KR200249296Y1 - Treatment apparatus for using low frequency electric current and compressed air - Google Patents

Abstract

The present invention relates to a treatment apparatus using low frequency current and compressed air that can treat a patient by generating a pulse using low frequency and attaching a pad to the affected part of the patient, and applying compressed air to the attached pad in various forms. According to the various types of buttons of the button operation unit 460 selected by the user receives the power supplied from the power supply unit 200, the timer 300 counting the treatment time (counting) and the power output from the power supply unit 200 is selected by the user Frequency control means 400 for controlling the output of the frequency, the pulse generating means 500 for generating a pulse signal in accordance with the frequency control of the frequency control means 400, and the signal output from the pulse generating means 500 A pulse amplification means 600 for amplifying a pulse signal by receiving a signal and a compressed air for receiving compressed amplified pulse signal output from the pulse amplification means 600 and outputting compressed air; Applying a generating device 700 and the compressed air received from the compressed air generating device 700 is designed to accept, characterized in that consists of a contact pad 800 for transmitting the suction force while in contact with the affected part of the patient.

Description

Treatment device using low frequency current and compressed air {TREATMENT APPARATUS FOR USING LOW FREQUENCY ELECTRIC CURRENT AND COMPRESSED AIR}

The present invention relates to a treatment apparatus using low frequency current and compressed air, and in particular, generates a pulse using low frequency, attaches a pad to the affected part of the patient, and treats the patient by applying compressed air to the attached pad in various forms. The present invention relates to a treatment apparatus using low frequency current and compressed air.

Conventional blood circulation and pain relief treatment device is simply configured to rub the affected part of the patient or give a separate stimulation to massage to improve the blood circulation of the affected part of the patient or to alleviate the pain. There was a problem that can not be treated while precisely adjusting.

The present invention is to solve the above problems, by using a low-frequency current and compressed air stimulating the current and compressed air in the affected part of the patient to relieve analgesic and at the same time low frequency current and compression to smooth blood circulation To provide a treatment device using air.

The treatment device using the low frequency current and the compressed air of the present invention, by selecting the various modes according to the user will be able to select the correct treatment method for their treatment.

The treatment device using the low frequency current and compressed air of the present invention for achieving the above object, the power supply unit for supplying power to the system by receiving AC 220V power from the outside, and receiving the power from the power supply unit to the treatment time A counting timer, frequency control means for controlling the output of a frequency according to various buttons of a button operation unit selected by a user receiving power from the power supply unit, and a pulse signal according to frequency control of the frequency control means. The affected part of the patient by outputting compressed air by receiving the pulse generating means, the pulse amplifying means for receiving the signal output from the pulse generating means and amplifying the pulse signal, and the amplified pulse signal output from the pulse amplifying means. Compressed air generating device for treating by applying a suction force to the pad (not shown) attached to the, The compressed air output from the compressed air generating device is characterized in that it is composed of a contact pad terminal for transmitting a suction force while contacting the affected part of the patient.

1 is a schematic block diagram of a treatment apparatus using a low frequency current and compressed air of the present invention,

2 is a circuit diagram of a power supply unit of the present invention,

3 is a circuit diagram of the frequency control means of the present invention,

4 is a circuit diagram of the pulse generating means of the present invention,

5 is a circuit diagram of the pulse amplification means of the present invention,

6 is a circuit diagram of the compressed air generating means of the present invention,

7 is a waveform of the scan and wide and fixed mode of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: low frequency current treatment device 200: power supply

210: power input unit 212: transformer

214, 220: constant voltage generator 218: voltage controller

300: timer 400: frequency control means

410: relay control unit 412: display unit

420: diode unit 430: relay unit

442, 444, 516, 518, 550, 614, 616: amplification unit

460: button operation unit 500: pulse generating means

511, 512, 513: scan mode converter

521, 613, 743, 765: transistor

522, 532, 534, 542, 543, 544: variable resistor

530, 540: frequency output unit

600: pulse amplification means 620: zero start control unit

621, 622: amplitude control unit 623: zero start control unit

610: first pulse amplifier 630: push pull amplifier

640: output transformer 642: output transformer

644: varistor 692: output transformer

649: channel 1 terminal 654: channel 2 terminal

698: channel composite terminal 650: second pulse amplifier

700: compressed air generator 710: power supply

712: power input unit 713: filter unit

714: transformer 715: rectifier circuit

716: constant voltage unit 718, 766: display unit

720: first solenoid valve 722: second solenoid valve

730: level control detection unit 732: relay unit

740: lamp 742: buzzer

745: connection terminal 747: compressor

748: motor 755: switch unit

762: frequency generator 764: frequency adjustment unit

770: switch portion 800: contact pad

Detailed configuration of the treatment device using a low frequency current and compressed air of the present invention is described as follows through the accompanying drawings.

1 is a schematic block diagram of a treatment apparatus using a low frequency current and compressed air of the present invention, the power supply unit 200 for supplying power to the system by receiving AC 220V power from the outside, and from the power supply unit 200 Frequency control to control the output of the frequency according to the various buttons of the button control unit 460 selected by the user receives the power supplied from the timer 300 for counting the time (counting) receiving the power and the power output from the power supply unit 200 Means 400, a pulse generating means 500 for generating a pulse signal according to the frequency control of the frequency control means 400, and a signal output from the pulse generating means 500 to amplify the pulse signal A pulse amplification means 600, a compressed air generator 700 for receiving compressed amplified pulse signals output from the pulse amplification means 600 and outputting compressed air, and is output from the compressed air generator 700; While in contact with the affected part of the patient is receiving the compressed air consists of a contact pad 800 for transmitting the suction force.

As shown in FIG. 2, the power supply unit 200 includes a power input unit 210 that receives 220V of power applied from the outside, and a transformer 212 that receives power from the power input unit 210 and lowers a voltage. And a rectifying circuit unit 214 for converting the voltage down by the transformer 212 into a DC power source, and receiving power converted into DC power by the rectifying circuit 214 to output power of 12V and 5V. A constant voltage generator 218 and a rectifier circuit unit 216 for outputting a DC 24V power by receiving the AC power down by the transformer 212.

When the timer 300 is first turned on, the timer is initially set to 15 minutes and can be adjusted to 0 to 99 minutes as needed, and the time gradually decreases as the first time is set. This unit is operated until it becomes 0, and if you want to adjust the use in the middle, you can adjust the usage time by pressing a separate switch.

The frequency control means 400 is shown in Fig. 3, the button operation unit 460 for selecting a mode required by the user, and when the user selects a specific mode through the button operation unit 460 the button operation unit 460 A relay control unit 410 for receiving a signal output from the control unit and controlling various relays connected to the rear stage, a display unit 412 displayed externally to inform the user according to the control of the relay control unit 410, and In response to the control of the relay control unit 410, a plurality of relay unit 430 is formed to operate on, off (ON, OFF), and is connected between the relay control unit 410 and the relay unit 430 And a plurality of diode units 420 and a frequency control unit 440 for determining various cycles of the scan mode selected by the user through the button operation unit 460.

The button operation unit 460 is formed of a plurality of treatment modes, the treatment method is a constant current treatment method by a low frequency, in the scan mode (SCAN MODE) treatment frequency is 1-20Hz (peak voltage 102V, output current 23 , 5 Ω, load resistance 1 Ω, pulse width 250 ㎲, frequency 4 kHz, military conduction time 50.36 ㎳, group frequency 19.85 Hz, frequency according to time 0-20 Hz / 33 seconds), 80-90 Hz (peak voltage 105.6 V, output Current 24 ㎃, load resistance 1 Ω, pulse width 250 ㎲, frequency 3.9 kHz, group energization time 8.0427 ㎳, group frequency 124.34 Hz, frequency over time 80-90 Hz / 33 seconds) and 0-100 Hz (peak voltage is 101.6 V) Output current 24 ㎃, load resistance 1 Ω, pulse width 246 ㎲, frequency 4 kHz, military conduction time 13.389 ㎳, group frequency 74.68 Hz, frequency according to time 0-100 Hz / 33 seconds), wide mode (WIDE MODE) Peak voltage is 4000Hz for 107V, output current 36mA, load resistance 1Ω, pulse width 246Hz, frequency 4kHz, and FIXED MODE (peak voltage is 10 3V, an output current of 38 mA, a load resistance of 1 Ω, a pulse width of 246 Hz, and a frequency of 4 kHz) are 4000 Hz. The waveforms for the modes are shown in FIG.

That is, in the scan mode, the sweep signal of the fundamental frequency 4000 Hz and the frequency 0-20, 80-90, and 0-100 Hz according to the mode are interfered with, and in the wide mode, channel 1 and channel 2 Different from each other, that is, the channel 1 signal and the channel 2 signal are intersected and outputted. In the fixed mode, there is no difference between the channel 1 and the channel 2, and the sweep and interference functions are eliminated. .

The display unit 412 is formed of a plurality of leads (LED) to correspond to each mode to be displayed to the user.

In addition, the frequency controller 440 determines the period according to the user's selection of a specific mode among the scan modes, and includes an amplifier 442 for amplifying a signal input from the button operator 460, and the amplifier. An amplification unit 444 for receiving and amplifying the signal amplified by the signal 442 and a flip-flop 445 that is inverted and output according to the input signal after receiving the signal amplified and output from the amplifying unit 442. Consists of.

And the pulse generating means 500 is a frequency output unit 540 for controlling the output of the required frequency in accordance with the mode, a variable resistor 542 connected to the frequency output unit 540 to vary the resistance, and An amplifier 550 for receiving and amplifying a signal output from the frequency output unit 540, a variable resistor 543 and a variable resistor 544 connected to the frequency output unit 540 and varying resistance, A frequency output unit 530 for controlling the output of the required frequency according to the mode, a variable resistor 522 connected to the frequency output unit 530 to change the resistance, and the signal output from the frequency output unit 530 The variable resistor 532 for receiving and amplifying the variable resistor 532, the variable resistor 532 and the variable resistor 534 connected to the frequency output unit 530 to change the resistance, and the resistance according to each mode to adjust the frequency. Variable scan mode converting units 511, 512, 513 and the scan mode conversion An amplification unit 516 that receives the signal adjusted at 511, 512, 513 and amplifies a treatment frequency signal, an amplifier 518 connected to the amplifying unit 516 to amplify the treatment frequency signal, and the amplifying unit 516. The transistor 521 is configured to receive a signal output from the input terminal) at a base terminal.

The pulse amplifying means 600 is shown in FIG. 5, and outputs various frequency signals according to a mode selected by the user from the pulse generating means 500. The upper side and the lower side correspond to each other, and the upper side is a channel. Corresponding to 1, the lower side is assigned to channel 2, and for convenience of description, the upper side will be described based on channel 1.

That is, the amplifying unit 614 for receiving and amplifying the signal output from the pulse generator 500 and the signal output from the amplifying unit 614 are input to a base terminal and a collector terminal. A transistor 613, a variable resistor 612 connected to the amplifier 614, an amplifier 616 for amplifying the signal amplified by the amplifier 614, and the first pulse amplification. Zero start function to prevent malfunctions by connecting the channels 610 and the channels 1 and 2 of the second pulse amplifier 650 to control the amplitude of the pulse so as to operate again from the beginning. The zero start control unit 620, the push-amplification unit 630 for receiving the signal amplified by the amplification unit 616 and amplified in a push-pull method, and the output transformer 642 for outputting to the outside An output transformer for outputting an amplified voltage through the output transformer 692 640, a channel 1 terminal 649, which is a terminal of channel 1, for receiving the low frequency current signal output from the output transformer 640 and connecting to the compressed air generator 700, and a channel which is a terminal of channel 2. It consists of the two terminal 654 and the channel composite terminal 698 which is a terminal which combined the terminal of channel 1 and channel 2.

The zero start control unit 620 receives the signal output from the amplifying unit 614 and the amplitude control unit (621,622) for adjusting the amplitude of the pulse, and when starting for the first time with the zero start function, so that the start from zero state must be It is composed of a zero start control unit 623 functioning as a safety device.

In addition, the varistor 644 formed in the output transformer 640 is to block the overvoltage by protecting the voltage output through the output transformer 640 when the voltage is overvoltage.

And the compressed air generating device 700 is shown in Figure 6, a power unit 710 for supplying power by receiving external power and a motor for driving the system by receiving the power output from the power supply unit 710 748, a compressor 747 connected to the motor 748 to output compressed air, a connection terminal 745 for connecting to a signal output from the pulse amplifying means 600, and a constant pulse A frequency generator 762 that outputs a frequency, a base terminal connected to the frequency generator 762, a transistor 765 for switching power applied from the outside, and a collector terminal of the transistor 765 that are displayed A frequency adjusting unit 764 connected to the display unit 766, the frequency generator 762, and adjusting the pulse frequency output from the frequency generator 762, and output from the frequency generator 762. The switch unit 770 that is on-off according to the signal, the water level control detection unit 730 for detecting an abnormal state by detecting when the water level is above a certain water level, and the signal detected by the water level control detection unit 730. A transistor 743 for receiving and outputting to the base terminal for switching, a lamp 740 connected to the collector terminal of the transistor 743, and a buzzer connected to the collector terminal of the transistor 743 to output a buzzer sound. 742, a relay unit 732 which is turned on and off as the transistor 743 is switched, a first solenoid valve 720 that is applied and switched to output compressed air output from the compressor 747, and When the buzzer sound and the lamp are turned on because the water level adjustment detecting unit 730 is filled with water above a certain level, the user immediately determines that the state is not normal and operates the switch unit 755 to control the water level. Via the water stored in the unit 730 the second solenoid valve 722 is discharged to the outside.

The power supply unit 710 may include a power input unit 712 receiving external 220V power, a filter unit 713 for filtering noise included in power input through the power input unit 712, and the like. A transformer 714 for turning down the power filtered by the filter unit 713, a rectifier circuit unit 715 for converting AC power down from the transformer 714 into DC power, and a rectifier circuit unit 715. The display unit 718 displays an external display of the contents operating in a normal state, and a constant voltage unit 716 converts the DC power output from the rectifying circuit unit 715 into a constant voltage.

In addition, the water level control detection unit 730 is used to immerse the sponge on the inner surface of the pad in order to effectively treat the patient, or the sweat generated in the patient's body is stored as a countercurrent, and detects when the water level is above a certain level. It is intended to be discharged.

The minimum suction pressure of the compressed air generator 700 is 0.1 bar ± 15% or less, the maximum suction pressure is 0.17 bar ± 15% or less, the maximum suction period is 2.92 seconds, and the minimum suction period is 1.44 seconds.

The compressed air generating device 700 is provided with a fan (commonly used) that is not shown in order to lower the internal temperature.

Referring to the operation of the present invention configured as described above are as follows.

In the state of supplying power to each system from the power supply unit 200 that is externally supplied with AC 220V power, when the user operates the button operation unit 460 to turn on the power and simultaneously selects a required mode, the frequency control means. The switch selected by the user is turned on through the button manipulation unit 460 of 400.

Then, a little water is soaked in the four pads connected to the channels 1 and 2 of the contact pad 800 and attached to the affected part of the patient.

When the button manipulation unit 460 is turned on, the relay control unit 410 connected to the button manipulation unit 460 receives a signal output from the button manipulation unit 460 and outputs a control signal. The display unit 412 and the diode unit 420 are driven.

When the display unit 412 and the diode unit 420 operate by the signal output from the relay control unit 410 as described above, a relay selected from the plurality of relay units 430 connected to the diode unit 420. Will be activated.

Meanwhile, as the relay control unit 410 is operated, a signal of a mode selected by a user is received and amplified by the amplifying unit 442, and then amplified again by the amplifying unit 444, and is externally applied to a signal. The flip-flop 445 outputs a pulse signal while maintaining two stable states.

In this way, by receiving the signal of the output frequency according to the mode output from the frequency control means 400, the scan mode converter (511, 512, 513) to adjust the variable resistance according to the mode, and then the scan mode converter (511, 512, 513) Amplifies the signal output from the amplifier 516 and then applies it to the base terminal of the transistor 521 to drive the transistor 521, and also in the amplifier 518 connected to the amplifier 516 The amplified signal is received from the outside and then amplified and output to the amplifying unit 516.

At this time, the user selects the scan mode, that is, adjusts it to the scan mode of the required frequency by adjusting at 0-20Hz, and adjusts to give an optimal stimulus while asking the intensity of feeling to the patient during use.

In this way, the amplifier 521 receives the amplified signal to drive the transistor 521, adjusts the resistance in the variable resistor 522, and is then applied to the frequency output unit 530 to generate a sine wave frequency of 4000 Hz. Will print.

The frequency output unit 540 receives a signal output through adjustment of the resistance of the variable resistor 544 and the variable resistor 543 and outputs a sine wave output frequency signal of 4000 Hz from the frequency output unit 540. Is amplified by the amplification unit 550 connected to

Therefore, the amplifying unit 550 receives the sine wave output frequency of 4000 Hz output from the frequency output unit 530 and the sine wave output frequency of 4000 Hz output from the frequency output unit 540, and then amplifies their signals. Output to the pulse amplifier 600.

As described above, the amplifying unit 614 of FIG. 5 receives the signal amplified by the amplifying unit 550, amplifies the input signal, and receives the signal output from the amplifying unit 614. Amplify again, and then amplify again by the push-pull amplification method in the push-pull amplifier 630.

On the other hand, if the treatment operation is stopped because the set time of 15 minutes at the time of the first treatment, in order to treat a new patient again by adjusting the zero start control unit 623 of the zero start control unit 620 to malfunction again To prevent.

On the other hand, when outputting 24V power by converting the output voltage from the output transformer 642 of the output transformer 640 by receiving external power, the channel 1 terminal (connected to the output transformer 640 ( The low frequency current is output to the compressed air generator 700 through 649.

The second pulse amplifier 650, which is formed symmetrically with the first pulse amplifier 610, is operated in the same manner, and the low frequency current signal output from the channel 2 is output through the channel 2 terminal 654. In the channel complex terminal 698, the low frequency current signals output from the first pulse amplifier 610 and the second pulse amplifier 650 are combined and output.

After the external AC 220V power is applied from the power input unit 712, the filter unit 713 filters the noise included in the external power source and then lowers the voltage in the transformer 714.

As described above, the AC power is turned down in the transformer 714 and then converted into DC power through the rectifier circuit 715. Then, the power is normally supplied from the display unit 718 receiving the power output from the rectifier circuit 715. It displays the fact that it is operating to the outside, and then outputs the power of 12V required for the system through the constant voltage unit 716.

On the other hand, the frequency generator 762 outputs a pulse frequency of 0.5Hz to 1.5Hz, when the high signal of the transistor 765 is applied to the base terminal, the transistor 765 is turned on and the transistor 765 is turned on. The display unit 766 connected to the collector terminal of is displayed.

When the switch unit 770 receives the signal output from the frequency generator 762 and outputs an output signal, the first solenoid valve 720 connected to the switch unit 770 is turned on. After being turned off, the compressed air supplied from the compressor 747 is strongly or weakly adjusted, and then the compressed air is output through the contact pad 800.

In this case, the contact pads 800 are used to attach to the affected part of the patient by two per channel, and in order to increase the therapeutic effect, the patient is in a state in which water is appropriately buried in a sponge shape not shown in the inner side of the contact pads 800. In the process of using for a long time, the water soaked in the sponge of the contact pad 800 flows back through the compressed air supply nozzle, in order to prevent such a problem, the first solenoid valve ( The water level control detecting unit 730 installed in the middle of the 720 and the compressor 747 detects a constant water level.

That is, when the predetermined level is exceeded in the water level control detecting unit 730, and when the output signal is output to the base terminal of the transistor 743, the transistor 743 is turned on and the transistor ( The lamp 740 and the buzzer 742 connected to the collector terminal of the 743 are driven, and then the relay unit 732 connected to the collector terminal of the transistor 743 is switched on and off.

Meanwhile, when the lamp 740 and the buzzer 742 connected to the collector terminal of the transistor 743 are driven to light up, and then the buzzer rings, the user determines that the switch unit 755 is not in a normal state. ) To turn it on.

As such, when the switch unit 755 is turned on, the second solenoid valve 722 connected to the switch unit 755 is driven so that the water accumulated in the lower end of the water level control detection unit 730 is moved to the outside. As it is discharged, the output signal detected by the water level control detecting unit 730 is released.

On the other hand, the connection terminal 745 of the compressed air generating device 700, which receives the low frequency signal output from the pulse amplifying means 600, is applied to the contact pad 800 connected to the connection terminal 745. At the same time, the compressed air output from the first solenoid valve 720 is applied to the contact pad 800 according to the operation of the motor 748 and the compressor 747 as described above. The electrical signal of the output frequency according to the mode selected by the user is applied to the affected part and compressed air is turned on and off at regular intervals to smooth the flow of blood flowing to the patient's body, and at the same time, to partially relieve pain. It will cure the disease by giving it.

The treatment device using the low frequency current and the compressed air of the present invention configured as described above, by stimulating the low frequency current and compressed air to the affected part of the patient by using the low frequency current and compressed air smoothes blood circulation and smoothes blood circulation. It is devised to let.

Claims (8)

A power supply unit 200 for supplying power to the system by receiving AC 220V power from the outside, a timer 300 for counting treatment time by receiving power from the power supply unit 200, and the power supply unit 200. Frequency control means 400 for controlling the output of the frequency according to the various buttons of the button operation unit 460 selected by the user receives the power output from the user, and generates a pulse signal in accordance with the frequency control of the frequency control means 400 A pulse generating means (500), a pulse amplifying means (600) for receiving a signal output from the pulse generating means (500) and amplifying a pulse signal, and an amplified pulse signal output from the pulse amplifying means (600). Compressed air generating device 700 for outputting the compressed air and the compressed air output from the compressed air generating device 700 is applied to the contact pad 800 for transmitting the suction force while contacting the affected part of the patient Treatment device using a low frequency current and compressed air, characterized in that configured. The method of claim 1, wherein the frequency control means 400 is a button operation unit 460 for selecting a mode required by the user, and when the user selects a specific mode through the button operation unit 460 the button operation unit 460 A relay controller 410 for controlling various relays connected to a rear end by receiving a signal output from the controller; and a display unit 412 externally displayed to notify a user according to the control of the relay controller 410; In accordance with the control of the relay control unit 410, a plurality of relay unit 430 is formed to operate on, off (ON, OFF), the relay control unit 410 and the relay unit 430 is connected between Low frequency current, characterized in that it comprises a plurality of diode unit 420, and a frequency control unit 440 for determining the various period of the scan mode (SCAN MODE) selected by the user through the button operation unit 460 and Axis treatment apparatus using the air. The scan frequency of the button control unit 460 is 1-20 Hz (peak voltage is 102V, output current 23,5 mA, load resistance 1Ω, pulse width 250 Hz, frequency) 4kHz, Military energizing time 50.36Hz, Military frequency 19.85Hz, Frequency according to time 0-20Hz / 33 seconds, 80-90Hz (peak voltage is 105.6V, output current 24 전류, load resistance 1Ω, pulse width 250㎲, frequency 3.9 kHz, Military energizing time 8.0427 Hz, Military frequency 124.34 Hz, Frequency over time 80-90 Hz / 33 sec) and 0-100 Hz (peak voltage is 101.6 V, output current 24 Ω, load resistance 1 Ω, pulse width 246 kHz) , Frequency 4kHz, military energization time 13.389 ㎳, military frequency 74.68Hz, frequency according to time 0-100Hz / 33 seconds) treatment device using a low frequency current and compressed air. According to claim 1, wherein the pulse generating means 500 is a frequency output unit 540 for controlling the output of the required frequency according to the mode, the variable resistor 542 connected to the frequency output unit 540 to change the resistance And an amplifier 550 for receiving and amplifying the signal output from the frequency output unit 540, variable resistors 543 and 544 connected to the frequency output unit 540 to vary resistance, and according to the mode. Input a frequency output unit 530 for controlling the output of the required frequency, a variable resistor 522 connected to the frequency output unit 530 to change the resistance value, and the signal output from the frequency output unit 530 A variable resistor 532 for receiving and amplifying, variable resistors 532 and 534 connected to the frequency output unit 530 for varying the resistance, and scan mode converters 511, 512 and 513 for varying the resistance according to each mode to adjust the frequency. ) And in the scan mode converters 511, 512, 513 An amplifier 516 that receives the adjusted signal and amplifies the treatment frequency signal, an amplifier 518 connected to the amplifier 516 to amplify the treatment frequency signal, and an output from the amplifier 516 Treatment device using a low frequency current and compressed air, characterized in that consisting of a transistor 521 for receiving a signal to the base terminal. The amplifying unit 614 of claim 1, wherein the pulse amplifying unit 600 corresponds to a channel 1 on the upper side and a channel 2 on the lower side, and receives and amplifies a signal output from the pulse generating unit 500. A transistor 613 for receiving the signal output from the amplifier 614 through a base terminal and a collector terminal, a variable resistor 612 connected to the amplifier 614, The amplification unit 616 for amplifying the signal amplified by the amplification unit 614 and the treatment time while connecting the channels 1, 2 of the first pulse amplifier 610 and the second pulse amplifier 650 When the signal is terminated, the zero amplitude control unit 620 and the amplification unit 616 amplify and output the signal to a zero start function to prevent the malfunction by adjusting the amplitude of the pulse to operate again from the beginning. A push-pull amplifier 630 for receiving and amplifying the push-pull method; An output transformer 640 for outputting the width voltage through the output transformer 642 and the output transformer 692 and a low frequency current signal output from the output transformer 640 are applied to the compressed air generator 700. Channel 1 terminal 649, which is a terminal of channel 1, channel 2 terminal 654, which is a terminal of channel 2, and a channel composite terminal 698, which is a terminal obtained by combining the terminals of channel 1 and channel 2. Treatment device using low-frequency current and compressed air characterized in that. According to claim 1, The compressed air generating device 700 is a power source 710 for supplying power by receiving an external power and a motor 748 for receiving the power output from the power supply unit 710 to drive the system ), A compressor 747 connected to the motor 748 for outputting compressed air, a connection terminal 745 for connecting to a signal output from the pulse amplifying means 600, and a constant pulse frequency. A display that is connected to the frequency generator 762 for outputting the output signal, a base terminal connected to the frequency generator 762 to switch power applied from the outside, and a collector terminal of the transistor 765 to be displayed. A frequency adjusting unit 764 connected to the frequency generator 762 to adjust the pulse frequency output from the frequency generator 762, and according to a signal output from the frequency generator 762. The switch unit 770 for switching the AC power, the water level is detected when the water level is above a certain level, the water level control detection unit 730 for detecting an abnormal state and the signal detected by the water level control detection unit 730 is applied A transistor 743 that receives and outputs the signal to the base terminal for switching; a lamp 740 connected to the collector terminal of the transistor 743; and a buzzer 742 connected to the collector terminal of the transistor 743 to output a buzzer sound. ), A relay unit 732 that is turned on and off as the transistor 743 is switched, a first solenoid valve 720 that is applied to switch compressed air output from the buzzer 742 and switches the When the water level adjustment detection unit 730 is filled with water above a certain level and judged to be an abnormal state when the buzzer sound and the lamp are turned on, the water level control detection unit 730 is stored in the water level control detection unit 730 by operating the switch unit 755. Second solenoid treatment apparatus using a low-frequency electric current and compressed air, characterized in that it is composed of a valve 722 for discharging the water that the outside. The method of claim 2, wherein the button control unit 460 has a wide mode (peak mode is 107 V, an output current of 36 mA, a load resistance of 1 Ω, a pulse width of 246 Hz, and a frequency of 4 kHz). Treatment device using low frequency current and compressed air. 3. The method of claim 2, wherein the button control unit 460 has a fixed mode (peak voltage: 103 V, an output current of 38 mA, a load resistance of 1 Ω, a pulse width of 246 Hz, and a frequency of 4 kHz) of 4000 Hz. Treatment device using low frequency current and compressed air.