KR20220020660A - A Surgical Device with an Air Filter - Google Patents

Abstract

The present invention relates to a surgical instrument having an air filter function. The surgical instrument having an air filter function includes: an induction shaft (11) having a receiving space therein while a coagulation means for coagulating a body part by electric or thermal energy is coupled thereto; and a filter/motor module (20) disposed inside the induction shaft (11) or coupled to the induction housing (11), wherein gas containing smoke generated in an operation process of the coagulation means is induced into the induction shaft (11) to be filtered by the filter/motor module (20) and discharged to the outside. According to the present invention, obscuring of the visual field by smoke can be prevented during surgery.

Description

A Surgical Device with an Air Filter

The present invention relates to a surgical instrument having an air filter function, and more particularly, to a surgical instrument having an air filter function to quickly remove odors such as smoke and gas obstructing vision generated during a surgical procedure.

In the course of surgery, for example, a body part may be incised, and after the incision, blood vessels may be coagulated with electrical energy for hemostasis or similar purposes. In this process, smoke may be generated, and gas containing various odor components generated from inside the human body may leak to the outside through the incision. Smoke can block the field of vision during surgery, and the odor component can have a bad effect on the operator. Therefore, it is necessary to ensure that the gas component, including smoke, is discharged through a predetermined exhaust path. International Publication No. WO 2007/070570 discloses, for example, a waste collection and treatment system for collecting and treating waste materials such as body fluids generated during medical procedures in hospitals. In addition, Patent Publication No. 10-2016-0138852 discloses a harmful gas filter device of a trocar set for surgery. The gas containing smoke generated during the operation is generated and discharged to the outside at the same time, and it is necessary to have a simple structure at the same time. However, the prior art does not disclose a surgical instrument for removing gas containing smoke having such a structure.

The present invention is to solve the problems of the prior art and has the following objects.

Prior Art 1: International Publication No. WO 2007/070570 (Striker Corporation, published on Jun. 21, 2007) Medical/surgical smoke evacuator including internal sensor and smoke filter Prior Art 2: Patent Publication No. 10-2016-0138852 (Byung-Gap Lee, published on Dec. 6, 2016) Noxious gas filter device for surgical trocar set

An object of the present invention is to provide a surgical instrument having an air filter function, which is composed of a small motor and a filter module and is disposed at various positions inside the surgical instrument to generate and discharge gas containing smoke to the outside at the same time.

According to a suitable embodiment of the present invention, the surgical device having an air filter function includes a coagulation means for coagulating a body part by electricity or thermal energy is combined with an induction shaft having an accommodating space therein; and a filter/motor module disposed inside the induction shaft or coupled to the induction shaft, wherein the gas containing smoke generated during the operation of the coagulation means is guided into the induction shaft and filtered by the filter/motor module and discharged to the outside.

According to another suitable embodiment of the present invention, the filter/motor module comprises a filter module comprising at least one filter; motor operated suction fan; and a control unit for controlling the operation of the motor.

According to another suitable embodiment of the present invention, the filter/motor module is installed in the gas induction path of the induction shaft, and at least one gas exhaust hole for discharging the gas passing through the filter/motor module to the outside is formed in the induction shaft do.

According to another suitable embodiment of the present invention, the filter/motor module is operated in conjunction with the operation of the coagulation means.

The surgical device having an air filter function according to the present invention allows gas containing smoke generated in the process of coagulation of the cut human body part by electrical energy such as, for example, high-frequency energy to be discharged at the same time as it is generated. Thereby, while preventing the view from being blocked by smoke during the operation, the gas containing the odor is prevented from leaking to the outside and affecting the operator. In the surgical device according to the present invention, a filter module including a motor is coupled to the inside of the surgical device so that it is structurally simple and operates at the position of gas generation at the same time as the operation. The surgical instrument according to the present invention may be applied to various types of surgical instruments requiring gas discharge in the surgical process, including surgical instruments for incision and coagulation having a pen shape, and the present invention is not limited thereto.

1 shows an embodiment of a surgical instrument having an air filter function according to the present invention.
Figure 2 shows an embodiment of a filter / motor module applied to the surgical instrument according to the present invention.
3 shows a specific embodiment to which the filter/motor module is applied in the surgical device according to the present invention.
4 shows an embodiment of a structure in which the operation of the filter/motor module according to the present invention is controlled.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments are 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, so unless necessary for the understanding of the invention, the description will not be repeated and well-known components will be briefly described or omitted, but the present invention It should not be construed as being excluded from the embodiment of

1 shows an embodiment of a surgical instrument having an air filter function according to the present invention.

Referring to Figure 1, the surgical instrument having an air filter function includes an induction shaft 11 having a receiving space therein while a coagulation means for coagulating a body part by electricity or thermal energy is coupled; and a filter/motor module 20 disposed inside the induction shaft 11 or coupled to the induction shaft 11, wherein the gas containing smoke generated during the operation of the coagulation means is the induction shaft 11 It is guided to the inside of the filter/motor module 20 and is filtered and discharged to the outside.

The surgical device may have an incision and coagulation function, and for example, while cutting tissue inside the human body during abdominal surgery, generates heat with high-frequency electrical energy or ultrasonic energy for the topography of the incision site to coagulate the blood vessel in the incision site. can have functions. The coagulation means may be, for example, a cutter 12 capable of incision and coagulation by application of electric energy or ultrasonic energy, such as a Bobie Tip. The induction shaft 11 may have a hollow cylinder shape or a pen shape, and may have a structure with an open front end. The guide member 13 may extend through the inside of the guide shaft 11 , and the cutter 12 may be detachably coupled to an end of the guide member 13 . The cutter 12 having different uses or structures according to the surgical site may be coupled to the guide member 13 , and electrical energy or ultrasonic energy may be transmitted to the cutter 12 through the guide member 13 . The cutter 12 may use the transmitted electric energy or ultrasonic energy to generate heat in the incision site to coagulate blood vessels to cause hemostasis. Smoke may be generated during this coagulation process. In addition, when a tissue portion of the human body is incised, various types of odor components may be discharged to the outside. Such smoke may obscure the field of vision during the operation and at the same time contain harmful components. In addition, the odor component generated inside the human body during the operation process also contains harmful substances and may have a bad effect on the operator or assistant. Therefore, it is necessary that the gas containing smoke or odor be discharged to the outside in a way that does not affect the surgical procedure. Such a gas is advantageously induced along a closed guiding path while being induced to the outside immediately after being generated. To this end, the gas may be guided to the outside through a separately installed suction means to be treated. However, when a separate suction means is installed, there is a disadvantage that the operating space may be narrowed as well as the apparatus for surgery becomes complicated. In order to solve such a disadvantage, according to one embodiment of the present invention, the gas generated from the surgical site of the human body in the surgical process including smoke or odor is guided into the induction shaft 11 to filter/motor module ( 20) can be filtered. Specifically, the gas is introduced into the induction shaft 11 through the open front part of the induction shaft 11, and the filter/motor module 20 coupled to the induction shaft 11 or the induction shaft 11. is filtered and may be discharged to the outside through, for example, the discharge holes 23_1 to 23_N formed in the induction shaft 11 . The filter/motor module 20 may have a function of allowing the gas to be introduced into the induction shaft 11 while exhausting the introduced gas to the outside in a filtered state through at least one filter. The front end of the induction shaft 11 may have a hollow cylinder shape extending to a constant diameter after the diameter is reduced compared to other portions, and the rear portion of the induction shaft 11 forms a conical sealed structure. It may be formed so that wiring can be connected while doing so. A shaft body in which a front portion and a rear portion of the induction shaft 11 have a constant diameter may be extended. The first and second actuating switches 14a and 14b may be coupled to the shaft body, for example, the first and second actuating switches 14a, 14b may be cut-off switches and solidifying switches. In addition, the filter area 15 may be formed in front or behind the first and second switches 14a and 14b, and the filter/motor module 20 may be coupled to the inside of the filter area 15 . The filter/motor module 20 includes a filter module 21 for filtering gas containing smoke; and a motor driving module 24 for introducing gas into the filter module 21 . The motor driving module 24 may be located in front or behind the filter module 21 , and at least one discharge hole 23_1 to 23_N connected to the filter module 21 may be formed in the induction shaft 11 . there is. Incision or coagulation of a body part may proceed by the cutter 12 by the operation of the first and second operation switches 14a and 14b, and accordingly, gas containing smoke or odor may be generated at the incision or coagulation site. For example, after the first operation switch 14a is operated and the incision is made, the second switch 14b is operated to solidify the incision and gas containing smoke may be generated. 24), the operation of the second operation switch 14b is detected, and accordingly, the suction motor is operated so that gas can be introduced into the interior of the induction shaft 11 through the open inlet of the induction shaft 11. Induction The inflow gas AI introduced into the shaft 11 may be guided to the filter module 21 by the operation of the suction motor, and smoke, odor or similar harmful substances are removed from the filter module 21. The filter gas AO may be discharged to the outside through the discharge holes 23_1 to 23_N formed in the induction shaft 11. In this way, smoke or odor is generated and induced into the induction shaft 11 at the same time. It can be filtered and discharged to the outside by the filter module 21. The filter area 15 can be formed in various positions of the induction shaft 11, and the present invention is not limited thereby. A specific structure of the motor module will be described.

Figure 2 shows an embodiment of a filter / motor module applied to the surgical instrument according to the present invention.

Referring to FIG. 2 , the filter/motor module 20 includes a filter module 21 including at least one filter; a suction fan 243 driven by a motor 242; and a control unit 241 that controls the operation of the motor 242 . The filter modules 21 and 21a may have various structures capable of filtering and discharging the gas including smoke guided to the inside. The first filter module 21 may have a cylindrical shape in which an induction drum 213 having an internal cylindrical shape is formed as a whole. A filter unit 211 including at least one filter such as, for example, a polyester nonwoven filter, an activated carbon filter, or a HEPA filter may be wound along the outer circumferential surface of the induction drum 213 . And both ends of the filter unit 211 may be fixed to the induction drum 213 by the fixing edges (212a, 212b). The second filter module 21a includes at least one horizontal extension member 213_1 to 213_K connecting a pair of fixed rim members 212c that are disposed to face each other while having an elliptical shape; a filter unit 211 wound around the horizontal extension members 213_1 to 213_K; and a fixing unit 214 fixed to the outer circumferential surface of the filter unit 211 . In such a structure, the gas containing smoke or odor may be guided into the inside of the filter unit 211 forming an induction space therein in a wound shape. Thereafter, the gas may be discharged to the outside after being filtered through the filter unit 211 . And the flow of gas through the filter unit 211 may be made by the motor driving module 24 . The motor drive module 24 may include a motor 242, such as a small motor driven by a small battery; a suction fan 243 connected to the shaft of the motor 242 and rotated; and a control unit 241 that controls the operation of the motor 242 . Since medical devices, especially surgical devices, are mainly disposable, a small motor operated by a small battery for one surgical procedure can be used. A small suction fan 243 driven by a small motor may also be used. In addition, the operation of the motor 242 may be controlled by the control unit 241 in the form of a microprocessor disposed on a printed circuit board or an electronic chip. Optionally, the motor driving module 24 may be of a reproducible form, but is not limited thereto. The suction fan 243 operated by the motor 242 may have various structures capable of sucking gas, and is shown on the right side of FIG. 2 . It is not limited to the embodiment presented above. The suction fan 243 may generate a suction force by, for example, rotation of a plurality of spiral blades arranged about an axis, and the spiral blades may have various structures for inducing the suction force, and the present invention is not limited thereto. Optionally, an exhaust fan operated by the motor 243 may be installed, and when the exhaust fan is installed, the motor module 24 is positioned in front of the filter module and the shaft of the motor 242 faces the filter module and the exhaust fan needs to be disposed in front of the filter module or in front of the location where the exhaust hole is formed. Inhalation of the gas may be performed in various ways and is not limited to the examples presented.

3 shows a specific embodiment to which the filter/motor module is applied in the surgical device according to the present invention.

Referring to FIG. 3 , the filter/motor module 20 is installed in the gas induction path of the induction shaft 11 , and at least for discharging the gas passing through the filter/motor module 20 to the induction shaft 11 to the outside. One gas discharge hole 23_1 to 23_K is formed. The filter/motor module 20 can be arranged inside the filter area 15 forming part of the induction shaft. The filter module may be, for example, in the shape of a drum or a cylinder, and may be fixed to the filter area 15 by means of circular fixing rims 212a, 212b. The motor 242 may be fixed to the inside of the induction drum 213 by the fastening coupler 25 . The motor 242 may be operated by the control unit 241 to rotate the induction fan 243 , and the inflow gas AI may be introduced into the filter unit 211 . The opposite side of the filter module may have a closed structure, whereby the gas guided into the filter unit 211 passes through the filter unit 211 to the filter area 15 in which the discharge holes 23_1 to 23_K are formed. It can be guided to the perimeter wall. And the filtered gas AO may be discharged to the outside in a purified form. Referring to the embodiment presented in the upper right portion of FIG. 3 , the fastening module 34 may be coupled to the rear of the induction shaft 11 . The fastening module 34 may be detachably coupled to the induction shaft 11 by a screw fastening method, for example. The fastening module 34 can include a filter/motor module from above, and the fastening block 34 can be made independently and coupled to the induction shaft 11 . A connection unit 35 is coupled to the fastening block 34 , which may function as a power connector for controlling the operation of a surgical tool, for example. Referring to the lower right part of FIG. 3 , vibration of the motor 242 may be generated during operation, and such vibration may affect the operation process. In order to absorb the vibration of the motor 242 , the motor 242 may be disposed inside the absorption housing 31 made of, for example, rubber or synthetic resin foam. In addition, the motor 242 may be connected to the operation module 32 by wiring, and the operation module 32 may include a battery and a control unit 241 . In the presented embodiment, the motor 242 is presented in a form separate from the operation module 32 , but the operation module 32 may be coupled to the absorption housing 31 .

As described above, it is advantageous that the filter/motor module 20 is temporarily operated only at the moment when an odor is generated or smoke is generated. For example, the filter/motor module 20 is advantageously operated in conjunction with the operation of the cutter 12 or the operation of the first and second operation switches 14a and 14b.

4 shows an embodiment of a structure in which the operation of the filter/motor module according to the present invention is controlled.

4, the filter/motor module 20 is operated in conjunction with the operation of the coagulation means. The operation initiating unit 41 may be an operation switch for incision or coagulation, and since smoke is mainly generated during the coagulation process, ultrasonic energy or high frequency energy is applied to generate heat during the coagulation process, so the operation initiating unit 41 can be a coagulation actuation switch. The operation of the operation initiating unit 41 can be detected by the control unit 241 . When the operation of the operation initiation unit 41 is detected, it is possible to receive from the time setting unit 43 the time information to be activated after the coagulation is completed. The time setting unit 43 may store predetermined operation time information according to the type of operation site or cutter, and optionally the control unit 241 controls the flow of gas discharged to the outside of the filter module by the discharge detection unit 42 . can be detected, and the operating level of the motor 242 can be adjusted according to the flow level. The control unit 241 starts operation when the operation of the unit 41 is completed. By detecting this, the motor 242 may be operated for a time determined by the time setting unit 43 to completely discharge the gas including smoke. Thereafter, the operation of the motor 242 is terminated by the control unit 241 , and then, when the operation of the operation initiating unit 41 is detected at that time, the operation of the motor 242 may be started. In this way, the operation of the filter/motor module is operated in conjunction with the operation of the operation switch, so that gas containing smoke is efficiently removed, and inconvenience caused by operation of the motor in the surgical procedure is prevented. The operation of the motor 242 may be controlled in various ways and is not limited to the embodiments presented.

Although the present invention has been described in detail with reference to the presented embodiment, those skilled in the art will be able to make various modifications and variations of the invention without departing from the technical spirit of the present invention with reference to the presented embodiment. . The present invention is not limited by such variations and modifications, but only by the claims appended hereto.

11: guide shaft 12: cutter
13: guide member 14a, 14b: actuation switch
15: filter area 20: filter/motor module
21: filter module 23_1 to 23_K: exhaust hole
241: control unit 242: motor
243: suction fan

Claims (4)

an induction shaft 11 having an accommodating space therein while a coagulating means for coagulating a body part by electricity or thermal energy is coupled; and
It includes a filter/motor module 20 disposed on the inside of the induction shaft 11 or coupled to the induction shaft 11,
A surgical instrument with an air filter function, characterized in that the gas containing smoke generated during the operation of the coagulation means is guided into the induction shaft 11, filtered by the filter/motor module 20, and discharged to the outside. . The method according to claim 1, wherein the filter/motor module (20) comprises: a filter module (21) comprising at least one filter; a suction fan 243 driven by a motor 242; and a control unit 241 for controlling the operation of the motor 242 . The method according to claim 1, wherein the filter/motor module 20 is installed in the gas induction path of the induction shaft 11, at least one for discharging the gas passing through the filter/motor module 20 to the induction shaft 11 to the outside Surgical instrument with an air filter function, characterized in that the gas discharge hole (23_1 to 23_K) is formed. The surgical instrument with an air filter function according to claim 1, wherein the filter/motor module 20 is operated in conjunction with the operation of the coagulation means.

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