CN114388127A - Information management system for mobile medical vehicle - Google Patents

Abstract

The embodiment of the invention discloses an information management system for a mobile medical vehicle, which comprises: the medical mobile terminal comprises an information input unit and a health data acquisition unit, the information input unit is used for acquiring basic identity information of a person to be detected and generating an inspection application form, the health data acquisition unit is used for acquiring motion function indexes of the person to be detected according to the inspection application form, the cloud server is used for acquiring and storing the inspection application form and the inspection data information, the hospital terminal comprises an information evaluation unit and an information feedback unit, the information evaluation unit is used for analyzing the inspection data information through a hospital expert and generating an evaluation report, the information feedback unit is used for uploading the evaluation report to the cloud server, and the medical mobile terminal and the hospital terminal form two-way communication transmission through a 5G network. The invention can be used for experts to quickly diagnose by the transmission of the motion function detection data between the medical mobile terminal and the hospital terminal, thereby solving the problem that the information is relatively closed and isolated in the mobile medical process.

Description

Information management system for mobile medical vehicle

Technical Field

The embodiment of the invention relates to the technical field of medical treatment, in particular to an information management system for a mobile medical vehicle.

Background

With the strength of China on information-based construction, the medical field also caters to a brand-new era, the popularization of digital hospitals, and the establishment of information-based systems such as HIS, LIS, PACS and the like in various hospitals improves the working efficiency, thereby better serving patients. The construction and integration of the information system in the hospital become the key point of research of experts in the industry, the mobile medical detection work still stays in the traditional working mode, and the information disjointing phenomenon exists between the mobile medical vehicle and the information in the hospital.

Disclosure of Invention

Therefore, the embodiment of the invention provides an information management system for a mobile medical vehicle, so as to solve the problem that information is relatively closed and isolated in the mobile medical process in the prior art.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions:

according to an embodiment of the present invention, an information management system for a mobile medical vehicle includes:

the medical mobile terminal is positioned in the mobile medical vehicle and comprises an information input unit and a health data acquisition unit, wherein the information input unit is used for acquiring basic identity information of a person to be detected from an identity code of the person to be detected and generating an inspection application form containing the basic identity information and inspection item information according to the detection requirement of the person to be detected, and the health data acquisition unit is used for acquiring the inspection application form uploaded by the information input unit through a data interface and correspondingly acquiring various motion function indexes of the person to be detected according to the inspection item information contained in the inspection application form and synchronously generating inspection data information;

the cloud server is used for acquiring and storing the inspection request form uploaded by the information input unit and the inspection data information sent by the health data acquisition unit;

the hospital terminal comprises an information evaluation unit and an information feedback unit, wherein the information evaluation unit is used for calling an inspection request form and inspection data information of the cloud server, generating an evaluation report containing the inspection request form, the inspection data information and an analysis result through the summary statistical analysis of the inspection data information by a hospital expert, and the information feedback unit is used for acquiring the evaluation report generated by the information evaluation unit and uploading the evaluation report to the cloud server for storage;

the medical mobile terminal and the hospital terminal are in communication connection with the cloud server through a 5G network respectively, and bidirectional communication transmission of the medical mobile terminal and the hospital terminal is formed.

Furthermore, the information input unit is a mobile user end of the HIS system, and is externally connected with an identity recognizer through a data interface, so that the identity recognizer is used for recognizing the identity code of the person to be detected, and the identified basic identity information is transmitted to the information input unit in a data interface mode, and a doctor in the mobile medical vehicle can check the detection requirement of the person to be checked, an inspection request form is issued through an information input unit, the information feedback unit is a hospital user side of the HIS system, and the mobile user side of the HIS system and the hospital user side of the HIS system form information transmission of the HIS system based on the 5G network, the medical mobile terminal and the hospital terminal are respectively provided with a computer for displaying pictures and texts, so that a software system part is installed in the computer in a program installation mode, and a hardware part is connected outside the computer in a data interface mode.

Furthermore, the health data acquisition unit comprises a checking device and a first data processing unit, the checking device is used for acquiring various motor function indexes of a person to be checked, the first data processing unit is a mobile user end of the LIS system and is used for acquiring various motor function indexes acquired by the checking device in a conventional mode through a data interface mode and generating checking data information, the information evaluation unit comprises a first information diagnosis unit, the first information diagnosis unit is a hospital user end of the LIS system, the mobile user end of the LIS system and the hospital user end of the LIS system form information transmission of the LIS system based on a 5G network, the first information diagnosis unit synchronously displays the checking data information, an expert doctor at a hospital terminal checks and diagnoses the checking data information, and an evaluation report is provided through the first information diagnosis unit, the first information diagnosis unit is further used for transmitting the evaluation report to the information feedback unit, the information input unit is further used for obtaining the evaluation report sent by the information feedback unit, the first information diagnosis unit is externally connected with a printing device in a data interface mode, and the printing device prints the evaluation report.

Further, the first data processing unit is also used for acquiring the inspection request form uploaded by the information input unit through the data interface, making and arranging a routine inspection project plan of the inspection equipment according to routine inspection project information contained in the inspection request form, and simultaneously transmitting the routine inspection project plan to the information input unit through the first data processing unit.

Furthermore, the health data acquisition unit also comprises a second data processing unit which is a mobile user end of the PACS system, is used for acquiring various motor function indexes acquired by the inspection equipment in an ultrasonic mode through a data interface mode, and generates the test data information, the information evaluation unit further comprises a second information diagnosis unit which is a hospital user side of the PACS system, and the mobile user end of the PACS system and the hospital user end of the PACS system form the information transmission of the PACS system based on the 5G network, so that the second information diagnosis unit synchronously displays the inspection data information, the expert doctor at the hospital terminal examines and diagnoses the inspection data information, and develops an evaluation report through the second information diagnosis unit, wherein the second information diagnosis unit is further configured to transmit the evaluation report to the information feedback unit.

Further, the second data processing unit is also used for acquiring the inspection request form uploaded by the information input unit through the data interface, making and arranging an ultrasonic inspection project plan of the inspection equipment according to the ultrasonic inspection project information contained in the inspection request form, and simultaneously transmitting the ultrasonic inspection project plan to the information input unit through the second data processing unit.

The cloud server comprises an information storage unit and an abnormal data detection unit, wherein the information storage unit is used for acquiring the inspection application form uploaded by the information input unit and the inspection data information sent by the health data acquisition unit and summarizing and storing the corresponding inspection data information according to the basic identity information of the person to be inspected contained in the inspection application form, the information storage unit is also used for storing the normal numerical range data of each motion function index, the normal numerical range data of each motion function index and the inspection data information are stored in a database, the abnormal data detection unit comprises an index standard subunit and an abnormal data feedback subunit, the index standard subunit is used for acquiring the inspection data information sent by the health data acquisition unit and integrating each motion function index in the inspection data information with the normal numerical range data of each motion function index And correspondingly comparing the data, and carrying out abnormity marking on the motor function indexes which are not in the normal numerical range data, wherein the abnormal data feedback subunit is used for acquiring the abnormal motor function indexes marked by the index standard subunit and transmitting the abnormal motor function indexes to the mobile equipment of the user through a 5G network, and the mobile equipment of the user is pre-provided with an app for synchronizing information with the information management system.

Further, the cloud server comprises an information analysis unit, the information analysis unit is used for acquiring the inspection request form uploaded by the information input unit and the inspection data information sent by the health data acquisition unit, summarizing and comparing the inspection data information with the old inspection data information of the person to be inspected stored in the information storage unit according to the basic identity information of the person to be inspected contained in the inspection request form, and feeding the information back to the computer for display in a graphic mode.

Furthermore, the medical mobile terminal comprises a video monitoring unit, the video monitoring unit is used for acquiring image and shadow information in the mobile medical vehicle, the information storage unit is used for acquiring and storing the image and shadow information uploaded by the video monitoring unit and transmitting the image and shadow information to mobile equipment of a user through app.

Further, the medical mobile terminal further comprises a mobile terminal communication unit, the mobile terminal communication unit is a mobile user terminal of the remote consultation system, the hospital terminal further comprises a hospital terminal communication unit, the hospital terminal communication unit is a hospital user terminal of the remote consultation system, and the mobile user terminal of the remote consultation system and the hospital user terminal of the remote consultation system form communication transmission of the remote consultation system based on a 5G network.

The embodiment of the invention has the following advantages: through 5G communication technology, realize the data transmission about the motion function detects between medical treatment mobile terminal and the hospital terminal to supply the expert to diagnose fast, thereby collect inspection, consultation, data summarization, data analysis in an organic whole, can be fit for various conditions, guarantee to detect safe high efficiency and realized flexible, convenient and fast, not only make things convenient for daily training guarantee, also can deal with emergency, can improve the training effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

Fig. 1 is a schematic overall structure diagram of an information management system for a mobile medical vehicle according to an embodiment of the present invention;

FIG. 2 is a schematic block diagram of the overall information management of an information management system for a mobile medical vehicle according to an embodiment of the present invention;

FIG. 3 is a schematic block diagram of information management between a health data acquisition unit and an information evaluation unit of an information management system for a mobile medical vehicle according to an embodiment of the present invention;

fig. 4 is a schematic block diagram of information management of a cloud server of an information management system for a mobile medical vehicle according to an embodiment of the present invention.

In the figure: 1. a medical mobile terminal; 11. an information input unit; 111. an identity recognizer; 112. a printing device; 12. a health data acquisition unit; 121. inspecting equipment; 122. a first data processing unit; 123. a second data processing unit; 13. a video monitoring unit; 14. a mobile terminal communication unit; 2. a cloud server; 21. an information storage unit; 22. an abnormal data detection unit; 221. an index standard subunit; 222. an abnormal data feedback subunit; 23. an information analysis unit; 3. a hospital terminal; 31. an information evaluation unit; 311. a first information diagnosis unit; 312. a second information diagnosis unit; 32. an information feedback unit; 33. hospital end communication unit.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. 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.

Example 1

As shown in fig. 1 and 2, an embodiment of the present invention provides an information management system for a mobile medical vehicle, including:

the medical mobile terminal 1 is positioned in a mobile medical vehicle and comprises an information input unit 11 and a health data acquisition unit 12. The information input unit 11 is configured to obtain basic identity information of the person to be detected from the identity code of the person to be detected, and generate an inspection request form including the basic identity information and inspection item information according to a detection requirement of the person to be detected. The health data acquisition unit 12 is used for acquiring an inspection request form uploaded by the information input unit 11 through a data interface, correspondingly acquiring various motor function indexes of a person to be inspected according to inspection item information contained in the inspection request form, and synchronously generating inspection data information;

the cloud server 2 is used for acquiring and storing an inspection request form uploaded by the information input unit 11 and inspection data information sent by the health data acquisition unit 12;

the hospital terminal 3 includes an information evaluation unit 31 and an information feedback unit 32. The information evaluation unit 31 is configured to retrieve the inspection request form and the inspection data information of the cloud server 2, and generate an evaluation report including the inspection request form, the inspection data information, and an analysis result through the summary statistical analysis of the inspection data information by the hospital experts. The information feedback unit 32 is configured to obtain the evaluation report generated by the information evaluation unit 31, and upload the evaluation report to the cloud server 2 for storage;

the medical mobile terminal 1 and the hospital terminal 3 are respectively in communication connection with the cloud server 2 through a 5G network, and bidirectional communication transmission of the medical mobile terminal 1 and the hospital terminal 3 is formed. Through the mode, the medical mobile terminal 1 can complete the movement function detection of the person to be detected, and transmits a real-time detection report back to the hospital terminal 3 at the rear for storage, and provides the diagnosis for relevant specialist doctors in the hospital, and then feeds back the diagnosis suggestion to the medical mobile terminal 1, and provides the diagnosis suggestion for the person to be detected and medical staff in the vehicle body, so that the expert can quickly diagnose.

Specifically, the information input unit 11 is a mobile user terminal of the HIS system. The information input unit 11 is externally connected with an identity recognizer 111 through a data interface, so that the identity recognizer 111 is used for recognizing the identity code of the person to be detected, and basic identity information to be recognized is transmitted to the information input unit 11 through the data interface. Preferably, the identification code may be an identification document, or may be a barcode or a two-dimensional code containing basic identity information of the person to be detected, and the corresponding identity identifier 111 is selected according to different forms of identification codes. The basic identity information includes, but is not limited to, the name, sex, age, identification number, diagnosis, examination item, blood sampling bar code, location, etc. of the person to be examined. A doctor in the mobile medical vehicle makes an inspection application form through the information input unit 11 according to the detection requirement of the person to be inspected, and the information contained in the inspection application form comprises but is not limited to the name, sex, age, identification number, diagnosis, inspection items, blood sampling bar codes, positions and the like of the person to be inspected. The information feedback unit 32 is a hospital user side of the HIS system, and the mobile user side of the HIS system and the hospital user side of the HIS system constitute information transmission of the HIS system based on a 5G network. Wherein, the medical mobile terminal 1 and the hospital terminal 3 are both provided with computers for displaying pictures and texts, so that a software system part is arranged in the computers in a program installation mode, and a hardware part is connected outside the computers in a data interface mode. It should be understood that the HIS system is a software system commonly used in the existing hospital, which is installed on a computer and is used for controlling the relevant processes of the whole examination and inspection, including basic processes of collecting relevant basic information of athletes, registering, paying bills and the like, transmission and collection of examination and inspection data, and communication with the cloud server 2.

Further, as shown in connection with fig. 3, the health data collecting unit 12 includes a checking device 121 and a first data processing unit 122. The inspection equipment 121 is used for acquiring various motor function indexes of the person to be inspected, including but not limited to devices for cardiopulmonary function detection, ultrasonic medical detection, physiological and biochemical detection, conventional medical detection and the like. The first data processing unit 122 is a mobile user side of the LIS system, and is configured to obtain, in a data interface manner, various exercise function indexes acquired by the inspection device 121 in a conventional manner, and generate inspection data information. The information evaluation unit 31 includes a first information diagnosis unit 311, the first information diagnosis unit 311 is a hospital user side of the LIS system, and the mobile user side of the LIS system and the hospital user side of the LIS system constitute information transmission of the LIS system based on a 5G network, so that the first information diagnosis unit 311 synchronously displays the inspection data information, and the expert doctor at the hospital terminal performs audit diagnosis on the inspection data information, and develops an evaluation report through the first information diagnosis unit 311. Wherein, the first information diagnosis unit 311 is further configured to transmit the evaluation report to the information feedback unit 32. It should be understood that the LIS system is a software system commonly used in the existing hospital, and the data detected by the detection equipment 121 such as a blood cell meter, a lactic acid detector, a biochemical analyzer and the like is extracted into the LIS system by using a computer (preferably a portable notebook) through the medical mobile terminal 1, and the detection equipment 121 and the computer adopt serial ports (RS232) and network communication to realize circulation of various data for detection, and meanwhile, daily data processing work is also undertaken, including functions of specimen collection, barcode printing, specimen data receiving, data processing, report auditing, report issuing, report inquiring and the like.

For example, the physiological and biochemical detection device includes a dry biochemical analyzer, a dry fluorescence immunoassay analyzer, a whole blood cell analyzer, a urine analyzer, and a blood lactate detector, and the dry biochemical analyzer, the dry fluorescence immunoassay analyzer, the whole blood cell analyzer, the urine analyzer, and the blood lactate detector are respectively connected to the portable computer through a serial port or a 5G network. Wherein the dry biochemical analyzer is used for three items of liver function (ALT, AST and ALB), three items of kidney function (UREA, CREA and UA), four items of myocardial enzyme (CK, CK-MB, LDH and alpha-HBDH), emergency treatment items (alpha-AMY and LPS), and others (CHE and GLU); the dry type fluorescence immunoassay analyzer is used for six sex hormones (estradiol, testosterone, prolactin, follicle stimulating hormone, luteinizing hormone and progesterone), three A sex hormones (T3, T4 and TSH), four swelling targets (CEA, AFP, PSA and FPSA), cortisol and the like; the whole blood cell analyzer is used for detecting 25 indexes such as white blood cells, red blood cells, hemoglobin, hematocrit, platelets and the like in whole blood; the urine analyzer is used for detecting pH value, nitrite, glucose, protein, occult blood, ketone body, bilirubin, urobilinogen, urine specific gravity, leucocyte, vitamin C, microalbumin, urine calcium and creatinine in urine; the blood lactic acid detector is used for detecting the content of lactic acid and glucose in blood.

The health data acquiring unit 12 further includes a second data processing unit 123, where the second data processing unit 123 is a mobile user end of the PACS system, and is configured to acquire, by means of a data interface, various motion function indexes acquired by the inspection apparatus 121 in an ultrasonic manner, and generate inspection data information. The information evaluation unit 31 further includes a second information diagnosis unit 312, the second information diagnosis unit 312 is a hospital user side of the PACS system, and the mobile user side of the PACS system and the hospital user side of the PACS system constitute information transmission of the PACS system based on a 5G network, so that the second information diagnosis unit 312 synchronously displays the inspection data information, and the expert doctor at the hospital terminal performs audit diagnosis on the inspection data information, and develops an evaluation report through the second information diagnosis unit 312. Wherein the second information diagnosing unit 312 is further configured to transmit the evaluation report to the information feedback unit 32. It is to be understood that the PACS system is a software system commonly used in a computer installed in an existing hospital, and mainly implements the examination, data acquisition and transmission, diagnosis and report preparation of musculoskeletal ultrasound, the PACS system is designed according to the DICOM3.0 international standard, a hardware support platform is formed by a high-performance server, a network and a storage device, a large relational database is used as a storage management tool of data and images, the collection, transmission, storage and diagnosis of medical images are taken as a core, the PACS system is a comprehensive application system which integrates the image acquisition, transmission, storage and management, the image diagnosis inquiry, report management, comprehensive information management and the like, the PACS system mainly aims to store the medical images generated in the musculoskeletal ultrasound examination of a moving function vehicle in a mass manner in a digital manner through a DICOM3.0 international standard interface, and can be quickly called back to use under certain authorization when needed, and meanwhile, some auxiliary diagnosis management functions are added. Meanwhile, data docking with the lung function detection system can be realized, and a lung function report is presented to the PACS system. The PACS musculoskeletal ultrasound system comprises joint ultrasound (knee joint, shoulder joint, wrist joint and the like), muscle tendon ultrasound and blood vessel ultrasound.

As described above, the information input unit 11 is further configured to obtain the evaluation report sent by the information feedback unit 32, and externally connect the printing device 112 by way of a data interface, and the printing device 112 prints the evaluation report. Preferably, the printing device 112 is preferably a conventional printer.

One preferred embodiment is: the first data processing unit 122 is further configured to obtain the inspection request form uploaded by the information input unit 11 through the data interface, and make and arrange a routine inspection item plan of the inspection equipment 121 according to routine inspection item information contained in the inspection request form, and simultaneously transmit the routine inspection item plan to the information input unit 11 by the first data processing unit 122. Similarly, the second data processing unit 123 is further configured to obtain the inspection request form uploaded by the information input unit 11 through the data interface, and formulate and arrange an ultrasonic inspection project plan of the inspection apparatus according to the inspection project information of the ultrasound contained in the inspection request form, and simultaneously transmit the ultrasonic inspection project plan to the information input unit 11 through the second data processing unit 123. Through this mode to each project inspection progress of waiting to examine personnel is rationally arranged in convenient to.

One preferred embodiment is: as shown in fig. 4, the cloud server 2 includes an information storage unit 21 and an abnormal data detection unit 22. The information storage unit 21 is configured to obtain the inspection request form uploaded by the information input unit 11 and the inspection data information sent by the health data acquisition unit 12, and perform induction storage on the corresponding inspection data information according to the basic identity information of the person to be inspected included in the inspection request form. The information storage unit 21 is further configured to store normal numerical range data of each exercise function index, and the normal numerical range data of each exercise function index and the inspection data information are stored in a sub-database. The abnormal data detection unit 22 includes an index criterion subunit 221 and an abnormal data feedback subunit 222. The index standard subunit 221 is configured to obtain inspection data information sent by the health data acquisition unit 12, compare each exercise function index in the inspection data information with normal numerical range data of each exercise function index in a one-to-one correspondence manner, and perform abnormality marking on an exercise function index that is not in the normal numerical range data. The abnormal data feedback subunit 222 is configured to obtain the abnormal motion function index marked by the index standard subunit 221, and transmit the abnormal motion function index to the mobile device of the user through the 5G network, where the mobile device is preferably a mobile phone, and the mobile device of the user is pre-installed with an app for synchronizing information with the information management system. Through this mode, consider that each item body index of waiting to examine the personnel has very high real-time, after these data transmit to cloud server 2 through the 5G network, just can monitor each item numerical value that appears unusually to in pushing to the cell-phone in real time through APP.

Further, the cloud server 2 includes an information analysis unit 23. The information analysis unit 23 is used for acquiring the inspection request form uploaded by the information input unit 11 and the inspection data information sent by the health data acquisition unit 12, summarizing and comparing the inspection data information with the old inspection data information of the person to be inspected stored in the information storage unit 21 according to the basic identity information of the person to be inspected contained in the inspection request form, and feeding back the information to a computer for display in a graphic manner. By the method, the real-time performance of each physical index of the person to be detected is considered, so that the movement function condition of the person to be detected is comprehensively analyzed according to the comparison between the new movement function index and the previous movement function index, and therefore, a specialist can give more accurate diagnosis evaluation and suggestion.

Further, referring back to fig. 2, the medical mobile terminal 1 further includes a video monitoring unit 13, the video monitoring unit 13 is configured to acquire image and video information in the mobile medical vehicle, and the information storage unit 21 is configured to acquire and store the image and video information uploaded by the video monitoring unit 13, and transmit the image and video information to the mobile device of the user through app. Through the mode, the condition in the vehicle of the mobile medical vehicle can be conveniently recorded in real time, the cloud server 2 can be stored in real time through the 5G network, and the condition in the vehicle can be checked at any time through the mobile phone APP.

One preferred embodiment is: the medical mobile terminal 1 further includes a mobile terminal communication unit 14, the mobile terminal communication unit 14 is a mobile user terminal of the remote consultation system, the hospital terminal 3 further includes a hospital terminal communication unit 33, the hospital terminal communication unit 33 is a hospital user terminal of the remote consultation system, and the mobile user terminal of the remote consultation system and the hospital user terminal of the remote consultation system form communication transmission of the remote consultation system based on a 5G network. By the method, information intercommunication between the mobile medical vehicle and the hospital is further realized, and doctors in the hospital can remotely support medical work of the mobile medical vehicle at any time.

The information management system of the mobile medical vehicle integrates checking, consultation, data summarization and data analysis, integrates checking and checking equipment commonly used by athletes, utilizes a 5G communication technology, integrates hospital HIS, LIS, PACS, remote consultation software and the like for rapid diagnosis of experts, can be suitable for various conditions, ensures the safety and high efficiency of detection, realizes flexibility, convenience and rapidness, is convenient for daily training guarantee, can also cope with emergencies, can improve the training effect, can be pushed into a mobile phone through APP to find the abnormal body conditions of the athletes in time, and is suitable for various training base conditions, thereby effectively solving the problem that information is relatively closed and isolated in the mobile medical process.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. An information management system for a mobile medical cart, the information management system comprising:

the medical mobile terminal is positioned in the mobile medical vehicle and comprises an information input unit and a health data acquisition unit, wherein the information input unit is used for acquiring basic identity information of a person to be detected from an identity code of the person to be detected and generating an inspection application form containing the basic identity information and inspection item information according to the detection requirement of the person to be detected, and the health data acquisition unit is used for acquiring the inspection application form uploaded by the information input unit through a data interface and correspondingly acquiring various motion function indexes of the person to be detected according to the inspection item information contained in the inspection application form and synchronously generating inspection data information;

the cloud server is used for acquiring and storing the inspection request form uploaded by the information input unit and the inspection data information sent by the health data acquisition unit;

the hospital terminal comprises an information evaluation unit and an information feedback unit, wherein the information evaluation unit is used for calling an inspection request form and inspection data information of the cloud server, generating an evaluation report containing the inspection request form, the inspection data information and an analysis result through the summary statistical analysis of the inspection data information by a hospital expert, and the information feedback unit is used for acquiring the evaluation report generated by the information evaluation unit and uploading the evaluation report to the cloud server for storage;

the medical mobile terminal and the hospital terminal are in communication connection with the cloud server through a 5G network respectively, and bidirectional communication transmission of the medical mobile terminal and the hospital terminal is formed.

2. The information management system for the mobile medical cart according to claim 1, wherein: the information input unit is a mobile user end of the HIS system, the information input unit is externally connected with an identity recognizer through a data interface, so that the identity recognizer is used for recognizing the identity code of a person to be detected, and the identified basic identity information is transmitted to the information input unit in a data interface mode, and a doctor in the mobile medical vehicle can check the detection requirement of the person to be checked, an inspection request form is issued through an information input unit, the information feedback unit is a hospital user side of the HIS system, and the mobile user side of the HIS system and the hospital user side of the HIS system form information transmission of the HIS system based on the 5G network, the medical mobile terminal and the hospital terminal are respectively provided with a computer for displaying pictures and texts, so that a software system part is installed in the computer in a program installation mode, and a hardware part is connected outside the computer in a data interface mode.

3. The information management system for the mobile medical cart according to claim 2, wherein: the health data acquisition unit comprises inspection equipment and a first data processing unit, the inspection equipment is used for acquiring various motion function indexes of a person to be inspected, the first data processing unit is a mobile user end of the LIS system and is used for acquiring various motion function indexes acquired by the inspection equipment in a conventional mode through a data interface mode and generating inspection data information, the information evaluation unit comprises a first information diagnosis unit, the first information diagnosis unit is a hospital user end of the LIS system, the mobile user end of the LIS system and the hospital user end of the LIS system form information transmission of the LIS system based on a 5G network, the first information diagnosis unit synchronously displays the inspection data information, an expert doctor at a hospital terminal performs examination and diagnosis on the inspection data information, and an evaluation report is provided through the first information diagnosis unit, wherein, the first information diagnosis unit is also used for transmitting the evaluation report to the information feedback unit, the information input unit is also used for acquiring the evaluation report sent by the information feedback unit, the first information diagnosis unit is externally connected with a printing device in a data interface mode, and the printing device prints the evaluation report.

4. The information management system for the mobile medical cart according to claim 3, wherein: the first data processing unit is also used for acquiring the inspection request form uploaded by the information input unit through the data interface, making and arranging a routine inspection project plan of the inspection equipment according to routine inspection project information contained in the inspection request form, and transmitting the routine inspection project plan to the information input unit through the first data processing unit.

5. The information management system for the mobile medical cart according to claim 3, wherein: the health data acquisition unit also comprises a second data processing unit which is a mobile user terminal of the PACS system, is used for acquiring various motor function indexes acquired by the inspection equipment in an ultrasonic mode through a data interface mode, and generates the test data information, the information evaluation unit further comprises a second information diagnosis unit which is a hospital user side of the PACS system, and the mobile user end of the PACS system and the hospital user end of the PACS system form the information transmission of the PACS system based on the 5G network, so that the second information diagnosis unit synchronously displays the inspection data information, the expert doctor at the hospital terminal examines and diagnoses the inspection data information, and develops an evaluation report through the second information diagnosis unit, wherein the second information diagnosis unit is further configured to transmit the evaluation report to the information feedback unit.

6. The information management system for the mobile medical cart according to claim 5, wherein: the second data processing unit is also used for acquiring the inspection request form uploaded by the information input unit through the data interface, formulating and arranging an ultrasonic inspection project plan of the inspection equipment according to the ultrasonic inspection project information contained in the inspection request form, and simultaneously transmitting the ultrasonic inspection project plan to the information input unit through the second data processing unit.

7. The information management system for the mobile medical cart according to claim 1, wherein: the cloud server comprises an information storage unit and an abnormal data detection unit, wherein the information storage unit is used for acquiring the inspection request form uploaded by the information input unit and the inspection data information sent by the health data acquisition unit and summarizing and storing the corresponding inspection data information according to the basic identity information of the person to be inspected contained in the inspection request form, the information storage unit is also used for storing the normal numerical range data of each motion function index, the normal numerical range data of each motion function index and the inspection data information are stored in a database, the abnormal data detection unit comprises an index standard subunit and an abnormal data feedback subunit, the index standard subunit is used for acquiring the inspection data information sent by the health data acquisition unit and comparing each motion function index in the inspection data information with the normal numerical range data of each motion function index in a one-to-one correspondence manner And carrying out abnormal marking on the motor function index which is not in the normal numerical range data, wherein the abnormal data feedback subunit is used for acquiring the abnormal motor function index marked by the index standard subunit and transmitting the abnormal motor function index to the mobile equipment of the user through a 5G network, and the mobile equipment of the user is pre-provided with an app for synchronizing information with the information management system.

8. The information management system for the mobile medical cart according to claim 7, wherein: the cloud server comprises an information analysis unit, the information analysis unit is used for acquiring the inspection request form uploaded by the information input unit and the inspection data information sent by the health data acquisition unit, summarizing and comparing the inspection data information with the old inspection data information of the person to be inspected, which is stored in the information storage unit, according to the basic identity information of the person to be inspected, which is contained in the inspection request form, and feeding the summary comparison back to a computer for display in a graphic mode.

9. The information management system for the mobile medical cart according to claim 8, wherein: the medical mobile terminal comprises a video monitoring unit, the video monitoring unit is used for acquiring image and shadow information in the mobile medical vehicle, the information storage unit is used for acquiring and storing the image and shadow information uploaded by the video monitoring unit and transmitting the image and shadow information to mobile equipment of a user through app.

10. The information management system for the mobile medical cart according to claim 1, wherein: the medical mobile terminal further comprises a mobile terminal communication unit, the mobile terminal communication unit is a mobile user terminal of the remote consultation system, the hospital terminal further comprises a hospital terminal communication unit, the hospital terminal communication unit is a hospital user terminal of the remote consultation system, and the mobile user terminal of the remote consultation system and the hospital user terminal of the remote consultation system form communication transmission of the remote consultation system based on a 5G network.

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