KR20190068810A - A Healthy Bed with a Structure of Applying a Micro Current - Google Patents

Abstract

The present invention relates to a healthy bed having a micro current applied structure, and specifically to a healthy bed having a micro current applied structure which detects a portion in contact with a human body and applies micro currents to a human body by a predetermined method. The healthy bed having a micro current applied structure comprises: a base module which comprises a center unit (11) and at least one connection unit (12, 13) capable of adjusting inclination with respect to the center unit (11); at least one micro current electrode (ME1 to ME32) which is placed in the center unit (11) or the at least one connection unit (12, 13); a distribution unit (17) which sets an application of micro currents for micro current electrodes (ME1 to ME32) different from each other; and a micro current generator (18) which supplies micro currents to the distribution unit (17).

Description

{Healthy Bed with a Micro Structure}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a health bed of a micro current application structure, and more particularly, to a health bed of a micro current application structure in which a micro current is applied in a manner determined by a human body.

In general, the microcurrent refers to a current of less than 1000 ㎂, and a bioelectric current of 40 to 60 인 in the human body flows for signal transmission between the internal organs inside the human body. As described above, the body current flowing through the human body can be weakened when the body state becomes unstable, which may weaken the health condition. Therefore, a microcurrent inducing the flow of the human body current flowing through the human body can be forcibly applied to the human body. The micro currents applied to the human body are known to be effective in the recovery of body ability, and the micro currents are effective in increasing adenosine triphosphate production, promoting healing of fractures, improving blood circulation, alleviating pain, treating diabetes, treating osteoporosis and treating arthritis. Micro-currents are also known to help prevent hair loss or treat sleep disorders. Thus, micro currents applied to beds of various shapes or uses can help to treat sleep disorders or improve health.

As a prior art related to bed, Patent Publication No. 10-2015-0117955 allows generation of a microcurrent by itself while generating a quantum wave, and a therapeutic effect utilizing a microcurrent and a therapeutic effect using a quantum wave Into a single microcurrent bed to enable more extensive mental and physical energy therapy. In addition, Japanese Patent Laid-Open Publication No. 10-2017-0030938 discloses a near infrared ray functional bed including an infrared ray generating module for generating infrared rays and a frame for fixing the infrared ray module according to the size of the infrared ray module.

It is advantageous for the bed to have various uses and to have a structure capable of generating an infrared ray or anion having a function useful for the human body as needed, by applying a minute current in a proper form according to each use or environment of use . However, the prior art does not disclose a bed having such a structure.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Publication No. 10-2015-0117955 (published by Kim, Kim, October 21, 2015) Prior Art 2: Patent Publication No. 10-2017-0030938 (published by INSWELL CORPORATION, Mar. 20, 2017) Near infrared functional bed

SUMMARY OF THE INVENTION It is an object of the present invention to provide a health bed of a micro current application structure in which a predetermined type of micro current is applied to a bed having various structures or uses.

According to a preferred embodiment of the present invention, the health bed of the micro current application structure includes a base unit and at least one connecting unit that is adjustable in inclination with respect to the center unit; At least one micro current electrode disposed in the central unit or at least one connection unit; A distribution unit for setting an application of a fine current to the different minute current electrodes; And a micro current generator for supplying a micro current to the distribution unit.

According to another preferred embodiment of the present invention, the apparatus further comprises an operation-starting electrode disposed on a peripheral bottom surface formed on at least one peripheral surface of the base module.

According to yet another preferred embodiment of the present invention, the micro-current generator is operated based on information transmitted from the contact sensor, wherein the micro-current generator is operated.

According to another preferred embodiment of the present invention, the functional dome further comprises a circular tunnel shaped dome coupled to the base module.

The bed according to the present invention improves the efficacy of the functional bed by applying a micro current to the bed having various uses. In addition, the bed according to the present invention increases the effect of the micro current application by applying the micro current while adjusting the temperature. In addition, the bed according to the present invention can be used for various purposes while applying a fine current suitable for each use.

FIG. 1 shows an embodiment of a bed having a micro-current applying structure according to the present invention.
FIG. 2 shows an embodiment of the operation of the bed of the micro-current applying structure according to the present invention.
FIG. 3 illustrates another embodiment of a bed having a micro-current application structure according to the present invention.
FIG. 4 shows an embodiment of a micro current application structure applied to a bed according to the present invention.
FIG. 5 illustrates an electrode structure for applying a microcurrent applied to a bed according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

FIG. 1 shows an embodiment of a bed having a micro-current applying structure according to the present invention.

Referring to Fig. 1, a bed having a minute current application structure includes a base module 11 and at least one connection unit 12, 13 which can be inclined with respect to the central unit 11; At least one micro current electrode (ME1 to ME32) arranged in the central unit (11) or at least one connection unit (12, 13); A distribution unit (17) for setting an application of a fine current to the different minute current electrodes (ME1 to ME32); And a micro current generator 18 for supplying micro currents to the distribution unit 17.

The base module can be made in a structure in which a person can be laid as a whole. For example, the base module 11 can be connected to one side of the central unit 11, And two connecting units 13 connected to the other side of the central unit 11 so that the legs can be positioned.

The central unit 11 is of a planar shape and the first and second connecting units 12 and 13 can be coupled to the central unit 11 such that the inclination is adjusted by the operation of a driving means such as a motor. 1 and 2 connecting units 12 and 13 can be connected to be inclined in various ways by gears, brackets or similar mechanical means and are not limited to the embodiments shown.

The micro current electrodes ME1, ME21 to ME32 can be arranged in the central unit 11 and the one or two connection units 12 and 13 respectively and each of the micro current electrodes ME1, ME21 to ME32 can be independently operated Or can be operated together. The minute current electrodes ME1, ME21 to ME32 may be arranged based on the contact form of the human body with respect to the base module. Each of the minute current electrodes ME1, ME21 to ME32 can be disposed on the bottom surface of the central unit 11 and the one or two connecting units 12, 13 in such a manner as to be in contact with the human body. For example, the minute current electrodes M21 and M22 may be disposed in the lower portion and the upper portion of the central unit 11, respectively, such that the minute current electrodes M21 and M22 are perpendicular to the longitudinal direction. In addition, one or more minute current electrodes ME1 may be disposed in the middle of one connecting unit 12 in a strip-like direction perpendicular to the longitudinal direction. On the other hand, the strip-shaped micro current electrodes ME31 and ME32 extending in the longitudinal direction may be arranged to face each other in the two connection units 13 where the legs are located. The micro current electrodes ME1, ME21 to ME32 having various shapes in the base module can be arranged in various numbers or structures to suit the contact form of the human body and are not limited to the illustrated embodiments.

The micro current electrodes ME1, ME21, ME22 and ME31, ME32 arranged in the central unit 11, the one connecting unit 12 and the two connecting units 13 can be operated independently or can be operated together. Independent operation means that the minute current electrodes ME1 (ME21, ME22; and ME31, ME32) disposed in the central unit 11 and the one and the two connection units 12, 13 are operated regardless of the other parts. The micro current electrodes ME21, ME22, ME31 and ME32 arranged in one connection unit 12 and two connection units 13 in the process of operating the micro current electrode ME1 arranged in the central unit 11, for example, May not be operated. ME21, ME22, and ME31 (ME21, ME22) and ME31 (ME21, ME22) and ME31 (ME21, ME22) and ME31 (ME31 and ME31) based on the information transmitted from the contact sensor , ME32) can be operated. The operation of the micro current electrodes ME1 (ME21, ME22; and ME31, ME32) can be adjusted in various ways and is not limited to the embodiments shown.

An operation setting unit (14) on the lower surface of the base module or other appropriate position; The micro-current generator 18, in which the distribution unit 17 and the switch module 16 can be arranged and which supplies micro currents to the respective micro current electrodes ME1, ME21, ME22 and ME31, ME32, Position. The operation setting unit 14 is electrically connected to each of the minute current electrodes ME1, ME21, ME22, and ME31, ME32 to determine the operation state of each of the minute current electrodes ME1, ME21, ME22, You can have the ability to set. Specifically, the operation setting unit 14 can establish a connection to each of the minute current electrodes ME1 (ME21, ME22; and ME31, ME32) based on the fine current data transmitted from the control module.

According to one embodiment of the present invention, it may comprise actuating start electrodes ME41, ME42, ME43 arranged on a peripheral bottom surface 15 formed on at least one circumferential surface of the base module.

The peripheral floor surface 15 may be formed on the side floor of the base module, and the floor surface may be divided into a rectangular plate shape or a rectangular plate-shaped bottom plate. At least one operation start electrode ME41, ME42 and ME43 may be disposed on the peripheral floor surface 15 and each of the operation start electrodes ME41, ME42 and ME43 may be connected to the distribution unit 17. [ The operation starting electrodes ME41, ME42 and ME43 can be operated independently with the function of starting or stopping the operation of the minute current electrodes ME1 (ME21, ME22; and ME31, ME32). Specifically, the operation starting electrodes ME41, ME42, and ME43 may have contact portions corresponding to the application of the pressure. For example, the contact portions may contact each other due to the contact of the sole, . The distribution unit 17 determines whether or not to apply the minute current to the operation starting electrodes ME41, ME42 and ME43 or the minute current electrodes ME1, ME21, ME22, ME31 and ME32 based on the information on the contact state of the contact portion Can be set. ME21, ME22; and ME31, ME32) while applying a fine current to the operation starting electrodes ME41, ME42, and ME43 when the contact state is determined to be maintained for a long period of time Authorization can be restricted. If a micro current is applied to the operation starting electrodes ME1, ME21, ME22, and ME31, ME32 when the peripheral bottom surface 15 is used for the treatment or massage of the human body, a micro current flows through the massage person to the base module Can be delivered to the person who is located. Therefore, a minute current can not be applied to the minute current electrodes ME1 (ME21, ME22; and ME31, ME32), or a relatively low level of minute current can be applied. ME21, ME22, ME31 and ME31, ME31, ME22 and ME43 are not applied to the operation starting electrodes ME41, ME42, ME43 unless the contact state is maintained for a short time, ME32). ≪ / RTI > In this way, the operation starting electrodes ME41, ME42 and ME43 may have a function of limiting or initiating application of the minute current to the minute current electrodes ME1 (ME21, ME22; ME31, ME32).

The operation starting electrodes ME41, ME42 and ME43 may be arranged on the circumferential bottom surface in a plurality of separate shapes, and each of the operation starting electrodes ME41, ME42 and ME43 may be formed into a linear band shape. Each of the operation starting electrodes ME41, ME42 and ME43 can be electrically connected to the distribution unit 17. [ The distribution unit 17 determines whether or not the micro current is applied to the operation starting electrodes ME41, ME42 and ME43 or the micro current electrodes ME1, ME21, ME22, ME31 and ME32, It can have a function to set the period. The perimeter bottom surface 15 may be formed at various locations on the circumferential surface of the base module, but may preferably be disposed in a direction in which a person approaches the base module. In addition, the operation starting electrodes ME41, ME42, and ME43 may be disposed in a form separated from each other or located on the entire circumference bottom surface 15 in a single form.

A minute current of a magnitude of 1 to 1,000 占 크기 may be generated from the fine current generator 18 and a fine current in the form of a pulse may be generated for example to generate the operation start electrodes ME41, ME42, ME43 or the fine current electrodes ME1 and ME21 , ME22, ME31, ME32). The fine current generated in the fine current generator 18 can be transmitted to the distribution unit 17 through the adjustment module 16. [ The adjustment module 16 may have the function of switching and limiting the magnitude or cycle of the microcurrent according to the contact state or upon the request of the distribution unit 17. [

The actuation of the microcurrent on the base module or perimeter bottom surface 15 can be accomplished in a variety of ways.

FIG. 2 shows an embodiment of the operation of the bed of the micro-current applying structure according to the present invention.

The bed may have various functions and includes an electrode module 241 for applying a minute current; A temperature adjustment module 242 for adjusting the temperature around the bed or bed; A magnetic module 243 for applying a magnetic field to the human body or an anion module 244 for generating negative ions. It may also include various types of modules that generate infrared rays, phytoncide, or components useful in the human body. The operation of these various modules can be controlled by the control module 21. [ The control module 21 is connected to the operation setting module 22 for setting the operating conditions of the respective function modules 241, 242, 243 and 244 to the operating conditions of the respective function modules 241, 242, 243 and 244 Information can be transmitted. The operation setting module 22 can adjust the operation of the connection setting module 23 to establish a connection to each of the function modules 241, 242, 243, and 244. [ The electrode module 241 may include a plurality of micro current electrodes including the activation start electrodes described above, and the connection setting module 23 may each establish a connection to the micro current electrode. The connection setting module 23 can establish a connection to each of the function modules 241, 242, 243, and 244 according to a predetermined method or based on the information transmitted from the contact sensor 25. [ The contact sensor 25 can be placed at various positions around the bed or bed and the information detected at the contact sensor 25 can be transmitted to the control module 21 and the connection setting module 23. [ The connection setting module 23 can establish the connection of the respective function modules 241, 242, 243, and 244 based on the information transmitted from the contact sensor 25 and the information transmitted from the control module 21. [

The information detected by the touch sensor 25 can be transmitted to the control module 21 via the fine current data unit 27. [ The fine current data unit 27 can generate fine current data based on a preset reference or information transmitted from the contact sensor 25. [ The fine current data unit 27 can generate data on the magnitude of the fine current applied to each fine current electrode forming the electrode module 241. [ According to one embodiment of the present invention, the operating states of the different functional modules 241, 242, 243 and 244 are relevant, for example the operating level of the electrode module 241 is controlled by the temperature regulation module 242, Can be determined depending on the operating level of the apparatus. The operating level of the magnetic module 243 may also be determined according to the operating level of the electrode module 241 and the temperature regulation module 242. [ The operating state of such a function module may be detected by the detection module 26 and the information detected by the detection module 26 may be transmitted to the control module 21 or the operation setting module 22. [

The fine current data may have data on the relation between the different function modules 241, 242, 243 and 244, and the fine current data may be transmitted to the operation setting module 22 and stored. And the connection state of the connection setting module 23 can be adjusted based on the fine current data according to the information transmitted from the detection module 26. [

The health beds according to the present invention can be operated in various ways and are not limited to the embodiments shown.

FIG. 3 illustrates another embodiment of a bed having a micro-current application structure according to the present invention.

Referring to FIG. 3, the health bed may include a functional dome 31 in the form of a circular tunnel, coupled to the base module. The functional dome 31 may be in the form of a tunnel or a semi-cylinder, and may be made in a structure extending along the longitudinal direction. The functional dome 31 may have a structure that can be moved along the guide guides 311a and 311b, or a structure in which the upper portion can be opened. For example, by the operation of the drive module 35, the functional dome 31 can move in the longitudinal direction of the base module, thereby covering other parts of the human body lying on the base module. For example, the functional dome 31 can periodically reciprocate along the guide guides 311a and 311b.

A phononchord generating unit, an infrared ray generating unit or similar functional units 32_1 to 32_N may be disposed along the inner surface of the functional dome 31 and the bottom surface B of the base module may be provided with niobium or germanium The same magnetic field generating unit can be arranged. Also, at least one hot wire 331, 332 may be disposed along the bottom surface of the base module. At least one temperature detection unit 261a, 261b may be disposed on the floor B and information detected by the temperature detection units 261a, 261b may be transmitted to the control module 21. [ And as described above, the finer generating electrode may be disposed on the bottom surface B of the base module.

The control module 21 can adjust the amount of the fine current supplied from the fine current generator 18 based on the temperature detected by the temperature detection units 261a and 261b. The temperature of the human body can be changed according to the supply of the minute current and the control module 21 can control the temperature of the heat rays 331 and 332 by controlling the operation of the heater 34 according to the change of the human body temperature. Also, the operation of the functional units 32_1 to 32_N or the magnetic field generating unit can be adjusted in accordance with the change of the human body temperature.

The functional dome 31 may have various operating structures and the present invention is not limited to the embodiments shown.

FIG. 4 shows an embodiment of a micro current application structure applied to a bed according to the present invention.

4, the placement layer 42 may be disposed above the bottom surface B and the micro current electrodes E1 and E2 and the micro-current generator 18 may be connected to the placement layer 42 And the separation layer 44 and the minute current electrodes E1 and E2 may be disposed above the arrangement layer 42. The separation layer 44 may be disposed on the arrangement layer 42. [ The arrangement layer 42 and the separation layer 44 may be made of an insulating material made of, for example, ceramic, silicon, yellow soil, synthetic resin, or a mixture thereof. Further, the minute current electrodes E1 and E2 may have a plate-like structure extending linearly, and may be made in a structure protruding upward from the separation layer 44 to be in contact with the human body.

A temperature / current table can be generated by the temperature / current table unit 41 in order to apply a microcurrent suitable for the state of the human body located on the bottom surface B. The temperature current table can be made empirically or experimentally with temperature-current correlation data that produces a human-friendly effect. The contact state of the human body with respect to the minute current electrodes E1 and E2 can be detected by the contact sensor 25 and the information detected by the contact sensor 25 can be transmitted to the control module 21. [ The temperature / current table generated by the temperature / current table unit 41 can be transmitted to the microcurrent operating unit 181. [ And the contact information detected by the contact sensor 25 can be transmitted to the microcurrent actuation control unit 181. [ The micro-current actuation control unit 181 can control the operation of the micro-current generator 18 based on the contact information detected by the temperature / current table and the contact sensor 25. The air circulation in the upper part of the bottom surface B can be controlled by the circulation control unit 261 in the process of applying the minute current by the micro current generator 18. [ The circulation control unit 261 may be disposed on the ceiling of the functional dome described above, and the circulation control unit 261 may be an air circulation unit including driving means such as a driving motor.

The microcurrent can be applied based on various parameters and is not limited to the embodiment shown.

FIG. 5 illustrates an electrode structure for applying a microcurrent applied to a bed according to the present invention.

Referring to FIG. 5, the micro current electrode may be formed of a terminal group structure, and at least two electrode terminals 55_1 to 55_K may be formed of electrode terminal groups arranged so as to be related to each other. The group electrode terminals 55_1 to 55_K or 56_1 to 56_N forming one group can be disposed on the group substrates 541 and 542 made of an insulator respectively and the group electrode terminals 55_1 to 55_K or 56_1 to 56_N, 56_N may be distributed by the distributors 531, 532. The distributors 531, The fine current may be applied to the group electrode terminals 55_1 to 55_K or 56_1 to 56_N in the form of pulses and the fine current generator may include the pulse generating unit 52. [ The pulse structure generated by the pulse generating unit 52 may be determined by the stimulus data unit 51. [ The stimulus data may be applied in the form of pulses, for example, pulses may be applied in the form as shown on the right side of FIG. The microcurrent can be applied in the form of pulses, and the pulses can be applied periodically. For example, at least two stimulation pulses may be applied in one period T, and a threshold-value prevention pulse may be applied between the stimulation pulses. The stimulus pulses may have the same or different sizes or durations with the same polarity, and the anti-threshold pulses may have a small size and a short duration with different polarity from the stimulus pulses.

The stimulus data generated by the stimulus data unit 51 may have various structures and is not limited to the illustrated embodiment.

The bed according to the present invention improves the efficacy of the functional bed by applying a micro current to the bed having various uses. In addition, the bed according to the present invention increases the effect of the micro current application by applying the micro current while adjusting the temperature. In addition, the bed according to the present invention can be used for various purposes while applying a fine current suitable for each use.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

11: central unit 12, 13: 1, 2 connecting unit
14: Operation setting unit 15:
16: Switch module 17: Distribution unit
18: fine current generator 21: control module
22: Operation setting module 23: Connection setting module
25: contact sensor 26: detection module
27: Micro current data unit 31: Functional dome
32_1 to 32_N: functional unit 34: heater
35: drive module 41: temperature / current table unit
42: Layout layer 43: Connection wiring
44: Separation layer 51: Stimulus data unit
52: Pulse generating units 55_1 to 55_K: Electrode terminal
181: Micro-current operation control unit 241: Electrode module
242: temperature control module 243: magnetic module
244: negative ion module 261: circulation control unit
261a, 261b: Temperature detection unit 311a, 311b: Induction guide
331, 332: heat line 531, 532: distributor
541, 542: group substrate B: bottom surface
E1, E2: Micro current electrodes ME1 to ME32: Micro current electrodes
ME41, ME42, ME43: Start-up electrodes

Claims (4)

A base module consisting of a central unit (11) and at least one connecting unit (12, 13) which can be inclined with respect to the central unit (11);
At least one micro current electrode (ME1 to ME32) arranged in the central unit (11) or at least one connection unit (12, 13);
A distribution unit (17) for setting an application of a fine current to the different minute current electrodes (ME1 to ME32); And
And a micro current generator (18) for supplying a micro current to the distribution unit (17). The health care bed of claim 1, further comprising an operation-initiating electrode (ME41, ME42, ME43) disposed on a peripheral floor surface (15) formed on at least one circumferential surface of the base module. The system according to claim 2, further comprising a contact sensor (25) detecting contact with the peripheral bottom surface (15), characterized in that the micro current generator (18) is activated based on information transmitted from the contact sensor A micro-current applied structure of the health bed. The health care bed of claim 1, further comprising a functional dome (31) in the form of a circular tunnel coupled to the base module.

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