KR100938825B1 - Brassiere built-in with stimulus device of minuteness electric - Google Patents

Abstract

The present invention relates to a bra with a built-in microcurrent stimulation device, and more particularly, semi-permanent generation of a microcurrent and a magnetic field by the interaction of the magnet and the fixed coil flowing when a person shakes due to movement or walking The microcurrent stimulator is installed in the bra to provide the exercise effect by repeating the contraction and relaxation of the female breast muscles, reducing the lactic acid in the muscles, reducing the fatigue of the muscles, and oxidizing enzyme activity due to the change of enzyme. The present invention relates to a bra with a built-in microcurrent stimulation device that can prevent clogging and increase the distribution of capillaries in the breast muscle, thereby helping to increase blood flow.

The present invention provides a cylindrical body having a space portion formed 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 made of a stimulation member that applies stimulation to the human body, and the body of the microcurrent stimulation device is installed in a connection portion connecting the cups of the bra to each other, and the stimulation member is acupuncture points of the chest on one side of the cup. It is characterized by being installed inside the surface exposed to contact with the skin.

Description

Bra with Microcurrent Stimulator {Brassiere built-in with stimulus device of minuteness electric}

The present invention relates to a bra with a built-in microcurrent stimulation device, and more particularly, a microcurrent and a magnetic field due to the interaction of a magnet and a fixed coil that flows when a person shakes due to movement or walking. A semi-permanent microcurrent stimulator is installed in the bra to provide the exercise effect by repeating the contraction and relaxation of the female breast muscles, reducing the lactic acid in the muscles, making the muscles less fatigued, and changing the enzyme. The present invention relates to a bra with a built-in microcurrent stimulator that not only prevents oxidase activity but also expands peripheral blood vessels as the distribution of capillaries in the female breast muscle increases.

In recent years, women's breast disease is increasing rapidly, and the exact cause of breast cancer is not known yet. However, based on the results of previous studies, the cause is one cause like other cancers. Rather than being caused by a variety of causes are known to work.

Among the causes of breast cancer, excessive nutrition and fat intake are the cause of breast cancer, and the correlation between fat intake and breast cancer incidence is well represented, and the incidence of breast cancer is high in the United States, the Netherlands, and the United Kingdom where the fat intake is high. Because fat can provide a soil for breast cancer, you should avoid excessive nutrition and fat intake to prevent breast cancer.

Another cause of breast cancer is obesity, and the number of obese women in Korea is increasing recently. Particularly, women with breast obesity (apology obesity) have a higher incidence of breast cancer than women with lower body obesity (Western embryo obesity). The obesity is a cause of heart disease, diabetes, and various cancers, and postmenopausal obesity is also known to increase the risk of breast cancer about 2 times.

Therefore, in order to suppress breast disease, it is proposed to install a device that stimulates the skin of the breast inside the bra to stimulate the skin of the breast to improve blood circulation and remove fat.

In other words, Republic of Korea Utility Model Registration No. 343527 (Registration Date: February 20, 2004) installs a mid- and low-frequency electric stimulator in the bra to improve the blood circulation and fat removal of the breast with an electric stimulation massage. In addition, the middle frequency and low frequency electric stimulator itself is expensive, as the appropriate volume and load has a problem that the bra sag down, wear indication appears and there is a problem to avoid use.

In addition, Utility Model Registration No. 306534 (Registration Date: February 25, 2003) is equipped with a vibrator on the wire inserted into the bra to massage the chest to promote the blood circulation to maximize the health promotion However, there is a problem such as generating a fine noise when operating the vibrator has a problem of avoiding use.

In particular, all of the above-described prior art has a problem that the volume of the battery as a power source is inevitably increased, and frequent replacement of the battery is required, which requires a lot of maintenance costs, thereby degrading practicality by increasing the burden on the consumer.

According to the present invention, a microcurrent stimulator for semi-permanently generating a microcurrent and a magnetic field by the interaction of a moving magnet and a fixed coil when a person is shaken due to movement or walking is installed in the bra to have fine skin on the breast. By applying electric current stimulation, the muscle contraction and relaxation provide the exercise effect, reduce the lactic acid in the muscle, make you feel less fatigue, and change the enzyme to prevent the oxidase activity, as well as capillaries in the muscle As the distribution of is increased, peripheral blood vessels are expanded to help blood flow, thereby preventing various breast diseases to provide a benefit to the human body as a technical task.

In addition, the microcurrent stimulation apparatus used in the present invention can be manufactured in a simple structure and at a low cost, and can be manufactured in a small size and have a semi-permanent lifespan. It is a technical subject to improve practicality by not doing it.

The present invention is a rectangular body having a space portion 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 and magnetic field by interaction with the flow magnet And a microcurrent magnetic pole device, which is installed at both ends of the body to prevent leakage of the flow magnet, and the magnetic poles installed at both ends of the coil to apply a microcurrent stimulus to the human body. The body of the microcurrent stimulation device is built in the connection portion connecting the cups of the bra to each other, the stimulation member is characterized in that the built-in is exposed to the surface to contact the acupuncture points and the skin of the chest on one side of the cup.

The present invention provides a cylindrical body having a space portion formed 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 made of a stimulation member that applies stimulation to the human body, and the body of the microcurrent stimulation device is installed in a connection portion connecting the cups of the bra to each other, and the stimulation member is acupuncture points of the chest on one side of the cup. It is characterized in that the built-in exposure to the surface so as to contact with the skin.

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 both ends of the magnetic pole member, the upper surface of the first coil flows The magnet is disposed, and the microcurrent stimulation device is provided with a cover to prevent the separation of the magnet is installed above the end of the body, the body of the microcurrent stimulation device is embedded in the connection portion connecting the cups of the bra to each other It is installed, the stimulation member is characterized in that the built-in side exposed to the surface to be in contact with the acupuncture points and the skin of the chest on one side of the cup.

The present invention is characterized in that the groove portion is formed on one side of the body to prevent the separation of the coil, the microcurrent of 10 ~ 200 ㎂ is generated by the interaction of the flow magnet and the coil.

The magnetic pole member of the present invention is a conductive material of 0.01 ~ 0.5mm thick plate-shaped conductive sheet or a conductive network of woven in a fiber form as a conductive material of 0.01 ~ 0.5mm thickness is provided, the conductive sheet and the The upper surface is characterized in that the protrusion formed in contact with the skin of the human body protruding.

The present invention is to install a microcurrent stimulation device in the bra to apply a microcurrent stimulation to the skin of the female breast to provide the exercise effect by the repetitive action of the contraction and relaxation of the muscle, reduce the lactic acid of the muscle to feel less fatigue, Changes in enzymes not only prevent oxidase activity, but also increase the distribution of capillaries in the muscles, thereby expanding peripheral blood vessels and helping to promote blood flow. There is.

In addition, the present invention is not only possible to manufacture a simple structure, low cost and miniaturization and have a semi-permanent life, there is no need for a separate power supply such as a battery, there is an effect that does not require any maintenance costs.

First, the influence of the microcurrent in the present invention on the human body will be described.

The human body has a weak (micro) current called biocurrent, which is used by the cerebrum and gut tube to transmit information to each other to maintain health, and when the health is not good, the biocurrent is weak and unstable. In addition, microcurrent is known to have a function to actively support metabolism and blood circulation and eventually increase natural healing.

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 Ahn, Department of Physiotherapy, College of Rehabilitation Science, Daegu University, Park, Rae-Joon, Department of Physiotherapy, College of Health, Daegu Health, and Tae-Hwang Hwang, Department of Physiotherapy, Chonnam College of Science (Alon, 1986; Barron 1985; Carley, Wainapel, 1985) and animal experiments (Alvare, 1983; Bourguigron, 1987; Cheng, 1982; Suzuki, 1986) show that microcurrent stimulation stimulates tissue healing and repair processes. The study provides evidence that intracellular ATP 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 (direct pain reduction 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 are moved 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 and help to improve blood flow. (Park, Ra-Joon, Ph.D. Professor, Dept. of Physiotherapy, College of Rehabilitation Science, Daegu University) The Journal of Therapeutics Vol. 12, No. 3)

Hereinafter, a bra with a microcurrent stimulation device according to the present invention will be described in detail with reference to FIGS. 1A to 6C.

FIG. 1A is a perspective view of a bra having a microcurrent stimulation device according to the present invention, and FIG. 1B is a cross-sectional view taken along line EE of FIG. 1A, and the connection portion 63 connecting the cups 61 and 62 of the bra 60 to each other. When the body moves in the microcurrent stimulation device 10 for semi-permanently generating a microcurrent and magnetic field by the interaction of the moving magnet and the fixed coil is installed, the predetermined position on one side of the cup 61 (62) The stimulation members 18 and 19 which are in contact with the skin and apply the microcurrent generated from the microcurrent stimulation device 10 to the skin are exposed and installed on the surface.

Figure 2a is a perspective view showing an embodiment of the microcurrent stimulation apparatus used in the present invention, Figure 2b is an exploded perspective view of the microcurrent stimulation device shown in Figure 2a, Figure 2c is a microcurrent stimulation device shown in Figure 2a AA and BB lines are sectional views of FIG. 2D, and FIG. 2D is an operation state diagram of the microcurrent stimulation apparatus shown in FIG. 2A.

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) is installed cover 11, 12 to prevent the flow of the flow magnet (15a) is installed, the both ends of the coil 17, the human chest The stimulation member (18) and (19) for contact with the menstrual blood and the skin (muscle) of the stimulus are connected.

Here, the stimulating members 18, 19 are preferably used a conductive material that does not damage the skin when in contact with the body chest, and can be installed in various ways depending on the stimulation portion is not limited to the number of installation.

Referring to the current stimulation process in a state in which the microcurrent stimulation apparatus 10 of the embodiment made as described above is installed in the connection portion 63 of the bra 60 as follows.

First, when the user wears the bra 60, the magnetic members 18 and 19 installed in the cups 61 and 62 are in contact with the acupuncture points or the skin of the chest.

In this state, when the user is in a stationary state in which the user does not move the body as shown in FIG. 2C, the flow magnet 15a introduced into the body 16a maintains the stationary state in which the coil ( In 17), no microcurrent is generated.

However, when the user moves or walks, the inclination is generated between the body 16a and the ground as shown in FIG. 2D as the shaking and shock is transmitted to the microcurrent stimulation apparatus 10. The magnet 15a flows back and forth in the space portion 16a-1 formed in the body 16a.

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 induction current, that is, the microcurrent is transmitted to the stimulus members 18 and 19 to impart a microcurrent stimulus to the acupuncture points and skin of the chest and at the same time a magnetic field is applied to the stimulus member 18. (19) will stimulate the heart.

3A is a perspective view showing another embodiment of the microcurrent stimulation apparatus 10 used in the present invention, FIG. 3B is an exploded perspective view of the microcurrent stimulation apparatus shown in FIG. 3A, and FIG. 3C is shown in FIG. 3A. CC line and DD line sectional drawing of a microcurrent stimulation apparatus, FIG. 3D is an operation state diagram of the microcurrent stimulation apparatus shown in FIG. 3A.

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 by interacting 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 both ends of the coil 17 are in contact with the human body to apply magnetic poles 18. (19) 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 floating magnets 15b are the stationary magnets. (13) (14) due to the action of repulsion, the floating magnet (15b) is floating (floating) inside the space portion (16b-1) to maintain a flow-free stationary state, if shaking occurs in the repulsive force As the imbalance occurs, the flow magnet 15b flows vertically in the space portion 16b-1 formed in the body 16b.

Referring to the current stimulation process in a state in which the microcurrent stimulation apparatus 10 of the embodiment used in the present invention made as described above is installed in the bra 60, the following is described.

First, when the user wears the bra 60, the magnetic pole members 18 and 19 of the conductive material installed in the cups 61 and 62 are in contact with the human skin.

In this state, when the user is in a stationary state where the user does not move the body as shown in (a) of FIG. 3C, the flow magnet 15b introduced into the body 16b is formed by the stator magnets 13 and 14. Repulsive forces act on each other to maintain a stationary state floating in the space portion 16b-1 so that the microcurrent is hardly generated in the coil 17.

However, when the user moves or walks, the shake and the shock are transmitted to the microcurrent stimulation apparatus 10, thereby causing an imbalance in the repulsive force formed between the stationary magnets 13 and 14 and the flow magnet 15b. The magnet 15b flows up and down in the space portion 16b-1 formed in the body 16b.

At this time, the induction current and the magnetic field are applied to the coil 17 wound on the outer surface of the body 16b due to the vertical flow generated in the space 16b-1 of the body 16b. The generated induction current, that is, the microcurrent is transmitted to the stimulation members 18 and 19, and stimulates the menstrual blood and muscles of the human chest skin through the stimulation members 18 and 19, and at the same time a magnetic field. Will be added around here.

FIG. 4 shows another embodiment of the bodies 16a and 16b in the microcurrent stimulation apparatus 10 shown in FIGS. 2A to 2B and 3A to 3D. The recessed part 16c by forming the step part 16d is formed in one side surface of 16a, 16b, and FIG. 4 (b) shows the step part in the front surface of one side of the said body 16a, 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 5a (a), (b) is an exploded perspective view and cross-sectional view showing another embodiment of the microcurrent stimulation apparatus used in the present invention, the body 41 is formed with a space portion and the bottom surface is closed 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 upper surface of the flow magnet 43 is disposed, the upper end of the body 41, the cover 44 to prevent the separation of the magnet 43 is provided to form a structure.

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.

In the state in which the microcurrent stimulation device 10 made as described above is installed in the bra 60 in a stationary state in which the user does not move the body, the inclination of the microcurrent stimulation device 10 does not occur. As 43) does not flow on the first coil 42, the micro coil hardly generates microcurrent.

However, when the user moves or walks, the inclination occurs between the microcurrent stimulation apparatus 10 and the ground as the shaking and the shock is transmitted to the microcurrent stimulation apparatus 10, and the moving magnet 43 by the inclination angle. It flows in the space 47 formed in the body 41.

In this case, when the flow magnet 43 flows on the upper surface of the first coil 42, an induced current and a magnetic field are generated in the first coil 42. At the same time as being transmitted to the members 18 and 19, a magnetic field is applied to the periphery, whereby microcurrent stimulation is applied to the menstrual blood and muscles of the chest through the stimulating members 18 and 19.

5A and 5B are exploded perspective views and cross-sectional views showing another embodiment of the microcurrent stimulation apparatus shown in FIG. 5A, wherein a body 47 is formed therein and the bottom surface is closed. (41) is provided, and the first coil (42) to which the magnetic pole members (18) and (19) are connected is fixed to the bottom surface of the body (41) and is connected to both ends. A floating magnet 43 is disposed on the upper surface of the coil 42, and a cover 44 is installed above the end of the body 41 to prevent the magnet 43 from being separated, and the inside of the cover 44. The side has a structure that is fixed to the second coil (45).

The flow magnet 43 has a suitable 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 is inclined when the user is in a stationary state while moving or walking while wearing the microcurrent stimulation device 10 according to another embodiment built as described above. Since it does not occur, the flow magnet 43 does not flow in the space portion 47 between the first and second coils 42 and 45, which causes the first and second coils 42 and 45 to flow. 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. Will flow.

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 induction current, that is, the microcurrent is transmitted to the stimulus members 18 and 19 (not shown), and at the same time a magnetic field is applied to the periphery of the chest through the stimulation members 18 and 19 to the microcirculation of the breast and skin. Current stimulation.

Therefore, in the embodiment of FIG. 5B, the flow magnet 43 may flow between the first and second coils 42 and 45 to generate more microcurrent and magnetic field than the embodiment of FIG. 5A.

The microcurrent stimulation apparatus 10 of another embodiment shown in FIGS. 5A and 5 may include a body 41, a cover 44, a flow magnet 43, a first coil and a second coil 42 (45) for convenience of description. ) Is shown in a circular shape, but the shape is not limited and is preferably manufactured in a rectangular shape when installed in the actual bra (60).

In addition, the microcurrent stimulation apparatus 10 of another embodiment shown in FIGS. 5A and 5 is shown in a horizontally laid state for convenience of description, but when it is actually installed in the bra 60, it is installed vertically in a vertical state. desirable.

In addition, the microcurrent generated from the microcurrent stimulation apparatus 10 in the embodiment shown in FIGS. 2A to 2D, the embodiment shown in FIGS. 3A to 3D, and the embodiment shown in FIGS. By stimulating the acupuncture points and muscles of the human chest, the muscle contracts and relaxes repeatedly, providing the exercise effect, reducing the lactic acid in the muscles, reducing fatigue and preventing oxidase activity due to enzyme changes. As the distribution of capillaries in the muscle increases, the peripheral blood vessels expand and dozens to hundreds of microseconds must be output in order to see the effect of blood flow enhancement, which is the Gaussian values and coils of the flow magnets 15a, 15b, 43. The desired number of microcurrents can be obtained by adjusting the number of turns of (17) (42) (45).

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 The microcirculation is expected to increase blood flow to the blood flow is about 10 ~ 200 ㎂, the flow magnets (15a, 15b, 43) is 500 ~ 3,000 gauss, coils 17, 42, 45 is 500 It can be seen from the experimental results that the microcurrent of the range of 10 ~ 200 로부터 occurs from the microcurrent stimulation apparatus 10 of the present invention when the wire is wound 20,000 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 device 10 in the embodiment shown in Figs. 2A to 2D, the embodiment shown in Figs. 3A to 3D, and the embodiment shown in Figs. The faster the cycle or the greater the impact with the ground due to jogging, the greater the flow range of the flow magnets 15a, 15b, 43, and the faster the flow rate. Effects such as lactic acid reduction can be maximized.

Figure 6a is a perspective view and a cross-sectional view showing another embodiment of the magnetic pole member 18, 19 in the microcurrent stimulation apparatus 10 used in the present invention, Figure 6b is a magnetic pole member 18 shown in Figure 6a 6 is a perspective view and a cross-sectional view of another embodiment of the present invention, and FIG. 6C shows the magnetic pole members 18 and 19 of the other embodiment shown in FIGS. 6A and 6B in the cups 61 and 62 of the bra 60. It shows the installed state.

That is, as shown in (a) and (b) of FIG. 6A, 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 human body is disposed on an upper surface of the conductive sheet 51. Contact protrusions 52 in contact with the skin of the chest is a protruding structure.

In addition, as shown in Figure 6b the material is a conductive material having a thickness of 0.01 ~ 0.5mm thick conductive wire 53 is provided in the form of a fiber, the upper surface of the conductive net 53 is in contact with the skin of the human chest The contact protrusion 52 is 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 embodiment shown in FIGS. 6A and 6B are internally installed by sewing into the cups 61 and 62 of the bra 60, as shown in FIG. Projection 52 is exposed to the outside to simultaneously apply multiple current stimulation and magnetic field to a large area of the human breast skin to increase the efficiency, as well as the advantage of sewing can be applied to a variety of items It is.

If the conductive sheet 51 and the conductive net 53 is formed to be less than 0.01mm in thickness, the breakage during washing of the bra 60 is feared, if formed to a thickness of 0.5mm or more increases the price and load There is a problem in that the flexibility is reduced to damage the human body it is preferable to have a thickness in the range of 0.01 ~ 0.5mm.

As described above, the present invention provides a microcurrent stimulator for generating a microcurrent and a magnetic field semi-permanently in a bra to provide an exercise effect by the repeated action of contraction and relaxation of the muscles of the breast skin, and to reduce the lactic acid of the muscle. It can reduce oxidative enzyme activity due to less fatigue and change of enzymes, and also increase the distribution of capillaries in muscle, which can help peripheral blood vessels to increase blood flow and prevent women's breast disease in advance. It can provide a benefit.

Figure 1a is a perspective view of a bra with a built-in microcurrent stimulation apparatus according to the present invention.

1B is a cross-sectional view taken along the line E-E in FIG. 1A.

Figure 2a is a perspective view showing an embodiment of a microcurrent stimulation apparatus applied to the present invention.

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

FIG. 2C is a cross-sectional view taken along line A-A and line B-B of the microcurrent stimulation apparatus shown in FIG. 2A. FIG.

FIG. 2D is an operation state diagram of the microcurrent stimulation apparatus shown in FIG. 2A.

Figure 3a is a perspective view showing another embodiment of a microcurrent stimulation apparatus applied to the present invention.

Figure 3b is an exploded perspective view of the microcurrent stimulation device shown in Figure 3a.

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

3D is an operating state diagram of the microcurrent stimulation apparatus shown in FIG. 3A.

Figure 4 is a cross-sectional view showing another embodiment of the body in the microcurrent stimulation device shown in Figures 2a to 2b and 3a to 3d.

Figure 5a (a), (b) is an exploded perspective view and cross-sectional view showing another embodiment of a microcurrent stimulation apparatus applied to the present invention.

5A and 5B are exploded perspective views and cross-sectional views showing another embodiment of the microcurrent stimulation apparatus shown in FIG. 5A.

Figure 6a is a perspective view and a cross-sectional view showing another embodiment of the magnetic pole member in the microcurrent stimulation apparatus applied to the present invention.

Figure 6b is a perspective view and a sectional view showing another embodiment of the magnetic pole member shown in Figure 6a.

Figure 6c is an illustration of a state in which the magnetic pole member of the other embodiment shown in Figures 6a and 6b is installed in the bra.

[Description of Symbols for Main Parts of Drawing]

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: magnetic pole member 41: the body

42: first coil 43: fluid magnet

44: cover 45: the second coil

47: space part 51: conductive sheet

52: contact projection 53: conductive wire

60: bra 61, 62: cup

63: connection

Claims (8)

A rectangular body 16a having a space 16a-1 formed therein, a disk-shaped flow magnet 15a flowing into the space 16a-1, and an outer surface of the body 16a. And a coil 17 for generating a microcurrent and a magnetic field by interacting with the flow magnet 15a, and a cover 11 installed at both ends of the body 16a to prevent the flow of the flow magnet 15a. 12 and a microcurrent stimulation device (10) consisting of magnetic pole members (18) and (19) installed at both ends of the coil (17) to apply microcurrent stimulation to the human body. The body 16a of the microcurrent stimulation device 10 is installed in a connection portion 63 connecting the cups 61 and 62 of the bra 60 to each other. The stimulating member (18) (19) is a bra with a microcurrent stimulation device, characterized in that installed on one side of the cup (61) (62) exposed to the surface to contact the acupuncture points and the skin of the chest. 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 stator magnets 13 and 14 installed on one inner surface of one side of the cover 11 and 12 and having the same polarity as that of the fluid magnet 15b, and both sides of the coil 17. It is provided with a microcurrent stimulation device (10) consisting of stimulation members (18, 19) installed on the end to apply a stimulus to the human body, The body 16b of the microcurrent stimulation device 10 is installed in a connection portion 63 connecting the cups 61 and 62 of the bra 60 to each other. The stimulating member (18) (19) is a bra with a microcurrent stimulation device, characterized in that installed on one side of the cup (61) (62) exposed to the surface to contact the acupuncture points and the skin of the chest. A space 41 is formed therein, and a body 41 having a closed bottom surface is provided, and a first coil 42 having both ends connected to the magnetic pole members 18 and 19 at the bottom surface of the body 41 is provided. Is fixedly installed, the floating magnet 43 is disposed on the upper surface of the first coil 42, the cover 44 is installed on the upper end of the end of the body 41 to prevent the magnet 43 from being separated The microcurrent stimulation device 10 is formed, The body 41 of the microcurrent stimulation device 10 is installed in the connection portion 63 for connecting the cups 61 and 62 of the bra 60 to each other, The stimulating member (18) (19) is a bra with a microcurrent stimulation device, characterized in that installed on one side of the cup (61) (62) exposed to the surface to contact the acupuncture points and the skin of the chest. The bra with a microcurrent stimulation device according to claim 1 or 2, wherein a groove portion (16c) is formed at one side of the body (16a, 16b) to prevent the coil (17) from being separated. The method according to any one of claims 1 to 3, wherein a microcurrent of 10 to 200 mA is generated by the interaction of the fluid magnets 15a, 15b, 43 and the coils 17, 42. A bra with a built-in microcurrent stimulator. According to any one of claims 1 to 3, wherein the magnetic pole member 18, 19 is a conductive material of the thickness of 0.01 ~ 0.5mm is provided with a conductive sheet 41 in the form of a plate, The bra with a microcurrent stimulation device, characterized in that the contact projection 42 is formed on the upper surface of the conductive sheet 41 in contact with the skin of the human chest. According to claim 1, wherein the magnetic pole member 18, 19 is provided with a conductive net 43 made of a woven fiber in the form of a conductive material of 0.01 ~ 0.5mm thickness, The bra with a microcurrent stimulation device, characterized in that the contact protrusion 42 is formed on the upper surface of the conductive net 43 in contact with the skin of the human chest. The bra with a microcurrent stimulation device according to claim 3, wherein the second coil (45) is fixedly installed on the inner surface of the cover (44).

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