KR20200051941A - A Medical Trocar Having a Injecting Hole - Google Patents

Abstract

The present invention relates to a medical trocar having a pressure-forming hole. Particularly, the present invention relates to a medical trocar having a pressure-forming hole, which prevents damage by injecting gas into the tip of a penetrating needle inserted into the human body. The medical trocar having the pressure-forming hole includes: a penetrating module (10) having a hollow tubular-shaped penetrating needle (12); a cannula module (30) into which the penetrating module (10) is inserted; and at least one pressure-forming hole (14) formed in a conical-shaped penetrating needle tip (121) forming an end portion of the penetrating needle (12).

Description

A Medical Trocar Having a Injecting Hole

The present invention relates to a medical trocar having a pressure-forming hole, and more particularly, to a medical trocar having a pressure-forming hole that prevents damage by injecting gas into the tip of a penetrating into the human body.

Trocars consisting 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 the elastic member in the process of injecting or withdrawing surgical tools having different sizes to maintain airtightness and prevent gas leakage. Various surgical instruments, such as penetrating, may enter and exit the human body through the trocar, and a gas such as carbon dioxide may be injected into the human body. It is advantageous to avoid contact with the periphery of the injection site while reducing the contact pressure of the penetrating during the process of introducing the penetrating into the body. 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

An object of the present invention is to provide a medical trocar having a pressure-forming hole that prevents interference at the same time as the contact pressure of the penetrating is reduced while gas is injected in the process of introducing the trocar into the human body.

According to a preferred embodiment of the present invention, a medical trocar having a pressure-forming hole includes: a penetration module having a hollow tube-shaped penetration; A cannula module into which a penetrating module is inserted; And at least one pressure-forming hole formed in a cone-shaped penetrating tip forming an end portion of the penetrating.

According to another suitable embodiment of the present invention, the sealing module further comprises an induction film formed into a fallopian tube shape by a plurality of wings.

According to another suitable embodiment of the present invention, a limiting tip is formed in the pressure forming hole to allow gas to be directed downward.

In the medical trocar having a pressure forming hole according to the present invention, a pressure forming hole is formed at an end portion of the penetrating needle, so that the contact pressure to the inside of the human body is reduced during the injection process of the trocar or penetrating, and at the same time, interference of the peripheral part is prevented. do. In addition, the medical trocar according to the present invention has an improved sealing function so that gas or odor is prevented from leaking upwards of the trocar.

Figure 1 shows an embodiment of a medical trocar with a pressure-forming hole according to the present invention.
Figure 2 shows an embodiment of a closed structure applied to a medical trocar according to the present invention.
Figure 3 shows an embodiment of a sealed cap applied to a medical trocar according to the present invention.
Figure 4 shows another embodiment of a medical trocar 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.

Figure 1 shows an embodiment of a medical trocar with a pressure-forming hole according to the present invention.

Referring to FIG. 1, a medical trocar having a pressure forming hole includes: a penetrating module 10 having a hollow tube-shaped penetrating 12; A penetrating module 10 into which a cannula module 30 is inserted; And at least one pressure-forming hole 14 formed in a conical-shaped penetrating tip 121 forming an end portion of the penetrating 12.

The penetrating module 10 includes a penetrating head 11; And it may include a penetrating (12) extending downward of the penetrating head (11). The penetrating head 11 may have a hemispherical shape as a whole, and may include an inlet hole 111 formed in an upper portion, and the inlet hole 111 may form an inlet of an induction path connected to the inside of the penetrating 12. The penetrating head 11 may have various structures that can be coupled to the top of the sealing module 20. The penetrating 12 may be a hollow tube structure, and may be made of a transparent material. A cone-shaped penetrating tip 121 may be formed at an end portion of the penetrating machine 12, and optionally at least one through hole 13_1 to 13_K may be formed along the path of the penetrating machine 12. In addition, at least one pressure forming hole 14 may be formed in the penetrating tip 121, and the pressure forming hole 14 may be made of a structure penetrating the penetrating tip 121. The pressure forming hole 14 allows the air injected into the penetrating 12 to be discharged to the outside, thereby reducing the contact pressure of the penetrating tip 121 to the human body. The penetrating tip 121 may be in contact with the human body in the process of introducing trocar into the human body, and the peripheral portion of the penetrating tip 121 may be expanded by a gas such as carbon dioxide injected through the pressure forming hole 14. have. This prevents the interference of the surrounding portion with respect to the penetrating 12, so that the contact pressure of the penetrating tip 121 is reduced. The pressure forming hole 14 may be formed so that the injected gas is directed downward, and the injection level of the gas can be appropriately adjusted according to the internal pressure.

The sealing module 20 may be coupled to the top of the cannula module 30, and the penetrating module 10 may be coupled to the top of the sealing module 20. The sealing module 20 includes a sealing body 21 coupled to the top of the cannula module 30; And an induction unit 22 formed inside the sealed body 21. And the cannula module 30 includes a cannula body 31 that is coupled to a closed body 21; A guiding tube 32 formed under the cannula body 31 to guide the penetrating 12; And an injection unit 33 for injection of gas. In addition, a sealing cap 34 may be disposed inside the cannula body 31 to prevent backflow of gas or odor. The guiding tube 32 may have a hollow tube shape, and the penetrating 12 may be inserted into the guiding tube 32 to be guided. When trocar is introduced into the human body, the penetrating module 12 may be guided, and when the guide tube 32 is guided to a predetermined position inside the human body, the penetrating module 12 is removed, and various surgical tools can guide the guide tube 32. Through it, it can be injected into the human body to allow the surgery to proceed. The sealing module 20 or the cannula module 30 may be made of various structures and is not limited to the presented embodiment.

Figure 2 shows an embodiment of a closed structure applied to a medical trocar according to the present invention.

Referring to FIG. 2, the sealing module 20 includes an induction membrane 23 made of a fallopian tube shape by a plurality of wings. The induction membrane 23 may function to seal the circumferential surface of a penetrating or other medical tool guided therein. The sealing module 20 may have a function of sealing the periphery of the penetrating or medical device that is introduced into the human body. The induction unit 22 may be formed in the closed body 21, the induction unit 22 may be a disk shape having an inclined surface, and an induction hole may be formed in the central portion. An induction film 23 may be formed in the induction hole, and the induction film 23 may be formed of a plurality of sub-wings. The plurality of sub-wings may be in a shape of a fallopian tube as a part of which is disposed to overlap with each other, and a central hole 24 may be formed at an apex. The induction film 23 may be made of a water repellent material, for example, an elastomer material, a rubber material, a silicon material, or a similar material. The fixing plate 25 may be coupled to the lower portion of the sealing body 21, and the induction membrane 23 and the cleaning tube 26 may be stably fixed to the inside of the sealing body 21 by the fixing plate 25. You can. Specifically, the edge portions of the induction membrane 23 and the cleaning tube 26 may have a flat shape, and the induction membrane 23 and the cleaning tube 26 are fixed by the edge portions being fixed by the fixing plate 25. It can be stably fixed to the interior of the closed body (21). The cleaning tube 26 may have a shape in which the lower and upper surfaces are opened as a whole, and the lower surface may form a contact border extending toward the inside. The cleaning tube 26 may be made of a highly elastic material, and the contact rim may be formed with a relatively thin thickness. After being inserted into the trocar by the cleaning tube 26, adhesives such as blood adhered to the penetrating or medical device, which is discharged again, may be removed.

The sealing module 20 may be made of various structures and is not limited to the presented embodiment.

3 shows an embodiment of the sealing cap 34 applied to the medical trocar according to the present invention.

Referring to FIG. 3, the sealing cap 34 includes a cap body 41 having a sealing blade 43 formed at a lower portion and a fixing frame formed at an upper portion of the cap body 41 when the upper portion becomes a hollow cylinder shape. 42). 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 fixed rim 42 may be formed so that the guide portion 411 is formed at the upper end of the cap body 41. The sealing wings 43 may be formed at the lower portion of the cap body 41, and face each other. The viewing curved surfaces are convex in the directions facing each other, and the lower ends may be formed to approach each other. In addition, a linear contact portion 44 may be formed at end portions approaching each other, and the linear contact portion 44 may be bent at a different angle from the sealing blade 43. For example, the linear contact portion 44 can be bent at an angle of 60 to 70 degrees, preferably 80 to 90 degrees with respect to the horizontal direction. Linear protrusions 45a and 45b extending linearly downward in the inner surface of the sealing wings 43 facing each other may be formed. The linear protrusions 45a and 45b allow the shape of the sealing blades 43 to be maintained, and at the same time, to be quickly sealed after the penetrating or medical device is discharged. The linear protrusions 45a and 45b may be formed of two parts having different densities or thicknesses, and the intermediate part with respect to the extension direction may be formed to have a relatively large density compared to both parts. Through the above structure, the shape of the sealing blade 43 is stably maintained, so that the sealing is quickly performed. Optionally, a discharge hole 431 may be formed in an upper portion of the closed wing 43, and the discharge hole 431 may be linearly contacted by allowing gas to be quickly discharged to the outside during the deformation of the closed wing 43. The portion 44 is prevented from rolling up.

The sealing cap 34 can be made of various structures and is not limited to the presented embodiment.

Figure 4 shows another embodiment of a medical trocar according to the present invention.

Referring to FIG. 4, the trocar may be composed of an integrated cannula module 40 and a detachable penetrating module 50, and the sealing module described above may be coupled to the top of the cannula module 40. The gas inflow unit 47 may be formed integrally with the cannula body 46 on the side surface of the cannula body 46, and a non-slip rim 49 may be formed on the circumferential surface of the induction tube 48. . The non-slip rim 49 may have a structure in which a plurality of groove-shaped rims are continuously formed along the longitudinal direction. The penetrating module 50 may be formed of a penetrating head 51 and a penetrating 52 extending downwardly of the penetrating head 51, and at least one guide hole 53_1 to 53_K may be formed in the penetrating 52. have. In addition, a penetrating tip 521 may be formed at an end of the penetrating 52. In addition, a pressure forming hole 54 may be formed in the penetrating tip 521.

According to one embodiment of the present invention, a limiting tip 541 may be formed in the pressure forming hole 54 to guide the gas downward. As shown in the right side of FIG. 4, the pressure forming hole 54 may have an ellipse shape whose long axis is parallel to the extending direction of the penetrating tip 521. The gas discharged through the pressure forming hole 54 is advantageously guided downward, and a limiting tip 541 may be formed in the upper portion of the pressure forming hole 54 for induction of gas. The limiting tip 541 may be extended to form a large angle with respect to the extending angle of the penetrating tip 521, and the limiting tip 541 may guide the gas downward (AD).

The pressure forming hole 54 or the limiting tip 541 can be made of various structures and is not limited to the presented embodiment.

In the medical trocar having a pressure forming hole according to the present invention, a pressure forming hole is formed at an end portion of the penetrating needle, so that the contact pressure to the inside of the human body is reduced during the injection process of the trocar or penetrating, and at the same time, interference of the peripheral part is prevented. do. In addition, the medical trocar according to the present invention has an improved sealing function so that gas or odor is prevented from leaking upwards of the trocar.

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: penetrating module 11: penetrating head
12: penetration needle 13_1 to 13_K: through hole
14: pressure forming hole 20: sealing module
21: sealed body 22: induction unit
23: induction membrane 24: center hole
25: fixing plate 26: cleaning tube
30: cannula module 31: cannula body
32: induction tube 33: injection unit
34: sealing cap 40: canola module
41: cap body 42: fixed rim
43: sealing wing 44: linear contact
45a, 45b: linear projection 46: cannula body
47: gas inlet unit 48: induction tube
49: non-slip rim 50: penetrating module
51: penetrating head 52: penetrating
53_1 to 53_K: Induction hole 54: Pressure forming hole
111: inlet hole 121: penetrating tip
411: induction site 431: discharge hole
521: penetrating tip 541: limiting tip

Claims (3)

A penetration module 10 having a hollow tube-shaped penetration 12;
A penetrating module 10 into which a cannula module 30 is inserted; And
A medical trocar having a pressure forming hole including at least one pressure forming hole 14 formed in a cone-shaped penetrating tip 121 forming an end portion of the penetrating 12. The method according to claim 1, Medical trocar further comprising a sealing module 20 is formed with a guide film 23 made of a fallopian tube shape by a plurality of wings. The method according to claim 1, Medical trocar, characterized in that formed in the pressure forming hole (14) has a limiting tip (541) to guide the gas downward.

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