KR20210119684A - Endoscopic trocar with balloon - Google Patents

Abstract

The present invention relates to a balloon trocar, and more particularly, to a balloon trocar with an improved structure, as a trocar for inserting a camera or surgical instrument into a surgical site when laparoscopy, thoracoscopy, or arthroscopy is performed, which prevents injection gas from leaking to an incised site as well as to prevent the inserted trocar from being separated from the abdominal cavity of a patient.

Description

Endoscopic trocar with balloon

The present invention relates to a balloon trocar, and more particularly, as a trocar for inserting a camera or surgical instrument into a surgical site when performing laparoscopy, thoracoscopy, or arthroscopy, for trocar insertion It relates to a balloon trocar whose structure is improved to prevent the injection gas from leaking into the incision site as well as prevent the inserted trocar from being detached from the abdominal cavity.

In general, in the case of conventional open incision surgery for patient treatment, the patient's recovery after surgery is slow because the incision site is large and the amount of bleeding that occurs during the operation is large, and the patient's life after the operation is disturbed as a large scar remains after the operation. . Minimal Invasive Surgery (MIS) techniques have been developed to overcome the disadvantages of such open incision surgery.

The minimally invasive surgery is a surgical technique in which only a minimal incision is made in the patient's body using a thin and long surgical tool specially designed to minimize the incision site required for surgery. This minimally invasive surgery has the advantage that scarless surgery requires fewer incisions and the amount of bleeding during the procedure is significantly lower than that of open surgery, so the patient's recovery period after surgery is fast and the external scar is small. The number of procedures is increasing significantly.

This minimally invasive procedure uses a surgical instrument called a trocar that drills a small hole of a laparoscope or a thoracososcope in the stomach or chest and allows surgical instruments to enter the surgical site, making one or several small holes in the patient's abdomen. It is one of the laparoscopic endoscopic surgical methods, which is a surgical method performed while observing the surgical site and then inserting a surgical tool such as an endoscope through the insertion tube of the trocar.

This laparoscopic endoscopic surgery method minimizes the incision of the skin to reduce the pain of the patient, recover the patient quickly, and reduce the risk of infection and scarring. It is also widely used in surgery.

As shown in the accompanying drawings, the conventional trocar as described above includes a trocar housing (H), an insertion tube (T) extending downwardly from the trocar housing (H), and the trocar housing. (H) and an incision rod (not shown) that penetrates the inside of the cannula (T) and incises the abdomen, and at this time, gas is injected into the patient's abdomen through the valve to secure the surgical field to maintain the ups and downs. When the incision bar is manipulated and pressed against the abdomen in close contact with the incision bar, a perforation is formed as the blade of the incision bar passes through the skin tissue layer. When the preparation for the operation is completed by entering the interior, the incision rod is withdrawn from the trocar housing (H) and the necessary surgical tool (1) is put in to proceed with the operation.

Laparoscopic surgery using such a trocar is performed in a state in which gas, particularly carbon dioxide, which has a low risk of explosion, is injected into the abdominal cavity to secure an operating space and expanded to a constant pressure, but when gas is injected into the abdominal cavity as described above, There is a problem of gas leaking between the trocar and the puncture site for surgery.

In order to solve the above problems, recently, as shown in the accompanying drawings, an inflatable annular color 15 is provided on the outer diameter of the front end of the sleeve 11 of the trocar, and the trocar is inserted into the body and then expanded. A balloon trocar was introduced to ensure the airtightness of the perforation site was maintained.

However, in the conventional balloon trocar as described above, the extension body is provided at the tip of the trocar to maintain airtightness only with respect to the inner wall of the abdominal cavity, so the gas flows out between the trocar and the abdominal cavity perforation site that frequently moves during surgery, that is, airtightness to the inside of the abdominal cavity There is a problem that shows a limit in maintaining it perfectly.

The present invention was created to solve the problems of the prior art as described above, and as a trocar for inserting a camera or surgical instrument into a surgical site when performing laparoscopy, thoracoscopy, or arthroscopy, the trocar An object of the present invention is to provide a balloon trocar with an improved structure to prevent the injection gas from leaking into the incision site for insertion, as well as prevent the inserted trocar from being detached from the abdominal cavity.

The present invention for achieving the above object is a trocar body 110 consisting of a head 111 and a sleeve 112 extending from the head 111; an expansion pressing unit 120 provided on the outer diameter of the sleeve 112 and providing a pressing force while expanding by fluid injection; a fluid injection unit 130 provided at an end of the expansion and pressure unit 120 in the direction of the sleeve 112 to provide a fluid injection path and control the injection fluid; It is characterized in that it includes.

In the present invention, the trocar body 110 includes a gas injection means 113 consisting of a gas injection path and a valve on one side of the head 111 and a trocar 114 penetrating the sleeve 112 from the head 111. It is characterized in that it is provided.

In the present invention, the inflation pressure unit 120 is a balloon (balloon) that is in close contact with the surface in a slim shape before fluid injection, and expands to form a volume when fluid is injected.

The expansion and pressure unit 120 of the present invention is characterized in that it is fixed to the outer diameter of the sleeve 112 of the trocar body 110 through heat sealing or adhesion.

In addition, the expansion pressing unit 120 of the present invention is characterized in that it is detachably fitted to the outer diameter of the sleeve 112 of the trocar body 110.

In addition, the expansion and pressure portion 120 of the present invention is characterized in that the thickness of the middle portion of the surface in contact with the perforated skin portion by expansion is relatively thicker than the thickness of both ends (upper and lower ends).

In addition, the expansion pressure unit 120 of the present invention is characterized in that a plurality of ring grooves 121 are formed along the longitudinal direction at intervals on the inner surface of the surface in contact with the perforated skin by expanding.

In addition, in the expansion and pressure part 120 of the present invention, a plurality of annular protrusions 122 are formed along the longitudinal direction at intervals on the surface in contact with the sleeve 112 of the trocar body 110, and the sleeve 112 ) is characterized in that the annular groove (112a) corresponding to the annular projection 122 is formed on the outer surface.

In addition, the expansion and pressure unit 120 of the present invention is located in the head 111 direction of the trocar body 110, it is characterized in that the fixing rim 123 to provide a fixing force to the sleeve 112 is further provided. .

In the present invention, the fluid injection unit 130 is a valve chain in which an on/off valve 133 is provided between the supply end 131 and the inlet end 132 .

The fluid injection unit 130 of the present invention is characterized in that it is provided at the end of the expansion pressure unit 120 located in the sleeve 112 direction of the trocar body 110.

At this time, the fluid injection unit 130 is heat-sealed or adhered or insert-injected into the perforated portion of the outer epidermis of the expansion and pressing unit 120 .

In addition, the fluid injection unit 130 of the present invention is the inlet end 132 made of the same body as the head 111 of the trocar body 110 of the expansion and pressure unit 120 fixed to the outer diameter of the sleeve 112. It is characterized in that made in communication with the perforated portion.

In addition, the fluid injection unit 130 of the present invention is provided on the fixed rim 123 of the expansion and pressure unit 120 , and the fixed rim 123 is expanded with the inlet end 132 of the fluid injection unit 130 . It is characterized in that a communication path is formed with the balloon which is the pressing part 120 .

The present invention by means of the above-described problem solving means places the trocar body 110 in the puncture site for surgery, and the fluid supplied from the outside when performing laparoscopy, thoracoscopy, and arthroscopy (the present invention is particularly useful for laparoscopy) That is, air is injected through the fluid injection unit 130 to expand the expansion pressure unit 120 located on the outer diameter of the trocar body 110 so that the expansion pressure unit 120 is in close contact while pressing the perforated area. By doing so, the gas injected into the surgical site through the trocar body 110 is prevented from leaking to the outside, and the trocar body 110 is firmly fixed to the perforation site, so that it is maintained during the operation. The effect of preventing separation from the perforation site is obtained.

In addition, in the present invention, since the expansion and pressure unit 120 is in close contact with the sleeve 112 of the trocar body 110 in a slim shape before fluid injection, the trocar body 110 is a perforated site for surgery. It has the effect of making it easy to draw in.

In addition, the present invention is applicable to the dedicated trocar body 110 by allowing the expansion and pressing unit 120 to be detachably fitted to the outer diameter of the sleeve 112 of the trocar body 110, and is a ready-made product that is, an existing trocar. It can be applied to the main body, so it has the effect of securing compatibility or versatility.

In addition, in the present invention, the trocar body is in a state in which the expansion and pressure unit 120 is not fixed to the trocar body 110 and is detachable, so that the expansion and pressure unit 120 is accurately located at the perforation site requiring airtightness. After adjusting the insertion depth to the required depth only (110), by injecting the fluid into the expansion and pressing unit 120 so as to expand and fix the perforated portion, the depth of the trocar body 110 can be adjusted, and , obtains the effect of maintaining the fixation and airtightness with respect to the perforation site in such a state.

In addition, in the present invention, the thickness of the middle part of the surface in contact with the skin perforation part is relatively thicker than the thickness of both ends (upper and lower ends) when the expansion and pressure part 120 expands and expands by injecting fluid, the accompanying drawings As shown in Fig. 8, the thick middle part has small expansion, and the relatively thin both ends have large expansion, and as a whole, it expands in the form of a danggo, thereby exerting a strong fixation force on the perforated part to flow or break away. have the effect of preventing

In addition, in the present invention, a plurality of ring grooves 121 are formed along the longitudinal direction at intervals on the inner surface of the surface in contact with the skin perforation part by the expansion of the expansion and pressure unit 120, and when the fluid is injected, when expanding , As shown in the accompanying drawings, the thin ring groove 121 portion has a relatively large expansion compared to the thick portion, and the annular protrusion protrudes over the entire outer surface, thereby providing a firm fixing force for the perforation site. It has the effect of preventing it from flowing or breaking out.

In addition, in the present invention, a plurality of annular protrusions 122 are formed along the longitudinal direction at intervals on the surface in contact with the sleeve 112 of the trocar body 110 in the expansion and pressing unit 120 , and the sleeve 112 ), an annular groove 112a corresponding to the annular protrusion 122 is formed on the outer surface of the annular protrusion 122, and when expanded by injection of a fluid, as shown in FIG. By providing a pressing force while being drawn into the annular groove 112a of the false sleeve 112, the effect of making the detachable expansion and pressing unit 120 firmly fixed to the trocar body 110 is obtained.

In addition, in the present invention, the expansion and pressure unit 120 is provided on a fixed rim 123 that provides a fixing force to the sleeve 112 , so that the expansion and pressure unit 120 in the form of a flexible balloon is installed in the trocar body 110 . The effect of making it easy to fit into the outer diameter of the sleeve 112 of the is obtained.

1 is a cross-sectional view showing an example of a conventional trocar.
Figure 2 is a configuration diagram showing an example of a conventionally improved trocar.
Figure 3 is a perspective view showing a configuration according to an embodiment of the present invention.
4 is a cross-sectional view showing a configuration according to an embodiment of the present invention.
5 is a cross-sectional view showing the configuration and operation according to an embodiment of the present invention.
6 is a cross-sectional view showing the configuration and operation according to another embodiment of the present invention.
7 and 8 are cross-sectional views showing the configuration and operation according to another embodiment of the present invention.
9 and 10 are cross-sectional views showing the configuration and operation according to another embodiment of the present invention.
11 and 12 are cross-sectional views showing the configuration and operation according to another embodiment of the present invention.
Figure 10 is a plan view showing the configuration and wrist portion seated state according to another embodiment of the present invention.
13 to 15 are a perspective view, an exploded perspective view, and a cross-sectional view showing the configuration and operation according to another embodiment of the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings presented as described above.

Balloon trocar 100 of the present invention, as shown in the accompanying drawings 3 to 15, a trocar body 110 consisting of a head 111 and a sleeve 112 extending from the head 111; an expansion pressing unit 120 provided on the outer diameter of the sleeve 112 and providing a pressing force while expanding by fluid injection; a fluid injection unit 130 provided at an end of the expansion and pressure unit 120 in the direction of the sleeve 112 to provide a fluid injection path and control the injection fluid; may include.

Here, in the present invention, the trocar body 110 includes a gas injection means 113 including a gas injection path and a valve on one side of the head 111 and a trocar 114 penetrating the sleeve 112 from the head 111 . This may be more provided.

On the other hand, in the present invention, as shown in FIGS. 3 to 5 of the accompanying drawings, the inflation pressure unit 120 is in close contact with the surface in a slim shape before fluid injection, and expands when fluid is injected to form a balloon ( balloon) may be.

At this time, the expansion pressure unit 120 of the present invention may be fixed to the outer diameter of the sleeve 112 of the trocar body 110 through heat sealing or adhesion, as shown in FIGS. 4 and 5 of the accompanying drawings. .

At this time, the expansion and pressure unit 120 of the present invention may be detachably fitted to the outer diameter of the sleeve 112 of the trocar body 110 as shown in FIG. 6 of the accompanying drawings.

In addition, as shown in the accompanying drawings 7 and 8, the expansion pressure unit 120 of the present invention has a thickness in the middle of the surface in contact with the perforated skin portion by expansion is relatively thicker than the thickness of both ends (upper and lower ends) it could be

In addition, as shown in the accompanying drawings 9 and 10, the expansion pressing unit 120 of the present invention has a hwan groove 121 on the inner surface of the surface in contact with the skin perforation portion by expanding at intervals along the longitudinal direction. A plurality may be formed.

In addition, as shown in the accompanying drawings 11 and 12, the expansion and pressure unit 120 of the present invention has an annular projection 122 on the surface in contact with the sleeve 112 of the trocar body 110 at a distance. A plurality of pieces are formed along the longitudinal direction, and an annular groove 112a corresponding to the annular protrusion 122 may be formed on the outer surface of the sleeve 112 .

In addition, as shown in the accompanying drawings 13 to 15, the expansion pressing unit 120 of the present invention is located in the direction of the head 111 of the trocar body 110 to provide a fixing force for the sleeve 112. A fixing rim (123; Fixing rim) may be further provided.

In the present invention, the fluid injection unit 130 may be a valve chain in which an on/off valve 133 is provided between the supply end 131 and the inlet end 132 .

The fluid injection unit 130 of the present invention is provided at the end of the expansion and pressure unit 120 positioned in the sleeve 112 direction of the trocar body 110, as shown in FIGS. 3 to 5 of the accompanying drawings. can

In this case, the fluid injection unit 130 may be heat-sealed or adhered or insert-injected into the perforated portion of the outer epidermis of the expansion and pressure unit 120 .

In addition, the fluid injection unit 130 of the present invention, as shown in the accompanying drawings Figure 6, the inlet end 132 made of the same body as the head 111 of the trocar body 110 is the sleeve 112 outer diameter It may be made in communication with the perforated portion of the expansion and pressing unit 120 fixed to the.

In addition, as shown in the accompanying drawings 13 to 15, the fluid injection unit 130 of the present invention is provided on the fixed rim 123 of the expansion and pressing unit 120, and the fixed rim 123 is a fluid A communication path may be formed between the inlet end 132 of the injection unit 130 and the balloon that is the expansion and pressure unit 120 .

The operation of the present invention configured in this way will be described as follows.

First, the present invention, as shown in the accompanying drawings 3 to 15, a trocar body 110 consisting of a head 111 and a sleeve 112 extending from the head 111; an expansion pressing unit 120 provided on the outer diameter of the sleeve 112 and providing a pressing force while expanding by fluid injection; a fluid injection unit 130 provided at an end of the expansion and pressure unit 120 in the direction of the sleeve 112 to provide a fluid injection path and control the injection fluid; It is a balloon trocar 100 comprising a.

In the present invention as described above, when performing laparoscopy, thoracoscopy, and arthroscopy (the present invention is particularly useful for laparoscopy), the trocar body 110 is positioned at the puncture site for surgery, and the fluid supplied from the outside, that is, air By injecting through the fluid injection unit 130 to expand the expansion pressure unit 120 located on the outer diameter of the trocar body 110, the expansion pressure unit 120 is in close contact while pressing the punctured portion, the trocar By preventing the gas injected into the surgical site through the main body 110 from leaking to the outside, as well as keeping the trocar body 110 firmly fixed to the perforated site, it is separated from the perforated site during surgery. to prevent

Here, in the present invention, the trocar body 110 includes a gas injection means 113 including a gas injection path and a valve on one side of the head 111 and a trocar 114 penetrating the sleeve 112 from the head 111 . It is preferable that this is further provided, and the trocar body 110 itself is applied for one-time use.

In the present invention as described above, the trocar body 110 is drawn into the puncture site formed in the surgical site with the trocar 114 inserted, and then the trocar 114 is withdrawn and removed, and the surgical tool is introduced into the site for surgery. is performed, by injecting gas into the surgical site through the trocar body 110 before the operation is performed and expanding it, thereby securing the surgical field of view and the movement space of the surgical tool.

On the other hand, in the present invention, as shown in FIGS. 3 to 5 of the accompanying drawings, the inflation pressure unit 120 is in close contact with the surface in a slim shape before fluid injection, and expands when fluid is injected to form a balloon ( balloon) is preferred.

In the present invention, the expansion and pressure unit 120 is in close contact with the sleeve 112 of the trocar body 110 in a slim shape before fluid injection, so that it is easily drawn into the puncture site for surgery, and the perforation When the fluid is injected in the state drawn into the site, the inflation pressure unit 120 expands and presses and closely adheres to the perforation site. Accordingly, the gas injected into the surgical site, for example, the abdomen, in order to secure the surgical field of view and the movement space of the surgical tool. prevent leakage.

At this time, as shown in the accompanying drawings Figs. 4 and 5, the expansion and pressure unit 120 of the present invention is fixed to the outer diameter of the sleeve 112 of the trocar body 110 through heat sealing or adhesion. do for example At this time, it is a preferred embodiment that the fluid injection unit 130 is thermally fused or bonded or insert-injected to the end of the expansion and pressing unit 120 positioned in the sleeve 112 direction of the trocar body 110 .

As such, in the present invention, when the expansion and pressure unit 120 is fixed to the outer diameter of the sleeve 112 of the trocar body 110 through thermal fusion or adhesion, the expansion and pressure unit 120 is the trocar body 110 . ) in a state where it is firmly fixed without flow, it is introduced into the perforation site for surgery, and when the fluid is injected, it expands and pressurizes to the perforation site.

At this time, it is also a preferred embodiment that the expansion pressing unit 120 of the present invention is detachably fitted to the outer diameter of the sleeve 112 of the trocar body 110 as shown in FIG. 6 of the accompanying drawings.

As such, the present invention is applicable to the dedicated trocar body 110 when the expansion and pressure unit 120 is detachably fitted to the outer diameter of the sleeve 112 of the trocar body 110, and is a ready-made trocar. It can also be applied to the body.

In addition, when the expansion and pressure unit 120 is not fixed to the trocar body 110 and is detachable as described above, the trocar body ( After adjusting the insertion depth to the required depth only 110), the fluid is injected into the expansion and pressure unit 120 to expand and fix the perforation site.

At this time, when the expansion and pressure unit 120 is expanded by fluid injection, both the outer diameter of the sleeve 112 and the perforated portion of the body provide a pressing force while maintaining the fixing force of both.

In addition, as shown in the accompanying drawings, the expansion and pressure unit 120 of the present invention expands and the thickness of the middle part of the surface in contact with the skin perforation part is relatively thicker than the thickness of both ends (upper and lower ends). do for example

As such, in the present invention, the thickness of the middle part of the surface in contact with the skin perforation part by the expansion of the pressurizing part 120 is relatively thicker than the thickness of both ends (upper and lower ends). As shown in FIG. 8, the thick middle part has small expansion, and the relatively thin both ends have large expansion, and by expanding in the form of a danggo as a whole, it exerts a strong fixing force on the perforated part to flow or prevent it from escaping

In addition, as shown in the accompanying drawings Fig. 9, the expansion pressing unit 120 of the present invention has a plurality of ring grooves 121 on the inner surface of the surface in contact with the perforated skin part along the longitudinal direction at intervals. It is also set as a preferred embodiment.

As such, in the present invention, a plurality of hwan grooves 121 are formed along the longitudinal direction at intervals on the inner surface of the surface in contact with the skin perforation part by the expansion of the inflation pressure unit 120, and the fluid is injected to expand When, as shown in the accompanying drawings, as shown in Figure 10, the thin ring groove 121 portion has a large expansion compared to the relatively thick portion, while the annular protrusion protrudes over the entire outer surface, a firm fixing force for the perforation site to prevent it from drifting or breaking out.

In addition, as shown in FIG. 11 of the accompanying drawings, the expansion and pressing part 120 of the present invention has an annular protrusion 122 on the surface in contact with the sleeve 112 of the trocar body 110 at intervals in the longitudinal direction. A plurality is formed accordingly, and an annular groove 112a corresponding to the annular protrusion 122 is formed on the outer surface of the sleeve 112 as a preferred embodiment.

As such, in the present invention, a plurality of annular protrusions 122 are formed along the longitudinal direction at intervals on the surface in contact with the sleeve 112 of the trocar body 110 in the expansion pressing unit 120, and the sleeve ( An annular groove 112a corresponding to the annular projection 122 is formed on the outer surface of the 112, and when the fluid is injected to expand, as shown in FIG. ) provides a pressing force while being drawn into the annular groove 112a of the sleeve 112 , so that the detachable expansion and pressing unit 120 is securely fixed to the trocar body 110 .

In addition, as shown in the accompanying drawings 13 to 15, the expansion pressing unit 120 of the present invention is located in the direction of the head 111 of the trocar body 110 to provide a fixing force for the sleeve 112. It is also a preferred embodiment that the fixed rim 123 is further provided. At this time, the fluid injection unit 130 is provided on the fixed rim 123 of the expansion and pressure unit 120 , and the fixed rim 123 includes the inlet end 132 of the fluid injection unit 130 and the expansion and pressure unit ( 120), it is preferable to form a communication path with the balloon.

As such, in the present invention, the expansion and pressure unit 120 is provided on a fixed rim 123 that provides a fixing force to the sleeve 112, so that the expansion and pressure unit 120 in the form of a flexible balloon is installed in the trocar body 110 ) to be easily fitted to the outer diameter of the sleeve 112.

While the present invention has been described and illustrated in connection with preferred embodiments for illustrating the principles of the present invention, the present invention is not limited to the construction and operation as so shown and described.

In addition, it will be apparent to those skilled in the art that many changes and modifications may be made to the present invention without departing from the spirit and scope of the appended claims.

As such, it is intended that the present invention be considered to fall within the scope of the present invention with all suitable alterations and modifications and equivalents.

100: balloon trocar 110: trocar body
111: head 112: sleeve
114: trocar 120: inflation pressure unit
121: annular groove 122: annular projection
123: fixed rim 130: fluid injection part
131: supply end 132: inlet end
133: on/off valve

Claims (14)

a trocar body 110 comprising a head 111 and a sleeve 112 extending from the head 111;
an expansion pressing unit 120 provided on the outer diameter of the sleeve 112 and providing a pressing force while expanding by fluid injection;
a fluid injection unit 130 provided at an end of the expansion and pressure unit 120 in the direction of the sleeve 112 to provide a fluid injection path and control the injection fluid; comprising,
A balloon trocar featuring a.
The method according to claim 1,
The trocar body 110,
A gas injection means 113 consisting of a gas injection path and a valve on one side of the head 111 and a trocar 114 penetrating the sleeve 112 from the head 111 are further provided;
A balloon trocar featuring a.
The method according to claim 1,
The expansion and pressure unit 120,
It is a balloon that adheres to the surface in a slim shape before fluid injection, and expands to form a volume when fluid is injected;
A balloon trocar featuring a.
The method according to claim 1,
The expansion and pressure unit 120,
The sleeve 112 is fixed to the outer diameter through heat sealing or bonding;
A balloon trocar featuring a.
The method according to claim 1,
The expansion and pressure unit 120,
Removably fitted to the sleeve 112 outer diameter,
A balloon trocar featuring a.
The method according to claim 1,
The expansion and pressure unit 120,
Among the surfaces in contact with the perforated part of the skin due to expansion, the thickness of the middle surface is relatively thicker than the thickness of both ends;
A balloon trocar featuring a.
The method according to claim 1,
The expansion and pressure unit 120,
A plurality of ring grooves 121 are formed along the longitudinal direction at intervals on the inner surface of the surface in contact with the perforated skin portion by expansion,
A balloon trocar featuring a.
The method according to claim 1,
The expansion and pressure unit 120,
A plurality of annular projections 122 are formed along the longitudinal direction at intervals on a surface in contact with the sleeve 112 , and an annular groove 112a corresponding to the annular projection 122 is formed on the outer surface of the sleeve 112 . thing,
A balloon trocar featuring a.
The method according to claim 1,
The expansion and pressure unit 120,
A fixing rim 123 positioned in the direction of the head 111 of the trocar body 110 to provide a fixing force to the sleeve 112 is further provided,
A balloon trocar featuring a.
The method according to claim 1,
The fluid injection unit 130,
A valve chain in which an on/off valve 133 is provided between the supply end 131 and the inlet end 132,
A balloon trocar featuring a.
11. The method of claim 10,
The fluid injection unit 130,
What is provided at the end of the expansion pressing unit 120 located in the sleeve 112 direction of the trocar body 110,
A balloon trocar featuring a.
The method according to claim 1,
The fluid injection unit 130,
Heat-sealed or adhered or insert-injected to the perforated portion of the outer skin of the expansion and pressure unit 120;
A balloon trocar featuring a.
13. The method of claim 12,
The fluid injection unit 130,
The inlet end 132 made of the same body as the head 111 of the trocar body 110 communicates with the perforated portion of the expansion and pressure unit 120 fixed to the outer diameter of the sleeve 112,
A balloon trocar featuring a.
The method according to claim 1,
The fluid injection unit 130,
It is provided on the fixed rim 123 of the expansion and pressure unit 120, and the fixed rim 123 is formed with a communication path between the inlet end 132 of the fluid injection unit 130 and the balloon which is the expansion and pressure unit 120. ,
A balloon trocar featuring a.

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