.
- the human body is laid on the back of the human body at the center of the dome on the mat 29.
- the mat 29 has a built-in heating element to keep the human body cool. It is more preferable that the far-infrared ray generating layer according to the present invention is disposed above the heating element.
- dome-shaped far-infrared generator using both the large and small domes D 1 and D 2 can heat the whole body from the torso of the human body to the toes, that is, from the neck down. If used alone, it can also heat only the torso or feet, or the lower abdomen. Therefore, over a relatively large area, Suitable for warming.
- far-infrared rays As mentioned above, it is necessary to improve the blood flow near the affected area with a ⁇ -shaped heater and to excrete waste and harmful substances once they are scattered. Then, they enter the far-infrared dome with the negative ion effect and sweat a lot.
- the characteristic of far-infrared rays is that they “transfer heat to the inside”, which also heats deep into the skin and keeps them for a long time, thus exerting a heating effect.
- the far-infrared rays reach deep into the body and turn into thermal energy, warming the body from the core, expanding blood vessels and improving blood circulation.
- far-infrared rays have the characteristic of activating molecular motion of water, which improves the flow of blood and body fluids and activates cells.
- negative ions have the effect of making the parasympathetic nerve dominant among the autonomic nerves, relieving pain and relatating. It also has the effect of removing active oxygen, so it can have both effects of relieving pain and ameliorating diseases such as cancer. Negative ions can be taken into the body much more through the midline of the back than through the nose and mouth be able to.
- the quake type shown in Fig. 5 and the dome structure shown in Fig. 7 have not only the three layered structures of the tourmaline layer, the carbon layer, and the radon-generating rare element mineral layer, but also the three-layered structure shown in Fig. 8. Mixtures of two or more are also possible. Also, carbon alone can also serve as a heating element.
- (1) is to apply the far-infrared ray generator having a trowel-shaped heating part to the surface of the human body to absorb far-infrared rays deep in the human body, and (2) is arranged inside the dome-shaped surface. Placing the human body inside the far-infrared ray generator and absorbing the far-infrared ray into the human body. (3) The steam-filled towel impregnated with the liquid containing the herbal component is superimposed on the human body surface. From above, the above-mentioned vibration-type far-infrared ray generator is pressed to absorb the far-infrared ray into the human body and heat it.
- (1) intentionally heats the area near the affected area, smoothes the flow of lymph that activates autonomic nerves, enhances blood flow, promotes cell metabolism, and disperses and excretes waste products.
- the role of the trowel-shaped far-infrared ray generator is enormous. It is reasonable to disperse and exhale wastes and harmful substances, and then simultaneously discharge extraneous substances out of the body by the total sweating action (2).
- the herb effect is utilized in the relaxation treatment performed using (3). That is, when performing the massage in (3), the towel containing the vapor of the herb is pressed against the human body, and the medicinal component is pressed in in (3).
- the herbs used for this purpose are based on those that have been said to have a pain relieving effect since ancient times, and can also be expected to have an aromatherapy effect.
- “smell” is the strongest link to the emotional center of the brain, and the fact that scent works positively for the mind and body is biochemistry in the world. Demonstrated in research in the field of physics and chemistry. It is bad for old and young people, For those who are healthy, those who are healthy and those who are sick, herbal massage gives vitality and prevents illness and heals feelings.
- the present inventors have proposed a heat generator 3 ⁇ 20 ⁇ 25 that constitutes a thermotherapy device, a metal plate 1 that efficiently transmits heat, an adhesive for fixing the heat generator to the metal plate 1, a surface of the metal plate.
- a thermal treatment device that can be efficiently injected into the human body, unlike the conventional thermal treatment device.
- a glass plate can be used instead of a metal plate.
- a glass plate is effective when used to improve slippage.
- the shape is preferably convex in order to obtain adhesion and strength when pressed against a part of the human body.
- soda glass equivalent to ordinary plate glass can be used, but it is preferable to use tempered glass or crystallized glass having high mechanical strength.
- appropriate drying or heat treatment is required after the coating material described below is adhered to the concave surface of the glass plate.
- glass compositions with a softening point of 680 ° C or less can be used on stainless steel plates, and soda-lime-based glass compositions with a softening point of 650 ° C or less and melting at low temperatures.
- the softening frit composition can be used on an aluminum plate.
- Either organic or inorganic coating material can be used for the glass plate from the viewpoint of using it on the convex back surface, but a thermosetting adhesive is easy to use.
- the present inventors have invented and studied long-term thermal treatment experience and research on a ⁇ far-infrared ray generating material '' that enhances thermal treatment effects by mixing it with the inorganic coating material, which is a feature of the present invention.
- the inventors have found that the effect is remarkable, and have reached the present invention.
- These “far-infrared ray generating materials” are the following three components.
- Tourmaline ore Also called tourmaline, its far-infrared effect is a widely known natural ore.
- Dry solids obtained from radioactive springs containing radium perradone components These are obtained from radioactive hot springs containing radium perradone, and their efficacy has been well known for a long time, such as rheumatism, gout, and cuts. It is also used for medical treatment.
- Carbon Far-infrared effects such as Bincho charcoal are well-known because charcoal-grilling passes well through the inside of the food. When these "far-infrared ray generating materials" are mixed with inorganic coating materials, the particle size is (1), (2) and (3), both J1S standard sieve.
- Path preferably a 0.074 mm pass.
- the “far-infrared ray generating material” in (1) to (3) is 1 to 30 parts by weight, preferably 3 to 15 parts by weight, based on 100 parts by weight of the inorganic coating material. If the amount is less than 1 part by weight, no effect can be obtained, and if it exceeds 30 parts by weight, kneading cannot be performed, and a satisfactory coating material cannot be produced.
- the inorganic coating material For a mixture of the inorganic coating material and the specified far-infrared ray generating material, a combination of an organic binder such as CMC (synthetic glue) and pulp waste liquid and an inorganic binder such as clay is combined. Add 2.0% by weight and more water and mix well. Adjust so that elongation and shape retention can be obtained at the same time. After applying this kneaded material to the convex surface of the metal plate with a uniform thickness, further drying at room temperature for more than half a day, then slowly heating and drying at 40 to 110 ° C, the metal plate is made of stainless steel. In the case of (1), the temperature is 680 ° C or less, in the case of aluminum plate, the temperature is 650 ° C.
- CMC synthetic glue
- the baking time is determined by observing the baking condition.
- “Far-infrared ray-generating materials” (1) and (2) are likely to deteriorate because they are baked at a high temperature of 680 ° C or less together with the inorganic coating material. For this reason, for (1). (2) .samples, before and after heating at 680 ° C. for 20 minutes, identification of the minerals was attempted by X-ray diffraction, but no change was observed.
- it is necessary to bake in a reducing atmosphere such as blowing an inert gas into a high-temperature electric furnace.
- the glass composition having a softening point of 680 ° C or lower
- a commercially available heat-resistant organic resin instead of the glass composition having a softening point of 680 ° C or lower, use a commercially available heat-resistant organic resin and knead it with the far-infrared ray generating material, and then bond the film to the surface of the metal plate or glass plate. . These films are heated by a heating element whose temperature is controlled at loot or lower.
- the whole body is irradiated with far-infrared radiation in the dome-shaped far-infrared ray generator as shown in Figs. 6 and 7.
- a steamed towel impregnated with a liquid containing herbal components is placed on the surface of the human body, and the above-mentioned shake-type far-infrared rays are applied.
- the frequency of treatment is on average about two to three times a week.
- Liver cancer life expectancy 2 months: Adult female 66 years old, ascites accumulated, arrhythmia, swelling of lower body.
- Infectious disease intractable disease handbook holder: Adult male 7 3 years old Tadare condition, pain, itching. (Attached photo) Completely cured in 6 months, working fine.
- Brain tumor 9-year-old male, 3rd grade elementary school student, undergoes hyperthermia treatment from inoperable. Treatment I went to school in 6 months. I'm going to school.
- Systemic atopy Elementary school, 1 year old, male, 7 years old. Insomnia due to itching. Use of sleeping pills.
- Cervical hernia An adult female, 56 years old, used a headache drug, used a stabilizer (for 20 years).
- Ulcerative colitis designated intractable disease: Adult female 41 years old. Severe diarrhea and abdominal pain.
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Abstract
Description
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JP2005502863A JP4257331B2 (ja) | 2003-02-26 | 2004-02-20 | 温熱治療用の遠赤外線発生器 |
US10/546,918 US7361917B2 (en) | 2003-02-26 | 2004-02-20 | Far-infrared generator for thermotherapy and method of far-infrared irradiation |
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Cited By (5)
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WO2006118226A1 (ja) * | 2005-04-28 | 2006-11-09 | 21Refresh Co., Ltd. | 温灸器 |
CN101166558B (zh) * | 2005-04-28 | 2011-01-19 | 株式会社21恢复 | 温灸器 |
JP2007014679A (ja) * | 2005-07-11 | 2007-01-25 | 21Refresh Co Ltd | 温灸器 |
JP2009112804A (ja) * | 2007-10-18 | 2009-05-28 | Minato Ikagaku Kk | Igf−1の体内産生を促進する青色光刺激装置及びその方法 |
JP2018051274A (ja) * | 2016-09-27 | 2018-04-05 | 株式会社久木元 | 局部加温装置 |
Also Published As
Publication number | Publication date |
---|---|
TW200502023A (en) | 2005-01-16 |
JPWO2004075986A1 (ja) | 2006-06-01 |
JP4257331B2 (ja) | 2009-04-22 |
US7361917B2 (en) | 2008-04-22 |
US20060226378A1 (en) | 2006-10-12 |
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