CN114246609B

CN114246609B - 5G internet medical data acquisition terminal

Info

Publication number: CN114246609B
Application number: CN202210010427.4A
Authority: CN
Inventors: 翟运开; 乔岩; 路薇; 张慧; 侯红利; 高盼; 王宇; 孙东旭; 陈保站; 温婷婷; 冯天宜; 李栋梁
Original assignee: Zhengzhou University
Current assignee: Zhengzhou University
Priority date: 2022-01-06
Filing date: 2022-01-06
Publication date: 2024-02-27
Anticipated expiration: 2042-01-06
Also published as: CN114246609A

Abstract

A5G Internet medical data acquisition terminal belongs to the technical field of medical equipment and aims to solve the problems that the existing terminal products have double authentication of patient identities, single medical data acquisition type, manual disinfection of medical equipment and localized storage of medical data which cannot be stored and called; according to the invention, the scanning module, the identification module, the comparison module, the network communication module and the data storage module are arranged, the identity card of the patient is placed at the identity card scanning port for scanning, the camera is started to identify the face information, the approval of the identity information is completed for the second verification, if the patient uses the device for the first time, the identity and the face information are input into the data storage module, if the device is used for the second time or multiple times, the identification module is utilized to verify and retrieve the patient information and the information in the data storage module, meanwhile, the terminal supports the online inquiry of an Internet hospital through a 5G ToB network, and the localized acquisition, storage and remote safe sharing of the data of medical data are realized.

Description

5G internet medical data acquisition terminal

Technical Field

The invention relates to the technical field of medical equipment, in particular to a 5G Internet medical data acquisition terminal.

Background

The medical data acquisition terminal is mainly applied to medical service scenes such as simple medical data acquisition, is 5G multidimensional vital sign parameter acquisition terminal equipment specially designed for meeting the requirements of Internet medical treatment and mobile medical treatment, and is an Internet medical service terminal specially designed for medical online consultation, mobile ward-round, internet hospital, remote first aid and patient chronic disease management. The data acquisition device is used for acquiring basic information of a patient, vital sign information and on-site audio and video information, storing and retrieving relevant information of the patient, transmitting the information to the Internet medical cloud database center in real time by means of a wireless network, and accurately linking all people, objects and information, so that the medical health service full-process tracking and optimizing information access process is realized, and the accuracy and timeliness of data are ensured.

The information that traditional medical data acquisition terminal gathered only can show data through the display screen, can't save and call, and is used for gathering the pencil of data more, is inconvenient for the arrangement, influences the clean and tidy degree, has increased the degree of difficulty of installation and collection, and the practicality is relatively poor.

Aiming at the problems, the prior device is improved, and the 5G Internet medical data acquisition terminal is provided.

Disclosure of Invention

The invention aims to provide a 5G internet medical data acquisition terminal, a main control unit is connected with a scanning module for scanning patient information, a printing module for printing pictures, an identification module for identifying patient identities, a screen capture module for capturing pictures, a comparison module for comparing the captured pictures and a data storage module for storing the internet in a signal mode, the screen capture module is connected with the comparison module in a signal mode, the printing module is connected with the screen capture module in a signal mode, an identity card of a patient is placed at an identity card scanning port to scan, the scanning module scans the identity information, if the device is used for the first time by the patient, the information is input into the data storage module and stored on the internet, if the device is used for the second time or multiple times, the identification module is used for verifying and modulating the patient information with the information stored in the data storage module, the acquired data is displayed on a display screen, the display screen forms a picture A, a picture B, a picture C and a picture N, the picture A, the picture B, the picture C and the picture N are connected with the screen capture module in a signal mode, the screen capture module carries out any picture, the comparison of the picture and the screen capture module and the data can be compared with the screen capture module, the captured picture through the comparison module, the data of the captured picture and the data can be stored in the screen capture module, the data is printed through the screen capture module, the data and the screen capture data is printed through the screen capture module, and the data is displayed through the screen capture module, visual, the printing device is convenient for the printing, and the printing can be realized, and the problem can be realized, and the printing and can be realized.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a 5G internet medical data acquisition terminal, including gathering end and fixed mounting in the firm piece of gathering end both sides, the equal fixed mounting in both ends of gathering end has control shell, the upper end hinge of gathering end installs the handle, the rear end fixed mounting of gathering end has the line concentration box, fixed mounting has master control unit in the inner chamber of gathering end, master control unit and electronic stethoscope electric connection, be used for auscultation and recording human heart, lung, organ activity sound variation, master control unit still with 12 lead electrocardiograph tester electric connection, be used for 12 lead electrocardiograph measurement.

The main control unit comprises a scanning module for scanning patient information, a printing module for printing pictures, an identification module for identifying patient identities, a screen capturing module for capturing pictures, a comparison module for comparing the captured pictures and a data storage module for storing the images with the Internet, wherein the screen capturing module is in signal connection with the comparison module, and the printing module is in signal connection with the screen capturing module.

Further, the surface fixed mounting of gathering end has display screen, ID card scanning mouth and prints the export, and the display screen forms picture A, picture B, picture C and picture N, and picture A, picture B, picture C and picture N all are connected with screen capture module signal, and ID card scanning mouth and scanning module signal connection.

Further, the surface activity of gathering the end is observed and is had the arm-tie, and the surface fixed mounting of arm-tie has the stopper, and the outer wall surface fixed mounting of gathering the end has the speaker, and the upper end hinge of gathering the end back end is installed and is installed the mounting, and the upper end fixed mounting of gathering the end has the camera, and fixed mounting has reserve battery in the inner chamber of gathering the end.

Further, the lower extreme of firm piece articulates there is lower installed part, and lower installed part sets up in same end with last installed part, and sets up on same horizon with last installed part, and the lower extreme fixed mounting of firm piece has anti-skidding backing plate, still is provided with audio access ware and power amplifier on the collection end for carry out the pickup of sound and put outward.

Further, the outer surface of control shell is provided with the knob, and the outer wall of control shell is embedded to have data acquisition interface, and control shell's surface mounting has the couple that sets up at same height with data acquisition interface, and the door that opens and shuts is still articulated to install in control shell's outside, and the inner wall of door that opens and shuts is embedded to have the sterilizer, and data storage module is connected with data acquisition interface and display screen electricity.

Further, the top of the inner wall of the disinfection cabinet is fixedly provided with a bacteria sensor electrically connected with the knob, the side wall of the disinfection cabinet is fixedly provided with an atomizing nozzle electrically connected with the bacteria sensor, and the other end of the atomizing nozzle is fixedly provided with a through pipe.

Further, the siphunculus is U-shaped, and around sterilizer lower extreme half week, the diapire of sterilizer is inlayed and is had the screen leakage, and the disinfection hydroecium has been seted up to the lower extreme of screen leakage, and the lower extreme fixed mounting of siphunculus has the inlet, and the inlet sets up the inside at the disinfection hydroecium.

Further, the two ends of the line concentration box are fixedly provided with rotating shafts, the outer surface of each rotating shaft is fixedly provided with a limiting baffle, a partition plate is fixedly arranged in an inner cavity of the line concentration box, the line concentration box is divided into three groups of spaces through the partition plate, and a winding mechanism is movably arranged in each space.

Further, the outer wall of the line concentration box is provided with a sliding groove, a telescopic rod is fixedly arranged in the sliding groove, an extension spring is arranged on the outer surface of the telescopic rod, and an abutting block is fixedly arranged at the upper end of the telescopic rod.

Further, the winding mechanism comprises an arc-shaped roll shaft and protection plates fixedly mounted at the upper end and the lower end of the arc-shaped roll shaft, a lug is fixedly mounted at one end of the protection plate, which is far away from the arc-shaped roll shaft, one end of the lug, which is far away from the protection plate, is movably connected with the inner wall of the line concentration box, a torsion spring is fixedly mounted on the outer surface of the lug, and the other end of the torsion spring is fixedly connected with the inner wall of the line concentration box.

Further, a 5G internet medical data acquisition terminal, gathering the end includes:

The instruction generation unit is used for acquiring a data acquisition request sent by the remote medical collaboration platform, generating data acquisition instructions corresponding to all medical equipment based on the data acquisition request, and sending the data acquisition instructions to the corresponding medical equipment, wherein the data acquisition request contains a data category to be acquired;

the data acquisition unit is used for acquiring a function list in each medical device and physiological parameter values corresponding to all functions according to the data acquisition instruction, and acquiring target medical data from the function list in each medical device and the physiological parameter values corresponding to all functions based on the data acquisition instruction, wherein the target medical data comprises one or more of blood pressure data, pulse oxygen data, electrocardiogram data, urine routine data and blood routine data;

the data classifying unit is used for acquiring the data label of each category of medical data, judging whether index value deletion exists in the target medical data or not based on a preset method, and filling the data of the target medical data when judging that the index value deletion exists, so as to generate standard target medical data;

The data classification unit is used for extracting standard target medical data with target quantity from the standard target medical data as a training data set, and training a preset initial classification model based on the training data set and the data label of each type of medical data to obtain a medical data classification model;

the data classification unit is further used for analyzing and processing the standard target medical data based on the medical data classification model to obtain N groups of medical data;

the tabulation unit is used for acquiring a preset table template, carrying out characteristic marking on cells to be filled in the preset table template, processing the preset table template based on the characteristic marking, determining a mapping relation between each cell to be filled and medical data, and determining the content of the data to be filled corresponding to each cell to be filled based on the mapping relation to form a storage structure corresponding to the medical data;

the table generating unit is used for respectively filling the N groups of medical data into cells to be filled in a preset table template based on the storage structure to obtain a medical data acquisition report;

And the data storage unit is used for storing the medical data acquisition report, transmitting the medical data acquisition report to a patient mobile phone terminal for display based on a preset data transmission mode, and completing acquisition of medical data of a patient.

Further, a 5G internet medical data acquisition terminal, the main control unit includes:

the data acquisition subunit is used for acquiring the identity information corresponding to the identity card of the patient, wherein the identity information comprises the name, the number and the home address of the patient;

the computing subunit is used for computing the accuracy of the identity information corresponding to the identity card of the patient according to the identity information, computing the accuracy of the identity information corresponding to the identity card of the patient by the scanning module, and calling the accuracy of the medical data from the data storage module according to the identity information corresponding to the identity card of the patient by the medical platform according to the accuracy, and specifically comprises the following steps:

the first calculating subunit is used for calculating the accuracy of the identity information corresponding to the patient identity card identified by the scanning module:

wherein alpha represents the accuracy of the scanning module to identify the identity information corresponding to the patient identity card, and the value range is (0, 1); mu represents an error factor and has a value range (0.05,0.15) The total item number to be identified on the patient identity card by the scanning module is represented, and the value range is [1,5 ]]The method comprises the steps of carrying out a first treatment on the surface of the Beta represents the number of items which are not accurately identified by the scanning module on the patient identification card, and the value is smaller than the total number of items to be identified by the scanning module on the patient identification card; f represents the identification frequency of the scanning module for identifying the identity information corresponding to the patient identity card; t represents the total time length value used by the scanning module to identify the identity information corresponding to the patient identity card;

the second calculating subunit is used for calculating the accuracy rate of the medical data which is called by the medical platform from the data storage module according to the identity information corresponding to the patient identity card according to the accuracy rate:

wherein η represents the accuracy of the medical platform in retrieving the medical data from the data storage module 66 according to the identity information corresponding to the patient id card, and the value range is (0, 1); alpha represents the accuracy of the scanning module to identify the identity information corresponding to the patient identity card, and the value range is (0, 1); ρ represents an error coefficient, and the value range is (0.1, 0.2); λ represents the number of times that the medical platform accurately retrieves medical data from the data storage module according to the identity information corresponding to the patient identity card, and the value range is (0, δ); delta represents the total number of times the medical platform retrieves medical data from the data storage module 66 according to the identity information corresponding to the patient's identification card; kappa represents the data amount of accurately calling one patient medical data, and the value range is (0, omega); omega represents the total amount of data of one patient medical data;

The comparison subunit is used for comparing the calculated accuracy with a preset accuracy;

if the accuracy is greater than or equal to the preset accuracy, judging that the accuracy of the medical platform for calling the medical data from the data storage module according to the identity information corresponding to the patient identity card is qualified;

otherwise, judging that the accuracy rate of the medical data which is called from the data storage module by the medical platform according to the identity information corresponding to the patient identity card is unqualified, and optimizing the scanning module until the accuracy rate is greater than or equal to the preset accuracy rate, and finishing the scanning of the patient information.

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

1. the invention provides a 5G internet medical data acquisition terminal, a main control unit is connected with a scanning module for scanning patient information, a printing module for printing pictures, an identification module for identifying patient identity, a screen capturing module for capturing pictures, a comparison module for comparing the captured pictures and a data storage module for being in signal connection with the internet, wherein the screen capturing module is connected with the comparison module in signal connection, the printing module is connected with the screen capturing module in signal connection, an identity card of a patient is placed at an identity card scanning port for scanning, the scanning module scans the identity information, if the patient uses the device for the first time, the information is input into the data storage module and stored on the internet, if the device is used for the second time or multiple times, the identification module is utilized for verifying and retrieving the patient information and the information stored in the data storage module, the data is collected through the collection wire harness, the collected data is displayed on a display screen, the display screen forms a picture A, a picture B, a picture C and a picture N, the picture A, the picture B, the picture C and the picture N are connected with a screen capturing module in a signal mode, the screen capturing module captures a screen of any picture, the screen capturing module compares the screen capturing picture with the data collected for the first time through a comparison module, the compared data and the screen capturing picture can be printed through a printing module, the printed paper is discharged from a printing outlet and falls on a pulling plate for storage, the collected data is conveniently and intuitively judged, a data storage module is electrically connected with a data collection interface and the display screen, the data of hypertension, finger pulse oxygen, an electrocardiogram, urine routine, blood routine and the like are externally connected through the data collection interface, the data is input into the upper end of the display screen through a data storage module, and visual judgment is convenient.

2. According to the 5G internet medical data acquisition terminal provided by the invention, the knob is arranged on the outer surface of the control shell and used for setting the threshold value of the bacterial content, the data acquisition interface is embedded in the outer wall of the control shell and used for being connected with an external device, the hook which is arranged at the same height as the data acquisition interface is arranged on the outer surface of the control shell, the opening and closing door is also hinged on the outer side of the control shell, the disinfection cabinet is embedded in the inner wall of the opening and closing door, the bacterial sensor which is electrically connected with the knob is fixedly arranged at the top of the inner wall of the disinfection cabinet and used for detecting the bacterial content, the atomizing spray head which is electrically connected with the bacterial sensor is fixedly arranged on the side wall of the disinfection cabinet, the other end of the atomizing spray head is fixedly provided with the through pipe and used for sucking disinfection water inside the disinfection water chamber, the through pipe is U-shaped and surrounds the lower half circumference of the disinfection cabinet, the bottom wall of the disinfection cabinet is embedded with the drain net, the lower end of the drain net is provided with the disinfection water chamber, the redundant disinfection water can flow back into the disinfection cabinet through the drain net, the lower end of the drain net is fixedly provided with the liquid inlet, the liquid inlet is arranged inside the disinfection chamber, the disinfection cabinet, a collected tool is placed in the disinfection cabinet, the detection tool is electrically connected with the knob, the bacterial sensor is fixedly arranged at the inner wall of the disinfection cabinet, the disinfection water is well, the disinfection water is sprayed into the disinfection water is better, and the disinfection water is better than the threshold value when the disinfection water is sprayed, and the disinfection water is sprayed in the disinfection water.

3. According to the 5G internet medical data acquisition terminal provided by the invention, the acquisition wire harness is wound on the outer surface of the arc-shaped roller shaft and is clamped at the upper end of the abutting block, the tension spring is in the longest state due to the fact that the weight of the wire harness is lighter, the wire harness is positioned at the uppermost end of the sliding groove, when the 5G internet medical data acquisition terminal is used, the tension force of the wire harness drives the abutting block to extrude the tension spring, namely the wire harness moves downwards and extends outwards, the wire harness can be lengthened, if the wire harness is loosened, the wire harness can be driven to restore to the original position by the resilience force of the tension spring, namely the wire harness is stored in the wire collecting box, further, the wire harness wound on the outer surface of the arc-shaped roller shaft and the arc-shaped roller shaft rotate reversely at the same time when the tension spring is compressed to the shortest, the wire harness can be lengthened again, and after the wire harness is loosened, the resilience force of the torsion spring drives the wire harness to wind on the outer surface of the arc-shaped roller shaft again, so that the wire harness is convenient to be tidied.

4. According to the 5G internet medical data acquisition terminal provided by the invention, the medical data of the patient is acquired, the acquired medical data of the patient is classified, so that the medical data of the patient can be conveniently and effectively managed, and meanwhile, the medical data of each type is generated into a corresponding form and transmitted to the patient terminal, so that the user can conveniently and timely check the medical data of the user, the data acquisition efficiency is improved, and the patient treatment efficiency is improved.

5. According to the 5G internet medical data acquisition terminal provided by the invention, the accuracy of the identity information corresponding to the patient identity card is identified by the identity information calculation scanning module, and the accuracy of the medical data is called from the data storage module 66 according to the identity information corresponding to the patient identity card by the accuracy calculation medical platform, so that a manager can conveniently and accurately grasp whether the patient can accurately acquire the corresponding medical data, the management effect of the manager on the medical data is improved, the processing accuracy of the acquired medical data is improved, the user experience is improved, and the manager can conveniently manage.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a 5G Internet medical data acquisition terminal of the present invention;

fig. 2 is a schematic diagram of a back end structure of an acquisition end of the 5G internet medical data acquisition terminal according to the present invention;

fig. 3 is a schematic structural diagram of a disinfection cabinet of the 5G internet medical data acquisition terminal of the present invention;

fig. 4 is a schematic diagram of a hub box structure of the 5G internet medical data acquisition terminal of the present invention;

FIG. 5 is an enlarged view of the 5G Internet medical data acquisition terminal of the present invention at A in FIG. 2;

FIG. 6 is a schematic diagram of a winding mechanism of the 5G Internet medical data acquisition terminal of the invention;

FIG. 7 is a block diagram of a collection end system of the 5G Internet medical data collection terminal of the present invention;

fig. 8 is a system block diagram of a data storage module of the 5G internet medical data acquisition terminal of the present invention.

In the figure: 1. a collection end; 11. a display screen; 12. an identity card scanning port; 13. a print outlet; 14. pulling a plate; 15. a limiting block; 16. a speaker; 17. an upper mounting member; 18. a camera; 19. a standby storage battery; 20. an audio access; 201. a power amplifier; 2. a stabilizing block; 21. a lower mounting member; 22. an anti-slip backing plate; 3. a control housing; 31. a knob; 32. a data acquisition interface; 33. a hook; 34. an opening/closing door; 35. a sterilizing cabinet; 351. a bacterial sensor; 352. an atomizing nozzle; 353. a through pipe; 354. a drain screen; 355. a sterilizing water chamber; 356. a liquid inlet; 4. a handle; 5. a line concentration box; 51. a rotating shaft; 52. a limit baffle; 53. a partition plate; 54. a winding mechanism; 541. arc roll shafts; 542. a protection plate; 543. a bump; 544. a torsion spring; 55. a chute; 56. a telescopic rod; 57. a tension spring; 58. abutting blocks; 6. a main control unit; 61. a scanning module; 62. a printing module; 63. an identification module; 64. a screen capturing module; 65. a comparison module; 66. a data storage module 7, a stethoscope; 8. 12 lead electrocardiograph.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the technical problem that the collected information can only display data through the display screen 11 and cannot be stored and called, as shown in fig. 1, 2 and 7, the following preferred technical scheme is provided:

the utility model provides a 5G internet medical data acquisition terminal, including collection end 1 and fixed mounting at the firm piece 2 of collection end 1 both sides, the equal fixed mounting in both ends of collection end 1 has control housing 3, the upper end hinge of collection end 1 installs handle 4, the portable of this device of being convenient for, collection end 1's rear end fixed mounting has line concentration box 5 for place the pencil, fixed mounting has master control unit 6 in collection end 1's the inner chamber, master control unit 6 and electronic stethoscope 7 electric connection, be used for independent auscultation and recording human heart, lung, organ activity sound change, master control unit 6 still with 12 lead electrocardiograph tester 8 electric connection, be used for independent 12 lead electrocardiograph measurement.

The main control unit 6 comprises a scanning module 61 for scanning patient information, a printing module 62 for printing a picture, an identification module 63 for identifying the identity of a patient, a screen capturing module 64 for capturing a picture, a comparison module 65 for comparing the captured picture and a data storage module 66 for storing the captured picture with the Internet, wherein the screen capturing module 64 is in signal connection with the comparison module 65, and the printing module 62 is in signal connection with the screen capturing module 64.

The outer surface of the acquisition end 1 is fixedly provided with a display screen 11, an identity card scanning port 12 and a printing outlet 13, the display screen 11 forms a picture A, a picture B, a picture C and a picture N, the picture A, the picture B, the picture C and the picture N are all in signal connection with a screen capturing module 64, and the identity card scanning port 12 is in signal connection with a scanning module 61.

The surface activity of collection end 1 is observed there is arm-tie 14, the surface fixed mounting of arm-tie 14 has stopper 15, the outer wall fixed mounting of collection end 1 has speaker 16 for broadcast sound, the upper end hinge of collection end 1 back end is installed and is installed mounting 17, the upper end fixed mounting of collection end 1 has camera 18, be used for shooting the picture near collection end 1, fixed mounting has reserve battery 19 in the inner chamber of collection end 1, the collection end 1 loses the electric power when avoiding having a power failure, be convenient for improve the continuation of the journey effect, still be provided with audio access ware 20 and amplifier 201 on the collection end 1, be used for carrying out the pickup of sound and put outward.

Specifically, the identity card of the patient is placed at the identity card scanning port 12 for scanning, the scanning module 61 scans the identity information, if the patient uses the device for the first time, the information is input into the data storage module 66 and stored on the internet, if the patient uses the device for the second time or for multiple times, the identification module 63 is utilized to verify and retrieve the patient information and the information stored in the data storage module 66, the acquired data are acquired through the acquisition harness, the acquired data are displayed on the display screen 11, the display screen 11 forms a picture A, a picture B, a picture C and a picture N, the picture A, the picture B, the picture C and the picture N are all connected with the screen capture module 64 through signals, the screen capture module 64 captures any picture, the compared data and the screen capture picture can be printed through the printing module 62, and the printed paper is discharged from the printing outlet 13 and falls on the drawing plate 14 for storage, and the acquired data is convenient for visual judgment.

In order to solve the technical problem that the general installation mode is to be directly placed on a bedside table, and the fixing effect is poor, as shown in fig. 2 and 3, the following preferable technical scheme is provided:

The lower extreme of firm piece 2 articulates there is lower mounting 21, and lower mounting 21 sets up in same end with last mounting 17, and sets up on same horizontal line with last mounting 17, and the lower extreme fixed mounting of firm piece 2 has anti-skidding backing plate 22, if collection end 1 is placed when the head of a bed, anti-skidding backing plate 22 can play anti-skidding firm effect.

The outer surface of control shell 3 is provided with knob 31 for set for the threshold value of bacterium content, the outer wall of control shell 3 is embedded to have data acquisition interface 32, data acquisition interface 32 is used for external equipment, the surface mounting of control shell 3 has the couple 33 that sets up at same height with data acquisition interface 32, open-close door 34 is still articulated to be installed in the outside of control shell 3, open-close door 34's inner wall is embedded to have sterilizer 35, data storage module 66 is connected with data acquisition interface 32 and display screen 11 electricity, external data such as hypertension, finger pulse oxygen, the electrocardiogram, urine is conventional, blood is conventional through data acquisition interface 32, the upper end of data input display screen 11 through data storage module 66, the intuitive judgement of being convenient for.

The inner wall top fixed mounting of sterilizer 35 has the bacterium sensor 351 that is connected with knob 31 electricity for detect the bacterium content, the lateral wall fixed mounting of sterilizer 35 has the atomizer 352 of bacterium sensor 351 electricity connection, and atomizer 352's other end fixed mounting has siphunculus 353, is used for absorbing the inside sterile water of disinfection hydroecium 355.

The siphunculus 353 is the U shape, and around disinfection cabinet 35 lower extreme half week, the diapire of disinfection cabinet 35 is inlayed and is had the screen 354, and disinfection hydroecium 355 has been seted up to the lower extreme of screen 354, and unnecessary disinfection water accessible screen 354 flows back to in the disinfection cabinet 35 again, and the lower extreme fixed mounting of siphunculus 353 has inlet 356, and inlet 356 sets up the inside at disinfection hydroecium 355.

Specifically, place the instrument of gathering in sterilizer 35, utilize bacterium sensor 351 to carry out the detection of bacterium to the instrument, if the bacterium quantity of detecting exceeds the threshold value that knob 31 set for, trigger atomizer 352 work, atomizer 352 inhales the disinfection water that holds in the disinfection hydroecium 355 in the siphunculus 353 to atomize the disinfection water, spray the surface at the instrument, can accomplish the effect of gathering the instrument, easy operation, disinfection effect is good.

In order to solve the technical problems that the number of the wire harnesses for collecting data is large, the wire harnesses are inconvenient to arrange, the neatness is affected, the difficulty of installation and collection is increased, and the practicability is poor, as shown in fig. 4, 5 and 6, the following preferable technical scheme is provided:

the two ends of the line concentration box 5 are fixedly provided with rotating shafts 51, the outer surfaces of the rotating shafts 51 are fixedly provided with limiting baffles 52, a partition plate 53 is fixedly arranged in the inner cavity of the line concentration box 5, the line concentration box 5 is divided into three groups of spaces through the partition plate 53, and a winding mechanism 54 is movably arranged in the spaces and used for separating different wire harnesses.

The outer wall of the line concentration box 5 is provided with a chute 55, a telescopic rod 56 is fixedly arranged in the chute 55, an extension spring 57 is arranged on the outer surface of the telescopic rod 56, an abutting block 58 is fixedly arranged at the upper end of the telescopic rod 56, and a wire harness penetrates through the chute 55 and is placed at the upper end of the abutting block 58.

The winding mechanism 54 comprises an arc-shaped roller shaft 541 and protection plates 542 fixedly arranged at the upper end and the lower end of the arc-shaped roller shaft 541, a lug 543 is fixedly arranged at one end, far away from the arc-shaped roller shaft 541, of the protection plates 542, one end, far away from the protection plates 542, of the lug 543 is movably connected with the inner wall of the line concentration box 5, a torsion spring 544 is fixedly arranged on the outer surface of the lug 543, and the other end of the torsion spring 544 is fixedly connected with the inner wall of the line concentration box 5.

Specifically, gather the pencil winding in the surface of arc roller 541 to the joint is in the upper end of supporting the piece 58, because the weight of pencil itself is lighter, then extension spring 57 is longest state, and the pencil is located the uppermost of spout 55, during the use, outwards tensile pencil, its pulling force drives supporting piece 58 extrusion extension spring 57, the pencil moves down, and outwards extend, can accomplish the work of elongation of pencil, if loosen the pencil, then the resilience force of extension spring 57 can drive the pencil and resume the normal position, the pencil is saved in the inside of line concentration box 5, further, extension spring 57 compresses and continues outwards tensile pencil when the shortest, then the pencil of winding at arc roller 541 surface and arc roller 541 counter-rotating simultaneously, in-process torsion spring 544 is stretched, can the extension pencil once more, after loosening the pencil, the resilience force of torsion spring 544 drives the pencil to twine again at the surface of arc roller 541, be convenient for arrange.

Working principle: the identity card of the patient is placed at the identity card scanning port 12 for scanning, the scanning module 61 scans the identity information, if the patient uses the device for the first time, the information is input into the data storage module 66 and is stored on the internet, if the patient uses the device for the second time or for multiple times, the identification module 63 is used for verifying and retrieving the patient information and the information stored in the data storage module 66, the acquired data is acquired through the acquisition harness, the acquired data is displayed on the display screen 11, the display screen 11 forms a picture A, a picture B, a picture C and a picture N, the picture A, the picture B, the picture C and the picture N are connected with the screen capture module 64 through signals, the screen capture module 64 captures any picture, the screen capture picture is compared with the data acquired for the first time through the comparison module 65, the compared data and the screen capture picture can be printed through the printing module 62, the printed paper is discharged from the printing outlet 13 and falls on the pulling plate 14 for storage, the collecting wire harness is wound on the outer surface of the arc-shaped roller 541 and is clamped at the upper end of the abutting block 58, the tension spring 57 is in the longest state because the weight of the wire harness is lighter, the wire harness is positioned at the uppermost end of the sliding groove 55, when the paper is used, the tension of the wire harness is outwards stretched, the abutting block 58 is driven to press the tension spring 57, namely the wire harness moves downwards and extends outwards, the wire harness can be lengthened, if the wire harness is loosened, the resilience force of the tension spring 57 can drive the wire harness to restore the original position, namely the wire harness is stored in the wire harness collecting box 5, further, the tension spring 57 is compressed to the shortest time to continue to outwards stretch the wire harness wound on the outer surface of the arc-shaped roller 541 and the arc-shaped roller 541 simultaneously rotate reversely, the torsion spring 544 is stretched in the process, the wire harness can be lengthened again, after the harness is loosened, the resilience of the torsion spring 544 drives the harness to rewind around the outer surface of the arc roller 541.

The invention provides a 5G Internet medical data acquisition terminal, an acquisition terminal 1, comprising:

In this embodiment, the medical device refers to an apparatus for performing various detection on the human body index, and may be, for example, a sphygmomanometer, an electrocardiograph, or the like.

In this embodiment, the physiological parameter value refers to various index parameters of the body corresponding to the patient, for example, the blood glucose content is 4.6.

In this embodiment, the target medical data refers to selecting data corresponding to the data acquisition request from among a plurality of medical data according to the data acquisition request, for example, blood pressure, urine regular data, blood glucose data, and pulse oxygen data.

In this embodiment, the data tag is a marker for distinguishing between different types of data, such as blood pressure and urine regular data.

In this embodiment, the preset method is set in advance, and is used to detect whether the target medical data contains missing value data.

In this embodiment, the standard target medical data refers to standard data obtained by processing abnormal data in the target medical data, which has no erroneous data.

In this embodiment, the preset table template is set in advance, and is used to generate a corresponding table form from the acquired medical data of the patient.

In this embodiment, the characteristic flag is attribute information for marking each cell, from which the data type corresponding to the cell can be determined.

In this embodiment, the storage structure means that the medical data can be stored directly into the form, e.g. the form is in an edited state.

In this embodiment, the mapping relationship is used to determine a correspondence relationship between a cell and medical data, where one cell may correspond to one data or multiple data.

The beneficial effects of the technical scheme are as follows: through gathering patient's medical data to classify the patient medical data who gathers, be convenient for effectively manage patient's medical data, generate the form that corresponds with each type medical data simultaneously, and transmit to patient terminal, the user of being convenient for in time looks over own medical data, improved data acquisition's efficiency, improved the efficiency that the patient was seen a doctor simultaneously.

The invention provides a 5G Internet medical data acquisition terminal, a main control unit 6, comprising:

the calculating subunit is configured to calculate, according to the identity information, an accuracy of the identity information corresponding to the patient identification card identified by the scanning module 61, and according to the accuracy, calculate, by the medical platform, an accuracy of the medical data transferred from the data storage module 66 according to the identity information corresponding to the patient identification card, where the specific steps include:

a first calculating subunit, configured to calculate accuracy of identifying, by the scanning module 61, the identity information corresponding to the patient id card:

wherein α represents the accuracy of the scanning module to identify the identity information corresponding to the patient id card 61, and the value range is (0, 1); mu represents an error factor and has a value range (0.05,0.15)Representing the total number of items to be identified on the patient identification card by the scanning module 61, and the value range is [1,5 ]]The method comprises the steps of carrying out a first treatment on the surface of the Beta represents the number of items on the patient identification card which is not accurately identified by the scanning module 61, and the value is smaller than the total number of items to be identified on the patient identification card by the scanning module 61; f represents the identification frequency of the identity information corresponding to the patient identity card by the scanning module 61; t represents a total time length value used by the scanning module 61 to identify the identity information corresponding to the patient identification card;

The second calculating subunit is configured to calculate, according to the accuracy, an accuracy rate of the medical data retrieved by the medical platform from the data storage module 66 according to the identity information corresponding to the patient id card:

wherein η represents the accuracy of the medical platform in retrieving the medical data from the data storage module 66 according to the identity information corresponding to the patient id card, and the value range is (0, 1); alpha represents the accuracy of the scanning module to identify the identity information corresponding to the patient identity card 61, and the value range is (0, 1); ρ represents an error coefficient, and the value range is (0.1, 0.2); λ represents the number of times the medical platform accurately retrieves medical data from the data storage module 66 according to the identity information corresponding to the patient id card, and the value range is (0, δ); delta represents the total number of times the medical platform retrieves medical data from the data storage module 66 according to the identity information corresponding to the patient's identification card; kappa represents the data amount of accurately calling one patient medical data, and the value range is (0, omega); omega represents the total amount of data of one patient medical data;

if the accuracy is greater than or equal to the preset accuracy, judging that the accuracy of the medical data is qualified when the medical platform is called from the data storage module 66 according to the identity information corresponding to the patient identity card;

Otherwise, it is determined that the accuracy rate of the medical platform for retrieving the medical data from the data storage module 66 according to the identity information corresponding to the patient identity card is not qualified, and the scanning module 61 is optimized until the accuracy rate is greater than or equal to the preset accuracy rate, so as to complete the scanning of the patient information.

In this embodiment, the error factor refers to the extent of the influence factor that affects the identity card information identified by the scanning module, for example, may be the resolution of the camera 18, the cleanliness of the surface of the identity card, and so on.

In this embodiment, the error coefficient refers to an influence factor that affects the medical platform to retrieve the medical data, such as an inaccuracy in identifying the identity information on the identity card.

In this embodiment, the total number of items to be identified on the patient's id card may be name, gender, id card number, home address, head portrait, etc.

In this embodiment, the data amount of accurately retrieving medical data of a patient may be, for example, blood pressure data, pulse oxygen data, urine regular data, etc. of the patient, and the data amount of accurately retrieving may be one or more of blood pressure data, pulse oxygen data, urine regular data, etc.

In this embodiment, the total data amount of one patient medical data may be, for example, all medical item data acquired for the patient, including blood pressure data, pulse oxygen data, urine routine, blood glucose, and the like.

In this embodiment, the preset accuracy is set in advance, and is used for measuring whether the accuracy of the medical platform for calling the corresponding medical data according to the identity information is qualified.

The beneficial effects of the technical scheme are as follows: the accuracy of the identity information corresponding to the patient identity card is identified by the identity information calculation scanning module 61, and the accuracy of the medical data is called from the data storage module 66 according to the identity information corresponding to the patient identity card by the accuracy calculation medical platform, so that a manager can conveniently and accurately grasp whether the patient can accurately acquire the corresponding medical data, the management effect of the manager on the medical data is improved, the processing accuracy of the acquired medical data is improved, the user experience is improved, and the manager can conveniently manage.

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

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims

1. The utility model provides a 5G internet medical data acquisition terminal, includes collection end (1) and fixed mounting at firm piece (2) of collection end (1) both sides, its characterized in that: the two ends of the acquisition end (1) are fixedly provided with a control shell (3), the upper end of the acquisition end (1) is hinged with a handle (4), the rear end of the acquisition end (1) is fixedly provided with a line concentration box (5), a main control unit (6) is fixedly arranged in an inner cavity of the acquisition end (1), the main control unit (6) is electrically connected with an electronic stethoscope (7) and is used for auscultating and recording the activity sound changes of human hearts, lungs and organs, the main control unit (6) is also electrically connected with a 12-lead electrocardiogram tester (8) and is used for 12-lead electrocardiogram measurement, the main control unit (6) comprises a scanning module (61) for scanning patient information, a printing module (62) for printing physical examination reports, an identification module (63) for identifying patient identities, a screen capture module (64) for capturing images, a comparison module (65) for comparing the captured images and a data storage module (66) for storing images with the Internet, and the screen capture module (64) is in signal connection with the comparison module (65);

The wire collecting box comprises a wire collecting box body, wherein a rotating shaft (51) is fixedly arranged at two ends of the wire collecting box body, a limit baffle (52) is fixedly arranged on the outer surface of the rotating shaft (51), a partition plate (53) is fixedly arranged in an inner cavity of the wire collecting box body (5), the wire collecting box body (5) is divided into three groups of spaces through the partition plate (53), a wire winding mechanism (54) is movably arranged in the spaces, a sliding groove (55) is formed in the outer wall of the wire collecting box body (5), a telescopic rod (56) is fixedly arranged in the sliding groove (55), an extension spring (57) is arranged on the outer surface of the telescopic rod (56), a supporting block (58) is fixedly arranged at the upper end of the telescopic rod (56), the wire winding mechanism (54) comprises an arc roller shaft (541) and protection plates (542) fixedly arranged at the upper end and the lower end of the arc roller shaft (541), one end, far away from the arc roller shaft (541), of each projection (543) is fixedly arranged, one end, far away from each protection plate (542) is movably connected with the inner wall of the wire collecting box body (5), the other end, of each projection (544) is fixedly connected with the other, and the other end of each torsion spring (544) is fixedly connected with the inner wall of the wire collecting box body (5);

acquisition end (1), comprising:

the data classifying unit is used for acquiring the data label of each category of medical data, judging whether index value deletion exists in the target medical data or not based on a preset method, and repeatedly acquiring the target medical data when judging that the index value deletion exists, so as to generate standard target medical data;

the data storage unit is used for storing the medical data acquisition report, and transmitting the medical data acquisition report to a patient mobile phone terminal for display based on a preset data transmission mode to complete acquisition of medical data of a patient;

a master control unit (6) comprising:

the calculating subunit is configured to calculate, according to the identity information, an accuracy of the identity information corresponding to the patient identity card identified by the scanning module (61), and calculate, according to the accuracy, an accuracy of the medical data retrieved from the data storage module (66) by the medical platform according to the identity information corresponding to the patient identity card, where the specific steps include:

The first calculating subunit is used for calculating the accuracy of the identity information corresponding to the identity card of the patient identified by the scanning module (61):

wherein alpha represents the accuracy of the scanning module to identify the identity information corresponding to the patient identity card, and the value range is (0, 1); mu represents an error factor and has a value range (0.05,0.15)Representing the total number of items to be identified on the patient identification card by the scanning module 61,and the value range is [1,5 ]]The method comprises the steps of carrying out a first treatment on the surface of the Beta represents the number of items on the patient identification card which is not accurately identified by the scanning module 61, and the value is smaller than the total number of items to be identified on the patient identification card by the scanning module 61; f represents the identification frequency of the identity information corresponding to the patient identity card by the scanning module 61; t represents a total time length value used by the scanning module 61 to identify the identity information corresponding to the patient identification card;

the second calculating subunit is used for calculating the accuracy rate of the medical data which is called by the medical platform from the data storage module (66) according to the identity information corresponding to the patient identity card according to the accuracy rate:

wherein η represents the accuracy of the medical platform in retrieving the medical data from the data storage module 66 according to the identity information corresponding to the patient id card, and the value range is (0, 1); alpha represents the accuracy of the scanning module to identify the identity information corresponding to the patient identity card, and the value range is (0, 1); ρ represents an error coefficient, and the value range is (0.1, 0.2); λ represents the number of times the medical platform accurately retrieves medical data from the data storage module 66 according to the identity information corresponding to the patient id card, and the value range is (0, δ); delta represents the total number of times the medical platform retrieves medical data from the data storage module 66 according to the identity information corresponding to the patient's identification card; kappa represents the data amount of accurately calling one patient medical data, and the value range is (0, omega); omega represents the total amount of data of one patient medical data;

if the accuracy is greater than or equal to the preset accuracy, judging that the accuracy of the medical platform for calling the medical data from the data storage module (66) according to the identity information corresponding to the patient identity card is qualified;

otherwise, judging that the accuracy rate of the medical data is unqualified when the medical platform is used for calling the medical data from the data storage module (66) according to the identity information corresponding to the patient identity card, and optimizing the scanning module (61) until the accuracy rate is greater than or equal to the preset accuracy rate, and finishing the scanning of the patient information.

2. The 5G internet medical data acquisition terminal of claim 1, wherein: the outer surface of the acquisition end (1) is fixedly provided with a display screen (11), an identity card scanning port (12) and a printing outlet (13), the display screen (11) forms a picture A, a picture B, a picture C and a picture N, the picture A, the picture B, the picture C and the picture N are all in signal connection with a screen capturing module (64), and the identity card scanning port (12) is in signal connection with a scanning module (61).

3. A 5G internet medical data acquisition terminal according to claim 2, wherein: the utility model discloses a sound pickup device, including gathering end (1), surface activity of gathering end (1) is observed there is arm-tie (14), the surface fixed mounting of arm-tie (14) has stopper (15), the outer wall fixed mounting of gathering end (1) has speaker (16), the upper end hinge of gathering end (1) back end is installed and is installed mounting piece (17), the upper end fixed mounting of gathering end (1) has camera (18), fixed mounting has reserve battery (19) in the inner chamber of gathering end (1), still be provided with audio access ware (20) and power amplifier (21) on gathering end (1) for carry out the pickup of sound and put outward.

4. A 5G internet medical data acquisition terminal according to claim 3, wherein: the lower end of the stabilizing block (2) is hinged with a lower mounting piece (21), the lower mounting piece (21) and the upper mounting piece (17) are arranged at the same end, the lower mounting piece and the upper mounting piece (17) are arranged on the same horizontal line, and an anti-slip base plate (22) is fixedly arranged at the lower end of the stabilizing block (2).

5. A 5G internet medical data acquisition terminal according to claim 2, wherein: the outer surface of control shell (3) is provided with knob (31), and the outer wall of control shell (3) is embedded to have data acquisition interface (32), and the surface mounting of control shell (3) has couple (33) that set up at same height with data acquisition interface (32), and door (34) open and shut are still articulated to install in the outside of control shell (3), and the inner wall of door (34) open and shut is embedded to have sterilizer (35), and data storage module (66) are connected with data acquisition interface (32) and display screen (11) electricity.

6. The 5G internet medical data acquisition terminal of claim 5, wherein: the utility model provides a disinfection cabinet (35) inner wall top fixed mounting has bacterium sensor (351) of being connected with knob (31) electricity, and the lateral wall fixed mounting of disinfection cabinet (35) has atomizer (352) of bacterium sensor (351) electricity connection, and atomizer (352) other end fixed mounting has siphunculus (353), and siphunculus (353) are the U-shaped, and around disinfection cabinet (35) lower extreme half week, and the diapire of disinfection cabinet (35) is inlayed and is had drain screen (354), and disinfection hydroecium (355) have been seted up to the lower extreme of drain screen (354), and the lower extreme fixed mounting of siphunculus (353) has inlet (356), and inlet (356) set up the inside in disinfection hydroecium (355).