KR101648362B1 - Lipolysis equipment with a high frequency modulating control system - Google Patents

Abstract

The present invention relates to lipolysis equipment through a high-frequency modulation control system, and more particularly, to equipment which can convert a high frequency output generated from the equipment into a low frequency output through modulation, so that a dedicated output terminal, circuit, controller and control unit, which are dedicated to output a low-frequency output, may be omitted. According to the present invention, the lipolysis equipment through a high-frequency modulation control system includes a square wave generator for generating a high-frequency square wave or a low-frequency square wave, and a central control unit for controlling the square wave generator such that the square wave generator generates a high-frequency square wave or a low-frequency square wave. According to the present invention, the structure of the product is simple so that the manufacturing cost of the product may be reduced, thereby increasing the competitiveness in terms of a manufacturer. In terms of a customer, the problem of requiring a customer to purchase low-frequency equipment as well as high-frequency equipment is solved. Since one output port is used, the inconvenience of assembling a low-frequency port and a high-frequency port separated from each other is solved in terms of a manufacturer, so that the workability and productivity are improved. In addition, since a circuit, a controller and a control unit dedicated to a low frequency are not required, the low-frequency components and design cost may be reduced, and connectors, a cables, patches and consumption articles may be reduced, so that the lipolysis equipment according to the present invention may have marketability and economic feasibility.

Description

TECHNICAL FIELD [0001] The present invention relates to a lipolysis equipment with a high frequency modulating control system,

The present invention relates to a fat dissolving apparatus using a high frequency output modulation control system. More particularly, the present invention relates to an apparatus and a method for fat decomposition using a RET (Resistive Electronic Transfer) high frequency and transcutaneous The present invention relates to a liposome device for modulating, controlling, and outputting a low-frequency wave that helps burn fat decomposed through nerve stimulation using a single high-frequency amplification circuit without a separate port.

The present invention is capable of outputting a low frequency while omitting a dedicated output terminal for a separate low frequency output and a circuit, a control and a control unit since the high frequency generated in the equipment can be output through a low frequency through output modulation.

In general, the treatment of human body through treatment equipment using high-frequency and low-frequency has been continuing. Therapeutic principles of treatment equipment include treatment of shock wave therapy using wavelength generated from equipment, And inflammation of the tendons and ligaments. It is being used as a method to easily treat chronic pain and diseases that are not easily remedied by conservative therapy such as physical therapy, medication, and oriental medicine.

The shock wave therapy therapy is briefly described as follows. A shock wave therapy device is contacted to a painful treatment area to transmit a shock wave into the body to promote remodeling of the blood vessel, remove calcification of the tendon, Which results in a reduction in pain and an improvement in function.

Particularly, in recent years, there has been proposed a combination therapy device that can use both high-frequency and low-frequency and individual treatment devices that use high-frequency and low-frequency, respectively. In the technical field of the present invention, Which is disclosed in Korean Patent No. 10-113751 entitled Portable Combined Obesity and Skin Medical Device.

In the case of the above-mentioned conventional apparatus, the output of high frequency (Mhz) is modulated in the low frequency region (Khz) in the case of the equipment which is generated by mixing high frequency and low frequency. A port and a port for managing an output electrode for low frequency are generally provided.

Therefore, in the case of a device using a mixture of a high frequency and a low frequency as described above, a treatment device for generating a low frequency and a treatment device for generating a high frequency are separately manufactured.

As a result, the consumer can purchase a combination of a high-frequency treatment device and a low-frequency treatment device suitable for the treatment purpose, and the treatment using two wavelengths can be performed in parallel. Thus, And the utilization of the therapeutic apparatus is reduced.

In addition, even if the above-described high-frequency treatment and low-frequency treatment are implemented by a single device, it is necessary to provide output electrodes necessary for high-frequency generation and low-frequency generation, As a result, there is a problem that the accessibility of the product to the product due to the increase of the production cost linked with the cost increase of the parts is difficult, and the business is very weak.

The present invention improves the problems of conventional treatment equipment using high frequency and enables high frequency and low frequency to be outputted as a single product, thereby simplifying the product from the viewpoint of the consumer and simplifying the operation to the user, and the high frequency treatment device and the low frequency treatment device The object of the present invention is to provide a fat dissolving device which eliminates the economical burden of individual purchasing and improves product productivity by reducing the development cost and the cost of parts required for producing the product in terms of the manufacturer.

The present invention provides a means for solving the above problems by modulating the output of a high frequency wave generally generated through an improved output modulation control system and outputting a low frequency wave.

A preferred configuration of the above fat dissolving apparatus includes a central control unit for controlling a rectangular wave generating unit to generate a necessary low frequency or high frequency and generating a high voltage high frequency square wave and a low voltage low frequency square wave for the generated low frequency or high frequency .

Further, the present invention has a switch for controlling the opening and closing of the low-frequency or high-frequency generated by the central control unit alternately.

Further, the present invention has a switch for connecting the square wave generated by the rectangular wave generating unit to the high frequency resonance power circuit or the low frequency pass circuit.

In addition, the present invention has a series combination in which a primary resonance that transforms a high-frequency high-voltage square wave connected to a high-frequency resonance circuit into a sinusoidal high-frequency high-voltage power through the switch is advanced.

In addition, the present invention proceeds in parallel with the first resonance described above, and has a parallel combination in which a quadratic wave is transformed into a high-frequency high-voltage power in the form of a pure quadrature wave without distortion to proceed a secondary resonance.

In addition, the resonance type inverter having the above-described resonance has a resistor inserted in parallel at the output terminal of the high-frequency band pass filter so as to prevent the resonance type inverter from being damaged due to excessive operation under a no-load state.

In addition, the present invention detects short-circuiting of the electrodes formed in series combination and parallel combination of the above-described switches, and has a short-circuit detection unit composed of a resistor and a zener diode.

In addition, the present invention is characterized in that the device for detecting the opening of electrodes formed in series and parallel combination with the switch has an opening sensing unit composed of a resistor and a diode, which is characterized by a high-frequency output modulation control system.

With this improved high-frequency output modulation control system, It has the same effect.

First, the fat dissolving equipment according to the present invention can be implemented simultaneously with high frequency and low frequency by a single equipment, so that it is possible to secure competitiveness through price reduction by simplifying products from the viewpoint of a manufacturer, It is possible to eliminate the inconvenience of purchasing separate low-frequency equipment.

Second, the fat dissolving apparatus according to the present invention operates the equipment as one output electrode, thereby eliminating the inconvenience of manually switching the high-frequency port to the low-frequency port on the consumer side. Therefore, Thereby preventing the malfunction of the product due to the heat.

Third, since the fat dissolving device according to the present invention uses one output port in terms of the manufacturer, it is possible to eliminate the inconvenience of having a separate low-frequency port and high-frequency port and to assemble it, .

Fourth, the fat dissolving apparatus according to the present invention does not require a low-frequency dedicated circuit, a control unit and a control unit in terms of the manufacturer, and has the effect of reducing low-frequency related parts and design costs, and reducing connectors, cables, patches, and consumables.

1 is a structural diagram illustrating a fat dissolving device according to a preferred embodiment of the present invention;

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the terms used in the specification and claims are intended to describe the inventor's own invention in the best way possible, and the content of the specification can be used to define the concept of the term appropriately And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention.

A preferred embodiment of the present invention will be described with reference to FIG. 1 attached hereto.

The present invention is characterized in that it comprises a central control unit for controlling the square wave generating unit and generating a low frequency or a high frequency necessary for the equipment, and the present invention is characterized in that, in order to output low frequency or high frequency generated in the central control unit, (S1, S2) for generating a high-frequency high-frequency square wave or a low-voltage low-frequency wave. The present invention is also characterized in that the high-frequency square wave generated in the above-described manner is connected to a high-frequency resonance power circuit, And a switch S3 for connecting the low-pass filter to the low-pass circuit.

In the low-frequency circuit according to the present invention, since there is a high-frequency resonance and high-frequency band-pass filter circuit on the right side of the switch S3, a separate path for connecting the intended low- .

When the switch S3 is connected to the high frequency resonance circuit, the high frequency high voltage square wave is transformed into sinusoidal high frequency high voltage power by the primary resonance of the series combination of the capacitor C1 and the inductor L1. At the same time, the secondary resonance proceeds by parallel combination of the inductor L1 and the capacitor C2, and is transformed into a high-frequency high-voltage power of a purely square wave shape without distortion.

In the conventional resonant inverter circuit, the inductor for the first resonance is placed in front of the series capacitor, and the primary side winding of the transformer is placed in the rear of the parallel capacitor for the second resonance so that two inductors and two capacitors, Lt1 and C2 are required for the first and second parallel resonance in the present invention. However, in the case of the present invention, the inductor L1 is inserted between the series capacitor C1 and the parallel capacitor C2 . That is, three parts of C1, L1 and C2 can perform the same function.

In the present invention, it is preferable to use an air core inductor manufactured by using a Ritz wire in preparation for the skin effect of the wire.

With this use, the inductor is able to function as an ideal core without the Hysersis hand over current and without the Curie point.

The use of such inductors increases the skin effect on the wire and hysteresis of the hysteresis and overcurrent of the core material when the frequency is raised, and it is difficult to obtain a high-Q coil, in other words, a high- will be.

In the present invention, the high-voltage sinusoidal wave deformed by the resonant inverter contains harmonic noises superimposed on the source frequency generated by the opening and closing operations of the switches S1 and S2. Therefore, a band-pass filter circuit composed of an inductor L2 and a capacitor C3, an inductor L3 and a capacitor C4 is disposed to block harmonic noises from being output to the electrodes, and only the high- do.

In addition, when the voltage of the direct current component generated by the unbalance of the resonant circuit is transmitted to the electrode, the load (the user with the electrode) can be ionized so that the polar molecules or the ionizing material present inside the human body can be converted into the DC voltage component As shown in Fig.

Accordingly, in the present invention, the capacitors C3 and C4 are arranged in series to block the direct current component and only the AC component power is transferred to the electrodes. In the above process, the capacitors C3 and C4 are capacitively coupled The high voltage sine wave can be distorted and the output can be attenuated due to the impedance mismatch. The present invention cancels the load capacitance component by connecting the inductive inductors L2 and L3 in series, will be.

As a result, the series combination band-pass filter circuit of the inductor L2 and the capacitor C3, the inductor L3 and the capacitor C4 blocks the harmonic noise imposed on the source frequency, As shown in FIG.

In the present invention, when the switch S3 is connected to the low-frequency path, an excessive output current can be cut off by the resistor R5, and a low-frequency band-pass filter is added to reduce the user's discomfort.

In addition, the present invention inserts the resistor R1 in parallel to the output of the high-frequency band-pass filter in order to prevent the resonant inverter from being excessively operated in a no-load state to be damaged, ), And a zener diode ZD1.

In the present invention, when the intended high-frequency power is supplied to a reasonable load, a Zener voltage signal is generated by the Zener diode ZD1 and a signal SG1 appropriately limited by the resistor R4 is transmitted to the central control unit, When a short circuit occurs, the Zener voltage by the Zener diode ZD1 is not generated but the zero-level voltage signal is transmitted to the central control unit.

Through the above operation, the central control unit detects the short-circuit state of the electrode and controls the square-wave generating unit to be in an inactive state, and the switches S1 and S2 are opened and the apparatus is protected without being damaged even in the short-

The open sensing circuit of the present invention is constituted by resistors R3 and R4 and diodes D3 and D4 so that when the intended high frequency power is supplied to the load, The half-wave power is supplied to the resistor R3 and the appropriately limited signal SG2 via the resistor R5 is transmitted to the central control.

When the electrode is disconnected from the load by the above operation and becomes a load opening circuit, a zero-level voltage signal is transmitted to the central control unit without current flowing through the resistor R3 to detect the open state of the electrode, And the switches S1 and S2 are kept in the open state, and the device performs the function of protecting the electrode from being broken even in the open state of the electrode.

The frequency modulation according to the present invention is a technique of modulating 0.45 Mhz of a high frequency by 1 k low frequency with one output port PORT and setting a high frequency at the same output line without setting the high frequency output + As a result of modulation at low frequency, the output modulation was generated at 0.45 to 0.5 Mhz in the frequency modulation actual 1 Mhz.

In addition, the present invention relates to a high-frequency low-frequency synthesizing mode through a switching circuit that converts high frequency to low frequency through current switching. In the high frequency low frequency synthesis mode, after the deep warm stimulation of the existing high frequency is completed, Could be stimulated with low frequency.

The fat dissolving device according to the present invention can be produced by a combination of high frequency and low frequency as a single device through output modulation and simplifies the product and simplifies the operation without providing each output port, And it is an invention capable of solving the problems occurring in conventional equipment.

S1, S2, S3. switch
C1, C2, C3, C4. Capacitor
L1, L2, L3. Inductor
D1, D2, D3, D4. Diodes
R1, R2, R3, R4, R5, R6. resistance
SG1, SG2. signal
ZD1. Zener diode

Claims (4)

A central control unit for controlling a rectangular wave generating unit to generate a necessary low frequency or high frequency and generating a high voltage high frequency square wave and a low voltage low frequency square wave for the generated low frequency or high frequency;
Switches (S1) and (S2) for controlling opening and closing alternately with a low frequency or a high frequency generated by the central control unit,
A switch S3 for connecting the square wave generated by the rectangular wave generating unit to the high frequency resonance power circuit or the low frequency pass circuit,
A series combination of a capacitor C1 and an inductor L1 for performing first-order resonance for transforming a high-frequency high-voltage square wave connected to a high-frequency resonance circuit into a sinusoidal high-frequency high-voltage power through the switch S3,
The parallel combination of the inductor (L1) and the capacitor (C2), which progresses at the same time as the primary resonance and proceeds to the secondary resonance for transforming the square wave into the high-frequency high-voltage power of the pure-
A resistor R1 inserted in parallel in the output terminal of the high-frequency bandpass filter so as to prevent the resonance inverter from resonating in the no-load state,
A short-circuit detection unit configured by resistors R2 and R4 and a zener diode ZD1 for detecting short-circuiting of the electrodes formed in the serial combination and the parallel combination of the switches,
(R5) and diodes (D3) and (D4) by sensing the opening of electrodes formed in series combination and parallel combination with the switches. Oil dissipation equipment through output modulation control system.
The method according to claim 1,
Wherein the resonance circuit includes an inductor L 1 between a capacitor C 1 and a capacitor C 2 connected in parallel.
The method according to claim 1,
The inductor (L1) is a fat dissolving device through a high-frequency output modulation control system, which uses an air-core inductor using Ritz Wire, which contrasts the skin effect of the wire.
The method according to claim 1,
Wherein the central control unit for controlling the output modulation of the high frequency and the low frequency modulates 0.45 Mhz of the high frequency to 1 k low frequency with one output port PORT.

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