KR101220715B1 - Cannula for fat inhalation fitting surgical procedure area - Google Patents

Abstract

The present invention is formed of a hollow body, a plurality of suction ports are formed at the tip, and a high frequency is generated to facilitate suction by dissolving fat on the outer circumferential surface, to determine the surgical site by measuring the impedance through the high frequency Nula; A temperature sensor installed inside the cannula to measure the temperature of the surgical site according to the occurrence of high frequency; And a handpiece to which the cannula is coupled. It relates to an intelligent liposuction cannula comprising.

Description

Cannula for fat inhalation fitting surgical procedure area

The present invention relates to a liposuction cannula which sucks fat by inserting it into a fat part of the human body, and more specifically, detects the temperature and movement of the cannula inserted into the body and uses impedance of a high frequency current flowing through the human body. Intelligent liposuction, which determines the measurement site and automatically adjusts and outputs the amount of radio frequency based on this, providing a certain effect regardless of the operator and minimizing tissue damage such as blood vessels, muscle layers, and skin layers at the site. It relates to a cannula.

In recent years, obesity has increased due to the improvement of living standards, the increase of meat intake, the decrease of the movement of walking and the like due to the development of transportation, and the accumulation of animal fat, which is not easily decomposed in the body. One of them, in particular, causes various adult diseases such as arteriosclerosis and diabetes.

In addition, due to the development of medicine, liposuction has been widely performed to artificially remove fat accumulated excessively in the body for the purpose of treatment of obese patients as well as for the purpose of cosmetic treatment, thereby changing to a slim body.

In this liposuction, a cannula having a pipe shape is generally inserted into a fat layer in the body, and then the liposomes are sucked and removed by moving it forward and backward.

However, in the conventional liposuction apparatus using the cannula, the operator moves the cannula inserted into the fat layer in the body back and forth to evenly inhale the fat in the skin and intensively performs the site where the fat is accumulated. Depending on the experiences and abilities that were gained, the effect of the procedure would be different.

In addition, the human body is composed of different blood vessels, muscle layers, skin layers, etc. according to each site, the conventional liposuction apparatus is performed by the unskilled practitioner because the liposuction is always performed at the same speed and action regardless of the treatment site During the procedure, tissues such as blood vessels, muscle layers, and skin layers of the area were easily damaged, which may cause side effects after surgery.

The present invention has been made in view of the above problems, and provides an intelligent liposuction cannula that can provide a constant treatment effect regardless of the operator by automatically adjusting the output of the radio frequency according to the treatment site. There is a main purpose.

Another object of the present invention is to provide an intelligent liposuction cannula that prevents side effects after surgery by minimizing tissue damage such as blood vessels, muscle layers, skin layers, etc. of the surgical site.

The present invention is formed of a hollow tube, a plurality of suction ports are formed at the tip, and a high frequency is generated to dissolve fat on the outer circumferential surface to facilitate suction, and the procedure is measured by measuring impedance through the high frequency. Judging cannula; A temperature sensor installed inside the cannula to measure the temperature of the surgical site according to the occurrence of high frequency; And a handpiece to which the cannula is coupled. Provides an intelligent liposuction cannula comprising.

According to one aspect of the invention, the handpiece may be further provided with a motion sensor for detecting the movement of the cannula.

According to another aspect of the present invention, the cannula may have a front end formed with the suction port in a streamlined shape.

According to another aspect of the present invention, the cannula may be coated with an insulating coating film on the portion where the suction port is not formed.

According to an aspect of the invention, the temperature sensor for sensing the temperature of the cannula through the temperature sensor; A motion detection unit for detecting the movement of the cannula through the motion detection sensor; And an impedance measuring unit for determining an impedance measuring procedure using the high frequency current flowing through the cannula. Each control unit may be further provided.

At this time, the control unit may determine the surgical site in consideration of the sensed temperature and movement of the cannula and the measured impedance and automatically adjust the high frequency output amount accordingly.

According to another aspect of the invention, the control unit may be built in the handpiece, or may be installed in the housing of the liposuction device.

According to another aspect of the invention, the control unit, the temperature signal amplifier for amplifying the temperature signal detected by the temperature sensor; An operation signal amplifier for amplifying the operation signal detected by the motion detection sensor; An impedance signal amplifier for amplifying the impedance signal; It may be further provided,

According to another aspect of the invention, the handpiece is connected to the housing of the liposuction apparatus is provided with a liposuction pump therein, the housing, the fat reservoir through which the liposuction sucked through the liposuction tube, the cannula An on / off operation and an operator may be provided to manually adjust the suction intensity and the high frequency output of the liposuction pump.

According to another aspect of the invention, the housing is provided with a display unit for displaying the current operating state of the cannula, the temperature of the cannula, the impedance measured by the impedance measuring unit and the determined procedure site, the output amount of the high frequency currently being output Can be.

According to the intelligent liposuction cannula according to the present invention, after detecting the temperature and the movement of the cannula through a temperature sensor and a motion sensor, by using the high-frequency current flowing through the impedance measurement unit to determine the measurement site of the impedance By automatically adjusting and outputting the amount of radio frequency based on this, it provides a certain treatment effect irrespective of the operator and minimizes tissue damage such as blood vessels, muscle layers, and skin layers of the surgical site to prevent side effects after surgery.

1 is a perspective view showing a liposuction cannula according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing a cannula and a temperature sensor according to an embodiment of the present invention.
3 is a structural diagram showing an operation control structure of the cannula according to an embodiment of the present invention.
Figure 4 is a schematic diagram of a liposuction apparatus connected to the liposuction cannula of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below.

In addition, the embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. Accordingly, the shape and size of elements in the drawings may be exaggerated for clarity, and the elements denoted by the same reference numerals in the drawings are the same elements.

1 to 4, the liposuction cannula according to an embodiment of the present invention is formed of a hollow tube, and a plurality of liposuction openings 11 are formed at a tip thereof, and on the outer circumferential surface of the tube A cannula 10 having an impedance measuring unit (not shown) for dissolving fat to generate a high frequency to facilitate inhalation, and measuring the impedance by flowing the high frequency to the human body; A rod-shaped temperature sensor 20 inserted into the cannula 10 to measure the temperature of the surgical site according to the high frequency generation; A handpiece 30 to which the cannula 10 is coupled; Consists of one probe 60, including.

The cannula 10 has a streamlined shape, the diameter of which is smaller toward the tip so that one end is easily inserted into the subcutaneous tissue. On the other side, the cannula 10 is provided with a coupling part 13 for engaging with the handpiece 30. The uncoated portion 11 is formed with an insulating coating film 12 made of an insulator around it.

The insulating coating film 12 may be configured by applying an insulating material directly around the cannula 10 or coating a separate insulating sheet with the insulating material and attaching the insulating material around the cannula 10.

The temperature sensor 20 is provided with a connector 21 for electrical connection at the rear end, and by measuring the temperature of the treatment site according to the high frequency generation and controlling the high frequency output of the cannula 10 accordingly, due to excessive high frequency output In addition to preventing burns of body tissues due to the high heat generated, the cannula 10 is kept at a temperature that optimizes lipolysis at the treatment site.

Handpiece 30 is preferably of a streamlined curved shape so that the operator is easy to grasp during the procedure, the coupling portion 13 of the cannula 10 is connected to the liposuction tube 31 for discharging the sucked fat and And a cable 32 electrically connected to the connector 21 and the cannula 10 of the temperature sensor 20.

Therefore, when a current is applied through the cable 32, a high frequency is generated at the outer circumferential surface of the cannula 10 and the impedance measuring unit senses the impedance through the high frequency, and the temperature sensor 20 installed therein Through the cannula 10 to sense the temperature.

In addition, the handpiece 30 is equipped with a motion detection sensor 50 for measuring the acceleration or impact strength of the object to detect the surgical form of the operator, for example, the front and rear movement speed and direction of the cannula 10 to detect the surgical site Determine and adjust the high frequency output accordingly.

The handpiece 30 includes a control unit 40, and the control unit 40 includes a temperature sensing unit (not shown) for sensing the temperature of the cannula 10 through the temperature sensor 20, and a motion detecting sensor ( An operation detecting unit (not shown) for detecting the movement of the cannula 10 through 50 and an impedance measuring unit for determining an impedance measurement part using current flowing through the human body through the cannula 10, respectively. Connected.

The control unit 40 may be installed in the housing 101 of the liposuction apparatus 100 shown in FIG. 4, and is performed in consideration of the temperature, movement, and measured impedance of the cannula 10 detected as described above. After determining the part, the high frequency output is automatically adjusted through the high frequency output unit 43 accordingly.

In addition, the controller 40 may include a temperature signal amplifier 45 for amplifying the temperature signal detected by the temperature sensor 20 and an operation signal amplifier for amplifying the operation signal detected by the motion detection sensor 50 ( 46 and an impedance signal amplifier 44 for amplifying the impedance signal, it is possible to effectively configure the surgical site even in small environmental changes.

On the other hand, the handpiece 30 is connected to the housing 101 of the liposuction apparatus 100 having a liposuction pump (not shown) therein, which is sucked through the liposuction tube 31. Fat storage bin 102 is provided with a fat accumulation, the operation unit 42 to adjust the on / off operation of the cannula and the suction strength of the liposuction pump, the high frequency output of the high frequency output unit 43, etc. manually if necessary. ) Is provided.

The housing 101 is provided with a display unit 41 for displaying the current operating state of the cannula, the temperature of the cannula 10, the impedance measured through the impedance measuring unit, the determined procedure portion, and the output amount of the high frequency currently being output. Can be.

Reference numeral 70 is a grounding part for preventing a malfunction due to an electrical accident such as an overcurrent, and is electrically connected to the liposuction apparatus 100 and the controller 40, respectively.

Hereinafter, the operation of the liposuction cannula according to an embodiment of the present invention will be described.

When the cannula is turned on through the operation unit 42, the liposuction pump operates to generate a vacuum suction input through the liposuction tube 31, and generates a high frequency through the outer peripheral surface of the cannula 10.

Thereafter, the operator grabs the cannula 10 and inserts it into the procedure site, and then repeatedly moves forward and backward to accumulate liposuction through the suction port 11 and accumulate in the fat reservoir 102.

At this time, the temperature of the cannula 10 is sensed through the temperature sensor 20, the movement of the cannula 10 is sensed through the motion sensor 50, and the impedance is measured in the impedance measuring unit.

The impedance measuring unit measures the impedance through the high frequency current generated from the cannula 10. The impedance can be measured through the flowing amount of the high frequency. You can also measure.

Thereafter, the treatment part is determined by the controller 40 in consideration of both the sensed temperature and the movement of the cannula 10 and the measured impedance, and the controller 40 is adapted to the corresponding treatment part through the high frequency output part 43. It automatically adjusts high frequency output to provide optimal liposuction while minimizing tissue damage at the treatment site.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential features of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The protection scope of the present invention should be interpreted by the following claims, and the technical spirit within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10; Cannula 11; Inlet
12; Insulating coating film 20; temperature Senser
30; Handpiece 31; Liposuction tube
32; Cable 40; The control unit
41; Display section 42; Control unit
43; High frequency output section 44; Impedance Signal Amplifier
45; Temperature signal amplifier 46; Operation signal amplifier
50; Motion sensor 60; Probe
70; Counterplate 100; Liposuction Device
101; Housing 102; Fat reservoir

Claims (11)

A cannula which is formed of a hollow tube, a plurality of suction ports are formed at the tip, and a high frequency is generated to facilitate inhalation by dissolving fat on the outer circumferential surface, and a cannula for determining a surgical site by measuring impedance through the high frequency;
A temperature sensor installed inside the cannula to measure the temperature of the surgical site according to the occurrence of high frequency; And
A handpiece to which the cannula is coupled; Intelligent liposuction cannula comprising. The method of claim 1,
Intelligent liposuction cannula, characterized in that the motion detection sensor for detecting the movement of the cannula is further installed on the handpiece. The method of claim 1,
The cannula is intelligent liposuction cannula, characterized in that the front end of the inlet is formed in a streamlined. 4. The method according to any one of claims 1 to 3,
The cannula is intelligent liposuction cannula, characterized in that the inlet portion is unformed coated with an insulating coating film. The method of claim 2,
A temperature sensing unit for sensing the temperature of the cannula through the temperature sensor;
A motion detection unit for detecting the movement of the cannula through the motion detection sensor; And
An impedance measuring unit for determining an impedance measuring part using a high frequency current flowing through the cannula; Intelligent liposuction cannula, characterized in that the control unit is further provided. The method of claim 5,
The control unit determines the surgical site in consideration of the sensed temperature and movement of the cannula and the measured impedance, and intelligent liposuction cannula, characterized in that to automatically adjust the high frequency output accordingly. The method according to claim 5 or 6,
The control unit is intelligent liposuction cannula, characterized in that embedded in the handpiece. The method according to claim 5 or 6,
The control unit is an intelligent liposuction cannula, characterized in that installed in the housing of the liposuction device. The method according to claim 6,
The control unit,
A temperature signal amplifier for amplifying the temperature signal detected by the temperature sensor;
An operation signal amplifier for amplifying the operation signal detected by the motion detection sensor; And
An impedance signal amplifier for amplifying the impedance signal; Intelligent liposuction cannula, characterized in that it further comprises. 9. The method of claim 8,
The handpiece is connected to the housing of the liposuction device in which the liposuction pump is embedded,
The housing, a fat storage container for accumulating fat sucked through the liposuction tube, the on / off operation of the cannula and the operator is provided so that the operator can manually adjust the suction strength and high frequency output of the liposuction pump Intelligent liposuction cannula. The method of claim 10,
The housing is equipped with an intelligent liposuction display unit for displaying the current operating state of the cannula, the temperature of the cannula, the impedance measured by the impedance measuring unit and the determined procedure, the output of the high frequency output current Nula.

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