KR101198436B1 - separate exhaust type surgery instrument Guider - Google Patents

Abstract

The present invention relates to an independent exhaust surgical tool guider port, and a gas inlet for injecting a gas inlet and an abdominal inflation gas for entering the surgical tool is formed on the upper end of the port body, and after passing through the surgical hole, the abdominal wall A support ring body supporting the port body while being caught is provided at the lower end of the port body, and in the surgical tool guider port for guiding various surgical tools safely into the abdominal cavity, a gas discharge pipe is independently provided outside the port body. The front end portion of the gas discharge pipe is located in the abdominal cavity along with the support ring body in the abdominal cavity, so that the harmful gas generated during surgery is directly exhausted in the abdominal cavity through the gas discharge tube.
According to the present invention, the harmful gas generated in the abdominal cavity can be discharged more quickly and smoothly without disturbing the operation of the surgical tool.

Description

Separate exhaust type surgery instrument Guider

The present invention relates to a surgical tool guider port which is installed in the surgical hole of the patient during endoscopic surgery to guide various surgical tools into the abdominal cavity, in particular, while the gas discharge pipe is provided independently of the outside of the port body, the tip is positioned in the abdominal cavity The present invention relates to an independent exhaust type surgical tool guider port configured to directly exhaust the abdominal cavity so that harmful gases such as smog generated during surgery can be more easily discharged without interfering with the operation of the surgical tool.

In general, laparoscopic endoscopic surgery has been performed to minimize the incision of the skin and to quickly recover the patient, unlike conventional laparotomy.

Endoscopic surgery is a method of puncturing a small hole in the abdomen of a patient using a trocar insertion surgical instrument called a trocar, and inserting one or more trocars, and through the trocar, various surgical instruments such as forceps, resection instruments, organs The extraction outlet, the endoscope camera, and the like enter the surgical site in the abdominal cavity to perform various cholecystectomy, biliary stone removal, exudation protrusion, and general surgery.

Meanwhile, in recent years, endoscopic surgery is performed through one part of the navel to reduce scars remaining in the abdomen of the patient, and to avoid a large number of trocars and incisions as described above for the rapid recovery of the patient, and hardly scars remain. have.

Normally, if a hole for surgery is made in the navel of the human body, scars are not easily exposed on the appearance even if the wound is healed in the future recovery of the patient, and since it does not appear as a scar, endoscopy through one navel area is currently preferred.

For such a procedure, a surgical hole of 10 mm to 12 mm is made in the navel depending on the type of surgery, and a surgical tool guider port for safely entering various surgical tools into the abdominal cavity is installed in the surgical hole.

Such a conventional surgical tool guider port has been disclosed in various configurations, such as the applicant's Patent Nos. 10-1027546, 10-1027561, 10-1052644, etc., the conventional surgical tool guider port is a detailed configuration Although there is a difference in phase, basically, a plurality of tool inlets for entering various surgical instruments on the upper end of the port body, and a gas injection unit into which gas (for example, nitrogen) for inflating the abdomen of the patient is injected And, each of the gas discharge for discharging the harmful gas generated during the operation is provided, the lower end of the port body is made up of a configuration including a support ring for supporting the port body while hanging on the abdominal wall after passing through the surgical hole.

Among these, in particular, the reason why the gas discharge part is required is that when the flesh or blood vessels are burned during the operation, harmful gases such as smog are generated accordingly. This is because it is difficult to secure a smooth operation, and therefore, when harmful gas is generated during the surgical procedure, the harmful gas must be discharged quickly through the gas discharge unit.

By the way, all the conventional surgical tool guider port including the applicant's prior art, the gas discharge portion is configured with a gas injection portion at the top of the port body, the discharge of harmful gas quickly and smoothly There is a problem that is difficult to achieve.

That is, the harmful gas generated in the abdominal cavity rises through the inside of the port body and has a discharge path which is discharged through the gas discharge unit at the top, so that the discharge time is delayed, and therefore, the discharge of the harmful gas is difficult, and in particular, harmful gas discharge. Even during gas injection, the gas is continuously replenished to maintain ups and downs, and some of the injected gas is inevitably discharged directly through the gas discharge unit, and thus harmful gas toward the gas discharge unit. While the discharge flow of the hindered by the injected gas is a problem that is difficult to discharge the harmful gas smoothly.

The present invention is proposed to solve the above-mentioned conventional problems, an object of the present invention is that the harmful gas generated during surgery can be discharged directly in the abdominal cavity directly through the gas discharge pipe located independently of the outside without passing through the port body It is to provide an independent exhaust surgical guide guide port that can discharge the harmful gas generated in the abdominal cavity more quickly and smoothly without disturbing the operation of the surgical instruments.

As a problem solving means of the present invention for achieving the above object,

A tool inlet for entering the surgical tool and a gas injecting part for injecting the gas for abdominal expansion are formed at the upper end of the port body, and a support ring body for supporting the port body while being caught by the abdominal wall after passing through the surgical hole is formed in the port body. In the surgical tool guider port which is provided at the bottom, and safely guides various surgical tools into the abdominal cavity, the gas discharge pipe is provided independently of the outside of the port body, the distal end of the gas discharge pipe is coupled to the support ring body and the support ring body; In addition, the independent ventilated surgical tool guider port is disclosed to be disposed in the abdominal cavity through the surgical hole so that harmful gases generated during surgery are directly exhausted in the abdominal cavity through the gas discharge pipe.

Here, the tube insertion ring is formed on the outer surface of the support ring body, it can be configured to be fitted to the front end of the gas discharge pipe to the tube insertion ring.

In addition, a tube close groove is formed on the outer surface of the support ring body, the independent exhaust type surgical tool guider port, characterized in that the front end of the gas discharge pipe is attached to the tube close groove.

According to the independent exhaust surgical tool guider port of the present invention,

The harmful gas generated during the operation is discharged directly through the gas discharge pipe in the abdominal cavity without passing through the port body, so the harmful gas is discharged more quickly.

In addition, since the harmful gas is discharged in a path independent of the gas injected through the gas injection unit without passing through the port body, the harmful gas is smoothly discharged without being disturbed at all.

In addition, since the gas discharge pipe is independently located outside the port body there is an advantage that does not affect the operation of the surgical tool at all.

It is to be noted that, in addition to the effect specifically described above, a specific effect that can be easily derived and expected from the characteristic configuration of the present invention can also be included in the effect of the present invention.

1 is a view showing the independent exhaust surgical tool guider port according to an embodiment of the present invention,
2 is a view illustrating that the gas discharge pipe and the support ring is fixed,
Figure 3 is a use example illustrating a state of use of the independent exhaust surgical tool guider port according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the independent exhaust surgical tool guider port according to the present invention.

This embodiment is provided to more completely explain the present invention to those skilled in the art, and the shape, size, etc. of the elements in the drawings are exaggerated or reduced to emphasize a more clear description. It should be noted that.

In addition, in describing the embodiments, in the case where it is determined that the technical features of the present invention may be unnecessarily obscured as a matter already known to those skilled in the art, such as known functions or known configurations, the details of the embodiments will be described in detail. The description will be omitted.

1 to 3 is a view showing the independent exhaust surgical tool guider port 100 according to an embodiment of the present invention.

Referring to the above drawings, the independent exhaust type surgical tool guider port according to an embodiment of the present invention (100, hereinafter referred to as "guider port") is a urethane excellent in elasticity and durability as in the prior art as a basic configuration first The port body 10 may be formed of a sheet or the like.

And at the top of the port body 10 may be formed at least one or more tool entry portion 20 for guiding the various surgical tools such as scalpel, forceps, endoscope, etc. to enter the inside of the port body 10, In addition, a gas injection unit 30 into which gas for abdominal expansion (relief formation) of the patient is injected may also be formed.

In addition, the lower end of the port body 10 may be provided with a support ring body 40 for supporting the port body 10 by passing through the surgical hole of the patient when the guider port 100 is installed and then caught in the abdominal wall in the abdominal cavity. have.

However, the port body 10, the tool entry portion 20, the gas injection portion 30, the support ring 40 are all the applicant's registered patent Nos. 10-1027546, 10-1027561, 10- It is necessary to understand that the present embodiment and the above drawings employ only one example thereof for convenience of description as the components already disclosed in various ways such as 1052644 and the like.

Therefore, a more detailed description of the port body 10, the tool entry portion 20, the gas injection portion 30, the support ring body 40 will be omitted because it may unnecessarily obscure the nature of the present invention, It will be appreciated that it is possible to be made of various configurations and coupling relationships already known in the art without needing to be particularly limited to only the configurations shown in the figures.

Next, looking at the characteristic configuration of the present invention, the guider port 100 of the present invention includes a gas discharge pipe 50 provided independently of the outside of the port body (10).

The gas discharge pipe 50 is a tube for discharging harmful gas such as smog generated in the abdominal cavity during endoscope surgery, and is provided independently of the port body 10 as described above, but is harmful gas in the abdominal cavity. The front end portion is configured to enter the abdominal cavity after passing through the surgical hole with the support ring 40 so as to be directly discharged.

In this way, the front end of the gas discharge tube 50 together with the support ring body 40 through the surgical hole to be located in the abdominal cavity can be variously coupled to the front end of the gas discharge tube 50 and the support ring body 40, first the gas The front end of the discharge pipe 50 can be directly attached to the support ring body 40 to be fixed.

In this case, as shown in FIG. 2, the tube close groove 41 is formed on the outer surface of the support ring body 40 to facilitate the attachment of the gas discharge pipe 50, and the gas discharge pipe ( It is also possible to attach and fix the tip of 50) closely.

In addition, as shown in Figure 1, it is also possible to form a tube insertion ring 42 on the outer surface of the support ring body, the front end of the gas discharge pipe 50 is fitted to the tube insertion ring 42. .

When the pipe insertion ring 42 is formed in the support ring body 40, both fixed and non-fixed methods are possible, that is, the pipe insertion ring 42 and the gas discharge pipe (with the pipe insertion ring 42 fitted). 50 may be configured to be fixed by attaching the front end portion, or may be configured so that the front end portion of the gas discharge pipe 50 may be simply inserted into the pipe insertion ring 42 without being fixed.

Here, in the latter case (that is, the non-fixed method) is to enable the gas discharge pipe 50 to be separated from the support ring body 40 as necessary, even if not attached and fixed, the support ring body 40 when passing through the surgical hole. ), The tube insertion ring 42 firmly holds the distal end of the gas discharge pipe 50, so that the gas discharge pipe 40 is not detached from the tube insertion ring 42 without opening the surgical hole together with the support ring 40. Passage can be easily entered into the abdominal cavity.

On the other hand, the other end of the gas discharge pipe 50 may be provided with an opening and closing valve 51 for opening and closing the gas discharge, this opening and closing valve 51 is known in the prior art various configurations, various configurations known without particular limitation It is possible to employ.

When the configuration according to an embodiment of the present invention has been described above, the operation of the guider port 100 according to an embodiment of the present invention will be described with reference to FIG. 3.

First, the front end portion of the gas discharge pipe 50 provided independently is fitted to the pipe insertion ring 42 of the support ring body 40. Of course, in the case of the fixed method, the front end of the gas discharge pipe 50 is already fixed to the support ring body 40, so it will be understood that the fitting process is unnecessary.

Then, after folding or folding the support ring body 40, it enters the abdominal cavity through the surgical hole of the patient. At this time, the leading end of the gas discharge tube 50 together with the support ring 40 also enters the abdominal cavity through the surgical hole.

Then, the entering support ring 40 is caught through the abdominal wall while restoring to its original state (ie, annular state) by its elastic force after passing completely through the surgical hole, and with this, the gas discharge pipe 50 The tip of the is also positioned in the abdominal cavity with the support ring body 40.

When the installation of the support ring 40 and the gas discharge pipe 50 is completed into the abdominal cavity, the gas for abdominal expansion is introduced through the gas injection unit 30 in the same manner as in the usual surgical method (relief formation). Through the tool inlet 20, various surgical tools (not shown) such as forceps and endoscope enter the abdomen and proceed to endoscopy.

Here, in the process of performing the endoscope surgery through the entry of a variety of surgical tools, the gas discharge pipe 50 is in a state that is independently positioned outside the port body 10 through the abdominal cavity through the inside of the port body 10 It can be seen that there is no effect on the operation of the surgical instruments entered into.

On the other hand, if harmful gas is generated in the abdominal cavity by the operation such as burning the flesh or blood vessels during the operation, the opening and closing valve 51 of the gas discharge pipe 50 may be opened to discharge the harmful gas.

Then, the generated noxious gas is discharged directly through the gas discharge pipe 50 which has entered the abdominal cavity, and accordingly, the noxious gas is smoothly and quickly regardless of the gas being injected and replenished into the gas injection unit 30. It can be seen that the exhaust of.

After the rapid exhaust of the noxious gas, the closing valve 51 is closed again, and then the same operation may be continued.

As described above, according to the independent exhaust surgical tool guider port of the present invention, since the gas discharge pipe is independently provided on the outside of the port body, the distal end thereof is positioned in the abdominal cavity, and thus does not adversely affect the operation of the surgical tool. It can be seen that the gas can be discharged quickly and smoothly.

As mentioned above, preferred embodiments of the present invention have been described, but the technical scope of the present invention is not limited to the above-described embodiments and drawings, and is modified or changed by those skilled in the art. Equivalent configuration will be made without departing from the scope of the technical idea of the present invention.

Claims (3)

A tool inlet for entering the surgical tool and a gas injecting part for injecting the gas for abdominal expansion are formed at the upper end of the port body, and a support ring body for supporting the port body while being caught by the abdominal wall after passing through the surgical hole is formed in the port body. In the surgical tool guider port which is provided at the bottom, and safely guides various surgical tools into the abdominal cavity,
A gas discharge pipe is provided outside the port body independently, and the distal end of the gas discharge pipe is coupled to the support ring body to be positioned in the abdominal cavity through the surgery hole together with the support ring body, so that the noxious gas generated during the operation is discharged from the gas discharge pipe. The independent exhaust surgical tool guider port, characterized in that the exhaust through the abdominal cavity directly. The method of claim 1,
A tube insertion ring is formed on the outer surface of the support ring body, and the independent exhaust type surgical tool guider port, characterized in that the tip of the gas discharge tube is fitted to the tube insertion ring. The method of claim 1,
An independent exhaust type surgical tool guider port is formed on the outer surface of the support ring body, the front end of the gas discharge pipe is fixed to the tube contact groove attached.

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