KR20170105211A - Micro current treatment device using high electric potential - Google Patents

Abstract

The present invention relates to a microcurrent therapy device using a high potential, which improves blood circulation by adding an electric field to a human body and supplies a high potential optimized for a treatment site through a current control of the high potential generated for human body treatment. The microcurrent therapy device using a high potential comprises: an operation unit which selects a treatment part and sets a frequency level and treatment time; a control unit which generates a current control signal of an output high potential and a relay control signal according to frequency levels, monitors the set time and high voltage in real time, and automatically controls an output; a relay unit which supplies or blocks a commercial AC power source by the relay control signal; a high voltage output unit which outputs a high potential by boosting the commercial AC power; a current control unit which controls the high potential outputted from the high voltage output unit; a memory which stores treatment part information, output setting information, treatment time setting information, and accumulated treatment time information according to the control of the control unit; and a display unit which displays a selection screen of a treatment part so that treatment part selection is convenient.

Description

[0001] The present invention relates to a micro current treatment device using a high potential,

The present invention relates to a micro-current therapy apparatus using a high electric potential. In particular, the present invention aims to improve blood circulation by applying an electric field to a human body, And to a micro current processor using a high potential so as to supply a high potential.

In general, a potential therapeutic device is for artificially improving a state of a human body by artificially forming a live electric field, and indirectly acts on a human body by electrically generating a potential difference of a high voltage. In other words, when the human body touches the potential plate, a thick anion layer is generated by electrically inducing the negative ions necessary for the human body by the ion electrostatic therapy. By the action of the anion layer thus generated, minerals and the like in the blood are effectively used to prevent the blood from becoming acidified, and the weakly alkaline blood state is maintained, thereby increasing the prevention and resistance of diseases.

For example, an electric potential therapy apparatus uses a high voltage potential difference to form a thick anion layer around the human body, thereby activating cellular tissue function, ionizing the body, increasing the amount of waste, and promoting metabolic function. In addition, it converts acidified blood into ideal weakly alkaline blood to help improve the constitution that is resistant to various diseases. It removes cholesterol from the arterial blood vessel walls and expands peripheral blood vessels to smooth blood circulation. It prevents chronic diseases such as diabetes and adjusts the autonomic nerve to improve the function of controlling endocrine function.

Such a potential therapeutic device mainly uses a high-voltage transformer that generates a high voltage in order to artificially form a vivid electric field.

(Hereinafter, referred to as "Prior Art 1"), Publication No. 10-2010-0035868 (hereinafter referred to as Patent Document 1), a technique for a conventional potential therapeutic apparatus is disclosed in Registration Practical Utility Model Registration No. 20-0236007 (Hereinafter abbreviated as " Prior Art 3 ") and Published Patent Publication No. 10-2012-0043757 (hereinafter referred to as " Prior Art 3 " .

In the disclosed prior art 1, a high voltage is generated using a transformer, a high voltage is output differentially using an electric potential generator, and a voltage of a strong, medium, or weak is applied to a pain site using the differential high voltage do.

In the case of the conventional technique 2, when a plurality of potential therapeutic devices are installed and used, each potential therapeutic device maintains the same phase so as to prevent the occurrence of a high-voltage electrical shock.

In addition, Prior Art 3 provides a dislocation treatment apparatus that can simplify the configuration of the dislocation treatment apparatus and prevent deterioration.

However, the above-described conventional techniques have a disadvantage in that it is possible to generate a high voltage for the potential treatment but selectively control the high potential current according to the treatment region of the user.

For example, it is possible to achieve an optimal therapeutic effect by adjusting the amount of current contained in the classics according to the condition of the treatment area of the user. In the prior art, it is impossible to adjust the current included in the classical class to the condition of the treatment area , It was difficult to obtain an optimal therapeutic effect.

Registered utility model registration No. 20-0236007 ([0011] announcement October 10, 2001) Published Patent Publication No. 10-2010-0035868 (Published Apr. 07, 2010) Published Patent Publication No. 10-2012-0043757 (2012.05.04. Disclosed)

Accordingly, the present invention has been proposed in order to solve all the problems of the conventional art as described above, and it has been proposed to improve the blood circulation by applying an electric field to the human body, And to provide a micro current treatment device using a high potential so as to supply an optimized high potential.

It is another object of the present invention to provide a micro-current therapeutic device using a high potential so that the frequency can be changed in multiple steps according to the condition of the treatment site to treat the deep portion.

In order to accomplish the above object, according to a preferred embodiment of the present invention, there is provided a micro current processor using high potential, comprising: a power supply unit for supplying a commercial AC power; An operation unit for selecting a treatment site, setting a frequency level and a treatment time; A control unit for generating a relay control signal and a current control signal of an output high potential according to a frequency level set by the operation unit, monitoring the set time and the high voltage in real time, and automatically controlling the output; A relay unit for supplying or cutting off a commercial AC power supplied from the power supply unit according to a relay control signal generated by the control unit; A high voltage output unit for boosting the commercial AC power output from the relay unit and outputting a high potential; A current regulator for regulating a high potential current output from the high voltage output unit according to a current control signal generated by the controller; A memory for storing treatment site information, output setting information, treatment time setting information, and accumulated treatment time information under the control of the control unit; And a display unit for displaying a selection screen of a treatment area in cooperation with the control unit to facilitate selection of a treatment area.

The frequency levels are frequencies corresponding to 15 Hz, 30 Hz, 60 Hz, 90 Hz, and 180 Hz.

The control unit recognizes a treatment region selected by the operation unit and generates a current control signal corresponding to the recognized treatment region state.

The control unit may include an operation signal input module that receives the treatment site selection signal, the time setting signal, and the output level setting signal input through the operation unit; A treatment part setting module for setting a treatment part according to a selection signal of a treatment part inputted through the operation signal input module; And an output setting module for setting an output frequency level in accordance with the treatment area set by the treatment area setting module and the output level setting signal inputted through the operation signal input module.

The control unit may include a time setting module for setting a treatment time according to the time setting signal inputted through the operation signal input module; Based output control module that automatically terminates output when the treatment time ends based on the treatment time set by the time setting module and monitors the high voltage output from the high voltage output part in real time to automatically terminate the high voltage output when an abnormality occurs .

In this case, the control unit monitors the communication status between the devices or the control unit and the device, notifies the time-based output control module of the communication failure status when the communication failure occurs, automatically terminates the output, module; A display control module for controlling the display of the set therapy area, the frequency output level, the treatment time, and the cumulative treatment time information; And an alarm control module for controlling the occurrence of an alarm in the event of an abnormality, a failure state, or a communication failure state of the therapeutic device.

The current controller may include a switch for performing a switching operation according to a current control signal generated by the controller. And a plurality of current regulators for differentially adjusting the high potential current output from the high voltage output unit according to the operation of the switch.

The current regulator may be a resistor.

Wherein the display unit displays a treatment area for treating the human body in a menu form and the treatment area includes at least one of a head, a waist, a chest, a neck, a pelvis, a stomach, a shoulder, a knee, an arm, And a control unit.

According to a preferred embodiment of the present invention, there is provided a micro current processor using a high potential, the micro current processor comprising: a high current output part connected between the current control part and the high voltage output part, And a high-voltage cut-off unit for shutting off the output of the high potential.

In addition, according to a preferred embodiment of the present invention, the micro-current therapy apparatus using high potential includes an alarm unit for generating an alarm sound when an abnormality, a failure state, or a communication failure state occurs in the medical treatment apparatus under the control of the control unit.

According to the present invention, it is possible to generate a high potential for treatment by inducing a high voltage from a high-voltage transformer, and to control the micro current of the generated high potential, thereby providing a high potential optimized for the treatment site.

In addition, according to the present invention, by changing the frequency in multiple steps according to the condition of the treatment site, the high potential is treated to the deep part, thereby enhancing the cohesion power of the mineral component and improving the natural healing power.

According to the present invention, there is also an effect of monitoring the set treatment time, the output voltage, the failure or failure state of the treatment device, the communication failure, etc. in real time and stopping the operation of the treatment device automatically when the abnormal condition is monitored.

FIG. 1 is a block diagram of a micro-current therapeutic device using a high potential according to a preferred embodiment of the present invention.
FIG. 2 is a block diagram of an embodiment of the control unit of FIG.
Fig. 3 is an exemplary view of a treatment site selection screen displayed on the display unit of Fig. 1,
FIG. 4 is a view showing an example of a voltage and treatment time setting screen when selecting a treatment site in the present invention,
FIG. 5 is a circuit diagram of an embodiment of the relay unit of FIG. 1,
6 is a circuit diagram of an embodiment of the high voltage output section, the high voltage breaking section and the current regulating section of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 1 is a block diagram of a micro-current therapeutic device using a high potential according to a preferred embodiment of the present invention.

1, the micro-current therapeutic apparatus using high potential according to the present invention includes a power supply unit 10, an operation unit 20, a display unit 30, a control unit 40, a relay unit 50, a high voltage output unit 60, a current regulating unit 70, a high-voltage shut-off unit 80, an alarm unit 90, and a memory 95.

The power supply unit 10 supplies the input commercial AC power (AC 220V) and supplies the driving power to the control unit 40 by making a predetermined DC voltage through full-wave rectification. In addition, the power supply unit 10 supplies power to parts requiring power, such as the relay unit 50, the display unit 30, the memory 95, and the high voltage output unit 60.

The operation unit 20 functions to select a treatment site, and set a frequency level and a treatment time. Here, the frequency level may be a frequency corresponding to 15 Hz, 30 Hz, 60 Hz, 90 Hz, and 180 Hz. It is to be understood that the above-mentioned frequency levels are arbitrary exemplary frequency levels for treatment obtained through experimentation and that the present invention is not limited to the illustrated frequency levels, If you are a working person, it will be obvious.

The display unit 30 functions to display a selection screen of the treatment area in conjunction with the control unit 40 to facilitate selection of a treatment site. The display unit 30 preferably displays a treatment area for treating the human body in a menu form. The treatment site preferably includes at least one of head, waist, chest, neck, pelvis, abdomen, shoulder, knee, arm, back, ankle and wrist.

The control unit 40 generates a relay control signal and a current control signal of an output high potential according to the frequency level set by the operation unit 20, monitors the set time and the high voltage in real time, and controls the output automatically . The controller 40 is preferably implemented as a control device such as a general microprocessor, a microcomputer, a controller, and a central processing unit. The control unit 40 may further include a data storage unit for storing control data for generating a current control signal corresponding to the set frequency.

2, the control unit 40 includes an operation signal input module 41 for receiving a treatment site selection signal, a time setting signal, and an output level setting signal input through the operation unit 20; A treatment part setting module 42 for setting a treatment part according to a selection signal of a treatment part inputted through the operation signal input module 41; And an output setting module 43 for setting an output frequency level in accordance with the treatment region set by the treatment region setting module 42 and an output level setting signal input through the operation signal input module 41. [

In addition, the control unit 40 includes a time setting module 44 for setting a treatment time according to the time setting signal inputted through the operation signal input module 41; When the treatment time is ended based on the treatment time set by the time setting module 44, the output is automatically terminated and the high voltage output from the high voltage output part 60 is monitored in real time to automatically terminate the high voltage output And a time-based output control module 45.

In addition, the control unit 40 monitors the communication state between the devices or between the control unit 40 and the device, notifies the time-based output control module 45 of the communication failure state when a communication failure occurs, and automatically terminates the output A communication control module 46 for resetting the power of the equipment at the same time; A display control module (47) for controlling display of the set therapy area, frequency output level, treatment time, and cumulative treatment time information; And an alarm control module 48 for controlling the generation of an alarm in the event of an abnormality or failure of the treatment device or a communication failure state.

The relay unit 50 supplies or blocks commercial AC power supplied from the power supply unit 10 according to a relay control signal generated in the controller 40. [ As shown in FIG. 5, the relay unit 50 includes a plurality of switching devices Q1 to Q11 for performing switching operations in accordance with the relay control signals RELAY_OUT0 to RELAY_OUT10 generated in the control unit 40. In addition, the relay unit 50 may include a relay coil and a relay switch interlocked with the plurality of switching elements Q1 to Q11.

The high voltage output unit 60 boosts the commercial AC power output from the relay unit 50 and outputs a high potential. The high-voltage output unit 60 is preferably configured as a high-voltage transformer that receives a commercial AC voltage as a primary side, induces it to a secondary side, and outputs a high voltage (3,000 V). Here, the primary winding and the secondary winding ratio of the high-voltage transformer are set according to the classics to be output.

The current regulating unit 70 regulates a current of a high potential output from the high voltage output unit 60 according to a current control signal generated by the controller 40. [ As shown in FIG. 6, the current regulating unit 70 includes a switch 71 for performing a switching operation according to a current regulating signal generated by the controller 40; And a plurality of current regulators (R1 to R11) for differentially regulating the high potential current output from the high voltage output unit (60) according to the operation of the switch (71). The current regulator is preferably composed of a resistor.

The high voltage blocking unit 80 is interposed between the current regulating unit 70 and the high voltage output unit 60. When the high voltage output from the high voltage output unit 60 exceeds a predetermined current, It serves to shut off the output of high potential. It is preferable that the high-voltage cut-off portion 80 is composed of a fuse 81.

According to the control of the control unit 40, the alarm unit 90 generates an alarm sound when an abnormality, a failure, or a communication failure state occurs in the medical treatment apparatus. It is preferable to use an alarm sound generating device such as a buzzer for alarm sound generation.

The memory 95 stores the treatment site information, the output setting information, the treatment time setting information, and the accumulated treatment time information according to the control of the control unit 40. The memory 95 is preferably implemented as a digital storage device.

The operation of the micro current processor using the high potential according to the present invention will now be described in detail with reference to FIGS. 1 to 6. FIG.

First, a user who wants to treat with a high-potential therapeutic device turns on the power switch and supplies power to the therapeutic device. When the power is supplied, the control unit 40 performs initialization and confirms the communication state between the equipment and the control unit 40 through the communication control module 46. [ As a result, if a communication failure occurs at any one of the positions, the alarm control module 48 controls the occurrence of a communication failure alarm and at the same time ends the generation of high-potential output through the time-based output control module 45.

In addition, the display control module 47 causes the display unit 30 to indicate that a communication failure has occurred. This allows the user to recognize that a communication failure has occurred. In the event of a communication failure, the communication control module 46 automatically resets the power source 10 to turn off the power, and then turns on the power again. In general, a communication failure may be resolved by resetting. The display control module 47 controls the display control module 47 to set the treatment site, time, and frequency level when the communication failure has been resolved by detecting the communication failure again after the power is reset, The display unit 30 displays the setting screen.

3 is an example of a treatment site selection screen displayed on the display unit 30. Fig.

Here, reference numeral 1 denotes a menu for sorting the treatment sites by items, reference numeral 2 represents a previous step return button used for returning to a previous screen, and reference symbol 3 represents a male and female sex It is a gender selection button for. Here, it is preferable to vary the output frequency level (intensity) due to human differences between man and woman. Therefore, it is preferable that the user first selects the gender, and then selects the treatment site. The treatment site selection can be easily selected simply by touching the treatment area classified in the menu form. By selecting a treatment site in the same manner as described above, it is very convenient for the user to select a treatment site.

When the treatment area is selected, an output voltage and treatment time setting screen according to the treatment area as shown in Fig. 4 is displayed on the display part 30 under the control of the display control module 47 of the control part 40. [ The user sets the treatment time (use time) on this screen and sets the frequency level (treatment intensity). The treatment time can be set in minutes, and the frequency level can be set in units of 15 Hz, 30 Hz, 60 Hz, 90 Hz and 180 Hz. The frequency level setting method can be set in such a manner that the preset frequency level is up or down when the - button and the + button are touched.

The selection of the treatment site, the time setting and the frequency level setting on the screen can be said to be operated through the actual operation unit 20. The operation unit 20 may be regarded as an input device on the touch panel as an input device.

When the treatment region, the treatment time, and the frequency level are set through the above process, the operation signal input module 41 in the control unit 40 receives them. Then, the treatment site setting module 42 sets the treatment site according to the selection signal of the treatment site input from the operation signal input module 41, and outputs the treatment site setting information and gender information to the output setting module 43 and the time Based output control module 45 as shown in FIG.

In addition, the output setting module 43 sets the output frequency level according to the therapeutic region set by the treatment region setting module 42 and an output level setting signal input through the operation signal input module 41. [ Here, it is preferable that the optimum frequency level according to the treatment site and sex is stored in advance, and the optimal frequency level is compared based on the output level setting signal selected by the user, thereby setting the most suitable frequency level. For example, according to the treatment site and gender, the optimal frequency level is stored in advance based on experimental and academic information. When the treatment site, gender, and frequency level are set, the optimum frequency level set in advance can be selected and used by taking this information into consideration in a comprehensive manner. The output current corresponding to the frequency level can be set at several levels, such as 20mA, 40mA, 60mA, 80mA, and 100mA.

In addition, the time setting module 44 sets a treatment time according to the time setting signal inputted through the operation signal input module 41, and transmits the treatment time setting information to the time based output control module 45.

The time-based output control module 45 refers to the control data stored in the internal data storage device to fetch the current control signal corresponding to the set frequency when the frequency is set according to the treatment region, sex, etc. of the user. Then, the current control unit 70 transmits the current control signal to the current regulating unit 70 and simultaneously transmits the corresponding relay control signals RELAY_OUT0 to RELAY_OUT10 to the relay unit 50.

For example, the data storage device stores a control table in which a frequency and a current control signal corresponding thereto are mapped. Then, when the user selects the sex, time, and frequency level through the operation unit 20, the current control signal corresponding to the frequency level is immediately extracted through the control table. In the present invention, it is assumed that five frequencies can be set for convenience, and ten current control signals are present according to the set frequency.

In the present invention, two current control signals can be freely used according to one frequency setting, although the number of frequency setting and the number of current control signals must be matched to each other. For example, assuming that the fifth current control signal corresponds to the current frequency, if the frequency is raised by one step, the sixth current control signal and the seventh current control signal are alternately used in a switching manner. In this case, since the intensity of the dislocation provided to the user is repeatedly increased and decreased, it is possible to more effectively treat the patient than to treat the patient continuously by one intensity. The fifth current control signal, the sixth current control signal, and the seventh current control signal are used to select a corresponding one of the plurality of current controllers in FIG.

Here, the frequency level set according to the user's operation is displayed through the display unit 30 so that the user can easily recognize the current frequency level.

Meanwhile, when the operation switch for the treatment is turned on in the state where the frequency is set as described above, the power supply unit 10 supplies the input commercial AC power to the relay unit 50 as it is.

The control unit 40 generates the relay control signal to drive the relay unit 50 and generates a current control signal corresponding to the frequency set at the same time and outputs the current control signal to the current control unit 70 .

As shown in FIG. 5, in the relay unit 50, only a specific switching element is turned on according to the relay control signal, and the remaining switching elements are turned off. For example, the time-based output control module 45 outputs the high signal 5V only for the relay control signal corresponding to the relay to be driven and the remaining relay control signal outputs the low signal 0V, . The relay unit 50 operates the relay coil and the relay switch in cooperation with the turn-on switching device to supply the commercial AC power supplied from the power supply unit 10 to the high voltage output unit 60.

The high voltage output unit 60 generates a high potential by inducing the high voltage input to the primary side to the secondary side using a high voltage transformer.

At this time, the current controller 70 operates the switch 71 according to the current control signal generated by the controller 40 to select a specific current controller among the plurality of current controllers. For example, the current control signal generated in the time-based output control module 45 determines the amount of movement of the switch 71, and in accordance with the determined amount of movement of the switch 71, It is connected to any one of them. At this time, the high-potential current output from the high-voltage output unit 60 is regulated by the resistor R connected to the connected line. Here, the current regulator is implemented as a resistor, and this resistor plays a role of regulating the current. Therefore, when the resistance values of the plurality of resistors R1 to R11 are different from each other, the amount of the high-potential current output corresponding thereto also changes. For example, the resistor R1 is 1M?, The resistor R2 is 2M ?, the resistor R3 is 3M ?, the resistor R4 is 4M ?, the resistor R5 is 5M ?, the resistor R6 is 6M ?, the resistor R7 is 7M? , Resistance (R8) can be set to 8MΩ, resistance (R9) to 9MΩ, resistance (R10) to 10MΩ and resistance (R11) to 10MΩ, so that the high-potential current can be adjusted to 0.3mA to 0.03mA .

With this principle, the amount of high-potential current output to the probe can be adjusted to correspond to the condition of the treatment area of the user, and the optimal therapeutic effect can be achieved by controlling the amount of micro current. For example, when the condition of the user's treatment area is severe or the inflammation is severe, the therapeutic effect is increased by increasing the amount of electric current on the classical electrode. On the contrary, if the user's condition of the treatment area is weak or the inflammation is weak By lowering the amount of current on the classics, the user is given less impact and the treatment effect is optimized.

On the other hand, the time setting module 44 ends the output automatically when the treatment time ends based on the set treatment time. In addition, the high voltage output from the high voltage output unit 60 is monitored in real time to automatically terminate the high voltage output when an abnormality occurs, and to generate an alarm for automatic termination through the alarm control module 48. The alarm generation signal generated in the alarm control module 48 is transmitted to the alarm unit 90, and an alarm sound is transmitted using a device such as a buzzer. The user recognizes the alarm sound, and can recognize the abnormality of the device, the abnormality of the high voltage, and the communication failure.

In addition, when the high-potential therapy is started, the display control module 47 controls the display of the set treatment region, the frequency output level, the treatment time, and the cumulative treatment time information. It is preferable that each information display is performed through the display unit 30. [

In addition, the present invention applies the high-voltage cut-off portion 80 to prevent the safety of the user from being dangerous due to the electric current contained in the high voltage or to prevent the occurrence of the abnormality of the probe. The high-voltage cut-off portion 80 applied in this manner is formed of a fuse 81, so that the fuse 81 is automatically cut off when the current contained in the high-level current exceeds a predetermined current. When the fuse 81 is automatically disconnected by the overcurrent, the output of the high voltage is cut off and the human body is secured.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10:
20:
30:
40:
41: Operation signal input module
42: Treatment site setting module
43: Output setting module
44: Time setting module
45: Time-based output control module
46: Communication control module
47: Display control module
48: Alarm control module
50: relay part
60: High-voltage output section
70:
80: High-
90:
95: Memory

Claims (10)

An apparatus for generating a minute current using a high potential,
A power supply unit for supplying commercial AC power;
An operation unit for selecting a treatment site, setting a frequency level and a treatment time;
A control unit for generating a relay control signal and a current control signal of an output high potential according to a frequency level set by the operation unit, monitoring the set time and the high voltage in real time, and automatically controlling the output;
A relay unit for supplying or cutting off a commercial AC power supplied from the power supply unit according to a relay control signal generated by the control unit;
A high voltage output unit for boosting the commercial AC power output from the relay unit and outputting a high potential;
A current regulator for regulating a high potential current output from the high voltage output unit according to a current control signal generated by the controller;
A memory for storing treatment site information, output setting information, treatment time setting information, and accumulated treatment time information under the control of the control unit;
And a display unit for displaying a selection screen of a treatment area in cooperation with the control unit to facilitate selection of a treatment region.
The micro current processor using high potential as claimed in claim 1, wherein the frequency level is a frequency corresponding to 15 Hz, 30 Hz, 60 Hz, 90 Hz, and 180 Hz.
The microcurrent therapeutic apparatus using high potential as claimed in claim 1, wherein the control unit recognizes a treatment region selected by the operation unit and generates a current control signal corresponding to the recognized treatment region state.
The control unit may further include an operation signal input module that receives the treatment site selection signal, the time setting signal, and the output level setting signal input through the operation unit; A treatment part setting module for setting a treatment part according to a selection signal of a treatment part inputted through the operation signal input module; And an output setting module for setting an output frequency level according to an output level setting signal input through the operation signal input module and the treatment part set by the treatment part setting module.
The control unit may further include a time setting module for setting a treatment time according to the time setting signal inputted through the operation signal input module. Based output control module that automatically terminates output when the treatment time ends based on the treatment time set by the time setting module and monitors the high voltage output from the high voltage output part in real time to automatically terminate the high voltage output when an abnormality occurs Wherein the high-potential-current micro-current therapy apparatus comprises:
The control unit monitors the communication status between the devices or between the control unit and the device, notifies the time-based output control module of the communication failure status when the communication failure occurs, automatically terminates the output, and at the same time, A communication control module; A display control module for controlling the display of the set therapy area, the frequency output level, the treatment time, and the cumulative treatment time information; And an alarm control module for controlling an alarm occurrence in the event of an abnormality, a failure state, or a communication failure state of the therapeutic device.
[2] The apparatus of claim 1, wherein the current controller comprises: a switch for performing a switching operation according to a current control signal generated by the controller; And a plurality of current controllers for differentially adjusting high-potential currents output from the high-voltage output unit according to the operation of the switch, wherein the current regulator is configured by a resistor.
The display portion displays a treatment region for treating the human body in a menu form and the treatment region includes at least one of head, waist, chest, neck, pelvis, abdomen, shoulder, knee, arm, back, ankle, Wherein the high-potential-current micro-current therapy apparatus includes at least one of the high-potential-current micro-current therapy apparatus.
A high voltage cutoff portion interposed between the current regulating portion and the high voltage output portion for shutting off the high potential output when the high potential output from the high voltage output portion exceeds a predetermined current Wherein the microcurrent is applied to the electrodes.
The micro current treatment apparatus using high potential as claimed in claim 1, further comprising an alarm unit for generating an alarm sound when an abnormality, a failure state, or a communication failure state occurs in the medical treatment apparatus under the control of the control unit.

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