KR100604210B1 - Medical diagnosing and treating circuit - Google Patents

Abstract

Disclosed is a medical diagnosis and treatment circuit for obtaining diagnosis information about a physical condition of an operator in a diagnosis mode based on an electric charge of an operator, and obtaining treatment information for an operator in a treatment mode. The square wave generator generates a square wave signal with controlled frequency and duty. The charge absorbing portion absorbs the charge of the human body of the subject in response to the square wave signal from the square wave generator. The controller controls the operation of the charge absorbing unit and obtains the body condition diagnosis information and the treatment information of the subject based on the charge of the subject human body absorbed by the charge absorbing unit. The medical diagnosis and treatment circuit uses the body condition diagnosis information and the treatment information of each subject obtained in the diagnosis and treatment mode based on the charge of the subject's human body to electrically quantify the stimulation amount of the manual procedure, that is, the magnetic needle during the acupuncture process. So that mechanical applications are possible.

Diagnosis, treatment

Description

MEDICAL DIAGNOSING AND TREATING CIRCUIT}

1 is a circuit diagram showing the configuration of a conventional electrical stimulation treatment device.

2 is a circuit diagram showing the principle of the electrical stimulation treatment device shown in FIG.

3 is an electrical equivalent circuit diagram of a living body according to an embodiment of the present invention.

4 is an electric circuit diagram electrically explaining the acupuncture process between the operator and the operator according to an embodiment of the present invention.

5 is a schematic diagram of the electrical stimulation circuit of the output capacitor currents stimulus (OCCS) according to an embodiment of the present invention.

6 is a unidirectional circuit diagram using OCCS according to an embodiment of the present invention.

FIG. 7 is a diagram illustrating a method for identifying an aspect of electric charges that are transferred based on an operator among electrical characteristics that appear between the operator, the operator, and the needle in acupuncture.

FIG. 8 is a view illustrating a movement of charges generated at the instant of contact as a result of the experiment by the method A of FIG. 7.

9 is a view showing a time-dependent change of the second peak voltage of the operator's discharge current generated when the electrical circle is formed.

FIG. 10 is a view illustrating a transfer pattern of charges generated at the time of contact occurring as a result of the test performed by the method B of FIG. 7.

11 is a circuit diagram illustrating a medical diagnostic and treatment circuit circuit using OCCS according to an embodiment of the present invention.

FIG. 12 is a circuit diagram illustrating an example of the waveform generator illustrated in FIG. 11.

FIG. 13 is a diagram illustrating potential potential change before and after treatment when an OMES (Oriental Medicine Electro Stimulator, OMES) according to an embodiment of the present invention is performed to a patient with pain.

14 is a diagram showing potential changes in appearance before and after treatment when OMES is performed on a patient with pain according to an embodiment of the present invention.

<Description of the code | symbol about the principal part of drawing>

202: square wave generator 204: charge absorbing portion

206: controller 208: relay

210: transistor 212: termination notification unit

302: voltage divider 304: first comparator

306: second comparator 308: latch

2042: Capacitor 2044: Analog Switch

2046: discharge transistor 2048: inverter

2122: light emitting diode 2124: speaker

2126 transistor C: capacitor

R1: resistor R2: variable resistor

R11: variable resistor R12: variable resistor

SW1: first switch SW2: switch

SW3: switch section SW4: switch section

The present invention relates to a medical diagnostic and treatment circuit, and more particularly, to a medical diagnostic and treatment circuit for obtaining the body condition diagnosis information and treatment information of the subject on the basis of the charge of the subject human body using the OCCS.

Acupuncture is a treatment of oriental medicine officially recognized as a part of medicine by the World Health Organization and the American Medical Association, and it has a great market growth potential due to its excellent effect and its infinite potential as an alternative medicine. It requires experience and diagnostic errors, which requires a lot of time from study to procedure. Nevertheless, acupuncture still exists because of its superior therapeutic effect compared to inexpensive medical treatment. Although the treatment effect of such an excellent acupuncture is more important than the correct diagnosis and the selection of the exact blood level, many clinicians emphasize the importance of handwriting, and some clinicians claim that the handwriting in acupuncture is the same as the military affair in control. . The method of handwriting is largely divided into circular spinning, torsion, spatula, respiratory, seizure, and suyeongsa. There are about 30 methods. Among them, the most commonly used methods are circular spinning and salt torrent. Research into what happens during the handwriting process is still ongoing and there are no confirmed studies, but the old book says it is an early action through the movement of the race along the meridians.

Modern medicine still leaves many questions about the ultimate question of what is and how to be cured by acupuncture. The book describes this as a meridians theory that is the basis of acupuncture. In the 帝 內 經 海 論 of Huang Huang, a representative theory of classical theory, he explained the foundation of Meridian theory by explaining '夫 十二 經脈 者 內 屬于 臟腑 外 于 于 肢節'. It was explained by subdividing into 二 經脈, 二 二 經 別, 奇經八脈, 十五 絡脈, 孫 絡, 浮 絡, 二 二 經 筋, 十二 皮膚. In addition, it introduces the concept of 氣 (), 營 氣, 衛 氣, and etiology to explain the flow of energy, the transmission of signals, and suggest the basis of disease treatment.

In recent years, many studies have attempted to prove the meridians theory in accordance with the arguments of the old book, and the results of subcutaneous inconsistency along the meridians, skin diseases, papules and erythema There are studies of ringworm, sweating and hypersensitivity reactions. There are studies showing meridians as images. First, researches on meridians and blood levels or their effects by infrared imaging, ultrasound studies, and images of electrical phenomena on blood levels by chemical reactions. There are studies of changes in cerebral blood flow and cerebral cortex activity caused by saliva stimulation using imaging techniques such as electron emission tomography (PET) and FMRI. In addition, research using the magnetic phenomena of Meridian is in progress.

The main research among them is based on electrical phenomena. The electrical characteristics of meridians, acupuncture points, and non-acupuncture points are relatively consistent. When comparing the non-acupuncture points with acupuncture points and meridians, the resistance is high and the potential is low, the resistance is low, and the potential is low. The consensus is that high places are acupuncture points and meridians. The electrical phenomena of meridians, acupuncture points, and non-acupuncture points are described as low impedance.

Although research on the actual game is insufficient, the authenticity of the claim according to ancient books cannot be determined, but from an electrical point of view, the transfer of charges, among them, the transfer of charges similar to the properties of capacitors is the closest interpretation. The summary also supports him (see Figure 9). By the way, the conventional acupuncture medical electric stimulator is the main method and purpose of the electric stimulation through the circulation type electric circuit using the oscillator.

Among them, various electric needles have been developed and are currently used in the treatment field, and the electric stimulation method of the existing electric needles is a stimulation method using a circuit diagram, and the pain area is caused by the alternating current between the plus (+) terminal and the minus (-) terminal. It was a way to stimulate directly. However, the electrical stimulation method by the circulating circuit is a different stimulation method from the acupuncture principle compared with the applicant's experimental results, and the electrical stimulation method by the one-sided circuit proposed by the applicant is electrically related to the principle of acupuncture. More similar.

1 is a circuit diagram showing the configuration of a conventional electrical stimulation treatment device. 2 is a circuit diagram showing the principle of the electrical stimulation treatment device shown in FIG. As in the conventional electroprecipitator shown in FIGS. 1 and 2, the pain was controlled by alternating current flowing through two terminals, a positive (+) terminal and a negative (-) terminal. This was the principle of operation of the device arising from the idea that the conventional acupuncture process thought that the charge emitted from the operator's body would be a pulse of positive and negative repetition, but rather the nature of alternating current repeating positive and negative repetition. It can be seen that the flow of fast and very large capacitor currents occurs more extensively at first during treatment or manual treatment. In addition, it is necessary to examine through the various oriental medicine literature that claims that the flow of the game through the saliva. Flow means moving from one place to another. There is still little research to tell the game, but I can't deny that it has an electrical character. The flow of the game from the electrical point of view of the acupuncture procedure means the movement from the operator to the operator, or from the operator to the operator, the movement from the positive terminal to the negative terminal, that is, the movement in the preacupuncture itself. It doesn't. Also, the aspect of the stimulation method is different from the logic of needle. The electrical stimulation by alternating two terminals does not fit the principle of acupuncture to treat the disease through each stimulus for each acupuncture point.

Accordingly, the present invention is to solve such a conventional problem, by using the OCCS to obtain the diagnostic information of the physical condition of the subject in the diagnosis mode based on the charge of the subject human body, in the treatment mode to obtain the treatment information of the subject The purpose is to provide a medical diagnostic and treatment circuit.                         

In order to achieve the above object, the present invention provides a medical diagnostic and treatment circuit having a square wave generator for generating a square wave signal controlled frequency and duty.

The charge absorbing part absorbs the charge of the human body of the subject in response to the square wave signal from the square wave generator. A controller controls the operation of the charge absorbing unit and obtains body condition diagnosis information and treatment information of the subject based on the charges of the subject human body absorbed by the charge absorbing unit.

The charge absorbing unit may include: a plurality of capacitors configured to charge electric charges of the subject human body or discharge electric charges of the charged subject human body; A switch unit connected between the plurality of capacitors to control an amount of charge discharge by the plurality of capacitors; An analog switch connected between the subject and the plurality of capacitors to prevent charge of the charged subject human body from being applied back to the subject human body when the plurality of capacitors are discharged; A resistor and a variable resistor connected to each other in series between the plurality of capacitors and the analog signal to adjust the amount of charge extraction of the human body by the operator; A discharge transistor configured to discharge a charge of a human body of the subject charged in the plurality of capacitors in response to the square wave signal from the square wave generator; And an inverter operating in a complementary manner to the discharge transistor to control an operation of the analog switch.

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

The medical diagnosis and treatment circuit according to the embodiment of the present invention will be described with reference to the accompanying drawings.

In order to interact with the surgical needle and the needle used in the existing acupuncture needle, the electrical circuit must be formed between the needle and the needle, but the medical diagnostic and treatment circuit according to the present invention is one-sided ( Linear), the subject does not need the formation of an electrical circuit in order to interact with the needle, and when the electrostimulation therapy device consisting of a one-way circuit diagram is developed and used, it can stimulate the acupuncture points according to the acupuncture logic. Only through this will the sand acupuncture method and the pentagram method be used.

3 is an electrical equivalent circuit diagram of a living body according to an embodiment of the present invention. 4 is an electric circuit diagram electrically explaining the acupuncture process between the operator and the operator according to an embodiment of the present invention. If the living body is represented by an electrical equivalent circuit from an electrical point of view, it can be represented as shown in FIG. 3. In FIG. 3, R1 and R2 are intra-tissue resistance and skin resistance or contact resistance. As shown in the experiments, R1 and R2 are small changes that are negligible during the acupuncture process. Therefore, if the acupuncture process is represented by an electric circuit diagram, the living body may be interpreted as a kind of capacitance, and thus may be represented by a circuit diagram as shown in FIG. 4. That is, the phenomenon in which the grounded practitioner (capacitance) and the grounded practitioner (capacitance) meet each other as an acupuncture conductor at a specific place in the menstrual blood can be illustrated as an electrical circuit diagram of the acupuncture procedure. The location of the stimulation point, that is, the acupuncture points, is present as a variable because the operator selects it, and it is omitted because it is recognized as skin contact resistance and is recognized as an occurrence factor outside the OMES.

Experimental results according to the present invention (Example 1), the electrical phenomenon of the acupuncture procedure is not the nature of the alternating current between positive and negative, but rather the first fast and very large capacitors generated during the treatment of the hand acupuncture or hand The flow of currants can be seen as a more important and characteristic phenomenon that involves the transfer of charges generated during acupuncture. This is even more relevant when compared to the many herbal literature that argues that the principle of acupuncture is the flow of competition through acupuncture. In other words, when the flow of the game in acupuncture procedure, from the electrical point of view, the charge means the movement from the operator to the operator, or from the operator to the operator, the movement from the positive terminal to the negative terminal, that is, in the electroprecipitation itself. It does not mean to move.

Through the present invention, the electric needle must contain an electric circuit in order for the operator and the needle to interact with each other as claimed in the conventional needle, that is, a cyclic circuit diagram containing a cyclic circuit diagram for causing charge transfer from the positive terminal to the negative terminal. Or, the OMES (Oriental Medicine Electro) is a medical diagnostic and therapeutic circuit with a one-sided circuit diagram that does not require the formation of an electrical circuit to interact with the needle, ie it implements the concept of charge transfer from operator to subject. Stimulator) is provided.

5 is a principle diagram of an electrical stimulation circuit of the output capacitor OCCS according to an embodiment of the present invention. 6 is a unidirectional circuit diagram using OCCS according to an embodiment of the present invention. Therefore, if the main circuit of the OMES is viewed through the schematic diagram as shown in Fig. 4, the device is best if it is possible to replace a human action, and thus the circuit of Fig. 5 is configured, and the charge of the capacitor is infinite. Since it cannot be retained and must be able to release the transferred charges, the output stimulus can be applied again, resulting in a circuit diagram as shown in FIG. 6.

Example 1

A series of experimental studies to date on acupuncture have been conducted to study objective indicators of acupuncture points and meridians in both subjects, but both the acupuncture and acupuncture subjects have acupuncture in a specific blood called acupuncture points. Because of the nature of acupuncture procedure encountered by a conductor, it was considered necessary to separate and study the electrical sympathy. Therefore, the experiment was performed to clarify the electrical principle of acupuncture under the following assumptions. 1. Acupuncture points and meridians have electrical characteristics. 2. The flow of the game is correlated with the flow of electricity. 3. This electrical characteristic and flow is achieved through the exchange of the electrical phenomenon of the operator and the electrical phenomenon of the subject. That is, certain charges are transferred from the operator and transferred to the acupuncture points of the subject through the saliva. 4. The effect of saliva is achieved by the conduction of acupuncture points and meridians depending on the amount of charge transferred.

On the basis of this hypothesis, the action of acupuncture, which occurs between conductors of acupuncture, begins with the flow of charges emitted from the operator and the origin of the mutual exchange formed between the operator and the subject. To measure the positive, observe the change when the electrical circuit is formed between the operator and the electrical signal measuring instrument and the change when no electric circuit is formed.

In relation to the electrical signal meter used in the experiments, changes in the currents emitted by the operator were observed through the maclab 400 and the bioamplifier, excluding voltage changes due to the force and cable movement during the observation, and high-pass 0.1 Hz and low-pass 100 Filtered at Hz and sampled 40 / sec. Observed data is stored on the PC and analyzed using origin 5.0.

At the time of acupuncture, the surgeon used the journal and EZ to acupuncture or write the current change from a 35-year-old normal male. The electrode gel (PARKER LABORATORIES, INC., USA) is used to minimize the skin potential difference that occurs upon contact.

The experiment was carried out by two methods as shown in FIG. 7, which is a diagram illustrating a method for identifying a pattern of charges transferred from the operator, among the electrical characteristics appearing between the operator, the operator, and the needle in acupuncture. First, when the subject proceeded with the second motion in the ↑ direction, the contact was simultaneously made to form a current circuit through the amplifier (AMP) and the subject's second paper (A), and the second was observed in the ↑ direction. In the second stage, the voltage change was observed when the amplifier and the subject's current circuit could not be formed (B). The cable is fixed to prevent the change of current generated during movement with other cables, and the insulator on the contact surface is minimized to minimize the change of current caused by movement during contact.

FIG. 8 is a view illustrating a movement of charges generated at the instant of contact as a result of the experiment by the method A of FIG. 7. As a result of the experiment, the voltage change due to the emission current of the operator generated when forming the electro circle (A of FIG. 7) is shown in FIG. 8. This change in voltage is largely observed in two kinds. Firstly, it forms a short and fast peak within about 100-400 ms and exceeds an amplitude of ± 100 mV, which is a large voltage change (A in FIG. 8A, FIG. 8B) that is difficult to measure with an amplifier in the laboratory and continues. Thus a relatively slow and slow change in voltage is observed. Subsequently, while the circle was continuously formed, the voltage change was lost and changed to a stable state, and two types of voltage change were observed again at the time of shorting the circle (B of FIG. 8A and FIG. 8C). In addition, such a change in voltage is observed by mixing a positive voltage and a negative voltage in the initial blood, and a persistent change is observed even in a stable state. In FIG. 8, reference numerals T1, T2, and T3 represent the duration of contact by the human body and the bio amplifier.

Table 1 describes the change in voltage amplitude induced by the contact between the human body and the bio-amplifier. As shown in Table 1, the second relatively slow amplitude is observed for the change in voltage amplitude at the time A when the electric circle is formed and the time B when the electric circle is cut off. The observations were recorded by comparing the absolute values of the amplitudes of 15 amplitudes with a relatively significant voltage change among 35 results, and tested by pared t-test. The voltage amplitude changed at time A was 33.3 ± 3.0 mV, and the voltage amplitude changed at time B was 27.6 ± 2.5 mV. In Table 1, the voltage amplitude data show the mean value ± S.D. Obtained by the paired t-test. (n = 15).

The voltage amplitude of the peak during the initial about 400 sec was about 33.3 ± 3.0 mV, but the magnitude of the amplitude decreased exponentially and greatly decreased to the amplitude of 7.1 ± 0.7 mV for the later about 300 seconds. The recovery tendency of this peak voltage peak is very late, and after about 1 hour 30 minutes, the recovery tendency is about 25 mV.

Contact time Voltage amplitude (mV) Initial contact 33.3 ± 3.0 Final contact 27.6 ± 2.5

Next, in the case of observing a change in voltage due to electric charges emitted from the living body when no electric circle is formed, the second paper of the experimenter is repeatedly contacted and non-contacted to the (+) terminal of the electric signal measuring instrument. The order of progress is to repeat the contact and non-contact at intervals of 10 seconds with a time of about 30 seconds for the stabilization time of the electrical signal measuring instrument (see FIG. 10-A), and to observe the change in voltage derived by maintaining the contact for about 200 seconds. (See Figure 10-B). First of all, when the electric circle is formed through the experimenter, the aspect is significantly different. When the electric circle is formed, the voltage change is mainly on the positive or negative side, but when the electric circle is not formed through the experimenter, the voltage It is the fact that the change of both proceeds to the negative side and the positive side of the positive side. In addition, its magnitude is very unstable and it is not possible to distinguish it from noise phenomenon because it is mixed with several changes rather than any specific voltage change. In addition, since waveforms do not show characteristic changes in frequency, interval, and duration, it is difficult to derive waveform shaping.

From the above results, if you define the treatment process by saliva from an electrical point of view, the living body can be defined as a large capacitor, and the operator (C) and the operator (C ') are acupuncture at a specific place in the body called meridians or acupuncture points. It can be assumed that the biocurrents of each other are alternating currents. In 1939, the Kirlian couple of the former Soviet Union announced that Kirlian photography revealed that certain parts of the human body emit sparks that are stronger than their surroundings, and these points correspond to acupuncture points. This can be said to explain the strong electrical propensity of meridians and acupuncture points. In 1978, RJ Luciani used this phenomenon to prove the correlation between the colorectal mass and the grains. T. Moss showed that the coordination theory of self-regulating equilibrium function and acupuncture is consistent through three cases in vivo. Explained. In 1977, 大村 惠 昭 researched the relationship between radiography and acupuncture. This series of studies ultimately demonstrates the relationship between charge transfer, acupuncture points, and meridians. In certain blood of a subject, a large amount of charge can be retained or released instantaneously, unlike surrounding tissues. It is consistent with acupuncture points and acupuncture points in Chinese medicine. However, the phenomenon that is overlooked here is that the operator can also cause the movement of the charge by the capacitor, and as the phenomenon described in this embodiment, the transfer of the discharge charge was mixed with the positive type and the negative type. This means that the charge transfer not only flows from C to C ', but also moves from C' to C and it is difficult to find any period in this process. Omura Yoshiaki.Acupuncture & Electro-Therapeut Res, 2 (1/2); 43. 1977) has three types of radiation-discharge coronado types, namely, the control site and In the same case, the discharge corona diagram was described as an increase in the case of increase, but also did not explain why there is no increase, decrease or increase and decrease, and was thought to be caused by the following 10 factors. 1. Power condition of high voltage power supply, 2. Electrode condition, 3. Properties of voltage plate insulation material, 4. Protection state of photosensitive material, etc. 5. Exposure time and control method, 6. Manufacturing procedure and condition of photosensitive material, 7 Body surface condition, electrical properties and temperature, etc., 8. safety precautions, 9. ground state of the object under test, and 10. environmental state. This is because the electrical instability of the test subject, measurement equipment, and environmental factors were recognized as error factors of charge transfer. Of course, environmental factors may be included, but the change in charge generated in the operator's living body is to enter the electrical signal measuring instrument through the acupuncture points of the subject without any filtration.

9 is a view showing a time-dependent change of the second peak voltage of the operator's discharge current generated when the electrical circle is formed. 9A is the actual value of the peak voltage amplitude and B of FIG. 9 is the absolute value of the peak voltage amplitude and is outlined in a line. Referring to FIG. 9, the movement of charges generated in the living body of the operator disclosed in the embodiment of the present invention is irregular in the charge so as to be divided into a positive type and a negative type even when an electric circle is formed. This phenomenon can be thought of at different angles. The first error factor to consider is whether the contact was simultaneous at the time of contact with the terminal. Although the positive terminal and the negative terminal were intended to be contacted at the same time, the contact method using arbitrary exercise ability on the skin surface of the body had the effect of reducing noise at least, but whether the positive terminal and the negative terminal were contacted at the same time, the speed of charge movement was almost close to the speed of light. Considering the facts, the problem still emerged as an experiment. Excluding the above possibility, it can be assumed that if the transfer of charge is not in contact with the same contact, the two contact surfaces also act as capacitors. That is, assuming that the contact surface on the positive terminal is the first capacitor, the contact surface on the negative terminal becomes the second capacitor and the positive of the charge transferred from the first capacitor is accumulated in the second capacitor and is greater than the amount of charge generated in the first capacitor. In this case, it is inferred that the charge transfer will flow in the reverse direction, resulting in a positive type and a negative type. In the second experiment of the present embodiment, that is, when the amount of electric charges generated at one surface of the subject's living skin except for the error range of the contact surface and the contact time between the terminal and the skin by shorting the electric circle, the result shown in FIG. As shown, the movement of bilateral charges over ± 100 mV was observed, and several noises were compounded over time, and this aspect of noise is recognized as a very strong factor due to the environmental factors such as time and frequency. The characteristics of this noise are first, bilateral, second, indeterminate, and third, not lost. In the embodiment of the present invention to identify the treatment action by acupuncture, it is considered that the experimental results by the second experimental method are very similar to the actual acupuncture procedure. The operator and the operator defined as the first capacitor and the second capacitor are both exposed to the atmosphere and are short-circuited if they are assumed to be electrical circuits, and the intermediate cable acts as a needle. Electrical equilibrium will result in the loss of charge transfer. However, since the actual acupuncture process is electrically short-circuited, instantaneous and rapid charge transfer can be formed as shown in FIG. 4.

Example 2

As shown in FIG. 11, the OMES circuit, which is a medical diagnosis and treatment circuit capable of implementing the electrical characteristics of the acupuncture found through Example 1, was configured. 11 is a circuit diagram illustrating a medical diagnosis and treatment circuit using OCCS according to an embodiment of the present invention.

The medical diagnostic and treatment circuit includes a square wave generator 202, a charge absorbing portion 204, and a controller 206. The square wave generator 202 generates a square wave signal whose frequency and duty are controlled. FIG. 12 is a circuit diagram illustrating an example of the waveform generator illustrated in FIG. 11. The square wave generator 202 includes a voltage divider 302, a first comparator 304, a second comparator 306, a latch 308, and variable resistors R11 and R12. The voltage dividing unit 302 divides the voltage through the plurality of resistors R and outputs first and second voltage dividing signals. The first comparator 304 compares the first divided signal from the voltage dividing unit 302 with a reference signal and outputs a first comparison result signal. The second divided signal from the voltage dividing unit 302 is compared with the reference signal to output a second comparison result signal. The latch 308 holds the first comparison result signal from the first comparator and the second comparison result signal from the second comparator to output a square wave signal with controlled frequency and duty. Variable resistors R11 and R12 are connected to an input terminal of the voltage divider 302 to determine the frequency and duty ratio of the square wave signal. According to an embodiment of the present invention, the frequency and duty ratio of the square wave signal are preferably 3 Hz to 30 Hz, and 50 to 99%. The capacitor C influences the frequency with the variable resistors R11 and R12 depending on the charge and discharge time. That is, the absorption amount can be determined by freely selecting the frequency and the duty ratio.

The charge absorbing unit 204 absorbs the charge of the human body in response to the square wave signal from the square wave generator 202.

The charge absorbing unit 204 includes a plurality of capacitors 2042, switch units SW3 and SW4, analog switches 2044, resistors R1 and variable resistors R2, discharge transistors 2046, and inverters 2048. ). A plurality of capacitors 2042 either charges the subject's body or discharges the charged subject's body. The time charged and discharged by the plurality of capacitors 2042 is determined by the output of the square wave generator 202. Switch units SW3 and SW4 are connected between the plurality of capacitors 2042 to adjust the amount of charge discharge by the plurality of capacitors 2042. The analog switch 2044 is connected between the subject and the plurality of capacitors 2042 to prevent the charge of the charged human body from being reversely applied to the human body when the plurality of capacitors 2042 are discharged. It separates the human body from medical diagnostic and treatment circuits. The resistor R1 and the variable resistor R2 are connected in series between the plurality of capacitors 2042 and the analog switch 2044 to adjust the amount of charge extraction of the subject human body. The discharge transistor 2046 discharges electric charges of the human body of the subject charged in the plurality of capacitors 2042 in response to the square wave signal from the square wave generator 202. The inverter 2048 operates complementary to the discharge transistor 2046 to control the operation of the analog switch 2044.

The controller 206 controls the operation of the charge absorbing unit 204 and obtains body condition diagnosis information and treatment information of the subject based on the charge of the subject human body absorbed by the charge absorbing unit. The controller 206 generates a diagnostic mode control signal and a treatment mode control signal and sets the diagnostic and treatment time, charge absorption time, and charge absorption interval.

The medical diagnostic and treatment circuit also includes a first switch SW1, a second switch SW2, a relay 208, a transistor 210, and a termination notification unit 212. The first switch SW1 selects a diagnosis mode or treatment mode for the subject. The second switch SW2 selects the continuous absorption therapy mode or the interval absorption therapy mode when the treatment mode for the subject is selected. The relay 208 switches the absorption of the charge of the subject's human body into the charge absorbing portion according to the selection of the continuous absorption treatment mode or the interval absorption treatment mode for the subject. The transistor 210 is turned on / off in accordance with a control signal from the controller 206 to control the switching operation of the relay 208. In the treatment mode, when the continuous absorption is selected, the transistor 2046 is turned on to operate the relay 2044 so that the continuous absorption operation occurs. When the interval absorption is selected, the transistor 2046 is configured to give an interval by the control program for the selected interval. The relay 2044 is operated or stopped by repeatedly turning on / off to electrically connect or disconnect the human body and the medical diagnosis and treatment circuit. The termination notifying unit 212 outputs a signal for notifying the end of the diagnosis or treatment of the subject in response to the control signal from the controller 206. The termination notification unit 212 includes a light emitting diode 2122, a speaker 2124, and a transistor 2126. The light emitting diode 2122 generates light indicating termination when the diagnosis or treatment of the subject is terminated. The speaker 2124 generates a sound for notifying the termination of the diagnosis or treatment of the subject. The transistor 2126 is turned on / off according to the termination output control signal from the controller 206 to control the light emitting operation of the light emitting diode 2122 and the sound generating operation of the speaker 2124. That is, when the set time is completed, the controller 206 turns on the transistor 2126 by applying a high level signal to the transistor 2126. In accordance with the turn-on operation of the transistor 2126, the speaker 2124 and the LED 2122 are operated to signal termination and to stop the relay 208 to open the circuit so that it is no longer absorbed. The amount of charge absorbed by the human body may be determined by the frequency and duty ratio of the square wave signal, the variable resistor, the size of the plurality of capacitors 2042, and the time interval / continuous mode.

Example 3

13 is a potential change diagram of the successor before and after the treatment when the OMES is performed in patients with pain according to an embodiment of the present invention. 14 is a diagram showing potential changes in appearance before and after treatment when OMES is performed on a patient with pain according to an embodiment of the present invention.

Each channel selection frequency is displayed to check the variable frequency as shown in FIG. 13 or FIG. 14. In other words, the potential change in proportion to the amount of charge absorbed by the plurality of capacitors 2042 is transferred to the PC (not shown) to simultaneously display and analyze two channels, the left human body and the right human body of the subject. For convenience, two channel range information and parameter information are displayed. The waveform displayed in real time is captured and stored as shown in FIG. 13 or 14. Channel 1 is for the right human body and channel 2 is for the left human body. The treatment was carried out for about 20 minutes and the left and right sides of the sciatic nervous system could not bend before or after the treatment, but it was possible to bend freely after the treatment, and the left and right balance before the treatment even in the electric potential gradient (see Figs. 13 and 14). What went wrong can be balanced after treatment.

As described above, according to the present invention, by using the OCCS in the diagnosis and treatment mode based on the charge of the subject's human body by using the body state diagnosis information and treatment information of each of the obtained acupuncture process, namely It is possible to quantify the amount of magnetic poles of the needles electrically, which enables mechanical applications. The subject can be treated through subcutaneous tissue such as acupuncture, needle, pin, or the like on the basis of the body condition diagnosis information and treatment information of the subject obtained by the medical diagnosis and treatment circuit according to the present invention. The present invention can be applied to the electrical stimulation treatment device and the diagnostic device for treating through contact such as a patch on the skin surface based on the body condition diagnosis information and treatment information of the subject.

While the invention has been shown and described with respect to certain preferred embodiments thereof, the invention is not limited to the embodiments described above, but in the field to which the invention pertains without departing from the spirit of the invention as claimed in the claims. Any person with ordinary knowledge will be able to make various modifications.

Claims (11)

A square wave generator for generating a square wave signal having a controlled frequency and duty; A charge absorber for absorbing charge of a human body in response to the square wave signal from the square wave generator; Controlling the operation of the charge absorbing part, obtaining body condition diagnosis information and treatment information of the subject based on the charges of the human body absorbed by the charge absorbing part, generating a diagnostic mode control signal and a treatment mode control signal, A controller configured to set a diagnosis and treatment time, a charge absorption time, a charge absorption interval, and output a termination notification control signal; A first switch for selecting a diagnosis mode or treatment mode for the subject; A second switch for selecting a continuous absorption therapy mode or an interval absorption therapy mode when a treatment mode is selected for the subject; And And a termination notification unit for informing the end of the diagnosis or treatment of the subject in response to an input control signal. The medical diagnosis and treatment circuit of claim 1, wherein the absorbed amount of the human body is determined by a frequency and duty ratio of the square wave signal generated by the square wave generator. The voltage generator of claim 1, wherein the square wave generator comprises: a voltage divider configured to divide the voltage through a plurality of resistors and output first and second voltage dividing signals; A first comparator comparing the first divided signal from the voltage dividing unit with a reference signal to output a first comparison result signal; A second comparator configured to output a second comparison result signal by comparing the second divided signal from the voltage divider with the reference signal; And And a latch for holding a first comparison result signal from the first comparator and the second comparison result signal from the second comparator to output a square wave signal with controlled frequency and duty. Circuit. The medical diagnostic and treatment circuit of claim 3, wherein the square wave generator further comprises variable resistors connected in series with the voltage divider to determine a frequency and duty ratio of the square wave signal. The apparatus of claim 1, wherein the charge absorbing unit comprises: a plurality of capacitors configured to charge electric charges of the operator body or discharge electric charges of the charged operator body; A switch unit connected between the plurality of capacitors to control an amount of charge discharge by the plurality of capacitors; An analog switch connected between the subject and the plurality of capacitors to prevent charge of the charged subject human body from being applied back to the subject human body when the plurality of capacitors are discharged; A resistor and a variable resistor connected to each other in series between the plurality of capacitors and the analog signal to adjust the amount of charge extraction of the human body by the operator; A discharge transistor configured to discharge a charge of a human body of the subject charged in the plurality of capacitors in response to the square wave signal from the square wave generator; And And an inverter configured to operate in a complementary manner to the discharge transistor to control the operation of the analog switch. delete delete delete 2. The apparatus of claim 1, further comprising: a relay for switching the absorption of the charge of the subject's body into the charge absorbing portion in accordance with the selection of a continuous absorption treatment mode or an interval absorption treatment mode for the subject; And And a transistor on / off in response to a control signal from the controller to control the switching operation of the relay. delete The method of claim 1, wherein the termination notification unit, A light emitting diode for generating light indicating termination when the diagnosis or treatment for the subject is finished; A speaker for generating a sound for notifying when the diagnosis or treatment of the subject is terminated; And And a transistor which is turned on / off according to the termination notification control signal from the controller to control the light emitting operation of the light emitting diode.

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