KR102062384B1 - Gas filtering device for laparoscopic surgery - Google Patents

Abstract

The present invention relates to a gas filtration device for laparoscopic surgery that occurs during laparoscopic surgery and can effectively inhale and remove the smoke emitted through the exhaust pipe of the trocar.

Description

Laparoscopic Gas Filters {GAS FILTERING DEVICE FOR LAPAROSCOPIC SURGERY}

The present invention relates to a gas filtration device, and more particularly, to a laparoscopic gas filtration device that can be effectively inhaled and removed Surgical smoke generated during laparoscopic surgery and discharged through the exhaust pipe of the trocar.

Laparoscopic surgery is on the rise in recent years because of the avoidance of laparotomy, which cuts the skin of the surgical site more than necessary. Laparoscopic surgery has a low risk of postoperative adhesions and infections, minimizing the incision site, pain and scarring, anesthesia and surgery time as well as a very short recovery time. It is preferred by patients as well as doctors because it has the advantage of relatively quick return.

However, these advantages also include visual disturbances due to smoke generated from surgical instruments such as lasers, electric cauterizers, and ultrasonic cutters used in laparoscopic surgery, irritating odors and numerous harmful chemicals, carbon monoxide, carbon dioxide, and viruses. It is known that patients and medical staff in operating rooms may be exposed to chemical and pathologically harmful particles such as viable cells, and viable cells. .

As a means for ensuring safety and eliminating safety from such harmful surgical smoke is required, devices and filters are already developed and used to remove harmful gases emitted by the exhaust pipe of a laparoscopy surgical trocar.

Currently, all of these laparoscopy filters are import-dependent, and are configured to filter out harmful components of the gas discharged by the pressure of the inert gas injected into the body for laparoscopy, so that the pressure of the inert gas is insufficient. Not only did the gas not flow smoothly, but there were also cases where residual gas leakage occurred at removal of trocars and at other sites.

In addition, the moisture contained in the gas discharged from the inside of the body condenses in the tube due to the temperature difference between the inside and the outside of the body has a problem that the filter efficiency decreases and filter life is shortened as it penetrates the filter.

Patent Application Publication No. 10-0851844 (August 13, 2008)

A Study on the Removal of Hazardous Gases During Laparoscopic Rectal Cancer Surgery Using Filter-embedded Trocar, Doctoral Thesis, Graduate School of Korea University, Kim, Se-Ryong, 2016.01.08.

The present invention was created in order to solve the above problems, the object of the present invention is removable on the exhaust pipe side of the trocar and the gas can be sucked through the exhaust pump, along with the moisture in the gas, harmful chemicals, viruses, Viable It is to provide a laparoscopic gas filtration device that effectively removes sells and odors and protects health from harmful factors such as a safe surgical environment and infection.

In order to achieve the above object, the present invention provides a gas filtration device for filtering a gas discharged by being coupled to an exhaust pipe side of a trocar for laparoscopic surgery, and a connection part detachably attached to the exhaust pipe by introducing gas into one side of the exhaust pipe; A body of a closed structure having a discharge port for discharging gas on the other side and having a plurality of partition walls forming a flow path of gas introduced into the gas; A first filter formed between the connection part and the partition wall to remove moisture from the gas, a second filter formed between the partition wall and the outlet to remove particle components from the gas and a third filter having antibacterial and antiviral performance Filtration unit; An exhaust pump connected to the outlet through a tube and sucking gas inside the body; Characterized in that consists of.

In this case, the first filter is made of a super absorbent polymer (Super Absorbtion Polymer), the second filter is made of an activated carbon fiber sheet, the third filter is preferably made of a melt blown sheet.

In addition, the filtration unit is formed together with the first filter and the fourth filter made of a sectional cross-section yarn to improve the shape retention and hygroscopicity of the first filter, and the fiber is formed between the second filter and the third filter and containing ocher It is preferable to further comprise a fifth filter consisting of.

The filtration unit may further include a water detection unit formed together with the first filter and discolored according to water absorption. The body may further include a display unit configured to determine whether the water detection unit is discolored from the outside. have.

The apparatus may further include a sensor unit formed inside the body and configured to sense pressure, and control means for controlling the driving of the exhaust pump according to the sensing result of the sensor unit.

Through the present invention, the health of the patient and the medical practitioner through the removal of harmful gas generated during laparoscopic surgery can be effectively reduced vision due to the smoke generated.

In addition, through the modular structure of the filter body can be easily replaced even during surgery if necessary, and by the operation of the exhaust pump can be effectively prevented gas leakage and removal of residual gas.

In addition, it is also possible to easily determine whether to replace the water absorption state.

1 is a conceptual diagram showing a state according to a preferred embodiment of the present invention,
2 is a cross-sectional view showing a body structure according to a preferred embodiment of the present invention;
3 is a cross-sectional view showing a body structure according to another embodiment of the present invention;
4 is a conceptual view showing a state according to another embodiment of the present invention.

Hereinafter, the structure of the present invention laparoscopic gas filtration device will be described in detail.

1 is a conceptual view showing a state according to a preferred embodiment of the present invention, Figure 2 is a cross-sectional view showing a body structure according to a preferred embodiment of the present invention.

The present invention is basically coupled to the exhaust pipe 210 side of the trocar 200 used during laparoscopic surgery. That is, the gas generated in the user's body during laparoscopic surgery is filtered out of the trocar 200 to remove various harmful substances contained in the gas. Exhaust pipe is formed and the present invention can be applied to a variety of trocars that have been released at the time, the configuration of such a trocar 200 will be omitted the specific description to prevent the purpose of the invention is blurred to those skilled in the art.

The present invention has a basically modular form so that it can be easily replaced when the life time, that is, the filtration effect is reduced, in the preferred embodiment of the present invention for this purpose body 110 having a built-in filter 120 and gas removal efficiency It is provided with an exhaust pump 130 that can increase.

The body 110 is made of a closed structure to the filter unit 120 is built to remove the harmful components of the gas passing through the inside. The coupling part 111 into which gas is introduced by coupling to the exhaust pipe 210 is formed on one side, and an outlet 112 for discharging the gas is formed on the other side. The mall connection part 111 is configured to be inserted into and removed from the exhaust pipe 210 of the trocar 200, and can be replaced when necessary. The valve is installed in the conventional exhaust pipe 210 so that the body 110 can be easily operated even during surgery. Replacement can be made.

To this end, the connecting portion 111 is made of a resin having elasticity, including rubber or silicone is configured to be inserted and fixed in the exhaust pipe 210, or tongs to be fixed in the state in which the connecting portion 111 is inserted into the exhaust pipe 210. It may be provided with a clamp or the like.

A plurality of barrier ribs 113 are formed inside the body 110 to form a flow path of gas introduced through the connection part 111. As mentioned above, the gas discharged from the user's body basically contains moisture, and when the moisture is absorbed by the filtration unit 120, the efficiency decreases, so that the connection part 111 is located below the body 110. The outlet 112 is to be formed on the upper side of the body 110, respectively, the partition wall 113 to form a passage in the direction opposite to each other in a horizontal multi-layer structure to reduce the movement of the condensed water upwards It is composed.

The filter unit 120 is configured to filter various harmful substances contained in the gas passing through the body, so that the harmful substances in the gas are formed at the outlet 112 in front of the partition wall 113 by default. do.

However, as mentioned above, the partition wall 113 includes a first filter 121 formed between the connection part 111 and the partition wall 113 to remove water from the gas in order to prevent a decrease in filtration efficiency due to water. And a second filter 122 formed between the outlet and the outlet 112 to remove particulate matter from the gas, and a third filter 123 having antibacterial and antiviral performance.

In this case, the first filter 121 is made of a super absorbent polymer. In the present invention, the superabsorbent polymer is a polymer material capable of absorbing moisture of several tens or hundreds of times its weight, and has a three-dimensional network structure and has a large amount of hydrophilic groups to absorb a large amount of solution without dissolving in the solution. Means a substance that can be.

When the superabsorbent polymer constituting the first filter 121 absorbs moisture in the gas, the superabsorbent polymer swells to have a gel shape. The basic principle is to be absorbed by the fine pores existing on the surface of the superabsorbent and hydrophilic resin forming the filter fiber. It is made, a variety of materials such as starch system (cellulose), cellulose-based, synthetic polymer-based synthesis of a polymer resin made by refining petroleum at the factory can be used.

The second filter 122 is made of an activated carbon fiber sheet to obtain the effect of adsorbing harmful substances and removing odors, as well as emitting far infrared rays and anions, and the third filter 123 has a hepa filter type formed by a melt blown method. It consists of a sheet to filter the fine particles of 1.2 ~ 1.7㎛ size.

In particular, the third filter 123 is a filter that implements a filtration efficiency of up to 99.9999% and a water repellent function, and may be made of glass fiber, thermoplastic fiber, resin, or the like, and water blocking performance is realized through water repellent treatment.

The exhaust pump 130 is connected to the outlet 112 through a tube 131 and is a configuration of an electric air pump that sucks gas inside the body 110. Conventional laparoscopic smoke removal filter uses a natural discharge method through the pressure of inert gas injected into the body for laparoscopic surgery. There was no choice but to. In the present invention, even when the gas discharge pressure is not sufficient through the exhaust pump 130 capable of sucking air, complete discharge and filtration of residual gas may be performed.

3 is a cross-sectional view showing a body structure according to another embodiment of the present invention, Figure 4 is a conceptual diagram showing a state according to another embodiment of the present invention. Another embodiment of the present invention is based on the preferred embodiment described above is added to the convenience configuration, such as to increase the filtration efficiency and make it easy to check the replacement cycle, overlapping with the preferred embodiment to prevent the object of the invention is blurred Detailed description of the contents will be omitted.

In another embodiment of the present invention, the filtration unit 120 is formed with the first filter 121 and the fourth filter 124 made of a sectional cross-section yarn to improve the shape retention and hygroscopicity of the first filter 121 and In addition, a fifth filter 125 formed between the second filter 122 and the third filter 123 and made of fibers containing ocher is further included.

The release section yarn constituting the fourth filter 124 is a yarn in which the state of the yarn cross section is changed by changing the shape of the nozzle used for spinning the synthetic fiber from a normal circle to a triangular shape or a cross shape. Likewise, the first filter 121 catches a shape even when absorbing moisture and compensates for hygroscopicity.

The ocher constituting the fifth filter 125 is a substance having an far infrared ray effect with an enzyme component, and the enzyme of the ocher contains four components of catalase, diphenol oxidase, saccharase, and protease to remove, decompose, and purify their respective toxins. It plays a role.

In addition, in the present invention, the water absorption efficiency decrease of the first filter 121 leads to a decrease in the filtration performance of the filtration unit, so that the first filter 121 absorbs a certain level of water, thereby forming a cartridge module body ( 110) need to be replaced.

To this end, the body 110 may further include a display unit 114 in the form of a transparent window that can check the state of the first filter 121 from the outside, so that the water absorption state can be more clearly confirmed. The filter unit 120 further includes water detection means 126 formed together with the first filter 121 and discolored according to water absorption, and discoloration of the water detection means 126 through the display unit 114. It can be configured to check whether or not from the outside.

The moisture detecting means 126 is a chemical substance discolored by contact with moisture. The moisture detecting means 126 constitutes a moisture detecting means through a moisture sensor that can detect moisture electronically by the same principle, and the display unit 114 serves as a moisture sensor. It may be configured as a light emitting means for emitting light according to the detection result of the moisture detection means.

In addition, in order to efficiently operate the exhaust pump 130, the sensor unit 115 for detecting the pressure inside the body is installed, and the control means for controlling the driving of the exhaust pump in accordance with the detection result of the sensor unit 132 ) May be further included.

That is, by operating the exhaust pump 130 at a predetermined pressure range according to the situation, it is possible not only to prevent unnecessary waste of power, but also to apply unnecessary excessive suction pressure to the trocar 200 or the filtration unit 120. It can also be prevented.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

110: body 111: connection portion
112: outlet 113: bulkhead
114: display unit 115; Sensor part
120: filtration unit 121: first filter
122: second filter 123: third filter
124: fourth filter 125: fifth filter
126: moisture detection means 130: exhaust pump
131: tube 132: control means
200: trocar 210: exhaust pipe

Claims (5)

In the gas filtration device for filtering the gas discharged coupled to the exhaust pipe 210 side of the trocar 200 for laparoscopic surgery,
The gas is introduced by coupling to the exhaust pipe 210 on one side, but the connection portion 111 detachable to the exhaust pipe 210 is formed on the lower side, and an outlet 112 for discharging the gas is formed on the upper side. A body 110 having a sealed structure having a plurality of partitions 113 configured to reduce passage of condensed water upwards by forming a passage therein;
The first filter 121 is formed between the connecting portion 111 and the partition wall 113 and is made of a super absorbent polymer to remove water from the gas, and between the partition wall 113 and the outlet 112. The second filter 122 and the melt blown sheet is formed of activated carbon fiber sheet to remove the particle component in the gas and has a third filter 123 having antibacterial and antiviral performance, and the first filter 121 Filtration unit 120 is formed with a water detecting means 126 is discolored in accordance with the absorption of water;
An exhaust pump 130 connected to the outlet 112 through a tube 131 and sucking gas in the body 110; Consisting of,
The body 110 is a laparoscopic gas filtration device, characterized in that further comprises a display unit 114 formed to determine whether the change of the water detection means from the outside.
delete The method of claim 1,
The filtration unit 120 is formed together with the first filter 121, the fourth filter 124 and the second filter 122 made of a cross-sectional cross-sectional yarn to improve the shape retention and hygroscopicity of the first filter 121 Laparoscopic surgical gas filtration device, characterized in that it further comprises a fifth filter (125) formed between the third filter (123) and made of ocher-containing fibers.
delete The method of claim 1,
A sensor unit 115 is formed inside the body 110 to sense pressure, and control means 132 for controlling the driving of the exhaust pump 130 according to the detection result of the sensor unit 115. Laparoscopic surgical gas filtration device, characterized in that.

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