KR20130115707A - Mineral or charcoal band committed leg - Google Patents

Abstract

PURPOSE: A band with minerals or charcoal for legs is provided to be easily manufactured and wore smoothly so that manufacturing costs are reduced and the band is economically viable with good wearbility. CONSTITUTION: A band with minerals or charcoal for legs tightens at least a body part including feet, ankle, calf, keen or femoral region. The band comprised of a circular plate and made up of synthetic resin, rubber, fabric and silicone. The band comprises an inner part (40) which contacts the legs, an outer part (60) which forms the shape of the legs and a bad fixing member (80) which is detachable to the main band. The band is manufactured using the first and the second group mineral chosen from ceramic, germanium, rare earth metal, loess, jade, barley stone, celadonite, charcoal or coating the minerals above. [Reference numerals] (120) Germanium powder; (140) Charcoal powder; (AA) Inject

Description

Mineral or charcoal band committed leg

The present invention is a band, ankle, calf, knee, thighs that wrap or tighten the leg is divided into the present band relates to a leg band in which mineral or charcoal is injected into one side or the inside of the leg band in more detail the inner or inner leg band External

Ceramic, Germanium, Rare Earth Metal, Loess, Jade, Barley stone, Celadonite Charcoal, etc. It is an excellent invention that can feel the effect of far infrared rays and negative ions by wearing the leg band.

As described above, the leg band of the present invention is a generic term for a leg wrapped around or tightened a leg divided into feet, ankles, calves, knees, and thighs for cold protection, dust protection or shock alleviation, and joint protection.

In general, leg bands include simple leg bands that are worn around the legs to protect the ankles or joints without any function, and leg bands that have a built-in heater inside and legs that add vibration to the legs. In order to prevent knees from hurting in cold or cold winter, it is frequently used for the purpose of cold protection, and is made of synthetic resin, fabric, rubber, etc., which serves to heat or vibrate the user's legs. Leg area by injecting minerals including ceramic, germanium, rare earth metal, loess, jade, barley stone, celadonite It is characterized by being able to emit far infrared rays and negative ions.

Recently, with increasing interest in health, eco-friendly lifestyle, and well-being, various kinds of functional fibers that generate far infrared rays or negative ions in clothing and bedding are being developed.

For example, Republic of Korea Patent No. 10-0532872 discloses a cardiac type multifunctional composite fiber composed of a core portion including a certain amount of nano silver and an antifungal agent and a core portion containing a certain amount of tourmaline. The cardiac type multifunctional composite fiber has a function of generating anion as well as antibacterial and antifungal properties by using tourmaline ore.

In addition, Korean Unexamined Patent Publication No. 2007-0071774 (published Jul. 4, 2007) discloses a multifunctional fiber having antimicrobial, anti-fungal and anion-releasing ability, including apatite-coated titanium dioxide and tourmaline.

In addition, it can be seen that various functional fibers made by mixing charcoal, germanium, and loess in powder form have been developed.

Looking at another conventional technology similar to the present application No. 20-2002-0002456 Designated name: Looking at the human wearing band with the activated carbon embedded in the amorphous carbon, the activated carbon is more effective than the charcoal, the activated carbon is radiated inside A technique for partitioning the inner space of the casing into compartments is preceded by a wearable band composed of an outer casing capable of accommodating and withdrawing the inner casing of the neck band, which granulates activated carbon, which is more effective than charcoal, in amorphous form. To be different from the present application;

In another prior art, the application No. 10-1998-0034188 Name of the invention: the physiotherapeutic composition emitting far-infrared ray and its manufacturing method is 20-40% by weight of ganthele powder, 20-30% by weight of alkali powder and rosin powder 60-20 While providing a physiotherapeutic composition that emits far-infrared rays, characterized in that by mixing the weight% and compressing it at the same time as heating, while pulverizing the powdered pine branch, including ganbanite and alkali feldspar, pine root and gussol A pulverizing step for each component as the first step; A mixing step for each component which is a second step of mixing the powder to be mixed for each component; Providing a method for producing a physiotherapy composition for releasing far-infrared rays, characterized in that the sintering process is a third process of heating and compressing the mixed powder to a predetermined temperature to sinter by the viscosity of the rosin to form a solid. Various leg bands are described.

The present invention can be used for each part of the leg, it is well ventilated and can be worn for a long time, the inner or outer surface of the leg band (Ceramic), Germanium (Germanium), Rare Earth Metal, loess (loess) Jade or Barley stone, Celadonite, Charcoal, etc. are used to inject minerals or charcoal that can emit far infrared rays or negative ions to the ankle or knee calf. The introduced leg band has not yet been started.

The present invention has been made in view of the above situation to solve various defects and problems caused in the conventional heating leg band, the object of the wearer's joints and the like by freely detachable leg band pad on the inner or outer leg band body It is to provide a leg band that can be efficiently protected and heated.

Another object of the present invention is a simple structure and easy to manufacture, the cost of manufacturing is reduced and the economical efficiency to achieve a low price of the product is not only easy to wear but also light in weight, small in volume and legs It is to provide a leg band that is detachable to the leg band that can improve the fit by applying a soft mineral or charcoal material to the material or the outer skin of the part in contact with. The present invention is to solve the conventional problems as described above, an object of the present invention is to provide a smooth texture and excellent durability while generating a large amount of negative ions are uniformly mixed with the raw material of the fiber or mineral fiber material. Anion releasing fibers and methods for making the fibers are provided.

The present invention is a mineral or charcoal material that is put into the inner or outer surface of the leg band to achieve the above object provided in the band, the foot, ankle, calf, knee, thighs as described above to wrap or tighten the leg When the leg band is manufactured, it may be powdered and coated on the outer or inner surface of the leg band, or may be applied to the inside of the leg band, or may be completed by weaving by mixing the mineral or charcoal material with a fabric.

According to one embodiment of the present invention for achieving the above object, by mixing mineral or charcoal fine powder in water and mixing the mixed solution aged for a certain time to a natural yarn or fabric or artificial chemical synthetic resin and then spinning it Far-infrared and anion-releasing fibers are provided.

According to another aspect of the present invention, a first step of mixing the mineral or charcoal fine powder with an aqueous solution in the stirring tank for aging for a set time; A second step of extracting a mixed solution containing mineral or charcoal fine powder in the stirring tank after the set time has elapsed; A third step of mixing the extracted mineral or charcoal fine powder containing a aging liquid and a thermoplastic synthetic resin at a predetermined ratio; The mixture is put into a spinning machine and spun to form yarns.

Provided is a method for producing far infrared and anion releasing fibers comprising a fourth step.

The leg band into which the mineral or charcoal material of the present invention is put is easy to manufacture while keeping the wearer's legs more comfortable, hygienic and efficient, and thus, the cost required for manufacturing is reduced, and the economical efficiency of the product price can be achieved. Not only is this excellent and easy to wear, but it is also light in weight, small in volume and touches the legs of the leg band to form a soft mineral or charcoal powder material to improve the fit. In addition, the leg band is always wearing a hygienic and smooth band has a particular advantage that can contribute to improving the health of the user.

And most of all, due to far-infrared rays, it not only promotes blood circulation and fatigue recovery, but also protects joints and legs, and absorbs sweat or waste by adsorption of charcoal,

It gives a composite function to the fiber, and can produce leg bands that are lighter, softer, and more flexible than ordinary fibers, and emit negative ions and far infrared rays when worn by the user, antibacterial, deodorant, adsorption, hygroscopicity, and comfort. It will provide leg bands that have sex, warmth and warmth.

1 is an overall view showing a configuration in which the leg band is unfolded in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.
Figure 2 is a diagram showing the overall configuration of the inner surface portion of the leg band in one preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.
Figure 3 is a bridge band in which the mineral or charcoal material of the present invention is injected is a view showing the coupling process of the leg band in a preferred embodiment.
Figure 4 is a leg band in which the mineral or charcoal material of the present invention is injected is a picture of the mineral or charcoal woven into the leg band in a preferred embodiment.
Figure 5 is a picture of the mineral or charcoal pad installed in the leg band in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.
Figure 6 is a view showing a leg band worn on the knee in one preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.
Figure 7 is a view showing the leg band worn on the ankle, knee and thigh in one preferred embodiment of the leg band is a mineral or charcoal material of the present invention.
Figure 8 is a block diagram of the adhesion of minerals or charcoal bonded to the leg band in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.
Figure 9 is a block diagram of immersion of mineral or charcoal woven in the leg band in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.
10 is a block diagram of a knife coating process of the mineral or charcoal woven in the leg band in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.
Figure 11 is a block diagram of the dent processing of the mineral or charcoal woven in the leg band in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.
12 is a block diagram of the dipping process of mineral or charcoal woven in the leg band in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.
Figure 13 is a block diagram of the spray processing of the mineral or charcoal woven in the leg band in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.
Figure 14 is a block diagram of the pad processing of mineral or charcoal woven in the leg band in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.

Leg band of the present invention wraps or tightens any one selected from the foot, ankle, calf, knee, thigh portion of the leg band is made of a plate of a circular or oval shape and selected from synthetic resin, rubber, fabric, silicone The leg band consists of material and is fixed in contact with the knee or ankle.

The leg band is coated with a material that emits anion and far infrared rays on its contact surface to protect the joints by supplying the anion and far infrared rays to the wearer's joints or legs through the band, thereby protecting the joint and improving pain relief and its therapeutic effect. Can be.

Preferably, the heat transfer device is installed on the leg band to provide improved convenience to the user, deodorizing power and antimicrobial power may be added, and various functions are added to the band to provide consumers with greater satisfaction in purchasing power of the product. It can be improved.

Referring to a preferred embodiment of the leg band in which the mineral material or charcoal material of the present invention for achieving the above object is attached to the leg band pad portion 100 detachable to the inner leg portion 40 of the leg band formed on the body of the leg band For example, it consists of a plate that is easy to wrap around a leg of a circular or semi-circular shape.

In addition, a variety of coupling members 80 of the leg band is installed, such as Velcro tape or magnet is installed at both ends of the incision end and the coupling member including the Velcro tape according to the size of the user's leg worn ) Position can be fixed to the leg to be used.

In the present invention, terms that are briefly defined in consideration of function may vary according to the intention or custom of those skilled in the art, and the manufacturing method of the functional leg band of the present application may be included in a general preferred manufacturing method and the definition thereof is defined herein. It should be based on the content throughout.

Hereinafter, the leg band in which the mineral or charcoal material is added according to the present invention will be described in detail with reference to the accompanying drawings a preferred embodiment. In the following description with reference to the accompanying 14 drawings, the same components regardless of reference numerals will be given the same reference numerals and redundant description thereof will be omitted.

1 is an overall view showing a configuration in which the leg band is unfolded in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added;

Figure 2 is a diagram showing the overall configuration of the inner surface portion of the leg band in one preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.

Figure 3 is a leg band in which the mineral or charcoal material of the present invention is introduced shows the process of bonding the leg band in a preferred embodiment.

Figure 4 is a leg band in which the mineral or charcoal material of the present invention is injected is a picture of the mineral or charcoal woven into the leg band in a preferred embodiment.

Figure 5 is a picture of the mineral or charcoal pad installed in the leg band in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is added.

6 is a diagram showing a leg band worn on the knee in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is put into the knee leg band installed in the knee pore portion for wearing the knee.

Figure 7 is a diagram showing the leg band worn on the ankles, knees and thighs in one preferred embodiment of the leg band is a mineral or charcoal material of the present invention is applied to the thighs including the ankles and knees evenly The figure shows what can be done.

Thus, the leg band of the present application is made of a circular or oval leg band body 20 made of a plate surrounding the leg;

Leg band coupling portion material 80 and the leg band inner surface portion 40 and the leg band outer surface portion 60 constituting the leg band and the cut leg band body 20 to be in contact with the leg and the disassembled A mineral material is introduced into the leg band pad part 100 which is coupled to and dismantled to the leg band inner surface part 40.

In addition, the leg band body leg band inner surface portion 40 is configured with a pad coupling portion 120 and a predetermined pad coupling member to which the leg band pad is detachable.

In addition, the leg band pad portion 100 is characterized in that it is composed of any one material selected from synthetic resin, rubber, fabric, silicon, material, and the leg band pad portion 100 is the other side of the leg band inner surface portion 40 It is also characterized in that the coupling member is coupled to the) and preferably the leg band pad portion 100 is made of cotton or silk material that is comfortable to wear and easy to absorb sweat.

More preferably, the leg band coupling member 80 in which the leg band inner surface portion 40 which is in contact with the leg and the leg band inner surface portion 40 constituting the leg band and the cut leg band body 20 are coupled and dismantled. ) And one side of the leg band pad part 100 and the leg band inner surface part 40, which are coupled to and disassembled in the leg band inner surface part 40, are selected from a Velcro or a fabric, a tape, and a magnet for detachable from each other. It is characterized in that the ash is installed, either the inner side of the leg band portion 40 or the leg band pad portion 100, or the coupling member may be installed in both of the coupling portion.

As such, the leg band pad portion 100 detachably attached to the inner surface of the leg band of the present invention is preferably made of a soft material into which the mineral material 120 or charcoal 140 is put in order to make the foreign body feel comfortable or comfortable to wear. In order to increase the mineral 120 or charcoal 140 may be embossed (embossing) consisting of a protrusion form.

As described above, the leg band of the present application includes a leg band body 20 made of any one material selected from synthetic resin, rubber, fabric, and silicon, and made of a plate body having a circular or oval shape surrounding the leg; A leg composed of a leg band inner member 40 which is in contact with the leg, and a leg band coupling member 80 to which the leg band outer surface 60 constituting the leg band and the cut leg band body 20 are coupled and dismantled. Mineral material 120 or charcoal 140 on one side of the band body weave 160 together with the leg band fiber or the mineral material 120 or charcoal on the leg band inner surface portion 40 or leg band outer surface portion 60. 140 is coated 180 and the char 140 is also preferably used carbon (Cabon) carbon graphite.

As such, the leg band of the present invention is a ceramic, germanium, rare earth metal, loess, jade, barley stone, inside or outside one side of the leg band surrounding the leg. Mineral 120 or charcoal 140, including Celadonite is characterized in that weave 160 or coating 180 on the leg band.

8 is a block diagram of the adhesion of minerals or charcoal adhered to the leg band in a preferred embodiment of the leg band in which the mineral or charcoal material of the present invention is injected, the preparation of the leg band of the mineral material 120 or charcoal in a stirring tank (140) is added as a dissolving material of the fine powder and mixed with the stirring solution, and then the material fibers of the leg band may be added thereto to stir or immerse it.

Preferably weaving it after drying is preferable, and the material of the leg band is made of synthetic resin, and the mineral 120 or charcoal 140 powder is put in a predetermined amount thereto, and then stirred and drawn out of the leg band yarn. It is preferable to show this as a block diagram and will be described again and finely powdered the mineral 120 or charcoal 140 in a stirring tank of a certain size and put it as a solvent material, and here a well-known stirring liquid for well stirring Of course it is.

Next, to stir well for the stirring of the mineral material 120 or charcoal 140 fine powder. Next, by putting the material fiber weaving the leg band and put it into a container in which the stirring liquid and the mineral material 120 or charcoal 140 fine powder is mixed and soaked so as to soak well and dehydrate it after a certain time to dry. It is also preferable to undergo a separate coating process of the mineral 120 or charcoal 140 fine powder in order to prevent stripping of the mineral 120 or charcoal 140 fine powder soaked into the yarn.

Next, the synthetic resin, which is the material of the leg band, is poured into a predetermined tank and melted, and the mineral 120 or charcoal 140 powder is added thereto and stirred, and the mineral material 120 or charcoal 140 is extruded or extracted. The synthetic resin included will be completed and weaved to form a leg band to complete.

9 is a leg band in which the mineral or charcoal material of the present invention is put in the leg band body completed as a block diagram of the mineral or charcoal woven in the leg band in the preferred embodiment of the mineral material 120 or charcoal 140 The leg band is immersed in the dissolving material or sprayed by a spray method, or may be completed, or by separately preparing a pad in which a predetermined amount of the mineral material 120 or charcoal 140 material is injected into one side or the outside of the leg band. It is also preferable to glue or sew with a sewing machine.

In addition, the pad is any one selected from synthetic resin, silicone, rubber, fabric and is to be injected or woven by adding the mineral material 120 or charcoal 140 to it.

Figure 10 is a bridge band in which the mineral or charcoal material of the present invention is injected is a block diagram of the mineral or charcoal woven in the leg band in a preferred embodiment.

10 is a block diagram of a mineral coating or a charcoal input material of the present invention is a knife coating process of mineral or charcoal woven in the leg band in a preferred embodiment.

Figure 11 is a block of the mineral or charcoal input material of the present invention is a block of the dent processing of mineral or charcoal woven in the leg band in a preferred embodiment.

12 is a block diagram of the dipping process of the mineral or charcoal woven into the leg band in the preferred embodiment the leg band in which the mineral or charcoal material of the present invention is added.

13 is a block diagram of the mineral or charcoal material is injected into the mineral band of the present invention is a spray processing of the mineral or charcoal woven in the leg band in a preferred embodiment.

14 is a block diagram of the pad processing of the mineral or charcoal in which the mineral or charcoal material of the present invention is put in the preferred embodiment.

The leg band body 20 is made of a plate of a circular or oval shape surrounding the leg and made of any one material selected from synthetic resin, rubber, fabric, and silicon; The leg band inner surface portion 40 which is in contact with the leg and the leg band outer surface portion 60 constituting the leg band and the leg band coupling member 80 is coupled and dismantled.

In addition, ceramic, germanium, rare earth metal, loess, jade, barley stone, selado on one side of the leg band body including the inner or outer surface of the leg band. At least one group or two groups of minerals 140 or charcoal 140 selected from knight (Celadonite) charcoal are woven together with the leg band yarn.

More preferably, the mineral material 120 or charcoal 140 is coated on the fabric of the leg band 180.

Even more preferably, the leg band yarn or fabric is prepared by mixing the mineral 120 or charcoal 140 fine powder ore powder in an aqueous solution, mixing the mixed solution aged for a predetermined time in a synthetic resin and then spinning it with yarn; A first step of mixing the mineral material 120 or the charcoal 140 fine powder ore powder with an aqueous solution in a stirring tank and aging for a predetermined time;

A second step of extracting the mixed liquid containing the mineral material 120 or the charcoal 140 fine powder ore powder of the stirring tank after the set time has elapsed;

A third step of mixing the extracted mineral material 120 or charcoal 140 fine powder-containing aging liquid with a thermoplastic synthetic resin at a predetermined ratio;

The fourth step of forming the yarn by spinning the mixture into the spinning machine, and in the third step of mixing 60 ~ 90wt of thermoplastic synthetic resin and the remaining amount of the mineral 120 or charcoal 140 containing the aging liquid This is preferred.

More preferably, minerals 140 or charcoal 140 particles having a size of less than 100 nanoparticles (Nano) in natural or chemical fiber materials (that is, artificial fibers) are added to a viscose rayon, polyester, or polyester. Fiber based on one or more selected fiber materials selected from among polyethylene, polypropylene, cotton, cotton, nylon and pulp Spinning (yarn) is also preferable.

Like this, ceramic, germanium, rare earth metal, loess, jade, barley stone, celandite Mineral 120 or charcoal 140, including) is characterized in that weave 160 or coated 180 on the leg band and the mineral 120 or charcoal 140 in a stirring tank as a dissolving material of fine powder After inputting and mixing it with a stirring solution, the raw material of the leg band is added to it, and then it is characterized in that it is completed by stirring or dipping and drying.

More preferably, the material of the leg band is made of synthetic resin, and the mineral material 120 or charcoal 140 is added to the powder in a predetermined amount, and after stirring, it is characterized in that it is extracted with leg band yarns. The mineral material 120 or charcoal 140 is added as a fine powder solvent material, and the stirring solution is added thereto to stir it well, and then the material fiber yarn squeezing the leg band is added to the stirring solution and the mineral material 120 or charcoal. (140) the minerals 120 or in order to prevent the peeling of the minerals 120 or charcoal (140) fine powder penetrated by immersing in a container in which the fine powder is mixed and dehydrated and dried, or permeated into the yarn. Charcoal 140 is also preferably subjected to a spray coating process on the leg band fine powder solution.

In addition, the synthetic resin, which is the material of the leg band, is melted, and the mineral material 120 or the charcoal 140 powder is added thereto, stirred and extruded or extracted, thereby completing the synthetic resin containing the mineral material 120 or charcoal 140. Weaving is completed by weaving in the form of a leg band or a pad in which a certain amount of the mineral material 120 or charcoal 140 material is put into the inner or outer side of the leg band is sewn on the inner or outer side of the leg band with a sewing and sewing machine You can also complete it.

In the mixing step of the mineral material 120 or charcoal 140, the mixing ratio is preferably 60 ~ 90wt of thermoplastic synthetic resin, and the remaining residual mineral 120 or charcoal 140 containing the fine powder aging liquid.

If the amount of the thermoplastic synthetic resin is less than 60wt%, the probability of defects is increased, such as the intrinsic properties and strength of the finally produced fiber yarn is significantly increased, and the anion and far infrared emission from the fine powder of the mineral material 120 or charcoal 140 are increased. The disadvantage is that the effect is lowered.

In addition, when the mineral powder 120 or charcoal 140 fine powder is more than 90wt, it was difficult to mix with the fiber yarn.

Next, the mineral 120 or charcoal 140 mixed with the fine powder and the thermoplastic synthetic resin mixture are mixed into the spinning machine to spin the fiber yarn containing the mineral 120 or the char 140 fine powder.

The anion and far infrared ray releasing fiber of the present invention made by the manufacturing method as described above are aged by mixing a fine material of mineral 120 or charcoal 140 with water to produce a large amount of anion and far infrared ray, and then Since the mixed solution is mixed with a thermoplastic synthetic resin or a natural yarn to contain fine mineral 120 or charcoal 140 fine powder powder, very fine mineral 120 or charcoal 140 fine powder components are uniformly distributed throughout the fiber. In addition to providing excellent anion and far-infrared emission performance, the mineral 120 or the charcoal 140 fine powder is not destroyed or lost over time, so durability is improved, and when worn on the leg, a soft texture is provided.

When weaving the leg band using the fiber of the present invention prepared as described above can be produced a leg band in which a large amount of negative ions and far infrared rays are emitted.

Preferably, the addition method is a natural fiber material and spinning the natural fiber material and the mineral 120 or charcoal 140 fine powder, while in the case of chemical fiber mineral 120 or charcoal 140 fine Powders are mixed and coated on thermoplastic resins of polyester, polyethylene, polypropylene, and nylon, and then processed into master-batch chips or compounding chips, and then the masterbatch chip workpieces are processed. Again, the yarns are formed to form a bridge band fabric having far-infrared and anion functions by spinning by mixing with raw materials at a constant ratio (3-20%) or by using 100% of compounding chip processed products.

Process for dyeing the viscose rayon, cotton (cotton), pulp (Pulp), polyester (polyester), polyethylene (polyethylene), polypropylene (nylon) fiber yarn or fabric In, in the leg band fibers that far infrared rays and anions are emitted, ceramic, germanium, rare earth metal, loess, jade, barley stone, celandite (Celadonite) Selecting at least one or two or more of fine powders such as charcoal and mixing with the dyes or pigments used in the dyeing process so as to have a far infrared and anion spinning function in the textile fabric at the same time desirable.

≪ Example 1 >

 First, as shown in Table 1 below, (1) viscose rayon was spun mixed with germanium and purified charcoal (Charcoal) as 0.005 wt%, respectively, based on the weight of the fiber material. As a result, more than 85% of far-infrared emissivity of germanium and anion emissivity of charcoal were proved to be 400 (ion / cc).

division germanium( Ge ) charcoal( Charcoal ) Remarks Bisco rayon 10ppm 25 ppm Anion of charcoal is at 20 degrees Celsius Far Infrared Emissivity (5 ~ 20㎛), Radiation Energy Radiation Energy (W / ㎡) / Anion Measurement (Unit: ion / cc) 85.5% 400 (KICM-FIR-1OO5) Far Infrared Rays at 37 ° C

The anion: Experimented according to KICM-FIR-1042. Far-infrared radiation test is the result of comparing Black Body using FI-IR Spectrometer by KFIA-FI-1005 test method.

<Example 2>

As shown in Table 2 below, ① ceramic and ganban stone in cotton fabric is 0.008wt% (40ppm), and barley stone is 0.008wt% (40ppm) in fabric weight. It was dyed.

As a result, the far-infrared emissivity of ceramics and elvan was proved to be ② and 86.5% of ceramics and 87.1% of elvan in Table 2, which were measured after washing 30 times again.

As described in ③ of <Table 2>, the far-infrared emissivity was 84% of ceramics and 85% of elvan.

division ceramic( Ceramic ) Elvan Stone ( Barley ) Remarks if 40 ppm 40 ppm Far Infrared Rays at 37 ° C Far Infrared Emissivity / Anion 86.5% 87.1% Far Infrared Rays at 37 ° C Far Infrared Emissivity / Anion 84% 85% Measure after 30 washes

-Far infrared rays are measured results compared to Black Body using FI-IR Spectrometer by KFIA-FI-1005 test method as shown in <Table 1>.

&Lt; Example 3 >

Minerals selected from the mineral group, Ceramic, Germanium, Rare Earth Metal, and Loess, were crushed to about 300 mesh and fired at a firing temperature of 800 ° C. to 1,300 ° C. After the mineral powder was pulverized so that the particle size of the mineral powder is 100 nano (Nano) or less, and the charcoal (Charcoal) is burned to a fine powder without a firing process.

<Example 4>

Thus, after diluting with an acrylic or urethane-based binder, ceramic, germanium, rare earth metal, loess are mixed with the mineral groups, and the resulting leg band fibers are formed in FIG. Dipping or processing as

The fine particles 120 or charcoal 140 may be appropriately added or subtracted based on the radiation amount of far infrared rays.

In addition, the binder (Binder) acts to properly adsorb the mineral material 120 or the charcoal 140 fine powder raw material to the fabric (raw material) of the leg band, as the binder acrylic binder considering the washability of the textile product Is suitably employed, but in consideration of the touch, the urethane-based binder is very preferably used.

When the result of the mixing of the mineral material 120 or the charcoal 140 fine powder raw material is formed in the stirring tank, the product made of the leg band fabric (raw material), which is the object to be processed, is stirred in the stirring tank as in the block diagram of FIG. It will be processed (fixed the width of the fabric).

Here, additional various processing processes by the fabric softener can be additionally introduced into the leg band fibers.

When the above processing is made over a predetermined time, dehydration is performed and then drying is performed. The drying may be performed by natural drying or forced drying, and is performed by a hot air blower having a temperature of about 60 to 200 ° C.

Preferably, the leg band fabric is a process of forming a film on the surface by applying a resin to the material to be processed to perform the knife coating process (Knife coating) of FIG. Of course, it is also possible to apply the roller processing, dipping (Fig. 9), spraying or coating of Figure 10 to allow the resultant to be applied to the leg band while passing through.

As described above, the present invention, as described above, the leg band of the present invention wraps around the leg for the purpose of cold protection, dust or treatment or joint protection, and in general, the leg band is a simple leg band and a leg band having a heating function built-in a heater therein; By adding vibration, it is used a lot to protect the purpose or leg of the cold in the cold or cold winter, and it is made of synthetic resin, fabric, rubber, etc., so that the user's legs can be heated or massaged. It can be used.

Modifications and variations of other materials to the invention may be practiced by those skilled in the art without departing from the spirit and scope of the invention, particularly as described in the claims;

It is to be understood that aspects of the above-described embodiments may be modified in whole or in part and those skilled in the art will understand that the description is merely exemplary and is not intended to limit the spirit of the invention set forth in the claims.

In addition, the present invention is not to be construed as limited to the terms or words used in the specification and claims in the usual or dictionary meanings, the present inventors have used the concept of the term in order to best explain his invention in the best way It should be interpreted as meanings and concepts corresponding to the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the exemplary embodiments described herein are only exemplary embodiments of the present invention, and do not represent all of the technical ideas of the present invention, and various equivalents and modifications that may substitute them at the time of the present application may be applied. It should be understood that there may be.

20: leg band body 40: leg band inner part
60: leg band outer surface 80: leg band coupling member
100: leg band pad part 120: mineral
140: charcoal 160: weave
180: coating 200: mineral or charcoal pad

Claims (5)

In the leg band that wraps the legs
The leg band, which wraps or tightens any one selected from the foot, ankle, calf, knee, and thigh, is made of a round or oval plate and made of any one selected from synthetic resin, rubber, fabric, and silicone. A band body 20;
A leg band inner surface portion 40 in contact with the leg;
A leg band outer surface part 60 constituting the leg band;
Ceramic, germanium, and earth (Rare Earth) on one side of the leg band body including the inner or outer surface of the leg band consisting of the leg band coupling member 80 to which the cut leg body 20 is coupled and dismantled At least one or two groups of minerals 140 or charcoal 140 selected from metal, loess, jade, barley stone, celadonite, and charcoal are bridged. The mineral or charcoal material, characterized in that the yarn is produced by spinning with a yarn 160 or coated with the mineral band 120 or charcoal 140 on the leg band body 20 on the fabric of the leg band Committed leg bands. The leg band yarn or fabric is prepared by mixing the mineral material 120 or charcoal 140 fine powder ore powder in an aqueous solution and then mixing the mixed solution aged for a predetermined time in a synthetic resin or the mineral material 120 or charcoal 140 A first step of mixing fine powder ore powder with an aqueous solution in a stirring tank to mature for a set time;
A second step of extracting the mixed liquid containing the mineral material 120 or the charcoal 140 fine powder ore powder of the stirring tank after the set time has elapsed;
A third step of mixing the extracted mineral material 120 or charcoal 140 fine powder-containing aging liquid with a thermoplastic synthetic resin at a predetermined ratio;
The fourth step of forming the yarn by spinning the mixture into a spinning machine; in the third step, 60 to 90 wt of the thermoplastic synthetic resin is mixed with the remaining amount of the minerals 120 or charcoal 140 containing a mature powder; Alternatively, the mineral or charcoal 140 particles having a size of 100 nanometers or less in natural fiber material or chemical fiber material are converted into viscose rayon, polyester, polyethylene, polypropylene ( Manufactured by spinning fiber (yarn) from fiber materials of one or two or more selected from polypropylene, cotton, nylon, nylon and pulp Mineral or charcoal material is characterized in that
Leg band. Ceramic, germanium, rare earth metal, loess, jade, barley stone, celadonite Mineral 120 or charcoal 140, including the weave 160 or coated 180 on the body 20 to the leg band;
Alternatively, the mineral material 120 or charcoal 140 is added to a predetermined stirring tank as a dissolving material of fine powder, mixed with a stirring liquid, and then, the material fibers of the leg band are added thereto to be stirred or immersed and dried. Leg band in which the mineral or charcoal material is added to complete. The material of the leg band is made of synthetic resin, and the mineral material 120 or charcoal 140 is put in a predetermined amount therein and stirred and then spun into a leg band yarn or
Put the mineral material 120 or charcoal 140 into the fine powder solvent material into a stirring tank of a predetermined size and stir it well by adding a stirring solution to it and then weave the leg band.
Input the raw material fiber yarn and put it in a container in which the stirring liquid and the mineral material 120 or the charcoal 140 fine powder are mixed and immersed and finished by dehydration and drying it, or the mineral material 120 that penetrates into the yarn or Charcoal 140, the leg band is a mineral or charcoal material is characterized in that the mineral 120 or charcoal (140) fine powder solution is spray-coated to the leg band to prevent stripping of the fine powder. The method of claim 4,
Melt the synthetic resin, which is the material of the leg band, and inject and stir the mineral material 120 or charcoal 140 powder therein, and extrude, extract, or radiate the leg band yarn containing the mineral material 120 or charcoal 140. Finishing or weaving the yarn containing the mineral 120 or charcoal 140 to weave in the form of a leg band or finished or a certain amount of material of the mineral 120 or charcoal 140 on the inner or outer side of the leg band A leg band in which mineral or charcoal material is introduced, wherein the pad is glued or sewn to one side of the inner or outer side of the leg band.

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