CN113180582A - Bronchoscope system - Google Patents

Abstract

The utility model provides a bronchoscope system, including stand-in tube and handle, the handle adopts communication interface or mechanical interface and the stand-in tube detachable connection, the bronchoscope system that this application provided, the handle can be dismantled with the stand-in tube, after adopting this fibre bronchus to inspect the disease, can dismantle the handle from the stand-in tube, then only need to send the stand-in tube to special sterilization room and disinfect, saved the disinfection time; because the handle does not contact the patient, the use cost of the bronchoscope is reduced by only wiping and disinfecting the handle for repeated use.

Description

Bronchoscope system

Technical Field

The application belongs to the technical field of medical equipment, and more specifically relates to a bronchoscope system.

Background

Bronchoscopes (bronchofiberscopes and endoscopes for short) are used for pathological examination of lesion parts of lung lobes, segmental bronchi and sub-segmental bronchi and clearing secretions in airways, and are widely applied clinically.

According to the infection management requirements of hospitals, medical instruments required by patients are not disinfected and cannot be used in a cross way, so that the infection in hospital of the patients can be prevented. The bronchoscope is used as a device directly contacting with the airway of a patient, and after the bronchoscope is used, various respiratory viruses and bacteria are easy to remain on the bronchoscope, and the bronchoscope cannot be reused without disinfection and sterilization.

However, the disinfection and sterilization time of the bronchoscope is long, most hospitals do not have relevant disinfection equipment, and the bronchoscope needs to be sent to a special disinfection room for disinfection treatment after being used. This results in a bronchoscope that is not available to multiple patients during a day. Moreover, when the bronchoscope is disinfected, only the part of the bronchoscope inserted into the airway of the patient needs to be thoroughly disinfected, and the rest parts which are not in contact with the airway of the patient only need to be wiped for disinfection.

At present, the mode of disinfecting the bronchoscope is as follows: and (4) conveying the whole bronchoscope equipment to a special sterilization room for sterilization treatment. Thus, the disinfection of the bronchoscope is time-consuming and labor-consuming, and the parts of the bronchoscope which do not contact the airway of the patient cannot be used by a plurality of patients in one day.

Disclosure of Invention

An object of the embodiment of this application is to provide a bronchoscope system to solve the technical problem that the bronchoscope disinfection cost of time and price is high among the prior art.

An object of an embodiment of the present invention is to provide a bronchoscope system, which includes an operation part, a handle, and an insertion tube, wherein the operation part and the insertion tube are replaceable and reusable structures or disposable structures, the insertion tube is connected to the operation part, the insertion tube is used for inserting into a lesion site to obtain a lesion effect, the operation part is used for operably controlling the insertion tube to turn at the lesion site, wherein,

the operating portion is detachably connected to the handle.

In one embodiment, the operating portion is provided with a first interface, the handle is provided with a second interface, and the first interface is detachably connected to the second interface in an inserting mode.

In one embodiment, the first interface and the second interface are both communication interfaces;

the insertion tube is internally provided with a camera device which is used for taking a focus image of a focus part by a bronchoscope; a first communication module is arranged in the camera device and is in communication connection with the first interface;

the handle is provided with a third interface, and the second interface is in communication connection with the third interface;

the bronchoscope system further comprises a first display host, the first display host comprises a fourth interface, the third interface and the fourth interface are both communication interfaces, and the third interface and the fourth interface are connected through a cable.

In one embodiment, the first interface and the second interface are both communication interfaces;

a camera device is arranged in the insertion tube and used for taking a focus image of a focus part by using a bronchoscope, and a first communication module is arranged in the camera device;

the operating part is provided with a fifth interface which is a communication interface, and the first communication module first interface and the fifth interface are in communication connection;

the bronchoscope system further comprises a second display host, the second display host comprises a sixth interface, the sixth interface is a communication interface, and the fifth interface and the sixth interface are detachably connected in an inserting mode;

the handle is internally provided with a power supply, and the camera device, the first communication module and the second display host are electrically connected with the power supply.

In one embodiment, the first interface and the second interface are both communication interfaces;

a camera device is arranged in the insertion tube and used for taking a focus image of a focus part by using a bronchoscope, and a first communication module is arranged in the camera device;

the operating part is provided with a fifth interface which is a communication interface, and the first communication module is in communication connection with the first interface and the fifth interface;

the bronchoscope system further comprises a first wireless communication module and a third display host, the first wireless communication module is detachably connected with the fifth interface in an inserting mode, the third display host comprises a second wireless communication module, and the first wireless communication module and the second wireless communication module are in communication connection;

the handle comprises a power supply, and the camera device, the first communication module and the first wireless communication module are electrically connected with the power supply.

In one embodiment, the handle is provided with a key, and the key is used for starting the camera device to take pictures or record videos.

In one embodiment, a bionic joint is arranged at one end, used for being inserted into a focus position, of the insertion tube, a rotating mechanism is arranged in the operating part and is rotatably connected with the operating part, a plurality of traction ropes used for driving the bionic joint to rotate are connected with the rotating mechanism, and each traction rope penetrates through the bionic joint respectively.

In one embodiment, the rotating mechanism comprises a universal ball, the pulling ropes are connected with the outer side wall of the universal ball, and the pulling ropes are spaced at equal intervals along the circumferential direction of the universal ball.

In one embodiment, the rotating mechanism further comprises an operating rod, one end of the operating rod is connected with the universal ball, and the other end of the operating rod extends to the outer side of the operating part.

In one embodiment, the operation part is provided with a biopsy channel and a suction channel, the insertion tube is internally provided with an extension channel, one end of the extension channel is communicated with the biopsy channel and the suction channel, and the other end of the extension channel extends to the front end of the insertion tube.

The application provides a bronchoscope system's beneficial effect lies in: compared with the prior art, the bronchoscope system provided by the embodiment of the application has the advantages that the handle and the operation part on the insertion tube are detachable, the handle can be detached from the operation part after the bronchoscope system is used for examining patients, and then the operation part and the insertion tube are only required to be sent to a special sterilization room for sterilization, so that the sterilization time is saved; the handle is not contacted with a patient, so that the bronchoscope can be repeatedly used only by wiping and disinfecting the handle, and the use cost of the bronchoscope is reduced; meanwhile, the operating part and the insertion tube can be made into a reusable bronchoscope system according to the requirement, so that the operating part and the insertion tube of the bronchoscope system can be reused after being specially sterilized; in addition, the operation part and the insertion tube can be made into replaceable disposable structures as required, aseptic packaging is adopted, the disposable structure can be used by one person for a patient, the disposable structure can be discarded after use, multiple persons can not use the disposable structure repeatedly, and cross infection among patients is avoided.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a schematic view of a bronchoscope system provided in an embodiment of the present application;

FIG. 2 is a schematic view of an embodiment of a bronchoscope system provided herein;

FIG. 3 is a schematic view of an embodiment of a bronchoscope system provided herein;

FIG. 4 is a schematic view of an embodiment of a bronchoscope system provided herein;

FIG. 5 is a schematic view of an embodiment of a bronchoscope system provided herein;

FIG. 6 is a schematic diagram of a non-communication interface provided herein;

fig. 7 is a cross-sectional view of an operation portion provided in an embodiment of the present application;

FIG. 8 is a schematic view of a rotation mechanism provided in an embodiment of the present application;

FIG. 9 is a schematic view of the biomimetic joint provided in the embodiment of the present application of FIG. 3;

FIG. 10 is a cross-sectional view of a biomimetic joint provided in embodiments of the present application;

FIG. 11 is a schematic view of a joint piece according to an embodiment of the present application;

fig. 12 is a schematic view of an image pickup apparatus according to an embodiment of the present application.

Wherein, in the figures, the respective reference numerals:

1. an operation section; 2. a handle; 3. an insertion tube; 4. a first interface; 5. a second interface; 6. a camera device; 7. a third interface; 8. pressing a key; 9. a first display host; 10. a cable; 11. a fifth interface; 111. a first wireless communication module; 12. a second display host; 13. a sixth interface; 14. a third display host; 15. fixing grooves; 16. a connecting projection; 17. a bionic joint; 18. a housing; 19. a rotating mechanism; 20. an operating lever; 21. a universal ball; 22. a hauling rope; 23. a joint plate; 24. a central bore; 25. a through hole; 26. a protrusion; 27. a fixed block; 28. a camera; 29. an illuminating lamp; 30. a biopsy channel; 31. a suction channel; 32. extending the pipeline.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 12 together, a bronchoscope system according to an embodiment of the present application will be described.

The embodiment of the application provides a bronchoscope system, as shown in fig. 1, comprising an operation part 1, a handle 2 and an insertion tube 3, wherein the operation part 1 and the insertion tube 3 are replaceable reusable structures or disposable structures, the insertion tube 3 is connected with the operation part 1, the insertion tube 3 is used for being inserted into a focus part to obtain focus influence, the operation part 1 is used for operatively controlling the insertion tube 3 to turn at the focus part, and the operation part 1 is detachably connected with the handle 2.

Compared with the prior art, the bronchoscope system provided by the embodiment of the application has the advantages that the handle 2 and the operation part 1 on the insertion tube 3 are detachable, after a patient is examined by adopting the bronchoscope system, the handle 2 can be detached from the operation part 1, and then the operation part 1 and the insertion tube 3 are only required to be sent to a special sterilization room for sterilization, so that the sterilization time is saved; because the handle 2 does not contact the patient, the use cost of the bronchoscope is reduced by only wiping and disinfecting the handle 2. Meanwhile, the operation part 1 and the insertion tube 3 can be made into a reusable bronchoscope system according to the requirement, so that the operation part 1 and the insertion tube 3 of the bronchoscope system can be reused after special sterilization; in addition, the operation part 1 and the insertion tube 3 can be made into replaceable disposable structures according to needs, aseptic packaging is adopted, one person can use the disposable structure for a patient, the disposable structure can be discarded after use, multiple persons can not use the disposable structure repeatedly, and cross infection among patients is avoided.

In an embodiment of the present application, please continue to refer to fig. 1, the operation portion 1 is provided with a first socket 4, the handle 2 is provided with a second socket 5, both the first socket 4 and the second socket 5 are communication sockets, and the first socket 4 is detachably plugged in the second socket 5.

In this embodiment, the first interface 4 is disposed on a side wall of the operation portion 1, the second interface 5 is disposed at an end of the handle 2 close to the operation portion 1, and the first interface 4 and the second interface 5 are detachably connected in a communication manner.

In an embodiment of the present application, referring to fig. 2, a camera device 6 is disposed inside the insertion tube 3, and the camera device 6 is used for taking a focus image of a focus site with a bronchoscope. The camera device 6 is internally provided with a first communication module which is in communication connection with the first interface 4. The handle 2 is provided with a third interface 7, the third interface 7 is positioned at the other end of the handle 2, and the second interface 5 is in communication connection with the third interface 7. One side of the handle 2 close to the operation part 1 is provided with a key 8, and the key 8 is used for starting the camera device 6 to take a picture or record a video. The bronchoscope system further comprises a first display host 9, the first display host 9 comprises a fourth interface, the third interface 7 and the fourth interface are both communication interfaces, and the third interface 7 and the fourth interface are connected through a cable 10.

In this embodiment, it is preferable that the first display host 9 is a large-screen display host, and the image capturing device 6 and the first communication module are electrically connected to a power supply of the first display host 9 through the first socket 4, the second socket 5 and a cable. The camera device 6 transmits the focus image of the shot focus position to the first display host 9 with a large screen, so that a doctor can clearly observe the focus position. Third interface 7 passes through cable 10 with the fourth interface and is connected, makes things convenient for first display host 9 to dismantle with the bronchoscope, simultaneously, when examining the disease, first display host 9 keeps away from the disease because do not contact the disease for first display host 9 only need clean the disinfection after the use can.

In another embodiment of the present application, the first display host 9 is an existing large-screen display device in a hospital, and the bronchoscope system can be purchased separately by the hospital without separately purchasing the display host, so that the cost is saved.

In another embodiment of the present invention, referring to fig. 3, a camera device 6 is disposed in the insertion tube 3, the camera device 6 is used for taking a focus image of a focus site with a bronchoscope, and a first communication module is disposed in the camera device 6. The operation portion 1 is provided with a fifth interface 11, the first interface 4 and the fifth interface 11 are symmetrically arranged on two sides of the operation portion 1, the fifth interface 11 is a communication interface, and the first interface 4 and the fifth interface 11 of the first communication module are in communication connection. One side of the handle 2 close to the operation part 1 is provided with a key 8, and the key 8 is used for starting the camera device 6 to take a picture or record a video. The bronchoscope system further comprises a second display host 12, the second display host 12 comprises a sixth interface 13, the sixth interface 13 is a communication interface, the fifth interface 11 and the sixth interface 13 are detachably connected in an inserting mode, a power supply is arranged in the handle 2, and the camera device 6, the first communication module and the second display host 12 are electrically connected with the power supply.

In this embodiment, it is preferable that the second display host 12 is a small-screen display host, and the power supply in the handle 2 is a battery, which is used to supply power to the image device 6, the first communication module and the second display host 12, so that the bronchoscope system is a mobile handheld endoscope, which is convenient for a doctor to carry. The camera device 6 transmits the shot focus image of the focus position to the second display host 12 with a small screen, so that a doctor can clearly observe the focus position. Fifth interface 11 is dismantled with sixth interface 13 and is pegged graft, makes things convenient for second display host 12 to dismantle with the bronchoscope, simultaneously, when examining the disease, second display host 12 keeps away from the disease because do not contact the disease for second display host 12 only need clean the disinfection after the use can.

In another embodiment of the present application, referring to fig. 4, a camera device 6 is disposed in the insertion tube 3, the camera device 6 is used for taking a focus image of a focus site with a bronchoscope, and a first communication module is disposed in the camera device 6. The operation portion 1 is provided with a fifth interface 11, the first interface 4 and the fifth interface 11 are symmetrically arranged on two sides of the operation portion 1, the fifth interface 11 is a communication interface, and the first interface 4 and the fifth interface 11 of the first communication module are in communication connection. One side of the handle 2 close to the operation part 1 is provided with a key 8, and the key 8 is used for starting the camera device 6 to take a picture or record a video. The bronchoscope system also comprises a first wireless communication module 111 and a third display host 14, wherein the first wireless communication module is detachably connected with the fifth interface 11 in a plugging mode, the third display host 14 comprises a second wireless communication module, and the first wireless communication module 111 and the second wireless communication module are in communication connection. The handle 2 comprises a power supply, and the camera device 6, the first communication module and the first wireless communication module 111 are all electrically connected with the power supply.

In this embodiment, it is preferable that the third display host 14 is a large-screen display host or a large-screen display host in a hospital, the first wireless communication module 111 is a WiFi transmitter, and the second wireless communication module is a WiFi receiver. The power supply is a battery arranged in the handle 2 and used for supplying power to the camera device 6, the first communication module and the first wireless communication module 111, so that an operator can hold the bronchoscope system conveniently. The camera device 6 transmits the electric signal of the focus image of the focus part to the first wireless communication module 111 through the first communication module, and the first wireless communication module 111 transmits the electric signal of the focus image of the focus part to the third display host 14 with a large screen through the second wireless communication module by the camera device 6, so that a doctor can clearly observe the focus part. When the patient is examined, the third display host 14 is far away from the patient, and the third display host 14 is not in contact with the patient, so that the third display host 14 only needs to be wiped and disinfected after being used, and the cost is saved.

In another embodiment of the present application, referring to fig. 5 to 6, the first socket 4 and the second socket 5 are both non-communication sockets, the first socket 4 is detachably connected to the second socket 5, the first socket 4 is a fixing groove 15 disposed on the operation portion 1, the second socket 5 is a connecting protrusion 16 disposed on the handle 2, the shape of the fixing groove 15 is adapted to the shape of the connecting protrusion 16, and the connecting protrusion 16 is detachably connected to the fixing groove 15.

In the present embodiment, referring to fig. 5 again, the insertion tube 3 is provided with a camera device 6, the camera device 6 is used for taking a focus image of a focus part with a bronchoscope, and the camera device 6 is provided with a first communication module therein. The handle 2 is internally provided with a second communication module, the handle 2 is provided with a third interface 7, and the third interface 7 is a communication interface and is in communication connection with the second communication module. One side of the handle 2 close to the operation part 1 is provided with a key 8, and the key 8 is used for starting the camera device 6 to take a picture or record a video. The bronchoscope system further comprises a first display host 9, the fourth display host comprises a seventh interface, the seventh interface is a communication interface, and the seventh interface is connected with the third interface 7 through a cable 10.

In an embodiment of the present application, please refer to fig. 7 to 12, one end of the insertion tube 3 is fixedly connected to the operation portion 1, the image capturing device 6 is disposed at the other end of the insertion tube 3, and a bionic joint 17 is disposed inside one end of the insertion tube 3 close to the image capturing device 6. Operation portion 1 includes casing 18 and the slewing mechanism 19 of setting in casing 18, the inside cavity that is equipped with of casing 18, slewing mechanism 19 includes action bars 20, universal ball 21, many haulage ropes 22, the protruding upper end of locating casing 18 of action bars 20 one end, the action bars 20 other end and universal ball 21 fixed connection, many haulage ropes 22 of universal ball 21 outer wall circumference fixedly connected with, haulage rope 22 one end and the outer circumference fixed connection of universal ball 21, the other end runs through bionic joint 17.

In the embodiment, the bionic joint 17 comprises a plurality of superposed joint pieces 23, a central hole 24 for the cable of the camera device 6 to pass through is arranged in the middle of each joint piece 23, through holes 25 for the traction ropes 22 to pass through are equidistantly arranged around the central hole 24, and two protrusions 26 are arranged on one side of each joint piece 23 at intervals.

In this embodiment, the number of the pulling rope 22 is four, four fixing blocks 27 are fixed to the outer wall of the universal ball 21 in the circumferential direction, the four fixing blocks 27 are distributed along the circumferential direction of the universal ball 21 at equal intervals, the two protrusions 26 are arranged oppositely, and the through hole 25 is located on the two protrusions 26 and between the two protrusions 26. The projections 26 on adjacent articular laminas 23 are offset. I.e. the protuberance 26 of one articular plate 23 corresponds to the position between two protuberances 26 of the other articular plate 23. Therefore, the bionic joint 17 is convenient to bend, and the camera device 6 on the insertion tube 3 is convenient to turn.

In this embodiment, the camera device 6 includes a camera 28 and an illuminating lamp 29, the camera device 6 is used for shooting an image or video of a focus of a human body, and the illuminating lamp 29 is disposed beside the camera device 6 and used for providing a light source when the camera device 6 shoots, so that the camera device 6 shoots a clear image of the focus. The image pickup device 6 transmits the shot image of the focus position to the display host machine, so that a doctor can observe the focus position on the display host machine conveniently.

In actual operation, the operating rod 20 is driven by fingers to drive the universal ball 21 to rotate, and the plurality of pulling ropes 22 are respectively connected to the universal ball 21 and used for driving one end of the insertion tube 3, which is provided with the camera device 6, to rotate. During specific operation, medical personnel hold handle 2 through the hand to through finger swing action bars 20, drive universal ball 21 rotatory, universal ball 21 pulling haulage rope 22 drives the bionical joint 17 of probe rotatory, thereby realize camera device 6 in the rotation of a plurality of planes and a plurality of angles, thereby realize camera device 6 and shoot the focus position, make camera device 6's the shooting field of vision wider.

In one embodiment of the present application, the housing 18 of the operation portion 1 is provided with a biopsy channel 30 and a suction channel 31, the biopsy channel 30 and the suction channel 31 are symmetrically disposed on both sides of the housing 18, an extension duct 32 is disposed in the insertion tube 3, one end of the extension duct 32 is communicated with the biopsy channel 30 and the suction channel 31, and the other end extends to the front end of the insertion tube 3. The biopsy forceps enter the focus position of a human body through the biopsy channel 30 and the extension pipeline 32 for operation, the sputum removing brush is externally connected with a negative pressure pump, and the sputum removing brush absorbs body fluid, sputum and the like of the focus position through the suction channel 31 and the extension pipeline 32.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. A bronchoscope system, characterized by: comprises an operating part, a handle and an insertion tube, wherein the operating part and the insertion tube are replaceable and reusable structures or disposable structures, the insertion tube is connected with the operating part and is used for inserting a focus position to obtain focus influence, the operating part is used for operably controlling the insertion tube to turn at the focus position, and the operating part is used for controlling the insertion tube to rotate at the focus position,

the operating portion is detachably connected to the handle.

2. A bronchoscope system according to claim 1, wherein: the operating part is provided with a first interface, the handle is provided with a second interface, and the first interface can be detachably inserted into the second interface.

3. A bronchoscope system according to claim 2 wherein: the first interface and the second interface are both communication interfaces;

the insertion tube is internally provided with a camera device which is used for taking a focus image of a focus part by a bronchoscope; a first communication module is arranged in the camera device and is in communication connection with the first interface;

the handle is provided with a third interface, and the second interface is in communication connection with the third interface;

the bronchoscope system further comprises a first display host, the first display host comprises a fourth interface, the third interface and the fourth interface are both communication interfaces, and the third interface and the fourth interface are connected through a cable.

4. A bronchoscope system according to claim 2 wherein: the first interface and the second interface are both communication interfaces;

a camera device is arranged in the insertion tube and used for taking a focus image of a focus part by using a bronchoscope, and a first communication module is arranged in the camera device;

the operating part is provided with a fifth interface which is a communication interface, and the first communication module first interface and the fifth interface are in communication connection;

the bronchoscope system further comprises a second display host, the second display host comprises a sixth interface, the sixth interface is a communication interface, and the fifth interface and the sixth interface are detachably connected in an inserting mode;

the handle is internally provided with a power supply, and the camera device, the first communication module and the second display host are electrically connected with the power supply.

5. A bronchoscope system according to claim 2 wherein: the first interface and the second interface are both communication interfaces;

a camera device is arranged in the insertion tube and used for taking a focus image of a focus part by using a bronchoscope, and a first communication module is arranged in the camera device;

the operating part is provided with a fifth interface which is a communication interface, and the first communication module is in communication connection with the first interface and the fifth interface;

the bronchoscope system further comprises a first wireless communication module and a third display host, the first wireless communication module is detachably connected with the fifth interface in an inserting mode, the third display host comprises a second wireless communication module, and the first wireless communication module and the second wireless communication module are in communication connection;

the handle comprises a power supply, and the camera device, the first communication module and the first wireless communication module are electrically connected with the power supply.

6. A bronchoscope system according to any one of claims 3-5 wherein: the handle is provided with a key used for starting the camera device to shoot or record.

7. A bronchoscope system according to any one of claim 6 wherein: the bionic joint is arranged at one end, used for inserting into a focus position, of the insertion tube, a rotating mechanism is arranged in the operating part and is rotatably connected with the operating part, the rotating mechanism is connected with a plurality of traction ropes used for driving the bionic joint to rotate, and the traction ropes respectively penetrate through the bionic joint.

8. The bronchoscope system of claim 7, wherein: the rotating mechanism comprises a universal ball, the traction ropes are connected with the outer side wall of the universal ball, and the traction ropes are arranged along the circumferential direction of the universal ball at equal intervals.

9. The bronchoscope system of claim 8, wherein: the rotating mechanism further comprises an operating rod, one end of the operating rod is connected with the universal ball, and the other end of the operating rod extends to the outer side of the operating part.

10. The bronchoscope system of claim 7, wherein: the operation part is provided with a biopsy channel and a suction channel, the insertion tube is internally provided with an extension pipeline, one end of the extension pipeline is communicated with the biopsy channel and the suction channel, and the other end of the extension pipeline extends to the front end of the insertion tube.

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