JPH0716301A - Skin pad for health - Google Patents

Abstract

PURPOSE:To provide a skin pad for health which yields excellent effect by using stimulating particles with the whole part or a surface layer part composed of aluminum. CONSTITUTION:In this skin pad for health, one or two or more of solid stimulating particles 4 are mounted on a human body skin 7 by a mounting means (adhesive sheet as illustrated) 8. The whole of the solid stimulating particles 4 is made up of an aluminum molded body or a surface layer part of the solid stimulating particles 4 is composed of aluminum. A protrusion 3 may be provided on the side where the solid stimulating particles 4 contact the skin surface of the human body.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a skin contact patch for health for stimulating and promoting blood circulation and treating stiff shoulders, low back pain, muscle pain, headache, neuralgia and the like.

[0002]

2. Description of the Related Art Conventionally, a health-care skin contact device used to treat stiff shoulders, low back pain, etc., uses aluminum as stimulating particles, and a commercially available aluminum foil is rolled and applied to the skin using an adhesive tape. The method of attachment is described in publicly known literature (Mitsuo Yatsu, "Professor Yatsu's Aluminum Therapy";
Makino Publishing p. 148). As stimulating particles made of materials other than aluminum, various types that use magnetic particles are commercially available. In addition, those that use germanium semiconductor particles (Japanese Patent Publication No. 61-38706) and those that use a magnet and germanium together (actually developed) 61-182753), the surface of a metal molded body is covered with germanium (Shokai 62-338).
48), and also those using plastic.

[0003]

A skin contact fitting using aluminum is disclosed in the above-mentioned publicly known document, in which aluminum foil is rolled and attached to the skin. It is said that sticking to the acupoint on the back of the hand can cure various discomforts such as back pain, knee pain, and stiff shoulder. Among the reasons why aluminum has such a therapeutic effect,
(1) The high heat retention of aluminum promotes blood circulation, (2) The high ionization tendency of aluminum regulates the biocurrent and stabilizes the balance of autonomic nerves.
Etc. are listed. In addition, it has been proved using thermographic data that a treatment method in which aluminum foil is adhered to the skin to cover it raises the skin temperature due to the heat retaining effect of aluminum and actually has an effect of promoting blood circulation ( Mitsuo Yatsu, "Professor Yatsu's Aluminum Therapy"; Makino Publishing, p. 15-22). Conventionally used ferrite magnets, germanium, plastics, silicon, etc.
It does not retain heat as well as aluminum, and its ionization tendency is small, so it has a small effect of adjusting the biocurrent. Therefore, when aluminum is directly applied to the skin, it can be expected to have an excellent therapeutic effect which these materials do not have.

However, in the skin contact fitting disclosed in the above-mentioned publicly known documents, commercially available aluminum foil is simply rolled up and used, and although it has an advantage that it can be easily carried out in a normal home, it is not easy to make particles. It is limited to simple shapes that can be done by work, such as spheres and flat plate shapes. Therefore, it is difficult to form a protrusion for eliciting a stimulating effect, and a sufficient therapeutic effect cannot be expected. Further, even if it is attempted to make this projection by deforming the aluminum foil, it is difficult to make a projection having a constant shape and size. Further, FIG. 1B is an enlarged view in the broken line frame in FIG.
In this way, sharp folds or cuts of aluminum foil are easily formed on the surface of the stimulating particles, which may damage the skin. Further, it takes time and labor to create such a complicated shape each time it is used. Further, since the particles are made of weak aluminum foil, they are easily broken and have poor durability. For example, even if you replace the adhesive tape with a new one and try to reuse the aluminum particles, when peeling the particles from the tape, part of the aluminum foil that constitutes the particles is bitten by the adhesive force of the tape. For,
There are cases where it cannot be reused. On the other hand, when the aluminum particles are in intimate contact with the skin as much as possible, a weak current is uniformly generated by the ionization of aluminum and the flow of the current is smooth, so that the biocurrent-regulating action is increased. Therefore, it is desirable that the contact surface of the granules with the skin be as flat as possible, excluding the protrusions, but the surface of the granules with rolled aluminum foil has many irregularities due to bending of the foil, etc. Therefore, there is a drawback in that the bioelectric current regulating action of aluminum is not sufficiently drawn out.

Further, in the case of a skin contact fitting using an aluminum foil, the constituent material of the stimulating particles is limited to aluminum, and, of course, no effect other than the effect based on aluminum can be expected.

On the other hand, magnetic particles have the effect of promoting blood circulation, and are widely used as a skin contact fitting for stiff shoulders, back pain and the like. However, since the conventional magnetic particles are used by directly applying a magnet processed into a predetermined shape to the skin, the magnetic particles have only been able to obtain a blood circulation enhancing action by magnetism. Also, those whose surface is coated with nickel or gold are commercially available, but these coatings only serve as protection and decoration of the surface of the magnet body, and have no function of promoting the therapeutic effect.

[0007] Germanium particles have the effect of normalizing the self-sustaining nervous system and activating muscles to enhance muscular strength by sticking them to acupuncture points and the like, but germanium is difficult to process and has a predetermined shape. When processed into granules, the yield is low and the material itself is very expensive.
The type that uses both germanium and a magnet also has the same drawbacks because germanium is used. In the case where the metal molded body is coated with germanium, if the desired shape can be easily processed with another metal material, the above-mentioned defects of the germanium particles can be improved, but the germanium layer is fragile and peels off. It has the drawback of being easy.

With plastic, various shapes can be processed very easily and the material is inexpensive,
Unlike magnetic materials, dielectric materials, and germanium, plastic itself does not have a blood circulation promoting action, so a large therapeutic effect cannot be expected except for the stimulating action caused by press-fitting the corners and protrusions of the molded body into the skin.

[0009] The present invention shows that by effectively drawing out the high heat-retaining property and the bioelectric current regulating action of aluminum, and by combining aluminum with other materials, a more excellent therapeutic effect can be achieved. The purpose is to provide fittings.

[0010]

In order to solve the above problems, the health-care skin contact device of the present invention has one or more solid stimulating particles and the solid stimulating particles attached to the human skin surface. The solid stimulating particles are formed of aluminum, and the solid stimulating particles have one or more protrusions on the side in contact with human skin. .

As the solid stimulating particles used in the present invention, a simple metal of aluminum can be used, but copper, magnesium, zinc, silicon, etc. are used for the purpose of improving the rigidity and abrasion resistance of the stimulating particles and preventing corrosion. Other elements can be added in an appropriate composition range.

Next, the solid stimulating particles used in the present invention are formed of aluminum so as to withstand long-term and repeated use, and one or more protrusions are provided on the surface which comes into contact with human skin. , Allows moderate irritation to the human body through the skin. The molded body referred to here is a plate of aluminum or aluminum alloy, a rod,
An integral component made by punching, pressing, cutting, cutting, polishing, etc., from a bulk body such as a billet, or by a casting method, depending on the external force generated when it is attached to or detached from the skin surface. , Having mechanical strength that does not easily deform. By making solid stimulating particles such a molded body, wearing,
Deformation and damage due to detachment can be prevented, enabling repeated use. Further, since such a molded body is manufactured by pressing, punching, or casting, it is possible to efficiently obtain solid stimulating particles having a constant shape, that is, a constant therapeutic effect. Further, it becomes easy to manufacture a complicated shape having protrusions.

Further, by smoothing the contact surface with the skin excluding the protrusions, there is no risk of damaging the skin, the contact efficiency between the skin and the surface of the stimulating particles is improved, and the effect of controlling the biocurrent by aluminum is enhanced. .

The shape of the molded body is, for example, as shown in FIG.
As shown in (c), it is possible to use a disk-shaped, rectangular plate-shaped, or elliptical plate-shaped flat surface having protrusions.
Besides, various shapes such as a truncated cone and a truncated pyramid can be used. Also, instead of providing a protrusion on the flat surface, as shown in FIG.
As in the case of using the hemispherical or conical stimulating particles shown in (d) and (e), the entire contact surface with the skin can be made to be a protrusion. As for the size of the stimulating particles, the size of the stimulating particles is 1-7 mm at the maximum, and the thickness is 0.5-5 mm at the maximum.
Use properly depending on the application site and treatment purpose. The inside of the stimulating particles may be filled or may be hollow as shown in FIG. 3 (a). When the inside is hollow Figure 3
As in (b), it is also possible to remove the wall portion on the side that does not come into contact with the skin to form an open body. This facilitates the production of stimulating particles by, for example, sheet metal pressing. In the case of a hollow body, it is desirable that the average value of the wall thickness is 0.05 mm or more. When the thickness is less than this range, the mechanical durability of the stimulating particles is lowered and it becomes impossible to endure long-term or repeated use.

The number of protrusions provided on the stimulating particles may be one as shown in FIG. 2A, but by providing a plurality of protrusions as shown in FIGS. 2B and 2C, a more uniform and efficient stimulation effect can be obtained. Can be obtained. As the shape of the protrusion, various shapes other than the shape shown in FIG. 2 can be used. For example, a mountain range shape as shown in FIGS. 4A and 4B can be applied to various patterns. it can. In this case, the vertical cross-sectional shape of the mountain range is, for example, a semicircle, a triangle, or a quadrangle. It is also possible to apply projections of various shapes in combination. The size of the protrusion is not limited, but when the stimulating particles are attached to the skin, the depth at which the protrusion is press-fitted from the skin surface is preferably 0.1 mm or more and 3 mm or less (claim 2). If the press-fitting depth is less than 0.1 mm, a sufficient stimulating effect cannot be obtained, and if it exceeds 3 mm, it causes pain.

On the other hand, it is desirable that the surface of the stimulating particles and the skin are substantially in close contact with each other. Specifically, it is desirable that the contact surface of the stimulating particles with the skin be smooth without undulations or irregularities except for the protrusions. Further, when the entire contact surface with the skin forms a protrusion as shown in FIGS. 2D and 2E, it is desirable that the protrusion surface is smooth. In this way, the adhesion between the surface of the stimulating particles and the skin is improved, so a weak current is uniformly generated by the ionization of aluminum, and the current flow is smooth, so that the bioelectric current regulation effect can be increased. it can.

As a method for producing such stimulus particles, punching and pressing from an aluminum plate or an aluminum alloy plate, an aluminum lump,
It can also be manufactured by cutting out from a rod, a billet or the like and cutting, or by a general casting method or die casting method. Of these, punching and pressing are advantageous in that even stimulating particles having relatively complicated protrusions can be rapidly and inexpensively produced and are suitable for mass production.

On the other hand, even if the stimulating particles are not entirely composed of aluminum, if at least the part where the stimulating particles are in direct contact with human skin is composed of aluminum, the heat retaining effect or bioelectric current adjusting effect of aluminum can be obtained. You can Furthermore, a more excellent effect can be obtained due to the synergistic effect with the base material. In this case, the whole or part of the surface layer of the stimulating particles is made of aluminum. The surface layer portion here means a region including the surface of the stimulating particles and having a thickness of at least 0.01 μm or more from the surface toward the inside of the stimulating particles. When the thickness of this layer made of aluminum or an aluminum alloy is 0.01 μm or less, the effect of aluminum is not sufficiently exhibited, and peeling of the layer causes a problem in durability.

In this case, as a material (hereinafter referred to as a base material) constituting the portion excluding the surface layer portion of the stimulating particles, metal, glass, plastic, permanent magnet, ceramics or the like can be used. Among these, in particular, when a permanent magnet is used, it is possible to obtain a synergistic effect by magnetism, and when a ceramic is used, it is possible to obtain a synergistic effect such as blood circulation promotion by a far infrared ray radiation action.

The permanent magnet materials used include ferrite magnets such as barium / ferrite and strontium / ferrite, neodymium / iron / boron magnets, samarium /
Examples thereof include cobalt magnets, rare earth magnets such as samarium / iron / nitrogen magnets, alnico magnets, and manganese / aluminum magnets. Of these, ferrite magnets are particularly suitable as a material forming the skin contact fitting according to the present invention because they have a relatively high magnetic force and are chemically stable. Further, since the rare earth magnet has a magnetic force several times that of the ferrite magnet, it is possible to obtain a particularly large magnetic effect.
In both ferrite magnets and rare earth magnets, a larger magnetic effect can be obtained by orienting the easy magnetization direction of the crystal in a direction perpendicular to the surface where the stimulating particles come into contact with the skin to form a so-called anisotropic magnet. .

When a ceramic material is used, Al ₂
O ₃ , MgO, SiO ₂ , TiO ₂ , ZrO ₂ , LiO
₂ , Fe ₂ O ₃ , MnO ₂ , SnO ₂ , Sb ₂ O ₅ , B
eO, Y ₂ O ₃ , CuO, CoO, NiO, Si ₃ N,
A simple substance such as SiC or a mixture thereof can be used.

In addition, when a metal material is used, titanium, iron, cobalt, nickel, copper, molybdenum, vanadium, tin, chromium, silver and alloys thereof can be used. When a glass material is used, ordinary soda glass or quartz glass can be used. When using plastic materials, use various types such as polyethylene resin, polyvinyl chloride resin, polystyrene resin, polycarbonate resin, vinyl acetate resin, acrylic resin, polyethylene terephthalate resin, melamine resin, urea resin, and phenol resin. You can

Further, the base material may be a composite or mixture of the above-mentioned various materials. For example, a portion other than the surface layer portion may be multi-layered and each layer may be composed of a different material.

In order to produce such stimulating particles in which only the surface layer portion is made of aluminum, a molded body of the above-mentioned various materials is prepared and an aluminum or aluminum alloy layer is formed on the surface thereof by various vapor phase methods, for example, Evaporation method (vacuum evaporation,
Ion plating, cluster ion beam, ion beam vapor deposition, etc.), sputtering method (DC sputtering method, high frequency sputtering method, magnetron sputtering method, sputtering gun), spraying method and the like can be used. When the aluminum layer is formed by the vapor phase method, the thickness of the layer to be formed is preferably 0.01 μm or more and 100 μm or less. When the thickness is less than 0.01 μm, the effect of aluminum is not sufficiently exerted, and peeling of layers causes problems in durability. If it exceeds 100 μm, the productivity becomes poor.

FIG. 5A shows an embodiment in which an aluminum layer 6 is applied to a base 5 made of ceramics, plastic, permanent magnet or the like.

Even if the aluminum layer is formed on the entire surface of the base material as shown in FIGS. 5 (a) and 5 (b),
It may be partially formed as shown in FIGS. However, when it is formed on a part, at least a part of the formed aluminum layer needs to be in direct contact with human skin. Specifically, FIG.
As shown in (a), an aluminum layer may be formed on the entire surface of the stimulating particles that comes into contact with human skin, or as shown in (c)-(d), the aluminum layer may have a half-moon shape or a stripe shape. It can also be applied in spots. When the base material does not have good adhesion to aluminum, the surface of the base material is roughened by a mechanical treatment such as shot blasting to enhance the anchor effect or chemically activated,
Adhesion can be increased. When ceramics, ferrite magnets, plastics, etc. are used as the base material, a metal having good adhesion to aluminum, such as copper or nickel, is previously formed on the surface of the base material by a method such as electroless plating. Forming the aluminum layer from above is also effective in increasing the adhesion of the aluminum layer to the base. On the other hand, when the base is made of a material having a relatively high ductility such as copper, an aluminum plate and a material plate forming the base are preliminarily compounded to form a clad plate, and a predetermined shape is punched or cut from the plate, Further, press working or the like can be performed to produce stimulating particles having a desired shape. In this case, since at least the side that comes into contact with the skin has to be made of aluminum in the finally obtained stimulating particles, the clad plate used as a starting material may have an aluminum layer only on one side. Good.

Even when only the surface layer of the stimulating particles is made of aluminum, one or more protrusions are provided on the surface which comes into contact with the human body skin in the same manner as when the entire stimulating particles are made of aluminum, thereby providing a stimulating effect. Can be increased. The preferred size and shape of the protrusion and the depth of press fit from the skin surface are
This is the same as when the entire stimulating particles are made of aluminum. FIG. 5B shows an example in which the aluminum layer 6 is formed on the base 5 having the protrusions 3.

By combining the stimulating particles having the above characteristics with the means for mounting on the skin surface, various types of skin contact fittings can be constructed. The most common mounting means uses an adhesive sheet. One or more stimulating particles are placed on the adhesive surface of the adhesive sheet, and the stimulating particles are applied to the skin surface by utilizing the adhesive force of the sheet. The area and adhesive strength of the sheet are adjusted according to the size of the stimulating particles, and when the stimulating particles have a protrusion, the protrusion is pressed into the skin to the above-mentioned preferable depth. FIG. 7 shows an example in which the adhesive sheet 8 is used to attach the human body skin 7. In addition, stimulating particles can be placed on the surface of a cloth, resin, or leather belt, and the stimulating particles can be attached to the skin by wrapping the stimulating particles around the arm, leg, or waist.

[0029]

As described above, the health skin contact device of the present invention uses the molded aluminum body as the solid stimulating particles,
Aluminum has an excellent therapeutic effect due to the heat retaining effect and bioelectric current regulating action, and the stimulating particles have sufficient strength to withstand long-term or repeated use. Further, the stimulating effect can be enhanced by providing a protrusion on the contact surface of the stimulating particles with the skin. Furthermore, by smoothing the contact surface of the stimulating particles with the skin except for the protrusions, a weak current is uniformly generated due to the ionization of aluminum, and the current flow is also smooth, so the biological current regulation effect is increased. .

On the other hand, by using another material such as a permanent magnet or ceramics as a base, and using solid stimulating grains on which aluminum or an aluminum layer is formed, the effect of aluminum and the effect of the base material are synergized. be able to.

[0031]

EXAMPLES Examples according to the present invention will be described below.

Example 1 Stimulating particles (diameter 3.5 mm, height 2 mm, protrusion height 0.5 mm) having the shape shown in FIG. 7 (a) were produced by punching from an aluminum plate having a purity of 99.9%. ,Also,
A molded body made of polypropylene resin and having the same shape and having an aluminum layer (film thickness 5 μm) formed by vacuum vapor deposition was also manufactured. These stimulating particles were applied to the test subject using a commercially available adhesive plaster at the following 20 attachment sites, and 2
The lactic acid level in blood after 0 minute was measured. Further, for comparison, a polypropylene resin molded body without vapor deposition of aluminum, germanium stimulating grains having a shape shown in FIG. 7B (diameter 3.5 mm, height 2.5 mm, cone portion height 1.0 m)
m), and a disc-shaped aluminum foil with a thickness of 0.02 mm and a 2 cm square that was rolled and crushed by hand (diameter about 3.5 mm, height 1.5 mm) to the same site for the same number of subjects. After sticking for 30 minutes, the lactic acid levels in blood were compared. The results are shown in Table 1 together with the blood lactate level of the subjects before application.

Number of subjects-10 for each (40 in total) Site of attachment-1 left and right for each radial muscle (2 in total) 1 for left and right for the clavicle muscle (2 for total) 3 left and right for the 7th cervical vertebra (6 places in total) 1 each in left and right shoulder blades (2 in total) 4 in left and right peripheral parts from 3rd thoracic vertebra to 8th thoracic vertebra (8 in total) 20 in total

[Table 1]

Lactic acid is a waste product generated when the body is tired, and the lactic acid level in blood serves as an index of stiffness, pain and tiredness. The standard value of lactic acid level in blood is 4-16 mg / dl, but all of the subjects in this example have high lactic acid levels, which are full of the standard value, stiff shoulders, low back pain, fatigue, headache,
He complained of various discomforts such as malaise. Although the lactic acid level decreased after each stimulant particle was applied, the skin patch of other materials was better when the skin patch of the present invention (Examples A and B) was used. When using (Comparative Examples C, D,
It can be seen that the lactic acid level in the blood is much lower than that in E), and that it is more effective in improving the symptoms. Further, even if the same aluminum is used, the effect obtained by using the molded body having the projections as in the present invention is more effective than the case where only the aluminum foil is rolled.

Example 2 By punching an aluminum plate (purity 99.9%), the shape shown in FIG. 8 (diameter 3.5 mm, height 2 mm,
Stimulus particles having a protrusion height of 0.40 mm) were prepared. In addition, by applying electrolytic nickel plating on the surface of a ferrite magnet body (isotropic, residual magnetic flux density 0.8 kG) having the same shape, an aluminum layer is formed with a film thickness of 5 μm by a vacuum deposition method, The stimulus particles of For comparison, stimulus particles were also prepared by applying only nickel plating to a ferrite magnet. Using a commercially available bandage, this was applied to the test subject at the following 20 attachment sites.
The lactate level in blood after the minute was measured. The results are shown in Table 2 together with the blood lactate level of the subjects before application.

Number of subjects-10 for each (30 in total) Site of attachment-1 left and right for each radial muscle (2 in total) 1 for left and right for the clavicle muscle (2 in total) 3 for left and right for 7th cervical vertebrae (6 places in total) 1 each in left and right shoulder blades (2 in total) 4 in left and right peripheral parts from 3rd thoracic vertebra to 8th thoracic vertebra (8 in total) 20 in total

[Table 2]

It can be seen that the one in which the ferrite magnet surface is coated with aluminum is most effective.

Example 3 An aluminum-5% copper alloy layer (film thickness 7 μm) was formed on the surface of an alumina molded body having a shape shown in FIG. 8 (diameter 3.5 mm, height 2 mm, protrusion height 0.4 mm) by a high frequency sputtering method. After being formed, it was applied to 150 subjects who complained of various discomfort using a commercially available bandage, and the improvement results of these discomfort were investigated. The results are shown in Table 3.

[Table 3]

It was confirmed that 96% of all the subjects were effective.

[0040]

EFFECTS OF THE INVENTION The health-care skin contact device of the present invention uses a molded body of aluminum as solid stimulating particles, and has an excellent therapeutic effect due to the heat retaining effect and the bioelectric current regulating effect of aluminum, and The stimulating particles have sufficient strength to withstand long-term or repeated use. Further, by providing a protrusion on the surface of the stimulating particles that comes into contact with the skin, the stimulating effect is enhanced and a more excellent therapeutic effect is exhibited. Furthermore, by smoothing the surface of the stimulating particles that is in contact with the skin, except for the protrusions, a weak current is uniformly generated due to the ionization of aluminum, and the current flow is also smooth, so the biological current regulation effect is increased. , A better therapeutic effect can be obtained. In addition, solid stimulating particles with other materials such as permanent magnets and ceramics as a base, on which aluminum or an aluminum layer is formed, exhibit excellent therapeutic effects due to the synergistic effect of the effect of aluminum and the effect of the base material. To do.

[Brief description of drawings]

FIG. 1 is a diagram of a stimulating grain made by rolling an aluminum foil and a partially enlarged view.

FIG. 2 is a diagram showing various shapes of stimulating particles of the present invention.

FIG. 3 is a view showing a stimulating particle having a hollow inside according to the present invention.

FIG. 4 is a diagram showing stimulus particles of the present invention.

FIG. 5 is a diagram showing stimulus particles in which an aluminum layer is formed on a base material other than aluminum.

FIG. 6 is a diagram showing a form of an aluminum layer formed on a base.

FIG. 7 is a diagram showing an embodiment of the present invention using an adhesive sheet.

FIG. 8 is a diagram showing the shape of stimulating particles used in the examples of the present invention.

FIG. 9 is a diagram showing the shape of stimulating particles used in the examples of the present invention.

[Explanation of symbols]

 1 ... Bent part of aluminum foil 2 ... Cut part of aluminum foil 3 ... Protrusion part 4 ... Stimulus grain main body 5 ... Base material 6 ... Aluminum layer 7 ... Human skin 8 ... Adhesive sheets

Front page continued (72) Inventor Naruko Tomio 203 Aoki, Gomei-cho, Konan-shi, Aichi Prefecture (72) Inventor Hiroo Shirai 117 Omachi, Kishiwada-shi, Osaka Rexgarden Kishiwada 912

Claims (10)

[Claims] 1. A solid stimulating particle comprising one or more solid stimulating particles and a mounting means for mounting the solid stimulating particle on a human skin surface, wherein the solid stimulating particle is a molded body of aluminum, and A skin-contacting device for health, comprising one or more protrusions on the side where the solid stimulating particles come into contact with human skin. 2. The contact surface of the solid stimulating particles with the skin is substantially smooth except for the protrusions.
The described skin contact patch for health. 3. The healthy skin patch according to claim 1, wherein the protrusions of the solid stimulating particles are press-fitted into human skin within a range of 0.1 mm or more and 3 mm or less from the skin surface. Fittings. 4. One or more solid stimulating particles and wearing means for attaching the solid stimulating particles to a human skin surface,
A part or the whole of the surface layer of the solid stimulating particles is made of aluminum, and at least a part of the layer made of aluminum is in direct contact with human skin. Ingredient 5. The rest of the solid stimulating particles excluding the surface layer portion is constituted by a permanent magnet.
The described skin contact patch for health. 6. The health skin contact device according to claim 5, wherein the permanent magnet is a ferrite magnet or a rare earth magnet. 7. The remaining portion of the solid stimulating particles excluding the surface layer portion is made of any one kind or two or more kinds selected from plastic, ceramics, metal, and glass. Skin patch fittings for health. 8. The health according to any one of claims 4 to 7, wherein the solid stimulating particles have one or more protrusions on the side in contact with human skin. Skin patch fittings. 9. The health-care skin contact device according to claim 8, wherein the protrusions of the solid stimulating particles are pressed into the human body skin within a range of 0.1 mm to 3 mm from the skin surface. . 10. The means for attaching the solid stimulating particles to the skin is an adhesive sheet, and one or more of the solid stimulating particles are arranged on the adhesive surface of the adhesive sheet. The skin contact patch for health according to any one of 1 to 9.