KR101380988B1 - Cannular for setting a temperature-sensor - Google Patents

Abstract

The present invention discloses a cannula to which a temperature sensor is mounted. The present invention is configured to mount a temperature sensor inside a cannula which is in direct contact with a living tissue, and thus has tissues having different bioimpedance characteristics (eg; Optimal high frequency according to the properties of biological tissues by precisely adjusting phase and intensity of high frequency output applied to biological tissues according to changes in physical properties of arteries, veins, gastrointestinal tract, mesentery, fat, liver, kidney, stomach, spleen, prostate, etc. Through output control, the incision or liposuction of the tissue at the treatment site is performed quickly while preventing tissue damage around the treatment site and shortening the procedure time.

Description

Cannula with temperature sensor {Cannular for setting a Temperature-sensor}

The present invention relates to a cannula, and more particularly, a tissue having different bioimpedance characteristics by mounting a temperature sensor inside a cannula in direct contact with biological tissues (eg, arteries, veins, gastrointestinal tract, mesentery, and fat). , Liver, kidney, stomach, spleen, prostate, etc.) by precisely adjusting the phase and intensity of the high frequency output applied to the biological tissue to incision or liposuction on the biological tissue of the surgical site quickly, This relates to a cannula equipped with a temperature sensor to prevent tissue damage around the treatment site, as well as to shorten the procedure time.

Generally, a high-frequency surgical apparatus or an ultrasonic surgical apparatus or liposuction apparatus for use in a surgical operation such as a laparoscopic operation, a thoracoscopic operation, a hemorrhoid surgery, a urology such as a prostate operation or a lump removal, a gynecological operation such as a uterine myoma, The surgical apparatus for surgery includes a control unit of the surgical apparatus, a high frequency or ultrasonic surgical handpiece connected to the control unit, a hand switch or a footswitch, A cannula inserted and inserted into the human body, which initiates a high-frequency output or ultrasonic vibration when the user operates the hand switch or the foot switch to perform incision and cutting and biopsy of the living tissue .

That is, a high-frequency surgical apparatus or an ultrasonic surgical apparatus or a liposuction surgical apparatus, which are used as a conventional surgical apparatus, are devices for inhaling incisions, coagulation and fat in living tissues using high-frequency or ultrasonic waves, Minimizes tissue damage, and does not leave a foreign body for blood vessel nodule, thereby remarkably reducing the infection rate and having a rapid recovery to the surgical site. The electric energy is converted into high-frequency output or ultrasonic vibration from the transducer of the handpiece And transmits it to a cannula inserted into a living tissue, so that incision, coagulation and liposuction of the living tissue are simultaneously performed.

However, the cannula coupled to the handpiece of the conventional surgical device is often mounted on the handpiece without a temperature sensor. Accordingly, when the high frequency output is output to the biological tissue, As the temperature is not detected and the temperature is detected on the handpiece side away from the living tissue, tissues having different bioimpedance characteristics (for example, arteries, veins, gastrointestinal tract, mesentery, fat, liver, kidney, stomach and spleen) According to the physical property change of the prostate gland, the phase and intensity of the high frequency output applied to the biological tissue cannot be precisely adjusted, resulting in a problem of damaging the tissue around the surgical site, and the optimum high frequency output according to the physical tissue properties. As a result of the repetitive adjustment to control the operation will be accompanied with a problem that the operation time is long Dawn will.

The present invention is to improve the conventional problems as described above, by configuring the temperature sensor mounted inside the cannula in direct contact with the biological tissue, tissue having different bioimpedance characteristics (eg arteries, veins, gastrointestinal tract) , Mesenteric, adipose, liver, kidney, stomach, spleen, prostate, etc.) by precisely adjusting the phase and intensity of the high frequency output applied to the biological tissue, and controlling the optimal high frequency output according to the physical tissue properties. To provide a cannula equipped with a temperature sensor to quickly incision or liposuction the biological tissue of the site, thereby preventing tissue damage around the treatment site and shortening the procedure time. There is a main purpose.

A cannula on which the temperature sensor according to the present invention is mounted; A support block disposed on the distal end side in the main body; A housing disposed on a rear end side in the main body and forming a mounting groove portion on an upper side thereof; An outer tube passing through the support block and the housing and having a tip for suction or liposuction on the tip side; An inner tube inserted into the outer tube; An insulator coupled to a rear end side of the main body so as to allow fluid or sucked fat sucked through the tip to flow therethrough and having a contact pin for providing an interface structure with an external device; The inner tube forms a forming groove in the longitudinal direction, and the mounting groove of the housing is connected to the contact pin of the insulator by a harness and is equipped with a temperature sensor for measuring the temperature of the surgical site according to high frequency generation. It is made up.

According to one aspect of the invention, the temperature sensor extends to the tip of the outer tube along the forming groove is configured to combine the probe rod for measuring the temperature of the surgical site according to the application of the high frequency when the high frequency is applied to the tip, The outside of the temperature sensor is configured to be electrically connected to the wire for applying a high frequency to the tip through the probe rod.

According to another aspect of the present invention, the tip of the probe is circular or angular.

According to another aspect of the present invention, the forming groove is formed in a semi-circular shape so that the circular probe bar is mounted when the probe bar has a circular shape.

According to another aspect of the present invention, the forming groove is configured to have a square shape in which the rectangular probe bar is mounted when the probe bar has a rectangular shape.

According to another aspect of the present invention, the support block is formed with a wire guide groove on which a wire for applying a high frequency is seated to the tip of the outer tube.

According to another aspect of the present invention, the outer tube is configured by coating with an insulator so that high frequency output is made only at the tip except for the tip.

According to another aspect of the present invention, the forming groove formed in the inner tube is formed in a plurality of structures with a symmetrical structure or a predetermined interval, any one of the forming groove of the symmetrical structure or a plurality of structures in the tip of the outer tube It is insulated to apply high frequency in bipolar form.

According to another aspect of the present invention, a hook fixing groove is formed on the outer circumferential surface of the body so as to be detachably coupled using a hand piece and a hook.

As described above, according to the present invention, a temperature sensor is mounted inside a cannula which directly contacts a living tissue, and thereby a tissue having different bioimpedance characteristics (e.g., arteries, veins, gastrointestinal tract, mesentery, The frequency and intensity of the high-frequency power applied to the living tissue according to the change in the physical properties of the living body tissue, kidney, stomach, spleen, prostate, etc.) Or liposuction can be performed promptly. Further, it is possible to prevent the tissue damage around the procedure site and to shorten the procedure time.

1 is a perspective view showing a structure of a cannula on which a temperature sensor is mounted according to an embodiment of the present invention;
2 is an exploded perspective view showing a structure of a cannula on which a temperature sensor is mounted according to an embodiment of the present invention.
Figure 3 is a partially exploded perspective view showing the structure of a cannula equipped with a temperature sensor in an embodiment of the present invention.
Figure 4 is a partial cutaway perspective view showing the structure of a cannula equipped with a temperature sensor in an embodiment of the present invention.
5 is an enlarged view of FIG. 4 as an embodiment of the present invention. FIG.
Figure 6 is a cross-sectional view showing the structure of the cannula is equipped with a temperature sensor in an embodiment of the present invention.
7 is a cross-sectional view taken along line AA of FIG. 6 in an embodiment of the present invention.

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

1 is an exploded perspective view showing a structure of a cannula in which a temperature sensor is mounted in an embodiment of the present invention, and FIG. 2 is an exploded perspective view showing a structure of a cannula in which a temperature sensor is mounted in an embodiment of the present invention. 4 is a partially exploded perspective view showing a structure of a cannula to which a temperature sensor is mounted as an embodiment of the present invention, and FIG. 4 is a partially cutaway perspective view showing a structure of a cannula to which a temperature sensor is mounted as an embodiment of the present invention. .

Figure 5 is an enlarged view of Figure 4 as an embodiment of the present invention, Figure 6 is a cross-sectional view showing the structure of the cannula is equipped with a temperature sensor in an embodiment of the present invention, Figure 7 is an embodiment of the present invention AA line sectional drawing about FIG. 6 is shown.

1 to 7, the cannula according to the embodiment of the present invention includes a main body 10, a support block 20, a housing 30, an outer tube 40, an inner tube 50, and an insulator ( 60), the temperature sensor 70 is included.

The main body 10 is detachably coupled to a handpiece, which is an external device, with a hook, and a hook fixing groove 11 is formed on an outer circumferential surface of the main body 10 so that the main body 10 can be detached / .

The support block 20 forms a hollow portion 20a through which the outer tube 40 passes and is disposed at the distal end side of the main body 10.

The housing 30 defines a hollow portion 30a through which the outer tube 40 passes and is disposed at the rear end side of the main body 10, And a groove 31 is formed.

The outer tube 40 penetrates through the hollow portions 20a and 30a of the support block 20 and the housing 30, and a predetermined length is exposed to the outside of the main body 10. The tip 41 for suction is integrally or separately coupled, and the tip 41 is formed with at least one suction port 41a for liposuction.

At this time, the outer surface of the outer tube 40 is coated with an insulator (e.g., Teflon) 42, except for the tip 41 formed at the tip end, So that it is possible to construct a system.

The inner tube 50 is inserted into the outer tube 40, and a forming groove 52 for mounting the probe rod 71 extending from the temperature sensor 70 is formed in the longitudinal direction thereof. .

At this time, the forming groove 52 formed in the inner tube 50 may be formed in a plurality of structures with a symmetrical structure or a predetermined interval, in this case any one of the forming groove 52 of the symmetrical structure or a plurality of structures The insulation treatment is performed so that high frequency is applied to the tip 41 of the outer tube 40 in a bipolar form.

The temperature sensor 70 measures the temperature of the surgical site according to the high frequency generation and controls the high frequency output of the cannula accordingly, thereby preventing the living tissue from being burned by the high heat generated by the excessive high frequency output and the cannula. It is to maintain a constant at a temperature that optimizes the fat dissolution of the surgical site, it is configured in a circular or square, the forming groove 52 when the probe rod 71 extending from the temperature sensor 70 is configured in a circular shape The probe rod 71 is mounted in a semi-circular shape to be mounted, when the probe rod 71 is configured in a square, the forming groove 52 is configured in a square to mount the probe rod 71 of the square, accordingly semi-circular or square When the circular or rectangular probe rod 71 is mounted on the forming groove 52, the temperature sensor mounted on the upper mounting groove 31 of the housing 30 is provided. 70 is to be protected becomes surrounded by the body 10.

That is, the temperature sensor 70 extends along the forming groove 52 to the tip 41 of the outer tube 40 to apply a high frequency to the tip 41, and a surgical site generated when applying the high frequency. After detecting the temperature of the probe rod 71 is configured to transfer it to the temperature sensor 70 is configured, the high frequency is applied to the tip 41 through the probe rod 71 on the outside of the temperature sensor 70 By making the wires (not shown) to be electrically connected to each other, a high frequency of a predetermined level applied through the handpiece is transmitted to the tip 41 of the outer tube 40 through the wires and the probe rod 71. When the high frequency output is made from the tip 41 to the biological tissue, the temperature of the surgical site according to the output is configured to be sensed by the temperature sensor 70.

The insulator 60 is coupled to the rear end side of the main body 10 to allow the fat fluid sucked through the tip 41 to flow, and contact pins for interfacing with the handpiece as an external device on its inner surface. A 61 is formed, and the temperature sensor 70 is connected to the contact pin 61 by a harness. Accordingly, the temperature sensor 70 is electrically connected to a handpiece which is an external device.

Here, the wire guide groove 21 is formed in the support block 20 so that a wire for applying a high frequency to the tip 41 of the outer tube 40 is seated.

Although not shown in the drawing, the handpiece, which is an external device, is connected to a housing of a liposuction device provided with a liposuction pump therein. The liposome container is provided with a liposome container for accumulating fat sucked through a liposuction pipe, And an operation unit for manually adjusting the on / off operation of the cannula and manually adjusting the suction intensity of the liposuction pump and the high frequency output amount of the high frequency output unit, if necessary.

Thus, the cannula equipped with a temperature sensor according to an embodiment of the present invention, as shown in Figures 1 to 7 attached, first operating the cannula through the operation unit, the liposuction pump is activated vacuum suction input through the liposuction tube Generated, a high frequency to be applied to the tip 41 of the outer tube 40 forming the cannula is generated, the generated high frequency is passed through the probe rod 71 of the temperature sensor 70 through the wire 40 Is applied to the tip 41.

That is, since the outer surface of the outer tube 40 is insulated and coated through an insulator 42 such as Teflon, when the high frequency output is made to the tip 41 of the outer tube 40 through the probe bar 71, Not only the outer tube 40 but also the inner tube 50 therein and the main body 10 and the support block 20 and the housing 30 therein are not subjected to high frequency output and are inserted only into the living tissue High frequency output can be performed only at the tip 41 of the outer tube 40. [

Thereafter, the operator grabs the handpiece and inserts the tip 41 provided at the end of the outer tube 40 forming the cannula into the treatment site of the biological tissue, and then repeatedly moves back and forth, and outputs from the tip 41. Due to the high frequency of the fat dissolved in the tissue, the liposuction is made through the inlet 41a of the tip 41, the inhaled fat is insulated coupled to the rear end side of the main body 10 forming the cannula ( 60) and handpiece to accumulate in the fat reservoir.

At this time, the temperature sensor 70 to which the probe 71 is connected measures the temperature of the treatment part of the living tissue when the high frequency output is made to the tip 41 of the outer tube 40, The control unit (not shown) automatically adjusts the high-frequency output amount according to the treatment area through a high-frequency output unit (not shown), thereby providing optimal liposuction power and minimizing tissue damage at the treatment site.

That is, the temperature of the surgical site measured from the temperature sensor 70 is passed to the control unit via the handpiece which is an external device through the contact pin 61 of the insulator 60 connected to the temperature sensor 70 and the harness. As a result, the control unit determines whether the detected temperature is close to the set temperature or exceeds the set temperature range, and automatically adjusts or blocks the level of the high frequency output according to the determination result.

In other words, when the temperature of the treatment region sensed by the temperature sensor 70 does not reach the set temperature range because the amount of current corresponding to the sensed impedance change is not decreased, the control unit outputs the high frequency output by the high- When the temperature of the treatment site sensed by the temperature sensor 70 reaches a set temperature range in accordance with the decrease of the current amount, the control operation for cutting off the high-frequency output for fat dissolution This is to prevent the high-frequency output from being properly adjusted so that the tissues in the treated area are not damaged or the surrounding tissue of the living tissue is affected.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be easy to understand. It is also to be understood that the technical spirit of the invention is also deemed to belong to the scope of the appended claims if the practice of such improvements, alterations, substitutions or additions falls within the scope of the appended claims.

10; Main body 11; Hook fixing groove
20; Support block 30; housing
40; Outer tube 41; tip
42; Insulator 41a; Inlet
50; Inner tube 52; Forming Home
60; Insulator 61; Contact pin
70; Temperature sensor 71; Chopper

Claims (9)

main body; A support block disposed on the distal end side in the main body; A housing disposed on a rear end side in the main body and forming a mounting groove portion on an upper side thereof; An outer tube passing through the support block and the housing and having a tip for suction or liposuction on the tip side; An inner tube inserted into the outer tube; An insulator coupled to a rear end side of the main body so as to allow fluid or sucked fat sucked through the tip to flow therethrough and having a contact pin for providing an interface structure with an external device; And including
The inner tube is formed with a forming groove in the longitudinal direction, and the mounting groove of the housing is connected to the contact pin of the insulator by a harness and is configured to comprise a temperature sensor for measuring the temperature of the surgical site according to the high frequency generation Cannula with temperature sensor. The method according to claim 1,
Wherein the temperature sensor is coupled to a probe for measuring a temperature of a treatment part according to application of a high frequency when a high frequency is applied to the tip, the tip extending along the forming groove along the forming groove, And a wire for applying a high frequency to the tip is electrically connected to the tip through the through hole. 3. The method of claim 2,
Wherein the probe is circular or rectangular. ≪ RTI ID = 0.0 > 11. < / RTI > 3. The method of claim 2,
The forming groove is a cannula is equipped with a temperature sensor, characterized in that when the probe is configured in a circular configuration, the probe is mounted in a semi-circular shape so that the probe rod is mounted. 3. The method of claim 2,
The forming groove is a cannula is equipped with a temperature sensor, characterized in that when the probe rod is configured in a square, configured as a square for mounting the probe rod of the square. The method according to claim 1,
Wherein the support block is formed with a wire guide groove on which a wire for applying a high frequency is seated to the tip of the outer tube. The method according to claim 1,
The cannula is equipped with a temperature sensor, characterized in that the outer tube is formed by coating with an insulator so that the high frequency output is made only at the tip except for the tip. The method according to claim 1,
The forming grooves formed in the inner tube are formed in a plurality of structures with a symmetrical structure or a predetermined interval, and insulated to apply a high frequency to the tip of the outer tube in any one of the forming grooves of the symmetrical structure or the plurality of structures. Cannula is equipped with a temperature sensor, characterized in that. The method according to claim 1,
Wherein a hook fixing groove is formed on an outer circumferential surface of the body so as to be detachably coupled to the case using a hand piece and a hook.

Images