KR20180134660A - Gas filtering device for laparoscopic surgery - Google Patents

Abstract

The present invention relates to a gas filtering device for laparoscopic surgery, which can effectively suck in and remove surgical smoke generated during a laparoscopic operation and discharged through an exhaust tube of a trocar. In particular, the gas filtering device comprises: a closed body (110); a filtration unit (120) including a first filter (121), a second filter (122), and a third filter (123); and an exhaust pump (130) connected to an outlet (112) through a tube (131) to suck in gas inside the body (110).

Description

GAS FILTERING DEVICE FOR LAPAROSCOPIC SURGERY

The present invention relates to a gas filtering apparatus, and more particularly, to a gas filtering apparatus for laparoscopic surgery that can effectively absorb and remove smoke generated during laparoscopic surgery and discharged through an exhaust pipe of a trocar.

In recent surgeries, laparoscopic surgery is on the rise due to the fact that the laparotomy is unnecessary. These laparoscopic procedures are minimally invasive, have low risk of postoperative adhesions and infection at the surgical site, have a low pain and scar, have an extremely short recovery time as well as anesthesia and operation time, And returning is relatively fast, which is favored not only for physicians but also for patients.

However, these advantages are also caused by the use of lasers, lasers, ultrasonic cutters, etc., which are caused by the harmful gases (smoke) generated by the surgical instruments, such as visual disturbance, odor and numerous toxic chemicals, carbon monoxide, , Viable cells, etc., and it is known that the operating room medical staffs are exposed to these gases for many years for a long time, which increases infection and health risks .

In order to secure safety from such a harmful surgical smoke and to remove it, there has been developed and used a device and a filter which are connected to the exhaust pipe of the laparoscopic surgical trocar to remove the harmful gas discharged.

Currently, such laparoscopic surgical filters are all dependent on imports, and are configured to filter the harmful components of the gas discharged by the pressure of the inert gas injected into the body for laparoscopic surgery, so that when the pressure of the inert gas is not sufficient Not only the smooth gas discharge was not performed but also the residual gas leakage occurred at the removal of the trocar cap or at other sites.

In addition, there is a problem that the moisture contained in the gas discharged from the inside of the body coagulates in the tube due to the temperature difference between the inside and the outside of the body, and penetrates into the filter, thereby decreasing the filter efficiency and shortening the filter life.

Registered Patent Publication No. 10-0851844 (published on Aug. 13, 2008)

A Study on the Removal of Hazardous Gases during Operation of Laparoscopic Colorectal Cancer Using a Filter - embedded Trocar, Korea University Graduate School of Medicine, Doctoral Thesis, Kim, Seong - Ryong, 2016.01.08.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an apparatus and a method for removing toxic chemicals, viruses, Viable sells, and smells, thereby protecting the health from harmful factors such as a safe surgical environment and infection.

In accordance with another aspect of the present invention, there is provided a gas filtering apparatus for filtering a gas exhausted from a ventilator of a trocar for laparoscopic surgery, the apparatus comprising: a connection part, which is connected to the exhaust pipe on one side, A closed structure having a discharge port for discharging gas on the other side and a plurality of partitions for forming a flow path of the gas introduced into the inside; A first filter formed between the connecting portion and the partition to remove moisture in the gas, a second filter formed between the partition and the outlet to remove particulate matter in the gas, and a third filter having antibacterial and antiviral performance A filtration part; An exhaust pump connected to the exhaust port through a tube and sucking gas inside the body; .

Preferably, the first filter is made of a superabsorbent polymer, the second filter is made of an activated carbon fiber sheet, and the third filter is made of a meltblown sheet.

The filtration unit may include a fourth filter formed of a modified cross-section yarn formed together with the first filter to improve shape and hygroscopicity of the first filter, and a fourth filter formed between the second filter and the third filter, And a fifth filter composed of a first filter and a second filter.

Further, the filtering unit may further include moisture detecting means formed together with the first filter and discolored according to moisture absorption, and the body may further include a display unit configured to detect whether the moisture sensing unit is discolored from the outside have.

The controller may further include a sensor unit formed inside the body for sensing a pressure and a control unit for controlling driving of the exhaust pump according to the detection result of the sensor unit.

Through the present invention, it is possible to effectively protect the health of the patient and the medical practitioner through the removal of harmful gas generated during laparoscopic surgery, and reduce the visual field due to the generated smoke.

In addition, the modular structure of the filter body allows easy replacement even during an operation if necessary, and effective gas leakage prevention and removal of residual gas can be achieved by driving the exhaust pump.

In addition, it is possible to easily determine the state of water absorption and judge whether or not to replace it.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a conceptual diagram showing a configuration according to a preferred embodiment of the present invention; Fig.
2 is a cross-sectional view illustrating a body structure according to a preferred embodiment of the present invention,
3 is a cross-sectional view illustrating a body structure according to another embodiment of the present invention,
FIG. 4 is a conceptual view showing a state in accordance with another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the structure of a gas filtering apparatus for laparoscopic surgery of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conceptual view illustrating a preferred embodiment of the present invention, and FIG. 2 is a cross-sectional view illustrating a body structure according to a preferred embodiment of the present invention.

The present invention is basically attached to the side of the exhaust pipe 210 of the trocar 200 used in laparoscopic surgery. That is, various kinds of harmful substances contained in the gas are removed by filtering the gas generated in the user's body during laparoscopic surgery and discharged through the trocar 200. The present invention can be applied to various trocar-shaped needles having an exhaust pipe formed therein. The structure of the trocar-cap 200 is obvious to those skilled in the art, and a detailed description thereof will be omitted in order to prevent blurring of the gist of the present invention.

In the preferred embodiment of the present invention, the body 110 having the filtering unit 120 therein and the gas removing efficiency (efficiency) An exhaust pump 130 is provided.

The body 110 has a hermetically sealed structure and has a built-in filtration unit 120 to remove harmful components from the gas passing through the body 110. A connection portion 111 through which the gas is introduced by being coupled to the exhaust pipe 210 on one side, and a discharge port 112 for discharging the gas are formed on the other side. The upper and lower connecting portions 111 are configured to be removable from the exhaust pipe 210 of the trocar 200 so that they can be replaced if necessary. Since the valves are installed in the normal exhaust pipe 210, Replacement can be made.

For this, the connecting portion 111 may be made of resin having elasticity, such as rubber or silicone, and may be inserted and fixed to the exhaust pipe 210, or may be constructed so that the connecting portion 111 is inserted into the exhaust pipe 210, Type clamp or the like may be provided.

A plurality of partition walls 113 are formed on the inside of the body 110 to form a flow path for the gas flowing through the connection portion 111. As described above, the gas discharged from the user's body basically contains moisture. When the water is absorbed by the filtration unit 120, the efficiency is lowered. Therefore, the connection unit 111 is disposed below the body 110, The discharge port 112 is formed on the upper side of the body 110. The partition 113 is formed in a horizontal direction so as to reduce the upward movement of the condensed water, .

The filtration unit 120 is configured to filter various harmful substances contained in the gas passing through the body and basically to filter the harmful substances in the gas in front of the discharge port 112 above the partition 113 do.

As described above, the first filter 121 is formed between the connection part 111 and the partition wall 113 to remove moisture in the gas to prevent a decrease in filtration efficiency due to moisture, And a discharge port 112 for removing particle components in the gas, and a third filter 123 having antimicrobial and antiviral properties.

At this time, the first filter 121 is made of a super absorbent polymer. In the present invention, a superabsorbent resin is a polymer material capable of absorbing moisture of tens or hundreds of folds of its own weight, and is a polymer having a three-dimensional network structure and having a large amount of hydrophilic groups and absorbing a large amount of a solution Means a substance that can be made.

When the superabsorbent resin constituting the first filter 121 absorbs moisture in the gas, it swells up to a gel shape. The basic principle is absorbed by fine pores existing on the surface of the super absorbent and hydrophilic resin forming the filter fiber. As the water penetrates between the network structures such as the thread is entangled, it absorbs moisture Starch, starch, cellulosic, and synthetic polymer, which is synthesized with a polymer resin made by refining petroleum in a factory, which can be used in corn or the like.

The second filter 122 is formed of an activated carbon fiber sheet to remove harmful substances and to remove bad odors as well as a far infrared ray and an anion emission effect. The third filter 123 is a HEPA filter type formed by a meltblown method And the fine particles having a size of 1.2 to 1.7 mu m are filtered.

Particularly, the third filter 123 is a filter having a filtering efficiency of up to 99.9999% and a water-repellent function. The filter may be composed of glass fiber, thermoplastic fiber, resin, or the like.

The exhaust pump 130 is connected to the discharge port 112 through a tube 131 and is configured to receive a gas inside the body 110. Conventional laparoscopic smoke removal filters use a natural ventilation method through the pressure of an inert gas injected into the body for laparoscopic surgery. Generally, when the pressure is low, the gas can not be completely discharged and the residual gas is discharged without filtration I could not help it. In the present invention, even if the gas discharge pressure is insufficient through the exhaust pump 130 capable of sucking air, the residual gas can be completely discharged and filtered.

FIG. 3 is a cross-sectional view illustrating a body structure according to another embodiment of the present invention, and FIG. 4 is a conceptual view illustrating another embodiment of the present invention. The other embodiments of the present invention are based on the above-described preferred embodiments, and have a convenience structure such as to increase the filtration efficiency and to easily confirm the replacement cycle, and in order to prevent blurring of the gist of the present invention, The detailed description will be omitted.

In another embodiment of the present invention, the filtration unit 120 includes a fourth filter 124 formed of a deformed cross-section formed together with the first filter 121 to improve shape and hygroscopicity of the first filter 121, And a fifth filter 125 formed between the second filter 122 and the third filter 123 and made of fiber containing loess.

The deformed cross section yarns constituting the fourth filter 124 are yarns in which the state of the yarn cross section is changed by changing the shape of the nozzle used for spinning the synthetic fibers from a normal circle to a triangle or a cross, As a result, the first filter 121 catches the shape even when absorbing water and compensates for hygroscopicity.

The loess soil constituting the fifth filter 125 has an enzyme component and a far-infrared ray effect. The yellow loess enzyme contains four components of catalase, diphenol oxidase, saccharase and protease, And so on.

In the present invention, since the lowering of the water absorption efficiency of the first filter 121 leads to the lowering of the filtration performance of the filtration unit, when the first filter 121 absorbs moisture to a certain level, 110) to replace it.

For this purpose, the body 110 may further include a transparent window-type display unit 114 for confirming the state of the first filter 121 from the outside. In order to more clearly confirm the water absorption state, The filtration unit 120 further includes a moisture sensing unit 126 formed together with the first filter 121 and discolored in accordance with the absorption of moisture, and the discoloration of the moisture sensing unit 126 through the display unit 114 It can be configured so that it can be confirmed from the outside.

The level sensing means 126 constitutes a moisture sensing means through a moisture sensor capable of electronically sensing moisture by the same principle as the chemical substance which is discolored due to the contact of moisture, And light emitting means for emitting light in accordance with the detection result of the moisture sensing means.

In order to efficiently operate the exhaust pump 130, a sensor unit 115 for sensing the pressure inside the body is installed, and control means 132 for controlling driving of the exhaust pump in accordance with the detection result of the sensor unit ). ≪ / RTI >

In other words, since the exhaust pump 130 is operated at a set pressure range according to circumstances other than the normal operation, unnecessary power consumption can be prevented, and unnecessary excessive suction pressure can be applied to the trocar 200 or the filter 120 .

It is to be understood that the invention is not limited to the disclosed embodiment, but is capable of many modifications and variations within the scope of the appended claims. It is self-evident.

110: body 111:
112: exhaust port 113:
114: display portion 115; The sensor unit
120: filtration unit 121: first filter
122: second filter 123: third filter
124: fourth filter 125: fifth filter
126: Moisture sensing means 130: Exhaust pump
131: tube 132: control means
200: trocar 210: exhaust pipe

Claims (5)

1. A gas filtering apparatus for filtering gas exhausted from an exhaust pipe (210) of a trocar cap (200) for laparoscopic surgery,
A connection part 111 which is connected to the exhaust pipe 210 at one side to allow the gas to flow into the exhaust pipe 210 and a discharge port 112 for discharging the gas are formed at the other side of the exhaust pipe 210, A body 110 of a closed structure having a plurality of partition walls 113 which are formed in the body 110;
A first filter 121 formed between the connection part 111 and the partition 113 to remove moisture in the gas and a second filter 121 formed between the partition 113 and the discharge port 112 to remove particles in the gas, 2 filter 122 and a third filter 123 having antibacterial and antiviral performance;
An exhaust pump 130 connected to the discharge port 112 through a tube 131 and sucking gas inside the body 110; Wherein the laparoscopic surgical gas filtering apparatus comprises:
The method according to claim 1,
The first filter 121 is made of a super absorbent polymer,
The second filter 122 is made of an activated carbon fiber sheet,
Wherein the third filter (123) is made of a meltblown sheet.
3. The method of claim 2,
The filtration unit 120 includes a fourth filter 124 formed of a deformed cross-section formed together with the first filter 121 to improve the shape and hygroscopicity of the first filter 121, And a fifth filter (125) formed between the third filter (123) and a fiber containing loess.
The method according to claim 1,
The filtration unit 120 may further include moisture sensing means 126 formed together with the first filter 121 to be discolored according to moisture absorption,
Wherein the body (110) further comprises a display unit (114) formed to detect whether the moisture sensing unit is discolored or not from the outside.
The method according to claim 1,
A sensor unit 115 formed inside the body 110 to sense pressure and a control unit 132 for controlling driving of the exhaust pump 130 according to the detection result of the sensor unit 115 Wherein the laparoscopic surgical gas filtering apparatus comprises:

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