JP3123546U - Nano far infrared compress - Google Patents

Abstract

To provide a nano far-infrared compress.
In the nano far-infrared compress, the compress comprises a surface layer and a nano far-infrared substrate layer, and a plastic film is used for the surface layer. The nano far-infrared substrate layer is disposed on one side of the fabric layer and the fabric layer. The surface plastic film is bonded to the viscous film layer on one side of the cloth layer, and when used, the surface plastic film or release paper is peeled off, A far-infrared substrate layer is applied to the back of the body corresponding to the central nervous system of the neck or lumbar region.
[Selection] Figure 1

Description

  The present invention relates to nano far infrared compresses. A nano far-infrared substrate layer is provided on the compress and affixed to a place that reacts to the central nervous system of the neck or lumbar region on the back of the body. It is about nano far-infrared compresses to be realized.

  Traditionally, body pain has been treated in two ways: Oriental Medicine or Western Medicine. Oriental medicine has been treated for diseases by using acupuncture, massage, and taking traditional Chinese medicine. In contrast, Western medicine is mostly based on scientific analysis, such as oral medicine and injection (subcutaneous injection). However, medical treatment errors such as drug allergy or careless injection, prescription mistakes, etc. can occur in the various treatment methods.

  80% of solar energy is infrared, and 80% of infrared is 10-20 minima wavelengths. Moreover, 60% or more of the solar energy includes 10-20 minute infrared rays. This wavelength band is considered beneficial to the body. On the other hand, infrared rays further include near infrared rays having a wavelength band of 0.75 to 4 min and far infrared rays having a wavelength band of 4 to 1000 min. Among them, far infrared rays of 8 to 14 min have a function of resonance effect and penetrating power, and since radiation is uniform, they give good work to the body. Nano far-infrared rays are invisible, but have light properties such as straight travel, refraction, and reflection, as well as penetrating power and are regarded as radiation that absorbs many substances and causes thermal reactions. The application of nano far-infrared rays in the medical health field is extremely safe, there is no risk of tissue destruction, and the thermal sensation reaches the deep part of the body. Because the light heat is radiant heat, the thermal sensation is extremely safe and brings a refreshing feeling like a hot spring containing minerals. Now, the medical health effect of nano far infrared rays has permeated many people. Far-infrared rays are electromagnetic waves having a wavelength band of 4 to 1000 min. This kind of electromagnetic wave causes a medical health effect. Its function is the resonance endothermic function with internal molecules. Many molecules in the body absorb the far-infrared rays by the resonant endothermic action of nano far-infrared rays, creating energy and heat. However, it is the subcutaneous water molecule, carbon dioxide inside the microvessel, and two kinds of molecules that are most affected by the penetrating power of nano far-infrared rays and the molecular vibration form. The subcutaneous water molecules absorb far-infrared energy and increase the vibrations of the water molecules to disperse the water molecules that have lost their activity and motility, creating small water molecules with free groups. These activated small water molecules combine with toxic substances and are excreted from sweat glands expanded by heat absorption. Activated small water molecules promote the production of other activated enzymes and exert a health effect. Furthermore, in the microvessel, in addition to water molecules, carbon dioxide molecules can absorb far infrared rays of various wavelengths. These molecules strengthen and the energy and heat caused by vibrations dilate blood vessels, enhance the blood exchange and transport capacity of microvessels, and help to avoid the occurrence of various diseases due to blood retention. From the above explanation, the importance of far-infrared rays for the health of the body can be understood. Applying the special effects of nano far-infrared rays to everyday life can lead us to a healthier and more enjoyable life. And it also brings health to the body by special effects on the body of far infrared rays. However, in the molecular resonance endothermic function, it is desirable that the medical health effect of nano far-infrared rays is absorbed by the body entirely, so that the effect is good and the effect is exerted on the body for a long time.

  For this reason, as a result of repeated research and testing, the present inventors have devised a nano far-infrared compress that achieves medical effects via the central nervous system.

  The main object of the present invention is to provide a nano far-infrared compress that achieves medical effects via the central nervous system. According to the present invention, a nano far infrared radiation function is added to the compress, and the compress is applied to a place that reacts to the central nervous system of the neck or lumbar region on the back of the body, so that the body receives the radiation of the nano far infrared. In this way, medical effects and health functions can be realized and inconveniences in daily life can be resolved.

  An object of the present invention is to provide a nano far infrared compress that realizes a medical effect via the central nervous system. According to the present invention, nano far infrared rays are added to the poultice and brought into close contact with the body, thereby radiating the nano far infrared rays to the deep layers of the body but leaving no marks on the skin surface. By increasing the temperature of the subcutaneous deep layer, it expands microvessels, promotes blood circulation, enhances the metabolism of blood and other tissues, and promotes tissue regeneration ability and convulsant resistance. In addition, it suppresses abnormal excitement of sensory nerves and exerts an effect of regulating autonomic nerves. For this reason, the present invention can be used as an alternative to other medical devices in addition to the infrared treatment method in the health field.

  Another object of the present invention is to provide a nano far infrared compress that achieves a medical effect via the central nervous system. The present invention does not cause drawbacks such as drug allergy or medical negligence as in the conventional medical system, and is convenient and safe to use.

In the invention of claim 1, the nano far-infrared compress has a surface layer and a nano far-infrared substrate layer, a plastic film is used for the surface layer, and the nano far-infrared substrate layer is provided on one side of the fabric layer and the fabric layer. Including the viscous film layer, the plastic film on the surface layer is bonded to the viscous film layer on one side of the fabric layer, and in use, the plastic film on the surface layer and the release paper are peeled off, and the nano far infrared substrate layer is the body layer. The nano far-infrared compress is affixed to a portion of the back that responds to the central nervous system of the neck or lumbar region.
In the invention of claim 2, the nano far-infrared substrate layer is uniformly mixed with nano far infrared powder and a liquid silicon pressure sensitive adhesive, and then heated. 2. The nano far-infrared compress according to claim 1, wherein the cloth layer and a viscous film layer on one side of the cloth layer are formed by coagulation and curing integrally with the elastic cloth.
In the invention of claim 3, the nano far-infrared substrate layer is uniformly mixed with nano far infrared powder and liquid acrylic resin and heated, and then integrated with a cotton elastic cloth. The liquid acrylic resin has been diluted with a small amount of toluene and a small amount of ethyl acetate in advance. It is set as the nano far-infrared compress of Claim 1 characterized by the above-mentioned.
According to the invention of claim 4, the nano far-infrared substrate layer is prepared by uniformly mixing nano-far infrared powder, a minute amount of negative ion powder, a minute amount of photocatalyst powder and a liquid silicon pressure-sensitive adhesive, and heating the mixture. 2. The nano far-infrared compress according to claim 1, wherein a coagulation and curing is performed so as to be integrated with a fabric layer and a viscous film layer on one side of the fabric layer is formed.
In the invention of claim 5, the nano far-infrared substrate layer is uniformly mixed with nano far-infrared powder, a minute amount of negative ion powder, and liquid silicon pressure-sensitive adhesive and heated, and then integrated with the cotton elastic cloth. 2. The nano far-infrared compress according to claim 1, wherein a coagulated and cured film forms a viscous film layer on one side of the cloth layer.
The invention of claim 6 is such that the nano far infrared substrate layer is made of nano far infrared powder, a small amount of photocatalyst powder, liquid silicon pressure sensitive adhesive, uniformly mixed and heated, and then integrated with a cotton elastic cloth. 2. The nano far-infrared infrared compress according to claim 1, wherein a coagulating and curing is used to form a cloth layer and a viscous film layer on one side of the cloth layer.
The device according to claim 7 is the nano far infrared compress according to claim 1, wherein the surface layer is a release paper.
The invention of claim 8 is directed to a nano far-infrared compress, wherein the compress comprises a surface layer and a nano far-infrared substrate layer, a surface layer is made of a plastic film, and the nano far-infrared substrate layer is a fabric layer and one of the fabric layers. A viscous film layer provided on a side surface is provided, a viscous film layer on one side surface of a cloth layer is bonded to a surface plastic film, and the nano far infrared substrate layer is a nano far infrared powder and liquid. After uniformly mixing and heating a silicon pressure sensitive adhesive (Liquid silicon pressure sensitive adhesive), the cloth layer and the viscous film layer on one side of the cloth layer are solidified and cured integrally with the cotton elastic cloth. When finished, a plastic film is attached to the bottom of the fabric layer. The plastic film on the bottom of the plastic film or release paper and the cloth layer is peeled off, and the viscous film layer of the nano far-infrared substrate layer is attached to the cervical or lumbar region of the human body that reacts to the central nervous system. Nano far infrared compresses characterized by

  The far-infrared compress of the present invention is easy to use, and its radiant infrared radiation stress-related illness, pain relief, rheumatoid arthritis, paralysis recovery, motor injury rehabilitation, surgical wound healing and pain relief, Therapeutic effects on diseases such as lower back, back and knee pain, gastrointestinal disease, high and low blood pressure, and asthma are obvious. In addition, body odor removal, detoxification, warm in winter, cool in summer, and also has effects such as moisture removal and beauty.

  As shown in FIGS. 1 to 2, the present invention relates to a nano far-infrared compress 1 that realizes a medical effect via a central nervous system, and is composed of a surface layer 11 and a nano far-infrared substrate layer 12. Among them, the surface layer 11 is a plastic film or a release paper, and the nano far infrared substrate layer 12 is a nano far infrared powder and a liquid silicone pressure sensitive adhesive or a liquid acrylic resin (Liquid). (states acrylic resins) are uniformly mixed and heated, and then coagulated and cured integrally with a cotton elastic cloth. The nano far-infrared substrate layer 12 is provided with a cloth layer 121 and a viscous film layer 122 on one side of the cloth layer 121. A viscous film layer 122 on one side of the fabric layer 121 is bonded to the surface layer 11 such as the plastic film or release paper. In use, after removing the plastic film or release paper of the surface layer 1, the viscous film layer 122 of the nano far-infrared substrate layer 12 reacts with the central nervous system of the neck 21 or the lumbar 22 on the back of the body 2 (FIG. 2). By sticking it to the place where it is applied, the action of nano far-infrared rays gradually penetrates into the central nervous system, realizing the medical effect and health function of the body's painful place, and eliminating inconvenience in life.

Further, as an example of an appropriate ratio of the nano far infrared substrate layer 12, 20% nano far infrared powder is uniformly mixed and dispersed in 80% specific concentration of liquid silicon pressure sensitive adhesive or liquid acrylic resin, and extruded. After filling the mold (not shown), it is possible to create various thicknesses, dimensions, and shapes by applying a cotton elastic cloth and the hollow shape of the extrusion mold. The extrusion mold is heated at 120 ^° C.-130 ^° C. for a predetermined time, and the liquid silicon pressure sensitive adhesive or liquid acrylic resin is gradually cured by pressure and heating action to form the nano far infrared substrate layer 12. . The nano far-infrared substrate layer 12 includes a cloth layer 121 and a viscous film layer 122 on one side of the cloth layer 121. The nano far-infrared substrate layer 12 taken out from the extrusion mold has the viscous film layer 122 on the surface layer 11. The surface layer 11 can be a plastic film or a release paper.

  The liquid acrylic resin is diluted with a small amount of toluene and a small amount of ethyl acetate before mixing with the nano far-infrared powder.

  The nano far-infrared powder is synthesized from zinc powder, aluminum powder, titanium powder, and antimony powder.

  The 20% nano far-infrared powder can be replaced with an appropriate percentage of photocatalyst powder or negative ions. As an example, the original 20% nano far infrared powder replaces 14% nano far infrared powder, 1% photocatalyst powder and 5% negative ions, or 18% nano far infrared powder and 2% The photocatalyst powder can be substituted. Alternatively, it can be replaced with 15% nano far infrared powder and 5% negative ions.

  As shown in FIG. 3, a plastic film 120 can be further attached to the bottom surface of the cloth layer 121 of the nano far-infrared substrate layer 12.

The present invention has the following promotion effects,
1. The present invention applies a nano far-infrared substrate layer compress to the cervical or lumbar central nervous system on the back of the body to react to the central nervous system, gradually radiating nano far-infrared radiation to the body and gradually increasing the effect of medical health. Realize,
2. The present invention is equipped with a nano far-infrared radiation function, which is in close contact with the body, can radiate nano far-infrared radiation to the body and deliver it to the deep part of the body, and does not leave a trace on the skin surface. In addition, by increasing the temperature of the subcutaneous deep layer, it expands microvessels, promotes blood circulation, enhances metabolism with blood and other tissues, promotes tissue regeneration and spasm resistance, and sensory nerves In addition to the infrared treatment method beneficial to health, it can be applied to substitutes for other medical equipment.
3. The plastic film or release paper of the surface layer 1 can be peeled off and the viscous film layer 122 of the nano far-infrared substrate layer 12 can be attached to the body, which is very easy to use. It does not cause drawbacks such as drug allergy or medical negligence as in conventional medical systems, and is very safe.

The medical health effects can be summarized as follows:
(1) Fatigue recovery: Fatigue substances and waste accumulated in the body in a short time are discharged out of the body and recovered from fatigue and pressure.
(2) Improvement of stiff shoulders and low back pain: By promoting blood circulation, increase blood flow in muscles, improve muscle stiffness and pain, have effects on fifty shoulders,
(3) Indirect functional recovery of sports injury: Vigorous exercise can cause imbalance in the body and cause various illnesses. Nano far-infrared radiation promotes the discharge of lactic acid and waste products, improves metabolic function, promotes blood circulation,
(4) Promote blood circulation and improve high and low blood pressure: Blood transports nutrients and oxygen to each tissue as a mediator that circulates through body tissues and organs. If this function is disturbed, it will be harmful to your health. Nano far-infrared radiation promotes blood circulation, prevents vascular disease, and is a fundamental health and treatment strategy.
(5) Promote metabolism and remove excess fat: Nano far infrared rays lower cholesterol and neutral fat, prevent aging, have beauty and diet effect, and arteriosclerosis is also effective (6 ) Exhaust heavy metals: Physiological functions are regulated by 55 minerals in the body. Causes illness when harmful minerals are exceeded or necessary minerals are deficient. Nano far infrared rays discharge harmful substances from the body and keep the body in a healthy state.

  As explained above, the nano far-infrared compress that achieves medical effects through the central nervous system of the present invention is easy and convenient to use, as well as diseases related to infrared stress, pain improvement, rheumatoid arthritis, paralysis Therapeutic effects are obvious for diseases such as rehabilitation, exercise injury rehabilitation, surgical wound healing and pain relief, lower back, back and knee pain, gastrointestinal disease, hypertension and asthma. It also has body odor removal, detoxification, warm in winter, cool in summer, and has effects such as moisture removal and beauty.

It is the expansion schematic of the Example of this invention. It is the plane schematic stuck on the back of the body in the example of the present invention. It is the plane schematic which affixed the plastic film newly in the Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Compress 11 Surface layer 12 Nano infrared substrate layer 120 Plastic film 121 Cloth layer 122 Viscous film layer 2 Body 21 Neck part 22 Lumbar part

Claims (8)

  The nano far infrared compress includes a surface layer and a nano far infrared substrate layer, and a plastic film is used for the surface layer. The nano far infrared substrate layer includes a cloth layer and a viscous film layer provided on one side of the fabric layer, A plastic film on the surface layer is bonded to the viscous film layer on one side of the fabric layer, and in use, the plastic film on the surface layer and the release paper are peeled off, and the nano far-infrared substrate layer is placed on the neck or waist on the back of the body. A nano far-infrared compress that is attached to a portion that reacts to the central nervous system.   The nano far-infrared substrate layer is uniformly mixed with nano far infrared powder and liquid silicon pressure sensitive adhesive, and then coagulated and cured together with a cotton elastic cloth. 2. The nano far-infrared compress according to claim 1, wherein a viscous film layer on one side surface of the fabric layer and the fabric layer is formed.   The nano far infrared substrate layer is prepared by uniformly mixing and heating nano far infrared powder and liquid acrylic resin (Liquid states acrylic resins), and then coagulating and curing integrally with a cotton elastic cloth. The liquid acrylic resin that forms a fabric layer and a viscous film layer on one side of the fabric layer is previously diluted with a small amount of toluene and a small amount of ethyl acetate. Item 1. The nano far infrared compress of item 1.   The nano far-infrared substrate layer is uniformly mixed with nano far-infrared powder, a small amount of negative ion powder, a small amount of photocatalyst powder and a liquid silicon pressure-sensitive adhesive, and then solidified so as to be integrated with a cotton elastic cloth. The nano far-infrared compress according to claim 1, wherein the nano-infrared compress is made by curing to form a fabric layer and a viscous film layer on one side of the fabric layer.   After the nano far infrared substrate layer is uniformly mixed with nano far infrared powder, a small amount of negative ion powder, and liquid silicon pressure sensitive adhesive and heated, it is solidified and cured so as to be integrated with a cotton elastic cloth, 2. The nano far-infrared infrared compress according to claim 1, wherein a fabric layer and a viscous film layer on one side of the fabric layer are formed.   The nano far infrared substrate layer is a nano far infrared powder, a small amount of photocatalyst powder, a liquid silicon pressure sensitive adhesive, uniformly mixed and heated, and then solidified and cured so as to be integrated with a cotton elastic cloth. The nano far-infrared compress according to claim 1, wherein a viscous film layer is formed on one side of the layer and the fabric layer.   The nano far infrared compress according to claim 1, wherein the surface layer is a release paper.   The nano far-infrared compress has a surface layer and a nano far-infrared substrate layer, a plastic film is used for the surface layer, the nano far-infrared substrate layer is a cloth layer, and a viscous film provided on one side of the fabric layer A viscous film layer on one side of the fabric layer is bonded to a plastic film on the surface layer, and the nano far infrared substrate layer is composed of a nano far infrared powder and a liquid silicon pressure sensitive adhesive (Liquid). After uniformly mixing and heating the silicon pressure sensitive adhesive), the cloth layer and the viscous film layer on one side of the cloth layer are formed by solidifying and curing together with the cotton elastic cloth, and the bottom of the cloth layer is formed. Separately, a plastic film is affixed. The film or release paper and the plastic film on the bottom of the cloth layer are peeled off, and the viscous film layer of the nano far-infrared substrate layer is pasted on the cervical or lumbar region of the human body that reacts to the central nervous system. Nano far infrared compresses.

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