JP3979935B2 - Foot protector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a foot protector, and more particularly to a protector that improves blood circulation such as a foot, lower leg, upper thigh, and leg, and more particularly to a foot protector that is worn indoors such as in an aircraft.
[0002]
[Prior art]
In recent years, a disease called economy class syndrome has become a problem and is attracting attention. This economy class syndrome means that a clot (blood clot) in the veins of the legs or legs is caused by sitting in a narrow seat on an aircraft for a long time. It is a disease (pulmonary embolism) that moves and clogs the pulmonary arteries, causing dyspnea and cardiopulmonary arrest.
[0003]
[Problems to be solved by the invention]
In order to prevent such economy class syndrome, the object of the present invention is to prevent thrombus from occurring even when sitting in a narrow seat of an aircraft for a long time, and as a result, prevent diseases such as dyspnea and cardiopulmonary arrest. There is.
[0004]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides: Consists of fibers, threads, or cloths that have been made difficult to adhere to dirt by processing such as fluorine processing or waterproofing, or that the attached dirt is decomposed by the photocatalyst component being attached. An outer cover, a inner body formed of a far-infrared emitting fiber formed inside the outer cover, and a further inner side or This body An inner cover that emits far-infrared rays having a wavelength longer than that of the far-infrared ray formed on the outer side, and the sole part or the instep part is configured by the outer cover, the inner body, and the inner cover. Thereby, the far infrared rays generated from the inner body are not blocked or absorbed by the inner cover, and the effect of the inner far infrared rays is not reduced.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
(1) Cross-sectional structure of foot protector
1 and 2 show a cross-sectional structure of the cloth material of the foot protector. In this cloth material, an outer cover 11, a middle body 12, an inner cover 13, and an innermost cover 14 are laminated in order from the outside. The outer cover 11 is composed (formed) of fibers (cloth) having an antibacterial action or a deodorizing action, and has flexibility. The cloth of the outer cover 1 is plain weave, the yarn count used is relatively large, the thickness of the yarn is thin, it is woven without gaps, and it is made of fibers (materials) that are strong, hard to tear, and difficult to get dirty. There is antifouling action.
[0006]
Since the outer cover 11 is woven without gaps, the fibers of the inner body 12 do not slip through the outer cover 11. In some cases, the outer cover 11 is less likely to be contaminated by fluorine processing, waterproof processing, or the like. As a result, the foot protector exhibits an antifouling action and is strong against external dirt.
[0007]
The inner body 12 is laminated (configured / formed) on the inner side of the outer cover 11, and is configured (formed) with fibers (cloth) having a heat retaining action and an antibacterial action or a deodorizing action, and has flexibility. . The inner body 12 is made of a fiber (material) that is cotton-like and has a high heat retaining effect. Thereby, heat dissipation from the human body heated by far infrared rays can be prevented, and germs can be prevented and propagated by sweat and other substances generated from the human body, and body odor / bad odor can be prevented and suppressed.
[0008]
The inner cover 13 is laminated (configured / formed) on the inner side of the inner body 12 and is configured (formed) with a fiber (cloth) that emits far-infrared rays. The inner cover 13 has a large thickness, a small or small gap, and flexibility. Have. The innermost cover 14 is laminated (configured / formed) on the inner side of the inner cover 13 and is configured (formed) with a fiber (cloth) that emits far infrared rays or has antibacterial action, and has a small thickness and a large gap. Many are flexible. Thereby, the far infrared rays generated from the inner cover are blocked or absorbed by the innermost cover, and the effect of the far infrared rays by the inner cover is not reduced. Further, since the gap of the inner cover 13 is small or small, the fibers of the inner body 12 do not slip through the inner cover.
[0009]
The effect of the far infrared rays on the human body is a heating effect. Furthermore, when the temperature increases to around 40 ° C., that is, near the human body temperature, the amount of far-infrared rays generated by the inner cover 13 is the largest, and it takes time until the far-infrared rays are emitted in large quantities and the effect of heating on the human body is achieved. Although it takes, it is highly sustainable. In an experiment with a human body, the far-red effect was confirmed in about 30 minutes.
[0010]
The effect on the human body by the far infrared rays emitted from the innermost cover 14 is more effective and quicker than the effect on the human body by the far infrared rays emitted from the inner cover 13. Further, the wavelength of the far infrared ray emitted from the innermost cover 14 is shorter than the wavelength of the far infrared ray emitted from the inner cover 13. The shorter the far-infrared wavelength, the quicker the effect of warming the human body. Furthermore, even when the temperature is lower than the body temperature, the far-infrared ray generation amount of the innermost cover 14 is large, and a large amount of far-infrared rays is immediately emitted, and the effect of heating the human body is immediately effective. In an experiment with a human body, the far-red effect was confirmed in about 5 minutes.
[0011]
FIG. 5 shows a time change, that is, a temperature change of far infrared rays (including mid-infrared rays / super far infrared rays) generated from the inner cover 13 and the innermost cover 14. At a temperature lower than the body temperature, the amount of far infrared rays emitted from the innermost cover 14 and the effect on the human body due to the far infrared rays exceed the amount of far infrared rays emitted from the inner cover 13 and the effect on the human body due to the far infrared rays. On the contrary, at a temperature close to the body temperature, the amount of far infrared rays emitted from the inner cover 13 and the effect on the human body due to the far infrared rays are more than the amount of far infrared rays emitted from the innermost cover 14 and the effect on the human body due to the far infrared rays. It has exceeded. Therefore, far infrared rays can be received over a long time as a whole, and a synergistic far red effect can be obtained.
[0012]
As a result, immediately after the foot protector is worn on the human body, first, a far-red effect by far-infrared rays emitted from the innermost cover 14 is mainly obtained, and when the foot protector warms up to around the body temperature, it is emitted from the inner cover 13. The far-infrared effect by the far-infrared rays obtained can be mainly obtained, and far-infrared rays can be received over a long time as a whole, and a synergistic far-red effect can be obtained.
[0013]
In addition, when the wavelength of far-infrared rays is long, short ones quickly warm (warm) the human body or the inside / depth of human tissues such as feet and legs or lower or upper thighs to improve sweating quickly. The blood circulation is also improved quickly, and the viscosity of the blood is rapidly reduced to make it smooth (referred to as far-red effect in the following and above). The far-infrared wavelength that gives a very good effect on human tissue is 8 to 14 μm (micrometer), and the far-infrared wavelength that gives a normal good effect is 4 to 20 μm (micrometer). The wavelength of far-infrared rays that gives some good effect is 1.5 μm (micrometer) or more, and mid-infrared rays, far-infrared rays, and ultra-far infrared rays give some good effects.
[0014]
FIG. 6 shows the amount of far infrared rays (including the amount of medium infrared rays / the amount of super far infrared rays) generated by the inner cover 13 and the innermost cover 14 for each wavelength (horizontal axis) of far infrared rays. The far-infrared wavelengths emitted from the inner cover 13 are almost all over 5.0 μm or more, and the far-infrared wavelengths emitted from the innermost cover 14 are very much in the vicinity of 1.5 to 6.0 μm.
[0015]
Therefore, the infrared rays emitted from the innermost cover 14 are middle infrared rays, and the infrared rays emitted from the inner cover 13 are far infrared rays and super far infrared rays. As for infrared rays, wavelengths of 0.76 to 1.5 μm are referred to as near infrared rays, wavelengths of 1.5 to 5.6 μm are referred to as mid-infrared rays, wavelengths of 5.6 to 400 μm are referred to as far infrared rays, and wavelengths of 400 to 1000 μm are referred to as ultra far infrared rays. However, in the present specification and claims, it will be described as far-infrared including this mid-infrared, and super-far-infrared will also be described as far-infrared.
[0016]
The longer the far-infrared wavelength, the deeper the human tissue penetrates and warms it from the deeper part. Therefore, the longer the far-infrared wavelength, the longer it takes for the far-red effect to appear.Once the far-red effect is achieved, the sustainability lasts longer. continue. In addition, the shorter the far-infrared wavelength, the warmer the surface of the human tissue is. Therefore, the shorter the wavelength of the far-infrared, the faster the far-red effect appears immediately, and there is immediate effect, and warms up (warms up) immediately after putting the foot on the foot protector. Therefore, far infrared rays can be received over a very wide wavelength range as a whole, and a synergistic far red effect can be obtained.
[0017]
The fiber gap of the innermost cover 14 is larger or larger than the gap of the inner cover 13, or the thickness of the innermost cover 14 is thinner than the thickness of the inner cover 13. Thereby, the far infrared rays from the inner cover 13 can easily pass through the gap of the innermost cover 14 and easily reach the human tissue. The innermost cover 14 is a plain weave and is woven so that a gap between the yarns is large, or the yarn count used is large and the thickness of the yarn is thin. Thereby, the thickness of the cloth (fiber) of the innermost cover 14 is thin, and the gap of the cloth (fiber) is increased or increased. Of course, the thickness of the thread may be increased if the thickness is reduced and the gap is increased or increased.
[0018]
The inner cover 13 has the same weaving method as a knitted fabric that is formed by successively making a loop on one yarn, or is woven so that the gap between the yarns is small, or the yarn count used is small. The thread is thick. Due to the knitted structure of the ring, the thickness of the cloth (fiber) of the inner cover 13 is increased, and the gap of the cloth (fiber) is reduced or reduced. Of course, if the thickness is increased and the gap is reduced or reduced, the thickness of the thread may be reduced.
[0019]
The outer cover 11, the inner body 12, and the inner cover 13 are quilted, and the outer cover 11 and the inner cover 13 cross a plurality of oblique parallel lines with the intermediate body 12 therebetween. Stitched together. By such a quilting process, the inner body 12 is prevented from shifting with respect to the outer cover 11 and the inner cover 13, and it is possible to wash the foot protector.
[0020]
Note that the innermost cover 14 is not quilted. Therefore, the innermost cover 14 is not uneven due to the quilting process. As a result, there is no stiff feeling on the foot in the foot protector, and the soft and soft touch is improved.
[0021]
(2) Specific material of the outer cover 11
As the outer covering 11 having the technical features as described above, for example, there is a cloth having a trade name “SHINE UP (registered trademark) EX” sold by Kuraray Co., Ltd. Shine-up EX has a metal-containing ceramic-based special deodorant kneaded into a composite fiber composed of polyester fiber and nylon fiber, and exhibits deodorization and antibacterial effect by photocatalytic reaction with titanium dioxide. The same is true for cloths sold by Shinshu Ceramics Co., Ltd.
[0022]
Further, as the fiber material of the cloth used for the outer cover 11, any of artificial fibers such as polyester fiber, nylon fiber and acrylic fiber, natural fibers such as silk and cotton, carbon fiber, glass fiber, rubber and the like is used. In the present invention, the type of the fiber material itself is not limited. Moreover, the outer cover 11 may be a cloth having the antibacterial (deodorant) action as described above, or may not be subjected to the antibacterial treatment.
[0023]
Furthermore, the treatment may be performed so as to exert the heating / warming effect by the following far infrared rays, the treatment for blocking sunlight (ultraviolet rays), or the treatment is performed so as to have conductivity. Also good. Furthermore, the outer cover 11 may be made of a very comfortable fiber, and the entire outer cover 11 may be made soft. And as above-mentioned, dirt becomes difficult to adhere by fluorine processing, waterproofing processing, etc., or when a thread is woven without gaps. Other technical contents are the same as those described in the outer covering 11. The above cloth (fiber) may be used as the other inner body 12, inner cover 13, and innermost cover 14.
[0024]
(3) Specific material of the inner body 12
As the inner body 12 having the above-described technical features, for example, a cloth called “Dismel” (or Annon, registered trademark) of Toyobo Co., Ltd. is used. This cloth is described in the Utility Model Rights No. 3056573 or No. 3061324, which are rights holders of Koken Co., Ltd., and these cloths are purchased and used for the inner cloth 2 of the present invention. Used for outer fabrics.
[0025]
This dismel is an ammonia deodorizing and antibacterial material for acrylate fibers. That is, a carboxylic group is attached to a non-woven fabric in which a crosslinked acrylic fiber having pH buffering ability (ability to alleviate pH change) is blended, and when ammonia (NH3) acts on this carboxylic group (COOH), ionic bonding As a result, an odorless ammonium carboxylate (COOHNH4) is produced, so that the ammonia odor is removed and the propagation of bacteria by ammonia is suppressed. Thereby, the dismel has a deodorizing action and an antibacterial action. This dismel is fluffy and has a warming action. Other technical contents are the same as those described for the inner body 12. The above cloth (fiber) may be used as the other outer cover 11, inner cover 13, and innermost cover 14.
[0026]
In addition, the fiber material used for the inner body 14 may be any of artificial fiber, natural fiber, glass fiber, carbon fiber, rubber and the like, as in the case of the outer cover 11, and in the present invention, the fiber material itself. It does not limit the kind of. In addition, the inner body 14 may be a cloth that has been subjected to a warming / warming effect by far-infrared rays, or may be a cloth that has been subjected to an antibacterial treatment, or a treatment that exhibits these two effects simultaneously. It may be a cloth that has been subjected to any treatment, or a cloth that has not been subjected to any treatment at all may be used as the inner body 14, a treatment that blocks sunlight (ultraviolet rays), or a treatment that has conductivity. May be. Furthermore, it is preferable that the inner body 14 is made of fibers that are very soft to the touch and that the entire inner body 14 is made soft.
[0027]
(4) Specific material of the inner cover 13
As the inner cover 13 having the technical features as described above, a cloth having a trade name “Serum (registered trademark) A” sold by Toyobo Co., Ltd. is used. Serum A has an ultrafine particle ceramics incorporated / kneaded in an acrylic fiber. By the action of this ceramic, far infrared rays are radiated to the outside at around 40 degrees Celsius near the body temperature, and a heating effect on the human body is exhibited. Around 40 degrees Celsius, far infrared rays are generated most. The other technical contents are as described above for the inner cover 13. The above cloth (fiber) may be used as the other outer cover 11, inner body 12, and innermost cover 14.
[0028]
In addition, the fiber material used for the inner cover 13 may be any of artificial fiber, natural fiber, glass fiber, carbon fiber, rubber and the like, similar to the outer cover 11 and the inner body 12, and in the present invention, The type of the fiber material itself is not limited. Moreover, the inner cover 13 may be a cloth applied to exhibit a warming / warming effect by far-infrared rays, or may be a cloth subjected to antibacterial treatment, or a process that exhibits these two effects simultaneously. It may be a cloth that has been applied, or a cloth that has not been subjected to any treatment at all may be used as the inner cover 13, a treatment that blocks sunlight (ultraviolet rays), or a treatment that has conductivity. May be. Furthermore, it is preferable that the inner cover 13 is made of a very soft fiber and the entire inner cover 13 is made soft.
[0029]
(5) Specific material of innermost cover 14
As the innermost cover 14 having the technical features as described above, a cloth having a trade name “Bionest (registered trademark) Sera” (see Japanese Patent Laid-Open No. 2000-17568) sold by Kiko Co., Ltd. is used. It is done. “Bionest Cera” is a ceramic with processed natural zeolite ore and fine particles adhered firmly to the surface of natural fibers. By the action of the ceramics and the fine particles, far infrared rays are sufficiently emitted to the outside even at a temperature lower than the body temperature, and the effect of heating the human body is exhibited. Other technical contents are as described in the innermost cover 14. The above cloth (fiber) may be used as the other outer cover 11, inner body 12, and inner cover 13.
[0030]
Therefore, the fiber of the innermost cover 14 is attached with ceramics emitting far-infrared rays on the surface thereof, while the fiber of the inner cover 13 has built-in / kneaded ceramics emitting far-infrared rays inside. . Thereby, a difference occurs in the time until far-infrared rays are generated. First, a far-red effect by far-infrared rays emitted from the innermost cover 14 is mainly obtained, and after a while, far-infrared rays emitted from the inner cover 13 are obtained. The far-red effect can be obtained mainly, so that a very high far-infrared ray can be received as a whole, and a synergistic far-red effect can be obtained.
[0031]
Further, the fiber material used for the innermost cover 14 may be any of artificial fiber, natural fiber, glass fiber, carbon fiber, rubber and the like, similar to the outer cover 11, the inner body 12, and the inner cover 13. In the present invention, the type of the fiber material itself is not limited. Moreover, the inner cover 13 may be a cloth applied to exhibit a warming / warming effect by far-infrared rays, or may be a cloth subjected to antibacterial treatment, or a process that exhibits these two effects simultaneously. It may be a cloth that has been applied, or a cloth that has not been subjected to any treatment at all may be used as the inner cover 13, a treatment that blocks sunlight (ultraviolet rays), or a treatment that has conductivity. May be. Furthermore, it is preferable that the inner cover 13 is made of a very soft fiber and the entire inner cover 13 is made soft.
[0032]
Since the chemical composition of the zeolite is a condensed salt in which a part of silicon in the silicate is replaced with aluminum, and is based on a three-dimensional network structure in the SiO4-AlO4 connecting tetrahedron, a structure including a cavity is formed, Cations (cations) and water of crystallization are present in the cavities or pores formed by connecting the cavities in correspondence with the anions (anions), and water of crystallization due to electrostatic attraction of metal ions. There are zeolites of various structures depending on the ratio of silicon to aluminum in the skeleton or the type and number of cations. General properties of zeolite include cation exchange capacity, molecular fluid action, polar substance adsorption, and catalysis.
[0033]
Since the crystal water of zeolite exists as water molecules in the three-dimensional network structure of zeolite, it is called zeolite water. Even if dehydrated by heating, the structure of the zeolite is not destroyed, and the portion where crystal water is present is left as it is. Remains as a cavity, just a sponge-like structure And It has the property of strongly adsorbing gas and moisture.
[0034]
Another major characteristic of zeolite is its base substitution capacity. This is the cation exchange capacity “CEC Exchange Exchange Capac” i It is also called “ty”, and is a force that holds and separates cations (NH4 +, potassium, sodium, calcium, etc.) just like a magnet. In particular, the base substitution capacity of zeolite is called permanent charge, and has the property of maintaining its force for a long period of time without being influenced by the surrounding environment (PH, etc.).
[0035]
Thus, zeolite has an adsorption function. In a cloth using such an adsorbing material and an optical semiconductor ceramic, bacteria, viruses, fungi, malodorous substances, harmful substances and the like are first adsorbed and held on the adsorbing material. Thereafter or simultaneously, bacteria, viruses, fungi and the like are killed or reduced by the photocatalytic action of the photo-semiconductor powder and the metal powder which have been irradiated with light, and malodorous substances and the like are decomposed. Furthermore, even in the case of bacteria and other things that are not adsorbed, growth (growth) prevention, repellent effect, etc. can be obtained by photocatalytic action.
[0036]
(6) Overall structure of foot protector
3 and 4 show the appearance of the foot protector. There are one pair of right and left foot protectors, but only one of them is shown in FIGS. The sole 1 is a flexible flat plate, and has a substantially oval shape (ellipse) or a part of this oval shape (ellipse) slightly recessed. The entire upper surface of the sole 1 touches the upper surface of the sole 1. The sole 1 is formed of one cloth material including the outer cover 11, the inner body 12, the inner cover 13, and the innermost cover 14.
[0037]
A heel portion 2 is connected and extended upward from the rear (heel side) periphery of the sole 1. The heel portion 2 has a flexible plate shape and is curved inward. From the front (toe side) peripheral edge of the sole 1 to the upper side, the instep part 3 is connected and extends, and the instep part 3 further extends along the back of the foot and curves backward toward the ankle. . The instep 3 is a flexible plate and is curved inward.
[0038]
The instep part 3 is curved upward from the instep part 3 and extends further upward, and a substantially lower leg part 4 extending upward from the heel part 2 is formed on the heel part 2 and the instep part 3. It is connected. The crus 4 has a flexible cylindrical shape. The outer cover 11, the inner cover 13, and the innermost cover 14 at the upper edge of the crus 4 are folded back and stitched together. The heel portion 2, the instep portion 3, and the crus portion 4 are integrally formed by one cloth material including the outer cover 11, the inner body 12, the inner cover 13, and the innermost cover 14. Of course, the heel part 2, the instep part 3 and the crus part 4 may be separate from each other.
[0039]
The sole 1 and the heel 2 and the instep 3 are separate from each other, and the periphery of the sole 1 and the lower edges of the heel 2 and the instep 3 are overlapped outward. Then, the elongate edge cover 5 is further sewn to these sewn edges so that the sewn edges cannot be released. The sole 1, the heel 2, and the instep 3 may be integrally formed with one cloth material including the outer cover 11, the inner body 12, the inner cover 13, and the innermost cover 14.
[0040]
the above Three ventilation holes 6 are provided side by side at the inner border between the instep part 3 and the heel part 2, that is, in the vicinity of the inner ankle. The ventilation holes 6 are provided with the outer cover 11, the inner body 12, the inner cover 13, An annular metal fitting is formed through the inner cover 14. Thereby, since the ventilation hole 6 is located in the inner lower side of both feet, the ventilation hole 6 does not stand out and is excellent in design. The ventilation hole 6 has a diameter (inner diameter) of 4 millimeters, a size of 12.5 square millimeters, and a total of three is 37.5 square millimeters.
[0041]
This ventilation hole 6 is for exchanging the inside air and the outside air of the foot protector for ventilation. As a result, the inside of the foot protector will not be stuffy and a moisture-proof effect can be exhibited. The size of the ventilation hole 6 is several to several tens of square millimeters, and the total size of the three ventilation holes 6 is several to several tens of square millimeters. If it is smaller than this, it will not be able to ventilate enough and it will be steamed.
[0042]
A zipper-like opening / closing part 7 is formed vertically in the vicinity of the front shin of the lower leg part 4 so that a human foot can be stored in or removed from the foot protector. The opening / closing part 7 extends to the vicinity of the instep part 3 or the tip of the instep part 3. By opening the opening / closing part 7, the foot protector can be turned over and cleaned or exposed to light for antibacterial action. In this case, the fiber (cloth) of the innermost cover 14 is kneaded with a metal-containing ceramic-based special deodorant, like the outer cover 11, and exhibits deodorization and antibacterial effects by photocatalytic reaction with titanium dioxide. Is done.
[0043]
(7) Second embodiment
15 to 19 show a second embodiment of the foot protector. FIG. 15 shows a cross-sectional structure of the cloth material of the foot sole 1 of the foot protector. In this cloth material, an outer cover 21, an outer middle body 22, a middle body 23, an inner covering 24, and an inner middle body 25 are laminated in order from the outside. The outer cover 21 is composed (formed) of fibers (cloth) having an antibacterial action or a deodorizing action, and has flexibility. The cloth of the outer cover 1 is plain weave, the yarn count used is relatively large, the thickness of the yarn is thin, it is woven without gaps, and it is made of fibers (materials) that are strong, hard to tear, and difficult to get dirty. There is antifouling action.
[0044]
Since the outer cover 21 is woven without a gap, the fibers of the outer inner body 22, the inner body 23, the inner cover 24, and the inner inner body 25 do not slip through the outer cover 11. In some cases, the outer cover 21 is less likely to be contaminated by fluorine processing, waterproof processing, or the like. As a result, the foot protector exhibits an antifouling action and is strong against external dirt.
[0045]
As the outer covering 21, in addition to the above “shine up EX”, a cloth made of bamboo fiber (bamboo fiber) is used. This bamboo fiber (bamboo fiber) is a fiber made from bamboo. Antibacterial, deodorant, moisture absorption (moisture absorption), humidity control (automatic adjustment of humidity / humidity), moisture release (humidity discharge), distant It has properties such as generation of infrared rays and static electricity. Bamboo fibers are also excellent in gloss, color development and heat radiation. Furthermore, bamboo fiber is excellent in dyeability and color development, and is comfortable to wear. The humidity control action is an action that discharges moisture to the outside when the inside humidity rises and absorbs the humidity of the outside air when the inside humidity falls, and keeps the inside humidity constant.
[0046]
The outer body 22 is excellent in drying property, moisture absorption (moisture absorption) property, humidity adjustment (humidity / humidity adjustment) property, moisture release (humidity discharge) property, antibacterial property, and deodorant property. The outer body 22 is formed between the inner body 23 and the outer cover 21, and the sweat from the inside of the foot protector is dried by the drying action of the outer body 22. Further, the outer middle body 22 has an action of reflecting far infrared rays from the inner body 21 and the inner cover 23.
[0047]
As the outer body 22, silica gel of titanium dioxide is used. Titanium dioxide exhibits antibacterial and bactericidal action by photocatalytic action. Since this titanium dioxide is metallic, it partially reflects far infrared rays from the inner body 21 and the inner cover 23.
[0048]
The inner body 23 is laminated (constructed / formed) on the inner side of the outer body 22, and is composed (formed) of fibers (cotton, cloth) that emit far-infrared rays or have a heat retaining action and an antibacterial or deodorizing action. The thickness is large, the gap is large or large, and it has flexibility. This inner body 23 generates far infrared rays (middle infrared rays) sufficiently even at a temperature lower than the body temperature. This inner body 23 is made of a fiber (material) that is cotton-like and has a high heat retaining effect, so it can prevent heat dissipation from the human body heated by far infrared rays, sweat generated from the human body, and other substances. Therefore, it is possible to prevent and suppress the propagation of various bacteria and prevent and suppress body odor / bad odor.
[0049]
As the inner body 23, a mixture of zeolite-coated wool cotton and epicomodo cotton is used. The blending ratio is, for example, 70% for zeolite-coated wool cotton and 30% for epicomodox cotton. The zeolite coating is as described above for the specific properties of the innermost coating 14. Epicomodo cotton (cloth) will be described in other examples described later.
[0050]
The inner cover 24 is laminated (configured / formed) on the inner side of the inner body 23 and is configured (formed) with fibers (cloth) that emit far-infrared rays. Have. The far infrared ray generated from the inner cover 24 has a longer wavelength than the far infrared ray from the inner body 24. The inner cover 24 generates far infrared rays most at a temperature close to body temperature. The inner cover 24 is thinner than the inner body 23 and has a small or small gap. The inner cover 24 is the same as the inner cover 13, and a cloth made of the above-mentioned serum A or epicomodo (a cloth made with the trade name “Artema” sold by Toyobo Co., Ltd.) is used. .
[0051]
Far-infrared rays (middle infrared rays) from the inner body 23 have a short wavelength, but since the inner cover 24 is thin, the inner cover 24 can be easily transmitted, and far-infrared rays generated from the inner body 23 are blocked by the inner cover 24. The effect of far infrared rays by the inner body 23 is not reduced. Further, since the gap of the inner cover 24 is small or small, the fibers of the inner body 23 will not slip through the inner cover 24.
[0052]
The inner body 25 is laminated (configured / formed) inside the inner cover 24, and is configured (formed) with fibers (cotton, cloth) having antibacterial action, moisture absorption action, drying action or deodorizing action, and has a thickness. Is thin, has a small or small gap, and has flexibility. As the inner body 25, a chitin chitosan fiber cloth is used. In the chitin chitosan fiber, the chitin chitosan component is coated on the fiber surface or kneaded inside the fiber. The coating on the surface of the fiber or the kneading inside the fiber is performed by the same technique as the coating or kneading of serumx in the above-mentioned BioZestella or Serum A.
[0053]
The ingredients of this chitin chitosan are from crab and shrimp shells Extraction Component. The chitin chitosan fiber cloth has very strong antibacterial and bactericidal properties against athlete's foot bacteria or methicillin-resistant Staphylococcus aureus, and also has antifungal and deodorizing properties. Further, chitin chitosan fiber cloth is well-suited for water, feels cool in summer, feels warm in winter, and has properties of moisture absorption (absorption of moisture), humidity adjustment (adjustment of humidity / humidity), and moisture release (exhaust of moisture). Furthermore, since chitin chitosan fiber is a natural fiber, it is well-familiar with the skin, hardly generates static electricity, has good washing resistance, and has excellent dyeability and gloss.
[0054]
In the second embodiment, the inner cover 13 and the innermost cover 14 are replaced with each other, and the innermost cover 14 is replaced with the inner body 23 in the second embodiment. The effect of the far infrared rays on the human body is a heating effect. Furthermore, when the temperature increases to around 40 ° C., that is, near the human body temperature, the amount of far infrared rays generated by the inner wrap 24 is the largest, and it takes a long time for the far infrared rays to be emitted in large quantities and the heating effect on the human body to appear. Although it takes, it is highly sustainable. In an experiment with a human body, the far-red effect was confirmed in about 30 minutes.
[0055]
The effect on the human body by the far infrared rays emitted from the inner body 23 is more effective and quicker than the effect on the human body by the far infrared rays emitted from the inner cover 24. The wavelength of the far infrared ray emitted from the inner body 23 is shorter than the wavelength of the far infrared ray emitted from the inner cover 24. The shorter the far-infrared wavelength, the quicker the effect of warming the human body. Furthermore, even when the temperature is lower than the body temperature, the amount of far-infrared generated in the body 23 is large, and a large amount of far-infrared light is immediately emitted, and the effect of warming the human body is immediately effective. In an experiment with a human body, the far-red effect was confirmed in about 5 minutes.
[0056]
FIG. 5 shows a temporal change, that is, a temperature change, of far infrared rays (including middle infrared rays / super far infrared rays) generated from the inner cover 24 and the inner body 23. At a temperature lower than the body temperature, the amount of far infrared rays emitted from the inner body 23 and the effect on the human body due to the far infrared rays exceed the amount of far infrared rays emitted from the inner cover 24 and the effect on the human body due to the far infrared rays. At a temperature close to body temperature, the amount of far infrared rays emitted from the inner cover 24 and the effect on the human body due to the far infrared rays are more than the amount of far infrared rays emitted from the inner body 23 and the effect on the human body due to the far infrared rays. ing. Therefore, far infrared rays can be received over a long time as a whole, and a synergistic far red effect can be obtained.
[0057]
As a result, immediately after the foot protector is mounted on the human body, first, a far-red effect by far-infrared rays emitted from the inner body 23 is mainly obtained, and when the foot protector warms up near the body temperature, it is emitted from the inner cover 24. A far-red effect by far-infrared rays can be mainly obtained, and far-infrared rays can be received for a long time as a whole, and a synergistic far-red effect can be obtained.
[0058]
In addition, the shorter the far-infrared wavelength, the quicker the inside / depth of the human body or the human body tissue such as the legs and legs or the lower or upper thighs (warming), the better the perspiration, and the faster the blood circulation. The viscosity of the blood is quickly lowered to make it smooth (referred to as far-red effect in the following and above). The far-infrared wavelength that gives a very good effect on human tissue is 8 to 14 μm (micrometer), and the far-infrared wavelength that gives a normal good effect is 4 to 20 μm (micrometer). The wavelength of far-infrared rays that gives some good effect is 1.5 μm (micrometer) or more, and mid-infrared rays, far-infrared rays, and ultra-far infrared rays give some good effects.
[0059]
FIG. 6 shows the amount of far infrared rays (including the amount of medium infrared rays / the amount of super far infrared rays) generated by the inner cover 24 and the inner body 23 for each wavelength (horizontal axis) of far infrared rays. The far-infrared wavelengths emitted by the inner cover 24 are almost all over 5.0 μm or more, and the far-infrared wavelengths emitted by the inner body 23 are very much in the vicinity of 1.5 to 6.0 μm.
[0060]
Therefore, the infrared rays emitted from the inner body 23 are middle infrared rays, and the infrared rays emitted from the inner cover 24 are far infrared rays and super far infrared rays. As for infrared rays, wavelengths of 0.76 to 1.5 μm are referred to as near infrared rays, wavelengths of 1.5 to 5.6 μm are referred to as mid-infrared rays, wavelengths of 5.6 to 400 μm are referred to as far infrared rays, and wavelengths of 400 to 1000 μm are referred to as ultra far infrared rays. However, in the present specification and claims, it will be described as far-infrared including this mid-infrared, and super-far-infrared will also be described as far-infrared.
[0061]
The longer the far-infrared wavelength, the deeper the human tissue penetrates and warms it from the deeper part. Therefore, the longer the far-infrared wavelength, the longer it takes for the far-red effect to appear.Once the far-red effect is achieved, the sustainability lasts longer. continue. In addition, the shorter the far-infrared wavelength, the warmer the surface of the human tissue is. Therefore, the shorter the wavelength of the far-infrared, the faster the far-red effect appears immediately, and there is immediate effect, and warms up (warms up) immediately after putting the foot on the foot protector. Therefore, far infrared rays can be received over a very wide wavelength range as a whole, and a synergistic far red effect can be obtained.
[0062]
The athlete's foot bacteria and other miscellaneous bacteria that have entered the leg protection device are sterilized by the inner body 25, and sweat / moisture from the foot warmed by the far infrared rays is the inner body 25, inner lining 24. The odor is gradually deodorized by passing through the inner body 23 and dried by the outer body 22. Since the inner body 25 and the inner cover 24 are thin and the gap between the inner body 23 is large or large, sweat from the foot reaches the outer body 22 smoothly. Although the outer body 22 is titanium dioxide silica gel, since the inner body 23, the inner cover 24, and the inner body 25 are laminated thereon, the grain feeling of the titanium dioxide silica gel is not transmitted to the sole of the foot. .
[0063]
Further, the sweat / humidity that has passed over the outer body 22 is discharged outside by the humidity control function of the outer cover 21. Further, even if the foot is put out from the leg protector and the inside of the foot protector is sufficiently dried, and the space between the inner body 25 and the outer cover 21 is excessively dried by the outer body 22, Since the inner body 22 absorbs moisture from the outside air, it does not dry too much.
[0064]
FIG. 18 shows the deodorizing effect of the inner body 25. It was confirmed that when a 12 cm square inner core 25 (chitin chitosan fiber) piece was placed in a sealed container filled with 20 ppm of formaldehyde, the content dropped to 5 ppm after 30 minutes and 4.5 ppm after 60 minutes. That is, 77.5% of the deodorizing substance removal effect of formaldehyde was confirmed in 1 hour. Formaldehyde is considered to be a causative substance of malodor, and this confirmed the deodorizing effect of the inner body 25 (chitin chitosan fiber).
[0065]
FIG. 19 shows the deodorizing effect of the inner body 25. It was confirmed that when a 12 cm square inner body 25 (chitin chitosan fiber) piece was placed in a sealed container filled with 50 ppm of ammonia, the content dropped to 6 ppm after 30 minutes and to 5 ppm after 60 minutes. In other words, 90% ammonia deodorizing substance removal effect was confirmed in one hour. Ammonia is also considered as a causative substance of bad odor, and this confirmed the deodorizing effect of the inner body 25 (chitin chitosan fiber).
[0066]
FIG. 16 shows the appearance of the foot protector. The instep 3 is short and the crus 4 is not present in the second embodiment. The tip of the instep part 3 is a toe part 26. As for the cloth material of the instep part 3, the outer cover 21, the inner body 23, and the inner cover 24 are laminated | stacked in an order from the outer side. The outer cover 21, the middle body 23, and the inner cover 24 in the instep 3 are the same as the outer cover 21, the middle body 23, and the inner cover 24 in the sole 1. For example, the “Shine Up EX” or the like is used as the outer cover 21, the inner core 23 is a mixture of the above-mentioned zeolite-coated wool cotton and epicomodox cotton, and the inner cover 24 is the above “Artema” “ In addition to Serum A, Sanita - 30 "is used.
[0067]
“Saniter 30” is a trade name sold by Kuraray Co., Ltd., which is an antibacterial deodorizing fiber in which special silver ceramics are kneaded during melt spinning of polyester fibers. This “Saniter 30” special silver-based ceramics is an antibacterial agent, and is a ceramic containing an antibacterial metal such as silver, zinc or other metals. Bacteria that have the effect of suppressing the growth of these special silver-based ceramics are Bacillus subtilis, Pseudomonas aeruginosa (causative bacteria for pressure ulcers), Bacillus pneumoniae, Escherichia coli, Salmonella, Vibrio parahaemolyticus, ringworm, methicillin-resistant Staphylococcus aureus (MRSA). ) Etc.
[0068]
As for the cloth material of the toe part 26, an outer cover 21, a middle body 23, and an inner cover 24 are laminated in order from the outside. The outer cover 21, the inner body 23, and the inner cover 24 in the instep part 3 are the same as the outer cover 21, the inner body 23, and the inner cover 24 in the sole 1 or the instep part 3. For example, the above-mentioned bamboo fiber cloth or the like is used as the outer cover 21, the inner core 23 is a mixture of the above-mentioned zeolite-coated wool cotton and epicomodox cotton, and the inner cover 24 is the above “Artema” “Serum A”. "Sanita - 30 "is used.
[0069]
As the outer cover 21 of the toe portion 26, in addition to the bamboo fiber cloth, “shine up EX” may be used, or a laminate of these bamboo fiber cloth and “shine up EX” may be used. It may be one with “Artema” in between. When “Artema” and bamboo fiber cloth are laminated on “Shine Up EX” in this way, the toe portion 26 becomes thick and the toes of the foot can be more strictly protected. In the instep portion 3 and the toe portion 26, the outer cover 21, the outer middle body 22, the inner body 23, the inner covering 24, and the inner inner body 25 are left as they are or replaced in the same manner as the cloth material of the sole 1. May be laminated.
[0070]
The heel part 2 and the instep part 3 are not provided with the outer body 22 having a drying action, but the foot part 1 is provided with the outer body 22. Since the sole 1 is almost in close contact with the floor, it is easy to get stuffy and sweat is not easily released outside the foot protector, but can be sufficiently dried by the outer body 22. On the other hand, in the heel part 2 and the instep part 3, sweat is easily released outside the foot protector, so that even if there is no outer body 22, it does not get steamed.
[0071]
A heel raising portion 28 is sewn in the center of the rear portion of the heel portion 2 along the heel. The cloth material of the heel raising portion 28 is the bamboo fiber cloth. The material of the toe part 26 at the tip of the instep part 3, the outer cover 21 of the sole part 1, and the heel raising part 28 is the same “Bumb - The material of the outer cover 21 of the instep part 3 is “shine up EX”, and the materials of both are different. The outer cover 21 and the heel of the toe part 26 and the foot part 1 are different. The material of the lifting portion 28 is stronger and more durable than the material of the outer cover 21 of the instep portion 3. Therefore, when putting the heel into the foot protector, even if the heel lifting portion 28 is pulled, it is not easily damaged. Bamboo fiber cloth is better than "Shine Up EX" cloth , Since dirt is difficult to adhere, the toe portion 26 is not soiled.
[0072]
FIG. 17 shows the lower surface (bottom surface) of the foot protector. An anti-slip portion 27 is formed on the lower surface of the outer cover 21 of the sole 1 from the base of the big toe to the base of the little finger. The anti-slip portion 27 is made of a surface material with high friction, for example, a tanned leather that is turned upside down, and is sewn or bonded to the thumb side, that is, slightly inward from the center of the sole 1. Yes. As a result, the anti-slip portion 27 near the base of the big toe is provided in a size and position that substantially covers the base of the toe from the base of the big toe to the base of the little finger. Specifically, the width is about 3 cm and the length is about 7 cm.
[0073]
If the non-slip portion 27 is too small, the anti-slip effect will be lost. Conversely, if it is too large, the user may feel uncomfortable or walk smoothly when walking. Or not It becomes easy to trip. The anti-slip portion 27 may be extended to the toe. A thin polyester cloth is sandwiched between the anti-slip portion 27 and the outer cover 21 of the sole 1 and is bonded or stitched. In bonding, an adhesive is applied to a thin polyester cloth, and the anti-slip portion 27 is bonded.
[0074]
The ankle portion 29 at the upper edge of the instep portion 3 has a ring shape, and rubber is sewn inside the ring so that it can expand and contract. The retractable ankle 29 can be opened and turned over to be cleaned or exposed to light for antibacterial action.
[0075]
Outer sheath 21, outside During ~ All or a part of the body 22, the inner body 23, the inner cover 24, and the inner inner body 25 are quilted, so that the outer cover 21 and the inner cover 24 or the inner inner body 25 are sandwiched between the inner bodies 23. , And stitched along a plurality of diagonal parallel lines crossing each other. By such quilting process, the inner body 23 is prevented from shifting with respect to the outer cover 21 and the inner cover 24 or the inner inner body 25, and it is possible to wash the foot protector.
[0076]
Note that the inner body 25 may not be quilted depending on the case. In this case, the inner body 25 is not uneven due to the quilting process. As a result, there is no stiff feeling on the foot in the foot protector, and the soft and soft touch is improved. The stacking order of the inner cover 24 and the inner inner body 25 may be changed to make the inner cover 24 the innermost side, or the stacking order of the outer inner body 22 and the inner body 23 or the inner cover 24 may be changed. The inner cover 24 of the sole 1 may be omitted.
[0077]
In this case, the inner body 23 is covered with the inner cover 24. When It may be replaced. In this case, the “serum A” processed into a cotton shape and inflated may be used as the inner cover 24, and the inner body 23 may be replaced with the innermost cover 14 in FIGS. 1 to 4. Thereby, also in the second embodiment, it is possible to obtain the same effects as those in the embodiment shown in FIGS. In addition, the inner cover 24 may overlap the “sanita 30” on the outside of the “serum A”, or the “artema” and the “bamboo fiber cloth” on the outside of the “shine up”. .
[0078]
Further, the innermost cover 14 of FIGS. 1 to 4 may be used instead of the inner cover 24, and the inner body 12 of FIGS. 1 to 4 may be used instead of the inner body 23. . Conversely, the inner cover 24 of the second embodiment may be used instead of the innermost cover 14 of FIGS. 1 to 4, or the second embodiment instead of the inner body 12 of FIGS. 1 to 4. An example body 23 may be used. Outer cover 21, outside During ~ The stacking order of the body 22, the inner body 23, the inner covering 24, and the inner inner body 25 may be partially or entirely changed.
[0079]
Other configurations and operations are the same as those of the embodiment shown in FIGS. For example, the opening / closing part 7 may be provided in the instep part 3 or the ventilation hole 6 may be provided. In the second embodiment, the heel portion 2 may be omitted to form a slipper type, or the lower leg portion 4 may be provided as in the embodiments of FIGS. The structure of the cloth material of each part 1, 2 or 3 of the second embodiment may be the same as the structure of the cloth material of the embodiment of FIGS. 1 to 4, or the structure of the cloth material of the embodiment of FIGS. May be the same as the structure of the cloth material of each part 1, 2 or 3 of the second embodiment. In short, some of these embodiments may be interchanged.
[0080]
(8) Effects of using the leg protection device
The following effects can be obtained by using this foot protector. As described above, immediately after the foot protector is worn on the human body, first, the far-red effect caused by the far-infrared rays emitted from the innermost cover 14 / the inner body 23 is mainly obtained, and the foot protector is warmed to near the body temperature. The far-red effect due to the far-infrared rays emitted from the inner cover 13 can be mainly obtained, so that a large amount of far-infrared rays can be received as a whole, and a synergistic far-red effect can be obtained.
[0081]
In addition, when this foot protector is used, it absorbs and deepens most of the animals and plants with 60% or more water molecule structure, and excites water molecules to activate the cells. It is said that the wavelength good for growth health is far infrared rays of 8 to 14 microns, and this far infrared rays warms and sweats from the inside of the body by a deep penetration action reaching the deep part of human tissue. As a result, when this foot protector is used, blood circulation is improved, metabolism is activated, and effects such as cosmetic effects, recovery from fatigue, promotion of built-in functions, and reduction of cholesterol are obtained.
[0082]
In addition, the use of this foot protector warms (warms) the inside of the human body, feet and legs, or human tissues such as the lower leg or upper thigh (warming), improves sweating, improves blood circulation, Reduce the viscosity to smooth. In this smooth blood, the chain in which red blood cells adhere to each other is eliminated, each red blood cell is broken apart, and thrombus and the like disappear.
[0083]
7 to 14 are enlarged photographs of the blood state before and after using the leg protection device and after 60 minutes have passed. Ages in their 20s, 30s, 40s, and 50s, respectively. It is a picture of human blood. Among these, FIG. 7, FIG. 9, FIG. 11, and FIG. 13 show the state of blood before using this foot protector in their 20s, 30s, 40s, and 50s. 8, 10, 12, and 14 show blood states after 60 minutes using the present leg protector in the same person in their 20s, 30s, 40s, and 50s.
[0084]
This photograph is photographed by a technique called vital check. The vital check is a photograph in which blood taken from a fingertip is magnified with a microscope. According to this, before using the leg protection device, the red blood cells are in a chained state to adhere to each other. In such a state, the original function of red blood cells cannot be exhibited, causing various diseases, in particular, causing blood clots, which may cause pulmonary embolism or myocardial infarction.
[0085]
Leg protection The After 60 minutes of use, the chain state in which red blood cells adhere to each other is eliminated, each red blood cell is broken apart, the thrombus and the like disappear, and there is no possibility of causing pulmonary embolism or myocardial infarction. Therefore, if this foot protector is used while boarding an airplane, the thrombus can be prevented from occurring even if the user sits in a narrow seat of the aircraft for a long time, and the above-mentioned economy class syndrome can be prevented.
[0086]
The term “antibacterial” used in the present specification and claims includes antibacterial, “sterilization”, “insecticide”, “disinfection” that kills bacteria / micropests, and “sterilization” that reduces the number of bacteria / micropests. ”Also includes inhibiting the growth of bacteria / micro-pests. The term “deodorant” used in the present specification and claims includes not only deodorization but also adsorption of odor, decomposition of odor (unpleasant odor such as ammonia) itself, substance or component that neutralizes odor. Including killing germs that generate, odor. Further, the term “warming” as used in the specification and claims includes all directly or indirectly warming the human body or a part of the human body by any means.
[0087]
In addition, the term “heat retention” used in the present specification and claims is intended to prevent a decrease in human body temperature directly or indirectly, such as prevention of cold air entry / prevention of body heat from being taken away by outside air. Including that. The term “moisture absorption” used in the present specification and claims includes drying, moisture prevention, dehumidification and the like in addition to moisture absorption. The term “antifouling” used in the present specification and claims includes meanings such as resisting dirt, preventing adhesion of dirt, decomposition of adhered dirt, and facilitating removal of adhered dirt by washing.
[0088]
(9) Other embodiments
The present invention is not limited to the above-described embodiments, and various modifications can be made. For example, a cushion or lap may be connected to a pair of leg protection devices. Furthermore, a pair of leg protection devices may be attached to a wheelchair used by a physically handicapped person. In addition to being used in an aircraft, the present foot protector may be used in any place where it is necessary to keep warm / warm, such as in an office or home.
[0089]
Furthermore, as the outer cover 11, the inner body 12, the inner cover 13, and the innermost cover 14, two or more of the above-described antibacterial action, heat retaining action, warming action, deodorizing action, moisture proofing action, and antifouling action are provided. A cloth that exhibits simultaneously may be used. Further, as the outer cover 11, the inner body 12, the inner cover 13, and the innermost cover 14, in addition to various kinds of cloth / knitting, cotton, conductive cloth, sponge, urethane, cushion, rubber, buckwheat husk, waste thread , A cloth made of synthetic fiber such as nylon or a natural fiber, a foamed polystyrene, a cushioning material in which air bubbles are enclosed between laminated polyester films, a cloth made of metal fibers reflecting far infrared rays, and the like.
[0090]
Further, as the outer cover 11, the inner body 12, the inner cover 13, and the innermost cover 14, conductive fibers (carbon fiber or conductive metal powder such as carbon, copper, iron, nickel, etc. are kneaded into the fibers. If it is used, it is possible to provide an extremity protector that can prevent the generation of static electricity and the destruction of electrical parts due to static electricity. In this case, an earth wire that electrically connects the cloth of the limb protection device and the ground surface may be necessary. Moreover, a flame-retardant (nonflammable) fiber may be used for those cloths.
[0091]
Further, as the outer cover 11, the inner body 12, the inner cover 13, and the innermost cover 14, especially the inner body 12, cotton made with the product name “Epicomodo” sold by Toyobo Co., Ltd. is used. Also good. This cotton uses a quaternary ammonium salt antibacterial agent, and has an effect of suppressing the growth of bacteria such as methicillin-resistant Staphylococcus aureus, Staphylococcus aureus, Klebsiella pneumoniae, Escherichia coli and Pseudomonas aeruginosa. This function of suppressing the growth of bacteria also has an indirect effect of suppressing the generation of odors caused by bacteria. Further, the same far infrared ray as that of the serum A is generated. In addition, a cloth having an antibacterial effect exerted by a combination of a photocatalyst made of an optical semiconductor powder and a metal powder and an adsorbent such as a ceramic powder may be used.
[0092]
The number of the ventilation holes 6 may be other than three, and the ventilation holes 6 are in the vicinity of the outer ankle in addition to the vicinity of the inner ankle. It may be provided near the toes, near the instep, near the heel, near the Achilles tendon, near the calf, near the shin, or at two or more of these places, and may be provided on the entire leg protection device. The shape of the ventilation hole 6 may be any shape such as a round shape, an X shape, a triangle shape, a square shape, a polygonal shape, a star shape, a slit shape, an oval shape, and a door shape.
[0093]
In addition to being provided from the shin to the instep, the opening / closing part 7 may be provided anywhere from the inner ankle to the inner calf, from the outer ankle to the outer calf, from the heel to the rear calf. The opening / closing part 7 may be a detachable planar tape, string, band, hook, rubber cloth or the like in addition to a fastener. The rubber cloth is vertically interposed in a part of the crus 4 and can be expanded and contracted in the lateral direction to extend and contract the crus 4 along the periphery. In the embodiment of FIGS. 1 to 4, the crus 4 and / or the heel 2 may be omitted.
[0094]
(10) Other inventions
[A] The foot protector includes an outer cover formed of fibers that are not easily contaminated. Thereby, this leg protector becomes strong with respect to the stain | pollution | contamination from the outside.
[0095]
[B] The present foot protector includes a middle body formed of fibers having a heat retaining action and an antibacterial action or a deodorizing action, which are formed inside the outer cover. Thereby, heat dissipation from the human body heated by far infrared rays can be prevented, and germs can be prevented and propagated by sweat and other substances generated from the human body, and body odor / bad odor can be prevented and suppressed.
[0096]
[C] The present foot protector is formed of a fiber that emits far-infrared rays formed on the inner side of the inner body, and emits far-infrared rays that are formed on the inner side of the inner cover with a small or small gap and on the inner side of the inner cover. Or it is formed with the fiber which has an antibacterial action, and is provided with the innermost covering with a large clearance gap or many. Thereby, the far infrared rays generated from the inner cover are blocked or absorbed by the innermost cover, and the effect of the far infrared rays by the inner cover is not reduced. Further, since the gap between the inner covers is small or small, the inner fibers do not slip through the inner cover.
[0097]
[D] The foot protector comprises the sole, the instep, the heel, and the crus with the outer cover, the inner body, the inner cover, and the innermost cover. And a ventilation hole formed through the inner cover and the innermost cover. As a result, the inside air and the outside air of the foot protector can be sufficiently ventilated, and stuffiness inside the foot protector can be prevented.
[0098]
[E] This foot protector is formed of a fiber that emits far-infrared rays formed on the inner side of the inner body, and generates an inner cover that generates the most far-infrared rays at a temperature close to body temperature. A far-infrared ray formed, and an innermost cover that sufficiently generates far-infrared rays even at a temperature lower than the body temperature. As a result, immediately after wearing the foot protector on the human body, first, the far-red effect by far infrared rays emitted from the innermost cover is mainly obtained, and when the foot protector warms up to the vicinity of the body temperature, the far light emitted from the inner cover is obtained. The far-red effect by infrared rays is mainly obtained, and far-infrared rays can be received for a long time as a whole, and a synergistic far-red effect can be obtained.
[0099]
[F] The present foot protector includes an inner cover formed of a fiber emitting far infrared rays formed inside the inner body, and a far infrared ray formed further inside of the inner cover, the far infrared ray A far-infrared ray having a longer wavelength is provided with an innermost cover. As a result, the longer the far-infrared wavelength, the deeper the human body tissue penetrates and the deeper the tissue is warmed (heated), and it takes time until the far-red effect is produced. Sex lasts for a long time, and the far-red effect lasts even if you remove your protective gear from your foot. On the other hand, the shorter the far-infrared wavelength, the more warm the surface of the human tissue (warming), and the shorter the far-infrared wavelength, the sooner the far-red effect appears, and the immediate effect is effective. Warm (warm up) immediately after putting your foot in the tool. Therefore, far infrared rays can be received over a very wide wavelength range as a whole, and a synergistic far red effect can be obtained.
[0100]
[G] A plurality of the ventilation holes of the foot protector are provided on the inner boundary between the instep and the heel, that is, in the vicinity of the inner ankle. As a result, the ventilation hole is located on the lower side of both feet, so the ventilation hole does not stand out and is excellent in design.
[0101]
[H] One of the ventilation holes of the foot protector has a size of several to several tens of square millimeters, and the total of the plurality of ventilation holes has a size of several to several tens of square millimeters. Accordingly, the ventilation hole is not too large and a large amount of cold air outside does not enter, and the ventilation hole is too small to ventilate sufficiently and does not get steamed.
[0102]
[I] The inner body of the foot protector is cotton-like and has a high heat retaining effect. Thereby, the heat dissipation from the human body heated by far infrared rays can be prevented.
[0103]
[J] The outer covering of the foot protector also has an antibacterial action or a deodorizing action. Thereby, in addition to dirt and sweat adhered to the outer cover from the outside, other substances, sweat generated from the inside and other substances can be prevented and suppressed, and body odor / bad odor can be prevented and suppressed.
[0104]
[K] The outer cover, inner body, and inner cover of the outer cover of the foot protector are quilted. As a result, the inner body does not shift with respect to the outer cover and the inner cover, and further, the quilting process allows the foot protector to be washed.
[0105]
[L] The opening / closing portion of the foot protector extends to the instep or to the vicinity of the sole. Thereby, this opening-and-closing part can be opened and turned over, and it can be made antibacterial by cleaning or applying light.
[0106]
[M] The outer cover, the inner body, the inner cover, and the innermost cover of the foot protector have flexibility. This facilitates the attachment / detachment of the leg protection device to the human body.
[0107]
[N] The effect of the foot protector on the human body by the far infrared ray is a heating effect. This warms (warms) the inside / deep part of the human tissue, improves sweating, improves blood circulation, and lowers the viscosity of the blood to make it smooth (far red effect).
[0108]
[O] The effect on the human body by the far infrared rays emitted from the innermost cover of the leg protection device is more immediate and faster than the effect on the human body by the far infrared rays emitted from the inner cover. The amount of far infrared rays emitted from the innermost layer is larger than the amount of far infrared rays emitted from the innermost cover. As a result, first of all, the far-red effect caused by the far-infrared rays emitted from the innermost cover was obtained, and after a while, the far-red effect produced by the far-infrared rays emitted from the inner cover was obtained mainly. You can get a synergistic far-red effect.
[0109]
[P] When the foot protector is cooler than the body temperature, the effect on the human body by the far infrared rays emitted from the inner lining exceeds the effect on the human body by the far infrared rays emitted from the inner lining. Then, conversely, the effect on the human body by the far infrared ray emitted from the inner cover is higher than the effect on the human body by the far infrared ray emitted from the innermost cover. As a result, first of all, the far-red effect caused by the far-infrared rays emitted from the innermost cover was obtained, and after a while, the far-red effect produced by the far-infrared rays emitted from the inner cover was obtained mainly. You can get a synergistic far-red effect.
[0110]
[Q] The innermost covering fiber of the foot protector has ceramics emitting far infrared rays attached to its surface, and the inner covering fiber has ceramics emitting far infrared rays incorporated / kneaded therein. ing. As a result, there is a difference in the time until the far-infrared rays are generated. First, the far-red effect by the far-infrared rays emitted from the innermost cover is mainly obtained, and the far-red by the far-infrared rays emitted from the inner cover after a while. The main effect is obtained, and far infrared rays can be received over a long time as a whole, and a synergistic far red effect can be obtained.
[0111]
[R] The wavelength of the far infrared ray emitted from the innermost cover of the leg protection device may be shorter, longer, shorter or longer than the wavelength of the far infrared ray emitted from the inner cover, and emitted from the innermost cover. The infrared ray that is generated is the mid-infrared ray, and the infrared ray that is emitted from the inner cover is the far infrared ray. As a result, the longer the far-infrared wavelength, the deeper the human body tissue penetrates and the deeper the tissue is warmed (heated), and it takes time until the far-red effect is produced. Sex lasts for a long time, and the far-red effect lasts even if you remove your protective gear from your foot. On the other hand, the shorter the far-infrared wavelength, the more warm the surface of the human tissue (warming), and the shorter the far-infrared wavelength, the sooner the far-red effect appears, and the immediate effect is effective. Warm (warm up) immediately after putting your foot in the tool. Therefore, far infrared rays can be received over a very wide wavelength range as a whole, and a synergistic far red effect can be obtained.
[0112]
[S] A substantially oval sole that hits the entire surface of the sole, an instep connected to the periphery at the front of the sole, and curved and extended backward from the periphery at the front of the sole; A heel connected to the periphery at the rear of the sole and extending substantially upward from the periphery at the back of the sole, and further curved upward from the instep and further upward, and upward from the heel A substantially cylindrical lower leg extending to the outer surface, an outer cover formed of fibers that are not easily soiled, and a middle body formed of fibers having a heat retaining action and an antibacterial or deodorizing action formed inside the outer cover. The inner sheath is formed of a fiber that emits far-infrared rays and has a small or small gap, and the fiber that emits far-infrared rays or has an antibacterial action formed further inside of the inner sheath. The innermost cover with a large or many gap The outer cover, the inner body, the inner cover, and the innermost cover constitute the sole, the instep, the heel, and the lower leg, and the outer cover, the inner body, the inner cover, and the innermost cover. A leg and lower leg protector comprising a ventilation hole formed through the upper and lower part and an opening / closing part that is vertically formed in the lower leg part and that can accommodate a human foot and lower leg.
[0113]
[T] A substantially oval sole that hits the entire surface of the sole, an instep connected to the periphery at the front of the sole, and curved and extended backward from the periphery at the front of the sole; A heel connected to the periphery at the rear of the sole and extending substantially upward from the periphery at the back of the sole, and further curved upward from the instep and further upward, and upward from the heel A substantially cylindrical lower leg extending to the outer surface, an outer cover formed of fibers that are not easily soiled, and a middle body formed of fibers having a heat retaining action and an antibacterial or deodorizing action formed inside the outer cover. An inner cover formed of a fiber emitting far infrared rays formed inside the inner body, and a far infrared ray formed further inside of the inner cover and having a wavelength longer than the far infrared rays. The innermost cover, the outer cover, the inner body, the inner cover, and the innermost cover, The back part, instep part, heel part, and lower leg part are formed, and the ventilation hole formed through these outer cover, inner body, inner cover and innermost cover, and the lower leg part are formed vertically. A foot and lower leg protector provided with an opening / closing part for accommodating a human foot and lower leg.
[0114]
[U] a substantially oval sole that hits the entire surface of the sole, an instep connected to the periphery at the front of the sole, and curved and extended backward from the periphery at the front of the sole; A heel connected to the periphery at the rear of the sole and extending substantially upward from the periphery at the back of the sole, and further curved upward from the instep and further upward, and upward from the heel A substantially cylindrical lower leg extending to the outer surface, an outer cover formed of fibers that are not easily soiled, and a middle body formed of fibers having a heat retaining action and an antibacterial or deodorizing action formed inside the outer cover. The inner sheath formed inside this body, which emits far-infrared rays, generates far infrared rays most at a temperature close to body temperature, and the far-infrared ray formed further inside this inner sheath. The innermost cover that generates far-infrared rays even at temperatures lower than body temperature The outer cover, the inner body, the inner cover, and the innermost cover constitute the sole, the instep, the heel, and the lower leg, and the outer cover, the inner body, the inner cover, and the innermost cover. A leg and lower leg protector comprising a ventilation hole formed through the upper and lower part and an opening / closing part that is vertically formed in the lower leg part and that can accommodate a human foot and lower leg.
[0115]
[V] A plurality of the ventilation holes are provided on the inner boundary between the instep and the heel, that is, in the vicinity of the inner ankle. One of the ventilation holes has a size of several to several tens of square millimeters, and a plurality of ventilation holes are provided. The foot and leg protection device according to claim S, T, or U, wherein the total of the holes has a size of several to several tens of square millimeters.
[0116]
[W] The inner body is cotton-like and has a high heat retaining effect. The outer cover also has an antibacterial action or a deodorizing action. The outer cover, the inner body, and the inner cover are quilted, The foot and lower leg protector according to claim S, T, U, or V, wherein the foot and lower leg protector can be washed in a circle by this quilting process.
[0117]
[X] The opening / closing part extends to the instep part or the vicinity of the sole part. The opening / closing part can be opened and turned over to be cleaned or exposed to light to be antibacterial. The foot and leg protection device according to claim S, T, U, V, or W, wherein the body, inner cover, and innermost cover have flexibility.
[0118]
[Y] The effect on the human body by the far infrared ray is a heating effect, and the effect on the human body by the far infrared ray emitted from the innermost cover is more immediate than the effect on the human body by the far infrared ray emitted from the inner cover. The amount of far infrared rays emitted from the inner lining is greater than the amount of far infrared rays emitted from the innermost lining. At lower temperatures than the body temperature, the far infrared rays emitted from the inner lining The effect is higher than the effect on the human body by the far infrared rays emitted from the inner lining, and at the temperature close to the body temperature, the effect on the human body by the far infrared rays emitted from the inner lining is conversely increased. More than the effect of infrared rays on the human body, the innermost fiber is coated with ceramics that emit far-infrared rays on its surface. The inner covering fiber contains / kneaded ceramic that emits far infrared rays therein, and the far infrared wavelength emitted from the innermost cover is shorter than the far infrared wavelength emitted from the inner covering or Claims S, T, U, V, W, or X, wherein the infrared rays emitted from the innermost cover are medium infrared rays, and the infrared rays emitted from the inner cover are far infrared rays. Leg and leg protection equipment.
[0119]
The foot and lower leg protection device of the present invention improves blood circulation by applying far infrared rays to the foot and lower leg. Forming a body with heat retention and antibacterial action on the inside of the outer cover that is hard to get dirty, forming an inner cover with a small or few gap that emits far infrared rays inside the inner cover, and far infrared rays further inside this inner cover The inner lining with large or many gaps having an antibacterial action or an antibacterial action was formed, and these were used as foot shapes to accommodate human feet and lower legs. The far infrared ray generated from the inner cover is blocked or absorbed by the innermost cover, and the effect of the far infrared ray by the inner cover is not reduced, and a synergistic far red effect is achieved.
The scope of claims at the time of filing was as follows. However, errors were corrected.
[1] A substantially oval sole that hits the entire surface of the sole of the foot, an instep that is connected to the periphery at the front of the sole, and curves and extends backward from the periphery of the front of the sole; An outer cover made of a fiber that is not easily soiled, a core formed of a fiber emitting far-infrared rays formed on the inner side of the outer cover, and a further inner side or This body An inner cover that emits far-infrared rays having a wavelength longer than that of the far-infrared ray formed on the outer side, and the sole part or the instep part is configured by the outer cover, the inner body, and the inner cover. And foot protector.
[2] The above body is lower than body temperature so The foot protector according to claim 1, wherein far-infrared rays are generated, and the inner cover generates most far-infrared rays at a temperature close to body temperature.
[3] Inner lining and inner body Out of More on the inside of Thickness is Than Thin Or each thread or fiber constituting the inner cover or the inner body The foot protector according to claim 1 or 2, wherein the gap is small or small.
[4] An outer inner body is formed between the inner body and the outer covering or between the inner body or the inner covering, and the outer inner body has a drying action to dry sweat from the inside of the foot protector. 4. The foot protector according to claim 1, wherein the outer body has an action of reflecting far-infrared rays from the inner body and the inner cover.
[5] An inner body is formed inside the inner lining or between the inner lining and the inner body, and the inner body has an antibacterial action. , The foot protector according to claim 1, 2, 3, or 4, wherein the outer covering has a function of adjusting humidity.
[6] An anti-slip portion is formed on the bottom surface of the sole from the base of the big toe to the base of the little finger. The anti-slip portion is made of a surface material with high friction, and the center of the sole Than Close to the thumb 6. The foot protector according to claim 1, wherein the foot protector is formed at a position.
[7] The material of the outer covering of the above-mentioned instep part and the outer covering of the toe part at the tip of the instep part are different. The material of the covering of the toe part is different from the material of the covering of the instep part. The outer cover of the toe part is made of the same material as the outer cover of the sole part and the outer cover of the heel part extending vertically along the heel. The foot protector according to 4, 5 or 6.
[8] The inner body is cotton-like and has a high heat retaining action, and the outer cover, the inner body or the inner cover has antibacterial action, drying action or deodorizing action. The body or inner body is quilted so that they do not shift each other, or the inner body does not shift with respect to the outer cover and inner cover. The foot protector according to claim 1, 2, 3, 4, 5, 6 or 7.
[9] The ankle part at the upper edge of the instep part is ring-shaped and can be stretched, and this stretchable ankle part can be opened and turned over to be cleaned or exposed to light to make it antibacterial. The foot protector according to claim 1, 2, 3, 4, 5, 6, 7 or 8, wherein the outer covering, the inner body, the inner covering, the outer inner body, and the inner inner body have flexibility. .
[10] The effect on the human body by the far infrared ray is a heating effect, and the effect on the human body by the far infrared ray emitted from the inner body is quicker and faster than the effect on the human body by the far infrared ray emitted from the inner cover. The amount of far-infrared rays emitted from the inner lining is greater than the amount of far-infrared rays emitted from the inner body, and at a temperature lower than the body temperature, the effect on the human body by the far-infrared rays emitted from the inner body is as follows: The effect on the human body by far infrared rays emitted from the inner body is higher than the effect on the human body by far infrared rays emitted from the inner lining, and the effect on the human body by far infrared rays emitted from the inner lining on the contrary is More than the effect, the inner fiber is attached with ceramics emitting far infrared rays on its surface, In the fiber, ceramics emitting far infrared rays are incorporated / kneaded, and the wavelength of the far infrared rays emitted from the inner body is shorter, longer, shorter or longer than the wavelength of the far infrared rays emitted from the inner cover. There are things, Or The foot protector according to claim 1, 2, 3, 4, 5, 6, 7, 8 or 9, wherein the infrared ray emitted from the inner body is a middle infrared ray, and the infrared ray emitted from the inner cover is a far infrared ray.
[0120]
【The invention's effect】
As described above in detail, the foot protector of the present invention includes an outer cover formed of a fiber that is not easily soiled, an inner body formed of a fiber that emits far-infrared rays formed inside the outer cover, An inner cover that emits far-infrared rays having a wavelength shorter than that of the far-infrared ray formed on the inner side or the outer side of the cover, and the outer sole, the inner body, and the inner cover, Configured.
[0121]
Therefore, there is an effect that the far infrared ray generated from the inner body is blocked or absorbed by the inner cover and the effect of the far infrared ray by the inner body is not reduced. Using this foot protection device eliminates the chain state where red blood cells adhere to each other, dissociates each red blood cell, eliminates thrombus, and eliminates the possibility of causing pulmonary embolism, myocardial infarction, etc. The effect of. In addition, even if you sit in a narrow seat on an aircraft for a long time, you can prevent the occurrence of blood clots. As a result, you can prevent diseases such as dyspnea and cardiopulmonary arrest, and so-called economy class syndrome. Play. Some of the economy class syndromes are caused by blood clots in the knee arteries caused by sitting for a long time. it can.
[Brief description of the drawings]
FIG. 1 shows a cross-sectional structure of a cloth material for a foot and lower leg protector.
FIG. 2 shows a cross-sectional structure of a cloth material for a foot and lower leg protector.
FIG. 3 shows the appearance of a foot and lower leg protector.
FIG. 4 shows the appearance of the foot and lower leg protector.
FIG. 5 shows a time change, that is, a temperature change, of far infrared rays (middle infrared rays / super far infrared rays) generated from the inner cover 13 and the innermost cover 14;
FIG. 6 shows the amount of far infrared rays (middle infrared ray amount / super far infrared ray amount) generated by the inner cover 13 and the innermost cover 14 for each wavelength (horizontal axis) of far infrared rays.
FIG. 7 shows an enlarged photograph of the blood state of a human in his 20s before using the foot and lower leg protector.
FIG. 8 shows a magnified image of the blood state of a 20's human blood after 60 minutes using the foot and lower leg protector.
FIG. 9 shows a magnified image of the blood state of a 30's human before using the foot and lower leg protector.
FIG. 10 shows a magnified image of the blood state of a 30's human blood after 60 minutes using the foot and lower leg protector.
FIG. 11 shows a magnified image of the blood state of a 40's human before using the foot and lower leg protector.
FIG. 12 shows a magnified image of the blood state of a 40's human blood after 60 minutes using the foot and lower leg protector.
FIG. 13 shows an enlarged photograph of the blood state of a human in his 50s before using the foot and lower leg protector.
FIG. 14 shows an enlarged photograph of the blood state of a human in his 50s after 60 minutes using the foot and lower leg protector.
FIG. 15 shows a cross-sectional structure of the cloth material of the foot sole 1 of the foot protector.
FIG. 16 shows the appearance of a foot protector.
FIG. 17 shows the lower surface (bottom surface) of the foot protector.
FIG. 18 shows the deodorizing effect of inner body 25 on formaldehyde.
FIG. 19 shows the deodorizing effect of ammonia in the inner body 25.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Sole part, 2 ... Heel part, 3 ... Instep part, 4 ... Lower leg part, 5 ... Edge covering, 6 ... Ventilation hole, 7 ... Opening / closing part, 11 ... Outer covering, 12 ... Medium body, 13 ... Inner cover, 14 ... innermost cover, 21 ... outer cover, 22 ... Outer inner body, 23 ... inner body, 24 ... inner covering, 25 ... inner inner body, 26 ... toe part, 27 ... anti-slip part, 28 ... heel raising part, 29 ... ankle part.

Claims (9)

An almost oval sole that hits the entire surface of the sole,
The instep part connected to the periphery at the front of the sole part, and curved and extended backward from the front periphery of the sole part;
An outer covering made of fibers, threads or cloth that has been made difficult to adhere to dirt by a processing treatment such as fluorine processing or waterproofing, or to which the attached dirt is decomposed by attaching a photocatalytic component;
The inside formed with the fiber which emits the far infrared rays formed inside this outer cover,
An inner cover that emits far-infrared rays having a wavelength longer than that of the far-infrared rays formed on the inner side or on the outer side of the inner body,
A foot protector comprising the sole part or the instep part composed of the outer cover, the inner body, and the inner cover. The above body generates far infrared rays at a temperature lower than the body temperature,
2. The foot protector according to claim 1, wherein the inner cover generates most far infrared rays at a temperature close to body temperature. An outer body is formed between the inner body and the outer cover or between the inner body and the inner cover. The outer body has a drying action, and this drying action is applied to the outer body. This is due to the moisture-absorbing component that dries sweat from the inside of the foot protector, and this outer body contains a metal component to reflect far-infrared rays from the inner body and inner cover. The foot protector according to claim 1 , wherein the foot protector has an action to act. An inner body is formed inside the inner cover or between the inner cover and the inner body. The inner body has antibacterial action, drying action or deodorizing action,
This antibacterial action is due to the bactericidal component attached to the inner body,
This drying action is due to the component that absorbs moisture attached to the inner body,
The deodorizing effect, according to claim 1, 2 or 3 feet protection of wherein a is due to decomposed components odor attached to the in the body. An anti-slip part is formed on the bottom surface of the sole from the base of the big toe to the base of the little finger. The anti-slip part is made of a surface material with high friction, and is located on the thumb side from the center of the sole. according to claim 1, characterized in that it is formed on the deviation that is inboard position, 3 or 4 feet protection according. The material of the outer cover of the above instep and the material of the outer cover of the toe at the tip of the instep are different, and the material of the outer cover of the toe is stronger than the material of the outer cover of the instep. big,
Covering outside the toe portion, claims, characterized in that the covering outside of the sole portion, or the same material as the outer covering of the heel portion extending longitudinally along the heel 1,2,3, 4 or 5 Foot protector as described. The inner body has a heat retaining action, and this heat retaining action is due to the fact that the inner body is cottony.
The outer cover, inner body or inner cover also has antibacterial action, drying action or deodorizing action,
This antibacterial action is due to the bactericidal component or photocatalytic component attached to the outer cover, inner body or inner cover,
This drying action is due to the component that absorbs moisture or the structure that discharges moisture outside the outer cover, the inside or the inner cover,
This deodorizing action is due to a component that decomposes the odor attached to the outer cover, the inside or the inner cover, a component that adsorbs the odor, or a component that sterilizes bacteria that generate the odor,
The outer cover, the inner body, the inner cover, the outer inner body, and the inner inner body are quilted, so that they do not shift or the inner body is quilted with respect to the outer cover and the inner cover, The foot protection according to claim 1, 2, 3, 4, 5 or 6 , wherein the foot protection device can be completely washed by the quilting process. Ingredients. The ankle part of the upper edge of the above-mentioned instep part is ring-shaped, and can be stretched and opened.
The foot protector according to claim 1, 2, 3, 4, 5, 6 or 7 , wherein the outer covering, the inner body, the inner covering, the outer inner body, and the inner inner body have flexibility. The effect of the far infrared rays on the human body is a heating effect,
The effect on the human body due to the far infrared rays emitted from the inner body is more effective and faster than the effect on the human body caused by the far infrared rays emitted from the inner lining, and the amount of far infrared rays emitted from the inner lining is , More than the amount of far infrared rays emitted from the inside,
At a temperature lower than the body temperature, the effect on the human body by the far infrared rays emitted from the inner body is higher than the effect on the human body by the far infrared rays emitted from the inner lining, and at a temperature close to the body temperature, the effects are emitted from the inner lining. The effect on the human body by far-infrared is higher than the effect on the human body by far-infrared emitted from the above-mentioned body,
The foot protector according to claim 1, 2, 3, 4, 5, 6, 7 or 8 , wherein the wavelength of the far infrared ray emitted from the inner body is shorter than the wavelength of the far infrared ray emitted from the inner cover.

Images