CN112764231B

CN112764231B - CT medical image is with reading piece ware based on AI technique

Info

Publication number: CN112764231B
Application number: CN202110061112.8A
Authority: CN
Inventors: 梁付奎
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2022-06-28
Anticipated expiration: 2041-01-18
Also published as: CN112764231A

Abstract

The invention discloses a CT medical image viewer based on AI technology, which comprises a lamp box and a box cover hinged on the lamp box, wherein a brush roll component used for cleaning dust in real time at a position where CT images are stably stored is arranged in the lamp box, a function monitoring component capable of changing the moving dust cleaning state of the brush roll component in real time according to the storage state of the CT images is arranged in the lamp box, a function connecting component capable of being matched with the box cover to open and close in real time to drive the brush roll component to synchronously move for cleaning dust is arranged on the inner side of the box cover, and the CT medical image viewer based on AI technology is different from the prior art, through the arranged brush roll component and the use of the function connecting component, when the box cover is opened each time, the function monitoring component can be used, so that dust cleaning treatment can be carried out on the lamp box in a targeted and synchronous manner, and the problem of dust accumulation possibly caused in the process of real-time CT image viewing and placing is effectively avoided, thereby being convenient for the long-time and accurate film reading.

Description

CT medical image is with reading piece ware based on AI technique

Technical Field

The invention relates to the technical field of CT (computed tomography) film reading auxiliary tools, in particular to a CT medical image film reader based on AI (artificial intelligence) technology.

Background

Medical imaging is a technique and a processing process for obtaining internal tissue influence on a human body or a certain part in a non-invasive manner for medical treatment or medical research, the medical imaging equipment has nuclear magnetic resonance, CT, ultrasound and the like, the CT equipment irradiates the human body part to generate a CT film, a doctor can perform focus analysis on the human body part according to the CT film, and the analysis and diagnosis of the CT film need a medical image diagnosis aid.

The medical image diagnosis assistor in the prior art mostly adopts a trolley or lamp box hanging plate form, for example, a CT department reads a piece device disclosed in patent application No. CN202020039005.6, and a CT department reads a piece device disclosed in patent application No. CN201921406900.0, the CT piece is clamped in front of a display screen, and a doctor in the CT department judges and studies an affected part, although the CT department can guarantee the real-time auxiliary image diagnosis and stable storage and dust prevention, dust is easy to enter into the infection and accumulate in the real-time taking and placing process of the CT piece by the conventional auxiliary piece reading device, and the accurate piece reading diagnosis is seriously affected in the past.

Disclosure of Invention

The invention aims to provide a CT medical image viewer based on AI technology to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a CT medical image viewer based on AI technology comprises a lamp box and a box cover hinged on the lamp box, wherein a brush roll component used for stably storing a viewing part for real-time dust removal is arranged in the lamp box, a function monitoring component capable of changing the moving dust removal state of the brush roll component in real time according to the storage state of a CT sheet is arranged in the lamp box, a function connecting component capable of being matched with the box cover to be opened and closed in real time to drive the brush roll component to synchronously move for dust removal is arranged on the inner side of the box cover, a plurality of infrared sensors and face recognition cameras are sequentially fixed on the outer side of the box cover, and different from the prior art, through the arranged brush roll component and the use of the function connecting component, when the box cover is opened each time, the function monitoring component can be used, so that dust removal treatment can be carried out on the lamp box in a targeted and synchronous manner, and the problem of dust accumulation possibly caused in the process of real-time viewing and placing of the CT sheet is effectively avoided, thereby being convenient for the long-time and accurate film reading.

Preferably, all seted up the main guide rail groove on top and the bottom inner wall in the lamp house, the brush roll part includes that both ends slide respectively and set up the axle that bears at the main guide rail inslot portion, bear the axle and use with the cooperation of functional connection part, and bear the off-axial side and be fixed with the installation sleeve, installation sleeve outside cover is equipped with the cotton brush cover that is used for the clear dust of lamp house stable contact to use, and installation sleeve mountain is provided with the synchronous blast air part that can effectively improve dust removal efficiency.

Preferably, the installation sleeve is hollow structure, and the function that runs through is all seted up at the installation sleeve both ends and is led to the groove, the position that the installation sleeve both ends are close to the function through-groove all is fixed with the dust screen, bear the axle and run through the installation sleeve, and rotate with the installation sleeve through the bearing and be connected, synchronous blast air part is including the axial fan blade that is located the installation sleeve both ends respectively, two axial fan blade opposite direction just all fixes on bearing the axle, a plurality of function through-holes that are used for real-time blast air to clear away the use have been seted up to the equidistance on the installation sleeve side.

Preferably, the function connecting part comprises a plurality of sliding blocks which are rotatably installed at two ends of the bearing shaft through bearings and have rotation limiting capacity, spare guide rail grooves are formed in the inner walls of the top and the bottom of the lamp box, two ends of each spare guide rail groove are communicated with two ends of the corresponding main guide rail groove, the plurality of sliding blocks are slidably arranged in the main guide rail grooves on two sides respectively and are matched with the function monitoring part for use, reversing parts capable of driving the bearing shaft to reversely rotate in the walking direction for dust removal are arranged on the plurality of sliding blocks, function connecting rods are rotatably installed on the plurality of sliding blocks through rotating shafts, the box cover is provided with the function connecting rod matching guide connecting part for stable anti-falling displacement use, and the function connecting rods are rotatably connected with the function connecting part through rotating shafts.

Preferably, the reversing component comprises a function gear fixed on the bearing shaft, an extension base is fixed on the polygonal sliding block, the function connecting rod is installed on the extension base, a function shaft is fixed at the end of the extension base, a reversing gear meshed with the function gear is fixed at the end of the function shaft, and function tooth grooves respectively meshed with the reversing gear are formed in the lamp box.

Preferably, the guide connecting part comprises a guide sliding block rotatably mounted at the end part of the functional connecting rod through a rotating shaft, a multi-side sliding groove which is matched with the guide sliding block and has limiting and anti-dropping capability is arranged on the box cover, the multi-side sliding groove is of a T-shaped groove structure, the guide sliding block is of a T-shaped structural design, and the guide sliding block is respectively slidably arranged in the corresponding multi-side sliding groove.

Preferably, the function monitoring component comprises an infrared laser transmitter and an infrared laser receiver which are respectively fixed at the top and the bottom of the opening of the lamp box, a contact switch which is matched with the box cover to be opened and closed in real time is arranged at the opening of the lamp box, the contact switch is electrically connected with the infrared laser transmitter and the infrared laser receiver, and an ejecting part which is matched with a real-time infrared signal and is used for effectively ejecting and switching tracks of the multi-edge slide block is arranged in the lamp box.

Preferably, the main guide rail groove is provided with a functional groove at one end close to the bearing shaft, the ejection part comprises functional ejection blocks which are respectively arranged in the functional groove in a sliding manner, the functional ejection blocks extend out of the main guide rail groove, an electric push rod is fixed at one end of each functional ejection block which is positioned outside the main guide rail groove, the electric push rods are fixed in the lamp box, and the functional ejection blocks and the polygonal sliding blocks are made of magnetic materials.

Compared with the prior art, the invention has the beneficial effects that:

compared with the prior art, the automatic adjustment device is characterized in that the brush roll component is arranged and the function connecting component is used in cooperation, so that when a box cover is opened each time, the function monitoring component is used, dust cleaning treatment can be performed on the interior of a lamp box in a targeted and synchronous manner, and the problem of dust accumulation possibly caused in the process of real-time reading and placing of CT (computed tomography) films is effectively avoided, so that the long-time accurate film reading is facilitated.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a side plan view partially in section of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of the three-dimensional partially sectioned structure of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of another embodiment of the present invention;

FIG. 5 is a schematic view of another embodiment of the present invention;

FIG. 6 is a schematic view of the three-dimensional partial cross-section of FIG. 5 according to the present invention;

FIG. 7 is a schematic view of the three-dimensional partial cross-section of FIG. 6 according to the present invention;

FIG. 8 is a schematic view of the three-dimensional partial cross-section of FIG. 7 according to the present invention;

FIG. 9 is an enlarged view of the area A of the present invention;

FIG. 10 is an enlarged view of the region B of the present invention;

FIG. 11 is an enlarged view of the region C of the present invention;

FIG. 12 is an enlarged view of the region D of the present invention;

FIG. 13 is an enlarged view of the structure of area E of the present invention;

FIG. 14 is a schematic view of the cross-sectional view of FIG. 13 according to the present invention.

In the figure: 1-a light box; 2-box cover; 3-a brush roll member; 4-a function monitoring component; 5-functional connection means; 6-main guide rail groove; 7-a carrier shaft; 8-installing a sleeve; 9-cotton brush sleeve; 10-a synchronous blower component; 11-functional through grooves; 12-a dust filter screen; 13-axial fan blades; 14-a functional via; 15-polygonal sliding block; 16-spare rail slots; 17-a reversing component; 18-a functional link; 19-guiding connecting part; 20-functional gear; 21-an extension base; 22-a functional axis; 23-a reversing gear; 24-functional gullets; 25-a guide slide block; 26-a multi-sided chute; 27-an infrared laser transmitter; 28-an infrared laser receiver; 29-contact switch; 30-a knock-out; 31-a functional recess; 32-a functional top block; 33-an electric push rod; 34-an infrared sensor; 35-face recognition camera.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-14, the present invention provides a technical solution: a CT medical image based on AI technology is used to read the piece ware, including lamp house 1 and articulated case lid 2 on the lamp house 1, lamp house 1 and case lid 2 for the department CT of prior art film read lamp house 1 structural design, do not do here too much to describe;

the light box 1 is internally provided with a brush roll component 3 which is used for stably storing CT (computed tomography) sheets and cleaning the CT sheets in real time, the light box 1 is internally provided with a function monitoring component 4 which can change the moving and dust cleaning state of the brush roll component 3 according to the storage state of the CT sheets in real time, the inner side of the box cover 2 is provided with a function connecting component 5 which can be matched with the real-time opening and closing of the box cover 2 to drive the brush roll component 3 to synchronously move and clean the dust, and the outer side of the box cover 2 is sequentially fixed with a plurality of infrared sensors 34 and face recognition cameras 35, so that in the real-time use process, different from the prior art, through the use of the arranged brush roll component 3 and the function connecting component 5, when the box cover 2 is opened each time, the dust can be cleaned through the function monitoring component 4, the dust in the light box 1 can be cleaned synchronously, and the problem of dust accumulation possibly caused in the real-time reading and placing process of the CT sheets is effectively avoided, thereby made things convenient for long-time accurate reading film to use, and the infrared inductor 34 and the face identification camera 35 that set up, the joinable computer carries out intelligent debugging, based on artificial intelligence technique, according to the distance automatically regulated luminance of people's face and lamp house 1, both can satisfy the image diagnostician like this to the individualized demand of luminance, also can practice thrift the power consumption.

The inner walls of the top and the bottom in the lamp box 1 are both provided with main guide rail grooves 6, the brush roll component 3 comprises a bearing shaft 7, the two ends of the bearing shaft 7 are respectively arranged in the main guide rail grooves 6 in a sliding manner, the bearing shaft 7 is of a circular shaft structure but is not limited, the bearing shaft 7 is matched with the functional connecting component 5 for use, a mounting sleeve 8 is fixed on the outer side of the bearing shaft 7, the mounting sleeve 8 is of a circular cylinder structure but is not limited, a cotton brush sleeve 9 used for stably contacting dust cleaning of the lamp box 1 is sleeved on the outer side of the mounting sleeve 8, a synchronous air blowing component 10 capable of effectively improving dust cleaning efficiency is arranged on the mounting sleeve 8, and further in the real-time use process, in the process of opening the box cover 2 in real time, the bearing shaft 7 is driven to synchronously move through the use of the functional connecting component 5, and in the synchronous moving process, the bearing shaft 7 travels in the lamp box 1 through the functional connecting component 5, and then in the walking in-process, carry out synchronous and effectual dust cleaning through cotton brush cover 9 in to lamp house 1, simultaneously, synchronous blast air part 10 blast air simultaneously, cooperate the real-time cleaning of cotton brush cover 9 to guarantee the high-efficient dust cleaning of lamp house 1 and use.

The mounting sleeve 8 is of a hollow structure, the two ends of the mounting sleeve 8 are both provided with a through functional groove 11, the through functional groove 11 is of an annular groove structure but is not limited to be, the positions of the two ends of the mounting sleeve 8 close to the through functional groove 11 are both fixed with a dust filter 12, the bearing shaft 7 penetrates through the mounting sleeve 8 and is rotatably connected with the mounting sleeve 8 through a bearing, the synchronous air blowing component 10 comprises axial flow fan blades 13 respectively positioned at the two ends in the mounting sleeve 8, the two axial flow fan blades 13 are opposite in direction and are both fixed on the bearing shaft 7, correspondingly, a plurality of functional through holes 14 for real-time air blowing and cleaning are equidistantly arranged on the side edge of the mounting sleeve 8, the functional through holes 14 are of a circular hole structure but not limited to be, and further, when the bearing shaft 7 drives the mounting sleeve 8 to rotate in a real-time use process, the synchronous axial flow fan blades 13 also rotate, so as to drive the airflow to flow into the mounting sleeve 8, then the real-time ventilation of the functional through hole 14 is matched, and the cleaning of the cotton brush sleeve 9 is matched, thereby ensuring the real-time and efficient dust cleaning treatment.

The function connecting part 5 comprises polygonal sliders 15 which are respectively rotatably mounted at two ends of a bearing shaft 7 through bearings and have rotation limiting capability, specifically, the polygonal sliders 15 are rectangular but not limited, the inner walls of the top and the bottom of the light box 1 are respectively provided with a standby guide rail groove 16, the standby guide rail grooves 16 are designed in a door-shaped structure, two ends of the standby guide rail grooves 16 are respectively communicated with two ends of the main guide rail groove 6, the polygonal sliders 15 are respectively slidably arranged in the main guide rail grooves 6 at two sides, the polygonal sliders 15 are matched with the function monitoring part 4 for use, the polygonal sliders 15 are provided with reversing parts 17 which can drive the bearing shaft 7 to reversely rotate in the traveling direction for dust removal, the polygonal sliders 15 are respectively rotatably mounted with function connecting rods 18 through rotating shafts, the function connecting rods 18 are rectangular rod structures but not limited, correspondingly, the box cover 2 is provided with guide connecting parts 19 which are matched with the function connecting rods 18 for stable displacement use, the function connecting rods 18 are respectively connected with the guide connecting parts 19 in a rotating mode through rotating shafts, and then in the process of opening the box cover 2 in real time, the guide connecting parts 19 drive the function connecting rods 18 to stably shift, so that the polygonal sliding blocks 15 are driven to stably shift in the main guide rail grooves 6, and in the shifting process, the reversing parts 17 are used to drive the bearing shafts 7 to synchronously rotate, the steering direction is opposite to the walking direction, effective dust removal is guaranteed, meanwhile, synchronous air blowing is achieved, and real-time efficient function dust removal is guaranteed.

The reversing component 17 comprises a functional gear 20 fixed on the bearing shaft 7, an extension base 21 is fixed on the polygonal sliding block 15, the functional connecting rod 18 is installed on the extension base 21, a functional shaft 22 is fixed at the end of the extension base 21, the functional shaft 22 is of a circular shaft structure but is not limited, a reversing gear 23 meshed with the functional gear 20 is fixed at the end of the functional shaft 22, correspondingly, functional tooth grooves 24 respectively meshed with the reversing gear 23 are formed in the lamp box 1 for use, when the polygonal sliding block 15 is pulled by the functional connecting rod 18 in a real-time use process, the reversing gear 23 moves in the functional tooth grooves 24, at the moment, the reversing gear 23 rotates in the same direction as the walking direction, and when the reversing gear is meshed with the functional gear 20 and drives the functional gear 20 to synchronously rotate, the direction of the functional gear 20 is opposite to the walking direction, so as to drive the bearing shaft 7 to reversely and synchronously rotate, thereby driving the installation sleeve 8 and the cotton brush sleeve 9 to be used for high-efficiency reverse dust cleaning synchronously.

The guide connecting component 19 includes a guide slider 25 rotatably mounted at an end of the functional connecting rod 18 through a rotating shaft, and correspondingly, the case cover 2 is provided with a multi-side sliding slot 26 which is matched with the guide slider 25 and has a limiting and anti-dropping capability, specifically, the multi-side sliding slot 26 is a T-shaped slot structure, and correspondingly, the guide slider 25 is designed in a T-shaped structure, and the guide sliders 25 are respectively slidably disposed in the corresponding multi-side sliding slots 26, so that in the real-time opening process of the case cover 2, the guide slider 25 is driven to shift and slide in the multi-side sliding slot 26 through the real-time deflection opening of the case cover 2, and the multi-side slider 15 is driven to continuously slide in the main guide rail slot 6, so as to meet the real-time and effective dust cleaning treatment.

The function monitoring component 4 comprises an infrared laser transmitter 27 and an infrared laser receiver 28 which are respectively fixed at the top and the bottom of the opening of the lamp box 1, a contact switch 29 which is matched with the box cover 2 to be opened and closed in real time is arranged at the opening of the lamp box 1, the contact switch 29 is electrically connected with the infrared laser transmitter 27 and the infrared laser receiver 28, an ejection piece 30 which is matched with a real-time infrared signal and is used for effectively ejecting and switching tracks to the polygonal slider 15 is arranged in the lamp box 1, further, in the real-time use process, under the condition that the box cover 2 is closed, the contact switch 29 is normally closed, the infrared laser transmitter 27 and the infrared laser receiver 28 are powered off and do not work, the polygonal slider 15 is positioned in the main guide rail groove 6, the reversing gear 23 is meshed with the functional tooth groove 24, when the box cover 2 is opened, all the components normally work to effectively clean dust once in the lamp box 1, when the case cover 2 is opened, the contact switch 29 is normally opened, the infrared laser emitter 27 and the infrared laser receiver 28 work, when a CT film is put in once, the CT film shields a laser signal, the ejector 30 immediately works to eject the multi-edge slider 15 into the standby guide rail groove 16, at the moment, when the case cover 2 is closed for film reading, as the multi-edge slider 15 is positioned in the standby guide rail groove 16, the cotton brush sleeve 9 is not in contact with the light box 1 and the CT film, and the reversing gear 23 is separated from the functional tooth groove 24, when the case cover 2 is closed, the cotton brush rolls do not act, and all parts do not act to clean dust, thereby avoiding influencing the normal display and use of CT, and after the case cover 2 is closed, the contact switch 29 is normally closed, the infrared laser emitter 27 and the infrared laser receiver 28 are powered off, thereby avoiding the real-time safe and efficient film reading of laser influence, and after the film reading is completed, the case cover 2 is opened, the infrared laser emitter 27 and the infrared laser receiver 28 continue to work, but the multi-edge slider 15 is still located in the standby guide rail groove 16, dust cleaning processing is still not performed at this time, in the process of taking out the CT slice, sequential laser signals are also shielded, at this time, the ejector 30 acts and resets, the multi-edge slider 15 enters the main guide rail groove 6, and further, when the case cover 2 is closed, the reversing gear 23 is matched with the functional tooth groove 24, so that effective synchronous dust cleaning processing is guaranteed, the influence of accumulation of real-time dust is effectively avoided, it needs to be noted that the ejection 30 is ejected from extension to reset to a working period, in one working period, the laser signals are received twice, and once laser signals are not received, the ejection 30 correspondingly acts, and further, the requirement for real-time stable ejection use is guaranteed.

The end of the main guide rail groove 6 close to the bearing shaft 7 is provided with a functional groove 31, the ejector 30 comprises functional ejector blocks 32 respectively slidably disposed in the functional groove 31, the functional ejector blocks 32 are polygonal block structures, but not limited to, the functional ejector blocks 32 extend out of the main guide rail groove 6, and one end of the functional ejector blocks 32 outside the main guide rail groove 6 is fixed with electric push rods 33, the electric push rods 33 are fixed in the light box 1, and further, in the real-time use process, the laser signals received in real time are correspondingly stretched, so as to ensure that the real-time track switching use of the polygonal slider 15 is satisfied, further, the functional ejector blocks 32 and the polygonal slider 15 are both made of magnetic materials, and further, after the functional ejector blocks 32 are reset, the polygonal slider 15 can be driven to effectively reset, so that the polygonal slider 15 can stably enter the main guide rail groove 6 through magnetic adsorption after the reset, and then guarantee to satisfy real-time stable and accurate dust removal and handle the use.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a CT medical image is with reading piece ware based on AI technique, includes lamp house (1) and articulates case lid (2) on lamp house (1), its characterized in that: the automatic piece reading and cleaning device is characterized in that a brush roll component (3) used for cleaning dust in real time at a piece reading part is stably stored in the lamp box (1), a function monitoring component (4) capable of changing the moving dust cleaning state of the brush roll component (3) according to the storage state of the CT pieces in real time is arranged in the lamp box (1), and a function connecting component (5) capable of being matched with the box cover (2) to be opened and closed in real time to drive the brush roll component (3) to synchronously move for cleaning dust is arranged on the inner side of the box cover (2);

the brush roller component (3) comprises a bearing shaft (7) with two ends respectively arranged in the main guide rail groove (6) in a sliding manner, the bearing shaft (7) is matched with the functional connecting component (5) for use, a mounting sleeve (8) is fixed on the outer side of the bearing shaft (7), a cotton brush sleeve (9) used for stably contacting the lamp box (1) for dust removal is sleeved on the outer side of the mounting sleeve (8), and a synchronous air blowing component (10) capable of effectively improving dust removal efficiency is arranged on the mounting sleeve (8);

the mounting sleeve (8) is of a hollow structure, two ends of the mounting sleeve (8) are provided with through functional through grooves (11), dust filtering nets (12) are fixed at positions, close to the through grooves (11), of the two ends of the mounting sleeve (8), the bearing shaft (7) penetrates through the mounting sleeve (8) and is rotatably connected with the mounting sleeve (8) through bearings, the synchronous air blowing component (10) comprises axial flow fan blades (13) respectively located at two ends of the mounting sleeve (8), the directions of the two axial flow fan blades (13) are opposite and fixed on the bearing shaft (7), and a plurality of functional through holes (14) used for real-time air blowing and removing are equidistantly formed in the side edge of the mounting sleeve (8);

the function connecting part (5) comprises multilateral sliders (15) which are rotatably mounted at two ends of a bearing shaft (7) through bearings and have rotation limiting capacity, spare guide rail grooves (16) are formed in the inner walls of the top and the bottom of the lamp box (1), two ends of each spare guide rail groove (16) are respectively communicated with two ends of a main guide rail groove (6), the multilateral sliders (15) are respectively slidably arranged in the main guide rail grooves (6) at two sides, the multilateral sliders (15) are matched with the function monitoring part (4) for use, reversing parts (17) capable of driving the bearing shaft (7) to reversely rotate in the traveling direction for dust removal are arranged on the multilateral sliders (15), function connecting rods (18) are rotatably mounted on the multilateral sliders (15) through rotating shafts, and guide connecting parts (19) matched with the function connecting rods (18) for stable anti-falling displacement are arranged on the box cover (2), the functional connecting rods (18) are respectively and rotatably connected with the guide connecting parts (19) through rotating shafts;

the reversing component (17) comprises a functional gear (20) fixed on the bearing shaft (7), an extension seat (21) is fixed on the polygonal sliding block (15), the functional connecting rod (18) is installed on the extension seat (21), a functional shaft (22) is fixed at the end part of the extension seat (21), a reversing gear (23) meshed with the functional gear (20) is fixed at the end part of the functional shaft (22), and functional tooth grooves (24) meshed with the reversing gear (23) for use are formed in the lamp box (1);

the guide connecting component (19) comprises a guide sliding block (25) which is rotatably installed at the end part of the functional connecting rod (18) through a rotating shaft, a multi-side sliding groove (26) which is matched with the guide sliding block (25) and has limiting and anti-falling capacity is arranged on the box cover (2), the multi-side sliding groove (26) is of a T-shaped groove structure, the guide sliding block (25) is of a T-shaped structural design, and the guide sliding block (25) is respectively arranged in the corresponding multi-side sliding groove (26) in a sliding mode.

2. The AI-technology-based CT medical image viewer according to claim 1, wherein: the function monitoring component (4) comprises an infrared laser transmitter (27) and an infrared laser receiver (28) which are respectively fixed at the top and the bottom of a box opening of the lamp box (1), a contact switch (29) matched with the box cover (2) to be opened and closed in real time is arranged at the position of the box opening of the lamp box (1), the contact switch (29) is electrically connected with the infrared laser transmitter (27) and the infrared laser receiver (28), and an ejection component (30) matched with a real-time infrared signal and used for effectively ejecting and switching tracks of the polygonal sliding block (15) is arranged in the lamp box (1).

3. The AI-technology-based CT medical image viewer according to claim 2, wherein: the light box is characterized in that a functional groove (31) is formed in one end, close to the bearing shaft (7), of the main guide rail groove (6), the ejecting piece (30) comprises functional ejecting blocks (32) which are arranged in the functional groove (31) in a sliding mode respectively, the functional ejecting blocks (32) extend out of the main guide rail groove (6), an electric push rod (33) is fixed to one end, located outside the main guide rail groove (6), of the functional ejecting blocks (32), the electric push rod (33) is fixed in the light box (1), and the functional ejecting blocks (32) and the polygonal sliding blocks (15) are made of magnetic materials.