KR20130026647A - Bioelectric currents activater - Google Patents

Abstract

PURPOSE: A bioelectric current activator is provided to improve the convenience of use and naturally activate the bioelectricity without special mechanism, control or power from the outside. CONSTITUTION: A bioelectric current activator comprises a patch(100) having an adhesive surface to adhere to the skin; a conductive metal board(200) attached to the central part of the adhesive surface patch; and several needles(210) which has several spires forming a joint and protrusion as part of a conductive metal board is machine-processed. The conductive metal board is one among a copper coil, a zinc plate and magnesium. A recess portion is formed at the opposite surface of a protruded needle in the conductive metal board. Hetero-metal is adjoined and fixed to have a different ionization tendency among a copper coil, a zinc plate and magnesium in the recess portion.

Description

Biocurrent activator {BIOELECTRIC CURRENTS ACTIVATER}

The present invention relates to a biocurrent activator, and more particularly, restores and activates bioenergy for diseases and various functional deterioration of each part of the human body through an activator having a needle shape that can be easily attached and detached to the skin. The present invention relates to a biocurrent activator that promotes metabolism and induces heat to increase self-healing ability.

As is well known, the human body, which is a part of nature, is affected by electricity, and the human body generates a biocurrent to circulate the whole body.

The bioelectricity that generates these biocurrents was discovered by galvani as electrical phenomena occurring in the living body, and it is known that electricity of + 55mV at the birth flows into the body, but falls below + 25mV at the age of biological elderly. .

Therefore, when an abnormality occurs in the body's biocurrent, a disease occurs, and this biocurrent has been applied in various ways in acupuncture in oriental medicine and new clinical treatment in modern science.

Bioelectrics, for example, are caused by oxidation-reduction reactions occurring inside the human body and are involved in almost all of the vital activities performed in the skin.

That is, metabolic activity to absorb nutrients and excrete waste products, synthesize life energy from absorbed nutrients, and transmit all sensory signals detected by the skin to the center and send commands from the body through nerve fibers. This is the activity of generating the neural energy required to deliver to each part, and these activities are initiated and performed at the skin cell level of the human body.

In particular, all cells in the body accept the nutrients transported by the blood, metabolize the nutrients by synthesizing or oxidizing the nutrients, and then discharging the remaining waste out of the body to release sodium ions (Na ⁺ ) in the cells. It is made by a sodium pump, a mechanism that sends it out of the cell. For example, Na ⁺ , K ⁺ -ATPase present in the cell membrane allows sodium ions to be taken out of the cell and potassium ions are taken out. It is in the form of maintaining.

In other words, the sodium pump uses energy generated when ATP (adenosine triphosphate) is decomposed into ADP (adenosine diphosphate) and phosphate in the process of sending sodium ions out of the cell and simultaneously introducing potassium ions into the cell. Because of its ability to decompose, it can be regarded as a kind of ATPase.

As such, the respiratory system, the circulatory system, the digestive system, the endocrine system, etc., which are moving to maintain life activities, are operated smoothly due to the tight control of the autonomic nervous system, and the autonomic nervous system can function properly. This may be due to the nerve conduction function by electricity.

Similarly, in the skin, if the excitatory function of the bioelectricity does not work, it cannot but function as the skin.

For example, when a body temperature higher than normal is detected on the skin surface, the central body commands the sweat from the glands to lower its body temperature, and the means of connecting the skin and the center and between the central and sweat glands is a bioelectricity. All information is communicated.

For this reason, many efforts have been made to utilize bioelectrics, and related technologies include a number of patented technologies, including Patent Registration No. 0877598, 'Bioelectric generation needles', and Registration Room No. 0227454, 'Herbal needles'.

However, they have not been able to deviate from the traditional saliva structure used in oriental medicine, so it is not simply a structure that can activate the bioelectricity only through skin irritation, and thus was not suitable for expanding the base of use.

In another example, Patent Publication 2004 describes an example of activating a bioelectric by delivering a drug to the skin surface by an active process such as iontophoresis, electrophoresis, electroosmosis, or electroporation. Patent Publication No. 0794778 has also been disclosed, such as in the form of a patch to activate the bioelectricity by inducing a thermal function, including a planar heating element.

However, the former has the disadvantage of using a drug, the latter is inconvenient in use in that it uses a planar heating element that generates heat when electricity is applied, and there is a need for improvement in terms of cost.

The present invention was created in view of the above-mentioned problems in the prior art as described above, the structure is simple, but in the form of a patch can be easily peeled off and attached to improve the convenience of use, a special mechanism or external operation or power supply The main purpose is to provide a biocurrent activator that can naturally activate the bioelectricity without modification, and can be transformed into various shapes to obtain a therapeutic effect with excellent processability and utility.

The present invention is a means for achieving the above object, a patch having an adhesive surface that can be attached to the skin; A conductive metal plate attached to the center of the adhesive surface of the patch; A part of the conductive metal plate is machined to form joints and protrusions, and provides a biocurrent activator comprising a plurality of needles having a plurality of spires.

In addition, the present invention provides a means for achieving the above object, bendable or foldable sheet; A conductive metal plate attached and fixed to one side of the sheet; It is also possible to provide a biocurrent activator, characterized in that consisting of a plurality of needles having a plurality of spires while a portion of the conductive metal plate is machined to form joints and projections.

At this time, the conductive metal plate is one of copper plate, zinc plate, magnesium, and the concave part is formed on the opposite side of the needle protruding from the conductive metal plate, the dissimilar metal is to have different ionization tendency among the copper plate, zinc plate, magnesium There is also a feature of the joint fixed.

Biocurrent activator according to the present invention has the advantage that the structure is simple and easy to be modified in various forms can be used regardless of the place and time without disturbing daily life.

In addition, the biocurrent activator according to the present invention can be used by attaching in the form of a patch on the skin as well as acupuncture points, so that the body's biocurrent activation is excellent, and also provides an effect of improving self-healing.

1 is an exemplary view of a biocurrent activator according to the present invention.
2 is a conceptual diagram illustrating a manufacturing example of a biocurrent activator according to the present invention.
3 is an exemplary cross-sectional view showing a modified structure of the biocurrent activator according to the present invention.
4 is an exemplary view showing a sheet-like modification of the biocurrent activator according to the present invention.
5 is an exemplary view showing a patch type modification of the biocurrent activator according to the present invention.
6 and 7 are exemplary views showing an example of use of the biocurrent activator according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the biocurrent activator according to the present invention basically has a patch form.

Common examples of patch forms include poultice or pars, commonly referred to as pads, but they are used as a kind of anti-inflammatory and analgesic agent containing a chemical solution.

The present invention can also be seen to include a similar concept when viewed in terms of sticking, but completely different from the traditional poultice and paste in that it includes a needle structure for generating a biocurrent.

That is, the biocurrent activator according to the present invention is a patch 100 having an adhesive surface 110, a conductive metal plate 200 and the conductive metal plate 200 provided in the center of the adhesive surface 110 of the patch 100. It consists of a plurality of needles 210 formed in.

In this case, the conductive metal plate 200 is most preferably a copper (Cu) plate, especially a thin plate made of copper, copper has a thermal conductivity of 1.95 times that of aluminum, copper is 1.72μΩ · ㎝ lowest copper because it is the lowest metal Due to the potential difference resulting from the difference between the ionization tendency and the ionization tendency that the human body has, it acts to induce the bioelectricity easily.

In addition, when the copper and aluminum are bonded and fixed, a strong biogenerator is easily induced by a potential difference generated therebetween, which will be described later as a dissimilar metal bonding form as another embodiment.

Here, ionization tendency is the tendency of atoms or molecules to become ions, and it is said that ionization tends to be easily oxidized with a large ionization tendency. When an element with a large ionization tendency encounters an ion of an element having a smaller ionization tendency, In other words, an element having a large ionization tendency is oxidized and an element which was an ion has a redox relationship.

Therefore, although copper has a lower ionization tendency than potassium, sodium, aluminum, magnesium, and the like, copper should be used as the conductive metal plate 200 as a substrate because of the above characteristics of thermal conductivity, electrical resistivity, and affinity with the human body.

In addition, the copper should be formed of the needle 210, so the copper plate must be elongated when processing the needle 210 should have an elongation of at least 40-50%, the needle 210 is made of a multi-pole needle protruding.

In this case, the multi-pole needle may be understood to mean a needle having a structure in which several needles are formed at the same time through molding.

In particular, the needle 210 may be formed into a quadrangular shape 210a by being jointed into four, may be formed into a triangular shape 210b by three pieces, and may be formed by a triangular shape 210b. It may be formed as, polygonal, such as pentagonal, hexagonal, etc. are all possible.

In this case, the ends of the needles 210 are configured to be locally contacted to easily generate a bioelectricity caused by a potential difference while stimulating the main parts of the human body, including acupuncture points or meridians, in contact with the skin while forming a spire do.

In addition, the needle 210 may be formed in the manner illustrated in FIG.

That is, when the conductive metal plate 200 made of copper having an elongation of 40 to 50% is pressed with a pointed punch 300, the pressed portion is stretched while being pushed downward and burst when reaching the limit of stretching. A needle 210 is formed, forming a joint, with a spire between the joints.

At this time, the punch 300 may have a variety of shapes, such as square pyramid, triangular pyramid, cone, polygonal pyramid, as illustrated in (a), (b), (c) of Figure 2, jointed according to the shape of the punch 300 As the shape changes, it is possible to implement a multipole needle having four spires, three spires, or a radial spire.

Here, although only the press working was described for the needle 210 processing by way of example, it is not limited to this, it is sufficient if the machining capable of forming the needle 210.

In addition, even in the arrangement of the needle 210, that is, the multi-pole needle may be arranged in various shapes with various numbers, such as triangle, square, circle, radial, straight, curved.

In addition, as illustrated in (d) of FIG. 2, when the end of the cone is blunted, the copper plate does not burst and can be processed into a shape having protrusions 210 'protruding convexly. It is advantageous to use for a long time without hurting the site.

As another example, the structure of the biocurrent activator of the present invention may be modified as shown in FIG.

For example, according to FIG. 3, the biocurrent activator further includes a dissimilar metal having a large difference in ionization tendency to further increase bioelectric generation efficiency, and has a needle 210 having a multipolar needle structure on the plate-shaped conductive metal plate 200. ) And press the part to form a recessed part 220 (refer to (a) of FIG. 5) to insert a part thereof, insert a dissimilar metal 230 into the recessed part 220, and fix and bond the patch 100. It can be made in the form of fixing to paste.

At this time, the conductive metal plate 200 is a copper plate, it is preferable to use a metal such as zinc or magnesium having a larger ionization tendency than copper (copper) as the dissimilar metal 230.

In addition, after bonding the copper plate and the aluminum plate to the front and back for a greater effect, as in the form of machining, it is possible to maximize the generation of bioelectricity by bonding a variety of conductive metal to the front and back.

In addition, the present invention describes a dual structure in which two conductive metal plates 200 are bonded to each other by using dissimilar metals 230. However, the present invention is not limited thereto. Of course, if the bioelectricity can be generated smoothly, further junction structure is also possible.

As another example, as shown in (b) of FIG. 5, instead of the dissimilar metal 230, it may be provided with a functional member 230 ', such as a natural mineral raw stone that emits anions or far infrared rays, or bioceramic, magnets.

In addition, as shown in (c) of FIG. 5, in the state where the conductive metal plate 200 and the dissimilar metal 230, which are copper plates, are disposed to be in contact with each other, functionalities such as ceramic balls, natural mineral raw stones, and magnets are disposed in the spaces therebetween. The member 230 ′ may be configured to be partially interposed.

On the other hand, as shown in Figure 4, the biocurrent activator according to the present invention may be manufactured in a sheet form.

That is, a sheet-like biocurrent activator may be formed by arranging a plurality of needles 210 in various shapes such as lattice, triangle, straight line, hexagonal line, and other deformable forms on the sheet 100 'having various shapes and sizes. This may be used as a bracelet or ring as shown in Figure 6, depending on the use, and if necessary, as shown in Figure 7 (a) of the shoe insole, although not shown can be applied to acupressure or acupressure tools, etc. It can be applied to acupressure scaffolds as in (b).

In addition, modifications to various forms not illustrated in the present invention are of course possible.

The biocurrent activator according to the present invention having such a structure induces a local stimulus while contacting the skin whenever the human body moves the needle 210 in contact with the skin, thereby generating a biocurrent through the biocurrent, This improves the electrical signal transmission of many parts of biological activity or vital activities.

100: patch 110: adhesive surface
200: conductive metal plate 210: needle
220: recessed portion 230: dissimilar metal
230 ': functional member 300: punch

Claims (3)

Patches having an adhesive surface that can adhere to the skin;
A conductive metal plate attached to the center of the adhesive surface of the patch;
And a plurality of needles having a plurality of spires while a part of the conductive metal plate is machined to form joints and protrusions.
Bendable or foldable sheets;
A conductive metal plate attached and fixed to one side of the sheet;
And a plurality of needles having a plurality of spires while a part of the conductive metal plate is machined to form joints and protrusions.
The method according to claim 1 or 2,
The conductive metal plate is one of copper plate, zinc plate and magnesium, and the concave part is formed on the opposite side of the needle protruding from the conductive metal plate, and the dissimilar metal is bonded and fixed so as to have different ionization tendencies among the copper plate, zinc plate and magnesium. Biocurrent activator characterized in that.

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