CN111714217A

CN111714217A - Medical image rapid positioning, collecting and scanning device based on cloud storage

Info

Publication number: CN111714217A
Application number: CN202010629728.6A
Authority: CN
Inventors: 苏志康
Original assignee: Fujian Zhikangyun Medical Technology Co ltd
Current assignee: Fujian Zhikangyun Medical Technology Co ltd
Priority date: 2020-07-03
Filing date: 2020-07-03
Publication date: 2020-09-29

Abstract

The invention discloses a cloud storage-based medical image rapid positioning, acquiring and scanning device which comprises an image on-site extraction device, an internal memory, a cloud storage node, an image dynamic processing unit and a cloud storage control server, wherein the image on-site extraction device comprises a camera, a camera module and a camera module; the image on-site extraction equipment comprises a scanning medical bed, a scanner and a positioning and adjusting structure; the scanner comprises a scanning imaging main body, an imaging cup base, a cup holder, a cup body, a scanning lens, an energy converter, an infrared induction switch, a driving circuit and a scanning window; the scanning of medical image conveniently carries out, and after the signal information connection image dynamic processing unit of scanning lens, with medical image data storage internal memory to combine real-time timing unit record medical image scanning time, keep image data in each cloud storage node that corresponds the serial number and bind, and then with the data information record of storage in every cloud storage node in the cloud storage control server, conveniently realize the safe storage to medical image information.

Description

Medical image rapid positioning, collecting and scanning device based on cloud storage

Technical Field

The invention relates to the technical field of medical images, in particular to a cloud storage-based medical image rapid positioning, acquiring and scanning device.

Background

Medical imaging has become an important means of medical examination and treatment, and has helped physicians observe abnormal conditions inside the body of a patient. A clinical scanning apparatus is an indispensable medical instrument for imaging department in hospitals, and the clinical scanning apparatus is required to be used for CT examination, intracranial diagnosis and the like, and is sometimes used for examining foreign bodies in vivo.

The medical imaging apparatus includes: medical X-ray machine, digital imaging equipment, X-ray computer tomography equipment, magnetic resonance imaging equipment, ultrasonic imaging equipment and nuclear medicine imaging equipment, wherein the medical imaging equipment can be divided into the following parts according to the imaging method: x-ray imaging, magnetic resonance imaging, nuclear medicine imaging, ultrasonic imaging, thermal imaging, optical imaging CT, DR and mammary machine are all X-ray imaging, X-ray computed tomography imaging, and DR is a digital X-ray machine.

Moreover, with the development of society and information technology, more and more industries and fields develop work and business based on the internet, and accordingly, the amount of data related to medical image processing equipment is also continuously increasing. The traditional storage mode cannot meet the requirements of medical image processing equipment, the big data storage in the cloud environment becomes the development trend of future data storage, the problem that the existing medical image processing equipment is inconvenient to use is combined, and when the corresponding probe type medical image equipment is used for scanning and observing a patient lying on a bed in a range manner, due to the limitation of the medical image equipment, the scanning range of common medical scanning equipment is small, the working precision is low and the like, so that the quick scanning and positioning in a small range are inconvenient to perform; and the problems of low safety and inconvenient data storage of the conventional medical image processing equipment in the data reading and writing process.

Therefore, it is desirable to provide a medical image fast positioning and acquiring scanning device based on cloud storage, which aims to solve the above problems.

Disclosure of Invention

Aiming at the defects in the prior art, the embodiment of the invention aims to provide a medical image rapid positioning acquisition scanning device based on cloud storage to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a medical image rapid positioning acquisition scanning device based on cloud storage comprises an image field extraction device, an internal memory, a cloud storage node, an image dynamic processing unit and a cloud storage control server;

the image on-site extraction equipment is a medical image device which has certain position adjustment capability and can carry out rapid scanning, and the image on-site extraction equipment is connected with the image dynamic processing unit;

the image dynamic processing unit is used for performing dynamic processing on the image scanned by the acquisition unit of the image on-site extraction equipment to obtain and output image data corresponding to the image scanned by the image on-site extraction equipment;

the internal memory is arranged in the image on-site extraction equipment, is connected with the output end of the image dynamic processing unit and is a storage medium used for recording image data adopted by the image on-site extraction equipment in a specific format;

the cloud storage nodes are connected with the cloud storage control server, the cloud storage nodes are connected with the internal storage and used for storing the image data provided by the internal storage in each cloud storage node which is bound with the corresponding number, and then the data information stored in each cloud storage node is recorded in the cloud storage control server.

As a further aspect of the present invention, the internal memory is a magnetic disk.

As a further scheme of the present invention, the image on-site extraction device is further provided with a real-time timing unit, and the real-time timing unit is connected to the acquisition unit of the image on-site extraction device and is configured to provide a timing reference signal for an image scanned by the acquisition unit.

As a further scheme of the invention, the image on-site extraction equipment comprises a scanning medical bed, a scanner and a positioning and adjusting structure, wherein the scanner is positioned right above the scanning medical bed, and the scanner is installed on the positioning and adjusting structure.

As a further scheme of the invention, the positioning adjusting structure comprises a transverse guide rod, a longitudinal guide rod and a guide rail, the scanner is connected with the adapter, the adapter is connected with the transverse guide rod through a rotating shaft, and a limiting block is further arranged between the transverse guide rod and the adapter.

As a further scheme of the invention, the transverse guide rod is connected to the moving shell, the moving shell is sleeved on the longitudinal guide rod, the moving shell is in threaded connection with the longitudinal screw rod, the longitudinal screw rod is arranged in parallel with the longitudinal guide rod, and the bottom end of the longitudinal screw rod is connected with the longitudinal motor.

As a further scheme of the invention, the longitudinal guide rod, the longitudinal screw rod and the bottom of the longitudinal motor are all arranged on a positioning sliding block, a driving groove is arranged in the bottom end of the positioning sliding block, a driving gear is arranged in the driving groove, the driving gear is arranged on a motor shaft of the driving motor, the driving motor is connected with a travel switch, the driving gear is meshed and connected with a transverse positioning rack, the transverse positioning rack is arranged in a guide groove of a guide rail, the guide groove is arranged on an acquisition base, and the acquisition base is positioned on one side of a scanning medical bed.

As a further scheme of the invention, the scanner comprises a scanning imaging main body, an imaging cup seat, a cup stand, a cup body, a scanning lens, a transducer, an infrared induction switch, a driving circuit and a scanning window.

As a further scheme of the invention, the scanning imaging main body is arranged in the cup body, the cup body is fixed between the imaging cup base and the cup stand, the scanning lens of the scanning imaging main body is positioned in the scanning window, the transducer is also arranged in the scanning window, the scanning lens and the transducer are respectively connected with the driving circuit, the infrared induction switch is arranged on the cup stand outside the scanning window, and the infrared induction switch is connected with the driving circuit.

In summary, compared with the prior art, the embodiment of the invention has the following beneficial effects:

the medical image rapid positioning acquisition scanning device based on cloud storage is convenient to scan medical images, after signal information of a scanning lens is connected with an image dynamic processing unit, medical image data are stored in an internal storage, the scanning time of the medical images is recorded by combining a real-time timing unit, the image data are stored in each cloud storage node which is correspondingly numbered and bound, and then data information stored in each cloud storage node is recorded in a cloud storage control server, so that the medical image information is conveniently and safely stored.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a system block diagram of an embodiment of the invention.

Fig. 2 is a schematic structural diagram of an image on-site extraction device according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a scanner in the embodiment of the invention.

Reference numerals: 1-scanning medical bed, 2-acquisition base, 3-guide rail, 4-guide groove, 5-transverse positioning rack, 6-positioning slide block, 7-drive groove, 8-drive gear, 9-drive motor, 10-travel switch, 11-longitudinal guide rod, 12-motion shell, 13-longitudinal screw rod, 14-longitudinal motor, 15-transverse guide rod, 16-limit block, 17-rotation shaft, 18-adapter, 19-scanner, 20-scanning imaging main body, 21-imaging cup seat, 22-cup stand, 23-cup body, 24-scanning lens, 25-transducer, 26-infrared induction switch, 27-drive circuit, 28-scanning window, 29-image on-site extraction equipment, 30-internal memory, 31-cloud storage node, 32-real-time timing unit, 33-image dynamic processing unit and 34-cloud storage control server.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are shown in the drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

The technical solution of the present invention is further described with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, a cloud storage-based medical image rapid positioning, acquiring and scanning device includes an image on-site extraction device 29, an internal memory 30, a cloud storage node 31, a real-time timing unit 32, an image dynamic processing unit 33 and a cloud storage control server 34;

the image on-site extraction device 29 performs rapid scanning through a medical imaging device, and the image on-site extraction device 29 has certain position adjustment capability, so that the adjustability and the practical functionality in the medical image rapid scanning process are improved.

The image on-site extraction device 29 is connected to an image dynamic processing unit 33, and the image dynamic processing unit 33 is configured to perform dynamic processing on the image scanned by the acquisition unit of the image on-site extraction device 29 to obtain and output image data corresponding to the image scanned by the image on-site extraction device 29.

The image on-site extraction device 29 is further provided with an internal memory 30 therein, the internal memory 30 is connected to an output end of the image dynamic processing unit 33, the internal memory 30 is a storage medium for recording the image data adopted by the image on-site extraction device 29 in a specific format, wherein in the embodiment of the present invention, preferably, the internal memory 30 is a magnetic disk, and can adopt a sequential access or a direct access mode according to a use requirement.

The cloud storage nodes 31 are connected to a cloud storage control server 34, the cloud storage control server 34 is mainly used for recording data information stored in each cloud storage node 31, when data in each cloud storage node 31 is written into the corresponding cloud storage node 31, corresponding metadata is recorded in the cloud storage control server 34, when the cloud storage control server 34 receives an access request for certain data, the corresponding metadata information is retrieved and called, and then path information of the target data is acquired.

In the embodiment of the present invention, the cloud storage node 31 is configured to connect to the internal storage 30, and is configured to store the image data provided by the internal storage 30 in each cloud storage node 31 bound to the corresponding number, and further record the data information stored in each cloud storage node 31 in the cloud storage control server 34.

The image on-site extraction device 29 is further provided with a real-time timing unit 32, and the real-time timing unit 32 is connected with the acquisition unit of the image on-site extraction device 29 and is used for providing a timing reference signal for the image scanned by the acquisition unit.

In an embodiment of the present invention, referring to fig. 2, the image on-site extraction device 29 includes a scanning medical bed 1, a scanner 19, and a positioning adjustment structure, wherein the scanner 19 is located right above the scanning medical bed 1, the scanner 19 is mounted on the positioning adjustment structure, specifically, the positioning adjustment structure includes a transverse guide rod 15, a longitudinal guide rod 11, and a guide rail 3, wherein the scanner 19 is connected to an adapter 18, the adapter 18 is connected to the transverse guide rod 15 through a rotating shaft 17, a limit block 16 is further disposed between the transverse guide rod 15 and the adapter 18, and the limit block 16 is used for limiting a rotation angle of the adapter 18 around the rotating shaft 17;

the transverse guide rod 15 is connected to the moving shell 12, the moving shell 12 is sleeved on the longitudinal guide rod 11, the moving shell 12 is in threaded connection with the longitudinal screw 13, the longitudinal screw 13 is arranged in parallel with the longitudinal guide rod 11, the bottom end of the longitudinal screw 13 is connected with the longitudinal motor 14, and under the driving of the longitudinal motor 14, the longitudinal screw 13 rotates and drives the moving shell 12 to slide along the longitudinal guide rod 11, so that the position heights of the moving shell 12, the transverse guide rod 15 and the scanner 19 are adjusted.

In one embodiment of the invention, the bottom parts of the longitudinal guide rod 11, the longitudinal screw 13 and the longitudinal motor 14 are all mounted on the positioning slider 6, the driving groove 7 is arranged inside the bottom end of the positioning slider 6, the driving gear 8 is mounted in the driving groove 7, the driving gear 8 is mounted on a motor shaft of the driving motor 9, the driving motor 9 is connected with the travel switch 10, the driving gear 8 is meshed and connected with the transverse positioning rack 5, the transverse positioning rack 5 is mounted in the guide groove 4 of the guide rail 3, the guide groove 4 is mounted on the acquisition base 2, the acquisition base 2 is positioned on one side of the scanning medical bed 1, and the positioning slider 6 is arranged along the guide rail 3 in a sliding.

When the positioning adjustment is carried out, the driving motor 9 drives the driving gear 8 to rotate under the control of the travel switch 10, the driving gear 8 rotates along the transverse positioning rack 5, the positioning sliding block 6 is driven to slide along the guide rail 3, the transverse position of the scanner 19 above the scanning medical bed 1 can be conveniently adjusted, and the scanning is conveniently carried out from the bed head to the bed tail.

When the longitudinal motor 14 drives the longitudinal screw 13 to rotate, the moving housing 12 is driven to slide along the longitudinal guide rod 11, so that the longitudinal position of the scanner 19 above the scanning medical bed 1 can be conveniently adjusted, and scanning can be conveniently carried out in a direction from a position far away from the scanning medical bed 1 to a position close to the scanning medical bed 1.

Under the rotation of adapter 18, conveniently adjust the orientation of scanner 19, be favorable to more carrying out accurate scanning to the focus position.

In an embodiment of the present invention, referring to fig. 3, the scanner 19 includes a scanning imaging main body 20, an imaging cup holder 21, a cup holder 22, a cup body 23, a scanning lens 24, a transducer 25, an infrared sensing switch 26, a driving circuit 27 and a scanning window 28, wherein the scanning imaging main body 20 is installed in the cup body 23, the cup body 23 is fixed between the imaging cup holder 21 and the cup holder 22, the imaging cup holder 21 is fixed at the bottom of the adapter 18, the scanning lens 24 of the scanning imaging main body 20 is located in the scanning window 28, the transducer 25 is also installed in the scanning window 28, the scanning lens 24 and the transducer 25 are respectively connected to the driving circuit 27, the infrared sensing switch 26 is installed on the cup holder 22 outside the scanning window 28, and the infrared sensing switch 26 is connected to the driving circuit 27.

During scanning, under the condition that the scanner 19 adjusts the position along with the positioning adjustment structure, after the infrared sensing switch 26 detects an infrared signal on the scanning medical bed 1, the scanning lens 24 and the transducer 25 are started to work through the driving circuit 27, medical images are scanned, moreover, after the signal information of the scanning lens 24 is connected with the image dynamic processing unit 33, medical image data are stored in the internal memory 30, the scanning time of the medical images is recorded in combination with the real-time timing unit 32, the image data are stored in each cloud storage node 31 bound with the corresponding number, and further, the data information stored in each cloud storage node 31 is recorded in the cloud storage control server 34, so that the safe storage of the medical image information is conveniently realized.

The technical principle of the present invention has been described above with reference to specific embodiments, which are merely preferred embodiments of the present invention. The protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. Other embodiments of the invention will occur to those skilled in the art without the exercise of inventive faculty, and such will fall within the scope of the invention.

Claims

1. A medical image rapid positioning acquisition scanning device based on cloud storage is characterized by comprising an image field extraction device (29), an internal memory (30), a cloud storage node (31), an image dynamic processing unit (33) and a cloud storage control server (34);

the image on-site extraction equipment (29) is a medical imaging device which has certain position adjustment capability and can carry out rapid scanning, and the image on-site extraction equipment (29) is connected with an image dynamic processing unit (33);

the image dynamic processing unit (33) is used for performing dynamic processing on the image scanned by the acquisition unit of the image field extraction device (29) to obtain and output image data corresponding to the image scanned by the image field extraction device (29);

the internal memory (30) is arranged inside the image on-site extraction device (29), the internal memory (30) is connected with the output end of the image dynamic processing unit (33), and the internal memory (30) is a storage medium for recording image data adopted by the image on-site extraction device (29) in a specific format;

the cloud storage nodes (31) are connected with the cloud storage control server (34), the cloud storage nodes (31) are connected with the internal storage (30) and used for storing the image data provided by the internal storage (30) in each cloud storage node (31) bound to the corresponding number, and then recording the data information stored in each cloud storage node (31) in the cloud storage control server (34).

2. The medical image rapid positioning acquisition scanning device based on cloud storage as claimed in claim 1, wherein the internal memory (30) is a magnetic disk.

3. The medical image rapid positioning acquisition scanning device based on cloud storage as claimed in claim 1, wherein a real-time timing unit (32) is further disposed on the image on-site extraction equipment (29), and the real-time timing unit (32) is connected with the acquisition unit of the image on-site extraction equipment (29) and is configured to provide a timing reference signal for an image scanned by the acquisition unit.

4. The medical image rapid positioning acquisition scanning device based on cloud storage according to claim 1, wherein the image on-site extraction equipment (29) comprises a scanning medical bed (1), a scanner (19) and a positioning adjustment structure, the scanner (19) is located right above the scanning medical bed (1), and the scanner (19) is installed on the positioning adjustment structure.

5. The medical image rapid positioning acquisition scanning device based on cloud storage according to claim 4, wherein the positioning adjustment structure comprises a transverse guide rod (15), a longitudinal guide rod (11) and a guide rail (3), the scanner (19) is connected with the adapter (18), the adapter (18) is connected with the transverse guide rod (15) through a rotating shaft (17), and a limit block (16) is further arranged between the transverse guide rod (15) and the adapter (18).

6. The medical image rapid positioning acquisition scanning device based on cloud storage according to claim 5, wherein the transverse guide rod (15) is connected to the moving shell (12), the moving shell (12) is sleeved on the longitudinal guide rod (11), the moving shell (12) is in threaded connection with the longitudinal screw rod (13), the longitudinal screw rod (13) is parallel to the longitudinal guide rod (11), and the bottom end of the longitudinal screw rod (13) is connected with the longitudinal motor (14).

7. The cloud storage-based medical image rapid positioning, collecting and scanning device according to claim 6, wherein the bottoms of the longitudinal guide rod (11), the longitudinal screw rod (13) and the longitudinal motor (14) are all mounted on the positioning slider (6), a driving groove (7) is formed in the bottom end of the positioning slider (6), a driving gear (8) is mounted in the driving groove (7), the driving gear (8) is mounted on a motor shaft of the driving motor (9), the driving motor (9) is connected with the travel switch (10), the driving gear (8) is meshed with the transverse positioning rack (5), the transverse positioning rack (5) is mounted in the guide groove (4) of the guide rail (3), the guide groove (4) is mounted on the collecting base (2), and the collecting base (2) is located on one side of the scanning medical bed (1).

8. The medical image rapid positioning acquisition scanning device based on cloud storage according to any one of claims 1-4, wherein the scanner (19) comprises a scanning imaging main body (20), an imaging cup holder (21), a cup holder (22), a cup body (23), a scanning lens (24), a transducer (25), an infrared induction switch (26), a driving circuit (27) and a scanning window (28).

9. The medical image rapid positioning and acquiring scanning device based on cloud storage according to claim 8, wherein the scanning imaging main body (20) is installed in a cup body (23), the cup body (23) is fixed between an imaging cup holder (21) and a cup holder (22), a scanning lens (24) of the scanning imaging main body (20) is located in a scanning window (28), a transducer (25) is further installed in the scanning window (28), the scanning lens (24) and the transducer (25) are respectively connected with a driving circuit (27), the infrared sensing switch (26) is installed on the cup holder (22) outside the scanning window (28), and the infrared sensing switch (26) is connected with the driving circuit (27).