JP2010057657A - Nano far-infrared ray belt - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a nano far-infrared ray belt by which a good health curative effect can be obtained because of the doubling of the irradiation of a nano far-infrared ray which is absorbed by a human body when the belt is fitted on the waist, and which has a sterilizing action and an antibacterial action resulting from the generation of negative ions. <P>SOLUTION: This nano far-infrared ray belt consists of a belt body, a buckle which is combined with the distal end of the belt body, and a belt rear end section which is combined with the rear end of the belt body. The belt body includes a plurality of knitted sections. For the knitted section on the foremost train, a plurality of warp sections and a plurality of weft sections are cross-knitted. For the warp section, an elastic yarn or a fiber yarn, a plurality of fiber yarns, one or more nano far-infrared ray negative ion fiber yarns, and one or more nano far-infrared ray negative ion sewing yarns are cross-knitted. The plurality of wefts are respectively vertically cross-knitted to the tops and the bottoms of the elastic yarn or the fiber yarn of the warp section, a plurality of fiber yarns, one or more nano far-infrared ray negative ion fiber yarns, and one or more nano far-infrared ray negative ion sewing yarns. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a nano far infrared belt, and more particularly to a nano far infrared belt having nano far infrared rays and negative ions.

  There are two types of disease treatment, Chinese medicine and Western medicine. In Chinese medicine, treatment is mainly by taking acupuncture, Satsuma, or herbal medicine, and in medicine, by injection, subcutaneous injection, or taking medicine Treatment is the main. These treatments are accompanied by medical troubles such as drug allergies, inadvertent injection mistakes, and missed medications.

Solar energy is 80% infrared, but 80% infrared has a wavelength of 10-20 micrometers. In addition, 60% of solar energy is infrared of 10 to 20 micrometers, and infrared of this wavelength is most beneficial to the human body. Infrared light can be divided into near infrared light of 0.75 to 4 micrometers and far infrared light of 4 to 1000 micrometers.
Among them, the far infrared ray of 8 to 14 micrometers has two effects of “resonance absorption” and “penetration power”, and has the best effect on the human body because the radiation is uniform. These nano far-infrared rays can be defined as radiation that is invisible to the naked eye, has light properties such as straight travel, bending, and reflection, and penetrating power, and is absorbed by many substances to cause a thermal reaction. Nano far-infrared rays are used for health treatment but are very safe. There is no risk of destroying the tissue, the heat reaches deep, and the light heat is radiant heat, so the heat is stable, it is like a hot spring containing minerals, and there is a comfortable comfort. The effects of nano far-infrared rays in health treatment are generally well known, but far-infrared rays are electromagnetic waves having a wavelength of 4 to 1000 micrometers, and the main action on the human body is the action of “resonant heat absorption” with molecules in the body. It is. Many molecules in the body generate energy and heat by absorbing far-infrared rays by the resonance heat absorption of nano far-infrared rays.

  However, due to the relationship between the penetrating power of nano far-infrared rays and the molecular vibration form, the greatest effect is on two molecules of subcutaneous water molecules and carbon dioxide in capillaries. When the water molecules under the skin absorb far-infrared energy, various vibrational states of the water molecules are amplified, losing the activity and kinetic force, breaking up the water molecules in a lump, and making small water molecules with free groups appear. These activated water molecules bind to toxic substances and contribute to health by being discharged from sweat glands expanded by heat and promoting the production of activated enzymes. In the capillaries, in addition to water, carbon dioxide can also absorb far infrared rays having different wavelengths. When these molecules are amplified in vibrations, the energy and heat that is generated dilates the blood vessels, enhances the ability to exchange and transport capillaries, and prevent various diseases caused by congestion. From the above description, it is possible to understand the importance of far infrared rays for the human body. When the special effects of nano far-infrared rays are correctly applied to daily life, it is a pleasure for health. Although the special action of nano far infrared rays on the human body contributes to health, based on the above-mentioned “molecular resonance endothermic effect” theory, health treatment with nano far infrared rays is effective when absorbed throughout the body and takes a long time. And the action becomes remarkable.

Far-infrared substances are attached to fabrics, underwear, etc. by printing or coating, and the purpose of health promotion can be achieved by irradiation with nano far-infrared rays. In some cases, it cannot be maintained for a long time, and a predetermined effect cannot be obtained. The inventor of the present invention disclosed a nano far-infrared pad in Patent Document 1, but it was not suitable for wearing although it was practical. The present invention focuses on the fact that many conventional commercially available belts have only a method of using the belt, and an object of the present invention is to obtain a health treatment effect by wearing the belt.
Taiwan Patent No. I277429 Utility Model Registration No. 3123546

The first object of the present invention is that, when worn on the waist, the irradiation of nano far infrared rays absorbed by the human body is doubled, and a better health treatment effect is obtained. It is in providing the nano far-infrared belt which has.
A second object of the present invention is to provide a nano far-infrared belt having a good structural strength in which a plurality of weft yarns are knitted and knitted perpendicularly above and below the warp portion.

  In order to achieve the above-mentioned object, the present invention provides a nano far infrared belt, and the nano far infrared belt of the present invention includes a belt body, a buckle coupled to the front end of the belt body, and a rear end of the belt body. The belt main body includes a plurality of knitting sections, and the foremost knitting section includes a plurality of warp portions and a plurality of weft yarns. The warp portion is formed by interweaving an elastic yarn or fiber yarn, a plurality of fiber yarns, one or more nano far infrared ray negative ion fiber yarns and one or more nano far infrared ray negative ion sewing yarns. The plurality of wefts are knitted vertically and vertically above and below the elastic yarn or fiber yarn of the warp part, the plurality of fiber yarns, one or more nano far infrared negative ion fibers and one or more nano far infrared negative ion sewing yarns, respectively. ing.

  That is, the invention of claim 1 is a nano far-infrared belt, comprising a belt body, a buckle coupled to the front end of the belt body, and a belt rear end coupled to the rear end of the belt body. A nano far-infrared belt, wherein the belt main body has a plurality of knitting sections, and each knitting section of the plurality of knitting sections is formed by knitting a plurality of warp portions and a plurality of wefts, and the warp portion Is an elastic yarn or fiber yarn, a plurality of fiber yarns, one or more nano far-infrared negative ion fiber yarns and one or more nano far-infrared negative ion sewing yarns are interwoven, and each of the plurality of wefts is the warp portion. The elastic yarn or fiber yarn, the plurality of fiber yarns, the one or more nano far-infrared negative ion fiber yarns and the one or more nano far-infrared negative ion sewing yarns are vertically knitted and woven. And said that you are.

The invention of claim 2 is the nano far-infrared belt according to claim 1, wherein the belt main body is located on the front side, with the frontmost knitting section of the plurality of knitting sections following the front needle side section. One or more elastic yarns or fiber yarns and the one or more nano far-infrared negative ion sewing yarns are knitted and woven above and below the plurality of weft yarns.
The invention of claim 3 is the nano far-infrared belt according to claim 2, wherein the front needle side section is further provided with a collecting and knitting side line woven so that a plurality of wefts are entangled with the front needle side section. It is characterized by being.
The invention of claim 4 is the nano far-infrared belt according to claim 1, wherein the belt body further includes a knitting section located on the rear side, and the knitting section includes the one or more nano far-infrared infrared minus belts. An ion sewing thread and the one or more elastic threads or fiber threads are knitted and woven above and below the plurality of weft threads.

The invention of claim 5 is the nano far-infrared belt according to claim 1, wherein the belt main body may be artificial fibers or natural fibers, wherein the plurality of anti-elongation fiber yarns of the warp portion of the knitted fabric section may be artificial fibers or natural fibers, The one or more nano far-infrared negative ion fiber yarns in the warp portion have nano far infrared rays and negative ions after artificial fibers or natural fibers are processed, and the one or more sewing yarns in the warp portion are artificial fibers Alternatively, after natural fibers are processed, they have nano far infrared rays and negative ions, and the plurality of wefts are artificial fibers or natural fibers having nano far infrared rays and negative ions after being processed, respectively. .
The invention of claim 6 is the nano far-infrared belt according to claim 1, wherein the belt main body is processed with the one or more nano far-infrared negative ion sewing threads in the front needle side section, thereby processing the nano far-infrared belt. And artificial fibers having negative ions or natural fibers.
The invention of claim 7 is the nano far infrared belt according to claim 4, wherein the belt main body is a nano far infrared that has been processed with the one or more nano far infrared negative ion sewing threads in the rear heel area. And artificial fibers having negative ions or natural fibers.
The invention of claim 8 is the nano far-infrared belt according to claim 1, wherein the belt main body has elasticity and may be expanded or contracted, or may not be expanded or contracted without elasticity. It is characterized by.

  In the nano far-infrared belt of the present invention, the weft formed by knitting and weaving the fiber yarn, the sewing thread and the warp portion of the warp portion of the belt body has nano far-infrared rays and negative ions. However, even if it is not elastic and does not expand and contract, if it is worn on the waist, the irradiation of nano far infrared rays absorbed by the human body doubles, and a better health treatment effect can be obtained. Fungi and antibacterial action can be obtained.

The belt rear end portion is integrally formed of a vinyl material, and can be easily joined to the belt main body through the opening by sewing, so that the operation can be performed relatively quickly.
The multiple wefts of the belt body are weaved vertically above and below the elastic yarn or fiber yarn of the warp, fiber yarn, fiber yarn, nano far infrared ray negative ion sewing yarn and nano far infrared ray negative ion fiber yarn, respectively, so that good structural strength Can be obtained.

Nano far-infrared rays are irradiated to the deep part of the human body, but without leaving any trace on the skin surface, raising the temperature of the subcutaneous deep layer, dilating capillaries, promoting blood circulation, and between blood and other tissues Increase metabolism. In addition, it promotes tissue regeneration ability and anticonvulsant ability, and at the same time, suppresses abnormal excitement of sensory nerves and is effective in adjusting autonomic nerve function. Therefore, it can be used as a substitute for medical equipment as well as far-infrared treatment effective for health.
In addition, the method of use is simple and safe, and there are no disadvantages of conventional medicine such as drug allergies and medical troubles. Furthermore, the fatigue of exercise and work can be removed and pain can be reduced.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 and FIG. 2, FIG. 1 is a perspective view showing a nano far infrared belt according to an embodiment of the present invention, and FIG. 2 shows a knitting of a belt body of the nano far infrared belt. It is a figure which shows a structure.
As shown in FIGS. 1 and 2, a nano far infrared belt according to an embodiment of the present invention includes a belt body 1, a buckle 2 coupled to the front end of the belt body 1, and a belt coupled to the rear end of the belt body 1. The rear end 3 is included. The buckle 2 has an insertion pin 21 that is inserted into the retaining hole 32 of the belt rear end 3.

The belt main body 1 may be either elastic or elastic, or may be elastic and non-elastic. The belt body 1 includes a front needle area (ear part) 11 and a plurality of knitting areas 12. In the front needle area 11, one or more elastic yarns or fiber yarns 111 and 112 located on the front side and one or more nano far infrared negative ion sewing threads 113 and 114 are knitted and woven above and below the plurality of wefts 101. Become.
FIG. 3 is a diagram showing a vertical relationship as seen from the surface side in which elastic yarns or fiber yarns, nano far-infrared negative ion sewing yarns and weft yarns are knitted and woven in the front needle side section in the knitted structure of the belt body. As shown in FIG. 3, the vertical relationship between the elastic yarn or fiber yarn 111, 112, the nano far-infrared negative ion sewing thread 113, 114 and the weft 101 is "upper, lower, upper, lower, upper and lower" from the left side. ing. This is because the elastic yarn or fiber yarn 111 is located above the first and second weft yarns 101, located below the third and fourth weft yarns 101, and located above the fifth and sixth weft yarns 101. In this case, it is located under the seventh and eighth wefts 101. In the case of the nano far-infrared negative ion 114, it is located below the first weft 101, located above the second weft 101, located below the third weft 101, and above the fourth weft 101. Positioned, below the fifth weft 101, above the sixth weft 101, below the seventh weft 101, and above the eighth weft 101. At the front end of the front needle area 11, a collection knitting edge line (end part) 115 woven so that a plurality of wefts 101 are entangled is provided.
Here, nano far-infrared negative ion fibers and sewing threads are known nano far-infrared rays that have negative ions by irradiating nano far-infrared rays to fibers and threads that are attached by printing or applying a far-infrared absorbing material. Negative ion fibers and yarns.

  The knitting section 12 in the foremost row of the plurality of knitting sections is formed by knitting a plurality of warp portions 121 and a plurality of wefts 101 following the front needle side section 11. The warp portion 121 includes an elastic yarn or fiber yarn 1211, a plurality of fiber yarns 1212, 1214, 1216 and 1218, one or more nano far-infrared negative ion fiber yarns 1213 and 1219, and one or more nano far-infrared infrared negative ion sewing yarns 1215. , 1217 are woven and woven. Each of the plurality of wefts 101 includes an elastic yarn or fiber yarn 1211 of the warp portion 121, a plurality of fiber yarns 1212 and 1214, one or more nano far infrared negative ion fiber yarns 1213 and 1219, and one or more nano far infrared negative ions. They are knitted and woven in the vertical direction above and below the sewing threads 1215 and 1217.

  FIG. 4 is a diagram showing a vertical relationship in which an elastic yarn or a fiber yarn, a nano far-infrared negative ion sewing yarn and a weft yarn are interwoven in a knitting section in the knitting structure of the belt body. As shown in FIG. 4, the upper and lower relations in which the weft yarn 101 is knitted and woven with elastic yarn or fiber yarn 1211, a plurality of fiber yarns 1212, 1214, 1216, 1218, nano far-infrared negative ion sewing threads 1215, 1217 and wefts 101 are understood . For example, the fiber yarn 1212 is located below the first weft 101, located above the second weft 101, located below the third weft 101, the fourth weft 101, and the fifth weft. 101, the sixth weft 101, the seventh weft 101, and the eighth weft 101 are positioned above, so that good structural strength can be obtained.

  Here, description will be made with reference to FIG. 2 again. The belt body 1 further includes a rear heel area (ear part) 13 located on the rear side. One or more nano far-infrared negative ion sewing threads 131 and 132 and one or more elastic threads or fiber threads 133 and 134 are knitted and woven above and below the plurality of wefts 101. FIG. 5 is a diagram showing a vertical relationship in which the elastic yarn or fiber yarn, the nano far-infrared negative ion sewing yarn and the weft yarn are knitted and woven in the rear heel side section in the knitted structure of the belt body. As shown in FIG. 5, it can be seen that the nano far-infrared negative ion sewing threads 131 and 132, elastic yarns or fiber yarns 133 and 134 and each weft 101 are knitted and woven in a vertical relationship. For example, the nano far-infrared negative ion sewing thread 131 is positioned on the first weft 101, positioned below the second weft 101, positioned on the third weft 101, and the fourth weft 101. Located below, above the fifth weft 101, below the sixth weft 101, above the seventh weft 101, and below the eighth weft 101.

  The plurality of anti-elongation fiber yarns 1212, 1214, 1216, and 1218 of the warp portion 121 of the knitting section 12 of the belt body 1 may be artificial fibers or natural fibers. One or more nano far infrared negative ion fiber yarns 1213 and 1219 of the warp portion 121 have nano far infrared rays and negative ions after artificial fibers or natural fibers are processed. One or more sewing threads 1215 and 1217 of the warp portion 121 have nano far infrared rays and negative ions after artificial fibers or natural fibers are processed. The plurality of wefts 101 are artificial fibers or natural fibers having nano far infrared rays and negative ions after being processed.

  In addition, one or more nano far infrared negative ion sewing threads 113 and 114 of the front needle side section 11 of the belt body 1 are processed artificial fibers or natural fibers having nano far infrared rays and negative ions. The one or more nano far-infrared negative ion sewing threads 131 and 132 in the rear ridge 13 of the belt main body 1 are processed using artificial fibers or natural fibers having nano far infrared rays and negative ions. The belt main body 1 has a belt rear end 3 connected to the rear end by sewing. The belt rear end portion 3 is integrally formed of a vinyl material, has an opening 31, and is joined to the belt body 1 by sewing.

  As described above, in the nano far-infrared belt of the embodiment of the present invention, the weft formed by interweaving with the fiber yarn, the sewing thread and the warp portion of the warp portion of the belt body has nano far-infrared rays and negative ions. Even if it is elastic and stretchable, even if it is not elastic and does not stretch, when it is worn on the waist, the irradiation of nano far infrared rays absorbed by the human body doubles, and a better health treatment effect can be obtained. In addition, sterilization and antibacterial action can be obtained by the generation of negative ions. The rear end of the belt is integrally formed of a vinyl material, can be easily joined to the belt main body through the opening by sewing, and can be operated relatively quickly. Further, a plurality of wefts of the belt main body Can be obtained by knitting and weaving vertically above and below the elastic yarn or fiber yarn of the warp, fiber yarn, fiber yarn, nano far infrared ray negative ion sewing yarn, and nano far infrared ray negative ion fiber yarn, respectively, so that good structural strength can be obtained.

The nano far infrared belt of the embodiment of the present invention irradiates the nano far infrared rays to the deep part of the human body, but does not leave any trace on the skin surface, raises the temperature of the subcutaneous deep layer, dilates the capillaries, and circulates blood. Promote and increase metabolism between blood and other tissues. In addition, it promotes tissue regeneration ability and anticonvulsant ability, and at the same time, suppresses abnormal excitement of sensory nerves and is effective in adjusting autonomic nerve function. Therefore, it can be used as a substitute for medical equipment as well as far-infrared treatment effective for health. In addition, the method of use is simple and safe, and there are no disadvantages of conventional medicine such as drug allergies and medical troubles. Furthermore, the fatigue of exercise and work can be removed and pain can be reduced.
In the present invention, the preferred embodiments have been disclosed as described above. However, these embodiments are not intended to limit the present invention, and anyone who is familiar with the technology does not depart from the spirit and scope of the present invention. Of course, various changes and modifications can be made.

1 is a perspective view illustrating a nano far infrared belt according to an embodiment of the present invention. It is a figure which shows the knitting structure of the belt main body of a nano far-infrared belt. It is a figure which shows the up-and-down relationship formed by cross-weaving the elastic yarn or fiber yarn, the nano far-infrared negative ion sewing thread, and the weft in the front needle side section in the knitting structure of the belt body. It is a figure which shows the up-and-down relationship formed by cross-weaving an elastic yarn or a fiber yarn, a nano far-infrared anion sewing thread, and a weft in the knitting area in the knitting structure of a belt main body. It is a figure which shows the up-and-down relationship formed by cross-weaving an elastic yarn or fiber yarn, a nano far-infrared negative ion sewing thread, and a weft in the rear ridge side in the knitting structure of a belt main body.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Belt main body 2 Buckle 3 Belt rear end part 11 Front needle side section 12 Weaving section 13 Rear end section 21 Insertion pin 31 Opening part 32 Stop hole 101 Weft thread 111 Elastic thread or fiber thread 112 Elastic thread or fiber thread 113 Sewing thread 114 Sewing thread 115 Collecting edge line 121 Warp thread part 131 Sewing thread 132 Sewing thread 133 Elastic thread or fiber thread 134 Elastic thread or fiber thread 1211 Elastic thread or fiber thread 1212 Fiber thread 1213 Fiber thread 1214 Fiber thread 1215 Sewing thread 1216 Fiber thread 1217 Sewing thread 1218 Fiber thread 1219 Fiber yarn

Claims (8)

A belt body;
A buckle coupled to the tip of the belt body;
A belt rear end coupled to a rear end of the belt body;
A nano far infrared belt comprising
The belt main body has a plurality of knitting sections, each knitting section of the plurality of knitting sections is formed by interweaving a plurality of warp portions and a plurality of wefts, and the warp portions are elastic yarns or fiber yarns, Fiber yarns, one or more nano far-infrared negative ion fiber yarns and one or more nano far-infrared negative ion sewing yarns are knitted and woven, and the plurality of wefts are the elastic yarns or fiber yarns of the warp portion, respectively. A nano far-infrared belt, wherein the plurality of fiber yarns, the one or more nano far-infrared negative ion fiber yarns, and the one or more nano far-infrared negative ion sewing yarns are woven and woven vertically.   In the belt body, the one or more elastic yarns or fiber yarns located on the front side of the plurality of the knitting fabrics, the knitting zone in the foremost row following the front needle side zone, and the one or more nano far infrared negative ions The nano far-infrared belt according to claim 1, wherein a sewing thread is knitted and woven above and below the plurality of wefts.   The nano far-infrared belt according to claim 2, wherein the front needle edge section is further provided with a collecting and knitting edge line woven so that a plurality of wefts are entangled with the front needle edge section.   The belt main body further includes a knitting section located on the rear side, and the knitting section includes the one or more nano far-infrared negative ion sewing yarns and the one or more elastic yarns or fiber yarns above and below the plurality of weft yarns. The nano far-infrared belt according to claim 1, wherein the nano far-infrared belt is formed by interweaving.   In the belt main body, the plurality of anti-elongation fiber yarns of the warp portion of the knitted fabric may be artificial fibers or natural fibers, and the one or more nano far-infrared negative ion fiber yarns of the warp portion are artificial fibers or natural fibers Are processed, and the one or more sewing threads of the warp portion have nano far infrared rays and negative ions after the artificial fibers or natural fibers are processed, The nano far-infrared belt according to claim 1, wherein the wefts are artificial fibers or natural fibers having nano far infrared rays and negative ions after being processed.   The artificial belt or natural fiber having nano far infrared rays and negative ions obtained by processing the one or more nano far infrared negative ion sewing threads in the front needle side section is used for the belt body. The nano far-infrared belt according to 1.   The artificial belt or natural fiber having nano far infrared rays and negative ions, in which the one or more nano far infrared negative ion sewing threads in the rear heel area are processed, are used for the belt body. 5. The nano far infrared belt according to 4.   The nano far-infrared belt according to claim 1, wherein the belt main body has elasticity and may be expanded or contracted, or may not be expanded and contracted without elasticity.

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