KR101027728B1 - Multi-sealing - Google Patents

Abstract

PURPOSE: A multi sealing is provided to use a surgical instrument, which has at least two diameters, in one sealing, thereby increasing convenience during surgery. CONSTITUTION: A multi sealing is composed of the main body(10), an operator(20), a check valve(30), a first sealing part(40), a second sealing part(50). The diameter of a through hole(50a) of the second sealing part is smaller than the diameter of a through hole(40a) of the first sealing part. The first and second sealing parts are made of flexible materials to be closely attached to the outer circumference of a surgical instrument. Air passes the check valve in one way. The operator elevates along with the main body. The operator includes a pipe(23), a mounting ring(22), and a cap(21).

Description

Multi-sealing {MULTI-SEALING}

The present invention relates to a seal used by being mounted on a trocar,

More specifically, by overcoming the limitations of the existing sealing, in which only one surgical instrument is inserted and used in one sealing, it is possible to use two or more surgical instruments having different diameters even with one sealing. It was made possible by the simple operation of the operator,

Finally, the present invention relates to a multi-sealing that improves convenience during surgery.

Laparoscopic surgery is a method of drilling a small hole in the abdomen of the patient and observing the inside of the abdominal cavity through the hole, and is widely used for gallbladder resection, appendectomy, stone removal, and general surgery.

Laparoscopic surgery requires at least three surgical instruments. The first is a laparoscopic forcep to hold tissue during surgery, the second is an endoscope for the doctor to observe the inside of the abdominal cavity, and the third is a therapeutic device (eg, a laser generator, an ultrasound generator) to directly treat the affected part of the patient. , Cutters, etc.).

Therefore, conventionally, a plurality of holes are drilled in the abdomen of the patient, a trocar is inserted into each hole, and a surgical instrument such as an endoscope, a gas injector, a laser generator, a cutter, etc. is inserted into each trocar in a one-to-one manner. Most of the time.

In other words, the conventional trocar has a structure in which only one surgical instrument is inserted through a trocar, so for laparoscopic surgery, several holes must be drilled in the abdomen of the patient, which damages the skin of the patient. The use of a dog trocar is costly to the patient.

In order to solve this problem, the present applicant has a Republic of Korea Patent No. 10-913743 (2009.08.18.) "Multi-channel trocar", Patent No. 10-909672 (2009.07.21.) Having a removable sealing member Multichannel Trocar has proposed a multi-channel trocar with multiple seals in one trocar.

The applicant's registered patents suggest a structure in which two or more seals are mounted on a single trocar with a concept of a trocar combined with a wheelie tractor to minimize the incision site of the patient and at the same time use a small number of trocars. Therefore, the technology was effective in reducing the cost burden of the patient.

However, the registered patent is also possible to use only one surgical instrument in one seal, so when it is necessary to use a surgical instrument having a different diameter in one trocar to find the part that is fitted with a seal that fits the diameter of the surgical instrument It is a hassle to work.

In other words, the diameter of surgical instruments used for laparoscopic surgery is divided into three types, including surgical instruments having a diameter of 5mm and surgical instruments having a diameter of 10mm and 12mm. Therefore, according to the applicant's registered patent, it is possible to minimize the incision site for laparoscopic surgery, but if it is necessary to change the surgical instrument having a 5mm diameter to a surgical instrument having a 12mm diameter, the sealing remains to change or replace the sealing itself. If not, there is a problem that the trocar should be inserted by making an incision in another site.

Therefore, US Patent No. 7,390,317 of Applied Medical Resources Corporation has been proposed.

In other words, US7,390,317 can be used for surgical instruments having various diameters from 3.5mm to 12.9mm in one seal, and even if surgical instruments with different diameters are needed during surgery, they can be used without replacement. have.

However, the US 7,390,317 is characterized in that the sealing of the hourglass (hourglass) in order to enable the use of surgical instruments having various diameters and made of a flexible material, but according to the shape of the hourglass made of a flexible material When inserting surgical instruments such as cutters, there was a problem that breakage of the seal occurs frequently.

As a single sealing is intended to apply to a variety of surgical instruments there is a limit that the sealing power falls.

Accordingly, an object of the present invention is to overcome the limitations of the conventional trocar as described above, and to provide a seal capable of inserting surgical instruments having different diameters in one seal.

That is, while installing the first and second sealing parts having insertion holes of different diameters in one seal, the second sealing part can be mounted as needed to solve the trouble of replacing the sealing or incision separately during surgery. It is an object to provide a sealing that can be.

Furthermore, the second sealing part can be sunk as needed, thereby solving the problem that the sealing is broken in the insertion of surgical instruments having various diameters.

An object of the present invention is to provide a sealing having a structure that can more easily and smoothly operate the second sealing part.

Multi-sealing of the present invention for solving the above problems,

main body;

An actuator descending along the main body;

A first sealing part provided in the actuator; And

And a second sealing part having a through hole having a diameter smaller than the through hole diameter of the first sealing part.

The second sealing part is characterized in that the indenting in accordance with the lifting and lowering of the actuator.

More specifically, the second sealing portion of the present invention

Rotating shaft mounted on the actuator.

It is made of a sealing plate that is connected to the rotational shaft is a sealing function,

When the actuator is lowered the sealing plate is rotated so that the second sealing portion is arranged in parallel with the first sealing portion under the first sealing portion,

The sealing plate is rotated when the actuator is lifted, characterized in that the second sealing portion is arranged in parallel with the inner surface of the actuator,

In addition, in the multi-sealing of the present invention, the insertion direction when the second sealing unit is mounted on the actuator for smooth appearance of the second sealing unit according to the lifting and lowering of the actuator is such that the sealing plate is arranged parallel to the inner surface of the actuator. Direction is a technical feature,

Technical features that the upper end of the main body is provided with a settled portion is placed on the sealing plate when the actuator descends.

According to the present invention multi-sealing having the above configuration, it is possible to use a surgical instrument having two or more diameters in one sealing has the effect of improving the convenience during surgery.

Moreover, the operator has an effect that the necessary sealing part can be selected only by simply lifting and lowering the actuator based on the main body.

In addition, in mounting the second sealing part to the actuator, the second sealing part is fixed to the actuator while the sealing plate is arranged inside the actuator, thereby ensuring a stable appearance of the second sealing part by the lifting and lowering operation of the actuator. Has the effect.

1 is a view showing a trocar to which the present invention is applied.
2 is a perspective view of a multi-sealing according to the present invention.
Figure 3 is an exploded perspective view of the multi-sealing according to the present invention.
4 is an operation of the multi-seal according to the invention.

Hereinafter, the multi-sealing of the present invention will be described in detail with reference to the accompanying drawings.

In FIG. 1, the multi-sealing (S) of the present invention is illustrated as being mounted on a trocar (T) forming a multi-channel.

It can of course be mounted on a single channel trocar,

Furthermore, the object to which the multi-sealing of the present invention is mounted is not limited to the trocar but can be mounted to all surgical tools requiring sealing.

Therefore, the "subject" referred to in the claims below is to be understood as a generic name for surgical instruments equipped with multi-seal, such as trocar.

As shown in Figures 1 to 3, the multi-sealing (S) of the present invention is

The main body 10 mounted on the trocar, that is, the actuator 20 which moves up and down along the main body, the check valve 30 provided inside the main body, and the first sealing part provided on the actuator 40 and a second sealing portion 50 having a through hole 50a of a smaller diameter than the through hole 40a formed in the first sealing portion.

The first sealing portion 40 provided at the upper portion of the actuator is inserted into a surgical instrument having a diameter of 10mm diameter of the through-hole 40a formed in the first sealing portion to enable a surgical operation is formed of about 8mm,

The second sealing part 50 positioned below the first sealing part has a diameter of the through hole 50a formed in the second sealing part so that a surgical instrument having a diameter of 5 mm can be inserted therein to enable operation. .

Of course, the diameter of the through-hole diameter can be configured to correspond to the size of the surgical instrument is inserted.

The first and second sealing parts are made soft so as to be in close contact with the outer circumferential surface of the surgical instrument to be inserted and sealed.

More specifically with reference to FIGS. 2 and 3,

The main body 10 is made of an outer tube 11 and the inner tube 12, the lower portion of the inner tube 12 is provided with a mounting portion 14 for mounting the multi-seal of the present invention in the trocar.

The structure of the mounting portion, that is, the manner in which the multi-sealing is mounted on the trocar may be variously considered, and a detailed description thereof will be omitted as it is not the gist of the present invention.

Next, the inner tube 11 is inserted into the outer shell 12 so that the main body 10 is constructed. The check valve 30 is mounted on the upper end of the inner tube 11 before insertion into the outer shell, and the check valve 30 is mounted. Inner state is inserted into the outer tube (12) to integrate.

As a method of integrating the inner tube and the exterior, conventional ultrasonic welding is considered.

And the check valve 30 is a configuration that is commonly employed in the art to enable only one way to communicate with the air, a detailed description thereof will be omitted.

Next look at the actuator 20 is inserted into the main body 10 configured as described above.

The actuator 20 of the present invention will be described later to be moved up and down along the main body 10, but the second sealing portion provided inside the actuator as the operator proceeds to raise or lower the actuator by holding the main body 50 appearances are made.

Therefore, the inner circumferential surface of the lower end of the actuator 20 is provided with a departure prevention step 231 for preventing the departure from the main body when the actuator is moved up and down from the main body 10,

Corresponding grooves 121 into which the departure prevention step 231 of the actuator is inserted are formed along the outer circumferential surface of the main body (see FIGS. 3 and 4 (b)).

The actuator 20 includes a tubular body 23 forming an outer circumferential surface of the actuator, a mounting ring body 22 coupled to an upper end of the tube body, and a cap 21 coupled to an upper end of the mounting ring body.

The tubular body 23 has a cylindrical shape, and a fastening plate part 24 for fastening with the mounting ring body 22 protrudes into the tubular body at the upper end of the tubular body.

First, a through hole 40a is formed at the upper end of the mounting ring body 22 so that the first sealing part 40 and the cap 21 formed in a ring shape are sequentially arranged, and then the mounting ring body and the cap are formed by ultrasonic welding. While being integrated, the first sealing part is mounted to the actuator.

Next, as described above, the mounting ring body 22 having the cap and the first sealing part is arranged in the fastening plate part 24 formed at the upper end of the tubular body, and the fastening plate part 24 and the mounting ring body 22 are also integrated by ultrasonic welding. Becomes

At this time, looking at the fastening plate portion, the fastening plate portion 24 is not formed continuously along the inner circumferential surface of the tube, it is a structure that is interrupted in a predetermined section to form the receiving portion 25 for mounting the second sealing portion (50). .

The second sealing portion 50 is different from the first sealing portion formed only in a ring shape.

It consists of a rotating shaft 51 mounted to the actuator and a sealing plate 52 connected to the rotating shaft to form a sealing function.

Therefore, the mounting groove 25 is formed at the end of the formation of the fastening plate part 24, that is, both ends of the fastening plate part, and both ends of the second sealing part pivot shaft 51 are inserted into the mounting groove. Mounting of the second sealing portion 50 to the (20) is made.

In particular, both ends of the rotation shaft 51 has a hook portion 53 is formed to protrude, and the insertion groove 27 for inserting and fixing the hook portion is also formed in the mounting groove further has a second to the actuator Secure seating of the seal is achieved.

As described above, the second sealing portion 50 is seated on the tubular body 23, and then the coupling plate 24 of the tubular body and the bottom surface of the mounting ring body 22 are coupled to each other, and ultrasonic welding is also used.

This completes the mounting of both the first and second sealing parts to the actuator.

In addition, when the second sealing unit 50 is described in more detail, the pivot shaft 51 and the sealing plate 52 constituting the second sealing unit are integrally formed of the same material as the material of the first sealing unit,

The rotation of the sealing plate 52 relative to the rotation shaft 51 means that the material characteristics are soft, and that the rotation shaft and the sealing plate are integrally formed, and that both ends of the rotation shaft are fixed in the mounting groove 26. Considering this, the sealing plate is rotated by an external force and the center of the rotating shaft is twisted about both ends of the rotating shaft.

Therefore, in the present invention, the insertion direction of the second sealing part when the second sealing part is mounted on the actuator for smooth rotation of the sealing plate 52 based on the rotating shaft 51 according to the lifting and lowering of the actuator 20. Important consideration should be given.

The insertion direction at the time of mounting the second sealing portion to the actuator is preferably a direction such that the sealing plate 52 is arranged in parallel with the inner surface of the actuator, that is, the tubular body 23, as shown in FIG. (That is, it is preferable to mount the second sealing portion to the actuator in a direction perpendicular to the mounting direction of the first sealing portion)

When the second sealing part is mounted in such an insertion direction, the sealing plate 52 is arranged in parallel with the inner surface of the tubular body 23 so that the basic mounting form of the second sealing part is performed.

Even if the sealing plate is rotated as the actuator descends, it is arranged under the first sealing part, that is, parallel to the first sealing part.

By the restoring force to return to the basic mounting form (ie, the sealing plate is rotated 90 degrees again and arranged parallel to the inner surface of the tube).

When the operator lifts the actuator 20 after completion of the use of the second sealing part, the sealing plate 52 is smoothly rotated so that the second sealing part 50 arranged under the first sealing part 40 disappears from view. .

And the main body, that is, the upper end of the outer surface 12, when the lowering of the actuator pushes the bottom of the sealing plate of the second sealing portion and is rotated after the settled portion 14 is formed for the bottom of the sealing plate is settled.

The settled portion 14 is preferably made of a shape corresponding to the sealing plate so that the second sealing portion 50 rotated and arranged in parallel with the first sealing portion 40 can be stably placed.

As a result, the sealing operation of the second sili portion for the surgical instrument to be inserted thereafter may also be stably performed.

Furthermore, to ensure that the lowered state of the actuator can be stably maintained when no external force is applied

On the outer circumferential surface of the top of the main body appearance 12, an annular groove 122 is formed along the outer circumferential surface,

It is preferable to form a round jaw 232 on the inner circumferential surface of the tubular body 23 of the actuator corresponding to the annular groove 122,

Such a stopper configuration is not limited to the annular groove and the annulus but may be implemented in various structures.

Hereinafter will be described with reference to Figure 4 the operation of the present invention multi-sealing configured as described above.

As shown in (a) of FIG. 4, when the actuator 20 overlaps the main body 10, that is, when the actuator is lowered, the second sealing portion 50 is disposed at the lower portion of the first sealing portion 40. Since it is located in parallel with the sealing portion 40, it is possible to use a surgical instrument having a diameter of 5mm that can penetrate to the second sealing portion.

After that, if it is necessary to replace the surgical instrument having a diameter of 10mm instead of 5mm, the operator simply lifts the actuator 20 around the main body, and the second sealing part 50 is arranged below the first sealing part 50. ) Disappears to enable the use of surgical instruments with a diameter of 10 mm.

That is, the second sealing part 50 arranged below the first sealing part disappears.

As a result of the lifting of the actuator, the supporting action of the settling portion 14, which pushes and supports the sealing plate 52 of the second sealing portion, disappears.

By the restoring force of the sealing plate 52 by the rotational shaft 51, the sealing plate of the 2nd sealing part arrange | positioned in parallel with the 1st sealing part rotates, and it arranges in parallel with the inner surface of a tubular body.

This enables the use of a 10 mm diameter surgical instrument without interference to the second sealing portion having a 3 mm through hole.

As a result, the operator can selectively use the first sealing part and the second sealing part in one sealing by simply moving the lifting member up and down.

In the above description of the present invention with reference to the accompanying drawings, a description of the "multi-sealing" having a specific shape and structure, the present invention can be variously modified and changed by those skilled in the art, such variations and modifications of the present invention It should be interpreted as being within the scope of protection.

T: Trocar S: Multiseal
10: main body 11: inner tube 12: appearance
13: mounting part 14: mounting part
20: actuator 21: cap 22: mounting ring
23: tube 24: fastening plate portion
25: receptacle 26; Mounting groove
27: Insertion groove
30: check valve
40: first sealing part
50: second sealing portion 51: rotating shaft 52: sealing plate
53: hanger

Claims (4)

main body;
An actuator descending along the main body;
A first sealing part provided in the actuator; And
And a second sealing part having a through hole having a diameter smaller than the through hole diameter of the first sealing part.
The second sealing unit is a multi-sealing, characterized in that indentation in accordance with the lifting and lowering of the actuator. The method of claim 1,
And a second shaft mounted on the actuator.
It is made of a sealing plate that is connected to the rotational shaft is a sealing function,
When the actuator is lowered the sealing plate is rotated so that the second sealing portion is arranged in parallel with the first sealing portion under the first sealing portion,
And the sealing plate is rotated when the actuator is lifted so that the second sealing part is arranged in parallel with the inner surface of the actuator. The method of claim 2,
In order to facilitate the appearance of the second sealing portion according to the lifting and lowering of the actuator, the insertion direction when the second sealing portion is mounted on the actuator is a direction in which the sealing plate is arranged in parallel with the inner surface of the actuator. shilling. The method of claim 2,
Multi-sealing characterized in that the upper end of the main body is provided with a settled portion is placed on the sealing plate when the actuator is lowered.

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