KR101009323B1 - High frequency electrical treatment equipment - Google Patents

Abstract

The present invention relates to a high frequency electrotherapy device, and more particularly, to increase the coupling force of the high frequency handle and the electrode ceramics to provide an effect of preventing the malfunction of the high frequency electrotherapy device, and furthermore, when the heat generated in the human body is conducted to the ceramic The conduction heat can be checked in a non-contact manner, and the output current amount can be checked with respect to a constant output voltage output from the main body. Through this, the temperature of the human body checked by the non-contact method, the size of the ceramics, and High frequency electrotherapy device with improved convenience and safety that prevents problems such as burns due to inadvertent use while allowing high frequency treatment to the human body under optimal output conditions (eg, optimal output state of energized current) according to the impedance. It is about.

Description

HIGH FREQUENCY ELECTRICAL TREATMENT EQUIPMENT}

The present invention relates to a high frequency electrotherapy device, and more particularly, to increase the coupling force of the high frequency handle and the electrode ceramics to provide an effect of preventing the malfunction of the high frequency electrotherapy device, and furthermore, when the heat generated in the human body is conducted to the ceramic The conduction heat can be checked in a non-contact manner, and the output current amount can be checked with respect to a constant output voltage output from the main body. Through this, the temperature of the human body checked by the non-contact method, the size of the ceramics, and High frequency electrotherapy device with improved convenience and safety that prevents problems such as burns due to inadvertent use while allowing high frequency treatment to the human body under optimal output conditions (eg, optimal output state of energized current) according to the impedance. It is about.

There are three types of electrotherapy used for medical purposes: flat current, response electric, and alternating current, and electrotherapy has significant differences in function depending on the frequency waveform, current, current strength, and application area. Do.

In particular, high-frequency electrotherapy is characterized by the fact that when the high-frequency current flows into the body, the muscles do not contract, but only a sense of warmth, and the heat is generated inside the human body.

Such high-frequency electrotherapy promotes metabolism, actively circulates blood vessels, removes waste, and provides sufficient oxygen, and is effective in analgesic and smooth muscle relaxation, such as sciatica, joint pain, and muscle pain. It is applied to the treatment of the back.

The high frequency electrotherapy device includes an electrode conductor 1, a high frequency handle 2, and a main body for generating a current, or a rectangular grounding conductor as shown in FIG. 1, which is automatically generated according to each symptom of the patient. Several types of stimulation modes can be set.

At this time, the high-frequency electrotherapy device as described above uses an electrode conductor 1 of various sizes according to the extent and degree of curvature of the treatment site.

In general, when the same amount of high frequency current is applied to the small diameter electrode and the large diameter electrode ceramics, the small diameter electrode ceramics may cause a risk such as burn because the current density is high. In particular, since the small diameter electrode ceramics are applied to treatment areas having severe bends such as face parts and knees or narrow areas, a high current density is more likely to cause burns.

Therefore, it is necessary to vary the maximum amount of current that can be energized according to the size (diameter) of the electrode ceramics. In the conventional equipment, the size (diameter) of the electrode ceramics is adjusted because the user controls the amount of current by a manual operation device. It was inconvenient to pay special attention in order to correctly set the amount of energizing current suitable for.

In addition, the high-frequency electrotherapy device is a device that flows high-frequency currents having high voltage and high frequency to the human body through electrode ceramics. Even though energizing high-frequency currents under the same conditions, biofever may vary depending on the physical condition and health of the patient. Therefore, the necessity of carefully controlling the amount of energizing current according to the patient's condition is emerging.

In addition, the conventional high frequency electrotherapy device, as shown in the accompanying Figure 1, the high-frequency ceramic pin (3) is connected to the electrode conductor (1), as well as the high-frequency handle pin (3) by holding the high-frequency handle (2) Although the movement of the electrode ceramics 1 is fixed, there is a possibility that the electrode ceramics 1 and the high frequency ceramic pins 3 may be loosened when the high frequency electrotherapy device is used, and the high frequency ceramic pins 3 and the high frequency handle 2 There is a problem that a malfunction of the device may occur due to the wear phenomenon on the contact surface.

The present invention is to increase the coupling force of the high-frequency handle and the electrode ceramics, to prevent malfunction of the high-frequency electrotherapy device, through which the main object of the reliability of the operation can be further doubled.

Another object of the present invention is to enable a careful control of the amount of energizing current, and to this end, when the heat generated in the human body is conducted to the ceramic, it is possible to check the conducted heat in a non-contact manner, as well as from the main body. It is possible to check the amount of output current for a constant output voltage output, and through this, the optimum output condition according to the temperature of the human body checked by the non-contact method, the size of the ceramics and the impedance of the human body (e.g., optimal current flow Output state) to provide a high frequency electrotherapy device to enable high frequency treatment for the human body.

The present invention, the high frequency electrotherapy device for achieving the above object, the main body including a control unit for controlling the output unit consisting of a high frequency current generator and a high frequency generator; A high frequency handle connected to the main body and a cable; A therapeutic electrode conductor electrically connected to the high frequency handle and applying a current to the skin surface; It is made, including the high-frequency ceramic pin is connected to the electrode conductor, one side of the high-frequency ceramic pin to form a groove, the high-frequency handle which is installed facing the electrode ceramic through the high-frequency handle It characterized in that to form a projection to be fitted into the groove to be fixed.

According to an aspect of the present invention, the inside of the high frequency handle when the heat generated in the human body is conducted to the electrode ceramics and checks the conducted heat in a non-contact manner and configures a temperature sensing unit for transferring it to the control unit, Inside the main body is configured to receive a high voltage outputted to the electrode via the output through the output to the current checking unit for transmitting it to the control unit, the control unit is the body temperature is detected non-contact by the temperature sensing unit, and the current check And comparing and determining the current amount of the output voltage checked from the unit with a value previously set and stored in the memory unit to distinguish the size of the electrode ceramics and to control an appropriate amount of energizing current corresponding to the divided size. .

According to another aspect of the invention, the current check unit, the filter unit for filtering the noise of the output voltage is fed back when a portion of the high voltage output from the output unit; An amplifier for amplifying the output voltage from which the noise is filtered by the filter unit; And a frequency converter converting the output voltage amplified by the amplifier into a frequency and outputting the frequency to the controller. Characterized in that comprises a.

According to another aspect of the invention, the control unit, AD conversion unit for converting the human body temperature information detected in a non-contact manner by the temperature sensing unit into a digital signal; And dividing the size of the electrode ceramics by comparing and determining the digital signal converted from the AD converter and an output voltage converted into a frequency from the frequency converter of the current checker with a value previously set and stored in a memory unit. An arithmetic unit for outputting a signal for controlling an appropriate amount of energizing current corresponding to the divided size to an output unit; Characterized in that further comprises a.

As described above, the present invention provides an effect of preventing the malfunction of the high frequency electrotherapy device by increasing the coupling force between the high frequency handle and the electrode ceramics, and furthermore, the non-contact type heat conduction when the heat generated in the human body is conducted to the ceramics. It is possible to check, as well as to check the amount of output current for a constant output voltage output from the main body, through this is the optimum according to the temperature of the human body, the size of the ceramic and the impedance of the human body to be checked in a non-contact method The high frequency treatment of the human body is performed under the output conditions (e.g., the optimum output state of the energized current) while preventing the occurrence of problems such as burns due to inadvertent use, while allowing the user to use the high frequency electrotherapy device conveniently and safely. .

1 is a structural diagram of a conventional high frequency electrotherapy device.
Figure 2 is a block diagram showing a high frequency electrotherapy device according to an embodiment of the present invention.
3 is a structural diagram of a high frequency electrotherapy device according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 2 shows a block diagram showing a high frequency electrotherapy device according to an embodiment of the present invention.

As shown in FIG. 2, the high frequency electrotherapy device according to an embodiment of the present invention includes a main body 100, a high frequency handle 200, an electrode conductor 300, and a square ground conductor 400.

The main body 100 is connected to the high-frequency handle 200 and the rectangular grounding conductor 400 through which a high-frequency current passes through the human body through a cable, and receives power from a power supply unit (not shown). An output unit 10 including a current generator and a high frequency generator, a control unit 40 for controlling the output unit 10, and a current check unit 30.

The current checker 30 includes a filter 31, an amplifier 32, and a frequency converter 33.

The filter unit 31 filters the noise of the output voltage fed back when a part of the high voltage output from the output unit 10 including the high frequency current generator and the high frequency generator to the electrode ceramics 300 is fed back. It is configured to deliver it to the amplifier 32.

The amplifying unit 32 is configured to amplify the output voltage filtered by the filter unit 31 and output to the frequency converter 33.

The frequency converter 33 is configured to convert the output voltage amplified by the amplifier 32 into a frequency and then output it to the controller 40.

In this case, a non-contact temperature sensing unit 20 is configured inside the high frequency handle 200 connected to the main body 100 by a cable, and the temperature sensing unit 20 generates heat from the human body in the electrode ceramics. When conducted to 300 is to check the conducted heat in a non-contact manner and then transfer it to the control unit 40.

That is, the temperature sensing unit 20 detects heat of the human body that is conducted to the electrode ceramics 300 without contacting the human body, and thus, a response speed is high, and thus directly to high frequency noise of the electrode ceramics 200. It is not affected by the, has a feature that can quickly and quickly obtain the temperature value of the heat generated in the human body.

In addition, the electrode conductor 300 is electrically connected to the high frequency handle 200 by being electrically connected to the electrode conductor 300. Therefore, the electrode conductor 300 may conduct heat of the human body to the temperature sensing unit 20 in the high frequency handle 200. It can be configured, the configuration is easy to be coupled to the high frequency handle 200, as well as the output voltage of the high frequency through the high frequency handle 200 can be efficiently transmitted.

Meanwhile, the controller 40 presets and stores the human body temperature detected by the temperature sensing unit 20 in a non-contact manner, and the amount of current of the output voltage checked by the current checking unit 30 in the memory unit 43. Comparing and determining the size of the electrode conductor 300 by comparing with the determined value and to control the appropriate amount of conduction current corresponding to the divided size, the AD converter 42 and the calculation unit 41 further includes.

That is, the AD conversion unit 42 is configured to convert the human body temperature sensed by the temperature sensing unit 20 in a non-contact manner into a digital signal and then provide it to the calculation unit 41.

The calculation unit 41 presets the digital signal converted from the AD converter 41 and the output voltage converted into the frequency by the frequency converter 33 of the current checker 30 in the memory 43. Comparing and judging with the stored value, it is configured to distinguish the size of the electrode ceramic 300 and to output a signal for controlling the appropriate current carrying amount corresponding to the divided size to the output unit 10.

And, Figure 3 is attached to the preferred embodiment of the present invention to directly fix the electrode conductor 300 through the high-frequency handle 200, for this purpose the high-frequency ceramic pin (300a) is connected to the electrode conductor ( While forming the groove 301 in the 300, the high frequency handle 200 is configured with a protrusion 201 fitted to the groove 301.

That is, when the protrusion 201 is inserted into the groove 301, the electrode conductor 300 is coupled to the high frequency handle 200, and the movement thereof is minimized. Accordingly, the electrode conductor 300 and the high frequency handle are minimized. It is possible to prevent the malfunction of the device due to the separation of the 200 or the wear of the high frequency handle 200 and the high frequency ceramic pin 300a.

In this way, the high frequency handle 200 and the electrode conductor 300 coupled to prevent the malfunction by the fitting combination of the protrusion 201 and the groove 301, as shown in FIG. 2, the control unit 40 ), The current carrying amount corresponding to the size (unique factor value) of the electrode conductor 300 and the current carrying amount suitable for the skin temperature are stored in the memory unit 43 included in FIG.

Accordingly, in the method in which the operation unit 41 included in the control unit 40 controls the output voltage of the output unit 10, first, the temperature sensing unit 20 in the high frequency handle 200 is a non-contact method, and thus the electrode conductor. After sensing the temperature of the human body to transmit from (300) it is transmitted to the calculation unit 41.

Next, a part of the output voltage at the output unit 10 is fed back to the current check unit 30 including the filter unit 31, the amplifier 32, and the frequency converter 33, and then processed to perform the calculation unit. The calculation unit 41 transmits the converted digital signal to the memory unit 43 when the detection signal and the check signal are converted into a digital signal through the AD conversion unit 42. Compare and calculate the intrinsic factor value (value corresponding to the electrode size value) previously stored and determined, and determine the size (or current amount to be supplied) of the treatment electrode according to the above calculation result, The output voltage of the output unit 10 including the current generator and the high frequency generator is controlled.

That is, the present invention, while the high-frequency electrotherapy device is operating, the operation unit 41 is to control the output voltage of the output unit 10 in real time to match the temperature of the human body, and the size of the electrode, through this Through the electrode conductor 300 and the rectangular grounding conductor 400, a proper current may be supplied to the human body to ensure safety.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

10; An output unit 20; Temperature sensor
30; Current checking unit 31; Filter part
32; Amplification unit 33; Frequency converter
40; Control unit 41; Calculator
42; AD conversion section 43; Memory
100; Main body 200; High frequency handle
201; Turning 300; Electrode
300a; High frequency dozapine 301; home
400; Square folded leader

Claims (4)

A main body including a power supply unit and a control unit for controlling an output unit including a high frequency current generator and a high frequency generator; A high frequency handle connected to the main body and a cable; A therapeutic electrode conductor electrically connected to the high frequency handle and applying a current to the skin surface; It is made, including
A high frequency ceramic pin is connected to the electrode conductor, and a groove is formed at one side of the high frequency ceramic pin.
The high frequency electrotherapy device, characterized in that the high-frequency handle coupled to the electrode conductor to form a projection to be fitted to the groove to secure the electrode conductor through the high-frequency handle. The method of claim 1,
When the heat generated in the human body is conducted to the electrode ceramics inside the high-frequency handle, and checks the conducted heat in a non-contact manner and constitutes a temperature sensing unit for transferring it to the control unit,
Inside the main body comprises a current check unit for receiving a high voltage output to the electrode conductor through the output unit and delivers it to the control unit,
The control unit distinguishes the size of the electrode ceramics by comparing and determining the human body temperature detected by the temperature sensing unit without contact and the current amount of the output voltage checked from the current checking unit with a value previously set and stored in a memory unit. And controlling a suitable amount of energizing current corresponding to the divided magnitudes. The method of claim 2, wherein the current checking unit,
A filter unit for filtering noise of an output voltage fed back when a part of the high voltage output from the output unit is fed back;
An amplifier for amplifying the output voltage from which the noise is filtered by the filter unit; And,
A frequency converter converting the output voltage amplified by the amplifier into a frequency and outputting the frequency to the controller; High frequency electrotherapy device, characterized in that comprising a. The method of claim 2 or 3, wherein the control unit,
An AD conversion unit for converting the human body temperature information sensed in a non-contact manner by the temperature detection unit into a digital signal; And,
The digital signal converted from the AD converter and the output voltage converted into the frequency from the frequency converter of the current checker are compared with the value previously set and stored in the memory unit to discriminate the size of the electrode ceramics. An arithmetic unit for outputting a signal for controlling a suitable amount of energizing current corresponding to the magnitude to the output unit; High frequency electrotherapy device, characterized in that the configuration further comprising.

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