CN212186466U - Visual diagnosis and treatment system with cavity opening device - Google Patents

Abstract

The utility model discloses a take visual diagnosis and treatment system of cavity distraction device contains cavity distraction mechanism, observation mechanism, circuit system, electrical power generating system, controls mechanism and display system. The cavity opening mechanism comprises an opening end; the opening end is arranged at the front end of the control mechanism, and can open the cavity at the front end of the observation mechanism to enlarge the observation visual field of the observation mechanism. The observation mechanism comprises an illumination module, a lens module, a signal processing module and a shell; images and videos observed by the lens module in the optical field of the lighting module are processed by the signal processing module and then output to the display system by the circuit system for display. Because the cavity at the front end of the observation mechanism is opened, the observation visual field of the lens module is larger, and the clinical observation effect is better. The utility model discloses a take visual system of diagnosing of cavity distraction device can get into the surgical instruments from the sheath intraductal internal simultaneously, carries out various operation operations such as biopsy sample, electrocision, electricity congeals, melts when observing, and clinical use is very convenient.

Description

Visual diagnosis and treatment system with cavity opening device

Technical Field

The utility model relates to an endoscopic surgery instrument, in particular to a visual diagnosis and treatment system with a cavity opening device in endoscopic surgery.

Background

With the development of endoscopic techniques, a very large number of examination and surgical procedures can be accomplished endoscopically, including gastroscopies, enteroscopes, hysteroscopes, biopsies, abortion, and the like.

Conventionally, various mirrors, such as laparoscopes, thoracoscopes, hysteroscopes, etc., are placed in a human body, and examination or operation is performed under the direct viewing observation of a lens. To ensure that the surgical trauma is small, the surgical incision is typically maintained as small as possible, and therefore, the mirrors and surgical instruments that are typically associated therewith are also small in diameter.

However, tissues and organs in the human body are soft, so that the cavities of the tissues and organs, such as the uterus, the stomach, the intestinal tract and the like, are normally closed without external force. Under the condition, when the endoscope instrument with small diameter enters the cavity, the observation area of the front end of the endoscope is very small due to the collapse of tissues at the front end, particularly in the cavity such as uterus, intestinal tract and the like, and the observation effect in clinic is often not ideal.

Therefore, further improvement of the existing endoscopic medical devices is needed to better achieve clinical observation effects. Meanwhile, in the prior art, the observation and the operation processes are usually separated, different instruments need to be adopted for conversion operation in the clinical process, and particularly, the processes of biopsy sampling, laser ablation and the like are very inconvenient, so that the functions of the existing endoscope diagnosis and treatment equipment need to be further improved and integrated.

Disclosure of Invention

The utility model discloses a take visual system and system of diagnosing of cavity distraction device through the opening of propping of the mechanism that struts that sets up at the observation system front end, can strut the observation system front end to reach the purpose that effectively enlarges the observation field of vision, clinical observation effect is very good.

The utility model discloses a take visual system of diagnosing of cavity distraction device, its characterized in that: the visible diagnosis and treatment system 100 with the cavity expanding device comprises a cavity expanding mechanism 1, an observation mechanism 2, a circuit system 3, a power supply system 104, an operation and control mechanism 5 and a display system 102;

A. the cavity opening mechanism 1 comprises an opening end 11; the opening end 11 is arranged at the front end 5-1 of the control mechanism 5, and can open the cavity at the front end of the observation mechanism 2 and expand the observation view of the observation mechanism 2;

B. the observation mechanism 2 comprises an illumination module 21, a lens module 22, a signal processing module 23 and a shell 24; after the image and video observed by the lens module 22 in the light field of the illumination module 21 are processed by the signal processing module 23, the image and video are output by the circuit system 3 to the display system 102 for display; the lighting module 21, the lens module 22 and the circuit system 3 are connected and then are hermetically installed in the shell 24;

C. the viewing mechanism 2 and the display system 102 are connected to the power supply system 104 via the circuit system 3.

The utility model discloses a take visual system of diagnosing of cavity distraction device is in the camera 22-1 front end of observation mechanism 2 is equipped with the cavity distraction end 11 of mechanism 1, distraction end 11 can with the cavity of 2 front ends of observation mechanism struts, enlarges the observation field of vision of observation mechanism 2 is particularly suitable for inspection and operation processes such as hysteroscope, intestines mirror. During the use, will the utility model discloses a take visual system of diagnosing of cavity distraction device inserts in the cavity, the distraction end 11 struts the cavity, observation mechanism 2 observes the region that is propped open, image and the video signal warp that lens module 22 observed circuit system 3 exports show on the display system 102. Because the cavity at the front end of the observation mechanism 2 is opened, the observation visual field of the lens module 22 is larger, and the clinical observation effect is better.

The observation mechanism 2 and the cavity expanding mechanism 1 can be arranged independently or integrally.

In order to save the clinical use cost, the observation mechanism 2 and the cavity expanding mechanism 1 can be independently arranged. The cavity opening mechanism 1 is provided with a sheath tube 12, the observation mechanism 2 is sealed, during clinical observation, the observation mechanism 2 is arranged in a channel 12-3 of the sheath tube 12, after observation is finished, the observation mechanism 2 is evacuated, and after disinfection and sterilization, the observation mechanism 2 can be repeatedly used, only the cavity opening mechanism 1 is used once, so that the clinical use cost can be greatly saved.

When the observation mechanism 2 and the cavity opening mechanism 1 are integrally provided, the sheath of the cavity opening mechanism 1 constitutes the housing 24. The illumination module 21, the lens module 22, and the circuit system 3 of the observation mechanism 2 are sealed inside the sheath 12.

The opening end 11 is an opening net 11-1. The camera 22-1 can directly observe the situation behind the distraction net 11-1 from the mesh gap, and the whole course observation of the operation process and the panoramic observation of the operation area can be realized even if the distraction net 11-1 is not made of transparent materials.

The camera 22-1 of the lens module 22 is arranged at the rear end of the distraction net 11-1, and the distraction net 11-1 is positioned in the visual field of the camera 22-1.

The technical scheme of the rear camera 22-1 can ensure that the distraction net 11-1 is completely positioned in the visual field range of the camera 22-1, and because the observation angle of the camera 22-1 faces the front of an operation or examination area, an observation blind area cannot exist in the process, and the technical scheme of the rear camera ensures that the clinical examination and the operation process are safer and more effective.

The camera 22-1 of the lens module 22 is arranged inside the distraction net 11-1. The camera 22-1 is arranged inside the distraction net 11-1, and the peripheral tissues and organs can be observed spatially and stereoscopically by adjusting the direction of the camera 22-1 or arranging a plurality of spatially distributed cameras 22-1.

The viewing direction of the camera 22-1 of the lens module 22 can be adjusted. By adjusting the observation direction of the camera 22-1, the surrounding tissue condition can be observed in an all-around way, and the observation effect is more comprehensive in clinical use.

The adjusting mechanism 22-11 of the camera 22-1 for adjusting the observation direction is arranged on the handle 52 of the control mechanism 5. The adjusting mechanism 22-11 is arranged on the handle 52, so that the observing direction of the camera 22-1 can be conveniently adjusted outside the body in clinical use, and the operation is simpler.

The working position direction of the opening end 11 can be adjusted. The working position direction of the opening end 11 can be adjusted as required, the structural shape of the peripheral cavity can be better adapted, and the clinical use effect of the parts which are difficult to clear or observe, such as uterine corners, is better.

The swinging mechanism 11-4 of the opening end 11 for adjusting the direction of the working position is arranged on the handle 52. The swinging mechanism 11-4 is arranged on the handle 52, so that the working direction of the working part of the curettage device 11 can be conveniently adjusted outside the body in clinical use, and the operation is simpler.

The viewing direction of the camera 22-1 of the lens module 22 and the working position direction of the opening end 11 can be adjusted simultaneously. In practical applications, the clinician can adjust the viewing direction of the camera 22-1 or the working site direction of the opening end 11 only as needed, or can adjust the viewing direction of the camera 22-1 and the working site direction of the opening end 11 at the same time.

When the viewing direction of the camera 22-1 and the working position direction of the opening end 11 are adjusted simultaneously, the adjusting mechanism 22-11 and the swinging mechanism 11-4 can be combined into one adjusting mechanism to be arranged on the handle 52.

The cavity opening mechanism 1 also comprises a sheath tube 12; the distraction mesh 11-1 can be compressed within the sheath 12, and when the constraint of the sheath 12 is removed backwards, the distraction mesh 11-1 can completely or substantially restore the pre-compression shape. The sheath 12 includes an inner sheath 12-1 and an outer sheath 12-2, and the stent 11-1 is compressed within the outer sheath 12-2.

The distraction mesh 11-1 can be compressed within the sheath 12, and when the constraint of the sheath 12 is removed backwards, the distraction mesh 11-1 can completely or substantially restore the pre-compression shape. During clinical use, the opening net 11-1 can be folded into the sheath tube 12, after the sheath tube 12 enters the cavity, the sheath tube 12 is retreated to release the opening net 11-1, the opening net 11-1 is unfolded to open the cavity in front of or around the camera 22-1, the observation visual field is expanded, the examination and operation part and the surrounding tissues can be better observed in the clinical use process, and the observation effect in the clinical use process is very good. The scraping wires 11-31 of the spreading net 11-1 can be made of materials with various shapes such as wires, thin tubes, sheets and the like. And the opening net 11-1 can be set into various geometric shapes such as an ellipsoid shape, a pear shape and the like according to the shape of the cavity so as to better adapt to the shape of the cavity, and is particularly suitable for corners which are difficult to clean in the cavity.

The visible diagnosis and treatment system 100 with the cavity distraction device also comprises a negative pressure suction mechanism 4. The tissue fluid such as blood and the like generated in the examination or operation can be quickly sucked and discharged out of the body through the negative pressure suction mechanism 4, and the observation of the clinical use process is clearer.

The negative pressure suction mechanism 4 of the visible diagnosis and treatment system 100 with the cavity distracter comprises a suction inlet 41, a suction outlet 42 and a suction channel 43; the sheath tube 12 of the visual diagnosis and treatment system 100 with the cavity expanding device is a double-cavity tube, one cavity tube can be provided with the observation mechanism 2, and the other cavity tube forms or is provided with the suction channel 43; the suction inlet 41 is provided at the front end of the sheath tube 12, and the suction outlet 42 of the negative pressure suction mechanism 4 is provided at the rear end of the sheath tube 12. Due to the design of the double-cavity channel, the circuit system 3 can be isolated from blood, tissue fluid and other liquids possibly generated in an operation, potential safety hazards such as short circuit and electric leakage can be better avoided in the using process, and the clinical using process is safer.

The negative pressure suction mechanism 4 is provided with a negative pressure control switch 44 capable of controlling a negative pressure state. The negative pressure control switch 44 can turn on or off the negative pressure suction mechanism 4, and can adjust the negative pressure suction force of the negative pressure suction mechanism 4 according to the amount of stripped tissues, blood and tissue fluid in the uterus during the operation. When the negative pressure suction device is used clinically, doctors can conveniently adjust the negative pressure suction force required by the doctors, so that the situation that stripped tissues cannot be sucked out timely due to too small negative pressure suction force is avoided, and accidental injuries of tissues such as endometrium and the like due to too large negative pressure are avoided.

The negative pressure control switch 44 is arranged on the handle 52 of the control mechanism 5. The negative pressure control switch 44 is arranged on the handle 52, so that medical staff can operate the negative pressure control switch with one hand during clinical use, and the use process is more convenient.

The visible diagnosis and treatment system 100 with the cavity distraction device also comprises a flushing mechanism 6; at least 1 water outlet 61 of the flushing mechanism 6 is arranged at the front end of the camera 22-1 of the lens module 22. In the process of examination and operation, the flushing mechanism 6 can flush the camera 22-1, and can flush the blood water at the front end of the camera 22-1 in time, so as to ensure that the observation visual field is kept clean. Meanwhile, the flushing mechanism 6 can also flush the inside of the cavity in time, and especially can flush the operation part in time, so that the operation or the inspection part can be observed in time, the safety of the operation or the inspection process is ensured, and the clinical operation process is safer.

The sheath tube 12 of the visual diagnosis and treatment system 100 with the cavity expanding device is a three-cavity tube, the 1 st cavity tube is provided with the observation mechanism 2, the 2 nd cavity tube forms or is provided with the suction channel 43, the 3 rd cavity tube forms the water inlet pipeline 63 of the flushing mechanism 6 or is used for the entering and exiting of surgical instruments, and the water inlet 62 of the flushing mechanism 6 is arranged at the rear end of the sheath tube 12. The design of three chamber passageways can be separated the washing passageway and the suction passageway when guaranteeing that circuit system 3 is kept apart the protection, can guarantee like this better that there is not the tissue or the liquid of suction to get back to the uterus in the in-process of washing, and the use is more efficient, safety.

The flushing mechanism 6 is provided with a flushing switch 64 for controlling the flushing water flow. The flush switch 64 can turn the flushing mechanism 6 on and off and can control the amount of flushing water and the flushing pressure. In the clinical use process, a clinician can open or close the flushing mechanism 6 according to the actual needs of the operation process, and simultaneously selects the proper size and pressure of the flushing water flow according to the needs, so that the clinical use process is more convenient.

The flush switch 64 is provided on the handle 52 of the operating mechanism 5. The flushing switch 64 is arranged on the handle 52, so that medical staff can operate the flushing device with one hand during clinical use, and the use process is more convenient.

The distraction net 11-1 of the cavity distraction mechanism 1 is a woven net made of wires. The soft mesh grid design has less harm to the cavity.

The spacer mesh 11-1 has a different geometry. The opening net 11-1 can be set in various shapes such as a sphere, an ellipsoid, a pear and the like according to the shape of the cavity.

The distraction net 11-1 is made of medical elastic materials. The elastic action of the medical elastic material can give a good spreading force to the spreading net 11-1, and particularly when the spreading net 11-1 is released from the sheath 12, the spreading net 11-1 made of the elastic medical material can easily recover its shape. Moreover, the elastic force of the medical elastic material is a relatively gentle force, which can play a very good role in buffering in the process of opening the distraction net 11-1, and prevent the distraction net 11-1 from causing accidental injury to peripheral tissues or organs in the process of distraction.

The distraction net 11-1 is made of medical elastic stainless steel or medical titanium-nickel shape memory alloy. The applicant only lists the two medical elastic materials, and in practical applications, those skilled in the art can select different medical elastic materials according to needs without departing from the protection scope of the present application.

The opening net 11-1 is made of medical transparent elastic medical high polymer materials. The distraction net 11-1 can also be made of medical transparent elastic medical high polymer materials, so that the observation path of the camera 22-1 can be completely not shielded while the elastic buffering is ensured, and the observation effect is better.

The protective cover 20 of the observation mechanism 2 is provided with a coating. Hydrophobic coating can be selected to the coating, and liquid such as bloody water can be fast be in condense into water droplet landing on the protection casing 20 like this, also can select hydrophilic coating, and liquid such as bloody water can be fast be in protection casing 20 surface forms transparent water film like this, can not shelter from the camera.

The observation mechanism 2 at least comprises 2 cameras 22-1. The lens module 22 at least comprises 2 cameras 22-1, so that the problem of limited observation field of the existing single lens is well solved, and the observation field of the operation process can be effectively enlarged. Especially, when the cameras 22-1 are respectively arranged in front of and at the side of the control mechanism 5, a three-dimensional observation space can be formed around the control mechanism 5 by overlapping the observation fields, and the clinical observation effect is very good.

At least 1 camera 22-1 is arranged at the front end 5-1 of the control mechanism 5. The camera 22-1 arranged in front of the operating device 5 allows a good view of the area in front of the operating device 5.

At least 1 camera 22-1 is arranged on the side 5-5 of the control mechanism 5. The camera 22-1 arranged on the side 5-5 of the control member 5 can observe the side of the control member 5.

The viewing areas of 2 or more than 2 of the cameras 22-1 can be contiguous or partially overlapping. The observation areas of the cameras 22-1 respectively arranged at the front end 5-1 and the side surface 5-5 of the control mechanism 5 are mutually connected to form a space observation field, so that the clinical observation effect is better.

The viewing mechanism 2 also includes an instrument channel 25. The observation mechanism 2 can be further provided with the instrument channel 25, the instrument channel 25 can be used as the water inlet pipeline 63 for washing the cavity, can also be used as a channel for the passing in and out of a surgical instrument, and can be used for carrying out various surgical operations such as tissue washing, biopsy, electrotomy, electrocoagulation, ablation and the like while observing.

The circuitry 3 is provided with an electrical interface 31 for connection to a host computer. The visual diagnosis and treatment system 100 with the cavity distracter is connected with a host and a power supply through the electrical interface 31.

The visible diagnosis and treatment system 100 with the cavity distraction device comprises an electronic protection mechanism 30; the electronic protection mechanism 30 is disposed outside the observation mechanism 2 and/or the circuit system 3, and performs waterproof, gas-proof, and insulation protection on electronic components of the observation mechanism 2 and/or the circuit system 3. Set up observation mechanism 2 with circuit system 3's outside electron protection mechanism 30 can be right observation mechanism 2 with circuit system 3's electronic components carries out waterproof, gas-proof, insulation protection, effectively prevents that the normal work of electronic components is influenced to the bloody water or tissue fluid that produce among the operation process, guarantees the normal clear of operation, and clinical operation process is safer.

The electronic protection mechanism 30 is a protection mechanism 30-1 disposed around the illumination module 21 and the lens module 22, or an insulating protection layer 30-2 disposed outside the circuit system 3, or an insulating adhesive layer 30-3 disposed in the handle 52 for protecting the image processing system 103.

The protection mechanism 30-1 is formed by arranging a protection cover 20 at the front ends of the illumination module 21 and the lens module 22, arranging an isolation seat 25 at the rear side of the illumination module 21 and the lens module 22, forming a closed space by bonding the protection cover 20, the isolation seat 25 and the shell 24 and the like, completely isolating the illumination module 21 and the lens module 22 from human tissues, and ensuring that blood or tissue fluid generated in the operation process cannot influence the normal work of the illumination module 21 and the lens module 22.

The waterproof and insulating protective layer 30-2 is arranged outside the circuit system 3, so that accidents such as short circuit and the like caused by bloody water or tissue fluid generated in the operation process can be effectively avoided.

When the signal processing module 23 is arranged in the handle 52, glue filling processing can be performed on the periphery of the signal processing module 23 to form the insulating glue layer 30-3, so that the signal processing module 23 and the peripheral circuit system 3 are completely sealed and isolated, and the waterproof, gas-proof and insulating protection purposes are achieved.

The visual diagnosis and treatment system 100 with the cavity distraction device further comprises an identification system 8. The identification system 8 can indicate the depth of the actuation member 5 into the body. The marking system 8 may be a scale 81 disposed outside the operating mechanism 5, or may be other marking methods, which the applicant does not specifically exemplify here, without departing from the scope of protection of the present application.

The visual diagnosis and treatment system 100 with the cavity distraction device also comprises a flushing system 106; the water inlet 106-1 of the flushing system 106 is connected with an infusion bottle or a bag 7 through a water pipe 106-4, and the water outlet 106-2 of the flushing system 106 is connected with the water inlet 62 of the flushing mechanism 6 of the visual diagnosis and treatment system 100 with the cavity distracting device through a water pipe 106-4. The flushing system 106 can flush the visible diagnosis and treatment system 100 with the cavity distraction device and peripheral tissues in time in the process of examination or operation, so that the observation field of vision is kept clean, the operation part can be flushed in time, the observation of the examination and operation process is clear, and the clinical operation process is safer.

The irrigation system 106 is driven using a peristaltic pump 106-3. The peristaltic pump 106-3 may more precisely control the flow and speed of the incoming water. Of course, in practice, a person skilled in the art may also adopt different driving means to drive the flushing system 106 without departing from the scope of protection of the present application.

The visual diagnosis and treatment system 100 with the cavity distraction device also comprises a negative pressure aspirator 105; the suction outlet 42 of the negative pressure suction mechanism 4 of the visual diagnosis and treatment system with cavity distracter 100 is connected with the negative pressure suction apparatus 105. The visual diagnosis and treatment system 100 with the cavity opening device comprises the negative pressure suction device 105 and the flushing system 106, the negative pressure suction function and the flushing function are integrated on one device, the whole operation process of direct vision induced abortion can be completed by only one device, an external negative pressure source and an external flushing system are not needed, the limitation and influence of the external environment on the operation process are greatly reduced, and the application range is very wide.

During clinical application, the observation mechanism 2 is placed into the opening mechanism 1, the opening net 11-1-3 is folded into the sheath tube 12, the visual diagnosis and treatment system 100 with the cavity opening device is placed into the body, the sheath tube 12 is retreated, the opening net 11-1-3 is opened, the cavity at the front end of the observation mechanism 2 is opened, peripheral tissues and organs can be observed through the camera 22-1, and when needed, surgical instruments are placed into the body through the instrument channel 25 or the sheath tube 12 to perform various surgical operations such as biopsy sampling, electrotomy, electrocoagulation, ablation and the like. The camera 22-1 of the observation mechanism 2 and the cavity can be timely washed by the washing mechanism 6, and the tissue fluid, the blood fluid, the washing fluid and other fluids can be timely sucked out of the body by the negative pressure suction mechanism 4.

The utility model discloses a take visual diagnosis and treatment system of cavity distraction device contains cavity distraction mechanism 1, observation mechanism 2, circuit system 3, electrical power generating system 104, control mechanism 5 and display system 102. The cavity opening mechanism 1 comprises an opening end 11; the opening end 11 is arranged at the front end 5-1 of the control mechanism 5, and can open the cavity at the front end of the observation mechanism 2 to enlarge the observation visual field of the observation mechanism 2. The observation mechanism 2 comprises an illumination module 21, a lens module 22, a signal processing module 23 and a shell 24; after the image and video observed by the lens module 22 in the light field of the illumination module 21 are processed by the signal processing module 23, the image and video are output by the circuit system 3 to the display system 102 for display; the lighting module 21, the lens module 22 and the circuit system 3 are hermetically mounted in the housing 24 after being connected. Because the cavity at the front end of the observation mechanism 2 is opened, the observation visual field of the lens module 22 is larger, and the clinical observation effect is better. The utility model discloses a take visual system of diagnosing of cavity distraction device can follow surgical instruments simultaneously get into internally in the sheath pipe 12, carry out various operations such as biopsy sample, electrocision, electricity congeals, melts when observing, and clinical use is very convenient.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of the visual diagnosis and treatment system with the cavity expanding device of the present invention.

Fig. 1-1 is a cross-sectional view of fig. 1.

Fig. 1-2 is an enlarged view at a of fig. 1-1.

Fig. 2 is a schematic three-dimensional structure of the visible diagnosis and treatment system with the cavity distracter of the present invention with a negative pressure suction mechanism and a flushing mechanism.

Fig. 2-1 is a cross-sectional view of fig. 2.

Fig. 2-2 is an enlarged view at B of fig. 2-1.

Fig. 2-3 is an enlarged view at C of fig. 2-1.

Fig. 2-4 is an enlarged view at D of fig. 2-1.

Fig. 3 is a schematic view of a three-dimensional structure of a visual diagnosis and treatment system with a cavity expanding device, which has an adjustable observation direction.

Fig. 3-1 is an enlarged view at E of fig. 3.

Fig. 3-2 is a schematic view of the three-dimensional structure of the visual diagnosis and treatment system with the cavity expanding device of the present invention with the direction of the expanding net adjustable.

Fig. 3-3 is an enlarged view at F of fig. 3-2.

Fig. 3-4 are schematic perspective views of the visible diagnosis and treatment system with the cavity opening device of the present invention, in which the opening direction and the observing direction are adjustable.

Fig. 3-5 are enlarged views at G of fig. 3-4.

Fig. 4 is a schematic three-dimensional structure diagram of a visual diagnosis and treatment system with a cavity opening device, which comprises 2 cameras.

Fig. 4-1 is an enlarged view at H of fig. 4.

Fig. 5 is a schematic perspective view of a visual diagnosis and treatment system with a cavity opening device of the present invention, wherein the observation mechanism includes an instrument channel.

Fig. 5-1 is an enlarged view at I of fig. 5.

Fig. 6 is a working schematic diagram of the visual diagnosis and treatment system with the cavity expanding device of the present invention.

Fig. 7 is a working schematic diagram of the visual diagnosis and treatment system with the cavity expanding device of the present invention.

Fig. 8 is a working principle diagram of the visual diagnosis and treatment system with the cavity expanding device of the present invention with the negative pressure suction device.

In the above figures:

100 is the visual diagnosis and treatment system with the cavity expanding device of the present invention.

A display system 102, a power supply system 104, a negative pressure aspirator 105, and a flushing system 106.

1 is a cavity opening mechanism, 2 is an observation mechanism, 3 is a circuit system, 4 is a negative pressure suction mechanism, 5 is an operation mechanism, 6 is a flushing mechanism, 7 is an infusion bottle or bag, and 8 is an identification system.

11 is a spreading end; 11-1 is a spreading net, and 11-4 is a swing mechanism; 12 is a sheath tube, 12-1 is an inner sheath tube, 12-2 is an outer sheath tube, and 12-3 is a channel.

20 is a protective cover, 21 is a lighting module, 22 is a lens module, 23 is a signal processing module, 24 is a shell, and 25 is an isolation seat; 22-1 is a camera, and 22-11 is an adjusting mechanism.

30-1 is a protection mechanism, 30-2 is an insulating protection layer, and 30-3 is an insulating glue layer.

And 31 is a circuit interface.

Reference numeral 41 denotes a suction inlet, 42 denotes a suction outlet, 43 denotes a suction passage, and 44 denotes a negative pressure control switch.

5-1 is the front end, 5-5 is the side; and 52 is a handle.

61 is a water outlet, 62 is a water inlet, 63 is a water inlet pipeline, and 64 is a flushing switch.

7-1 is a pipeline, and 81 is a graduated scale.

106-1 is a water inlet, 106-2 is a water outlet, 106-3 is a peristaltic pump, and 106-4 is a water pipe.

Detailed Description

Example 1: the utility model discloses a take visual system of diagnosing of cavity distraction device

Referring to fig. 1-2, the visual diagnosis system with a cavity expanding device of the present embodiment includes a cavity expanding mechanism 1, an observation mechanism 2, a circuit system 3, a power system 104, an operation mechanism 5, and a display system 102.

Referring to fig. 1, the cavity opening mechanism 1 includes an opening end 11 and a sheath 12, and the sheath 12 is disposed at a rear end of the opening end 11. The sheath 12 comprises an inner sheath 12-1 and an outer sheath 12-2, and the distraction net 11-1 can be compressed in the outer sheath 12-2

The opening end 11 is arranged at the front end 5-1 of the control mechanism 5, and can open the cavity at the front end of the observation mechanism 2 to enlarge the observation visual field of the observation mechanism 2.

In this embodiment, the opening end 11 is an opening net 11-1. The camera 22-1 can directly observe the situation behind the distraction net 11-1 from the mesh gap, and the whole course observation of the operation process and the panoramic observation of the operation area can be realized even if the distraction net 11-1 is not made of transparent materials.

The observation mechanism 2 comprises an illumination module 21, a lens module 22, a signal processing module 23 and a shell 24; after the image and video observed by the lens module 22 in the light field of the illumination module 21 are processed by the signal processing module 23, the image and video are output by the circuit system 3 to the display system 102 for display; the lighting module 21, the lens module 22 and the circuit system 3 are hermetically mounted in the housing 24 after being connected.

Referring to fig. 6, the viewing mechanism 2, the display system 102 and the power system 104 are connected through the circuitry 3.

Referring to fig. 1-1 and 1-2, in the present embodiment, the observation mechanism 2 and the cavity expanding mechanism 1 are separately provided.

The observation mechanism 2 is an independent sealing device and can move back and forth in the channel 12-3 of the sheath 12 of the cavity opening mechanism 1. The design scheme of independent arrangement enables the observation mechanism 2 to be fixed at the rear end or inside the distraction net 11-1 of the cavity distraction mechanism 1 according to requirements, and the clinical use is very flexible. In addition, during clinical use, after observation is finished, the observation mechanism 2 is removed, the observation mechanism 2 can be reused after disinfection and sterilization, and only the cavity opening mechanism 1 is used once, so that the clinical use cost can be greatly saved.

The observation mechanism 2 and the cavity expanding mechanism 1 may be integrated, and at this time, the sheath 12 of the cavity expanding mechanism 1 forms the housing 24. The illumination module 21, the lens module 22, and the circuit system 3 of the observation mechanism 2 are sealed inside the sheath 12. During clinical use, the visual diagnosis and treatment system 100 with the cavity distraction device can be directly placed into a human body for observation, and the operation is simple and convenient in the clinical use process.

In this embodiment, the camera 22-1 of the lens module 22 is disposed at the rear end of the distraction net 11-1, and the distraction net 11-1 is located in the field of view of the camera 22-1.

The technical scheme of the rear camera 22-1 can ensure that the distraction net 11-1 is completely positioned in the visual field range of the camera 22-1, and because the observation angle of the camera 22-1 faces the front of an operation or examination area, an observation blind area cannot exist in the process, and the technical scheme of the rear camera ensures that the clinical examination and the operation process are safer and more effective.

Referring to fig. 1, in this embodiment, the expanded mesh 11-1 is a net structure formed by winding two wires. In practical application, the expanding net 11-1 of the cavity expanding mechanism 1 can also be a woven net made of wires. The soft mesh grid design has less harm to the cavity.

The spacer mesh 11-1 has a different geometry. The opening net 11-1 can be set in various shapes such as a sphere, an ellipsoid, a pear and the like according to the shape of the cavity.

The distraction net 11-1 is made of medical elastic materials. The elastic action of the medical elastic material can give a good spreading force to the spreading net 11-1, and particularly when the spreading net 11-1 is released from the sheath 12, the spreading net 11-1 made of the elastic medical material can easily recover its shape. Moreover, the elastic force of the medical elastic material is a relatively gentle force, which can play a very good role in buffering in the process of opening the distraction net 11-1, and prevent the distraction net 11-1 from causing accidental injury to peripheral tissues or organs in the process of distraction.

The distraction net 11-1 is made of medical elastic stainless steel or medical titanium-nickel shape memory alloy. The applicant only lists the two medical elastic materials, and in practical applications, those skilled in the art can select different medical elastic materials according to needs without departing from the protection scope of the present application.

The opening net 11-1 is made of medical transparent elastic medical high polymer materials. The distraction net 11-1 can also be made of medical transparent elastic medical high polymer materials, so that the observation path of the camera 22-1 can be completely not shielded while the elastic buffering is ensured, and the observation effect is better.

The circuitry 3 is provided with an electrical interface 31 for connection to a host computer. The visual diagnosis and treatment system 100 with the cavity distracter is connected with a host and a power supply through the electrical interface 31.

The visual diagnosis and treatment system 100 with the cavity distraction device further comprises an identification system 8. The identification system 8 can indicate the depth of the actuation member 5 into the body. The marking system 8 may be a scale 81 disposed outside the operating mechanism 5, or may be other marking methods, which the applicant does not specifically exemplify here, without departing from the scope of protection of the present application.

In the visual diagnosis and treatment system with the cavity expanding device of the embodiment, the expanding end 11 of the cavity expanding mechanism 1 is arranged at the front end of the camera 22-1 of the observation mechanism 2, and the expanding end 11 can expand the cavity at the front end of the observation mechanism 2 to expand the observation field of the observation mechanism 2, so that the visual diagnosis and treatment system is particularly suitable for examination and operation processes of hysteroscopes, enteroscopes and the like. During the use, will the utility model discloses a take visual system of diagnosing of cavity distraction device inserts in the cavity, the distraction end 11 struts the cavity, observation mechanism 2 observes the region that is propped open, image and the video signal warp that lens module 22 observed circuit system 3 exports show on the display system 102. Because the cavity at the front end of the observation mechanism 2 is opened, the observation visual field of the lens module 22 is larger, and the clinical observation effect is better.

Example 2: take negative pressure suction mechanism and wash mechanism the utility model discloses a take visual system of diagnosing of cavity distraction device

Referring to fig. 2 to fig. 4, the difference between this embodiment and embodiment 1 is that in this embodiment, the visible medical system 100 with a cavity distractor further includes a negative pressure suction mechanism 4 and an irrigation mechanism 6.

Referring to fig. 2-1, the sheath 12 comprises an inner sheath 12-1 and an outer sheath 12-2, the stent 11-1 can be compressed in the outer sheath 12-2, the inner sheath 12-1 is a three-lumen tube, the 1 st lumen tube is provided with the observation mechanism 2, the 2 nd lumen tube forms or is provided with the suction channel 43, and the 3 rd lumen tube forms a water inlet channel 63 of the flushing mechanism 6 or is used for the entering and exiting of surgical instruments.

The negative pressure suction mechanism 4 includes a suction inlet 41, a suction outlet 42, and a suction passage 43. The suction inlet 41 is provided at the front end of the inner sheath 12-1, and the suction outlet 42 of the negative pressure suction mechanism 4 is provided at the rear end of the inner sheath 12-1. Due to the design of the double-cavity channel, the circuit system 3 can be isolated from blood, tissue fluid and other liquids possibly generated in an operation, potential safety hazards such as short circuit and electric leakage can be better avoided in the using process, and the clinical using process is safer.

The negative pressure suction mechanism 4 is provided with a negative pressure control switch 44 capable of controlling a negative pressure state. The negative pressure control switch 44 can turn on or off the negative pressure suction mechanism 4, and can adjust the negative pressure suction force of the negative pressure suction mechanism 4 according to the amount of stripped tissues, blood and tissue fluid in the uterus during the operation. When the negative pressure suction device is used clinically, doctors can conveniently adjust the negative pressure suction force required by the doctors, so that the situation that stripped tissues cannot be sucked out timely due to too small negative pressure suction force is avoided, and accidental injuries of tissues such as endometrium and the like due to too large negative pressure are avoided.

The negative pressure control switch 44 is arranged on the handle 52 of the control mechanism 5. The negative pressure control switch 44 is arranged on the handle 52, so that medical staff can operate the negative pressure control switch with one hand during clinical use, and the use process is more convenient.

The flushing mechanism 6 comprises a water outlet 61, a water inlet 62 and a water inlet pipe 63.

Referring to fig. 2-1 and 2-2, at least 1 water outlet 61 of the flushing mechanism 6 is arranged at the front end of the camera 22-1 of the lens module 22. In the process of examination and operation, the flushing mechanism 6 can flush the camera 22-1, and can flush the blood water at the front end of the camera 22-1 in time, so as to ensure that the observation visual field is kept clean. Meanwhile, the flushing mechanism 6 can also flush the inside of the cavity in time, and especially can flush the operation part in time, so that the operation or the inspection part can be observed in time, the safety of the operation or the inspection process is ensured, and the clinical operation process is safer.

The water inlet 62 of the flushing mechanism 6 is arranged at the rear end of the inner sheath tube 12-1. The design of three chamber passageways can be separated the washing passageway and the suction passageway when guaranteeing that circuit system 3 is kept apart the protection, can guarantee like this better that there is not the tissue or the liquid of suction to get back to the uterus in the in-process of washing, and the use is more efficient, safety.

The flushing mechanism 6 is provided with a flushing switch 64 for controlling the flushing water flow. The flush switch 64 can turn the flushing mechanism 6 on and off and can control the amount of flushing water and the flushing pressure. In the clinical use process, a clinician can open or close the flushing mechanism 6 according to the actual needs of the operation process, and simultaneously selects the proper size and pressure of the flushing water flow according to the needs, so that the clinical use process is more convenient.

The flush switch 64 is provided on the handle 52 of the operating mechanism 5. The flushing switch 64 is arranged on the handle 52, so that medical staff can operate the flushing device with one hand during clinical use, and the use process is more convenient.

Referring to fig. 2-1, 2-3 and 2-4, the visual diagnosis and treatment system with cavity distractor 100 comprises an electronic protection mechanism 30; the electronic protection mechanism 30 is disposed outside the observation mechanism 2 and/or the circuit system 3, and performs waterproof, gas-proof, and insulation protection on electronic components of the observation mechanism 2 and/or the circuit system 3. Set up observation mechanism 2 with circuit system 3's outside electron protection mechanism 30 can be right observation mechanism 2 with circuit system 3's electronic components carries out waterproof, gas-proof, insulation protection, effectively prevents that the normal work of electronic components is influenced to the bloody water or tissue fluid that produce among the operation process, guarantees the normal clear of operation, and clinical operation process is safer.

The electronic protection mechanism 30 is a protection mechanism 30-1 disposed around the illumination module 21 and the lens module 22, or an insulating protection layer 30-2 disposed outside the circuit system 3, or an insulating adhesive layer 30-3 disposed in the handle 52 for protecting the image processing system 103.

The protection mechanism 30-1 is formed by arranging a protection cover 20 at the front ends of the illumination module 21 and the lens module 22, arranging an isolation seat 25 at the rear side of the illumination module 21 and the lens module 22, forming a closed space by bonding the protection cover 20, the isolation seat 25 and the shell 24 and the like, completely isolating the illumination module 21 and the lens module 22 from human tissues, and ensuring that blood or tissue fluid generated in the operation process cannot influence the normal work of the illumination module 21 and the lens module 22.

The waterproof and insulating protective layer 30-2 is arranged outside the circuit system 3, so that accidents such as short circuit and the like caused by bloody water or tissue fluid generated in the operation process can be effectively avoided.

When the signal processing module 23 is arranged in the handle 52, glue filling processing can be performed on the periphery of the signal processing module 23 to form the insulating glue layer 30-3, so that the signal processing module 23 and the peripheral circuit system 3 are completely sealed and isolated, and the waterproof, gas-proof and insulating protection purposes are achieved.

In this embodiment, the flushing mechanism 6 can flush the camera 22-1 and the cavity, and the negative pressure suction mechanism 4 can quickly suck and discharge the tissue fluid, the blood flushing fluid and other liquids generated in the examination or operation out of the body, so that the observation in the clinical use process is clearer and safer.

Example 3: viewing direction adjustable the utility model discloses a take visual system of diagnosing of cavity distraction device

Referring to fig. 3 to 3-5, the present embodiment is different from embodiment 1 in that, in the present embodiment, the camera 22-1 of the lens module 22 is disposed inside the curettage device 11.

In this embodiment, the camera 22-1 of the lens module 22 is disposed inside the curettage device 11.

Referring to fig. 3 and 3-1, the viewing direction of the camera 22-1 of the lens module 22 can be adjusted. By adjusting the observation direction of the camera 22-1, the surrounding tissue condition can be observed in an all-around way, and the observation effect is more comprehensive in clinical use.

The adjusting mechanism 22-11 of the camera 22-1 for adjusting the observation direction is arranged on the handle 52 of the control mechanism 5. The adjusting mechanism 22-11 is arranged on the handle 52, so that the observing direction of the camera 22-1 can be conveniently adjusted outside the body in clinical use, and the operation is simpler.

Referring to fig. 3-2 and 3-3, the working position direction of the opening end 11 can be adjusted. The working position direction of the opening end 11 can be adjusted as required, the structural shape of the peripheral cavity can be better adapted, and the clinical use effect of the parts which are difficult to clear or observe, such as uterine corners, is better.

The swinging mechanism 11-4 of the opening end 11 for adjusting the direction of the working position is arranged on the handle 52. The swinging mechanism 11-4 is arranged on the handle 52, so that the working direction of the working part of the curettage device 11 can be conveniently adjusted outside the body in clinical use, and the operation is simpler.

Referring to fig. 3 to 4 and 3 to 5, the viewing direction of the camera 22-1 of the lens module 22 and the working position direction of the opening end 11 can be adjusted simultaneously. In practical applications, the clinician can adjust the viewing direction of the camera 22-1 or the working site direction of the opening end 11 only as needed, or can adjust the viewing direction of the camera 22-1 and the working site direction of the opening end 11 at the same time.

When the viewing direction of the camera 22-1 and the working position direction of the opening end 11 are adjusted simultaneously, the adjusting mechanism 22-11 and the swinging mechanism 11-4 can be combined into one adjusting mechanism to be arranged on the handle 52.

In this embodiment, since the observing direction of the camera 22-1 and the direction of the working part of the distraction net 11-1 can be adjusted, the clinical effect is better for the corners which are difficult to be cleaned and observed in clinical use.

Example 4: contain a plurality of cameras the utility model discloses a visual system of diagnosing of device is propped up to area cavity

Referring to fig. 4 and 4-1, the difference between this embodiment and embodiment 1 is that, in this embodiment, the lens module 22 at least includes 2 cameras 22-1.

The lens module 22 at least comprises 2 cameras 22-1, so that the problem of limited observation field of the existing single lens is well solved, and the observation field of the operation process can be effectively enlarged. Especially, when the cameras 22-1 are respectively arranged in front of and at the side of the control mechanism 5, a three-dimensional observation space can be formed around the control mechanism 5 by overlapping the observation fields, and the clinical observation effect is very good.

At least 1 camera 22-1 is arranged at the front end 5-1 of the control mechanism 5. The camera 22-1 arranged in front of the operating device 5 allows a good view of the area in front of the operating device 5.

At least 1 camera 22-1 is arranged on the side 5-5 of the control mechanism 5. The camera 22-1 arranged on the side 5-5 of the control member 5 can observe the side of the control member 5.

The viewing areas of 2 or more than 2 of the cameras 22-1 can be contiguous or partially overlapping. The observation areas of the cameras 22-1 respectively arranged at the front end 5-1 and the side surface 5-5 of the control mechanism 5 are mutually connected to form a space observation field, so that the clinical observation effect is better.

In this embodiment, the lens module 22 at least includes 2 cameras 22-1, so that the problem of limited observation field of view of the existing single lens is well solved, and the observation field of view in the operation process can be effectively enlarged. Especially, when the cameras 22-1 are respectively arranged in front of and at the side of the control mechanism 5, a three-dimensional observation space can be formed around the control mechanism 5 by overlapping the observation fields, and the clinical observation effect is very good.

Example 5: visual diagnosis and treatment system with cavity opening device of the utility model containing instrument channel

Referring to fig. 5 and 5-1, this embodiment differs from embodiment 1 in that in this embodiment, the viewing mechanism 2 includes an instrument channel 25.

Referring to fig. 5 and 5-1, the viewing mechanism 2 is provided with the instrument channel 25 and the water inlet conduit 63. Surgical instruments can enter the body through the instrument channel 25, and various surgical operations such as biopsy sampling, electric excision, electric coagulation, laser ablation and the like can be performed according to requirements. The outlet 61 of the water inlet pipe 63 is arranged near the camera 22-1, so that the camera 22-1 and peripheral cavity tissues can be washed in time. And the negative pressure suction mechanism 4 can timely suck and discharge the tissue fluid, the blood fluid, the flushing fluid and other liquids generated in the flushing and operation processes out of the body.

The visual diagnosis and treatment system with the cavity opening device can effectively observe and simultaneously perform various operation operations according to needs, and is wider in clinical application range.

Example 6: contain rinse-system the utility model discloses a take visual system of diagnosing of cavity distraction device

Referring to fig. 7, the difference between the visual diagnosis system with cavity distractor of the present embodiment and embodiment 1 is that the visual diagnosis system with cavity distractor further includes an irrigation system 106.

The water inlet 106-1 of the flushing system 106 is connected with an infusion bottle or a bag 7 through a water pipe 106-4, and the water outlet 106-2 of the flushing system 106 is connected with the water inlet 62 of the flushing mechanism 6 of the visual diagnosis and treatment system with the cavity distraction device through a water pipe 106-4. The flushing system 106 can flush the visible diagnosis and treatment system with the cavity distracting device and the peripheral tissues with the electronic protection mechanism in time in the operation process, so that the observation visual field is kept clean, and the operation part can be flushed in time, thereby observing whether the embryonic tissues are completely cleared from the implantation position or not in time, ensuring the completeness of the embryonic tissues in the abortion operation process, effectively avoiding the incomplete condition of abortion, and ensuring the safety of the clinical operation process.

Referring to fig. 7, the irrigation system 106 is driven using a peristaltic pump 106-3. The peristaltic pump 106-3 may more precisely control the flow and speed of the incoming water. Of course, in practice, a person skilled in the art may also adopt different driving means to drive the flushing system 106 without departing from the scope of protection of the present application.

In this embodiment, the flushing system 106 can flush the visible diagnosis and treatment system with the cavity spreader and the peripheral tissues in time during the operation, so as to ensure that the observation field of vision is kept clean and the operation site can be flushed in time, thereby ensuring safer clinical use.

Example 7: negative pressure source-containing visual diagnosis and treatment system with cavity opening device

Referring to fig. 8, the difference between the direct-view uterine curettage system of the present embodiment and embodiment 6 is that the direct-view uterine curettage system further includes a negative pressure suction device 105 in the present embodiment.

In this embodiment, the suction outlet 42 of the negative pressure suction mechanism 4 of the visual diagnosis and treatment system with the cavity distracter is connected with the negative pressure suction apparatus 105; the water inlet 106-1 of the flushing system 106 is connected with an infusion bottle or a bag 7 through a pipeline 7-1, and the water outlet 106-2 of the flushing system 106 is connected with the water inlet 62 of the flushing mechanism 6 through a pipeline 7-1.

In clinical use, the suction outlet 42 of the negative pressure suction mechanism 4 and the negative pressure aspirator 105 are connected, and the negative pressure aspirator 105 can continuously suck and discharge tissues peeled off in an operation and blood water generated in the operation out of the body during the operation.

The visual diagnosis and treatment system with the cavity opening device comprises the negative pressure suction device 105 and the flushing system 106, the negative pressure suction function and the flushing function are integrated on one piece of equipment, the whole operation process of direct vision induced abortion can be completed by one piece of equipment, an external negative pressure source and an external flushing system are not required to be relied on, the limitation and influence of the external environment on the operation process are greatly reduced, and the application range is very wide.

It should be noted that the structures disclosed and described herein may be replaced by other structures having the same effect, and the embodiments described herein are not the only structures for implementing the present invention. Although preferred embodiments of the present invention have been shown and described herein, it will be apparent to those skilled in the art that these embodiments are merely illustrative and that numerous changes, modifications and substitutions can be made without departing from the invention herein, and it is intended that the scope of the invention be defined by the spirit and scope of the appended claims.

Claims (35)

1. Take visual system of diagnosing of cavity distraction device, its characterized in that: the visual diagnosis and treatment system (100) with the cavity expanding device comprises a cavity expanding mechanism (1), an observation mechanism (2), a circuit system (3), a power supply system (104), an operation mechanism (5) and a display system (102);

A. the cavity expanding mechanism (1) comprises an expanding end (11); the opening end (11) is arranged at the front end (5-1) of the control mechanism (5) and can open the cavity at the front end of the observation mechanism (2) to expand the observation view of the observation mechanism (2);

B. the observation mechanism (2) comprises an illumination module (21), a lens module (22), a signal processing module (23) and a shell (24); images and videos observed by the lens module (22) in the light field of the illumination module (21) are processed by the signal processing module (23) and then output to the display system (102) by the circuit system (3) for display; the lighting module (21), the lens module (22) and the circuit system (3) are connected and then are hermetically installed in the shell (24);

C. the observation mechanism (2) and the display system (102) are connected with the power supply system (104) through the circuit system (3).

2. A visual medical system with a chamber expanding device according to claim 1, wherein: the opening end (11) is an opening net (11-1).

3. A visual medical system with a chamber distractor according to claim 2, wherein: the camera (22-1) of the lens module (22) is arranged at the rear end of the distraction net (11-1), and the distraction net (11-1) is positioned in the visual field of the camera (22-1).

4. A visual medical system with a chamber distractor according to claim 2, wherein: the camera (22-1) of the lens module (22) is arranged inside the spreading net (11-1).

5. A visual medical system with a chamber expanding device according to claim 1, wherein: the observation direction of a camera (22-1) of the lens module (22) can be adjusted.

6. A visual medical system with a cavity distractor according to claim 5, wherein: the adjusting mechanism (22-11) for adjusting the observation direction of the camera (22-1) is arranged on the handle (52) of the control mechanism (5).

7. A visual medical system with a chamber expanding device according to claim 1, wherein: the working position direction of the opening end (11) can be adjusted.

8. A visual medical system with a cavity distractor according to claim 7, wherein: the swinging mechanism (11-4) of the opening end (11) for adjusting the direction of the working position is arranged on a handle (52) of the control mechanism (5).

9. A visual medical system with a chamber expanding device according to claim 1, wherein: the observing direction of a camera (22-1) of the lens module (22) and the working position direction of the opening end (11) can be adjusted simultaneously.

10. A visual medical system with a chamber distractor according to claim 2, wherein: the cavity opening mechanism (1) also comprises a sheath tube (12); the distraction mesh (11-1) is compressible within the sheath (12), and the distraction mesh (11-1) is capable of fully restoring or substantially restoring its pre-compressed shape when the sheath (12) is withdrawn from its restraint.

11. A visual medical system with a chamber expanding device according to claim 1, wherein: the visual diagnosis and treatment system (100) with the cavity distraction device also comprises a negative pressure suction mechanism (4).

12. A visual medical system with a chamber distractor according to claim 11, wherein: the negative pressure suction mechanism (4) of the visual diagnosis and treatment system (100) with the cavity expanding device comprises a suction inlet (41), a suction outlet (42) and a suction channel (43); the sheath tube (12) of the visual diagnosis and treatment system (100) with the cavity expanding device is a double-cavity tube, one cavity tube can be provided with the observation mechanism (2), and the other cavity tube forms or is provided with the suction channel (43); the suction inlet (41) is arranged at the front end of the sheath tube (12), and the suction outlet (42) of the negative pressure suction mechanism (4) is arranged at the rear end of the sheath tube (12).

13. A visual medical system with a chamber distractor according to claim 11, wherein: the negative pressure suction mechanism (4) is provided with a negative pressure control switch (44) capable of controlling the negative pressure state.

14. A visual medical system with a lumen distractor according to claim 13, wherein: the negative pressure control switch (44) is arranged on a handle (52) of the control mechanism (5).

15. A visual medical system with a chamber expanding device according to claim 1, wherein: the visual diagnosis and treatment system (100) with the cavity distraction device also comprises a flushing mechanism (6); and the water outlets (61) of at least 1 flushing mechanism (6) are arranged at the front end of a camera (22-1) of the lens module (22).

16. A visual diagnostic system with a chamber distractor according to claim 15, wherein: the sheath tube (12) of the visual diagnosis and treatment system (100) with the cavity expanding device is a three-cavity tube, the 1 st cavity tube is arranged on the observation mechanism (2), the 2 nd cavity tube is formed or provided with a suction channel (43), the 3 rd cavity tube is formed by a water inlet pipeline (63) of the flushing mechanism (6) or a surgical instrument is supplied to enter and exit, and a water inlet (62) of the flushing mechanism (6) is arranged at the rear end of the sheath tube (12).

17. A visual diagnostic system with a chamber distractor according to claim 15, wherein: the flushing mechanism (6) is provided with a flushing switch (64) for controlling flushing water flow.

18. A visual medical system with a lumen distractor according to claim 17, wherein: the flushing switch (64) is arranged on the handle (52) of the control mechanism (5).

19. A visual medical system with a chamber distractor according to claim 2, wherein: the opening net (11-1) of the cavity opening mechanism (1) is a woven net made of silk materials.

20. A visual medical system with a chamber distractor according to claim 2, wherein: the spacer mesh (11-1) has different geometrical shapes.

21. A visual medical system with a chamber distractor according to claim 2, wherein: the distraction net (11-1) is made of medical elastic materials.

22. A visual diagnostic system with a chamber distractor according to claim 21, wherein: the distraction net (11-1) is made of medical elastic stainless steel or medical titanium-nickel shape memory alloy.

23. A visual diagnostic system with a chamber distractor according to claim 21, wherein: the opening net (11-1) is made of medical transparent elastic medical high polymer materials.

24. A visual medical system with a chamber expanding device according to claim 1, wherein: and a coating is arranged on the protective cover (20) of the observation mechanism (2).

25. A visual medical system with a chamber expanding device according to claim 1, wherein: the observation mechanism (2) at least comprises 2 cameras (22-1).

26. A visual medical system according to claim 25 wherein: at least 1 camera (22-1) is arranged at the front end (5-1) of the control mechanism (5).

27. A visual medical system according to claim 25 wherein: at least 1 camera (22-1) is arranged on the side surface (5-5) of the control mechanism (5).

28. A visual medical system according to claim 25 wherein: the observation areas of 2 or more than 2 cameras (22-1) can be connected or partially overlapped.

29. A visual medical system with a chamber expanding device according to claim 1, wherein: the viewing mechanism (2) further comprises an instrument channel (25).

30. A visual medical system with a chamber expanding device according to claim 1, wherein: the circuit system (3) is provided with an electrical interface (31) connected with a host.

31. A visual medical system with a chamber expanding device according to claim 1, wherein: the visual diagnosis and treatment system (100) with the cavity distraction device comprises an electronic protection mechanism (30); the electronic protection mechanism (30) is arranged outside the observation mechanism (2) and/or the circuit system (3) and used for carrying out waterproof, gas-proof and insulation protection on electronic components of the observation mechanism (2) and/or the circuit system (3).

32. A visual medical system with a chamber expanding device according to claim 1, wherein: the visual diagnosis and treatment system (100) with the cavity distraction device further comprises an identification system (8).

33. A visual medical system with a chamber expanding device according to claim 1, wherein: the visual diagnosis and treatment system (100) with the cavity distraction device also comprises a flushing system (106); the water inlet (106-1) of the flushing system (106) is connected with an infusion bottle or a bag (7) through a water pipe (106-4), and the water outlet (106-2) of the flushing system (106) is connected with the water inlet (62) of the flushing mechanism (6) of the visual diagnosis and treatment system (100) with the cavity distraction device through the water pipe (106-4).

34. A visual diagnostic system with a chamber distractor according to claim 33, wherein: the flushing system (106) is driven by a peristaltic pump (106-3).

35. A visual medical system with a chamber expanding device according to claim 1, wherein: the visual diagnosis and treatment system (100) with the cavity distraction device also comprises a negative pressure aspirator (105); and the suction outlet (42) of the negative pressure suction mechanism (4) of the visual diagnosis and treatment system (100) with the cavity expanding device is connected with the negative pressure suction device (105).

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