CN208864274U - The visual 3D endoscope of bootable trachea cannula - Google Patents
The visual 3D endoscope of bootable trachea cannula Download PDFInfo
- Publication number
- CN208864274U CN208864274U CN201720837963.6U CN201720837963U CN208864274U CN 208864274 U CN208864274 U CN 208864274U CN 201720837963 U CN201720837963 U CN 201720837963U CN 208864274 U CN208864274 U CN 208864274U
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- China
- Prior art keywords
- tube core
- visual
- endoscope
- bootable
- exchange tube
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Abstract
The utility model belongs to technical field of medical equipment, disclose the visual 3D endoscope of bootable trachea cannula, the visual 3D endoscope of bootable trachea cannula is provided with mirror body, there is exchange tube core guiding groove inside mirror body back side, and the exchange tube core guiding groove is connected with the pedestal of 3D endoscope;Mirror body veutro is provided with pumping punching, takes out the opposite side that punching is distributed in exchange tube core guiding groove;Miniature webcam, two light sources and a microtelephone there are two being inlayed in the front end face of mirror body, two miniature webcams are symmetrically distributed in the two sides for taking out punching and the intersection for exchanging tube core guiding groove, two source symmetrics are distributed in the top of miniature webcam and the lower part of exchange tube core guiding groove, and microtelephone is placed in left side miniature webcam and takes out the intersection of punching.Mainstream trachea cannula equipment and the theory now such as the visual 3D endoscope set laryngoscope of the bootable trachea cannula, visible laryngoscope, optical wand, Bronchofiberscope, visual tube core, high-frequency ventilation.
Description
Technical field
The invention belongs to technical field of medical equipment more particularly to the visual 3D endoscopes of bootable trachea cannula.
Background technique
At present sold on the market intubation branchofiberoscope, visual tube core mirror because its must merging tracheal catheter inside, therefore
Its diameter is smaller, and it is more multi-functional to complete to be attached to more equipment, and the visual field is partially narrow, cumbersome, one-time success rate, time are superfluous
Long, equipment rapid wear, and in operating process, the interference such as root of the tongue, oral secretion, vomitus vulnerable to suffix.
Laryngoscope, visible laryngoscope etc. are larger into buccal portion volume, and mouth opening is too small not to be available, easy damaged tooth;Thorn
Swash epiglottic vallecula or epiglottis dorsal surface, Accessory injury is larger when operation, and patient's stress reaction is stronger;It is remained in air flue redness, oral cavity
The visual field is influenced when blood.
Optical wand: intubation is convenient, introduction is fast, but need to pass through skin of anterior portion of neck optical wand form and position indirect addressing when its operation
The relative position of tracheal catheter leading portion and glottis is not suitable for being intubated the patient for having proliferation or easy bleeding on path, Er Qieyou
In self character, Yi Yinfa spoon ring abarticulation or other Airway damages.
High-frequency ventilation: conventional highfrequency ventilation guidance tracheal intubation is by special sound caused by high-frequency air flow impulsive sound band
Sound positions the relative position at tip and glottis, has great blindness, and high pressure draught easily generates damage to air flue mucous membrane.
In conclusion problem of the existing technology is: laryngoscope, visible laryngoscope, optical wand, Bronchofiberscope, visual pipe on the market
Core, high-frequency ventilation itself limiting factor are more, more by external interference, larger to the damage of body, can not be to difficult airway and tight
Anxious air flue patient carries out tracheal catheter intubation.
Summary of the invention
In view of the problems of the existing technology, the present invention provides the visual 3D endoscopes of bootable trachea cannula.
The invention is realized in this way the visual 3D endoscope of the bootable trachea cannula is provided with mirror body, mirror body back side
There is exchange tube core guiding groove in inside, and the exchange tube core guiding groove is connected with the pedestal of 3D endoscope;Mirror body veutro is provided with pumping
The opposite side that punching is distributed in exchange tube core guiding groove is taken out in punching;
Miniature webcam, two light sources and a microtelephone there are two inlaying in the front end face of mirror body, two miniature
Camera is symmetrically distributed in the two sides for taking out punching and the intersection for exchanging tube core guiding groove, and two source symmetrics are distributed in miniature take the photograph
As the top of head and the lower part of exchange tube core guiding groove, microtelephone is placed in left side miniature webcam and takes out the boundary of punching
Place;
Mirror body tail end is connected with wireless audio video transmitter, and wireless audio video transmitter side is provided with high-frequency ventilation and connects
Mouthful;It is connected with wireless audio video transmitter and is connected to handle, handle side is equipped with aspirator interface, and the top of aspirator interface is set
There is power supply;Exchange pipe clamp slot is equipped on the outside of handle.
Further, the mirror body is round or oval structure.
Further, the mirror body is tip adjustable type open-type structure.
Further, the exchange tube core guidance trench bottom is open-type structure.
Further, the exchange tube core in the exchange tube core guiding groove is visual exchange tube core or soft quality endpoint emitting optical fiber
Guiding tube core.
Further, the light source is LED light source or Bronchofiberscope cold light source.
Advantages of the present invention and good effect are as follows: the visual 3D endoscope set laryngoscope of the bootable trachea cannula, visual
Mainstream trachea cannula equipment and the theory now such as laryngoscope, optical wand, Bronchofiberscope, visual tube core, high-frequency ventilation, when guidance tracheal intubation
The mainstream technologys such as endoscope, optical wand, high-frequency ventilation can be applied to complete multi-faceted combined type intubation simultaneously, have 3D stereo vision,
The interference in the more visuals field of the root of the tongue of implication secretion, blood, vomitus, suffix is got a clear view while excluding, it is easy to operate, it can be quick
Solve difficult airway and emergency airway.
Detailed description of the invention
Fig. 1 is the visual 3D endoscope schematic diagram of bootable trachea cannula provided in an embodiment of the present invention.
Fig. 2 is the front end face front view provided in an embodiment of the present invention for leading scope pipeline.
In figure: 1, mirror body;2, tube core guiding groove is exchanged;3, pedestal;4, punching is taken out;5, miniature webcam;6, light source;7, micro-
Type microphone;8, wireless audio video transmitter;9, high-frequency ventilation interface;10, handle;11, aspirator interface;12, power supply;13,
Exchange pipe clamp slot.
Specific embodiment
In order to further understand the content, features and effects of the present invention, the following examples are hereby given, and cooperate attached drawing
Detailed description are as follows.
Structure of the invention is explained in detail with reference to the accompanying drawing.
The visual 3D endoscope of the bootable trachea cannula is provided with mirror body 1, there is exchange tube core guidance inside 1 back side of mirror body
Slot 2, the exchange tube core guiding groove 2 are connected with the pedestal 3 of 3D endoscope;1 veutro of mirror body, which is provided with, takes out punching 4, takes out punching 4 and divides
Cloth is in the opposite side of exchange tube core guiding groove 2;
5, two light sources 6 of miniature webcam and a microtelephone 7 there are two being inlayed in the front end face of mirror body 1, two
Miniature webcam 5 is symmetrical with the two sides for taking out punching 4 and the intersection for exchanging tube core guiding groove 2, and two light sources 6 are symmetrically distributed in micro-
The top of type camera 5 and the lower part of exchange tube core guiding groove 2, microtelephone 7 are placed in left side miniature webcam 5 and take out punching
4 intersection;
1 tail end of mirror body is connected with wireless audio video transmitter 8, and it is logical that 8 side of wireless audio video transmitter is provided with high frequency
Gas interface 9;It is connected with wireless audio video transmitter 8 and is connected to handle 10,10 side of handle is equipped with aspirator interface 11, aspirator
The top of interface 11 is equipped with power supply 12;The outside of handle 10 is equipped with exchange pipe clamp slot 13.
The mirror body 1 is round or oval structure.
The mirror body 1 is tip adjustable type open-type structure.
2 bottom of exchange tube core guiding groove is open-type structure.
Exchange tube core in the exchange tube core guiding groove 2 is visual exchange tube core.
The light source 6 is LED light source or Bronchofiberscope cold light source.
Mirror body 1 is 230mm long;3 diameter of suction hole is not less than 4mm;The exchange tube core diameter exchanged in tube core guiding groove 2 is little
In 4.0mm;5 diameter of miniature webcam is 1.8mm.Glottis is found by 3D guiding endoscope, and will exchange tube core edge exchange pipe
After core guiding groove 2 is sent to the main tracheae of patient, separation exchange tube core and 3D guiding endoscope;High-frequency ventilation and aspirator connect respectively
Enter high-frequency ventilation interface 9 and aspirator interface 11, opens power supply 12, and determining and display is wirelessly connected in order;For
The fine patient of mouth opening can exchange tube core in the instruction lower edge of 3D guiding endoscope and complete trachea cannula operation, for dehiscing
Lesser patient is spent, 3D guiding endoscope is withdrawn from after completing separation exchange tube core and 3D guiding endoscope, tracheal catheter is placed on
After exchanging tube core, then exchange tube core is connected in corresponding exchange pipe clamp slot 13, ensure to exchange tube core be located at it is endotracheal before
It puts and completes trachea cannula operation along exchange tube core.
Visual 3D endoscope can 3D, 2D pattern switching;3D pattern distance sense is more preferable;It can be with reference to reversing software;Increase by one
A path simulation mode.Solve the problems, such as the common Bronchofiberscope visual field and pars oralis pharyngis liquid interference visual field problem.Visual exchange tube core
Can better guide cannula, and can be used for difficult airway patient airway's conduit exchange;No matter patient what situation, as long as energy
By guiding endoscope, intubation is not too big problem.
The above is only the preferred embodiments of the present invention, and is not intended to limit the present invention in any form,
Any simple modification made to the above embodiment according to the technical essence of the invention, equivalent variations and modification, belong to
In the range of technical solution of the present invention.
Claims (6)
1. the visual 3D endoscope of bootable trachea cannula, which is characterized in that peeped in the visual 3D of the bootable trachea cannula
Mirror is provided with mirror body, there is exchange tube core guiding groove, the pedestal of exchange the tube core guiding groove and 3D endoscope inside mirror body back side
It is connected;Mirror body veutro is provided with pumping punching, takes out the opposite side that punching is distributed in exchange tube core guiding groove;
Miniature webcam, two light sources and a microtelephone there are two being inlayed in the front end face of mirror body, two miniature video cameras
Head is symmetrically distributed in the two sides for taking out punching and the intersection for exchanging tube core guiding groove, and two source symmetrics are distributed in miniature webcam
Top and exchange tube core guiding groove lower part, microtelephone be placed in left side miniature webcam and take out punching intersection;
Mirror body tail end is connected with wireless audio video transmitter, and wireless audio video transmitter side is provided with high-frequency ventilation interface;
It is connected with wireless audio video transmitter and is connected to handle, handle side is equipped with aspirator interface, and the top of aspirator interface is equipped with
Power supply;Exchange pipe clamp slot is equipped on the outside of handle.
2. the visual 3D endoscope of bootable trachea cannula as described in claim 1, which is characterized in that the mirror body is circle
Or ellipsoidal structure.
3. the visual 3D endoscope of bootable trachea cannula as described in claim 1, which is characterized in that the mirror body is tip
Adjustable type open-type structure.
4. the visual 3D endoscope of bootable trachea cannula as described in claim 1, which is characterized in that the exchange tube core draws
Guide groove bottom is open-type structure.
5. the visual 3D endoscope of bootable trachea cannula as described in claim 1, which is characterized in that the exchange tube core draws
Exchange tube core in guide groove is visual exchange tube core or soft quality endpoint emitting optical fiber guiding tube core.
6. the visual 3D endoscope of bootable trachea cannula as described in claim 1, which is characterized in that the light source is LED
Light source or Bronchofiberscope cold light source.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720837963.6U CN208864274U (en) | 2017-07-12 | 2017-07-12 | The visual 3D endoscope of bootable trachea cannula |
Applications Claiming Priority (1)
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CN201720837963.6U CN208864274U (en) | 2017-07-12 | 2017-07-12 | The visual 3D endoscope of bootable trachea cannula |
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CN208864274U true CN208864274U (en) | 2019-05-17 |
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CN201720837963.6U Expired - Fee Related CN208864274U (en) | 2017-07-12 | 2017-07-12 | The visual 3D endoscope of bootable trachea cannula |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107510432A (en) * | 2017-07-12 | 2017-12-26 | 高长胜 | The visual 3D endoscopes of bootable trachea cannula |
CN110251791A (en) * | 2019-06-05 | 2019-09-20 | 樊宏 | A kind of visualization air flue tube ejector |
CN112076371A (en) * | 2019-06-13 | 2020-12-15 | 张立伟 | Full-time image monitoring endotracheal tube with built-in image endoscope |
-
2017
- 2017-07-12 CN CN201720837963.6U patent/CN208864274U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107510432A (en) * | 2017-07-12 | 2017-12-26 | 高长胜 | The visual 3D endoscopes of bootable trachea cannula |
CN110251791A (en) * | 2019-06-05 | 2019-09-20 | 樊宏 | A kind of visualization air flue tube ejector |
CN112076371A (en) * | 2019-06-13 | 2020-12-15 | 张立伟 | Full-time image monitoring endotracheal tube with built-in image endoscope |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190517 Termination date: 20200712 |