CN117898749A - Intelligent medical mobile device and implementation method thereof - Google Patents

Abstract

The invention discloses an intelligent medical mobile device and an implementation method thereof, the intelligent medical mobile device comprises an operation mechanism, a detection mechanism and a power mechanism, wherein the operation mechanism is used for controlling the operation of the device, the detection mechanism is used for scanning the whole body of a patient, the power mechanism is used for providing power supply and source power for the device, the detection mechanism comprises a detector (6), an image display screen (7) and an X-ray generator (8) which are sequentially arranged from top to bottom, the detector (6) is connected with the device through a detector rotating shaft (18), the X-ray generator (8) is connected with the device through a lifting mechanical arm (9), and the X-ray generator (8) comprises a step-up transformer (19), a filament transformer (20), an X-ray tube (21), a tube circuit board (22) and an image processing main board (23). The invention improves the medical diagnosis and treatment level, improves the diagnosis and treatment precision, simplifies the operation flow, reduces the medical risk and can help doctors to better carry out medical diagnosis.

Description

Intelligent medical mobile device and implementation method thereof

Technical Field

The invention relates to an intelligent medical mobile device and an implementation method thereof, and belongs to the technical field of machinery.

Background

The intelligent medical equipment with higher utilization rate in the market at present mainly comprises the following steps: the high-end mobile CT equipment proposed by Neurologica is mainly applied to the field of neuroimaging, and has the main defects that: 1. the patient needs are limited, 2, the scanning range is smaller by 3, and the patient is easy to be interfered by the outside; the high-end CT equipment provided by Siemens corporation can be applied to various medical fields including the fields of heart, lung, abdomen, nervous system, plastic surgery and the like, and has the advantages of high manufacturing cost, high running noise, large volume and heavy weight, and is inconvenient to move; the high-performance mobile C-arm X-ray machine provided by Siemens corporation is mainly applied to X-ray imaging in surgery, has limited mobility and application range and low scanning speed; the high-end digital X-ray equipment provided by the general electric medical system company is widely applied to the medical fields of radioactive rays, emergency rooms, operating rooms and the like, and has the advantages of complex operation, complex interface and high maintenance cost.

Along with the continuous improvement of living standard, people put forward higher requirements on the convenience and popularity of medical treatment, especially the mobility of the aged is inconvenient, and the equipment is generally only in some big hospitals in urban areas, so that middle-aged and elderly people cannot be greatly facilitated, and meanwhile, the equipment updating and updating capacity is insufficient, so that the medical service efficiency cannot be continuously improved, the personalized requirements of patients cannot be met, the mobility of the equipment is poor, and the equipment cannot be widely applied to scenes such as medical treatment, disaster on-site rescue and the like in remote areas when necessary.

Disclosure of Invention

The invention aims to overcome the defects and shortcomings of the prior art, and provides an intelligent medical mobile device and an implementation method thereof.

The technical scheme adopted for solving the technical problems is as follows: an intelligent medical mobile device, the device comprising: the device comprises an operation mechanism, a detection mechanism and a power mechanism, wherein the operation mechanism is used for controlling the operation of the device, the detection mechanism is used for scanning the whole body of a patient, and the power mechanism is used for providing power supply and source power for the device; the operating mechanism is arranged right above the device and comprises an operating screen 1 and an operating keyboard 2, the operating keyboard 2 is arranged below the operating screen 1, a keyboard tray 10 is arranged at the bottom of the operating keyboard 2, the keyboard tray 10 is arranged on a keyboard telescopic shaft 11, and the keyboard telescopic shaft 11 is fixed inside the device; the detection mechanism comprises a detector 6, an image display screen 7 and an X-ray generator 8 which are sequentially arranged from top to bottom, the detector 6 is connected with the device through a detector rotating shaft 18, the X-ray generator 8 is connected with the device through a lifting mechanical arm 9, and the X-ray generator 8 comprises a step-up transformer 19, a filament transformer 20, an X-ray tube 21, a tube circuit board 22 and an image processing main board 23; the power mechanism is arranged in the device and comprises a motor 17, a booster 16, a suspension system 15, a power storage battery 14, a main control main board 13 and a support main body 12 which are sequentially arranged from bottom to top.

Further, a physical switch 4 is arranged on the side face of the device, a charging port 5 is arranged below the physical switch 4, and when the power storage battery is exhausted, the device can be charged through a charging gun.

Further, the front side of the device is provided with a locker 3 for accommodating some articles which can play an auxiliary role in the operation process.

Further, the universal wheels 24 are arranged at the bottom of the device, so that the device is convenient to move and carry, and the application range is enlarged.

The invention also provides an implementation method of the intelligent medical mobile device, which comprises the following steps:

step 1: starting a physical switch, running the device, and operating according to screen display;

step 2: the patient approaches to the detection mechanism, and the whole body of the human body is scanned and checked through the detector and the X-ray generator;

In the process of inspection, the angles of the detector and the X-ray generator can be adjusted, and the important inspection is carried out aiming at long-time stay of the key part;

Step 3: the image display screen displays the image information of each part of the body;

step 4: after the scanning is finished, uploading scanning information and generating a report;

Step 5: the final report is stored in the operation terminal for downloading and printing of the patient.

The beneficial effects are that:

1. The invention improves the medical diagnosis and treatment level, improves the diagnosis and treatment precision, simplifies the operation flow, reduces the medical risk and can help doctors to better carry out medical diagnosis.

2. The invention brings new development opportunities and commercial value for the medical industry, and brings more employment opportunities and economic benefits for society.

3. The invention greatly improves the maneuverability of medical equipment, can be laid out in more scenes, such as remote mountain areas and disaster sites, and provides possibility for using more scenes.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an intelligent medical mobile device according to the present invention.

Identification description: 1-an operation screen; 2-operation keyboard, 3-locker, 4-physical switch, 5-charging mouth.

Fig. 2 is a schematic diagram of another overall structure of an intelligent medical mobile device according to the present invention.

Identification description: 1-an operation screen; 2-operation keyboard, 4-physical switch, 5-charging port, 6-detector, 7-image display screen, 8-X-ray generator, 9-lifting mechanical arm, 24-universal wheel.

FIG. 3 is an exploded view of an intelligent medical mobile device according to the present invention.

Identification description: the device comprises a 10-tray keyboard, a 11-keyboard telescopic shaft, a 12-supporting main body, a 13-main control main board, a 14-power storage battery, a 15-suspension system, a 16-booster, a 17-motor, a 18-detector rotating shaft, a 19-booster transformer, a 20-filament transformer, a 21-X-ray tube, a 22-tube circuit board and a 23-image processing main board.

FIG. 4 is a flow chart of an implementation method of the invention.

Detailed Description

The invention will be further described in detail with reference to the drawings.

As shown in fig. 1 to 2, the present invention provides an intelligent medical mobile device, which includes an operation mechanism for controlling the operation of the device, a detection mechanism for scanning the whole body of a patient, and a power mechanism for supplying power and source power to the device.

As shown in fig. 3, the operating mechanism is arranged right above the device and comprises an operating screen 1 and an operating keyboard 2, the operating keyboard 2 is arranged below the operating screen 1, a keyboard tray 10 is arranged at the bottom of the operating keyboard 2, the keyboard tray 10 is arranged on a keyboard telescopic shaft 11, the keyboard telescopic shaft 11 is fixed inside the device, and various operations are performed by pulling the keyboard telescopic shaft 11 and extracting the operating keyboard 2.

The detection mechanism comprises a detector 6, an image display screen 7 and an X-ray generator 8 which are sequentially arranged from top to bottom, the detector 6 is used for scanning the upper half part of a human body, the detector 6 is connected with the device through a detector rotating shaft 18, the detector rotating shaft 18 can freely rotate to scan the human body at multiple angles, the X-ray generator 8 is used for scanning the lower half part of the human body, the X-ray generator 8 is connected with the device through a lifting mechanical arm 9, the lifting mechanical arm 9 can move up and down, the X-ray generator 8 comprises a step-up transformer 19, a filament transformer 20, an X-ray tube 21, a tube circuit board 22 and an image processing main board 23, the scanning is more comprehensive by combining the detector 6 and the X-ray generator 8, the diagnosis and treatment precision is improved, the operation flow is simplified, and a body image in the scanning process is presented through the image display screen 7.

The power unit sets up in the inside of device, power unit includes motor 17 for produce driving torque, as the power supply, motor 17 top is provided with booster 16, be used for through improving transmission voltage, reduce the electric current on the transmission line, reduce resistance loss, improve transmission efficiency, thereby reduce the power consumption, booster 16 top is provided with suspension 15, stability of whole equipment is improved through installing suspension 15, support the main part, suspension 15 top is provided with power battery 14, provide required energy for the entire system, power battery 14 top is provided with master control mainboard 13, be used for realizing each partial function of the device, master control mainboard 13 top is provided with support main part 12, be used for supporting the entire structure.

The side of the device is provided with a physical switch 4 for opening and closing the device, a charging port 5 is arranged below the physical switch 4, when the power storage battery 14 is exhausted, the device can be charged through a charging gun, and the device can be used for a period of time under the poor conditions of disaster sites or remote mountain facilities falling behind and the like without being connected with a socket at any time.

The invention provides a locker 3 on the front of the device for containing some articles which can assist in the operation.

The universal wheels 24 are arranged at the bottom of the device, so that the device is convenient to move and carry, and the application range is enlarged.

As shown in fig. 4, the invention further provides a method for implementing the intelligent medical mobile device, which comprises the following steps:

step 1: starting a physical switch, running the device, and operating according to screen display;

step 2: the patient approaches to the detection mechanism, and the whole body of the human body is scanned and checked through the detector and the X-ray generator;

In the process of inspection, the angles of the detector and the X-ray generator can be adjusted, and the important inspection is carried out aiming at long-time stay of the key part;

Step 3: the image display screen displays the image information of each part of the body;

step 4: after the scanning is finished, uploading scanning information and generating a report;

Step 5: the final report is stored in the operation terminal for downloading and printing of the patient.

The above description is merely a preferred embodiment of the present invention, and the present invention is not limited to the above embodiment, and may have a slight structural modification in the implementation process. The present invention is also intended to include modifications and variations of the present invention if they do not depart from the spirit and scope of the present invention and fall within the scope of the appended claims and the equivalents thereof.

Claims (5)

1. An intelligent medical mobile device, comprising: the device comprises an operation mechanism, a detection mechanism and a power mechanism, wherein the operation mechanism is used for controlling the operation of the device, the detection mechanism is used for scanning the whole body of a patient, and the power mechanism is used for providing power supply and source power for the device;

The operating mechanism is arranged right above the device and comprises an operating screen (1) and an operating keyboard (2), the operating keyboard (2) is arranged below the operating screen (1), a keyboard tray (10) is arranged at the bottom of the operating keyboard (2), the keyboard tray (10) is arranged on a keyboard telescopic shaft (11), and the keyboard telescopic shaft (11) is fixed in the device;

The detection mechanism comprises a detector (6), an image display screen (7) and an X-ray generator (8) which are sequentially arranged from top to bottom, the detector (6) is connected with the device through a detector rotating shaft (18), the X-ray generator (8) is connected with the device through a lifting mechanical arm (9), and the X-ray generator (8) comprises a step-up transformer (19), a filament transformer (20), an X-ray tube (21), a tube circuit board (22) and an image processing main board (23);

The power mechanism is arranged in the device and comprises a motor (17), a booster (16), a suspension system (15), a power storage battery (14), a main control main board (13) and a supporting main body (12) which are sequentially arranged from bottom to top.

2. An intelligent medical mobile device according to claim 1, characterized in that the side of the device is provided with a physical switch (4), and a charging port (5) is provided below the physical switch (4).

3. An intelligent medical mobile device according to claim 1, characterized in that the front side of the device is provided with a locker (3).

4. An intelligent medical mobile device according to claim 1, characterized in that the bottom of the device is provided with universal wheels (24).

5. The implementation method of the intelligent medical mobile device is characterized by comprising the following steps of:

step 1: starting a physical switch, running the device, and operating according to screen display;

step 2: the patient approaches to the detection mechanism, and the whole body of the human body is scanned and checked through the detector and the X-ray generator;

In the process of inspection, the angles of the detector and the X-ray generator can be adjusted, and the important inspection is carried out aiming at long-time stay of the key part;

Step 3: the image display screen displays the image information of each part of the body;

step 4: after the scanning is finished, uploading scanning information and generating a report;

Step 5: the final report is stored in the operation terminal for downloading and printing of the patient.