KR20030065264A - Medicate for declination voltage output signal - Google Patents

Abstract

PURPOSE: Provided is a therapeutic apparatus using deviation between peak values of positive voltage and negative voltage, whereby neutralize an electrolyte at a damaged part. CONSTITUTION: The therapeutic apparatus includes a power circuit part to supply a predetermined direct current power formed by bridge rectification of a commercial alternating current; a pulse generating part to send a predetermined high voltage oscillating frequency via pulse generating frequency to a deviated voltage output part; the deviated voltage generating output part to amplify the signal from the pulse generating part and output the signal with deviated peak voltages of the cathode and anode; a skin contact bar to neutralize electrolyte at a damaged part.

Description

Deviation Voltage Output Therapy {Medicate for declination voltage output signal}

The present invention relates to a deviation voltage output therapy device, and in particular, the positive current (+) and the negative current (-) form a microcurrent circuit through the human body by varying the output values of the positive electrode (+) and the negative electrode (-). At the same time, the output value of the same number is offset by the counter electrode, respectively, causing the exothermic action, and the positive or negative voltage surplus due to the deviation is applied to the diseased portion to neutralize the excessive electrolyte distributed in the diseased portion. Relates to an output therapy device.

As is well known, the human body is exposed to pathogens or injured, the fever activity is carried out to solve it, resulting in the generation of waste products (metabolites) resulting in the imbalance of various electrolyte distribution in the diseased area.

Conventional electrotherapy devices were designed to meet the simple purpose of helping to increase the body temperature or the smooth circulation of blood by using a single action such as heat or vibration generated from electrical short circuit.

However, the conventional technology, such as the effect of the treatment is low, and tried to use excessively high voltage or excessive current to increase the treatment effect, the problem that causes the side effects such as the victim loses his life or damage the tissue due to the impact. Occurred.

Accordingly, the present invention has been made to solve the above-described problems, and by appropriately controlling the amount of heat generated by the short-circuit action by reducing the amount of circuit current by varying the output peak values of the positive electrode (+) and the negative electrode (-). The positive current (+) or negative current (-), which is caused by the deviation, interacts with the electrolyte of the body fluid, thereby obtaining the dual effect of inducing chemical changes in the body suitable for life activities. Therefore, the purpose of the present invention is to provide a deviation voltage output therapy device that can contribute to the improvement of human health as well as to combat disease.

The technical means of the present invention for achieving this object is to generate a predetermined high-voltage oscillation frequency signal and supply it to the deviation output unit for supplying a predetermined DC power obtained by the bridge rectification of commercial AC power to each circuit portion, A pulse generator and a deviation electrode output unit for amplifying and waveform shaping the signal output from the pulse generator and generating a deviation between the positive electrode (+) and the negative electrode (−) by selective or arbitrary adjustment of the output peak value; It is composed of a skin contact rod that receives the current output from the deviation electrode output part and delivers it to the diseased area, thereby generating appropriate heat in the diseased area and at the same time neutralizing the electrolyte.

1 is an exemplary view showing the appearance of a treatment device according to the present invention.

2-A and 2-B are driving circuits of the deviation voltage output treatment apparatus according to the present invention.

(A) Power supply circuit block diagram,

(B) the circuit diagram of the pulse generator;

(C) circuit diagram of the deviation voltage output unit.

Figure 3 is an exemplary view of the skin contact rod configuration according to the present invention.

4 is an embodiment of the treatment device according to the present invention,

(D) increases the peak value of negative voltage (-).

(E) When the peak value of positive voltage (+) is raised.

<Explanation of symbols for main parts of drawing>

1: Line 5: Deviation voltage peak value model

2: handle (insulator) 6: model to cancel the relative voltage

3: skin contact part 7: diffusion state of surplus voltage

4: skin

10: power supply

20: pulse generator

30: selective deviation voltage output 40: adjustable deviation voltage output

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

1 is an exemplary configuration of the external appearance of the deviation voltage output treatment device according to the present invention.

A is the power input terminal (corresponds to Vi of Fig. 2-A)

B is 110V / 220V power selector switch (corresponds to SW₁ in Fig. 2-A)

C is the power on / off switch (corresponds to SW₂ in Fig. 2-A)

D is the voltage indicator gauge (corresponds to VM₁ in Fig. 2-A)

E is the deviation voltage selection or control switch (corresponds to SW₃ or VR₃ ~ VR₄ in Fig. 2-A)

F is the frequency control switch (corresponds to VR₄ in Fig. 2-A)

G is the voltage regulation switch (corresponds to VR₁ of Fig. 2-A)

H is output terminal (corresponds to Out2 in Fig. 2-B)

I is the output terminal (corresponds to Out3 in Fig. 2-B)

2-A (A) shows a configuration diagram of the power supply circuit of the deviation voltage output treatment device according to the present invention, wherein a 110V / 220V power selection switch (SW₁) and a power switch (SW2) are provided on the primary side of the transformer (T₁). Is connected, and a DC voltage flows into the transistor Q 'through the bridge diode BD' on its secondary side. At this time, the variable resistor VR 'is varied to change the base potential of the transistor Q2 and to operate the transistor Q'. The variable DC voltage is output from the DC voltage output unit Vcc through the emitter output of the transistor Q '. The Volt Meter indicates the DC voltage output from the DC voltage output unit (Vcc).

C₁ is a capacitor for removing AC signal and a capacitor to remove the residual ripple voltage. In addition, stable DC power is obtained through the bridge diode (BD₂) and regulator (IC₁).

The regulator (IC₂) acts as a buffer and can adjust the output by adjusting the variable resistance (VR₂). Here, the output DC voltage is connected to the DC voltage input terminal Vcc of FIG. 2-B (C), and the DC output V _DD is connected to the input voltage V _A when a pulse occurs. The non-described fuse F₁ is a C₃~C ₅ is a condenser, R₁~R₄ denotes a resistance.

(B) in Fig. 2-A is an inverter (IN₁~IN₃) and a resistor (R _17, R _18), a capacitor (C ₁₀₎ a predetermined period and to generate pulse signals the variable resistance (VR₂) by a pulse generating unit By adjusting the necessary oscillation frequency signal is output through the output terminal (Out1).

The generated pulse signal is applied to the pulse input signal by the input voltage V _A of Fig. 2-B (C) i through the output terminal Out1.

This signal is divided into a resistor (R ₁₅ ) and a variable resistor (VR₁), amplified through the transistor (Q ₇ ) and applied to the primary side of the transformer (T₂) and the negative electrode (-) induced on the secondary side of the transformer (T₂). Alternatively, the positive (+) voltage is induced at the output (Out₂, OUt₃) through the diode (D ₈ ) and another diode (D ₉ ), respectively, where the output selector switch (SW₃) is connected to the terminals A1 and A2. The resistor (R ₁₁ ) does not pass through the resistor (R ₁₃ ) Passed through the electrode and another resistor (R ₁₄ ) The electrode is selected. In this case, the resistor R ₁₄ is a damping resistor for attenuating the output voltage passing through the diode D ₉ , and the attenuated voltage is output to A2. The output signal through a resistor (R ₁₁₎ is not attenuated because it maintains the output of the attenuator and not through the resistance (R ₁₃₎ immediately another resistor (R ₁₁₎ end through the AD A1 The output is directed to Out2.

When again sikyeoteul connecting the switch (SW₃) to the B1 and B2 signals passing through the diode (D ₈₎ is the output is attenuated by the attenuator resistor (R ₁₃₎ is induced by B1. At the same time, at the output of B2 not through the attenuation resistor (R ₁₄ ), it is not attenuated by passing B2 past the AE point. The output voltage can be obtained.

On the other hand, Fig. 2-B (C) is an adjustable method for outputting a deviation voltage by replacing Fig. 2-B (C). When the pulse signal output from Fig. 2-A (Out) is applied to the input terminal VA of Fig. 2-B (C), the signal is divided into a resistor R ₁₅ and a variable resistor VR 'and the transistor is The negative (-) or positive (+) voltage amplified through (Q ₇ ) and applied to the primary side of the transformer (T₂) and induced on the secondary side of the transformer (T₂) is the diode (D ₈ ) and another diode ( D ₉ ) is induced in the output section (Out₂, Out₃), respectively, where the resistance value is increased by adjusting the negative resistance (VR₃) on the negative side and the variable resistance (VR₄) on the positive side (Out₃) side. The resistance value can be lowered by controlling the negative resistance (Out ₂) or the variable resistance (VR ₃) of the cathode, and the resistance value can be output by increasing the resistance by adjusting the variable resistance (VR ₄) of the positive electrode (Out ₃).

The deviation voltage thus output is conducted to the skin contact rod shown in FIG. 3. In this case, as shown in FIG. 4, when the deviation output voltage (5) is conducted through the skin contact rod to the inflamed or hardened diseased area, the output value of the same number is canceled from the counter electrode (6) to generate a heating effect. At the same time, the excess positive or negative voltage is conducted to the tissue (7) to promote neutralization of the alkaline or acidic electrolyte, which is excessively distributed in the diseased tissue, respectively, when the positive voltage (+) is excess (( D)) If neutralization of excess alkaline electrolyte is promoted in diseased tissue and excess negative voltage ((e)), neutralization of excess acidic electrolyte in diseased tissue is promoted.

As described above, the present invention uses the deviation output voltage to generate an exothermic effect at the site of the disease, thereby maintaining the body temperature appropriate for the treatment of the disease, and at the same time reducing the distribution of excessively acidic or alkaline-biased electrolyte to treat the disease in the body. It is possible to prevent the side effects caused by the impact on the human body with excessive voltage or current, as well as to promote the health of humans, and to prevent the occurrence of diseases when appropriate, by causing appropriate chemical changes.

Claims (2)

A power supply circuit unit for supplying a predetermined DC power formed by bridge rectifying commercial AC power to each circuit unit 10, and a pulse generator 20 for inputting a predetermined high voltage oscillation frequency to the deviation voltage output unit through a pulse generation frequency; A selective deviation voltage output unit 30 for amplifying and outputting a signal output from the pulse generator, and selectively outputting a deviation in a peak voltage of a positive electrode or a negative electrode according to a switch operation; A deviation voltage output therapy device comprising a skin contact rod (FIG. 3) configured to receive a current output from the deviation voltage output unit to neutralize excessive acidic or alkaline electrolyte distribution at the same time as an appropriate heating effect for treatment in a diseased tissue. A power supply circuit unit for supplying a predetermined DC power formed by bridge rectifying commercial AC power to each circuit unit 10, and a pulse generator 20 for inputting a predetermined high voltage oscillation frequency to the deviation voltage output unit through a pulse generation frequency; And, amplified signal output from the pulse generator and outputs a variable deviation voltage output unit for outputting a deviation in the peak voltage of the positive (+) or the negative (-) in accordance with the switch control and 40, the deviation voltage Variation voltage output therapy device, characterized in that consisting of a skin contact rod (Fig. 3) to receive a current output from the output to neutralize the excessive acid or alkaline electrolyte distribution at the same time as the heating effect appropriate for treatment in the diseased tissue.