JP5541472B2 - Clothing with built-in fine current stimulator - Google Patents

Description

  The present invention relates to a garment with a built-in micro-current stimulator, and more particularly, a human moves or walks on a sleeve of an outerwear such as a shirt that is in direct contact with the skin of a human wrist. If a magnetic field occurs, the movable magnet and stationary coil combine to provide a fine current stimulating device that generates a semi-permanent fine current and magnetic field to provide a movement effect by repeating the wrist muscle contraction and relaxation. Not only can fatigue be reduced by reducing lactic acid, and not only can oxidase activity be prevented by enzyme changes, but also the distribution of peripheral blood vessels as the distribution of capillaries in muscles increases, helping to increase blood flow. The present invention relates to a garment with a built-in fine current stimulator.

  In recent years, as a typical disease of repetitive tension injury caused by excessive use of hands and arms, such as those who are involved in computer users, nail and retailers, it means neuropathy that presses the wrist muscle nerve The number of people who complain of wrist pain is increasing, and it is known that the effect of treatment can be obtained by stimulating the acupuncture points and pain points of the wrist in Kampo medicine (Korea daily report: January 29, 2009).

  In particular, it has recently been widely known that various beneficial effects can be obtained by applying a minute current stimulus to the human body, and accordingly, research in this field has been actively conducted.

  In other words, a weak (micro) current called a bioelectric current flows through the human body, and this current allows the cerebrum and organ organs to exchange information with each other to maintain health. In addition to becoming unstable and unstable, it is known that fine currents have a function of enhancing metabolism and blood circulation, and as a result, enhancing natural healing power.

  In addition, the appropriate fine current (about 0.06 mA) is weak alkalinity of blood, dilation of blood vessels, normalization of blood pressure, promotion of diuresis, normalization of pulse, heart strengthening, increase of collagen synthesis rate, leukocyte migration Promotion, bactericidal effect, inhibition of bacterial growth, inhibition of E. coli growth, enhancement of microvascular blood circulation, enhancement of protein synthesis ability, double the rate of treatment, acceleration of fatigue recovery, stabilization of autonomic nerves, growth promotion, It has already been proved that there is an effect of water purification and deodorization (Borgens et al .; Barker, Jasfe and Vanable, 1982; Borgens et al., 1980) (Korean Physical Therapy Association Journal 16th No. 3) (Korean Specialty Physics) Journal of Therapeutic Society No. 3 (No. 1) (Korea Journal of Physical Therapy No. 6 No. 1, Neurosurgery Lee Tae-gyu, Gangnam St. Mary's Hospital, Kim Mun-chan's research paper)

  Other examples include Kim Jung, Orthopedic Surgery, Kwon Onang University, University of Reactivation Sciences, Department of Physical Therapy, Park Lejun Ohoka Health University, Department of Physical Therapy, Park Yoongi Chunnan University of Science, Department of Physical Therapy, Fan Tae Young In view of many clinical studies on fine currents (Alon, 1986; Barron 1985; Carley, Wainapel, 1985) and animal experiments (Alvari, 1983; Bourguigron, 1987; Cheng, 1982; Suzuki, 1986) It has been found that it activates tissue healing and repair processes, and studies with tissues or cultured cells confirm that intracellular ATP resynthesis, protein synthesis, and DNA replication ratios are enhanced by direct electrical stimulation. Yes.

  Such effects of minute current stimulation lead to such effects as pain relief (directly blocking action potential propagation to reduce pain), edema reduction (moving fluid reduces edema), It can be divided into the effects of electrical stimulation on muscles, changes in metabolic action, and changes in blood vessels.

  That is, the effect of the fine current stimulation on the muscles is that the muscles move by electrical stimulation through nerve cells, and if the electrical treatment device stimulates the muscle surface and a predetermined amount of electricity flows, that is, muscle atrophy (muscle (The state in which the size is consumed and reduced in size) can be delayed, and a repetitive action of contraction and relaxation can provide an exercise effect, and the cooperative muscles are also activated.

  The above changes in metabolism have been confirmed by experiments that stimulated muscles do not feel much fatigue, such as lactic acid reduction, and that changes in enzymes can prevent oxidase activity. As a change in blood vessels, it has been announced that peripheral blood vessels are dilated to help increase blood flow as the distribution of capillaries in the muscles increases. Dr. Park Lee-Jun-Effect of fine current of pulsating electron field energy on the wound healing of rabbits-Korean Physical Therapy Association Journal No.12 No.3).

  As described above, the present invention is based on the fact that a beneficial effect is obtained when a minute electric current is applied to the human body, and is used on a shirt or the like that is in direct contact with the skin of the human wrist. When shaking occurs when a person moves or walks on the wearing sleeve, a fine current stimulation device that generates a semi-permanent fine current and magnetic field combined with a movable magnet and a fixed coil is installed, and the wrist acupuncture point Applying minute current stimulation to pain points and skin, providing exercise effect by repetitive action of wrist muscle contraction and relaxation, reducing muscle lactic acid and not feeling much fatigue, preventing enzyme oxidase activity by changing enzyme The purpose of the present invention is to provide a garment with a built-in micro-current stimulator that can help to increase blood flow by expanding peripheral blood vessels as the distribution of capillaries in muscle increases.

  The present invention includes a rectangular body having a space formed therein, a disk-shaped movable magnet incorporated into the space, a fine current provided on the outer surface of the body and coupled with the movable magnet. A coil that generates a magnetic field; a cover that is provided at both ends of the body to prevent removal of the movable magnet; and a stimulation member that is provided at both ends of the coil and applies a minute current stimulus to the human body. A fine current stimulating device is provided, and the body of the fine current stimulating device is provided on one side of the inside of the sleeve, and the stimulating member is exposed on the surface so as to be in contact with the wrist acupoint and skin of the human body It is provided in.

  The present invention provides a cylindrical body having a space formed therein, a columnar movable magnet incorporated in the space, and an outer surface of the body to provide a fine current in combination with the movable magnet. A generated coil, a cover provided at both ends of the body to prevent the movable magnet from being pulled out, and a fixed magnet provided on one inner surface of the cover and having the same polarity as the polarity of the movable magnet And a stimulating member provided at both ends of the coil for stimulating the human body, and a body of the fine current stimulating device is provided inside a sleeve, the stimulating member is It is characterized by being provided so that the surface is exposed to the outside so as to be in contact with the acupoints and muscles of the wrist of the human body.

  The present invention is characterized in that a concave groove for preventing the coil from being pulled out is formed on one side of the body.

  According to the present invention, a body having a space portion formed therein and having a bottom surface closed is provided, and a first coil whose both ends are connected to a stimulating member is fixed to the bottom surface of the body. A movable magnet is disposed on the upper surface of the coil, and a body for the fine current stimulating device is provided with a fine current stimulating device provided with a cover for preventing the magnet from being removed above the tip of the body. Is provided inside the sleeve, the stimulating member is provided so as to be exposed on the surface so as to be in contact with the acupuncture point of the wrist of the human body and the skin, and a second coil is further fixed to the inner side surface of the cover. It is characterized by that.

  The present invention is characterized in that a concave groove portion that prevents the coil from being pulled out is formed on one side of the body, and the movable magnet and the coil combine to generate a fine current of 10 to 200 μA.

  In the present invention, the stimulating member is woven in a fibrous form made of a plate-like conductive sheet made of a conductive material having a thickness of 0.01 to 0.5 mm or made of a conductive material having a thickness of 0.01 to 0.5 mm. A conductive projection formed on the upper surface of the conductive sheet and the conductive mesh, the contact projection being in contact with the skin of a human wrist.

  In the present invention, when a person moves or walks on a sleeve of an outerwear such as a shirt that is in direct contact with the wrist skin, the movable magnet and the fixed coil combine to generate a fine current and a magnetic field. A semi-permanent micro-current stimulator is installed to apply micro-current stimulation to the wrist acupuncture points, pain points, and skin, providing a movement effect through the repeated actions of wrist muscle contraction and relaxation, and to restore muscle lactic acid. Not only does it reduce fatigue, it can not only prevent oxidase activity due to enzyme changes, but also, as the distribution of capillaries in muscle increases, peripheral blood vessels are dilated to help increase blood flow in the human body There is an effect that it can be beneficial.

  In addition, the present invention is simple in structure and inexpensive, and as a result of downsizing, not only has a semi-permanent lifetime, but also eliminates the need for a separate power supply such as a battery, thereby reducing maintenance costs. There is an effect that it does not take at all.

It is a perspective view of the garment in which the fine electric current stimulating device which concerns on this invention was incorporated. It is the EE sectional view taken on the line of FIG. It is a perspective view which shows one Embodiment of the fine electric current stimulating device applied to this invention. It is a disassembled perspective view of the fine electric current stimulating device shown by FIG. FIG. 4 is a cross-sectional view of the fine current stimulator shown in FIG. 3 taken along line AA and BB. FIG. 4 is an operation state diagram of the fine current stimulator shown in FIG. 3. It is a perspective view which shows other embodiment of the fine electric current stimulating device applied to this invention. FIG. 8 is an exploded perspective view of the fine current stimulator shown in FIG. 7. FIG. 8 is a cross-sectional view taken along line CC and DD of the fine current stimulator shown in FIG. 7. It is an operation | movement state diagram of the fine electric current stimulating device shown by FIG. It is sectional drawing which shows other embodiment of the trunk | drum in the fine electric current stimulating device shown by FIGS. 3-6 and FIGS. 7-10. (A) and (B) are an exploded perspective view and a cross-sectional view showing still another embodiment of the fine current stimulation device applied to the present invention. (A), (b) is the exploded perspective view and sectional drawing which show other embodiment of the fine electric current stimulating device shown by FIG. It is the perspective view and sectional drawing which show other embodiment of the stimulation member in the fine electric current stimulation apparatus applied to this invention. It is the perspective view and sectional drawing which show other embodiment of the stimulation member shown by FIG. FIG. 16 is an exemplary view showing a state in which the stimulation member of another embodiment shown in FIGS. 14 and 15 is provided on a sleeve of a garment.

  Hereinafter, based on FIGS. 1 to 16 of the accompanying drawings, a garment incorporating the fine current stimulating device according to the present invention will be described in detail.

  FIG. 1 is a perspective view of a garment in which a fine current stimulation device according to the present invention is incorporated, and FIG. 2 is a cross-sectional view taken along line EE of FIG. Referring to the figure, when the arm moves or behaves in the sleeve 70 portion of the garment 60, the fine current stimulating device 10 that generates a semi-permanent fine current and magnetic field by combining the movable magnet and the fixed coil is provided. The stimulating members 18 and 19 are provided at predetermined positions on one side of the sleeve 70 to apply the fine current generated from the fine current stimulating device 10 to the acupuncture points or the skin of the wrist of the human body and apply the stimulation. Is provided so as to be exposed on the surface.

  3 is a perspective view showing an embodiment of a fine current stimulating device applied to the present invention, FIG. 4 is an exploded perspective view of the fine current stimulating device shown in FIG. 3, and FIG. FIG. 6 is a cross-sectional view taken along line AA and BB of the fine current stimulating device shown in FIG. 3, and FIG. 6 is an operation state diagram of the fine current stimulating device shown in FIG.

  That is, the space 16a-1 is formed inside, and a rectangular body 16a having a height larger than the width is provided. The space 16a-1 formed in the body 16a has a disk-like shape inside. A movable magnet 15a is incorporated, and a coil 17 that generates a fine current and a magnetic field in combination with the movable magnet 15a is wound around the outer surface of the body 16a.

  Further, covers 11 and 12 are attached to both ends of the body 16a to prevent the movable magnet 15a from being pulled out by closing one side, and the wrists of the human body and skin are attached to both ends of the coil 17. Stimulation members 18 and 19 that are in contact with (muscles) and apply stimulation are connected.

  Here, the stimulating members 18 and 19 are preferably made of a conductive material that does not damage the skin when in contact with the wrist of the human body.

  Hereinafter, a process of applying a current stimulus in the state where the fine current stimulating device 10 according to the embodiment of the present invention having the above-described configuration is installed in the sleeve 70 of the garment 60 will be described.

  First, when the user wears the garment 60, the stimulating members 18 and 19 provided in the sleeve 70 come into contact with the acupuncture points or the skin of the wrist of the human body.

  In this state, as shown in FIG. 5 (a), in the stationary state where the user does not move or behave, the movable magnet 15a incorporated in the body 16a maintains the stationary state where it does not move. As a result, no fine current is generated in the coil 17.

  However, when the user is swinging or walking his arm, the vibration and impact are transmitted to the fine current stimulating device 10, and as shown in FIG. 6, an inclination occurs between the trunk 16a and the ground. The movable magnet 15a moves back and forth in the space 16a-1 formed inside the body 16a by the inclination angle.

  At this time, when the movable magnet 15a moves in the space 16a-1 formed in the body 16a, an induced current and a magnetic field are generated in the coil 17 wound around the outer surface of the body 16a. The induced current, that is, the fine current is transmitted to the stimulation members 18 and 19 to apply the fine current stimulation to the wrist acupuncture points and the skin, and the magnetic field is applied to the surroundings, whereby the wrist is passed through the stimulation members 18 and 19. Will irritate.

  FIG. 7 is a perspective view showing another embodiment of the fine current stimulating device 10 used in the present invention, FIG. 8 is an exploded perspective view of the fine current stimulating device shown in FIG. 7, and FIG. FIG. 10 is a cross-sectional view taken along line C-C and DD of the fine current stimulating device shown in FIG. 7, and FIG. 10 is an operation state diagram of the fine current stimulating device shown in FIG.

  That is, a cylindrical body 16b in which a space portion 16b-1 is formed is provided, and a cylindrical movable magnet 15b is incorporated in the space portion 16b-1 formed in the body 16b. A coil 17 that generates a fine current in combination with the movable magnet 15b is wound around the outer surface of 16b.

  Further, covers 11 and 12 are attached to both end portions of the body 16b to prevent the movable magnet 15b from being pulled out by closing one side, and the movable magnet is attached to the inner surface of one side of the covers 11 and 12. Fixed magnets 13 and 14 having the same polarity as the polarity of 15b are respectively provided, and stimulating members 18 and 19 made of a conductive material that is in contact with the human body and applies a stimulus are connected to both ends of the coil 17.

  Here, the Gauss value of the fixed magnets 13 and 14 needs to be extremely smaller than the Gauss value of the movable magnet 15b. The reason is that when the gauss value of the fixed magnets 13 and 14 is larger than the gauss value of the movable magnet 15b, the vertical movement distance of the movable magnet 15b becomes short and a desired fine current cannot be obtained.

  In addition, the fixed magnets 13 and 14 corresponding to the distal end of the movable magnet 15b have the same polarity, and the repulsive force acts to cause the movable magnet 15b to be fixed to the fixed magnets 13 and 14 when no repulsion occurs. The movable magnet 15b is lifted inside the space portion 16b-1 due to the attractive force and repulsive action, so that the stationary state where the movable magnet 15b does not move is maintained. As a result, the movable magnet 15b moves up and down in the space 16b-1 formed in the body 16b.

  Hereinafter, a process of stimulating current in a state where the fine current stimulating apparatus 10 according to another embodiment applied to the present invention having the above-described configuration is installed in the sleeve 70 of the clothing 60 will be described.

  First, when the user wears the clothing 60, the stimulating members 18 and 19 provided in the sleeve 70 come into contact with the acupoints or skin of the wrist of the human body.

  In this state, as shown in FIG. 9A, in the stationary state where the user does not move or behave, the movable magnet 15b incorporated in the body 16b is fixed to the fixed magnets 13 and 14. As a result, an attractive force and a repulsive force act on each other to maintain a stationary state floating inside the space portion 16 b-1, so that a minute current hardly occurs in the coil 17.

  However, when the user moves his arm or walks, the vibration and impact are transmitted to the fine current stimulating device 10, so that attractive force and repulsive force formed between the fixed magnets 13 and 14 and the movable magnet 15 b are generated. An imbalance occurs between the movable magnet 15b and the movable magnet 15b, which moves up and down in the space 16b-1 formed inside the body 16b.

  At this time, when the movable magnet 15b moves up and down in the space 16b-1 of the body 16b, an induced current and a magnetic field are generated in the coil 17 wound around the outer surface of the body 16b, and the generated induced current is generated. That is, the fine current is transmitted to the stimulation members 18 and 19, stimulating the acupoints and muscles of the wrist of the human body through the stimulation members 18 and 19, and a magnetic field is applied to the surroundings.

  FIG. 11 shows another embodiment of the body 16a, 16b in the fine current stimulating device 10 shown in FIGS. 3 to 6 and 7 to 10, and FIG. 11 (a) shows the body 16a. , 16b is provided with a recessed groove portion 16c formed by forming a step portion 16d on a part of one side of the surface, and (b) in FIG. 11 shows one of the body bodies 16a, 16b. A concave groove portion 16c generated by forming a step portion 16d is provided on the front surface on the side of this side, and the step portion 16d prevents the coil 17 from slipping out of the body 16a, 16b.

  FIGS. 12A and 12B are an exploded perspective view and a cross-sectional view showing still another embodiment of the fine current stimulating device used in the present invention, in which a space is formed and the bottom surface is closed. The body 41 is provided, and a first coil 42 is wound around the bottom surface of the body 41 to a predetermined thickness and the stimulating members 18 and 19 are connected to both ends. A movable magnet 43 is disposed on the upper surface of one coil 42, and a cover 44 for preventing the magnet 43 from being pulled out is provided above the tip of the body 41.

  Here, the movable magnet 43 has an appropriate space 47 between the first coil 42 and the inner surface of the cover 44 so as to be movable left and right.

  In the state where the fine current stimulating device 10 having the above-described configuration is installed in the sleeve 70 of the garment 60, in the stationary state where the user does not move or behave, the fine current stimulating device 10 does not tilt. Since the movable magnet 43 does not move on the first coil 42, a minute current hardly occurs in the first coil 42.

  However, when the user moves his / her arm or walks, shaking and impact are transmitted to the fine current stimulating device 10, so that an inclination occurs between the fine current stimulating device 10 and the ground, and the movable magnet 43 depends on the inclination angle. Will move in the space 47 formed inside the body 41.

  At this time, when the movable magnet 43 moves on the upper surface of the first coil 42, an induced current and a magnetic field are generated in the first coil 42, and the generated induced current, that is, a fine current is a stimulation member (not shown). 18 and 19, and a magnetic field is applied to the surroundings, whereby fine current stimulation is applied to the wrist acupuncture points and muscles through the stimulation members 18 and 19.

  FIGS. 13A and 13B are an exploded perspective view and a cross-sectional view showing another embodiment of the fine current stimulation device shown in FIG. 12, in which a space 47 is formed and the bottom surface is closed. The body 41 is provided, and a first coil 42 to which the stimulation members 18 and 19 are connected is fixed to both ends of the body 41 at a predetermined thickness. A movable magnet 43 is disposed on the upper surface of one coil 42, and a cover 44 is provided above the front end of the body 41 to prevent the magnet 43 from being pulled out. The coil 45 is fixed.

  Here, the movable magnet 43 has an appropriate space 47 between the first coil 42 and the second coil 45 so as to be movable left and right.

  In the state where the fine current stimulating device 10 according to another embodiment of the present invention having the above-described configuration is installed in the sleeve 70 of the garment 60, the fine current is applied in a stationary state where the user does not move or behave. Inclination does not occur in the stimulator 10, and the movable magnet 43 does not move back and forth in the space 47 between the first and second coils 42 and 45, whereby the first and second coils 42, In 45, almost no fine current is generated.

  However, when an inclination occurs between the fine current stimulating device 10 and the ground when the user moves or walks, the space 47 in which the movable magnet 43 is formed inside the body 41 by the generated inclination angle. It will move inside.

  At this time, if the movable magnet 43 moves 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, and the generated induction is generated. A current, that is, a fine current is transmitted to stimulation members 18 and 19 (not shown), and a magnetic field is applied to the surroundings, whereby a fine current stimulation is applied to the wrist acupuncture points and the skin via the stimulation members 18 and 19. .

  For this reason, in the embodiment of FIG. 13, the movable magnet 43 moves between the first and second coils 42 and 45, thereby generating a larger amount of fine current and magnetic field generation than those of the embodiment of FIG. It becomes possible.

  The fine current stimulating apparatus 10 according to another embodiment of the present invention shown in FIG. 12 and FIG. 13 includes a body 41, a cover 44, a movable magnet 43, and first and second coils 42 for convenience of explanation. , 45 are shown in a circular shape, but the shape is not particularly limited, and when it is actually provided on the sleeve 70 of the garment 60, it is preferably manufactured in a rectangular shape.

  Moreover, although the fine electric current stimulating device 10 which concerns on other embodiment of this invention shown by the said FIG.12 and FIG.13 is shown as the state set | placed horizontally for convenience of explanation, it is actually clothing 60. When it is provided on the sleeve 70, it is preferable to place it in a vertical state.

  The embodiment shown in FIGS. 3 to 6, the embodiment shown in FIGS. 7 to 10, and the fine current stimulating device 10 in the embodiments shown in FIGS. Although it is illustrated as being provided on 60 sleeves 70, the installation position of the fine current stimulating device 10 is not particularly limited, and may be provided on either an upper garment, a lower garment, or an undergarment as necessary.

  3 to 6 of the present invention, the embodiment shown in FIGS. 7 to 10, and the fine generated from the fine current stimulating device 10 in the embodiment shown in FIGS. 12 and 13. The electric current provides an exercise effect through the repeated action of muscle contraction and relaxation by stimulating the acupoints and muscles of the wrist of the human body, reducing the lactic acid of the muscles and making it feel less tired, oxidase by changing the enzyme Not only can it prevent activity, but as the distribution of capillaries in the muscles increases, peripheral blood vessels are dilated and blood flow is increased, as well as tens to hundreds so that growth growth can be promoted through stimulation of the growth plate It is necessary to output μA, and a desired fine current can be obtained by adjusting the Gauss value of the movable magnets 15a, 15b, 43 and the number of turns of the coils 17, 42, 45.

  In general, it provides an exercise effect by the repeated action of contraction and relaxation of human muscles, reduces muscle lactic acid and makes fatigue less, prevents oxidase activity by changing enzymes, and increases the distribution of capillaries in muscles A suitable fine current that can be expected to increase blood flow by expanding peripheral blood vessels and stimulate height growth by stimulating the growth plate of the human body is about 10 to 200 μA, and the movable magnets 15a, 15b, When 43 is 500 to 3,000 gauss and the coils 17, 42 and 45 are 500 to 20,000 turns, a minute current in the range of 10 to 200 μA is generated from the minute current stimulating device 10 of the present invention. Was confirmed through experimental results.

  Here, the Gaussian values of the movable magnets 15a, 15b, and 43 and the number of turns of the coils 17, 42, and 45 depend on the desired degree of fine current generation, and therefore the range thereof is not limited.

  In particular, the fine current stimulating device 10 in the embodiment shown in FIGS. 3 to 6, the embodiment shown in FIGS. 7 to 10, and the embodiment shown in FIGS. The movable range of the movable magnets 15a, 15b, 43 increases as the impact with the ground by jogging or the like increases, and the moving speed increases. The value can be output even higher and effects such as lactic acid reduction in the muscle can be maximized.

  FIG. 14 is a perspective view and a cross-sectional view showing another embodiment of the stimulation members 18 and 19 in the fine current stimulation apparatus 10 applied to the present invention, and FIG. 15 is still another implementation of the stimulation members 18 and 19. FIG. 16 shows a state in which the stimulating members 18 and 19 of the other embodiment shown in FIGS. 14 and 15 are provided on the sleeve 70 of the garment 60.

  That is, as shown in FIGS. 14A and 14B, a plate-like conductive sheet 51 made of a conductive material having a thickness of 0.01 to 0.5 mm is provided, and the upper surface of the conductive sheet 51 is arranged. Further, a contact projection 52 that comes into contact with the skin of the wrist of the human body is projected.

  Further, as shown in FIG. 15, a conductive net 53 made of a conductive material having a thickness of 0.01 to 0.5 mm and woven in a fiber shape is provided, and a human body is disposed on the upper surface of the conductive net 53. A contact protrusion 52 that comes into contact with the wrist skin is projected.

  As the material of the conductive sheet 51 and the conductive net 53, gold, silver, copper, or the like having an extremely low electric resistance value can be used. However, it is preferable to use copper from the economical aspect. There is no limitation, and the contact protrusions 52 formed on the conductive sheet 51 and the conductive net 53 are formed by pressing the bottom surface.

  14 and 15, the stimulation members 18 and 19 of the other embodiment shown in FIG. 14 and FIG. 15 are sewn into the sleeve 70 of the garment 60 as shown in FIG. By exposing to the outside, the skin of the wrist of a large area of the human body is not only increased in efficiency by simultaneously applying fine current stimulation and magnetic field, but also has the merit that it can be sewn. Applicable to various items.

  Here, when the conductive sheet 51 and the conductive net 53 are formed to have a thickness of less than 0.01 mm, there is a concern that the conductive sheet 51 and the conductive net 53 may be torn when the garment 60 is washed. The thickness increases in the range of 0.01 to 0.5 mm because there is a disadvantage in that the human body is damaged as a result of increasing the load and increasing the flexibility and decreasing the flexibility.

  As described above, the present invention is provided with a fine current stimulating device that generates a semi-permanent fine current and magnetic field in the sleeve of the garment, and provides an exercise effect by the repeated action of wrist muscle contraction and relaxation, Not only can muscle lactic acid be reduced to make you feel less tired, but not only can oxidase activity be prevented by changes in the enzyme, but also the peripheral blood vessels are expanded as the distribution of capillaries increases in the muscles to increase blood flow. It can be useful and give benefits to the human body.

  The present invention is equipped with a fine current stimulation device that generates a fine current and a magnetic field semi-permanently, and provides an exercise effect by the repeated action of wrist muscle contraction and relaxation, reducing muscle lactic acid and reducing fatigue. Not only can the oxidase activity be prevented by the change of the enzyme, but the peripheral blood vessels are expanded as the distribution of the capillaries in the muscles increases, which helps to increase blood flow. It will be available.

DESCRIPTION OF SYMBOLS 10: Fine current stimulating device 11, 12: Cover 13, 14: Fixed magnet 15a, 15b: Movable magnet 16a, 16b: Body 16c: Groove part 16d: Step part 17: Coil 18, 19: Stimulation member 41: Body 42: First coil 43: Movable magnet 44: Cover 45: Second coil 47: Space 51: Conductive sheet 52: Contact projection 53: Conductive net 60: Clothing 70: Sleeve

Claims (8)

A rectangular body (16a) having a space (16a-1) formed therein, a disk-shaped movable magnet (15a) incorporated in the space (16a-1), and the body (16a) A coil (17) that generates a fine current and a magnetic field in combination with the movable magnet (15a), and a movable magnet (15a) that is provided at both ends of the body (16a). There is provided a fine current stimulating device (10) comprising a cover (11) (12) for preventing and a stimulating member (18) (19) which is provided at both ends of the coil (17) and applies a fine current stimulus to the human body. Deployed,
The body (16a) of the fine current stimulating device (10) is provided on one side of the sleeve (70) of the garment (60), and the stimulating members (18) (19) are acupuncture points of the wrist of the human body. A garment having a built-in fine current stimulation device, wherein the garment is exposed to the surface so as to be in contact with the skin. A cylindrical body (16b) having a space (16b-1) formed therein, a columnar movable magnet (15b) incorporated in the space (16b-1), and the body (16b) The coil (17) that is provided on the outer surface of the coil and generates a fine current in combination with the movable magnet (15b), and is provided at both ends of the body (16b) to prevent the movable magnet (15b) from being detached. Covers (11) and (12), fixed magnets (13) and (14) provided on the inner surface of one side of the covers (11 and 12) and having the same polarity as that of the movable magnet (15b), A fine current stimulation device (10) provided with stimulation members (18) and (19) provided at both ends of the coil (17) to stimulate the human body,
The body (16b) of the fine current stimulating device (10) is provided in the sleeve (70) of the garment (60), and the stimulating members (18) (19) are in contact with the acupoints of the wrist of the human body and the skin. As described above, a garment having a built-in fine current stimulating device characterized in that the surface is exposed to the outside. A body (41) having a space portion formed therein and closed at the bottom is provided, and a first end whose both ends are connected to stimulation members (18) and (19) on the bottom of the body (41). A coil (42) is fixed, a movable magnet (43) is disposed on the upper surface of the first coil (42), and the magnet (43) is removed above the tip of the body (41). A fine current stimulating device (10) provided with a cover (44) for preventing removal;
The body (41) of the fine current stimulator (10) is provided inside a sleeve (70) of the garment (60),
The stimulation member (18) (19) is a garment having a built-in fine current stimulation device, wherein the stimulation member (18) (19) is provided on the surface so as to be in contact with the acupoint of the wrist of the human body and the skin.   The concave portion (16c) for preventing the coil (17) from being pulled out is formed on one side of the body (16a) (16b). Clothing with a built-in fine current stimulator.   The movable magnet (15a) (15b) (43) and the coil (17) (42) combine to generate a fine current of 10 to 200 μA according to any one of claims 1 to 3. Clothing with a built-in fine current stimulator.   The stimulation member (18) (19) is provided with a plate-like conductive sheet (51) made of a conductive material having a thickness of 0.01 to 0.5 mm, and a human body is disposed on the upper surface of the conductive sheet (51). 4. A garment having a built-in micro-current stimulator according to claim 1, wherein a contact protrusion (52) is provided in contact with the skin of the wrist.   The stimulating member (18) (19) is provided with a conductive net (53) made of a conductive material having a thickness of 0.01 to 0.5 mm and woven in a fiber shape, and the conductive net (53 The fine current stimulating device according to any one of claims 1 to 3, wherein a contact protrusion (52) is provided on the upper surface of the contact member for contacting the skin of a human wrist. clothing. The garment incorporating the fine current stimulator according to claim 3, wherein the second coil (45) is fixed to the inner surface of the cover (44).

Images