KR940002573Y1 - Low-frequency therapy apparatus - Google Patents

Abstract

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Description

Low Frequency Physical Therapy

Figure is a detailed circuit diagram of a low frequency physiotherapy machine according to an embodiment of the present invention.

The present invention relates to a low frequency physiotherapy device that electrically stimulates nerves or muscles of the human body and has a therapeutic effect. In particular, a microcontroller is used for a predetermined time to generate a low frequency pulse that the user feels most comfortable. A low frequency physiotherapy device that can be maintained for a while.

Low frequency therapy device is an electrical signal composed of low frequency pulses and refers to a device that stimulates and treats nerves and muscles. In general, in order to treat nerve paralysis, jointing, pain, etc., there is a method of applying an electric pulse of low frequency to the human body in addition to a method using a human force such as acupressure and massage.

The method of applying a low frequency electric pulse to the human body is not only excellent in effect, but also widely used because of its simplicity of use and the convenience of treatment (use) alone without the help of others.

However, the conventional low frequency therapy device has a disadvantage in that it needs to be adjusted arbitrarily every time it wants to change the frequency of the stimulating pulse on the human body, or even if the stimulating frequency is automatically converted, the feeling felt according to the kind of stimulating frequency Each of these is different, and because the feeling is different depending on the pain area of the human body has the disadvantage that you can not do continuous treatment by selecting only the pulse that is effective for pain relief.

Therefore, the object of the present invention is to solve the above-mentioned disadvantages, and can be treated (use) for a predetermined time at a selected frequency by selecting a frequency with which the user feels comfortable among the changes during the treatment (use). To provide a low frequency physiotherapy device.

The constitution of this invention for achieving the above object is a power supply for supplying a direct current power; A display device unit connected to a power supply unit and configured to inform the outside of an operation mode state of the low frequency physical therapy apparatus; A high pressure generator connected to the power supply unit for generating a high potential oscillation voltage from the DC power supply; An oscillator for supplying a fundamental frequency; A switch input unit for allowing a user to select an operation mode of the low frequency physical therapy apparatus; A microcontroller connected to a power supply unit, a display device unit, an oscillator unit, and a switch input unit to control the overall operation of the low frequency physiotherapy device according to a signal of the switch input unit; A high pressure control unit connected to the high pressure generation unit and the microcontroller and controlling a supply of the high pressure input from the high pressure generation unit according to the output signal of the microcontroller input from the high pressure generation unit according to the output signal of the microcontroller; A high voltage switching unit connected to the micro controller and providing a therapeutic effect such as pain relief to the human body between the pads by switching the high pressure supplied from the trough control unit according to the pulse output signal of the micro controller and supplying the pad to the pad; A primary safety device connected to the high pressure switching unit to prevent excessive high pressure from being applied to the pad of the high pressure switching unit; It is connected to the high pressure control unit, it consists of a secondary safety device for preventing excessive high pressure from being supplied from the high pressure control unit.

Preferred embodiments of this invention by the above-described configuration will be described in detail with reference to the drawings.

Figure is a detailed circuit diagram of a low frequency physiotherapy machine according to an embodiment of the present invention. As shown in the drawing, the configuration of the low frequency physiotherapy apparatus according to the embodiment of the present invention includes a power supply unit 1, a display device unit 2 connected to the power supply unit 1, and a high voltage generator 3 connected to the power supply unit 1. And the microcontroller 6 connected to the oscillation unit 4, the switch input unit 5, the power supply unit 1, the display device unit 2, the oscillation unit 4, and the switch input unit 5, and the high voltage generating unit ( A high pressure control unit 7 connected to the microcontroller 6 of 3), a high pressure switching unit 8 connected to the microcontroller 6, a primary safety device unit 9 connected to the high voltage switching unit 8, It consists of a secondary safety device 10 connected to the high pressure control unit (7).

The power supply unit 1 includes a battery (BATT) having a negative terminal grounded, a power switch (S / W) having one terminal connected to the positive terminal of the battery (BATT), and the other terminal of the power switch (S / W). One terminal is connected to the other terminal is made of a grounded capacitor (C1).

The display device unit 2 includes the resistors R21, R22, R23 and the other of the resistors R21 having one terminal connected to the connection point of the power switch S / W and the capacitor C1 of the power supply unit 1, respectively. First to fourth mode light emitting diodes (LED1, LED2, LED3, LED4), each having an anode connected to the terminal, and a time selection and maintenance selection light emitting diode (LED5, LED6) each having an anode connected to the other terminal of the resistors R22 and R23. )

The configuration of the high-voltage generator 3 is connected to the resistors R17 and 18 and the other terminal of the resistor R17, respectively, of which one terminal is connected to the connection point of the power switch S / W and the capacitor C1 of the power supply unit 1, respectively. The first terminal is connected to the transistor Q12 connected to the base terminal and the collector terminal connected to the other terminal of the resistor R18, and to the connection point of the power switch S / W and the capacitor C1 of the power supply unit 1, respectively. The transformer T1, the base terminal is connected to the emitter terminal of the transistor Q12, the collector terminal is connected to terminal 2 of the transformer T1, and the emitter terminal is the grounded transistor Q13, and the transformer T1. The anode is connected to a capacitor C8 having one terminal connected to terminal 5 of the resistor, a resistor R19 connected between the other terminal of the capacitor C8 and the base terminal of the transistor Q12, and a base terminal of the transistor Q12. Anode connected to the connected diode (D6) and terminal 7 of the transformer (T1) Is connected to a diode (D8), a capacitor (C9) connected between the cathode and the ground of the diode (D8), a diode (D9) connected to the cathode of the diode (D8), and between the anode and the ground of the diode (D9) A capacitor Q10 connected to the base terminal, a base terminal connected to the anode of the diode D9, a collector terminal connected to the cathode of the diode D6, and an emitter terminal connected to a grounded transistor Q14, and a base of the transistor Q14. It consists of a resistor (R20) connected between the terminal and the ground.

The oscillator 4 is made of a crystal oscillator.

The switch input section 5 includes a mode selection switch SW1 having one terminal grounded, a time selection switch SW2 having one terminal grounded, and a sustain selection switch SW3 having one terminal grounded.

The microcontroller 6 is composed of MN157451A chips, but the technical scope of the present invention is not limited to the above specific integrated circuit (IC) chips.

The high voltage controller 7 has a base terminal connected to the output terminal PO2 of the microcontroller 6 and an emitter terminal connected to a grounded transistor Q9 and a resistor R10 having one terminal connected to the collector terminal of the transistor Q9. And one terminal connected to the other terminal of the resistor R10 and the other terminal connected to the grounded capacitor 6, and the resistor R11 connected to one of the terminals of the resistor R10 and the capacitor C6. And a collector terminal connected to the other terminal of the resistor R11 and a base terminal connected to the connection point of the resistor R10 and the capacitor C6, and one terminal connected to the collector terminal of the transistor Q8. The other terminal has a grounded high voltage capacitor C5, a resistor R12 having one terminal connected to the collector terminal of the transistor Q8, and a cathode connected to the other terminal of the resistor R12, and the high voltage generating unit 3 The anode is connected to terminal 9 of the transformer (T1) The connected diode D1, the transistor Q10 having an emitter terminal connected to the emitter terminal of the transistor Q8 and the base terminal connected to the other terminal of the resistor R15, and the base terminal and the emitter of the transistor Q10. A resistor R15 connected between the terminal terminals, a resistor R16 having one terminal connected to the base terminal of the transistor Q10, and a base terminal connected to the output terminal P03 of the microcontroller 6, and a resistor R16. The collector terminal is connected to the other terminal of the transistor and the emitter terminal is connected to the grounded transistor Q11, the variable resistor VR1 having one terminal connected to the collector terminal of the transistor Q10, and the variable terminal of the variable resistor VR1. The base terminal is connected and consists of a transistor Q7 connected to the collector terminal of transistor Q8.

The high voltage switching unit 8 has a base terminal connected to the output terminal P01 of the microcontroller 6 and an emitter terminal connected to the grounded transistor Q5, and a base terminal connected to the collector terminal of the transistor Q5, and the collector The terminal is connected to the grounded transistor Q2, the base terminal is connected to the output terminal PO2 of the microcontroller 6, and the emitter terminal is connected to the grounded transistor Q6 and the collector terminal of the transistor Q6. And a collector terminal connected to the grounded transistor Q3, a resistor R5 having one terminal connected to the collector terminal of the transistor Q6, and a base terminal connected to the other terminal of the resistor R5, A transistor Q1 having a collector terminal connected to the emitter terminal, a resistor R6 having one terminal connected to the collector terminal of the transistor Q5, and a base terminal connected to the other terminal of the resistor R6, and having a transistor Q3. Of A transistor Q4 connected to the collector terminal and an emitter terminal connected to the emitter terminal of the transistor Q1, a resistor R4 connected between the base terminal and the emitter terminal of the transistor Q1, and a transistor ( A resistor R7 connected between the base terminal and the emitter terminal of Q4), and an output resistor R24 connected between the collector terminal of the transistor Q1 and the collector terminal of the transistor Q4.

In addition, the configuration of the primary safety device 9 includes a resistor R8 having one terminal connected to the emitter terminal of the transistor Q1 of the high voltage switching unit 8, and between the other terminal of the resistor R8 and ground. A cathode is connected to the connected resistor R9 and a connection point of the resistors R8 and R9, and the anode consists of a grounded zener diode D4.

The secondary safety device 10 has a resistor R14 connected between the other terminal of the variable resistor VR1 of the high voltage controller 7 and the ground, and one terminal at a connection point between the resistor R14 and the variable resistor VR1. Is connected to a resistor (R13) connected to the other terminal of the resistor (R13), the anode is made of a grounded zener diode (D5).

Operation of the low frequency physiotherapy device according to the embodiment of the present invention by the above configuration is as follows.

When the power switch S / W of the power supply unit 1 is turned on, after the voltage of the battery BATT is charged in the capacitor C1, the display device unit 2, the high voltage generator 3, and the microcontroller 6 are turned on. Is approved.

When the voltage of the battery BATT is applied to the high voltage generator 3, the transistors Q12 and Q13 are turned on, and a voltage is momentarily applied to the primary coil of the transformer T1. When voltage is applied to the primary coil, the high voltage is instantaneously induced to the secondary coil, and positive (+) high voltage is induced at terminals 7 and 9 of the secondary coil, and negative (-) high voltage is induced at terminal 5. The high voltage momentarily induced at the terminal 5 of the transformer T1 is input to the base terminal of the transistor Q12 through the capacitor C8 and the resistor R19 to turn off the transistor Q12. When the transistor Q12 is turned off, the transistor Q13 is also turned off, so that the current flowing in the transformer T1 is cut off, and the terminal 5 of the transformer T1 is restored to its original state. When the terminal 5 of the transformer T1 is restored to its original state, the transistors Q12 and Q13 are turned on again, so that the transformer T1 is oscillated at high voltage, and the terminal 9 of the transformer T1 is connected to the terminal 9 of the transformer T1. The pulse signal is output. The high voltage output (+) to terminal 9 of the transformer T1 is charged to the high voltage capacitor C5 through the diode D1 and the resistor R12 of the high voltage controller 7 and charged to the high voltage capacitor C5. The potential is dropped by the resistor R11 to charge the capacitor C6. In the above case, when too high a high voltage is induced in the secondary coil of the transformer T1, the transistor Q14 is turned on by the voltage passing through the zener diode D9 through the terminal 7 of the transformer T1. Since the current flowing in the secondary coil of the transformer T1 flows through the transistor Q14, the secondary coil of the transformer T1 is subjected to stable high voltage.

When the high state signal is output from the output terminal P03 of the microcontroller 6, the transistor Q11 of the high voltage controller 7 is turned on, so the transistor Q10 is also turned on. Therefore, the potential of the high voltage capacitor C5 is applied to the variable resistor VR1 through the transistor Q8 through the transistor Q8 in the on state by the potential charged in the capacitor C6. When the transistor Q7 is turned on by the voltage controlled by the variable resistor, the potential of the high voltage capacitor C5 is applied to the high voltage switching unit 8 through the transistor Q7. In this case, when the high state signal is output from the output terminal P02 of the microcontroller 6, the transistor Q9 is turned on and the potential of the capacitor C6 is discharged, so the transistor Q8 is turned off.

Therefore, since the transistors Q10 and Q7 are both turned off, the supply of the potential from the high voltage capacitor C5 to the high voltage switching unit 8 is cut off.

When the power switch S / W of the power supply unit 1 is turned on and the voltage of the battery BAT is applied, the microcontroller 6 switches the mode selection switch SW1 and the time selection switch SW2 of the switch input unit 5. Then, the display device unit 2 is driven by receiving the signal of the sustain selection switch SW3. There are four signals by the mode selection switch SW1. The first mode signal is that the mode selection switch SW1 is turned on once and inputs one low state signal to the microcontroller 6, and the second The mode signal is that the mode selection switch SW1 is turned on twice. The two low state signals are input to the microcontroller 6, the third mode signal is three low state signals, and the fourth mode signal is four. The low state signal of the burn is input to the microcontroller 6. There are two signals by the time selection switch SW2. When the time selection switch SW2 is turned on once, the operation of the low frequency physiotherapy device continues until the power switch S / W of the power supply unit 1 is turned off. When the time selection switch SW2 is turned on twice, the operation of the low frequency physiotherapy machine lasts only for a certain time. When the maintenance selection switch SW3 is turned on and a low state signal is input to the microcontroller 6, the signal output by the microcontroller 6 continues for a predetermined period of time at the frequency at which the maintenance selection switch SW3 is turned on. Is output.

The microcontroller 6 notifies the outside of the input state of the switch input section 5 via the display device section 2. That is, when one low state signal is input from the mode selection switch SW1, the low state signal is output to the output terminal P11 to operate the second mode light emitting diode LED2, and the mode selection switch SW1. When the two low state signals are inputted from the N2), the low state signal is output to the output terminal P12 to operate the third mode light emitting diode LED3, and when the three low state signals are input from the mode selection switch SW1. When the fourth mode light emitting diode LED4 receives four low state signals from the mode selection switch SW1, the first mode light emitting diode LED1 is operated to inform the user of the current mode state. In addition, when a single low state signal is input from the time selection switch SW2, the microcontroller 6 outputs a high state signal to the output terminal P030 to turn off the time selection light emitting diode LED5, and to turn the low state two times. When the signal of the state is inputted, the time selection light emitting diode LED5 is operated by outputting a low state signal to the output terminal P030. When the low state signal is input from the sustain selection switch SW3, the microcontroller 6 outputs the low state signal to the output terminal P031 to operate the sustain selection light emitting diode LED6. Therefore, the microcontroller 6 can inform the outside of the operation state of the low frequency treatment device through the display device unit 2. In the above-described case, the display device unit 2 may be configured of a liquid crystal display (LCD) device (not shown) instead of a light emitting diode. In the case of the liquid crystal display device, the frequency of use, mode selection, The operating time, hold function and others can be displayed.

The microcontroller 6 switches the high potential supplied from the high pressure control unit 7 to the high pressure switching unit 8 at a low frequency according to the input signal of the switch input unit 5 and supplies it to the pad PAD for a therapeutic effect on the human body. It provides a low-frequency physical therapy device having. The on / off operation of the transistors Q5 and Q6 is repeated by the low frequency pulse signal output from the output terminals P00 and P01 of the microcontroller 6. In accordance with the on / off operation of the transistors Q5 and Q6, the transistors Q2 and Q3 also repeat the on / off operation. Therefore, the high potential supplied from the high pressure control unit 7 is switched and supplied to the pad PAD, so that the human body is treated when the human body is located between the pads PAD. The low frequency pulses output from the output terminals P00 and P01 of the microcontroller 6 increase in frequency for a predetermined time, thereby increasing the therapeutic effect felt by the human body. However, since the frequency having a therapeutic effect such as pain relief is different depending on the person or the part of the human body, when the maintenance selection switch SW3 of the switch input unit 5 is pressed by the user while the frequency is changed, the microcontroller ( 6) outputs a pulse having a frequency at the time when the maintenance selection switch (SW3) is pressed to the output terminals (P00, P01) for a predetermined time, so that the user can be treated at a frequency having a comfortable feeling.

The primary safety device 9 detects the output voltage of the high voltage switching unit 8 through the distribution resistor pairs R8 and R9 and inputs it to the microcontroller 6, and uses the zener diode D4 to switch the high voltage. When excessive high pressure is applied to the part (8) it is maintained at a constant voltage.

In addition, the secondary safety device 10 detects the potential of the high voltage capacitor C5 through the variable resistor VR1 of the high voltage controller 7, inputs it to the microcontroller 6, and uses the zener diode D5. When excessive high voltage is charged in the high voltage capacitor C5, the voltage is maintained at a constant voltage.

As described above, in the embodiment of the present invention, a low-frequency physiotherapy device that can be treated (use) for a predetermined time at a selected frequency by selecting a frequency that the user feels comfortable from among the frequencies changed during the treatment (use). I can provide it. This effect of the invention can be used in the field of medical devices.

Claims (2)

A physical therapy apparatus using low-frequency electrical pulses, comprising: a power supply unit 1 for supplying a direct current power source (BATT); A display device unit 2 connected to the power supply unit 1 to inform the outside of the operation mode state of the low frequency physical therapy apparatus; A high pressure generator 3 connected to the power supply unit 1 for generating a high potential oscillation voltage from a direct current power source BATT; An oscillator 4 for supplying a fundamental frequency; A switch input unit 5 for allowing a user to select an operation mode of the low frequency physiotherapy machine; A microcontroller 6 connected to the switch input unit 5 of the power supply unit 1, the display unit unit 2, and the oscillator unit 4 to control the overall operation of the low frequency physiotherapy device according to the signal of the switch input unit 5; ; A high pressure controller (7) connected to the high pressure generator (3) and the microcontroller (6) to control the supply of the high pressure input from the high pressure generator in accordance with the output signal of the microcontroller (6); It is connected to the microcontroller 6, by switching the high pressure supplied from the high-pressure control unit 7 in accordance with the pulse output signal of the microcontroller 6 to supply to the pad (PAD) to alleviate pain in the human body between the pads (PAD) A high pressure switching unit 8 providing a therapeutic effect such as; A primary safety device 9 connected to the high pressure switching unit 8 to prevent excessive high pressure from being applied to the pad PAD of the high pressure switching unit 8; A secondary safety device 10 connected to the high pressure control unit 7 for preventing excessive high pressure from being supplied from the high pressure control unit 7 to the high pressure switching unit 8; Low frequency physiotherapy device, characterized in that the operation is maintained for a predetermined time at the selected frequency by selecting a frequency that the user feels comfortable among the frequency that is changed during the treatment (use). The switch input unit (5) according to claim 1, further comprising: a mode selection switch (SW1) in which one terminal is grounded; A time select switch (SW2) with one terminal grounded; Low frequency physiotherapy device, characterized in that the one terminal is made of a ground holding switch (SW3).