WO2011016626A2 - Microcurrent stimulation device and shoes attached with the device - Google Patents

Abstract

The present invention relates to a microcurrent stimulation device and shoes attached with the device. More specifically, the present invention relates to a microcurrent stimulation device adapted to be installed in a shoe, which generates a microcurrent and a magnetic field semipermanently by an interaction between a movable magnet and a stationary coil as the magnet trembles along with the movement or walking of a shoe wearer, provides exercise effects through repetitive muscle contraction and release, reduces lactic acid in the muscle to decrease the muscle fatigue, inhibits an oxidase activity by a change in the enzyme, facilitates a blood flow by expanding peripheral blood vessels along an increase in the distribution of capillary vessels in the muscle and contributes to promotion and activation of growth by stimulating the growth plate through a microcurrent stimulus; and shoes attached with the device. The present invention comprises a rectangular body having a defined interior space; a disc-shaped movable magnet introduced into the space; a coil wound around the outer surface of the body to generate a microcurrent by an interaction with the movable magnet; covers provided at both ends of the body, one of the ends of the cover being closed to prevent the exit of the movable body; and stimulation members mounted at both ends of the coil, for applying a microcurrent stimulus to the body in contact therewith.

Description

Microcurrent stimulation device and shoes to which the device is attached {STIMULUS DEVICE OF MINUTENESS ELECTRIC AND SHOES ATTACHED WITH THE DEVICE}

The present invention relates to a microcurrent stimulation device and a shoe to which the device is attached. More specifically, the present invention relates to a microcurrent and a magnetic field due to the interaction of a magnet and a fixed coil that is moved when a person is shaken due to movement or walking. Iii) provides a microcurrent stimulator that generates semi-permanently, while the microcurrent stimulator is installed in a shoe to provide a motor effect through repeated action of contraction and relaxation of muscle, and to reduce the lactic acid of muscle Not only can the oxidase activity be prevented due to changes in enzymes, and the distribution of capillaries in the muscles increases, thereby expanding peripheral blood vessels and helping blood flow, and stimulating growth plates by microcurrent stimulation. Of a microcurrent stimulation device and the shoe to which the device is attached to contribute to the promotion and activation of growth The.

In general, a weak (microscopic) current flows through the human body, which is used by the cerebrum and organs to transfer information to each other to maintain health. In addition, microcurrent is known to have a function of actively supporting metabolism and blood circulation and eventually increasing natural healing power.

In other words, the appropriate microcurrent (about 0.06mA) is the weak alkaline of the blood, the expansion of blood vessels, the normalization of blood pressure, the diuretic action, the normalization of the pulse, the strengthening of the heart, the increase of collagen synthesis rate, the promotion of leukocytes, the bactericidal effect, the bacterial growth inhibition. It has been shown medically to be effective in inhibiting E. coli growth, improving microvascular blood circulation, promoting protein synthesis capacity, doubling treatment speed, promoting fatigue recovery, correcting autonomic nerves, promoting growth, purifying water, and removing odors. (Borgens et al .; Barker, Jasffe and Vanable, 1982; Borgens et al., 1980) (Korean Journal of Physical Therapy Vol. 16, No. 3) (Korean Journal of Professional Physiotherapy, Vol. 3, No. 1) (Korean Journal of Physical Therapy Vol. 6 1) (Research Paper, Prof. Lee Tae-kyu, Kim Mun-chan, Professor of Neurosurgery, Gangnam St. Mary's Hospital).

As another example, Kim, Jun Orthopedic Kwon, Won-An Kwon Department of Physiotherapy, College of Rehabilitation Science, Daegu University Park, Rae-Joon Department of Physiotherapy, College of Public Health, Taegu, Korea Department of Physiotherapy, College of Chonnam Science, Hwang, Tae-Yeon And animal experiments (Alvare, 1983; Bourguigron, 1987; Cheng, 1982; Suzuki, 1986) show that microcurrent stimulation activates tissue healing and repair processes. Evidence suggests that resynthesis, protein synthesis, and DNA replication rates are increased by direct electrical stimulation.

The effects of the microcurrent stimulation have the effects of pain relief (blocking pain by directly blocking the propagation of the action potential), edema reduction (reduction of edema due to the movement of body fluid), and the effect and metabolism of the electrical stimulation on muscles It is divided into changes in action and changes in blood vessels.

In other words, the effect of microcurrent stimulation on the muscles, the muscles move by electrical stimulation through the nerve cells, stimulating the surface of the muscles with an electrotherapy device, when a certain amount of electricity enters, namely muscle atrophy It can delay the progression of the reduced state, and it has a motor effect by the repetitive action of contraction and relaxation, and the cooperative muscle is also activated.

As a metabolic change, experiments have demonstrated that the stimulated muscles can feel less fatigue such as reduced lactic acid and prevent oxidase activity due to changes in enzymes. As the distribution increases, peripheral blood vessels expand to help improve blood flow. (Professor Rae Jun Park, Ph.D. Professor, Department of Physiotherapy, College of Rehabilitation Science, Daegu University)-The effect of microcurrent of pulsating electromagnetic energy on wound healing of rabbits-Journal of the Korean Physical Therapy Society Vol. 12, No. 3, June

In addition, human growth means the increase in the size and height of the body as the cell proliferation and hypertrophy, the growth of the kidney refers to the growth of bones and muscles around the bones together. If you look at the growth of human kidneys in terms of bones, the spine and leg bones, called the spinal column is the largest role.

In particular, the growth of the leg bone is caused by the growth hormone secreted from the anterior pituitary gland stimulates a site called pelvic cartilage or growth plate in the hip and ankle of the hip, causing cell division to grow the length of the bone, resulting in elongation.

It is widely known that proper stimulation of growth plate through proper exercise is effective for such growth, and that stimulation by jumping action such as jumping rope, basketball, etc. can promote bone growth by activating cell division of growth plate. have.

The jump operation is made by stimulating the growth plate of the knee by stimulation through the sole, in particular through the heel, and at the same time, the growth plate is also stimulated by the stimulation of the ankle joint. In addition to the growth plate stimulation of the knee joint by the direct impact stimulation, physical pressure of the ankle, especially near the astragalus is also known to help renal growth, which is due to the reflex therapy transmitted in oriental medicine.

That is, each part of the foot is connected to each organ inside the human body and the internal organs of the human body are affected by acupressure of a specific part of the foot. By stimulating near the astragalus, the growth plate of the knee joint is stimulated to promote secretion of growth hormone. It is known to help growth, and stimulation and stretching through the entire leg is known to help kidney growth.

Particularly, the parts of the foot that are related to the growth plate include larvae, gon wheel, and taegi, and the larvae feel the pulsation when pushing up the foot toward the ankle (first toe and second toe). 2 ~ 3cm above the abutment part, which is known as larvae, promotes secretion of growth hormone, which helps bone growth, and if the growth hormone secretion is reduced due to excessive stress, it is known to stimulate the place.

In addition, the paddle is a dent just behind the outer astragalus and is known to assist in the growth of this area by contacting the growth plate under the calf bone and the shin bone. Artery pulsation is felt, and as with paddles, it is in contact with the calf and shin bones, so rubbing lightly around the ankle bone with both hands is known to help growth.

Since it is known that appropriate stimuli applied to the foot such as stimulation of a specific part of the sole, acupressure and stretching of the area near the astragalus stimulate the growth plate, growth can be promoted, and many devices have been developed and used.

Therefore, Korean Patent No. 669125 (Registration Date: 2007.01.09) proposed a method of promoting kidney growth by stimulating a growth plate by installing an electrical stimulation member that generates microcurrent or low frequency of tens to hundreds of microwatts in a shoe. In addition, the current generator for generating a microcurrent or low frequency used in the Republic of Korea Patent 669125 can be divided into three types.

Firstly, it is composed of a battery for power supply and an electric circuit by electronic components such as capacitors, resistors, transistors, variable resistors, switches, and the like, and converts electricity supplied from the battery into microcurrents of several hundreds to hundreds of microamps. It consists of a microcurrent generator, and secondly, the microcurrent is generated by the internal resistance of the power generation point itself formed at the end of the heel stimulus of the ankle, and thirdly, the voltage and the microcurrent according to the applied pressure. The piezoelectric element is generated.

As the first current generating device described above is composed of a microcurrent generating source consisting of a battery and a plurality of electronic components, there is a problem in that the function of promoting the growth of the kidney is not obtained because the operation of the electric stimulation member is stopped when the life of the battery runs out. In particular, the life of the battery itself is extremely short, which requires a lot of maintenance costs due to frequent battery replacements, as well as securing the space required for battery replacement and watertightness for the protection of electronic components. There are many problems with the image.

The second current generator described above allows the microcurrent to be generated by the internal resistance of the power generation point itself, but the current generated by the internal resistance of the power generation point itself is in the range of tens to hundreds of mA for stimulation of the growth plate. There is a problem that can not achieve the effect of promoting the growth of the kidneys as extremely weak current is generated at all.

The third current generator described above uses a piezoelectric element that generates a voltage and a microcurrent according to the applied pressure, but the amount of current and voltage generated by the piezoelectric element is basically proportional to the external force applied from the outside. In general, the voltage may increase or vary depending on the material and the size and shape of the device. The voltage may be formed from several volts to several thousand volts, but the amount of current is usually very small.

Therefore, in Korean Patent No. 669125, in order to generate the microcurrent required from the piezoelectric element, it is manufactured in a form in which several tens to hundreds of layers are laminated instead of a single layer to generate an appropriate microcurrent for the growth plate stimulation. The manufacturing cost is formed very high, which causes a problem that the burden on the consumer is aggravated as the actual shoe price increases.

In order to solve the above-mentioned problems, the present invention introduces a magnet into a rectangular tube or columnar tube of a predetermined length, the inside of which is empty, and coils a coil on an outer surface of the rectangular tube or columnar tube, and at both ends of the coil By providing the microcurrent stimulation device formed by connecting the members, when the human body is moving or walking, the microcurrent and the magnetic field are generated semi-permanently by the interaction of the moving magnet and the fixed coil. It is a technical task that not only can it be manufactured and have a semi-permanent lifespan, but also that maintenance costs are not required at all.

In addition, the present invention is embedded in the upper of the micro-current stimulation apparatus of the shoe by applying the micro-current and the magnetic field generated from the micro-current stimulation device to the menstrual blood and muscles of the human body at the same time by the electrical current of the microcurrent and magnetic field contraction of the muscle The repetitive action of relaxation and relaxation provides an exercise effect, reduces muscle lactic acid, reduces fatigue, prevents oxidase activity due to enzyme changes, and increases peripheral blood capillaries as the distribution of capillaries increases in muscle. It is a technical task to provide a shoe with a microcurrent stimulation device that can be expanded to contribute to the promotion and activation of kidney growth through stimulation of the growth plate as well as blood flow.

The present invention is provided with a rectangular body having a space portion formed therein, a disk-shaped flow magnet is introduced into the space portion, the outer surface of the body coils for generating a microcurrent by interacting with the flow magnet winding It is installed, one side is closed at both ends of the body is provided with a cover to prevent the flow of the flow magnet is installed, the both ends of the coil is in contact with the human body is provided with a magnetic pole member for applying a microcurrent stimulation It is done.

In addition, the present invention is provided with a cylindrical body having a space formed therein, a cylindrical flow magnet is introduced into the space portion, the outer surface of the body is a coil for generating a microcurrent by interacting with the flow magnet Winding is installed, one end is closed at both ends of the body is installed a cover to prevent the flow of the flow magnet, the inner surface of one side of the cover is provided with a fixed magnet having the same polarity as the polarity of the flow magnet, respectively And, both ends of the coil is characterized in that the magnetic poles which are in contact with the human body to apply a magnetic pole is connected.

In addition, the present invention is provided with a body having a space formed therein and the bottom is closed, the bottom surface of the body is fixed to the first coil is connected to the both ends of the magnetic pole member, the upper surface of the first coil Flow magnets are disposed in the upper end of the body is characterized in that the cover is installed to prevent the separation of the magnet.

The present invention is characterized in that by the interaction of the flow magnet and the coil to generate a microcurrent of 10 ~ 200㎂.

The magnetic pole member of the present invention is provided with a conductive sheet having a thickness of 0.01 to 0.5 mm or a conductive network made of a woven fiber in the form of a conductive sheet having a thickness of 0.01 to 0.5 mm. The upper surface of the net is characterized in that the protrusion formed in contact with the skin of the human foot protruding.

The present invention provides a cylindrical body having a space portion therein, a cylindrical flow magnet flowing into the space portion, a coil installed on the outer surface of the body to generate a microcurrent by interacting with the flow magnet, and Covers are installed at both ends of the body to prevent the flow of the flow magnet, and fixed magnets are provided on one inner surface of the cover and have the same polarity as the polarity of the flow magnet, and are installed at both ends of the coil And a microcurrent stimulation device comprising a stimulation member for applying stimulation to the human body, wherein the body of the microcurrent stimulation device is installed at one side of the upper of the shoe, and the stimulation member of the microcurrent stimulation device is connected to the acupuncture points and muscles of the human body. It is characterized in that it is fixed to the upper so that the surface is exposed to the contactable position.

In addition, the present invention is a rectangular body having a space formed therein, a disk-shaped flow magnet flowing into the space portion, the coil is installed on the outer surface of the body to generate a microcurrent by interacting with the flow magnet And a microcurrent stimulation device including a cover installed at both ends of the body to prevent leakage of the flow magnet, and a magnetic pole installed at both ends of the coil to apply electrical stimulation to the human body. The body of the current stimulation device is installed in one side of the upper of the shoe, the stimulating member is characterized in that the upper surface is fixed to the upper surface to be in contact with the acupuncture points and muscles of the human foot.

The present invention is provided with a body having a space formed therein and the bottom of the body is closed, a first coil fixed to both ends of the body connected to the magnetic pole member is installed on the inner bottom of the body, the upper surface of the first coil A flow magnet is disposed, and the microcurrent stimulation device is provided on the upper end of the body to prevent the separation of the magnet is installed, the body of the microcurrent stimulation device is installed inside one side of the shoe upper, The stimulation member of the microcurrent stimulation device is characterized in that it is fixed to the upper so that the surface is exposed to a position that can contact the acupuncture points and muscles of the human body.

The present invention is characterized in that the body of the microcurrent stimulation device is selectively installed on any one of the rear shaft portion, the upper finish portion and the tongue portion of the upper, the stimulation member of the microcurrent stimulation device is acupuncture points of the human foot and It is characterized in that the fixing is installed inside the upper so that the surface is exposed to the position that can contact the muscle

The present invention introduces a magnet into a rectangular tube or columnar tube of a predetermined length empty inside, winding a coil on the outer surface of the rectangular tube or columnar tube, the both ends of the coil is connected to a magnetic pole microcurrent By providing stimulation device, when shaking occurs due to people's movement or walking, micro-current and magnetic field are generated semi-permanently by interaction of magnet and fixed coil, which makes it possible to manufacture simple structure and low cost. In addition to having a lifetime, there is an effect that does not require any maintenance costs.

In addition, the present invention incorporates the microcurrent stimulator in the upper of the shoe to simultaneously apply the microcurrent and magnetic field generated from the microcurrent stimulator to the menstrual blood and muscles of the human body by the repetitive action of the contraction and relaxation of the muscle effect To reduce the lactic acid in the muscles, reduce fatigue and prevent oxidase activity due to changes in enzymes, as well as increase the distribution of capillaries in the muscles to increase blood flow, as well as growth plate Stimulation of the effect of promoting the growth and activation of the kidney will be effective.

1 is a perspective view showing an embodiment of a microcurrent stimulation apparatus according to the present invention.

Figure 2 is an exploded perspective view of the microcurrent stimulation device shown in FIG.

3 is a cross-sectional view taken along line A-A and line B-B of the microcurrent stimulation apparatus shown in FIG.

4 is an operational state diagram of the microcurrent stimulation apparatus shown in FIG.

5 and 6 are cross-sectional views of a state in which the microcurrent stimulation device shown in Figures 1 to 4 installed in the shoe.

7 is a perspective view showing another embodiment of a microcurrent stimulation apparatus according to the present invention.

8 is an exploded perspective view of the microcurrent stimulation apparatus shown in FIG.

9 is a cross-sectional view taken along lines C-C and D-D of the microcurrent stimulation apparatus shown in FIG.

10 is an operational state diagram of the microcurrent stimulation apparatus shown in FIG.

11 is a cross-sectional view of a state in which the microcurrent stimulation device shown in FIGS.

12 is a cross-sectional view showing another embodiment of the body in the microcurrent stimulation apparatus shown in FIGS. 1 to 4 and 7 to 10.

Figure 13 (a), (b) is an exploded perspective view and cross-sectional view showing another embodiment of a microcurrent stimulation apparatus according to the present invention.

Figure 14 (a), (b) is an exploded perspective view and cross-sectional view showing another embodiment of the microcurrent stimulation device shown in FIG.

15 and 16 are a perspective view and a cross-sectional view showing another embodiment of the magnetic pole member in the microcurrent stimulation apparatus according to the present invention.

[Explanation of symbols on the main parts of the drawings]

10: microcurrent stimulation device 11, 12: cover

13, 14: fixed magnet 15a, 15b: floating magnet

16a, 16b: body 16c: groove

16d: step 17: coil

18, 19: stimulation member 20: shoes

21: upper 22: the finish

41 body 42: first coil

43: fluid magnet 44: cover

45: second coil 47: space part

51: conductive sheet 52: contact projection

53: challenge network

Hereinafter, the microcurrent stimulation apparatus and the shoe to which the apparatus is attached according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a microcurrent stimulation apparatus of an embodiment according to the present invention, Figure 2 is an exploded perspective view of the microcurrent stimulation apparatus of one embodiment shown in Figure 1, Figure 3 is a fine view of the embodiment shown in FIG. AA and BB lines are cross-sectional views of the current stimulation device, and FIG. 4 is an operation state diagram of the microcurrent stimulation device of the embodiment shown in FIG.

That is, a space portion 16a-1 is formed inside and has a rectangular body 16a having a height greater than a width, and a disk-shaped flow magnet in the space portion 16a-1 formed in the body 16a. 15a is introduced, and a coil 17 is wound around the outer surface of the body 16a to generate a microcurrent and a magnetic field by interacting with the flow magnet 15a.

In addition, one side is closed at both ends of the body (16a) to prevent the flow of the flow magnet (15a) (11, 12) is installed inflow, both ends of the coil (17) of the human body Stimulation members (18) and (19) for contact with acupuncture points and muscles to apply stimulation are connected.

5 and 6 are cross-sectional views of a state in which the microcurrent stimulation apparatus 10 according to the embodiment of the present invention shown in FIGS. 1 to 4 is installed in the shoe 20, wherein the microcurrent stimulation apparatus 10 is As shown in FIG. 5, the upper body 22 of the upper body 21a is installed to be kept horizontally with the ground inside the upper 21 near the rear axle of the shoe 20, or the upper end portion 22 of the upper 21 as shown in FIG. 6. Install the body (16a) to be horizontal to the ground inside.

In addition, the stimulation member (18, 19) in contact with the acupuncture points and muscles of the human body, as shown in Figs. 5 and 6, the vein on the heel bone behind the astragalus (inner and outer astragalus) in contact with the growth plate of the human body It is fixedly installed on the upper 21 so that the surface is exposed to a place (taegi and paddle wheel) or to a position where it may contact the insect.

Here, the magnetic pole members 18 and 19 may be sewn with the upper 21, and it is preferable to use a conductive material that does not damage the skin when in contact with the body.

Referring to the process of current stimulation in a state in which the microcurrent stimulation apparatus 10 according to the present invention made as described above mounted on the shoe 20 as follows.

First, when the user wears the shoe 20, the magnetic pole members 18 and 19 come into contact with the tachycardia and the impeller (or caterpillar) in contact with the growth plate.

In this state, as shown in FIG. 3, when the user does not move or is not walking, the body 16a maintains a stationary state in which the flow magnet 15a introduced therein does not move. Will not occur.

However, if the inclination occurs between the body 16a and the ground as shown in FIG. 4 due to the user's movement or walking, the space magnet 16a is formed inside the body 16a by the inclination angle. It flows back and forth within 1).

At this time, an induced current and a magnetic field are generated in the coil 17 wound on the outer surface of the body 16a due to the flow generated in the space 16a-1 in which the flow magnet 15a is formed inside the body 16a. The generated induced current, that is, the microcurrent is transmitted to the magnetic pole members 18 and 19 and at the same time a magnetic field is applied to the periphery which is in contact with the growth plate through the magnetic poles 18 and 19. Microcurrent stimulation is applied to the impeller or caterpillar.

7 is a perspective view of a microcurrent stimulation device showing another embodiment according to the present invention, Figure 8 is an exploded perspective view of the microcurrent stimulation device of another embodiment shown in Figure 7, Figure 9 is another embodiment shown in FIG. CC line and DD line sectional drawing of an example microcurrent stimulation apparatus, FIG. 10 is an operation state diagram of the microcurrent stimulation apparatus of the other Example shown in FIG.

That is, the inside is provided with a cylindrical body 16b having a space portion 16b-1 formed therein, and the cylindrical magnet 16b-1 flows into the space portion 16b-1 formed inside the body 16b. On the outer surface of the body 16b, a coil 17 for generating a microcurrent in interaction with the flow magnet 15b is wound.

In addition, one side is closed at both ends of the body 16b, and covers 11 and 12 are installed to prevent the outflow of the flow magnet 15b, and one side inner surface of the cover 11 and 12 is provided. Fixing magnets 13 and 14 having the same polarity as that of the floating magnet 15b are provided, respectively, and magnetic poles 18 and 19 that are applied to the human body at both ends of the coil 17 to apply magnetic poles. ) Is connected.

Here, the Gaussian value of the stator magnets 13 and 14 should be much smaller than the Gaussian value of the floating magnet 15b. The reason is that when the Gaussian value of the stationary magnets 13 and 14 is larger than the Gaussian value of the floating magnets 15b, the vertical flow distance of the floating magnets 15b becomes short and the desired microcurrent cannot be obtained.

In addition, the polarities of the stator magnets 13 and 14 corresponding to the ends of the flow magnets 15b are made of the same polarity so that the repulsive force acts so that the impact magnets 15b are the stationary magnets. (13) (14) due to the action of the repulsive force floating magnet (15b) in the space (16b-1) is floating (floating) to maintain a state in which there is no flow, if the impact is applied As a result of an imbalance in the attractive force and the repulsive force, the flow magnet 15b flows vertically in the space portion 16b-1 formed in the body 16b.

11 is a cross-sectional view of a state in which the microcurrent stimulation apparatus 10 according to the present invention shown in FIGS. 7 to 10 is installed in the shoe 20, and the microcurrent stimulation apparatus 10 is illustrated in FIG. 11. The body 16a is installed in the upper 21 of the side near the rear axle of the shoe 20 to be perpendicular to the ground, and the magnetic pole members 18 and 19 are in contact with the growth plate of the human body. It is fixedly installed on the upper 21 so that the surface is exposed to a position where it can come into contact with the wheel (or caterpillar).

Referring to the electrical stimulation process in a state in which the microcurrent stimulation apparatus 10 according to the present invention made as described above is mounted on the shoe 20 as follows.

First, when the user wears the shoe 20, the stimulation members 18 and 19 come into contact with the acupoints and the menstrual cycle, which are the menstrual blood of the foot in contact with the growth plate.

In this state, as shown in FIG. 9A, when the user does not move or is not walking, the flow magnets 15b introduced into the body 16a are mutually fixed by the stator magnets 13 and 14. The attraction force and the repulsive force act to maintain the suspended state floating in the space 16b-1, so that the microcurrent is hardly generated in the coil 17.

However, when walking is made, the weight of the user is transmitted to the ground, and an impact is generated. As the impact is transmitted to the microcurrent stimulation device 10, between the stationary magnets 13 and 14 and the floating magnet 15b. An imbalance occurs between the formed attraction force and the repulsive force so that the flow magnet 15b flows up and down in the space portion 16b-1 formed inside the body 16b.

In this case, due to the vertical flow generated in the space portion 16b-1 formed inside the body 16b, the flow magnet 15b may cause an induction current to the coil 17 wound on the outer surface of the body 16b. The magnetic field is generated, and the generated induction current, that is, the microcurrent is transmitted to the magnetic pole members 18 and 19 and through the magnetic poles 18 and 19, which is in contact with the growth plate, the wagon, the muscle, and the like. At the same time, the magnetic field is applied to the surroundings, thereby applying electrical stimulation.

FIG. 12 shows another embodiment of the bodies 16a and 16b in the microcurrent stimulation apparatus 10 shown in FIGS. 1 to 4 and 7 to 10. FIG. The recess 16c is formed by forming the stepped portion 16d on one side surface of one side of 16a and 16b, and FIG. 12B shows the stepped portion on one side of the body 16a and 16b. By forming the recessed portion 16c by the formation of 16d, the coil 17 is prevented from slipping off from the bodies 16a and 16b.

Figure 13 (a), (b) is an exploded perspective view and cross-sectional view of a microcurrent stimulation device showing another embodiment according to the present invention, the space 41 is formed inside the body 41 is provided with a closed bottom surface The first coil 42 is fixed to the bottom surface of the body 41 and is connected to the magnetic pole members 18 and 19 at both ends thereof, and the first coil 42 is fixed to the bottom surface of the body 41. The floating magnet 43 is disposed on the upper surface, and a cover 44 is installed on the upper end of the body 41 to prevent the magnet 43 from being separated.

The flow magnet 43 has a suitable space portion 47 between the first coil 42 and the inner surface of the cover 44 so that the left and right flow can be free.

The microcurrent stimulation device 10 according to another embodiment made as described above is a floating magnet when the user is not moving or walking while installed in the upper 21 or the tongue inside the side of the rear axle of the shoe 20. Since the 43 does not incline the microcurrent stimulation apparatus 10 and does not flow in the front-rear direction on the first coil 42, the microcurrent rarely occurs in the first coil 42.

However, when the inclination occurs between the microcurrent stimulation device 10 and the ground due to the user's movement or walking, the flow magnet 43 is formed in the space 47 formed inside the body 41 by the inclination angle. It flows forward and backward.

At this time, when the flow magnet 43 flows left and right on the upper surface of the first coil 42, an induced current and a magnetic field are generated in the first coil 42. The generated induced current, that is, the microcurrent is not shown. The magnetic field is applied to the stimulus members 18 and 19 and the magnetic field is applied to the stimulus members 18 and 19 so as to apply microcurrent stimuli to the chicks and paddles or worms and the muscles which are in contact with the growth plate through the stimulus members 18 and 19. Will be.

14 (a) and (b) are exploded perspective views and cross-sectional views showing another embodiment of the microcurrent stimulation apparatus shown in FIG. 13, wherein a body 41 having a space portion formed therein and a closed bottom surface thereof is shown. It is provided, the bottom surface of the body 41 is wound to a predetermined thickness, both ends of the first coil 42 to which the magnetic pole member 18, 19 is connected is fixedly installed, the first coil 42 The floating magnet 43 is disposed on the upper surface of the cover 41, and a cover 44 is installed on the upper end of the body 41 to prevent the magnet 43 from being separated, and the second surface is disposed on the inner surface of the cover 44. The coil 45 is structured to be fixed.

In this case, the flow magnet 43 has an appropriate space portion 47 so that the left and right flow freely between the first coil 42 and the second coil 45.

The microcurrent stimulation device 10 according to another embodiment made as described above is a microcurrent when the user does not move or is walking while installed in the upper 21 or the tongue inside the side of the rear axle of the shoe 20. Since the magnetic pole device 10 does not incline, the flow magnet 43 does not flow in the front-back direction in the space portion 47 between the first and second coils 42 and 45, thereby causing the first In the second coils 42 and 45, the microcurrent rarely occurs.

However, when the inclination occurs between the microcurrent stimulation device 10 and the ground due to the user's movement or walking, the flow magnet 43 is formed in the space 47 formed inside the body 41 by the inclination angle. It flows forward and backward.

In this case, when the flow magnet 43 flows left and right between the first and second coils 42 and 45, an induced current and a magnetic field are simultaneously generated from the first and second coils 42 and 45. The generated induced current, that is, the microcurrent is transmitted to the magnetic pole members 18 and 19, not shown, and at the same time a magnetic field is applied to the periphery that is in contact with the growth plate through the magnetic poles 18 and 19, and Microcurrent stimulation to impotence or worms and muscles.

Therefore, in the embodiment of FIG. 14, the flow magnet 43 flows between the first and second coils 42 and 45, thereby generating more microcurrent and magnetic field than the embodiment of FIG. 13.

The microcurrent stimulation apparatus 10 in one embodiment shown in Figs. 1 to 4 of the present invention, another embodiment shown in Figs. 7 to 10, and another embodiment shown in Figs. For example, the installation of the shoe 20 in one side near the rear axle for convenience, but the installation position of the microcurrent stimulation apparatus 10 is not limited, and may be installed in the front part or midsole, the inner tongue of the tongue as needed Can be.

In addition, the microcurrent generated from the microcurrent stimulation apparatus 10 in the embodiment shown in Figures 1 to 4 of the present invention, the embodiment shown in Figures 7 to 10 and the embodiment shown in Figures 13 and 14 of the present invention. It provides the exercise effect by repeating the contraction and relaxation of the muscles by stimulating the menstrual blood and muscles of the human body, reducing the lactic acid of the muscles, feeling less fatigue and preventing the oxidase activity due to the change of enzymes. As the distribution of capillaries in the muscle increases, peripheral blood vessels expand to increase blood flow as well as to promote the growth of kidneys through stimulation of growth plates, which should output several tens to several hundred microseconds, which is the flow magnets 15a and 15b. By adjusting the Gaussian value of the (43) and the number of turns of the coils (17) (42) and (45), the desired microcurrent can be obtained.

In general, the repetitive action of muscle contraction and relaxation provides the exercise effect, reduces the lactic acid in the muscle, reduces fatigue, prevents oxidase activity due to enzyme changes, and increases the distribution of capillaries in the muscle Blood vessels can be expanded and blood flow can be expected, and a preferable microcurrent that can promote kidney growth by stimulating the growth plate of the human body is about 10 to 200 mA, and the flow magnets 15a, 15b, and 43 are 500 to 3,000. Gaussian, coils 17, 42, 45 can be seen through the experimental results that the micro-current in the range of 10 ~ 200 mA from the micro-current stimulation apparatus 10 of the present invention when the winding 500 to 2,000 times .

The gaussian values of the floating magnets 15a, 15b and 43 and the number of windings of the coils 17, 42 and 45 may vary depending on the desired degree of generation of the microcurrent, and thus the range is not limited.

In particular, the microcurrent stimulation apparatus 10 in the embodiment shown in Figs. 1 to 4 and the embodiment shown in Figs. 7 to 10 and in the embodiment shown in Figs. 13 and 14 is the speed of walking. The higher the impact between the shoes 20 and the ground due to the faster running or the jogging, the larger the flow range of the moving magnets 15a, 15b, 43 and the faster the flow rate, the higher the value of the microcurrent and the magnetic field. The output can be maximized the effect, such as muscle lactic acid reduction.

15 and 16 are a perspective view and a cross-sectional view showing another embodiment of the magnetic pole member 18 (19) in the microcurrent stimulation device 10 according to the present invention, so that a large portion can be stimulated at the same time.

That is, as shown in (a) and (b) of FIG. 15, a conductive sheet 51 having a plate shape as a conductive material having a thickness of 0.01 to 0.5 mm is provided, and a foot is placed on the upper surface of the conductive sheet 51. Contact protrusions 52 in contact with the acupuncture points and the skin form a protruding structure.

In addition, as shown in Figure 16, the material is a conductive material having a thickness of 0.01 ~ 0.5mm thick is provided with a conductive network 53 made of a fiber form, the upper surface of the conductive network 53 is in contact with the menstrual blood and skin of the human foot Contact protrusions 52 are formed to protrude.

The conductive sheets 51 and the conductive nets 53 may be made of gold, silver, or the like having a very low electrical resistance, but it is preferable to use copper from an economical point of view. In addition, the type thereof is not limited, and the contact protrusions 52 formed on the conductive sheet 51 and the conductive network 53 are formed through a pressing work process of a bottom surface.

As described above, the magnetic pole members 18 and 19 of the other embodiments shown in FIGS. 15 and 16 are installed in the upper and the tongue of the shoes, or installed by sewing, and the contact protrusions 52 are exposed to the outside. By applying a microcurrent stimulation and a magnetic field to the skin of a large area of the human foot at the same time to increase the efficiency can not only increase the efficiency can be applied to a variety of items.

Wherein the conductive sheet 51 and the conductive net 53 is formed when the thickness of less than 0.01mm is feared to be broken when washing the shoe 20, if formed with a thickness of more than 0.5mm, the price and load increases and flexibility There is a problem that damage is caused to damage the human body is preferred to have a thickness in the range of 0.01 ~ 0.5mm.

As described above, the present invention provides a microcurrent stimulator for semi-permanently generating a microcurrent and a magnetic field by the interaction of a fixed magnet and a moving magnet when a shake occurs due to a person moving or walking. By installing the microcurrent stimulation device in the shoe to provide the exercise effect by the repetitive action of the contraction and relaxation of the muscle, reduce the lactic acid in the muscle to feel less fatigue and prevent the oxidase activity due to the change of enzyme, As the distribution of capillaries in the muscle increases, peripheral blood vessels are expanded to help blood flow, and stimulate the growth plate by microcurrent stimulation to contribute to the promotion and activation of kidney growth.

The present invention by installing a micro-current stimulator in the shoe to the shoe provides a motor effect by the contraction and relaxation of the muscle, reduce the lactic acid in the muscle to feel less fatigue and prevent oxidase activity due to changes in the enzyme Rather, as the distribution of capillaries in the muscle increases, peripheral blood vessels are expanded to help blood flow, and to stimulate the growth plate by microcurrent stimulation, thereby contributing to the promotion and activation of renal growth, which may be industrially applicable.

Claims (4)

1. A cylindrical body 16b having a space 16b-1 formed therein is provided, and a cylindrical magnet 15b-1 flows into the space 16b-1, and an outer surface of the body 16b. The coil 17 is wound around the flow magnet (15b) to generate a microcurrent to interact with, one side is closed at both ends of the body (16b) to prevent the flow of the flow magnet (15b) Covers 11 and 12 are installed, and one side of the covers 11 and 12 has a microcurrent generated with fixed magnets 13 and 14 each having the same polarity as that of the floating magnet 15b. In the apparatus,

   Both ends of the coil 17 are connected to the magnetic pole member 18 (19) to apply a magnetic pole in contact with the human body,

   The magnetic pole member 18, 19 is any one of a conductive sheet 51 of 0.01 ~ 0.5mm thick conductive sheet 51 or a conductive net 53 made of a woven fiber of 0.01 ~ 0.5mm thick conductive material One is equipped,

   Contact projections 52 are formed on the upper surface of the conductive sheet 51 and the conductive network 53 to contact the skin of the human foot, protruding,

   One side of the body (16b) is formed with a groove portion 16c for preventing the separation of the coil 17,

   Microcurrent stimulation device, characterized in that for generating a micro-current of 10 ~ 200㎂ by the interaction of the flow magnet (15b) and the coil (17).
2. A space 41 is formed therein and the body 41 is provided with a closed bottom surface.

   The first coil 42 is fixedly installed on the bottom surface of the body 41, the flow magnet 43 is disposed on the upper surface of the first coil 42, the upper end of the end of the body 41 In the microcurrent generator provided with a cover 44 to prevent the magnet 43 is separated,

   Magnetic pole members 18 and 19 are installed at both ends of the first coil 42,

   The magnetic pole members 18 and 19 are any one of a conductive sheet 51 formed of a plate-shaped conductive sheet 51 as a conductive material having a thickness of 0.01 to 0.5 mm or a conductive network 53 which is woven into a fiber form as a conductive material having a thickness of 0.01 to 0.5 mm. One is equipped,

   Contact projections 52 are formed on the upper surface of the conductive sheet 51 and the conductive network 53 to contact the skin of the human foot, protruding,

   Microcurrent stimulation device, characterized in that for generating a micro-current of 10 ~ 200㎂ by the interaction of the flow magnet 43 and the first coil (42).
3. The microcurrent stimulation device according to claim 2, wherein the second coil (45) is fixedly installed on the inner surface of the cover (44).
4. Cylindrical body 16b having a space portion 16b-1 formed therein, a cylindrical flow magnet 15b flowing into the space portion 16b-1, and installed on the outer surface of the body 16b. And a coil 17 for generating a microcurrent by interacting with the flow magnet 15b, and a cover 11 installed at both ends of the body 16b to prevent the flow of the flow magnet 15b. 12 and the microcurrent generator, which is provided on one inner surface of one side of the cover 11 and 12, respectively, and comprises stator magnets 13 and 14 having the same polarity as that of the flow magnet 15b.

   Installed on both ends of the coil 17 is made of a magnetic pole member 18, 19 to apply a magnetic pole to the human body, the magnetic pole member 18, 19 is a plate-like conductive material of 0.01 ~ 0.5mm thickness The conductive sheet 51 or any one of the conductive network 53 is made of a conductive material having a thickness of 0.01 ~ 0.5mm is provided in the form of fibers, provided on the upper surface of the conductive sheet 51 and the conductive network 53 The contact protrusion 52 which is in contact with the skin of the foot is formed to protrude, the microcurrent stimulation device 10 to generate a micro-current of 10 ~ 200㎂ by the interaction of the flow magnet 15b and the coil 17 Equipped,

   The body 16b of the microcurrent stimulation device 10 is selectively fixed to any one of the rear shaft portion, the finish portion, the tongue portion of the shoe 20,

   Shoe member (18) (19) of the microcurrent stimulation device (10) is a shoe with a microcurrent stimulation device, characterized in that the surface is fixedly installed so as to be exposed to a position that can contact the menstrual blood and muscles of the human foot.

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