KR101423241B1 - Produce micro-current patch - Google Patents

Abstract

The present invention relates to a microcurrent-generating patch which autonomously generates a microcurrent when attached on a human body utilizing two metals which consist of different materials. Both surfaces of the patch (10) of the present invention consist of gel-type adhesive layers (11). A first metal (100) and a second metal (200) which have different materials are respectively attached on both sides of the adhesive layers (11) so that microcurrent is generated when the patch (10) is attached on the human body.

Description

A micro-current generation patch {Produce micro-current patch}

More particularly, the present invention relates to a micro-current generating patch, and more particularly, to a micro-current generating patch, which utilizes two different metals to produce micro-currents when attached to a body to reinforce deficient bio- To the micro-current generating patch.

In recent years, microcurrents have been used to treat neurological diseases or brain diseases (depression, Parkinson's disease, epilepsy, etc.).

A minute current (10 to 60 microamperes, -70 millivolts to 50 millivolts) flows in the human body called bioelectric current. Bio current is a vital energy that triggers neurotransmission and allows all life activities in the body to take place, including ATP synthesis, protein synthesis, DNA synthesis, book movement, hormone secretion, and fluid transfer. In particular, it plays a role in mediating the sharing of the genetic information (DNA) of each cell with each other, which requires a bioelectric current of appropriate intensity.

If the microcurrent in the human body weakens, the physical health becomes worse and the mental state becomes unstable. It is known that microcurrent of proper intensity actively supports metabolism and blood circulation, improves immunity, and is effective for cell regeneration, pain relief, edema treatment and promotion of hormone secretion, ATP synthesis, protein synthesis, and DNA synthesis.

In recent years, there have been proposed products using various kinds of minute currents which can realize various therapeutic effects or massage effects by stimulating micro currents to the human body.

For example, Korean Patent Laid-Open Publication No. 10-2012-0099925 discloses a microcurrent stimulation device having a stimulation patch that smoothes the treatment and massaging of the human body. However, this has inconveniently required to use a separate micro-current generator.

Another example is the Korean Registered Utility Model No. 20-0468146, which discloses an electronic device comprising an insulating layer for electrically separating a first metal contact and a second metal contact from each other and utilizing a difference in electrical characteristics between the first metal contact and the second metal contact, A mask is disclosed which is characterized in that it affects the wearer's body with a fine current. However, since the use range of the body is restricted to the face, the structure can not be simplified because the insulating layer is included, and the micro-current generator is separately provided in the prior art, And the production cost is increased.

Patent Document 1: Published Patent No. 10-2012-0099925 (2012.12.12) Patent Document 2: Registration Utility Model No. 20-0468146 (Jul. 19, 2013)

It is an object of the present invention to overcome the drawbacks of the prior art as described above and to provide a micro current generator which is capable of generating minute currents in itself by using two metals of different materials And to provide a fine current generation patch.

In addition, the present invention provides a micro current generation patch which is provided to the body to flow the micro-current generated in itself into the body to reinforce deficient bioelectricity, thereby stimulating metabolism and blood circulation, thereby contributing to health. .

The present invention also provides a micro current generation patch that can be easily attached to a body part desired by a user.

It is another object of the present invention to provide a micro current generation patch that can simplify the structure and reduce manufacturing cost and maintenance cost.

In order to attain the above object, the present invention provides a patch, in which a gel-like adhesive layer is formed on the back surface, a first metal and a second metal having different materials are attached to both sides of the adhesive layer of the patch, When a patch with a metal is attached to the body, a magnetic field and a patch metal present in the body are brought into contact with each other to generate microcurrent, thereby applying a microcurrent to the body.

According to the present invention, the first and second metals attached to both sides of the adhesive layer of the patch are formed of copper and zinc.

According to the present invention, one ends of the lead wires are connected to the first and second metals, respectively, and the connectors are connected to the other ends of the lead wires.

In addition, the present invention aims to stimulate and activate cells in the body by applying a microcurrent to the body, and to facilitate blood circulation.

The fine current generating patch of the present invention generates a minute current of about 1 volt by contacting a dissimilar metal to the skin without using a separate micro current generating device, The microcurrent of the cell is remarkably effective in inhibiting pain and has a remarkable effect on cell regeneration. In addition, it regulates blood pressure to a normal state and has an excellent effect on flow of blood flow and movement of body fluids. It is also effective in the treatment of viruses, bacteria, germs and inflammation, and is also effective in treating various fractures and bruises.

When the micro current generation patch of the present invention is used alone, a voltage of about 930 millivolts and a current of less than 10 microamperes are generated. When two people are connected in series, a voltage of 1.5 volts to 1.8 volts and a voltage of 10 microamperes Was generated. When the microcurrent was less than 1 volt, there was no effect of complete pain relief. If the pain is excessive and severe, the two people must connect and use each other. Therefore, if anyone has an affection for the opponent, attaching them to each other's body can alleviate the opponent's suffering. (Couples, lovers, friends, family, parent brothers, etc.). In particular, if they are sick, they can help each other and help each other. How good it would be if there was a perception that my pain could be reigned in the face of the ever-increasing social conditions. It is the greatest value and effect of the present invention to create a small opportunity for a person to love a person.

According to the microcurrent generation patch of the present invention, it is possible to generate a microcurrent by itself when attaching to a body by using a first metal and a second metal having different materials without using a separate micro-current generator .

In addition, the present invention has the effect of allowing blood flow to flow smoothly through the body by flowing micro-currents generated in the body when the body is attached, thereby stimulating metabolism and blood circulation, thereby contributing to health.

In addition, since the present invention can be easily attached to a body part desired by a user, the user's convenience can be improved.

Further, the present invention can simplify the structure, reduce manufacturing cost and maintenance cost, and produce micro currents semi-permanently.

1 is a perspective view of the present invention.
2 is a sectional view of the present invention.
3 is a plan view showing an embodiment of the present invention.
4 is an exemplary view showing a use state according to an embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the technical structure of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, the microcurrent generation patch of the present invention is a patch 10 in which a gel-like adhesive layer 11 is formed on the back side of the patch 10, The first metal 100 and the second metal 200 are attached to the first metal 100 and the second metal 200, respectively, so as to generate a minute current when the body is attached.

Here, the patch 10 of the present invention is attached to the body, and on the back of the patch 10, a gel-like adhesive layer 11 detachably attached to the body is formed. At this time, the patch 10 is made of a flexible material, and the patch 10 is formed in various shapes and various sizes such as a rectangular shape and a circular shape.

The first and second metals 100 and 200 are attached to the patch 10 on both sides of the adhesive layer 11. The first and second metals 100 and 200 may be made of different materials . At this time, the first metal 100 and the second metal 200, which are attached to both sides of the adhesive layer 11 of the patch 10, have the same role as the positive electrode of the battery As a result, the body current of the human body is activated, and a micro current is generated and is flowed into the body. That is, when the first and second metals (100) and (200) having different materials are brought into contact with the human body, a body fluid composed of 70% or more of water and a considerable amount of salt or the like constituting the human body generates microcurrent by the electrolyte action.

Therefore, when the patch 10 is attached to the affected part, the first and second metals 100 and 200 generate a microcurrent by themselves while flowing the generated microcurrent to the affected part, As a result, the metabolism of the affected part and the circulation of blood are promoted, thereby contributing to health.

The patch 10 of the present invention can be easily attached to various positions of hands, feet, and other human bodies by the adhesive layer 11. [ When the patch 10 is attached to various positions of the human body as described above, the microcurrent generated by itself is transmitted to the human body side, so that the therapeutic effect or the massage effect of the human body due to the microcurrent stimulation can be obtained.

According to the present invention, the first and second metals 100 and 200 are made of copper and zinc or silver and zinc. At this time, the first and second metals 100 and 200 are preferably copper and zinc or iron and zinc. However, if necessary, materials having excellent electrical characteristics such as gold, silver, aluminum, and stainless steel may be used And that other materials may be used if they are not of the above-mentioned metals, but of a high electrical conductivity.

The first and second metals 100 and 200 are formed in various shapes and various sizes such as a square shape and a circular shape.

3, one ends of the lead wires 110 and 210 are connected to the first and second metals 100 and 200, respectively, and the other ends of the lead wires 110 and 210 are connected to the first and second metals 100 and 200, The connectors 120 and 220 are connected to the connectors 120 and 220, respectively. 4, the connectors 120 and 220 include first and second metals 200 and 300 attached to the patches 10 and 10, respectively, and first and second metals 200 and 300, respectively, ) 300 in series with each other.

4, in the use state according to the embodiment of the present invention, patches 10 are attached to two people, and the first and second metals 100 (200 Can be connected in series with each other through the connectors 120 and 220, the micro current can be increased.

Typically, the microelectrode used for microcurrent treatment is a voltage of about 1 volt (950 millivolts to 1.5 millivolts) and a current of less than 400 microamperes. Especially, according to the tendency of the disease, it needs DC electric current having a very fine current of 30 picoseconds to a voltage of 1 volt. Generally, it is very difficult to generate micro current having such a condition in a general electric or battery. When you look at the skin layer, each part of the body flows with bioelectrons of different strengths depending on the concentration of the electrolyte. The part where the sweat is secreted is the bioelectricity is weak, and the part where the sweat is low is the bioelectricity is weak. The bioelectricity of the skin surface is up to 150 millivolts, and the bioelectricity flowing through the nervous system is between minus 70 millivolts and plus 50 millivolts. According to Roncheng's paper on micro-current therapy, ATP synthesis is increased by 500% and DNA synthesis is increased by 70% at 1 volt 400 microamperes.

In the experiment for the present invention, microcurrent therapy for patients with persistent lymphadenopathy for about one year at age 70 resulted in the removal of 80% of the edema overnight at 1.5 volt 400 microamperes Patients with knee joint and back pain In patients with shoulder stiffness, the pain was completely controlled after about one day. In addition, there was a remarkable improvement effect when applied to patients with lymph gland cancer or dementia. The microcurrent generator written in the experiment was a device that generated a galvanic current of 1.5 volts and 400 microamperes.

According to the experiment, the microcurrent treatment method is divided into two kinds. One is microcurrent therapy for ATP synthesis, edema, DNA synthesis and pain suppression as described above (hereinafter referred to as ATP), and microcurrent therapy for the treatment of viral or bacterial parasites or germs and for regeneration of the human body. The microcurrents used for regeneration are between 1 volt and 1.5 volts and a current of less than 10 microamperes is written. Micro currents written for ATP use a current between 100 volts and 1.5 volts between 100 microamperes and 400 microamperes. In the case of ATP, it is not attached directly to the human body to generate microcurrent, but requires a separate separate generator. However, the regenerative micro-current therapy device can obtain the required voltage and current by attaching to the human body by using the micro current and the specific metal which are possessed by the human body itself. In such a case, the regenerating treatment is not performed because an excessive current is introduced by attaching an external generator. Conventional microcurrent therapy devices generate microcurrents by using batteries or by attaching certain metals in the form of bands or patches to the body without batteries. In this case, when the battery is used, the voltage is too high and the amount of current is too large to be suitable for both ATP and regeneration. In such a case, if a regulator is attached to lower the voltage and the current, an AC wave is generated, which is harmful to the human body when it is worn for a long time because it is hit by a different wavelength from the bioelectricity that controls skin or nerve. When using a band or patch, a voltage of 300 millivolts and a current of less than 10 microamperes are generated. In this case, the voltage is too low to achieve the necessary therapeutic effect.

The present invention has been made in order to overcome the limitations of conventional micro-current therapy devices. Amplifiers can be created by raising the voltage of 300 millivolts to a voltage between 1 volt and 1.5 volts, and the ampere was made to produce a microcurrent generator capable of generating less than 10 microamperes.

The present invention is a micro current generator that generates a voltage of 1.5 volts at a voltage of 1 volt and a fine current of 10 milliamperes or less, which is configured as a patch.

When the present invention was made into a patch form and contacted with the skin and the current was measured, the following results were obtained.

Copper and zinc were at 880 millivolts and 10 microamperes at 680 millivolts, and silver and zinc at 980 millivolts and 10 microamperes at 680 millivolts.

Since the current difference between copper and zinc, silver and zinc was not large, we made a patch using copper and zinc as the material and experimented as follows.

Zinc Five millimeter vertical 5 millimeter vertical 10 millimeter vertical 5 millimeter Vertical 10 millimeter horizontal 1.5 centimeter vertical 1.5 centimeter tape attached to the patch to make a patch and paste the pain to the area for a day to suppress pain Respectively.

There was a significant reduction in pain from one hour after patch attachment. However, after one night, there was a slight pain. At this time, the measured voltage was up to 930 millivolts and the current was less than 10 microamperes. It was judged that the voltage was weak and the pain-suppressing effect was insufficient. In order to increase the voltage, a connection line was made, and two painful people were connected in series to observe the effect. As a result, after an hour or so, both of them were completely painful. After a day, the pain did not recur again.

On the other hand, it is known that a living body current of about 0.06 mA flows in the human body, and the strength of the living body current is known to vary depending on the health state. Generally, the phenomenon that the amount of the living body current flows much less when the health state is bad is clinically known.

Thus, it is possible to contribute to the balance inside the human body by stimulating the microcurrent having a magnitude enough to stimulate the human body from the outside. In addition, although there is a slight difference depending on the sensory level of the body, it is generally known that a current of about 1 mA can be sufficiently perceived, and it is known that prolonged energization is undesirable.

Therefore, if the magnitude of the microcurrent is in the range of several to several hundreds of microamperes less than 1 mA, it would be suitable for massaging or treating the microcurrent, and it is preferable that such a microcurrent is intermittently flowed for a certain period of time .

Electricity (current) refers to a phenomenon that flows along a conductor (conductor), in which the electric potential inside the conductor flows from a high point to a low point, and the direction in which the positive electric current flows is in that direction. The unit of the current is referred to as ampere (A).

At this time, the current generated below 1 milliamperes is referred to as a minute current, and the current of 1 milliamperes or more is referred to as a normal current.

According to the microcurrent generation patch 10 of the present invention, a minute current of 1 milliamperes or less is generated according to the potential difference between the first metal 100 and the second metal 200 and the living body current. At this time, it is preferable that the first metal 100 and the second metal 200 use different metals which have a large potential difference to obtain a high microcurrent.

According to the present invention configured as described above, when the patch 10 having the first and second metal parts 100 and 200 having different materials is attached to the body, a minute current is generated by itself without using a separate micro current generator can do.

The microcurrent generated by the present invention can be used for a good influence on the human body or for therapeutic purposes by bringing the microcurrent into contact with a specific blood, a meridian and other parts of the body. The effect of microcurrent on 1) Hye Jin and Kim, Jungwoo et al., "The effect of micro-current electrical stimulation on the histological structure of the wound of rats", The Korean Journal of Physical Therapy, This study was conducted to evaluate the effect of microcurrent stimulation therapy on pain and function recovery in patients with chronic low back pain. The effect of foot wear on foot stress on foot fatigue and pain relief ", Korean Journal of Physical Therapy, Volume 18, Issue 1, February 2006, 4) Lee, Yoon Mi, , "Effects of Electrical Stimulation on Bacterial Growth", Korean Journal of Physical Therapy, Vol. 6, No. 3, June 2006, Year, etc. Can.

There have also been several reports that it is possible to differentiate cancer cells through microcurrents. Steven Smith observed that the malignant lymphoma cells cultured in vitro can be transformed into benign fibroids.

In the 1950s, John Humphrey and EH Seal of the Johns Hopkins University observed that pulse galvanization could stop cancer growth in mice, and L. Norton of Mount Sinai School of Medicine, New York L. Tansman and W. Riegelson of the Virginia Medical School also reported that irradiation of the arm with pulsed electromagnetic fields would inhibit cancer progression. In the 1960s, Kenneth MacLean argued that using a magnetic field in a rat's arm could cure cancer. Robert Becker, who won the Nobel Prize for his book "Life and Electricity," found that cancer cells could reverse into normal cells if they were given microcurrents.

* In a study published by Ngok Cheng in 1987, microcurrents indicate that the energy ATP production rate in the cell is increased by 500% and the protein production rate and waste removal function are increased by 70%.

* Bone regeneration and wound healing effects of micro-current proved in English academia

- Professor Tim Watson of the world-renowned scholar Hertfordshire Univ.

* Microcurrent is effective in relieving spinal nerve excitability in spastic patients

Professor Toshiki Suzuki of Kansai University in Japan

* Animal test results that micro current stimulation helps fracture healing and bone union

- Professor, Mi-Sook Cho, Nazarene University

* Announced bacteriostatic effect through silver nano coated electrode

- Yeungnam University medical equipment clinical trial center team

* Delayed reduction of growth hormone, Positive effect on growth hormone increase

- Seo In-Beom, MD, Kangwon National University

* Micro current stimulation and high-voltage pulsation DC current conduction are effective for healing fibular fracture of rabbit

- Seung Hyun Ko, Yoon Bum Chul, Kim Ji Sung, Min Kyung Ok

* Microcurrent therapy for rheumatoid arthritis-induced rats

- Lee Hyun Min, Chae Yoon Won

From the biochemical point of view, the microcurrent effect increases ATP by 500%, promotes protein synthesis, and increases cell membrane permeability by 40%. It promotes DNA synthesis and promotes the activity of T lymphocytes.

Therefore, the micro current generating patch 10 of the present invention having the above-described structure can be manufactured by using the first metal 100 and the second metal 200, which are different in material from each other, without using a separate micro- It is possible to generate a minute current.

In addition, the micro-current generation patch 10 of the present invention allows the blood to flow smoothly through the body by flowing a micro current 680 to 930 millivolts and 10 micro amperes or less generated by itself in the body, And it can be helpful for health.

The micro current generation patch 10 of the present invention can be easily attached to a body part desired by the user, and thus can be improved in user's convenience.

In addition, the micro current generating patch 10 of the present invention is advantageous in that it can simplify the structure, can reduce manufacturing cost and maintenance cost, and can generate micro currents semi-permanently.

10: Patch 11: Adhesive layer
100: first metal 110: lead wire
120: connector 200: second metal
210: lead wire 220: connector

Claims (3)

When a first metal 100 and a second metal 200 having different materials are adhered to both sides of the adhesive layer 11 of the patch 10 to generate a minute current when the body is attached,
The patch 10 is 1.5 centimeters in length and 1.5 centimeters in width. The first and second metals 100 and 200 are 5 mm long and 10 mm wide, respectively,
One ends of the lead wires 110 and 210 are connected to the first and second metals 100 and 200 and the connectors 120 and 220 are connected to the other ends of the lead wires 110 and 210,
The first and second metals 200 and 300 and the first and second metals 200 and 300 attached to the patches 10 and 10 through the connectors 120 and 220, Wherein the microcurrent generation unit is connected in series to increase the microcurrent. delete delete

Images