JPH11146917A - Sticking agent - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the effects such as recovery from fatigue, bruise or the like, their reduction, relieving a pain or the like by combining a metal having a positive potential, a metal having a negative potential, and a magnetic body mutually, arranging the combination of them on an adhesive layer such as plaster, and sticking it to a lesion as a sticking agent. SOLUTION: This sticking agent is formed by mixing and blending one kind of micro particle among Au, Pt or Ag which has a positive potential, at least one kind of micro particle among Ti, Zr, Al or carbides, oxides or nitrides of them, which has a negative potential, and a micro particle of ferrite or samarium cobalt as a magnetic body with an adhesive agent and developing and fixing the mixture on plaster in a condition in which they are mixed and arranged on a tapelike body. By sticking this sticking agent to a lesion and a part requiring it, the effect due to ions of metal powders and the blood circulative promotion action due to magnetism are multiplied and capillary blood vessels of the lesion is dilated to increase blood circulations so that the effects such as lasting recovery from muscular fatigue, reduction in fatigue, relieving a pain or the like and the prevention property and the recovery of functions of an organism are obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a patch comprising a mixture of a metal having a negative potential, a metal having a positive potential, and a magnetic substance.

[0002]

2. Description of the Related Art A patch is used which obtains effects such as recovery and reduction of fatigue and bruises and painfulness by applying Ti metal powder to a site such as fatigue and bruises such as muscle fatigue, shoulder stiffness and bruise. ing.

[0003]

According to such a conventional patch, the patch is applied to a site such as fatigue or bruise, and is affixed to a sports player or the like in advance at a desired location for prevention. There is a problem in that it cannot be used in such a way as to reduce pain, and it is not possible to obtain an effect such as painful pain for a long period even if it is applied to a site such as fatigue or bruise.

[0004]

SUMMARY OF THE INVENTION Accordingly, the present invention provides a combination of a metal having a positive potential, a metal having a negative potential, and a magnetic material, which is disposed on an adhesive layer of an adhesive such as a tape or a plaster and attached. It is to be applied to the affected area or desired location. Thereby, in addition to the function of the negative ions generated from the metal, it promotes the blood circulation promoting action by magnetism, and the synergistic effect of the two provides effects such as recovery and reduction of fatigue and bruise and painfulness.

[0005] Therefore, the composition of metals is Ti, Zr,
Al or one of these carbides, oxides or nitrides
One or more metals, and one of Au, Pt, Ag or an alloy thereof. The metal structure having such ion generation function enables effective ion generation, and the effect of negative ions and locally the generation of minute current allows the electrical stimulation given to the acupuncture points to be autonomous via neurons. It can be transmitted to nerves to increase the blood flow by expanding the biological functions that control sympathetic nerves and parasympathetic nerves, for example, capillaries, and promote the recovery of biological functions.

[0006] The human body accounts for 60-70% of body fluid (water).
In this body fluid, an electrolyte and a non-electrolyte are present in a dissolved state. There are positive ions and negative ions in the electrolyte, and these ions are present while maintaining a balance. However, the balance may be lost due to various diseases or diseases. It is said that the quality of the medical condition is different due to the imbalance in the blood.

[0007] It is said that the difference in the distribution of the ions surrounding the cells is closely related to the generation and excitation of nerve cells, and is said to greatly affect the recovery of the health of the whole body and the deterioration of the disease. Such positive ions and negative ions exist through the cell membrane, and the permeability function of the membrane differs depending on the magnitude of the positive and negative bipolar electric potentials.

[0008] Ions move organically throughout the body based on certain laws. Therefore, it is 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 levels, which is accompanied by an increase in positive ions, indicating that the ion balance in the body is upset. The first to propose such bioelectricity was Galvani in Italy, and 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 imbalance of these ions from the outside, and forms a kind of bipolar electrode from a metal on the anode side and a metal compound on the cathode side to generate negative ions. The mechanism of action is to adjust the ion balance by giving a local stimulus. As described above, the effect of the metal powder ions and the blood circulation promoting action by magnetism are synergized to expand the blood capillaries of the affected area to increase the blood flow, thereby recovering, reducing and soothing persistent muscle fatigue. And the like, and its preventive properties and functional recovery of the living body can be obtained.

[0010]

Embodiments of the present invention will be described below with reference to the drawings. The metal to be used is a powder, a granular material, a foil piece or a plate. For example, the powder is prepared by an atomizing method or a chemical method. The magnetic material is ferrite or samarium cobalt, which is also a powder, a granular material, a foil piece or a plate.

FIG. 1 is an enlarged explanatory view showing a state in which the fine particles are mixed and arranged on a tape-shaped body. One of fine particles of Au, Pt or Ag is mixed with Ti, Zr, Al or a carbide, oxide or nitride thereof. At least one kind of fine particles and ferrite or samarium cobalt fine particles as a magnetic substance are mixed and kneaded with an adhesive and adhered to a plaster. In this embodiment, Au of 300 mesh or less:
Ti oxide was set to 0.2: 1.

The two metals are not fine particles but may be particles or foil pieces. Au, Pt or Ag does not necessarily need to be a pure metal, but may be an alloy as long as it has a potential to function as a cathode. However, if the grade is too low, it will affect the body.
Desirably about 8 carats or more. FIG. 2 shows Ti, Zr,
Al or their carbides, oxides or nitrides and A
This is an example in which u, Pt or Ag is separately arranged.

FIG. 3 shows one of Au, Pt and Ag.
Seed fine particles and Ti, Zr, Al or their carbides,
After mixing and kneading at least one kind of fine particles of an oxide or a nitride with an adhesive and applying the mixture to a tape-like body, it is punched into a desired shape, in this embodiment, a circle having a diameter of 3 cm, and a diameter of 5 mm in the middle. A disk-shaped granular magnet having a thickness of 2 mm was closely adhered to obtain a patch. In the present embodiment, Pt: Ti oxide of 300 mesh or less = 0.2: 1.

FIG. 4 does not apply to the entire surface but, for example, punches a tape-shaped body into a desired shape, in this embodiment, a circle having a diameter of 3 cm, and surrounds one type of fine particles of Au, Pt or Ag around the periphery. And at least one kind of fine particles of Ti, Zr, Al or a carbide, oxide or nitride thereof are mixed and kneaded with an adhesive and applied, and a disk having a diameter of 5 mm and a thickness of 2 mm is provided in the middle. An adhesive patch was prepared by closely adhering a granular magnet.

FIG. 5 also shows an example of partial application,
fine particles of one of u, Pt or Ag and Ti, Z
This is an example in which at least one type of fine particles of r, Al, or a carbide, oxide or nitride thereof is mixed and kneaded with an adhesive and applied in a block pattern, and a disk-shaped granular magnet is formed in the middle. The patch was adhered to the patch. The shape of the magnet in FIGS. 3, 4 and 5 is not limited to a disk, but may be any shape such as a hemisphere, a cone, a truncated cone, or a polygonal cross section.

Each of the above patches may be used in the form of a tape and cut to a desired length.
As described above, a seal having a desired shape may be formed in advance, and the seal may be peeled off and adhered.

[0017]

According to the present invention described in detail above, a patch having a metal having a negative potential, a metal having a positive potential, and a magnetic substance coexisting to provide an effect due to negative ions. Electrical stimulation by local microcurrent generation is transmitted to autonomic nerves via neurons, and the biological functions of sympathetic and parasympathetic nerves, such as dilation of affected capillaries to improve blood circulation and increase blood flow It has the effect that the effects of recovery, alleviation and painfulness can be obtained at an early stage by the synergistic effect with the effect of promoting the recovery of the function of the living body.

Furthermore, even if it is applied to a site such as fatigue or bruise, it has the effect of maintaining its effect over a long period of time.
Affixing to a desired location in advance for prevention has the effect of reducing fatigue at that location.

[Brief description of the drawings]

FIG. 1 is an enlarged explanatory view showing a state in which respective metals and magnetic materials having a negative potential and a positive potential are mixed and arranged.

FIG. 2 is an explanatory diagram of a tape-like body in which a metal and a magnetic body having a negative potential and a positive potential are arranged.

FIG. 3 is an explanatory diagram of a patch using magnets as granules.

FIG. 4 is an explanatory view of a patch using magnets as granules.

FIG. 5 is an explanatory diagram of a patch using magnets as granules.

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

Claims (8)

[Claims] 1. An adhesive patch comprising a metal having a negative potential, a metal having a positive potential, and a magnetic substance. 2. The method according to claim 1, wherein the metal having a negative potential is at least one of Ti, Zr, Al or a carbide, oxide or nitride thereof, and the metal having a positive potential is Au, Pt, Ag. Or, a patch comprising at least one of these alloys. 3. The patch according to claim 1, wherein the magnetic substance is at least one of ferrite and samarium cobalt. 4. The patch according to claim 1, wherein the metal and the magnetic substance are particles. 5. A patch according to claim 1, wherein a metal having a negative potential, a metal having a positive potential, and a magnetic material are mixed with an adhesive and applied to a tape. 6. The adhesive patch according to claim 1, wherein a metal having a negative potential, a metal having a positive potential, and a magnetic material are separated and arranged on a tape. 7. The method according to claim 1, wherein a metal having a negative potential, a metal having a positive potential, and a magnetic material are mixed with an adhesive, applied to a tape-shaped body, and then removed into a desired shape of a seal. A patch characterized in that a granular magnetic substance is placed in close contact in the middle. 8. The tape according to claim 1, wherein a metal having a negative potential, a metal having a positive potential, and a magnetic material are mixed with an adhesive and applied to a predetermined portion of a tape-shaped material to form a desired shape of a seal. An adhesive patch comprising a magnetic material in the form of a punch, and a granular magnetic substance in close contact with the magnetic material.