KR20200066804A - A Trocar with an Enhanced Air Tightness - Google Patents

Abstract

The present invention relates to a trocar with enhanced airtightness and, specifically, to a trocar with enhanced airtightness to prevent leakage of an internal gas to the outside in the process of inputting and discharging a surgical tool. The trocar with enhanced airtightness comprises: a cannula module (20) having a guide tube (22) extending vertically; a cover module (10) coupled to the top of the cannula module (20); a penetrating needle module (30) having a penetrating needle (32) inserted into the top of the cover module (10) and guided into the inside of the guide tube (22); and a close contact tube unit (13) disposed inside the cover module (10) and in contact with the outer circumferential surface of a tubular device guided into the inside of the guide tube (22), wherein the end portion of the close contact tube unit (13) has elastic properties.

Description

A Trocar with an Enhanced Air Tightness

The present invention relates to a trocar having improved airtight performance, and more particularly, to a trocar with improved airtight performance that prevents gas from leaking to the outside during the injection and discharge of surgical instruments.

Trocars made of a metal or synthetic resin obturator and a hollow tube structure cannula are applied to laparoscopic surgery, and various structures are known in the art. For example, Patent Publication No. 10-2014-0097814 discloses a trocar assembly that allows for laparoscopic surgical instruments to be inserted in the correct position while being convenient for use. In addition, Patent Registration No. 10-1268705 discloses a laparoscopic trocar that is in close contact with an elastic member in the process of injecting or withdrawing surgical tools having different sizes to maintain gas tightness and prevent gas from being leaked. It is advantageous to have a structure in which various surgical instruments, including penetrating through the trocar, can enter and exit the human body, and the gas inside the human body does not leak to the outside during the input and discharge of the surgical instruments. In addition, it is necessary to have a structure that maintains airtightness while improving operational stability during the operation of the surgical tool. However, the prior art does not disclose a trocar having such a structure.

The present invention is to solve the problems of the prior art has the following purposes.

Prior Art 1: Patent Publication No. 10-2014-0097814 (Sejong Medical Co., Ltd., published on August 7, 2014) Trocar assembly Prior Art 2: Patent Registration No. 10-1268705 (Hui Sang Han, Announced May 28, 2013) Laparoscopic Trocar

It is an object of the present invention to provide a trocar with improved airtight performance, in which an elastic airtight structure is formed inside to maintain airtightness during the operation or operation of a surgical tool.

According to a preferred embodiment of the present invention, the trocar with improved hermetic performance includes a cannula module having a guide tube extending vertically; A cover module coupled to the top of the cannula module; A penetrating module having a penetrating agent inserted from the top of the cover module and guided into the inside of the guide tube; And a contact tube unit disposed inside the cover module and contacting an outer circumferential surface of the tubular device guided to the inside of the guide tube, and the end portion of the contact tube unit has a stretching property.

According to another suitable embodiment of the present invention, the contact tube unit includes a flow body having a disk shape as a whole; And a contact tube extending in a tubular shape from the center of the flow body, and the tip of the contact tube has a thinner thickness than the other parts.

According to another suitable embodiment of the invention, it further comprises a sealing cap disposed inside the cannula module.

In the trocar having improved hermetic performance according to the present invention, an adhering tube unit that can be in close contact with the outer circumferential surface of a penetrating or surgical tool is arranged to improve the hermetic performance. The tight tube unit ensures airtightness and safety of movement in the process of being moved to have various angles in a state in which a penetrating or surgical tool is put in.

1 shows an embodiment of a trocar with improved airtight performance according to the present invention.
Figure 2 shows an embodiment of a close contact tube unit applied to a trocar with improved airtight performance according to the present invention.
Figure 3 shows an embodiment of a sealed cap applied to a trocar with improved airtight performance according to the present invention.

The present invention will be described in detail below with reference to the embodiments presented in the accompanying drawings, but the embodiments are intended for a clear understanding of the present invention and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, and are not described repeatedly unless necessary for understanding of the invention, and well-known components are briefly described or omitted, but the present invention It should not be understood as being excluded from the embodiment.

1 shows an embodiment of a trocar with improved airtight performance according to the present invention.

Referring to Figure 1, the improved airtight trocar cannula module 20 having a guide tube 22 extending vertically; A cover module 10 coupled to the top of the cannula module 20; A penetrating module 30 having a penetrating 32 inserted from the top of the cover module 10 and guided into the inside of the guiding tube 22; And a close contact tube unit 13 disposed inside the cover module 10 and contacting the outer circumferential surface of the tubular device guided to the inside of the guide tube 22, and an end portion of the close contact tube unit 13 Has elastic properties.

The cannula module 20 has a lower body 21 in which a receiving space is formed inside while being semi-spherical as a whole; A hollow tube-shaped guide tube 22 which is coupled to the lower body 21 and extends vertically; And at least one locking protrusion 25 formed on the outer circumferential surface of the guide tube 22. The upper portion of the lower body 21 may be a structure in which the cover module 10 is coupled and fixed while having an overall disk shape. The gas induction unit 23 may be coupled to the side of the lower body 21, and the gas induction unit 23 has a tube shape capable of flowing gas protruding outward while one end is connected to the lower body 21. It can be, the flow of gas can be controlled by the opening and closing means 24. Gas supply means for supplying or discharging gas may be connected to one side of the gas induction unit 23. The gas injected through the gas induction unit 23 may be introduced into the human body through the lower body 21, and the gas inside the human body may also be passed through the gas induction unit 23 via the lower body 21. Can be discharged. The cannula module 20 may be combined with a cover module 10 that is formed in a cylindrical shape as a whole. The cover module 10 may be integrally formed with the cannula module 10, or may be detachably coupled, and the close tube unit 13 may be disposed therein. The cover module 10 may be formed of a receiving portion 11 and a receiving portion 12 formed under the receiving portion 11 and coupled to the cannula module 20. The penetrating module 30 may be coupled from the top of the cover module 10, and the penetrating module 30 may include a penetrating cover 31; One end coupled to the penetrating cover 31, the penetrating 32 extending downwardly in a tubular shape; And a handling tab 34 that allows the penetrating cover 31 to be coupled to or separated from the cover module 10. The penetrating cover 31 may have a structure that can be coupled to the top of the cover module 10, and the penetrating cover 32 penetrates the cover module 10 and passes through the inside of the guide tube 22 to guide the tube ( 22) can be made of a structure protruding outward. The guiding tube 22 or the penetrating 32 is made of a rugged synthetic resin material, and can be inserted into the human body while the penetrating tube 32 is inserted into the guiding tube 22. Gas may be injected into the human body, and gas or odor components inserted into the human body may be discharged to the outside through the induction pipe 22. In order to prevent this, the close tube unit 13 may be disposed inside the cover module 10.

The close contact tube unit 13 includes a flow body 131 that has a disk shape as a whole; And a contact tube 132 extending in a tubular shape from the center of the flow body 131, and an end portion of the contact tube 132 may have a thinner thickness than other parts. The flow body 131 may be in the shape of a disc, and the circumferential surface of the disc shape may be fixed to the cover module 10 and extend downward to the central portion of the cover module 10, such as a penetrating 32 or surgical tool. A contact tube 132 for the inflow of the can be formed. The flow body 131 may be made of a material having elasticity, and the contact tube 132 may have a tube shape with an induction path formed therein, and an end portion may be introduced into the inside. Alternatively, the end portion may have a shape that is curled outward. In addition, the end portion of the contact tube 132 may have a relatively large stretch compared to other portions. The contact tube 132 may be extended to a constant length, and may have a smaller diameter than other parts while the end portion is made of a small elastic material. By such a structure, the contact tube unit 13 may be in close contact with the outer circumferential surface of the penetrating 32. In addition, the fluidity of the penetrating 32 or the surgical tool may be secured by the fluidized body 131 having elasticity or made of a soft material.

Hereinafter, an embodiment of the contact tube unit 13 having such a structure will be described.

Figure 2 shows an embodiment of a close contact tube unit applied to a trocar with improved airtight performance according to the present invention.

Referring to Figure 2, the close contact tube unit 13 is a flow body 131 that has a disk shape as a whole; And a contact tube 132 extending in a tubular shape from the center of the flow body 131, and an end portion of the contact tube 131 may have a thinner thickness than other parts.

The close tube unit 13 may be disposed inside the cover module, and may include a flow body 131 and a contact tube 132 coupled to the central portion of the flow body 131 to induce the introduction and discharge of penetration. Can be. The flow body 131 can be easily deformed, made of a soft material or thickness that can be bent, can include at least one vertically deformed wall 131a, 131b, and different vertically deformed walls 131a, 131b ) May form a circular wall that extends circularly while being separated from each other. The lower portions of the vertically deformed walls 131a and 131b adjacent to each other may be connected to each other, whereby vertically connecting walls 131c and 131d extending downward may be formed. The tube-shaped contact tube 132 may extend downward from the central portion of the flow body 131, and a fixed ring plate 133 may be formed on the circumferential surface of the portion where the contact tube 132 starts. The fixed ring plate 133 may be made of a solid material, and the flow body 131 is firmly coupled so that the upper portion of the contact tube 132 is not deformed. The contact tube 132 may be extended through a center hole formed in the fixed ring plate 133, and the contact tube 132 may be made of a material having a small elasticity or a large thickness compared to the flow body 131. have. A contact tip 132a in which an inflow hole is formed in the center may be formed while extending inwardly at the end of the contact tube 132, and the contact tip 132a has greater elasticity than other parts of the contact tube 132. It may have a thin thickness. Due to this structure, the close contact tip 132a may be adhered elastically to the circumferential surface of the penetrating needle inserted into the contact tube 132. In addition, when the penetrating fluid flows in different directions, the fixing ring plate 133 is moved to the left and right, so that the contact state of the contact tube 132 is maintained. Optionally, a funnel-shaped sealing unit 17 having a telescopic hole formed in the center on the inlet surface of the contact tube 132 may be disposed. The fixed ring plate 133 is fixed in various directions by the deformation structure of the vertical deformation walls 131a, 131b while fixing the circumferential surface of the sealing unit 17 and the circumferential surface of the flow body 131 where the contact tube 132 starts. It can be moved, for example, it can be moved up and down or left and right.

The circumferential surface of the contact tube unit 13 may be fixed to the inner circumferential surface of the cover module 10, and the vertical deforming walls 131a, 131b or the vertical connecting walls 131c, 131d may be made of various deformable structures. And may not be limited to the presented embodiments.

Figure 3 shows an embodiment of a sealed cap applied to a trocar with improved airtight performance according to the present invention.

Referring to FIG. 3, the trocar may include a sealing cap 40 disposed inside the cannula module.

The sealing cap 40 may include a cap body 41 having a sealing blade 43 formed at a lower portion and a fixing frame 42 formed at an upper portion of the cap body 41 when the upper portion becomes a hollow cylinder shape. have. The fixing rim 42 is formed in a band shape on the upper circumferential surface of the cap body 41 so that the cap body 41 is fixed to the cannula module. The sealing wing 43 may be formed on the lower portion of the cap body 41, and the lower ends may be formed to approach each other while the curved surfaces facing each other convex in the directions facing each other. In addition, a linear contact portion 46 may be formed at end portions approaching each other, and the linear contact portion 46 may be bent at a different angle from the sealing blade 43. For example, the linear contact portion 46 can be bent at an angle of 60 to 70 degrees relative to the horizontal direction, preferably 80 to 90 degrees. Linear protrusions 45 extending linearly downward in the inner surface of the sealing wings 43 facing each other may be formed. The linear protrusion 45 allows the shape of the sealing blade 43 to be maintained, and at the same time, is quickly sealed after the penetrating or medical device is discharged. The linear protrusion 45 may be formed of two parts having different densities or thicknesses, and the intermediate part may be formed to have a relatively large density compared to both parts with respect to the extending direction. Through the above structure, the shape of the sealing blade 43 is stably maintained, so that the sealing is quickly performed. The linear contact portion 46 can be formed by a vertically extending portion 44 formed at the end of the sealing blade 43. The vertically extending portions 44 may extend parallel to face each other from the ends of the sealing wings 43 facing each other, and may be formed to be inclined to both ends while the central portions extend in the horizontal direction. As a result, a large V-shape can be obtained. And the sealing property of the sealing cap 40 can be improved by such a structure. The vertically extending portion 44 may be formed in various structures and is not limited to the presented embodiment.

In the trocar having improved hermetic performance according to the present invention, an adhering tube unit that can be in close contact with the outer circumferential surface of a penetrating or surgical tool is disposed to improve the hermetic performance of the trocar. The tight tube unit ensures airtightness and safety of movement in the process of being moved to have various angles in a state in which a penetrating or surgical tool is put in.

The present invention has been described in detail with reference to the presented embodiments, but those skilled in the art will be able to make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. . The present invention is not limited by such modified and modified inventions, but is limited by the appended claims.

10: cover module 11: receiving portion
12: binding site 13: close tube unit
17: sealing unit 20: cannula module
21: lower body 22: guide tube
23: gas induction unit 24: opening and closing means
25: jam projection 30: penetrating module
31: penetrating cover 32: penetrating
34: Handling tab 40: Seal cap
41: cap body 42: fixed rim
43: sealed wing 44: vertical extension
45: linear projection 46: linear contact portion
131: floating body 131a, 131b: vertical deformation wall
131c, 131d: vertical connecting wall 132: contact tube
132a: close contact tip 133: retaining ring plate

Claims (3)

A cannula module 20 having a guiding tube 22 extending vertically;
A cover module 10 coupled to the top of the cannula module 20;
A penetrating module 30 having a penetrating 32 inserted from the top of the cover module 10 and guided into the inside of the guiding tube 22; And
It is disposed inside the cover module 10 and includes a close tube unit 13 which is in contact with the outer circumferential surface of the tubular device guided to the inside of the guide tube 22,
Trocar, characterized in that the end portion of the contact tube unit 13 has elastic properties. The method according to claim 1, The contact tube unit 13 is a flow body 131 that is a disk shape as a whole; And a contact tube 132 extending in a tubular shape from the center of the flow body 131, wherein the end portion of the contact tube 131 has a thinner thickness than other parts. The trocar according to claim 1, further comprising a sealing cap (40) disposed inside the cannula module (20 ).

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