CN213665157U - AI laryngoscope imaging auxiliary system - Google Patents

Abstract

The utility model discloses an AI laryngoscope imaging auxiliary system, which comprises a mobile platform, a control module, a camera component, a laryngoscope component and a display component, wherein the mobile platform is provided with a first space and a second space from bottom to top in sequence, the control module is arranged in the second space, the top of the mobile platform is rotationally connected with a rotary table, a lifting component is arranged between the rotary table and the bottom of the first space, two sides of the lifting component are provided with foot switches for controlling the lifting component, the control module is arranged in the second space, the camera component is respectively connected with an image processing module and an eyepiece part of the laryngoscope component, the laryngoscope component is clamped by a fixing clamp arranged at the top of the second space, one side of the laryngoscope component is connected with a light source component through a light guide beam, the display component is arranged at the top of the second space, the utility model not only can be flexibly moved without an external power supply, meanwhile, the display can be amplified to assist doctors in diagnosis, and the angle and the height can be adjusted, so that the use is convenient.

Description

AI laryngoscope imaging auxiliary system

Technical Field

The utility model relates to a medical instrument especially relates to an AI laryngoscope image science auxiliary system.

Background

Currently, laryngeal carcinoma is the most common malignancy of the head and neck. The prognosis of patients with laryngeal cancer depends on the stage of the cancer at the time of diagnosis. Although endoscopy is an important examination for diagnosing laryngeal cancer, early detection of laryngeal cancer also relies on the experience of the endoscopist and conventional white light endoscopy. In recent years, endoscopic systems with Narrow Band Imaging (NBI) can enhance visualization of epithelial and sub-epithelial microvascular patterns, achieving high sensitivity and high specificity in early detection of laryngeal cancer. However, advanced loupes, special training times and highly trained endoscopists have limited the clinical use of NBI endoscopes, especially in low-income regions and countries. The traditional endoscope equipment is inconvenient to move, needs an external power supply, is limited in use places, needs a doctor to observe through an eyepiece and is not beneficial to diagnosis of the doctor.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model aims to provide an AI laryngoscope image science auxiliary system not only can remove in a flexible way, need not external power supply, can enlarge simultaneously and show the supplementary doctor of assistance and diagnose, but angle regulation and height moreover, it is convenient to use.

The purpose of the utility model is realized by adopting the following technical scheme:

the AI laryngoscope imaging auxiliary system comprises a moving platform, a control module, a camera shooting assembly, a laryngoscope assembly and a display assembly, wherein the moving platform is sequentially provided with a first space and a second space from bottom to top; a lifting assembly is arranged between the rotating table and the bottom of the first space and used for adjusting the height; pedal switches for controlling the lifting assembly are arranged on two sides of the lifting assembly;

the control module is arranged in the second space;

the camera shooting assembly is respectively connected with the image processing module and the eyepiece part of the laryngoscope assembly and is used for acquiring a laryngoscope image of a patient and transmitting the laryngoscope image to the image processing module;

the laryngoscope component is clamped by a fixing clamp arranged at the top of the second space, one side of the laryngoscope component is connected with a light source component through a light guide beam, and the light source component is arranged in the first space and used for supplementing a light source for the laryngoscope component;

the display assembly is arranged at the top of the second space, is connected with the control module and is used for displaying a patient laryngoscope image;

the portable power source assembly is arranged in the first space and used for supplying power.

Further, the control module comprises a processor, an image processing module, a storage module and a wireless module, wherein the image processing module is connected with the processor and used for processing and converting image information shot by the camera shooting assembly and transmitting the image information to the processor, the storage module is connected with the processor and used for storing patient laryngoscope image information, and the wireless module is used for connecting the processor and the display assembly.

Furthermore, the wireless module is a WIFI module and/or a Bluetooth module, is connected with the display assembly through the WIFI module and/or the Bluetooth module, realizes wireless connection, does not need to fix the position of the display assembly, and is more convenient.

Furthermore, 4 universal wheels are arranged at the bottom of the mobile platform, so that the mobile platform can be conveniently pushed, and the mobility of the mobile platform is improved.

Further, the light source subassembly is the LED lamp, just light source subassembly one side is provided with adjustment button for adjust light source intensity, accessible adjustment button adjusts current intensity in order to realize the regulation of light source intensity.

Furthermore, the display component is a PC end, a tablet computer or a mobile phone end, so that the use is more convenient.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the mobile platform and the mobile power supply are arranged, so that the mobile platform and the mobile power supply can be flexibly moved to different use places, and the use is more convenient; the laryngoscope is characterized in that the laryngoscope is provided with a laryngoscope lens, and the laryngoscope is provided with a laryngoscope lens; in addition, a rotating table and a lifting assembly are arranged, and the angle and the height of the display assembly can be adjusted according to actual needs through the rotating table and the lifting assembly, so that the use of doctors is facilitated; the utility model discloses not only can remove in a flexible way, need not external power supply, can enlarge simultaneously and show the supplementary doctor and diagnose, but angle regulation and height moreover, it is convenient to use.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic diagram of a circuit principle according to an embodiment of the present invention.

In the figure: 1.a mobile platform; 11. a first space; 12. a second space; 121. a fixing clip; 13. a universal wheel; 14. a rotating table; 2. a control module; 21. a processor; 22. an image processing module; 23. a storage module; 24. a wireless module; 3. a camera assembly; 4. a laryngoscope assembly; 5. a display component; 6. a light source assembly; 61. conducting light beam guiding; 62. an adjustment button; 7. a mobile power supply component; 8. a lifting assembly; 81. a foot switch.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

As shown in fig. 1-2, the AI laryngoscope imaging auxiliary system comprises a moving platform 1, a control module 2, a camera shooting component 3, a laryngoscope component 4 and a display component 5, wherein the moving platform 1 is sequentially provided with a first space 11 and a second space 12 which are independent from each other from bottom to top, the top of the moving platform 1 is rotatably connected with a rotating platform 14, the center of the rotating platform 14 is connected with the top of the moving platform 1 through a rotating shaft, so that the rotating platform 14 can rotate around the rotating shaft, and the rotating platform 14 is used for adjusting the angle; a lifting assembly 8 is arranged between the rotating platform 14 and the bottom of the first space 11, and the lifting assembly 8 is used for adjusting the height; two sides of the lifting component 8 are provided with foot switches 81 for controlling the lifting component 8, and the two foot switches 81 respectively control the lifting component 8 to ascend or descend, so as to achieve the purpose of adjusting the height of the display component 5, more specifically, the lifting component 8 is an electric push rod, wherein the fixed end of the electric push rod is fixedly connected with the upper end face of the rotating platform 14, and the telescopic end of the electric push rod is fixedly connected with the bottom of the second space 12; the control module 2 is arranged in the second space 12, the camera shooting component 3 is respectively connected with the image processing module 22 and the eyepiece part of the laryngoscope component 4 and is used for acquiring laryngoscope images of a patient and transmitting the images to the image processing module 22, and specifically, the camera shooting component 3 adopts a digital high-definition automatic focusing camera;

the laryngoscope component 4 is clamped by a fixing clamp 121 arranged at the top of the second space 12, one side of the laryngoscope component 4 is connected with a light source component 6 through a light guide beam 61, and the light source component 6 is arranged in the first space 11 and used for supplementing a light source for the laryngoscope component 4;

the display component 5 is arranged at the top of the second space 12, and the display component 5 is connected with the control module 2 and is used for displaying a patient laryngoscope image;

the portable laryngoscope further comprises a portable power source assembly 7, the portable power source assembly 7 is arranged in the first space 11 and used for supplying power, the portable power source assembly 7 is respectively in circuit connection with the control module 2, the laryngoscope assembly 3, the camera shooting assembly 4 and the light source assembly 6, an external power source is not needed, and the mobility is strong; specifically, the portable power source module 7 is a battery.

During the use, the doctor observes the affected part of patient with laryngoscope subassembly 4, and subassembly 3 of making a video recording absorbs the laryngoscope image of 4 eyepiece parts of laryngoscope subassembly this moment to transmit to control module 2, control display assembly 5 through control module 2 at last, show to enlarge the laryngoscope image and supply the doctor to observe, thereby supplementary doctor makes the diagnosis to the patient's state of an illness.

In this embodiment, the control module 2 includes a processor 21, an image processing module 22, a storage module 23 and a wireless module 24, the image processing module 22 is connected to the processor 21 and is configured to process and convert image information captured by the camera assembly 3 and transmit the image information to the processor 21, the storage module 23 is connected to the processor 21 and is configured to store patient laryngoscope image information, and the wireless module 24 is configured to connect the processor 21 and the display assembly 5; the doctor observes the affected part of patient with laryngoscope subassembly 4, and subassembly 3 of making a video recording shoots the laryngoscope image of 4 eyepiece portions of laryngoscope subassembly this moment to transmit to image processing module 22 and turn into the signal of telecommunication, then change the image through treater 21 and exist in storage module 23, be convenient for repeatedly watch, transmit display module 5 through wireless module 24 simultaneously, with enlargies the laryngoscope image and supply the doctor to observe, thereby supplementary doctor makes the diagnosis to the patient's state of an illness.

Furthermore, the laryngoscope image in the storage module 23 is a database constructed based on laryngoscope images of laryngeal cancer, benign tumor and normal tissue of multiple tertiary hospitals, a convolutional neural network diagnosis system trained for multiple times based on the database is arranged in the processor 21, an early diagnosis model is established, and the method has high sensitivity and specificity, can be used for automatically detecting laryngeal cancer and laryngeal precancerous lesion in the laryngoscope image from the benign tumor and the normal tissue, is favorable for diagnosing the laryngeal cancer at early stage, improves clinical results and reduces the burden of an endoscope physician.

In this embodiment, wireless module 24 is a WIFI module and/or a bluetooth module, and is connected to display module 5 through the WIFI module and/or the bluetooth module, realizes wireless connection, need not fixed display module 5's position, and is more convenient.

In this embodiment, four corners of the bottom of the mobile platform 1 are fixedly provided with 4 universal wheels 13, which is convenient for pushing the mobile platform 1 and improves the mobility of the mobile platform 1.

In this embodiment, the light source assembly 6 is an LED lamp, and an adjusting button 62 is disposed on one side of the light source assembly 6 for adjusting the intensity of the light source, and the current intensity can be adjusted by the adjusting button 62 to adjust the intensity of the light source.

In this embodiment, display module 5 can choose for use PC end, panel computer or cell-phone end according to actual need, or adopts the multiple simultaneously, can long-range the watch, and it is more convenient to use.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (6)

1. AI laryngoscope image science auxiliary system, including moving platform (1), control module (2), subassembly (3), laryngoscope subassembly (4) and display module (5), its characterized in that of making a video recording: the mobile platform (1) is sequentially provided with a first space (11) and a second space (12) from bottom to top, the top of the mobile platform (1) is rotatably connected with a rotating platform (14), and the rotating platform (14) is used for adjusting the angle; a lifting assembly (8) is arranged between the rotating platform (14) and the bottom of the first space (11), and the lifting assembly (8) is used for adjusting the height; two sides of the lifting component (8) are provided with foot switches (81) for controlling the lifting component (8);

   the control module (2) is arranged in the second space (12);

   the camera shooting assembly (3) is respectively connected with the control module (2) and the eyepiece part of the laryngoscope assembly (4) and is used for acquiring a laryngoscope image of a patient and transmitting the laryngoscope image to the control module (2);

   the laryngoscope component (4) is clamped by a fixing clamp (121) arranged at the top of the second space (12), one side of the laryngoscope component (4) is connected with a light source component (6) through a light guide beam (61), and the light source component (6) is arranged in the first space (11) and used for supplementing a light source for the laryngoscope component (4);

   the display component (5) is arranged at the top of the second space (12), and the display component (5) is connected with the control module (2) and is used for displaying a patient laryngoscope image;

   the portable power source component (7) is arranged in the first space (11) and used for supplying power.
2. 2. The AI laryngoscope imaging assistance system according to claim 1, wherein: the control module (2) comprises a processor (21), an image processing module (22), a storage module (23) and a wireless module (24), wherein the image processing module (22) is connected with the processor (21) and used for processing and converting image information shot by the camera assembly (3) and transmitting the image information into the processor (21), the storage module (23) is connected with the processor (21) and used for storing patient laryngoscope image information, and the wireless module (24) is used for connecting the processor (21) and the display assembly (5).
3. 3. The AI laryngoscope imaging assistance system according to claim 2, wherein: the wireless module (24) is a WIFI module and/or a Bluetooth module.
4. 4. The AI laryngoscope imaging assistance system according to claim 1, wherein: the bottom of the mobile platform (1) is provided with a plurality of universal wheels (13).
5. 5. The AI laryngoscope imaging assistance system according to claim 1, wherein: the LED lamp is characterized in that the light source component (6) is an LED lamp, and an adjusting button (62) is arranged on one side of the light source component (6) and used for adjusting the intensity of the light source.
6. 6. The AI laryngoscope imaging assistance system according to claim 1, wherein: the display component (5) is a PC end, a tablet computer or a mobile phone end.

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