KR101375309B1 - Device for high-frequency surgery using multiple vacuum tube - Google Patents

Abstract

The present invention relates to a high frequency surgical apparatus using a plurality of vacuum tubes, and more particularly, to a high frequency surgical apparatus capable of outputting a more stable high frequency waveform by implementing a high frequency signal through a plurality of vacuum tubes. A high frequency surgical apparatus using a plurality of vacuum tubes includes a power supply unit for converting input AC power into a control DC power supply and an amplification power supply, and a plurality of vacuum tubes, and the vacuum tube amplifies the amplification power source with a high frequency signal. An amplifying unit and an output unit including an electrode and a plate for outputting the amplified high frequency signal, wherein the amplifying unit receives a plurality of vacuum tubes connected in parallel to distribute current by the amplifying power source and receives the high frequency signals. And amplifying the high frequency signals and amplifying the high frequency signals amplified from the plurality of vacuum tubes.

Description

High Frequency Surgical Apparatus Using Multiple Tubes {DEVICE FOR HIGH-FREQUENCY SURGERY USING MULTIPLE VACUUM TUBE}

The present invention relates to a high frequency surgical apparatus using a plurality of vacuum tubes, and more particularly, to a high frequency surgical apparatus capable of outputting a more stable high frequency waveform by implementing a high frequency signal through a plurality of vacuum tubes.

Generally, 1MHz frequency is divided into electrosurgical and high frequency surgery. Electrosurgery uses frequencies below 1MHz and provides very rough and powerful outputs compared to high-frequency surgeries, which is necessary for hemostasis such as surgery rather than delicacy.

On the contrary, the high-frequency surgery device uses a frequency of 1 MHz or more, and is applied to a procedure that prioritizes fineness by passing an optimal waveform such as a cut and a coagulation function. In particular, when incision is minimized, damage to the surrounding tissue is minimized so that the actual tissue can be collected and inspected during cell analysis. The frequency stability, distortion and waveform width are matched by matching the L and Q values between the vacuum tube and the oscillation coil. (Width) is an important technique.

 Conventional high frequency surgery machine has a problem that the heat generation of the vacuum tube increases in the process of amplifying the high frequency signal, there is a problem that the frequency distortion or arc occurs due to the heat generation at this time. In particular, when the arc occurs, there was a problem that the skin tissue that was not intended by the doctor at the time of surgery is carbonized.

In addition, in the past, other semiconductors (TR or FETs) have realized high frequencies of 1 MHz or more, but the frequency stability, distortion, and waveform width do not follow the vacuum tube, so the above conditions (CUT, COAGLATION) cannot be met. There was.

In order to solve the problems as in the prior art, an object of the present invention is to connect a plurality of vacuum tubes in parallel to divide a large current, so that each vacuum tube realizes a high frequency signal, and a high frequency surgery using a plurality of vacuum tubes capable of outputting a more stable high frequency waveform. To provide a device.

Another object of the present invention is to provide an environment in which a plurality of vacuum tubes respectively amplify a small current to reduce heat generation of the vacuum tube, thereby improving frequency distortion and minimizing arc generation to reduce carbonization of skin tissue.

In addition, another object of the present invention is to provide an environment in which a high-frequency operation can be performed more stably by controlling the output more precisely by dividing the volume controller into two.

In addition, another object of the present invention is to provide an environment that can perform a more stable procedure by detecting the impedance of the tissue to be treated by the output unit to block the output of the high frequency signal before carbonization of the tissue.

A high frequency surgical apparatus using a plurality of vacuum tubes of the present invention for achieving the above objects includes a power supply unit for converting the input AC power into a control DC power and an amplification power, and a plurality of vacuum tubes, the vacuum tube is the An amplifying unit for amplifying an amplifying power source with a high frequency signal, and an output unit including an electrode and a plate for outputting the amplified high frequency signal, wherein the amplifying unit is connected to the plurality of vacuum tubes in parallel to the amplifying power source. It is characterized in that the current is received by amplifying a high frequency signal, and the output unit merges and outputs the high frequency signals amplified from the plurality of vacuum tubes.

In addition, the present invention includes a first and second control switch and the first and second volume control means, further comprising an adjustment unit for adjusting the output of the output unit, the control unit when the first control switch is turned on The low volume is controlled by the first volume adjusting means, and the high volume is controlled by the second volume adjusting means when the second adjusting switch is turned on.

The output unit may further include a blocking unit which senses an impedance of the tissue treated by the electrode and cuts off the output of the high frequency signal.

In addition, the amplifier is implemented by two vacuum tubes, each of the vacuum tube is characterized in that for receiving the current by the amplification power supply by 50mA.

In addition, the high frequency signal output by the output unit is characterized in that it has a frequency of 4MHz to 5MHz.

As described above, the high frequency surgical apparatus using a plurality of vacuum tubes of the present invention connects a plurality of vacuum tubes in parallel to divide a large current, and each vacuum tube implements a high frequency signal, thereby providing an environment in which a more stable high frequency waveform can be realized and output. do.

In addition, the high-frequency surgical device using a plurality of vacuum tubes of the present invention by a plurality of vacuum tubes each amplify a small current to reduce the heat generated by the vacuum tube, the distortion of the frequency is improved and the arc generation can be minimized to reduce the carbonization of the skin tissue Provide an environment.

In addition, the high-frequency surgical device using a plurality of vacuum tubes of the present invention by controlling the output by dividing the volume controller into two, to provide a more stable environment to perform the high-frequency procedure by adjusting the output in more detail.

In addition, the high-frequency surgical device using a plurality of vacuum tubes of the present invention detects the impedance of the tissue to be treated by the output unit to cut off the output of the high frequency signal before carbonization of the tissue, thereby providing a more stable operation environment .

1 is a configuration diagram briefly showing a high frequency surgical apparatus using a plurality of vacuum tubes according to the present invention.
2 is a circuit diagram of a high-frequency surgical device using a plurality of vacuum tubes according to an embodiment of the present invention.
3 is a detailed block diagram of a high frequency surgical apparatus using a plurality of vacuum tubes according to an embodiment of the present invention.

The embodiments of the present invention can be modified into various forms and the scope of the present invention should not be interpreted as being limited by the embodiments described below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the components in the drawings are exaggerated in order to emphasize a clearer explanation.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 to 3.

1 is a configuration diagram briefly showing a high frequency surgical apparatus using a plurality of vacuum tubes according to the present invention.

High frequency surgical apparatus using a plurality of vacuum tubes of the present invention according to an embodiment of Figure 1 is a power supply unit 10, amplification unit 20, output unit 30, the control unit 40, and the adjusting unit 50 Include.

The power supply unit 10 is a means for receiving AC power from the outside to supply power for driving the high frequency surgical device of the present invention. The power supply unit 10 converts AC power input from the outside into DC power required for controlling the device, and converts the AC power into an amplification power for amplifying a high frequency signal.

The amplifier 20 is a means for amplifying a high frequency signal by using the power supplied from the power supply 10, a plurality of vacuum tubes are implemented. The amplifying unit 20 receives a plurality of vacuum tubes connected in parallel and divides a large current supplied by the amplification power supply through a parallel connection into a small current.

The amplification unit 20 amplifies the small current to generate a high frequency signal, and provides the generated high frequency signal to the following output unit 30.

Here, according to an embodiment of the present invention, the amplification unit 20 is implemented by two vacuum tubes, each of the vacuum tube by the input of the 50mA by the amplification power source can be amplified by a high frequency signal received by each vacuum tube 50mA. .

The output unit 30 is a means for outputting the high frequency signal amplified by the amplifier 20. The high frequency signal output by the output unit 30 is characterized in that it has a frequency of the size of 4MHz to 5MHz according to an embodiment of the present invention.

The output unit 30 may include an electrode, a plate, and a blocking unit. Here, the electrode and the plate is a device for performing a surgery such as hemostasis, incision, coagulation by outputting a high frequency signal.

The blocking unit detects the impedance of the tissue treated by the electrode and cuts off the output of the high frequency signal. The blocking unit may be implemented through a carbonation blocking system (SBBS) according to an embodiment of the present invention.

Here, the blocking unit detects the impedance of the tissue treated by the output unit 30 and cuts the output of the high frequency signal before carbonization of the tissue, thereby providing an environment in which a more stable procedure can be performed.

The control unit 40 is a means for controlling the operation of each unit of the present invention smoothly, may control the amplification degree of the amplifier 20, or may control the operation of the output unit 30 and the blocking unit.

The adjusting unit 50 is a means for adjusting the output of the high frequency signal by the output unit 30 and may include first and second control switches and first and second volume adjusting means.

Here, the adjustment unit 50 controls the low volume by the first volume control means when the first control switch is turned on, and controls the high volume by the second volume control means when the second control switch is turned on. Done.

2 is a circuit diagram of a high-frequency surgical device using a plurality of vacuum tubes according to an embodiment of the present invention.

Referring to FIG. 2, the present invention is an example in which the amplification unit 20 is implemented through two vacuum tubes. Each of the vacuum tubes is connected in parallel to receive and input the current Ip0 by the power source for amplification.

In addition, the two vacuum tubes receive a current of 100 mA by the amplification power supply, and each vacuum tube receives 50 mA, and amplifies a high frequency signal from the vacuum tube, thereby providing the output unit 30.

As described above, the present invention can reduce the heat generation of the vacuum tube by the current divided into the respective vacuum tubes, and the matching of the inductor L1 and the condenser C6 of the vacuum tubes and the output unit 30 even after the procedure for a long time. The time constant does not change.

Therefore, the high frequency surgical device using the plurality of vacuum tubes of the present invention is stable in frequency distortion, and has an effect of minimizing arc generation to prevent carbonization of skin tissue.

In addition, the control unit 40 may be implemented as a microcomputer (Micom), indicating that the volume control means of the control unit 50 is connected to the blocking unit of the output unit 30. In this case, the microcomputer may adjust the output of the output unit 30 through the signal of the volume adjusting unit, or block the output of the high frequency signal of the output unit 30 through the blocking unit.

Therefore, the blocking unit detects the impedance of the tissue treated by the output unit 30 and cuts the output of the high frequency signal before carbonization of the tissue, thereby providing an environment in which a more stable procedure can be performed.

In addition, the circuit diagram of FIG. 2 is just an embodiment of the present invention, and various modifications or variations are possible to increase the number of vacuum tubes to minimize heat generation of the vacuum tubes or to improve output frequency characteristics.

3 is a detailed block diagram of a high frequency surgical apparatus using a plurality of vacuum tubes according to an embodiment of the present invention.

Referring to FIG. 3, the amplification unit 20 of the present invention may be implemented as two vacuum tubes, and the adjusting unit 50 may include first and second control switches and first and second volume control means. Shows.

Here, the first and second control switch is implemented as a high / low switch, and the first and second volume control means are implemented as a high volume controller and a low volume controller. Therefore, the adjusting unit 50 can adjust the amplification of the vacuum tube or the output of the high frequency signal of the output unit 30 through the adjusting switch and the volume controller.

Therefore, the present invention divides the current through a plurality of vacuum tubes and amplifies each into a high frequency signal, by controlling the amplification and output through the control switch and the volume controller of the control unit 50, which is output by the output unit 30 The high frequency signal is implemented to have a frequency of 4 MHz to 5 MHz. Through these features, the high frequency surgical device of the present invention can provide a high frequency signal capable of more precise procedures.

As described above, the high frequency surgical apparatus using the plurality of vacuum tubes of the present invention can control the output by dividing the volume controller into two, thereby more precisely adjusting the output to perform the high frequency procedure more stably.

In the above, the configuration and operation of the high-frequency surgical apparatus using a plurality of vacuum tubes according to the present invention has been shown in accordance with the detailed description and the drawings, which are merely described by way of example, and do not depart from the spirit of the present invention. Various changes and modifications are possible.

10: power supply unit 20: amplification unit
30: output unit 40: control unit
50: control unit

Claims (5)

A power supply unit converting the input AC power into a control DC power and an amplification power;
An amplifying unit including a plurality of vacuum tubes, the vacuum tube amplifying the amplifying power supply with a high frequency signal; And
And an output unit including an electrode and a plate for outputting the amplified high frequency signal.
The amplification unit is a plurality of the vacuum tube is connected in parallel to receive the current by the amplifying power supply for input and amplify each of the high frequency signal, the output unit merges and outputs the high frequency signals amplified from the plurality of the vacuum tube A high frequency surgical device using a plurality of vacuum tubes characterized in that. The method of claim 1,
It further comprises a control unit for adjusting the output of the output unit, including a first and second control switch and the first and second volume control means,
The adjusting unit controls the low volume by the first volume control means when the first control switch is turned on, and controls the high volume by the second volume control means when the second control switch is turned on. High frequency surgical device using a plurality of vacuum tubes. 3. The method of claim 2,
The output
And a blocking unit for detecting an impedance of tissue treated by the electrode to block the output of the high frequency signal. The method of claim 3, wherein
The amplifying unit
Implemented as two vacuum tubes, each vacuum tube is a high-frequency surgical device using a plurality of vacuum tube, characterized in that for receiving the current by the amplification power supply by 50mA. 5. The method of claim 4,
The high frequency signal output by the output unit is
High frequency surgical apparatus using a plurality of vacuum tubes, characterized in that having a frequency of 4MHz to 5MHz.

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