CN214624027U - Virtual teaching system of digital X-ray photography VR - Google Patents
Virtual teaching system of digital X-ray photography VR Download PDFInfo
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- CN214624027U CN214624027U CN202023010008.6U CN202023010008U CN214624027U CN 214624027 U CN214624027 U CN 214624027U CN 202023010008 U CN202023010008 U CN 202023010008U CN 214624027 U CN214624027 U CN 214624027U
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Abstract
The utility model relates to a virtual teaching system technical field of VR just discloses a virtual teaching system of digital X radiography VR, which comprises a supporting column, the bottom of pillar is provided with rotating base, a lateral wall of pillar is provided with the lift post, install the lift connecting piece on the lift post, a lateral wall that the lift post was kept away from to the lift connecting piece is connected with swivel connected coupler, a lateral wall that swivel connected coupler kept away from the lift connecting piece is connected with the swinging boom. This virtual teaching system of digital X-ray photography VR through using swinging boom and bed board, and equipment can stand and use and also can lie and use, is convenient for carry out many-sided teaching show, through using digital flat panel detector that can rotate, and the teaching is used to the multi-angle of the equipment of being convenient for, through using rotating base, pillar and external control ware, the remote control equipment's of being convenient for height and angle when teaching.
Description
Technical Field
The utility model relates to a virtual teaching system technical field of VR specifically is a virtual teaching system of digital X-ray photography VR.
Background
Digital radiography is an important application of radiography in the medical field, and digitization of images is a developing direction in the medical field. The application of medical X-ray detection improves the technical level of ray detection to a new level, solves a series of insurmountable problems of traditional X-ray photographic detection, such as no film in imaging, digitalization of computer storage and transmission, low-dose quantification of X-ray, result interpretation, remote networking of evaluation and the like, and can improve image resolution and filter noise by various image post-processing methods. This technique will replace traditional film gradually and become future medical X ray detection, because equipment is mostly horizontal when the teaching in digital radiography, can not carry out many-sided demonstration of imparting knowledge to students, the direction of the remote control equipment of not being convenient for when teaching in addition has a great deal of inconvenience when being applied to the teaching demonstration.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
To the not enough of prior art in the above-mentioned background art, the utility model provides a virtual teaching system of digital X radiography VR to overcome the virtual teaching system of current digital X radiography VR that proposes in the above-mentioned background art, because equipment is mostly horizontal when teaching, can not carry out many-sided show of imparting knowledge to students, the direction of the remote control equipment of being not convenient for when teaching moreover exists a great deal of inconvenient shortcoming when being applied to the teaching demonstration.
(II) technical scheme
In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:
a VR virtual teaching system for digital X-ray photography comprises a support column and a bed board, wherein an indicator lamp is arranged at the top of the support column, a rotating base is arranged at the bottom of the support column, a control panel is arranged on one side wall of the support column, a controller display screen is arranged above the control panel, and a lifting column is arranged on one side wall of the support column;
a lifting connecting piece is mounted on the lifting column, a rotary connecting piece is connected to one side wall of the lifting connecting piece, which is far away from the lifting column, and a rotating arm is connected to one side wall of the rotary connecting piece, which is far away from the lifting connecting piece;
the one end that a lateral wall was kept away from to the swinging boom is provided with digital flat panel detector, the other end of swinging boom is provided with X ray photography device.
As an optimal technical solution of the utility model: bed legs are arranged at four corners of the bottom of the bed board, the bed board is arranged above the digital flat panel detector, and the bed board and the bed legs are convenient to move and to lie for teaching.
As an optimal technical solution of the utility model: the both ends of lift post all are seted up with the spout of lift connecting piece looks adaptation, the inside of lift post is provided with elevator motor, the output shaft transmission of lift connecting piece and elevator motor is connected, uses the lift post to be convenient for, detects the patient of co-altitude not.
Furthermore, the inside of lift connecting piece is provided with second rotating electrical machines, the swinging boom passes through rotating electrical machines and is connected with the output shaft transmission of the inside second rotating electrical machines of lift connecting piece.
Furthermore, the inside of swinging boom is provided with the third rotating electrical machines, the one end of digital flat panel detector is connected with the connecting axle, the one end that digital flat panel detector was kept away from to the connecting axle is connected with the output shaft transmission of third rotating electrical machines.
Furthermore, a moving groove matched with the X-ray photographing device is formed in the rotating arm.
Furthermore, a first rotating motor is arranged inside the rotating base, and the support column is in transmission connection with the first rotating motor inside the rotating base.
Further, the inside of pillar is provided with the controller, the one end electricity of controller is connected with the treater, digital flat panel detector and X radiographic apparatus all are connected with the treater electricity, the treater electricity is connected with wireless signal transmission template, wireless signal transmission template wireless signal is connected with wireless signal receiving template.
Furthermore, the wireless signal receiving template is respectively and electrically connected with a display screen, VR display equipment and an external controller, and the external controller is in wireless signal connection with the controller through a wireless signal transmitting template and a wireless signal receiving template.
Furthermore, the first rotating motor, the transmission motor, the second rotating motor lifting motor and the third rotating motor are all electrically connected with the controller.
The theory of operation, this virtual teaching system of digital X ray photography VR, when the teaching demonstration, at first the student watches through display screen or VR display device, the teaching personnel pass through the inside master controller of control panel control pillar or through the inside master controller of external control ware remote control pillar, the angle of the inside first rotating electrical machines adjusting device of rotating base be convenient for impart knowledge to students, the height through the inside elevator motor control swinging boom of lift post, carry out angle adjustment to the swinging boom through the inside second rotating electrical machines of control lift connecting piece, carry out angle adjustment to digital flat panel detector through the inside third rotating electrical machines of swinging boom, when needing the demonstration of lying, adjust the vertical angle to the swinging boom, place the digital flat panel detector top with the bed board and demonstrate the teaching.
The relevant modules referred to in the present application are all hardware system modules or functional modules combining computer software programs or protocols with hardware in the prior art, and the computer software programs or protocols referred to by the functional modules are all known in the art per se, and are not improvements of the present application; the improvement of the application is the interaction relation or the connection relation among all the modules, namely, the integral structure of the system is improved, so as to solve the corresponding technical problems to be solved by the application.
(III) advantageous effects
The utility model provides a virtual teaching system of digital X radiography VR possesses following beneficial effect:
(1) this virtual teaching system of digital X-ray photography VR through using swinging boom and bed board, and equipment can stand and use and also can lie and use, is convenient for carry out many-sided teaching show, through using digital flat panel detector that can rotate, and the teaching is used to the multi-angle of the equipment of being convenient for.
(2) This virtual teaching system of digital X-ray photography VR through using rotating base, pillar and external control ware, the remote control equipment's of being convenient for height and angle when the teaching, it is more convenient to use.
Drawings
Fig. 1 is a first main view structure diagram of the digital X-ray photography VR virtual teaching system of the present invention;
fig. 2 is a second main view structure diagram of the digital X-ray photography VR virtual teaching system of the present invention;
fig. 3 is a schematic view of the structure of the bed board of the digital X-ray photography VR virtual teaching system of the present invention;
fig. 4 is a schematic view of a rotary arm front view structure of the digital X-ray photography VR virtual teaching system of the present invention;
fig. 5 is the system block diagram of the virtual teaching system of digital X-ray photography VR of the utility model.
In the figure: the device comprises a support column 1, a controller display screen 2, a control panel 3, a lifting column 4, a sliding chute 5, a lifting connecting piece 6, a rotary connecting piece 7, an indicator light 8, a rotating arm 9, a moving chute 10, a connecting shaft 11, a digital flat panel detector 12, an X-ray photographing device 13, a rotating base 14, a bed board 15, bed legs 16, a processor 17, a wireless signal transmission template 18, a wireless signal receiving template 19, a display screen 20, a VR display device 21, a controller 22, an external controller 23, a first rotating motor 24, a transmission motor 25, a second rotating motor 26, a lifting motor 27 and a third rotating motor 28.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Referring to fig. 1-5, the present invention provides a virtual teaching system for digital radiography VR;
according to fig. 1, including pillar 1 and bed board 15, the top of pillar 1 is provided with pilot lamp 8, the bottom of pillar 1 is provided with rotating base 14, a lateral wall of pillar 1 is provided with control panel 3, control panel 3's top is provided with controller display screen 2, a lateral wall of pillar 1 is provided with lift post 4, install lifting connecting piece 6 on the lift post 4, a lateral wall that lifting connecting piece 6 kept away from lift post 4 is connected with swivel joint spare 7, a lateral wall that lifting connecting piece 6 was kept away from to swivel joint spare 7 is connected with swinging boom 9, the one end that a lateral wall of lifting connecting piece 6 was kept away from to swinging boom 9 is provided with digital flat panel detector 12, the other end of swinging boom 9 is provided with X ray photographic device 13.
As shown in fig. 2 to 4, as a preferred technical solution of the present invention: bed legs 16 are arranged at four corners of the bottom of the bed plate 15, and the bed plate 15 is arranged above the digital flat panel detector 12; the spout 5 with 6 looks adaptations of lift connecting piece is all seted up at the both ends of lift post 4, the inside of lift post 4 is provided with elevator motor 27, elevator connecting piece 6 is connected with elevator motor 27's output shaft transmission, elevator connecting piece 6's inside is provided with second rotating electrical machines 26, swinging boom 9 passes through rotating electrical connects 7 and is connected with elevator connecting piece 6's inside second rotating electrical machines 26's output shaft transmission, the inside of swinging boom 9 is provided with third rotating electrical machines 28, the one end of digital flat panel detector 12 is connected with connecting axle 11, the one end that digital flat panel detector 12 was kept away from to connecting axle 11 is connected with third rotating electrical machines 28's output shaft transmission, set up on the swinging boom 9 with the shifting chute 10 of X ray photography device 13 looks adaptations through using the device, be convenient for each angle of equipment and high use.
As shown in fig. 5, a preferred embodiment of the present invention is: a first rotating motor 24 is arranged in the rotating base 14, the strut 1 is in transmission connection with the first rotating motor 24 in the rotating base 14, a controller 22 is arranged in the strut 1, one end of the controller 22 is electrically connected with a processor 17, the digital flat panel detector 12 and the X-ray photographing device 13 are both electrically connected with the processor 17, the processor 17 is electrically connected with a wireless signal transmission template 18, the wireless signal transmission template 18 is in wireless signal connection with a wireless signal receiving template 19, the wireless signal receiving template 19 is respectively electrically connected with a display screen 20, a VR display device 21 and an external controller 23, the external controller 23 is in wireless signal connection with the controller 22 through the wireless signal transmission template 18 and the wireless signal receiving template 19, the first rotating motor 24, a transmission motor 25, a second rotating motor 26, a lifting motor 27 and a third rotating motor 28 are all electrically connected with the controller 22, by using the device, teaching at various angles and heights is facilitated.
It should be noted that, in the present invention, unless explicitly stated or limited otherwise, the terms "disposed," "mounted," "connected," and "fixed" are to be understood in a broad sense, and may be, for example, either fixedly or detachably connected; or indirectly through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.
Claims (10)
1. A virtual teaching system of digital X-ray photography VR comprises a pillar (1) and a bed board (15), and is characterized in that an indicator light (8) is arranged at the top of the pillar (1), a rotating base (14) is arranged at the bottom of the pillar (1), a control panel (3) is arranged on one side wall of the pillar (1), a controller display screen (2) is arranged above the control panel (3), and a lifting column (4) is arranged on one side wall of the pillar (1);
a lifting connecting piece (6) is mounted on the lifting column (4), a rotary connecting piece (7) is connected to one side wall of the lifting connecting piece (6) far away from the lifting column (4), and a rotating arm (9) is connected to one side wall of the rotary connecting piece (7) far away from the lifting connecting piece (6);
the one end of keeping away from lift connecting piece (6) a lateral wall in swinging boom (9) is provided with digital flat panel detector (12), the other end of swinging boom (9) is provided with X ray photography device (13).
2. The digital radiography VR virtual teaching system of claim 1, wherein bed legs (16) are provided at four corners of the bottom of the bed plate (15), and the bed plate (15) is provided above the digital flat panel detector (12).
3. The virtual teaching system of digital radiography VR of claim 1, wherein the two ends of the lifting column (4) are both provided with a sliding chute (5) adapted to the lifting connecting piece (6);
a lifting motor (27) is arranged in the lifting column (4);
the lifting connecting piece (6) is in transmission connection with an output shaft of the lifting motor (27).
4. The digital radiography VR virtual teaching system of claim 1, wherein a second rotating electrical machine (26) is provided inside the lifting connection (6);
the rotating arm (9) is in transmission connection with an output shaft of a second rotating motor (26) in the lifting connecting piece (6) through a rotating connecting piece (7).
5. A digital radiography VR virtual tutorial system according to claim 1, characterized in that the rotating arm (9) is internally provided with a third rotating motor (28);
one end of the digital flat panel detector (12) is connected with a connecting shaft (11);
one end of the connecting shaft (11) far away from the digital flat panel detector (12) is in transmission connection with an output shaft of a third rotating motor (28).
6. The virtual teaching system of digital radiography VR of claim 1, wherein the rotating arm (9) is formed with a moving slot (10) adapted to the radiography device (13).
7. A digital radiography VR virtual tutorial system according to claim 1, where in the rotating base (14) is provided with a first rotating motor (24) inside;
the strut (1) is in transmission connection with a first rotating motor (24) in the rotating base (14).
8. The digital radiography VR virtual tutorial system of claim 1, where in the post (1) has a controller (22) inside;
one end of the controller (22) is electrically connected with a processor (17);
the digital flat panel detector (12) and the X-ray photographing device (13) are electrically connected with the processor (17);
the processor (17) is electrically connected with a wireless signal transmission template (18);
the wireless signal transmitting template (18) is connected with a wireless signal receiving template (19) in a wireless signal mode.
9. The digital radiography VR virtual tutorial system of claim 8, wherein the wireless signal receiving template (19) is electrically connected to a display screen (20), a VR display device (21), and an external controller (23), respectively;
the external controller (23) is in wireless signal connection with the controller (22) through the wireless signal transmission template (18) and the wireless signal receiving template (19).
10. The digital radiography VR virtual tutorial system of claim 7, where in the first rotating motor (24), the transmission motor (25), the second rotating motor (26), the lift motor (27), and the third rotating motor (28) are all electrically connected to the controller (22).
Priority Applications (1)
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CN202023010008.6U CN214624027U (en) | 2020-12-14 | 2020-12-14 | Virtual teaching system of digital X-ray photography VR |
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CN202023010008.6U CN214624027U (en) | 2020-12-14 | 2020-12-14 | Virtual teaching system of digital X-ray photography VR |
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CN214624027U true CN214624027U (en) | 2021-11-05 |
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