JPH10295830A - Sticking body for biological ion adjustment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively recover stiff shoulders and muscle pains, etc., by amplifying and generating minus ions and performing sticking to the body by providing the sticking layer of a sticking material with a metal provided with a minus potential and the metal provided with a plus potential. SOLUTION: The respective metals provided with the plus potential and the minus potential to be used are a powder body, a particle body, a foil piece or plate, etc., and the powder body is formed by an atomization method or a chemical method for instance. The powder body is stuck to the sticking layer of a flexible or non-flexible tape, sticking band or seal in the various kinds of shapes to be used by being cut provided with air permeability by woven fabric made of natural fibers or synthetic fibers or a synthetic resin film or kneaded with the adhesive material and stuck to the sticking material and turned to this sticking body. Also, in the example of arranging the respective metals provided with the plus and minus potentials with an interval, they are electrically connected by perspiration or various moisture or the like without necessarily bringing both metals into contact.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adhesive body which promotes maintenance and activation of health by arranging metals having different potential differences and attaching them to a hole or a fatigued part of a living body.

[0002]

2. Description of the Related Art In recent years, titanium tapes that are directly applied to affected parts of the body have been sold mainly in the sports world. There is a technology of utility model registration No. 30211113 regarding this titanium tape. This technology is a health tape in which an active layer in which fine particles of titanium carbide are mixed with an adhesive is provided on at least one surface of a base material layer. It is said that it has a medical and clinical characteristic because it promotes blood circulation by electric and electromagnetic actions to reduce stiff shoulders and fatigue.

[0003]

However, according to such a conventional technique, there is a problem that only the effect of the conventional technique can be expected.

[0004]

SUMMARY OF THE INVENTION Accordingly, the present invention relates to a bonded body in which a metal having a negative potential and a metal having a positive potential are provided on a bonding layer of a bonding material. More specifically, Ti, Zr, Al or their respective oxides, nitrides,
Au, Pt, Ag with one or more metals of carbide
Alternatively, it is a bonded body in which one of these alloys is provided on an adhesive layer, and a metal configuration having an ion generating function enables effective ion generation, and provides an effect by negative ions and a local effect. Electrical current is transmitted to the autonomic nervous system via a neuron by the generation of a microcurrent, and the biological functions of the sympathetic and parasympathetic nerves, such as expanding the blood vessels in the affected area, increasing blood flow This can promote the recovery of the function of the living body.

[0005] This is because, based on the standard electrode potential, a combination of a metal having a negative potential such as the above-mentioned Ti or the like and a metal having a positive potential such as the above-described Au or the like promotes amplification of negative ions. It is. Standard electrode potentials of metals include metals having a positive potential and metals having a negative potential, and the electrochemical series of these metals is known as the galvanic series. As a metal having a low potential from a metal having a high potential, TiO _{2
^{/ TiO 2 2+ + 2.18V, Au}} / Au 1+ + 1.7V,
Au / Au ³⁺ + 1.498 V, Pt / Pt ²⁺ +1.2
V, Pd / Pd ²⁺ +0.987 V, Rh / Rh ³⁺ +0.
8 V, Ag / Ag ¹⁺ +0.799 V, Hg / Hg ¹⁺ +
^{_{0.789V, MoO 2 / MoO 2 2-}} + 0.66V, C
u / Cu ²⁺ +0.377 V, Ti ³⁺ / TiO ²⁺ +0.1
V, Fe / Fe ¹⁺ -0.036 V, WO ₃ /W-0.0
9V, Mo / Mo1 ⁺ -0.2V, Ni / Ni1 ⁺ -0.2
^{5V, Ga / Ga 1+ -0.45V,} TiO 2 / Ti-
0.85 V, W / WO ₄ ^2- -1.05 V, Zr / Zr ⁴⁺
-1.53V, Ti / Ti2 ⁺ -1.628V, Al / A
There is l1 ⁺ -1.662V.

[0006] Since this patch is in direct contact with the body, it is practically practical to exclude Au, Pt, Ag, Ti, Z from metals that show a strong sensitizing reaction or metals that are toxic to living organisms.
Metals such as r and Al and stainless steel are applicable. For the former element, oxides, nitrides, and carbides are also effective, and combinations of these metals are good.

As a typical metal having a positive potential,
By using one of Au, Pt, and Ag and combining with at least one of Ti, Zr, and Al or their respective oxides, nitrides, and carbides, which are representative metals having a negative potential, The generation of the amplification of the negative ions can be promoted. About 60 to 70% of the human body is in the body as a body fluid (water), and an electrolyte and a non-electrolyte are dissolved in the body fluid. There are positive ions and negative ions in the electrolyte, and these ions exist with a balance, but various diseases,
Diseases can upset this balance. It is said that if the balance in the blood is lost in either direction, the quality of the disease will be different.

[0008] It is said that the difference in the distribution of ions surrounding cells is closely related to nerve cells, and is said to greatly affect the recovery of the health of the whole body and the deterioration of diseases.
These positive ions and negative ions exist through the cell membrane, and the permeability of the membrane differs depending on the magnitude of the positive and negative bipolar electric potentials.
Ions move organically throughout the body based on certain laws, which are greatly affected by the intensity and distribution of ion electrons in the internal and external environments of the body.

In general, fatigue leads to an increase in lactic acid level, which is accompanied by an increase in positive ions, which indicates that the ion balance in the body is lost. Galvani in Italy was the first to talk about such bioelectricity,
The mechanism of action of electrical ions at the cellular level is said to be the natural function of living organisms. The present invention is intended to forcibly adjust the ion balance from the outside by externally applying a negative ion stimulus generated from Ti, Zr, Al or the like on the anode side to the local part by the above-described metal configuration. It depends on the mechanism of action to adjust ion balance. In particular, a kind of bipolar electrode is formed by the presence of a metal having a positive electrode, not by a single natural potential such as Ti, Zr or Al, and Ti,
The feature is that the generation of negative ions or electrons from the Zr or Al anode is remarkable.

[0010]

Embodiments of the present invention will be described below with reference to the drawings. Each metal having a positive potential and a negative potential to be used is a powder, a granule, a piece of foil or a plate, for example, the powder is prepared by an atomizing method or a chemical method, and the granule is converted into a natural fiber. Adhering to or sticking to a tape, sticking bond or sticking layer of various forms of stickers to be used after cutting or using elastic or non-stretch cuts made of synthetic fiber woven fabric or synthetic resin film to make it breathable The mixture was kneaded with the agent and attached to an adhesive material to obtain an adhesive body.

FIG. 1 is an explanatory view in the case of forming in a tape shape, wherein one kind of fine particles of Au, Pt or Ag and T
At least one kind of fine particles of i, Zr, Al, or their respective oxides, nitrides, and carbides was provided on the adhesive layer of the adhesive to such an extent that adhesiveness was not lost. In the drawing, fine particles of Au, Pt or Ag and fine particles of Ti, Zr or Al are arranged so as to divide the adhesive.

Although the fine particles are adhered to the adhesive layer, they may be mixed and kneaded with the adhesive during the formation of the adhesive layer as described above. Further, the two metals are not fine particles but may be foil pieces as described above, or may be band-like bodies. A above
u, Pt or Ag does not necessarily need to be a pure metal, and may be any potential as long as it functions as a cathode, and may be used as an alloy. However, if the grade is too low, it will affect the body, so it is desirable that the gold alloy should be about 18 carats or more.

FIG. 2 shows an example in which two or more layers of the above-mentioned metals having a positive potential and a negative potential are alternately arranged in two or more layers (three layers in the present embodiment). This is the case when it is formed. In this case, Ti, Zr,
Since the purpose is to amplify and generate negative ions of Al or their oxides, nitrides, and carbides, the center is made of Au, Pt, or Ag and their alloys, and both sides are made of Ti, Zr, Al, or , Oxides, nitrides, and carbides, Ti, Zr, and Al, or their respective oxides, nitrides, and carbides, generate amplified negative ions.

FIG. 3 shows an example in which the above-mentioned metals having a positive potential and a negative potential are arranged at an interval. Even if both metals are not in contact with each other, they are electrically connected by sweat or various kinds of moisture. Can be connected to both metals. FIG. 4 shows an example of a shape in which each of the above-described components is replaced with a seal instead of a tape. Next, in the above description, each metal having a positive potential and a negative potential are arranged independently, but as shown in FIG. 5, both metals may be mixed, and the mixed metal is the same as above. Although it was made to adhere to the adhesive layer, it may be mixed and kneaded with the adhesive material at the time of forming the adhesive layer as described above.

Although a seal material is shown in the drawing, a tape material may be used.

[0016]

According to the present invention described in detail above, by providing a metal having a negative potential and a metal having a positive potential on the adhesive material, negative ions are amplified and generated, and adhered to the body. By doing so, it is effective for recovery from stiff shoulders, muscle pain and the like.

[Brief description of the drawings]

FIG. 1 is an explanatory view of a tape on which respective metals having a positive potential and a negative potential are arranged.

FIG. 2 is an explanatory view of a tape in which two or more layers of each metal having a positive potential and a negative potential are arranged.

FIG. 3 is an explanatory diagram of a tape in which respective metals having a positive potential and a negative potential are arranged at intervals.

FIG. 4 is an explanatory view of a seal in which respective metals having a positive potential and a negative potential are arranged.

FIG. 5 is an explanatory diagram of a seal in which respective metals having a positive potential and a negative potential are mixed.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Keizo Okamoto 2-9-1, Kaji-cho, Chiyoda-ku, Tokyo Inside the Tokuriki Honten Co., Ltd. (72) Inventor Ryoji Doi 2--9 Kaji-cho, Chiyoda-ku, Tokyo No. 12 Inside the Tokuriki head office

Claims (14)

[Claims] 1. A bioion-adjusting patch, wherein a metal having a negative potential and a metal having a positive potential are provided on an adhesive layer of an adhesive material. 2. The method according to claim 1, wherein the metal having a negative potential is Ti, Zr, Al or an oxide thereof.
A bioion-adjusting patch comprising one of a nitride and a carbide. 3. The adhesive for bioion adjustment according to claim 1, wherein the metal having a positive potential is one of Au, Pt, Ag or an alloy thereof. 4. The method according to claim 1, wherein the metal having a negative potential is Ti, Zr, Al or an oxide thereof.
A bioion-adhesive patch comprising a mixture of two or more of nitrides and carbides. 5. The bioion adjusting adhesive according to claim 1, wherein the metal having a positive potential is a mixture of two or more of Au, Pt, Ag, and alloys thereof. body. 6. The patch for bioion adjustment according to claim 1, wherein a metal is mixed with the patch. 7. The bioion-adjusting adhesive body according to claim 1, wherein a metal is attached to the adhesive layer. 8. The adhesive for bioion adjustment according to claim 1, wherein the metal is fine particles. 9. The adhesive for bioion adjustment according to claim 1, wherein the metal is a foil piece. 10. The bioion-adjusting adhesive body according to claim 1, wherein the metal is a plate. 11. The bioion-adjusting adhesive body according to claim 1, wherein a metal having a negative potential and a metal having a positive potential are mixed and provided on the adhesive layer. 12. The bioion-adhesive patch according to claim 1, wherein a metal having a negative potential and a metal having a positive potential are separately provided on the adhesive layer. 13. The bioion-adjusting patch according to claim 1, wherein the patch is a tape. 14. The bioion-adjusting patch according to claim 1, wherein the patch is a seal.