KR102050881B1 - A Trocar Having an Improved Handling Structure - Google Patents

Abstract

The present invention relates to a trocar with an improved handling structure. The trocar with an improved handling structure comprises: a cannula unit (11) in which a gas induction unit (112) is integrally formed; a lid unit (12) coupled to the top of the cannula unit (11) and having at least one fastening hole (124a, 124b) formed therein; and an obturator unit (14) having fixing projections (143a, 143b) coupled to the fastening holes (124a, 124b) and an obturator head (141) composed of a plurality of plate-shaped rings stacked on each other.

Description

A trocar having an improved handling structure

The present invention relates to a trocar with improved handling structure, and more particularly to a trocar with improved handling structure due to a stable structure.

Trocars consisting of metal or synthetic resin obturators and hollow tube structure cannulas are applied in 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 still being easy to use. In addition, Patent Registration No. 10-1268705 discloses a laparoscopic trocar that is in close contact with the elastic member in the process of drawing or withdrawing surgical instruments having different sizes to prevent the outflow of gas while maintaining airtightness. Laparoscopic trocars need to be made structurally stable and easy to handle during surgery. For example, it is advantageous to have a structure that allows the penetration to be prevented from slipping. 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 object.

Prior Art 1: Patent Publication No. 10-2014-0097814 (Sejong Medical Co., Ltd., published August 07, 2014) Trocar assembly Prior Art 2: Patent Registration No. 10-1268705 (Han Hee Sang, May 28, 2013) Laparoscopic Trocar

It is an object of the present invention to provide a trocar with an improved handling structure that is structurally stable and easy to handle.

According to a preferred embodiment of the present invention, a trocar having an improved handling structure includes a cannula unit in which a gas induction unit is integrally formed; A lid unit coupled to the top of the cannula unit and having at least one fastening hole formed therein; And a piercing unit having a piercing head coupled to the fastening hole and a piercing head consisting of a plurality of plate-shaped rings stacked on each other.

According to another suitable embodiment of the present invention, the guide blade is disposed in the receiving housing of the cannula unit; An induction cylinder extending below the induction vane; And an induction unit consisting of an induction tip extending from the induction cylinder into a conical shape, the induction tip having greater elasticity than the induction cylinder.

According to another suitable embodiment of the present invention, the gas guide unit is integrally coupled to the cannula unit by three separate coupling legs.

The trocar with improved handling structure according to the present invention has an advantage of being easy to handle because it consists of a plurality of ring structures stacked on top of each other. In addition, the trocar according to the present invention, the gas injection unit is formed integrally with the cannula so that the gas injection is stable while structurally simple.

Figure 1 shows an embodiment of a trocar with improved handling structure according to the present invention.
Figure 2 shows an embodiment of a sealed module applied to the trocar according to the present invention.
Figure 3 illustrates an embodiment of the integrated cannula structure and airtight guide caps applied to the trocar according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments set forth in the accompanying drawings, but the embodiments are provided for clarity of understanding 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 thus are not repeatedly described unless necessary for understanding of the invention, and well-known components are briefly described or omitted. It should not be understood to be excluded from the embodiment of.

Figure 1 shows an embodiment of a trocar with improved handling structure according to the present invention.

Referring to FIG. 1, a trocar having an improved handling structure includes a cannula unit 11 in which a gas induction unit 112 is integrally formed; A lid unit 12 coupled to the top of the cannula unit 11 and having at least one fastening hole 124a and 124b formed therein; And a piercing unit 14 having fixing projections 143a and 143b coupled to the fastening holes 124a and 124b and a piercing head 141 composed of a plurality of plate-shaped rings stacked on each other.

The cannula unit 11 includes a receiving housing 111 which is generally semi-spherical and has an accommodation space therein; An induction pipe 113 extending vertically from the bottom of the receiving body 111 in a hollow tube shape; And a gas induction unit 113 formed integrally with the accommodation housing 111. The airtight module 13 may be disposed in the accommodating housing 111, and the cover 12 may be coupled to an open upper portion of the accommodating housing 111. The accommodating housing 111 may be, but is not limited to, a semi-spherical or similar shape with the top surface open. The gas induction unit 112 may be integrally coupled to the side of the accommodating housing 111, and the gas induction unit 112 may be firmly coupled to the lower side of the accommodating housing 111. A gas supply means for supplying or discharging gas may be connected to one side of the gas induction unit 112. The gas injected through the gas guide unit 112 may be guided into the human body through the accommodation housing 111 and the guide tube 113. In addition, gas inside the human body may also be discharged to the outside through the gas induction unit 112 via the accommodation housing 111. A tube-shaped guide tube 113 may be formed below the accommodating housing 111, and a plurality of circular protrusions 114 may be formed on the outer circumferential surface of the guide tube 113, and the circular protrusion 114 may be formed. By this, the cannula unit 11 may be stably fixed to a predetermined position.

A lid unit 12 having a cylindrical shape as a whole may be coupled to the upper portion of the cannula unit 11, and the lid unit 12 may include a lid body 121; It may include a tube-shaped inlet tube 122 connected to the inlet 123 formed on the cover body 121. A pair of fastening holes 124a and 124b may be formed on the upper surface of the cover body 121. The penetration unit 14 may be coupled through an inlet formed above the cover unit 12. The piercing unit 14 has a linear member shape having a circular cross section and extends to be accommodated inside the guiding tube 113 and the piercing head 141 coupled to one end of the piercing 142. It may be made, the piercing head 141 may be made of a structure in which a plurality of plate-shaped ring is arranged in the vertical direction. Specifically, the piercing head 141 has a first separation plate that is coupled to the center of one end of the piercing 141; A second separation plate separated from the first separation plate and disposed above, the second separation plate having a larger diameter than the first separation plate; And a plurality of separation plates that are gradually separated from each other and disposed to be separated from each other above the second separation plate, and the piercing head 141 may be hemispherical as a whole. By such a structure, while being prevented from slipping in the handling process of the penetrating unit 14, the handling convenience can be improved. Fixing protrusions 143a and 143b extending in a linear manner to be coupled to the fastening holes 124a and 124b to limit the movement of the penetration unit 14 may be formed on the lower surface of the first separation plate. As shown in the right side of FIG. 1, when the sealing module 13 is disposed inside the accommodating housing 111, the cover unit 12 may be coupled to the cannula unit 11. The lid unit 12 may be detachably or firmly coupled to the cannula unit 11. When the cover unit 12 is coupled to the cannula unit 11 as described above, the penetration unit 14 may be coupled to the cannula unit 11 through the top of the cover unit 12. In this state, the gas or the odor may be prevented from being discharged to the outside by the airtight module 13.

Figure 2 shows an embodiment of a sealed module applied to the trocar according to the present invention.

2, the cannula unit 11 is disposed in the receiving housing 111, the guide blade 211; An induction cylinder 213 extending downward of the induction vane 211; And an induction unit 21 consisting of an induction tip 214 extending conically from the induction cylinder 213, wherein the induction tip 214 has greater elasticity than the induction cylinder 213.

The inlet of the cover unit for the introduction of the penetration unit may be cylindrical, and may be made of a rigid synthetic resin material. In addition, since the penetration of the penetration unit is made of a solid material, gas or odor may leak to the outside while the penetration unit is coupled to the cannula unit. Such leakage can be prevented by a sealed module. The hermetic module may consist of the induction unit 21 and the hermetic unit 22 in which the induction unit 21 is accommodated. The induction unit 21 and the sealing unit 22 may be made of the same or similar material. Specifically, the induction unit 21 and the sealing unit 22 are made of a material having a large elasticity and at the same time having a large coefficient of friction. Can be made. Guide blade 211 may have a structure that is in close contact with the circular contact groove 125 formed in the lower surface of the guide body 121 while being in the shape of a circular border. A stable unit 212 having a smaller diameter than the guide vane 211 and having a thickness similar to the guide vane 211 may be formed below the guide vane 211. In addition, a hollow cylinder-shaped induction cylinder 213 having a constant diameter may extend from the bottom of the stabilization unit 212. Conical or truncated induction tip 214 may be formed at the end of the induction cylinder 213, and an induction hole is formed at the end of the induction tip 214 to guide the penetration into the induction pipe of the cannula. . According to one embodiment of the present invention, the induction tip 214 may have greater elasticity than the induction cylinder 213, whereby the end portion of the induction tip 214 may be in close contact with the circumferential surface of the piercing. . Induction tip 214 may have a large elasticity by having a relatively small thickness compared to the induction cylinder 213, for example, may be made of a structure that becomes thinner gradually toward the end. The stabilizing unit 212 and the induction cylinder 213 may be inserted into the receiving tube 222 of the sealing unit 22, and the lower portion of the guide vane 211 may contact the upper surface of the sealing rim 221. The accommodating tube 222 may be a hollow cylinder shape, and a sealing cap 224 may be formed below the accommodating tube 222. The sealing cap 224 may extend from facing each other and may be formed of a pair of sealing wings whose ends form a linear sealing inlet 225. And the upper portion of the sealing cap 224 and the receiving tube 222 may be connected by a connecting portion 223 extending in a conical shape. The receiving tube 222 may have a relatively greater elasticity than the induction cylinder 213, thereby preventing leakage that may occur during the flow of the immersion.

The hermetic module can be made in a variety of structures and is not limited to the embodiments shown.

Figure 3 illustrates an embodiment of the integrated cannula structure and airtight guide caps applied to the trocar according to the present invention.

Referring to FIG. 3, the gas induction unit 112 is integrally coupled to the cannula unit 11 by three separate coupling legs 31a, 31b, 31c. The accommodating housing 111 is formed at a lower portion of the coupling portion to which the cover unit is coupled, the connecting portion 111a and the connecting portion 111a extending while gradually decreasing in diameter downward, and connected to the induction pipe 113. It may be made of the penetrating connection portion 113b. In addition, the gas induction part 112 may be connected to the connection part 111a and the penetrating connection part 113b. The gas guide portion 112 includes: coupling legs 31a, 31b, 31c connected to the receiving housing 111; A valve engaging unit 32 engaged with the engaging legs 31a, 31b, 31c; And an injection connector 33 to which a tube for gas injection is connected. Three coupling legs 31a, 31b, and 31c may be formed up and down, and the second coupling leg 31b may have a function of connecting the injection connector 33 and the receiving housing 111 to enable gas flow. have. As such, by forming the first and third connection legs 31a and 31c above and below the second coupling leg 31b having a function of the connection pipe, the vibration of the induction housing 111 is prevented during the gas injection and discharge process. Make it structurally stable. As described above, the induction tip 214 formed at the end of the induction unit 21 may have a relatively greater elasticity than the induction cylinder 213. For example, the induction tip 214 may be made to have a thin thickness, such that the end of the induction tip 214 is pulled inward in the process of ejection of the immersion by making it thinner. Can be. In order to prevent this, the anti-rolling edge 215 may be formed at the end of the induction tip 214, and the anti-rolling edge 215 may have an edge shape having an end portion curled outward or a circular cross section. . In this way, the induction tip 214 is formed to gradually become thinner along the extension direction and has a curl prevention edge 215 formed at the end to prevent the leakage of gas and at the same time makes the insertion or discharge of the penetrating stable. To lose.

The gas guide unit 112 may be coupled to the receiving housing 111 in various structures and is not limited to the embodiments shown.

The trocar with improved handling structure according to the present invention has an advantage of being easy to handle because it consists of a plurality of ring structures stacked on top of each other. In addition, the trocar according to the present invention, the gas injection unit is formed integrally with the cannula so that the gas injection is stable while structurally simple.

Although the present invention has been described in detail above with reference to the presented embodiments, those skilled in the art may make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. . The invention is not limited by the invention as such variations and modifications but only by the claims appended hereto.

11: cannula unit 12: cover unit
13: sealed module 14: impregnation unit
21: induction unit 22: sealed unit
31a, 31b, 31c: mating legs
111: accommodating housing 112: gas induction unit
113: induction tube 121; Cover body
122: inlet tube 123: inlet
124a and 124b: fastening hole 141: penetrating head
143a, 143b: fixed protrusion 211: guide vane
122: stable unit 213: induction cylinder
214: induction tip 222: receiving tube
224: sealing cap 225: sealing inlet

Claims (3)

A cannula unit 11 in which the gas induction unit 112 is formed integrally;
A lid unit 12 coupled to the top of the cannula unit 11 and having at least one fastening hole 124a and 124b formed therein; And
A penetration unit 14 having fixing projections 143a and 143b coupled to the fastening holes 124a and 124b and a penetration head 141 in which a plurality of plate-shaped rings stacked on each other are disposed in a vertical direction,
The piercing head 141 is a first separation plate which is coupled to the center of one end of the piercing 14; A second separation plate separated from the first separation plate and disposed above, the second separation plate having a larger diameter than the first separation plate; And a plurality of separation plates that are gradually separated from each other and disposed to be separated from each other on the upper side of the second separation plate. The method according to claim 1, Arranged in the receiving housing 111 of the cannula unit (11), guide vanes (211); An induction cylinder 213 extending downward of the induction vane 211; And an induction unit 21 composed of an induction tip 214 extending in a conical shape from the induction cylinder 213, wherein the induction tip 214 has a greater elasticity than the induction cylinder 213. Trocar with improved structure. The trocar with improved handling structure according to claim 1, characterized in that the gas guide unit (112) is integrally coupled to the cannula unit (11) by three separate coupling legs (31a, 31b, 31c). .

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