JP2006063505A - Stockings - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pair of stockings producing anion from knitting yarn itself, making blood circulation excellent with the action of the anion and helpful for health promotion such as immune strength improvement, tranquilizing, body function improvement, discharge of waste matter, improvement of respiratory organ function, and reduction of feeling of fatigue. <P>SOLUTION: The pair of stockings has knitting yarn mixed with ion powder formed by crushing multi-element minerals at least on a part. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to stockings (including stockings, pantyhose, socks, etc.), and more particularly, to stockings capable of promoting health by generating negative ions from knitting yarns.

Conventionally, various products that generate negative ions to promote health have been proposed (see Patent Document 1, Patent Document 2, and Patent Document 3).
This conventional product is a knife, a hairdresser's clip, and a textile product. In addition to this, products in which ion powder is kneaded into materials such as a hair dryer, a bed sheet for bedding, and a pillow have been proposed.

  However, conventionally, no ion powder is kneaded into knitting yarns of stockings.

  Conventionally, a stocking has been proposed in which blood is alkalized by negative static electricity generated by friction during wearing to promote blood circulation of the lower body (see Patent Document 4).

This conventional stocking is a knitting yarn made of polyvinyl chloride-based synthetic fiber that has the property of generating negative static electricity due to friction, and generates negative ions from the knitting yarn itself. It is different from what I did.
JP 2002-292163 A JP 2002-119777 A Utility Model Registration No. 3035190 Japanese Utility Model Publication No. 7-33914

  The present invention generates negative ions from the knitting yarn itself, improves blood circulation by the action of these negative ions, improves immunity, mental stability, improves body function, discharges waste products, improves respiratory function. The goal is to provide stockings that help improve health, such as reducing fatigue. In addition, it is an object to provide stockings with antifungal properties and antibacterial performance.

In order to solve the above problems, the stockings of the present invention (Claim 1)
At least a part of the yarn contains a knitting yarn kneaded with ion powder formed by pulverizing a multi-element mineral.

  The stockings according to claim 1, wherein the knitting yarn is a covering yarn obtained by winding a non-stretchable yarn around a stretchable core yarn, and ion powder is kneaded into the stretchable core yarn and / or the non-stretchable yarn. There is a rare aspect (claim 2).

  The stockings according to claim 1 or 2, wherein the knitting yarn is prepared by kneading an ion powder formed by pulverizing a multi-element mineral and a far-infrared radiation powder formed by pulverizing a far-infrared radiation material. (Claim 3). In the stockings according to claim 1, 2 or 3, the ion powder has a particle size of 2.0 microns or less (claim 4), or the stockings according to claim 3, There is an embodiment in which the particle size of the radiation powder is 2.0 microns or less (Claim 5). Moreover, in the stockings according to claim 1, 2 or 4, there is an aspect (claim 6) in which the blending amount of the ion powder is 0.05% to 3.00% by weight. Further, in the stockings according to claim 1, 2 or 4, there is an aspect (claim 7) in which the blending amount of the ion powder is 0.1% to 1.0% by weight. Further, in the stockings according to claim 3 or 5, the total amount of the ion powder and the far-infrared radiation powder is 0.06% to 3.00% by weight (invention). 8). Further, in the stockings according to claim 3 or 5, the total amount of the ion powder and the far-infrared radiation powder is 0.1% to 1.0% by weight (claim). 9). Further, in the stockings according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8 or 9, the knitting yarn kneads one or more metal powders of silver compound, copper compound or zinc compound. (Claim 10). Further, in an aspect (claim 11) in which the particle size of the metal powder is 2.0 microns or less, and in the stockings according to claim 10 or 11, the ion powder and the metal powder when the metal powder is kneaded. A mode in which the total blending amount or the total blending amount of the ionic powder, the far-infrared radiation powder and the metal powder is 0.006% to 3,000% by weight (claim 12), Item 10 or 11, wherein the total amount of ion powder and metal powder when the metal powder is kneaded, or the total amount of ion powder, far-infrared radiation powder and metal powder There is an aspect (Claim 13) that is 0.1% to 1.0% by weight.

  The stockings of the present invention include ordinary stockings, pantyhose having a welt part and a panty part, tights, and knee stockings.

In the stockings of the present invention, when worn on the body, the friction caused by the expansion and contraction of the knitting yarn itself, the friction between the knitting yarns, the friction between the knitting yarn and the skin or other clothing due to the movement or walking movement in daily life. Thus, negative ions can always be generated from the knitting yarn itself.
This negative ion can improve blood circulation, help improve health, improve immunity, mental stability, improve body function, discharge waste, improve respiratory function, reduce fatigue, etc. .

  Further, when far-infrared radiation powder is mixed with ion powder (Claim 3), blood circulation can be promoted by the thermal effect of far-infrared radiation powder in addition to blood circulation promotion effect by ion powder. . Further, when the particle size of the ion powder and the far-infrared radiation powder is 2.0 microns or less (claims 4 and 5), yarn breakage at the spinning stage can be prevented. Further, when the blending amount of the ionic powder or the blending amount of the ionic powder and the far-infrared radiation powder is 0.05% to 3.00% by weight ratio (Claims 6 and 8), The thread breakage can be prevented and the stable effect of the ion powder is likely to occur. Moreover, when the blending amount of the ionic powder or the blending amount of the ionic powder and the far-infrared radiation powder is 0.1% to 1.0% by weight (Claims 7 and 9), in addition to the above effects In addition, many powder grains do not collect in a part, the uniformity of the yarn physical properties can be maintained, and the stable effect of the ionic powder is likely to occur.

Further, when one or more metal powders of silver compound, copper compound or zinc compound are added to the knitting yarn (claim 10), mold, ringworm, etc. can be sterilized and sterilized. If the particle size of the metal powder is 2.0 microns or less (claim 11), yarn breakage at the yarn stage can be prevented and a stable effect of the metal powder tends to occur.
Further, when the blending amount of the ionic powder and the metal powder or the blending amount of the ionic powder, the far infrared radiation powder and the metal powder is 0.06% to 3.00% by weight (claim 12). In addition, yarn breakage at the spinning stage can be prevented and a stable effect of the ionic powder is likely to occur.
Further, when the blending amount of the ion powder and the metal powder or the blending amount of the ion powder, the far infrared radiation powder and the metal powder is 0.1% to 1.0% by weight (claim 13). In addition to the effects described above, many powder particles do not collect in a part, the uniformity of the yarn physical properties can be maintained, and a stable effect of the ionic powder is likely to occur.

Hereinafter, embodiments of the present invention will be described in detail with reference to examples shown in the drawings.
FIG. 1 is an explanatory view showing an example of a knitting yarn used for stockings of the present invention. FIG. 1 (a) shows a contracted state and FIG. 1 (b) shows an extended state.

  The stockings of the present invention are knitted with knitting yarn (hereinafter referred to as “ion knitting yarn”) kneaded with ion powder, and the knitted portion of the ionic knitting yarn is provided at least in part. is there.

  For example, in the case of pantyhose, one or several or all of the welt part of the waist part, the panty part of the hip part, the leg part of the leg part, and the toe part of the toe part should be knitted with ion knitting yarn. Can do.

  In stockings, depending on the type of knitting yarn used in the leg, a wooly type using false twisted yarn, a zock type using 100% covering yarn (single or double covering), covering yarn and straight Although it is called a knit type in which yarns are knit, the stockings of the present invention can be applied to any type.

  As ion knitting yarn, a covering yarn in which a non-stretchable yarn is wound once or double around a stretchable core yarn is used, and the stretchable core yarn and / or non-stretchable yarn constituting the covering yarn is used. I try to knead the ion powder.

As the covering yarn used as the ion knitting yarn, a false twisted yarn may be wound around a stretchable core yarn, and ion powder may be kneaded into the stretchable core yarn and / or false twisted yarn.
Further, the ion knitting yarn is not limited to the covering yarn, and a single yarn of false twisted yarn may be used and ion powder may be kneaded into the false twisted yarn.

  In the embodiment, as an ion knitting yarn, as shown in FIG. 1, a cover ring in which a non-stretchable yarn 2 such as nylon (polyamide) / polyester fiber is wound around a stretchable core yarn 1 (polyurethane elastic yarn). Yarn A is used, and ion powder is kneaded into nylon-6 which is non-stretchable yarn 2.

  In this case, ion powder is added to nylon-6 chips (granular), which is the raw material of nylon-6, and stirred sufficiently so that the powder particles are evenly and uniformly dispersed. Thereafter, a normal synthetic fiber spinning process is performed. (Heated, pressurized, extracted, stretched, etc.).

  A non-stretchable yarn 2 (nylon-6) containing ion powder produced as described above is wound around a stretchable core yarn 1 (polyurethane elastic yarn) to form a covering yarn A. Used to knitting stockings with an automatic weaving machine.

Although the particle diameter of the ion powder depends on the thickness of the yarn to be produced, it is preferably 2.0 microns or less and more preferably 1.5 microns or less if a stocking yarn is produced.
The yarn count used for stockings is 14T6, the count of one filament is 14/6, 2.333 dtex, and the old unit is 2.12 denier.
Nylon 2 denier has a diameter of about 16 microns (calculated value). Therefore, the particle size of the ion powder is desirably 2.0 microns or less.

The blending amount of the ion powder is desirably 0.05% to 3.00% by weight, and more desirably 0.1% to 1.0%.
When the blending amount is 3.00% or more, the powder particles are not uniformly dispersed and partly lumped (several to several tens of lumps), and yarn breakage may occur at the spinning stage. .
On the other hand, when the blending amount is 0.05% or less, the original effect of the ion powder is dilute and it is difficult to satisfy the assumed effect.

  Moreover, if the blending amount of the ionic powder is 0.1% to 1.0% by weight, many powder particles are not collected in a part, and the uniformity of the physical properties of the yarn can be maintained. Furthermore, the stable effect of ion powder is likely to occur.

In the examples, the ion powder was kneaded into the non-stretchable yarn 2 (nylon-6) of the covering yarn A, but the ion was added to the stretchable core yarn (polyurethane elastic yarn) of the covering yarn. Powder may be included.
In this case, the elastic core yarn of the covering yarn is thicker than the non-stretchable yarn, so that more ion powder can be kneaded, and it can be diverted as a knitting yarn for tights. Since the ion powder is difficult to directly touch the skin, there is an advantage that the touch feeling as stockings is not impaired.
As the non-stretchable yarn to be wound around the stretchable core yarn, either a kneaded ionic powder or a non-kneaded ionic powder may be used.

In the present invention, a multi-element mineral powder formed by pulverizing a multi-element mineral is used as the ion powder.
In addition, the far-infrared radiation powder formed by pulverizing the far-infrared radiation material may be mixed with the multi-element mineral powder as the ion powder and used.

Multi-element minerals are minerals that contain silicon as a major component and contain a large number of elements in a balanced manner, such as pearlite and pine sebite, and these minerals emit negative ions and electromagnetic waves (weak energy). It is known that when this is applied to the body, the water in the body is mineralized to activate the protein.
In this case, the multi-element mineral powder is preferably used by appropriately blending two or more kinds, but may be one kind.

  In addition, Table 1 shows components of nacre that are examples of multi-element minerals.

Table 1

Further, as far-infrared radiation materials, alumina (Al ₂ O ₃ ), titania (TiO ₂ ), ferrite (Fe ₂ O ₃ ), chromium oxide (Cr ₂ O ₃ ), silica (SiO ₂ ), yttria (Y ₂ ) O ₃ ), magnesia (MgO) and the like, and those obtained by pulverizing them into powders can be used alone or in combination.

Since the stockings 1 of this embodiment are knitted with a knitting yarn kneaded with ion powder, negative ions can always be generated from the knitting yarn.
The negative ions act on the blood, and the human body is slightly inclined to negative ions, so that the body is balanced, metabolism is activated, and the body is less likely to age and become healthy.
In addition, negative ions cause a cluster phenomenon in water (the ability to reduce the molecular group of water), improving blood circulation at the wearing site, improving immunity, mental stability, improving body function, and discharging waste products. Helps improve respiratory function and reduce fatigue.

＊測定値単位 ｍｇ／ｄＬ（女性の場合の基準値：３．７〜１６．３）
＊所見 被験者２及び被験者３において、血中乳酸値の上昇を抑制した。
被験者１において、血中乳酸値を減少させた。 In addition, electromagnetic waves (weak energy) are emitted from the multi-element mineral in the range of 5 to 10 mm around the periphery.
This electromagnetic wave has a wavelength of 4 to 14 μm and electrically changes the periphery of the atomic nucleus to bring the atom and its substance into an excited state (vibration). As a result, the polymerization of water clusters is cut and shortened. This reduces the volume of water, increases the specific gravity, and sufficiently attaches water (free water) to the extracellular membranes of animals and plants, enhances the penetration of water together with Ca ²⁺ and activates cell functions. There is an action to make it.
Hereinafter, in order to explain the effect of the present invention, a stocking (hereinafter referred to as the present invention) knitted with knitting yarn blended with 1.0% by weight of ionic powder having a particle size of 1.5 microns and ionic powder is blended. The result of having made the subject wear the commercial stockings (henceforth a commercial item) which is not done is shown. In the experiment, three subjects (female) were used. First, on the first day, the product of the present invention was worn, and on the next day, a commercial product was worn. The blood lactate level was measured. The subjects had the same work for two days. The measurement results and change values of the blood lactic acid levels are shown in Table 2.
Table 2

* Measurement unit: mg / dL (reference value for women: 3.7 to 16.3)
* Findings In subjects 2 and 3, an increase in blood lactic acid level was suppressed.
In subject 1, blood lactic acid level was decreased.

In addition, when far-infrared radiation powder is mixed with ion powder, far-infrared radiation is emitted from this far-infrared radiation powder, and the wearing part of the stockings can be warmed from the inside, thereby improving blood circulation. it can. The particle diameter of the far-infrared radiant powder is preferably 2.0 microns or less, as in the case of ion powder, although it depends on the thickness of the yarn to be produced. .5 microns or less is more desirable.
Moreover, when mixing a far-infrared radiation powdery substance with ion powder, the total compounding quantity of both is desirable 0.06%-3.00% by weight ratio, 0.1%-1.0% More desirable.
When the blending amount is 3.00% or more, the powder particles are not uniformly dispersed and partly lumped (several to several tens of lumps), and yarn breakage may occur at the spinning stage. .
If the ion powder content is 0.05% or less, the original effect of the ion powder is dilute and it is difficult to satisfy the assumed effect. Therefore, the ion powder content is 0.05% or more.
Further, the blending ratio of the ion powder and the far-infrared radiation powder is preferably 0.2 to 0.3 with respect to the ion powder 1.

In the ion knitting yarn, one or more metal powders of silver compound, copper compound or zinc compound can be kneaded. In this case, these metal compounds have antifungal properties and antibacterial performance that can sterilize, sterilize and control fungi, ringworm, etc., so that stockings can be worn in a sanitary and comfortable manner. The metal powder may be kneaded together with the ion powder, or may be kneaded together with the ion powder and the far infrared radiation powder.
The particle size of the metal powder depends on the thickness of the yarn to be produced, but if a yarn for stockings is produced, it is preferably 2.0 microns or less, more preferably 1.5 microns or less, as with ion powder. desirable.
When kneading ionic powder and metal powder, or kneading metal powder into ionic powder and far-infrared radiation powder, the total amount of these is 0.06% to 3.00% by weight. Is desirable, and 0.1% to 1.5% is more desirable.
When the blending amount is 3.00% or more, the powder particles are not uniformly dispersed and partly lumped (several to several tens of lumps), and yarn breakage may occur at the spinning stage. .
If the ion powder content is 0.05% or less, the original effect of the ion powder is dilute and it is difficult to satisfy the assumed effect. Therefore, the ion powder content is 0.05% or more.
Further, the blending ratio of the ion powder and the metal powder is preferably 0.3 or less, more preferably 0.1 or less with respect to the ion powder 1.
The mixing ratio of the ion powder, the far-infrared radiation powder, and the metal powder is far infrared radiation powder from 0.1 to 0,2 to the ion powder 1, and the metal powder is 0.3 or less, preferably 0. 1 or less is preferable.

It is explanatory drawing which shows the Example of the knitting yarn used for the stockings of this invention, (A) shows the state which shrunk | reduced, (B) has shown the state extended.

Explanation of symbols

1 Stretchable core yarn 2 Non-stretchable yarn A Covering yarn

Claims (13)

  Stockings characterized by containing knitting yarn kneaded with ion powder formed by pulverizing a multi-element mineral at least partially.   The knitting yarn is a covering yarn in which a non-stretchable yarn is wound around a stretchable core yarn, and ion powder is kneaded into the stretchable core yarn and / or the non-stretchable yarn. The stockings according to 1.   3. The stockings according to claim 1 or 2, wherein the knitting yarn is formed by kneading the ion powder and a far-infrared radiation powder formed by pulverizing a far-infrared radiation material.   Stockings according to claim 1, 2 or 3, wherein the ion powder has a particle size of 2.0 microns or less.   The stockings according to claim 3, wherein the far-infrared radiation powder has a particle size of 2.0 microns or less.   Stockings according to claim 1, 2 or 4, wherein the blending amount of the ion powder is 0.05% to 3.00% by weight.   The stockings according to claim 1, 2 or 4, wherein the blending amount of the ion powder is 0.1% to 1.0% by weight.   The stockings according to claim 3 or 5, wherein the total amount of the ion powder and the far-infrared radiation powder is 0.06% to 3.00% by weight.   The stockings according to claim 3 or 5, wherein the total amount of the ion powder and the far-infrared radiation powder is 0.1% to 1.0% by weight.   The said knitting yarn is formed by kneading one or more kinds of metal powders of silver compounds, copper compounds or zinc compounds, or 1 or 2 or 3 or 4 or 5 or 6 or 7 Or the stockings of 8 or 9.   The stockings according to claim 10, wherein the metal powder has a particle size of 2.0 microns or less.   The total blending amount of the ionic powder and the metal powder when the metal powder is kneaded, or the total blending amount of the ionic powder, the far-infrared radiation powder and the metal powder is from 0.06% to 0.06% by weight. The stockings according to claim 10 or 11, wherein the stockings are 3,000%.   The total amount of ion powder and metal powder when the metal powder is kneaded, or the total amount of ion powder, far-infrared radiation powder and metal powder is 0.1% by weight to The stockings according to claim 10 or 11, wherein the stockings are 1.0%.

Images