KR20200005899A - Portable Micro-Current Devices - Google Patents

Abstract

The present invention relates to a portable microcurrent device combining a low frequency wave and a microcurrent to maximize various physical mitigation and cosmetic effects, such as pain relaxation, fatigue dissolution, skin-aging mitigation, skincare and the like. According to the present invention, the portable microcurrent device comprises: an input unit receiving an input signal for selecting one of a plurality of output modes; a microcurrent generation unit generating a microcurrent in accordance with the input signal of the input unit; a low frequency wave generation unit generating a low frequency wave in accordance with the input signal of the input unit; an output unit outputting the microcurrent and the low frequency wave generated from the microcurrent generation unit and the low frequency wave generation unit, respectively; and a control unit controlling the microcurrent generation unit and the low frequency wave generation unit to selectively output the microcurrent and the low frequency wave through the output unit in accordance with the output mode inputted from the input unit.

Description

Portable Micro-Current Devices

The present invention relates to a portable microcurrent device, and more particularly, a portable microcomputer for maximizing various treatments and cosmetic effects such as pain relief, fatigue relief, skin aging improvement, and skin beauty by combining low frequency and microcurrent while the user is carrying. Relates to a current device.

The method of managing pain by giving electric stimulation to the body has been widely used in the medical field for a long time, and in particular, the physiotherapy device using low frequency has become one of the electric therapy devices that can be easily purchased and used by anyone on the market.

Treatment methods using such conventional medical electric therapy devices include electric stimulation therapy (EST), transdermal nerve electric stimulation therapy (TENS), high pressure pulsation therapy (HVPC), and the like. These electric therapy devices have a current of milliampere (㎃). It is supplied in units of and is configured to stimulate specific parts of the body.

Therefore, in the conventional electrotherapy device, since the current applied to the body is supplied at a high current, the user can feel the stimulation applied to the body at the time of use to the skin in most cases.

As a result, users who use a conventional electrotherapy device have a strong psychological state that they are treated by electrical stimulation applied to the skin, and a strong stimulus applied to the skin of the body due to the high current supplied from the electrotherapy device. Reluctance to use or not use at all was happening with the situation.

On the other hand, the human body is known to generate bioelectrics in the range of about 40 ~ 60 kHz during the intercellular mass transfer process.

That is, electricity is generated in the process of constantly changing materials such as sodium, potassium, calcium, and other anionic electrodes such as cations and chlorine with the cell membrane interposed therebetween. Such bioelectricity promotes cellular function and intercellular signal transduction function. It is known that it is possible to regenerate wounded tissues, to secrete various hormones and neurotransmitters, and to kill various bacteria and viruses that have penetrated the human body. .

For example, in 1990 Dr. Stephen Kalli of the Albert Einstein School of Medicine, New York, announced that the AIDS virus would not survive if 50 microns of microcurrent were flowed into a culture dish containing blood and AIDS virus. As a result, research and development of therapeutic devices using microcurrents have been rapidly made.

The microbiome generated in the human body does not generate bioenergy two days after the trauma or injury of the body, but the micro-current is very similar to the inherent bioelectric current of the human body. As it uses low electric current of hundreds of micro amperes, when the microcurrent is energized from the outside to the human body, it increases the amount of current of the wounded tissue through the role of supplementing the biocurrent in the human body. It is known to heal wounds and relieve pain, affect the electrical stimulation effect on muscles, changes in metabolism and changes in blood vessels.

However, the conventional low-frequency electrotherapy device has a risk of suppressing or stopping the physiological activity of the human body due to the strong stimulation using a high voltage and a few milliamperes of current.

In addition, since the electrotherapy device is difficult to carry, a situation in which a user needs to carry a portable device that can easily see the beauty as well as improve the body by using electricity.

Korea Registration Room No. 20-0370757 (2004.12.08)

Accordingly, an object of the present invention is to provide a portable microcurrent device for maximizing various body improvement and beauty effects such as pain relief, fatigue relief, skin aging improvement, skin beauty by combining low frequency and microcurrent.

The portable microcurrent device according to the present invention includes an input unit for receiving an input signal for selecting one of a plurality of output modes, a microcurrent generator for generating a microcurrent according to the input signal of the input unit, and the input signal according to the input signal. A low frequency generator for generating a low frequency, an output unit for outputting the microcurrent and the low frequency generated from the microcurrent generator and the low frequency generator, and the microcurrent and the low frequency selectively according to an output mode input from the input unit And a controller configured to control the microcurrent generator and the low frequency generator to output the output through the output unit.

In the portable microcurrent device according to the present invention, the controller controls the microcurrent generator and the low frequency generator to output the microcurrent and the low frequency through the output unit in a predetermined pattern.

In the portable microcurrent device according to the present invention, the control unit controls the microcurrent generator and the low frequency generator to combine the microcurrent and the low frequency at a predetermined cycle and output the same through the output unit.

In the portable microcurrent device according to the present invention, the control unit receives an output period of the microcurrent and the low frequency through the input unit, and sets the output mode.

In the portable microcurrent device according to the present invention, the apparatus further comprises a power supply unit having at least one battery to supply power to the controller.

The portable microcurrent device according to the present invention includes a microcurrent generator for generating a microcurrent according to an input signal of an input unit and a lowfrequency generator for generating a low frequency according to an input signal of an input unit, and an output mode in which the controller is input from the input unit. By controlling the micro-current generator and low-frequency generator to selectively output the micro-current and low-frequency through the output unit, various body improvements and beauty such as pain relief, fatigue relief, skin aging, skin coordination by combining low-frequency and micro-current The effect can be maximized.

1 is a block diagram showing the internal configuration of a portable microcurrent device according to the present invention.
2 is a view showing a portable microcurrent device according to the present invention.
3 is an exemplary view showing a wearing state of the portable microcurrent device according to the present invention.
4 is a front view of a portable microcurrent device according to an embodiment of the present invention.

In the following description, only parts necessary for understanding the embodiments of the present invention will be described, it should be noted that the description of other parts will be omitted so as not to distract from the gist of the present invention.

The terms or words used in the specification and claims described below should not be construed as being limited to the ordinary or dictionary meanings, and the inventors are suited to the concept of terms in order to explain their invention in the best way. It should be interpreted as meanings and concepts in accordance with the technical spirit of the present invention based on the principle that it can be defined. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only preferred embodiments of the present invention, and do not represent all of the technical idea of the present invention, and various equivalents may be substituted for them at the time of the present application. It should be understood that there may be variations and variations.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, an internal configuration of a portable device according to the present invention will be described.

1 is a block diagram showing the internal configuration of a portable microcurrent device according to the present invention.

Referring to FIG. 1, the portable microcurrent device 100 according to the present invention includes an input unit 10, a display unit 20, a storage unit 30, a power supply unit 40, a microcurrent generation unit 50, and low frequency generation. The unit 60 may include an output unit 70 and a control unit 80.

The input unit 10 receives signals related to setting and function control of various functions of the portable microcurrent device 100 and transmits the signals to the controller 80. In particular, the input unit 10 receives an input signal for selecting one of a plurality of output modes. The input unit 10 may include at least one of a keypad and a touch pad generating an input signal according to a user's touch or manipulation. In this case, the input unit 10 may be configured in the form of a single touch panel (or touch screen) together with the display unit 20 to simultaneously perform input and display functions. For example, the input unit 10 may be an output mode selection key, a power key, a time setting key, or the like.

The display unit 20 displays information on a series of operation states and operation results generated while performing the function of the portable microcurrent device 100. In addition, the display unit 20 may display a menu of the portable microcurrent device 100 and user data input by the user. The display unit 20 may include a liquid crystal display (LCD), an ultra-thin liquid crystal display (TFT-LCD, thin film transistor LCD), a light emitting diode (LED), and an organic light emitting diode (OLED). ), An active organic light emitting diode (AMOLED), a retina display, a flexible display, and a three-dimensional display. In this case, when the display unit 20 is configured in the form of a touch screen, the display unit 20 may perform some or all of the functions of the input unit 10. In particular, the display unit 20 may display a plurality of output modes, and may display an output mode selected by a user through the input unit 10.

The storage unit 30 is a device for storing data, and stores an application program required for the functional operation of the portable microcurrent device 100. When the portable microcurrent device 100 activates each function in response to a user's request, the portable microcurrent device 100 executes the corresponding application program under the control of the controller 80 to provide each function. In particular, the storage unit 30 may store various pattern information for outputting a minute current and a low frequency at a predetermined cycle. For example, the storage unit 30 may classify and store pattern information for each purpose. That is, the storage unit 30 may classify and store pattern information suitable for various purposes, such as pain relief, fatigue relief, skin aging improvement, and skin beauty.

The power supply unit 40 may supply power to the portable microcurrent device 100. The power supply unit 40 is configured to include at least one battery, is provided in the housing 90 to be described later, can supply power. Accordingly, the portable microcurrent device 100 can be executed without a separate power supply and can be easily carried. For example, a lithium ion battery may be used as the power supply 40.

The fine current generator 50 generates a fine current according to the input signal of the input unit 10. The micro current generator 50 generates a micro current of 40 to 1000 mA which is safe for the human body to output through the output unit 70. Here, the micro current stimulates the cells with a current similar to the micro current flowing through the human body, and uses the bio electricity flowing through the cells in the human body generated by this stimulation to repair the nerve, muscle, and tissue damage that causes pain, You can recover. At this time, the bioelectricity generated by the micro current is made through the cell membrane, which exchanges cations such as sodium, potassium, calcium, and anionic electrodes such as chlorine, and it occurs during metabolism. Helping functions can be performed.

The low frequency generator 60 generates a low frequency according to the input signal of the input unit 10. For example, the low frequency generator 60 includes a resonant element such as a co-core coil inductor and a resonant circuit for determining a natural oscillation frequency according to a control voltage, and amplifies a signal output from the resonant circuit and compensates for the energy damaged in the resonant circuit. It is composed of a known low frequency oscillation circuit including an active circuit which enables the oscillation to be possible.

The output unit 70 may output the microcurrent and the low frequency generated by the microcurrent generator 50 and the low frequency generator 60. The output unit 70 is provided with an electrode plate of a conductive material on the back surface attached to the body skin of the user may be configured to transmit micro current and low frequency well to the user's body skin. The output unit 70 may be formed in a structure that is vacuum-adsorbed to the body skin of the user.

The controller 80 may control the fine current generator 50 and the low frequency generator 60 to selectively output the fine current and the main wave through the output unit 70 according to the output mode input from the input unit 10. Can be.

In addition, the controller 80 controls the microcurrent generator 50 and the low frequency generator 60 to output the microcurrent and the low frequency through the output unit 70 in a predetermined pattern according to the output mode input from the input unit 10. Can be controlled. That is, the controller 80 may control the microcurrent generator 50 and the low frequency generator 60 to combine the microcurrent and the low frequency in a predetermined cycle and output the same through the output unit 70.

The output mode may be classified according to purpose and stored in the storage unit 30. For example, the output mode may be stored in the storage unit 30 for purposes such as pain relief, fatigue relief, skin aging improvement, skin beauty, and the like, and may be stored in patterns set at different cycles.

In addition, the controller 80 may receive and store an output period of a fine current and a low frequency through the input unit 10. That is, the controller 80 may set the output periods of the fine current and the low frequency input through the input unit 10 from the user as one output mode and store them in the storage unit 30. Accordingly, the present invention is not limited to the initially set output mode, and the user may adjust the output period of the fine current and the low frequency to be stored in the output mode according to the application.

Hereinafter, an external configuration of a portable microcurrent device according to the present invention will be described.

2 is a view showing a portable microcurrent device according to the present invention, Figure 3 is an exemplary view showing a wearing state of the portable microcurrent device according to the present invention.

2 and 3, the portable microcurrent device 100 according to the present invention may include a housing 90, an input unit 10, a display unit 20, and an output unit 70.

The housing 90 is configured to form an external shape of the portable microcurrent device 100 and is illustrated as a hexahedron, but may be formed in various shapes such as a circle and a cylinder. Here, the housing 90 may further include a collar 90a as shown in FIG. 3. Accordingly, the housing 90 is carried on the neck of the user through the collar 90a, so that the housing 90 is easy to carry.

The input unit 10 may be provided on an outer surface of the housing 90, and may be configured as a button type that recognizes an input signal by a user pressing. The input unit 10 may be configured in various ways such as a button for selecting an output mode, a power button, a time setting button.

The display unit 20 is configured to be exposed to the outer surface of the housing 90, and may display various function information according to the input of the input unit 10 on the screen.

The output unit 70 may output a fine current and a low frequency. The output unit 70 is provided with an electrode plate of a conductive material on the back surface attached to the body skin of the user may be configured to transmit micro current and low frequency well to the user's body skin. The output unit 70 may be formed in a structure that is vacuum-adsorbed to the body skin of the user. For example, the output unit 70 may be configured to be detachably connected to the output port provided in the housing 90 by being connected by a wire 70a.

Hereinafter, the output mode of the portable microcurrent device according to the embodiment of the present invention will be described.

4 is a front view of a portable microcurrent device according to an embodiment of the present invention.

Referring to FIG. 4, an output mode of a portable microcurrent device according to an embodiment of the present invention may include a microcurrent mode and a low frequency mode. Here, in the micro current mode, the maximum output voltage of the load resistance (500Ω) may be 0.25V, and in the low frequency mode, the maximum output voltage of the load resistance (500Ω) may be 7.5V.

The micro current mode may include a first micro current mode, a second micro current mode, and a third micro current mode.

The first microcurrent mode is an acute pain mode, and has a current magnitude of 300 uA or 500 uA, and outputs a frequency of 50 to 150 Hz for 10 to 80 minutes. Preferably, the first microcurrent mode may have a stimulus frequency and a stimulus time of 50 Hz (40 minutes) / 100 Hz (10 minutes) / 150 Hz (10 minutes) / 100 Hz (10 minutes). The fine current can be selected from 300uA and 500uA. The stimulus waveform can be a square wave.

The second microcurrent mode is a chronic pain mode, and has a current magnitude of 300 uA or 500 uA, and outputs a frequency of 100 to 300 Hz for 10 to 60 minutes. Preferably, in the second microcurrent mode, the stimulation frequency and the stimulation time may be 280 Hz (40 minutes) / 90 Hz (5 minutes) / 140 Hz (5 minutes) / 110 Hz (10 minutes). The fine current can be selected from 300uA and 500uA. The stimulus waveform can be a square wave.

The third microcurrent mode is a tissue recovery mode, and has a current magnitude of 300 uA or 500 uA and outputs a frequency of 80 to 120 Hz for 40 to 80 minutes. Preferably, in the third microcurrent mode, the stimulation frequency is fixed at 100 Hz, and a microcurrent of 300 uA (20 minutes) or 500 uA (40 minutes) can be output for 1 hour. The stimulus waveform can be a square wave.

Low-frequency mode can be configured to adjust the output current from 1mA to 15mA in 1mA steps.

For example, the process of selecting the microcurrent mode first presses the power button 10a and then moves through the direction button 10b and then selects one of the first microcurrent mode and the third microcurrent mode through the select / mode button 10c. do. After the intensity is adjusted through the direction button 10b, the intensity may be selected through the selection / mode button 10c, and the stimulus may be started through the selection / mode button 10c after the alarm setting. In this case, after the power is turned on through the power button 10a, the mode of the previously set intensity may be selected by pressing the selection / mode button 10c for a predetermined time or more.

For example, the selection process of the low frequency mode is performed first by pressing the power button 10a, then moving through the direction button 10b, and then selecting the low frequency mode according to the intensity through the select / mode button 10c, and then using the direction button 10b. Can be selected and the stimulus can be started via the select / mode button 10c. Here, the low frequency mode may be configured to enable intensity adjustment through the direction button 10b.

On the other hand, the embodiments disclosed in the specification and drawings are merely presented specific examples to aid understanding, and are not intended to limit the scope of the present invention. It is apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein. In addition, although specific terms are used in the specification and the drawings, they are only used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention, and are not intended to limit the scope of the present invention.

10: input unit 20: display unit
30: storage 40: power supply
50: micro current generator 60: low frequency generator
70: output unit 80: control unit
90 housing 100 portable microcurrent instrument

Claims (5)

An input unit configured to receive an input signal for selecting one of a plurality of output modes;
A fine current generator for generating a fine current according to the input signal of the input unit;
A low frequency generator generating low frequencies according to the input signal of the input unit;
An output unit configured to output the microcurrent and the low frequency generated from the microcurrent generator and the low frequency generator;
A controller configured to control the microcurrent generator and the low frequency generator to selectively output the microcurrent and the low frequency through the output unit according to an output mode input from the input unit;
Portable microcurrent device comprising a. The method of claim 1,
The control unit,
And the microcurrent generator and the low frequency generator to output the microcurrent and the low frequency through the output unit in a predetermined pattern. The method of claim 2,
The control unit,
And controlling the microcurrent generator and the low-frequency generator to combine the microcurrent and the low frequency in a predetermined period and output the same through the output unit. The method of claim 3,
The control unit,
Portable micro-current device, characterized in that for setting the output mode receives the output period of the micro-current and the low frequency through the input unit. The method of claim 1,
A power supply unit including at least one battery to supply power to the control unit;
Portable microcurrent device further comprises.

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