CN106264464B - Household health physical examination monitoring system - Google Patents

Household health physical examination monitoring system Download PDF

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Publication number
CN106264464B
CN106264464B CN201610647516.4A CN201610647516A CN106264464B CN 106264464 B CN106264464 B CN 106264464B CN 201610647516 A CN201610647516 A CN 201610647516A CN 106264464 B CN106264464 B CN 106264464B
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physical examination
bin
data
cabinet
data processing
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CN106264464A (en
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邹德威
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons

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  • Life Sciences & Earth Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • Medical Informatics (AREA)
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  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
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  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Measuring And Recording Apparatus For Diagnosis (AREA)

Abstract

The embodiment of the invention provides a household health physical examination monitoring system, which comprises a cabinet and a console; a physical examination instrument bin and a computer are arranged in the control console; the physical examination instrument bin is used for placing physical examination sensors; the cabinet is provided with a data processing equipment bin, a specimen bin, an assay equipment bin, a conveying and positioning device and a controller; the data processing equipment is arranged in the data processing equipment bin, and the data processing equipment receives the physical examination signals obtained by the physical examination sensors and converts the physical examination signals into physical examination data; placing a physical examination specimen in a specimen bin; the assay equipment bin is provided with assay equipment; the physical examination sample is sent to the testing equipment by the transmitting and positioning device to be tested to obtain physical examination data; the controller is used for starting or closing the physical examination sensor, the data processing equipment and the test equipment, collecting physical examination data and uploading the physical examination data to the computer. The invention integrates the mainstream technology of the current disease diagnosis, has simple operation, is suitable for being used in families, and greatly improves the convenience of health examination of the general public.

Description

Household health physical examination monitoring system
Technical Field
The embodiment of the invention relates to the technical field of medical equipment, in particular to a household health physical examination monitoring system.
Background
This section is intended to provide a background or context to the embodiments of the invention that are recited in the claims. The description herein is not admitted to be prior art by inclusion in this section.
Along with the aggravation of environmental pollution and the change of global climate, the pressure of life of human beings is continuously increased, the global disease spectrum has been greatly transformed, malignant tumors, cardiovascular and cerebrovascular diseases and the like are in front of the world, and the serious threat to the health of human beings is formed. On the one hand, the diagnosis and treatment technology has advanced by a long term in the last half of the century and the beginning of the century, and various lethal diseases (such as cancer, myocardial infarction and the like) are not thoroughly solved, but if diagnosis and treatment can be found and obtained as early as possible, the death rate can be greatly reduced, and the cure rate and improvement rate are obviously improved; on the other hand, even though various diagnosis and treatment techniques are rapidly advanced, most lethal diseases (such as malignant tumors of liver, lung, pancreas, mammary gland and the like) reach middle and late stages when found, the treatment effect is poor, the survival time of patients is short, and the death rate is still high. Even for people with superior health care conditions (e.g., can perform annual regular physical examination, even twice a year), the middle is still between 6 months and one year, and the period is still a 'blind period'. And the advanced malignant tumors, such as pancreatic cancer, liver cancer, lung cancer and the like, are killed for only 3-6 months from occurrence to late death, especially cardiovascular and cerebrovascular death emergency such as myocardial infarction, cerebral infarction and the like, once the malignant tumors occur, death is enough within minutes to hours, so that the early warning and timely rescuing opportunity is thoroughly lost.
Disclosure of Invention
In the course of studying the current state of prevention and treatment, the present inventors have found that although various diagnostic techniques (such as magnetic resonance, CT, B-ultrasound, blood test, endoscopic observation, X-ray, etc.) have been sufficient to find early risks of various hidden early-onset cancers and cardiovascular lesions, none of these techniques and apparatuses have been provided in treatment units such as large hospitals, and are known by professionals and are expensive to charge. However, the population of the general public is numerous, the diagnostic technical equipment and professionals are only concentrated in hospitals with very limited number, and due to the fact that the industry threshold is too high and the procedures are complex, the health physical examination resources available to the general public are very limited in time space, while some information occurs in the early stage of diseases and exists in the patients themselves, the patients cannot actively know at any time, the information on the occurrence and development of the diseases of the patients is completely in an unknown passive position no matter what the political and economic status of the individuals, especially in the early stage of the diseases, in the completely asymptomatic hidden period until the annual physical examination is arranged, and the patients are often in a bad condition. The occurrence of the disease is not inherently and necessarily linked in time to the "window" of physical examination, and is probabilistically difficult to "happens" to coincide, but often completely does not. The harsh reality is that at the early critical moment when the disease occurs silently, most people under any regimen are always in the "blindness" of the physical examination and are unknown at all, and the later time when the next "window" of physical examination is found, or the middle and late stages are basically reached when obvious symptoms appear and the physical examination is actively sought.
In order to solve the problems, the invention provides a household health physical examination monitoring system which integrates the main flow technology of the current disease diagnosis, the project and depth of the physical examination can reach the same level of the modern hospitals and large-scale physical examination centers, the physical examination result can be immediately obtained without waiting, the intelligent preliminary diagnosis can be finished locally, and the physical examination result can be transmitted to a remote interpretation center through the Internet to be interpreted and qualified by professionals. The household health physical examination monitoring system provided by the invention is simple to operate, is convenient to popularize and apply like household appliances, helps masses to actively know own health and disease information at any time, greatly improves the convenience of health physical examination of the common masses, and fundamentally eliminates the harm caused by the early disease information and the physical examination technology disconnection.
The invention provides a household health physical examination monitoring system, which comprises a cabinet and a console; the control platform can be folded and unfolded inside the cabinet or outside the cabinet;
a physical examination instrument bin and a computer are arranged in the control table;
The physical examination instrument bin can be ejected from or retracted back from the control console and is used for placing physical examination sensors;
The computer can be folded and embedded in the console;
The box is internally provided with a data processing equipment bin, a specimen bin, an assay equipment bin, a conveying and positioning device and a controller;
The data processing equipment is arranged in the data processing equipment bin and is used for receiving the physical examination signals returned by the physical examination sensor and converting the physical examination signals into physical examination data;
the specimen bin can be ejected or retracted from the cabinet and is used for placing a physical examination specimen of a person to be examined;
The assay equipment bin can be ejected or retracted from the cabinet and is used for installing assay equipment, and the assay equipment is used for obtaining physical examination data after performing assay analysis on the physical examination specimen;
The transfer positioning device is used for sending the physical examination specimen to the assay equipment;
The controller is respectively connected with the computer, the physical examination sensor, the data processing equipment, the assay equipment and the transmission positioning device and is used for starting or closing the physical examination sensor, the data processing equipment and the assay equipment, collecting physical examination data processed by the data processing equipment and the assay equipment and uploading the physical examination data to the computer, and controlling the transmission positioning device to transmit the physical examination sample to the assay equipment;
the computer is used for displaying the physical examination data.
By means of the technical scheme, the household health physical examination monitoring system provided by the invention integrates the mainstream technology of the current disease diagnosis, has low requirements on environment, is simple and feasible to operate, does not need professional personnel, is suitable for popularization in families and communities, meets the requirements of general public health physical examination, fundamentally changes the traditional physical examination mode (effective examination technical equipment and few operating personnel are gathered in individual ' islands ', audience population groups with huge base with strong requirements are difficult to timely pass through a ' bridge ' connected with the seat, so that ' blind period ' completely unknown to disease information is required to be transmitted in the process of waiting for tolerance, and the next ' window period ' is expected to be searched with the potential and possibly-occurring disease information ' coincided ' at any time, so that the occupational practice of the incapacitating is natural), and is the same as a novel household appliance enters into everywhere, so that ' home theatre ' can appreciate a wonderful big piece ', and ' family sound center ' can be drunk at any time in the beautiful music at any time, and physical examination can be performed at any time; the diagnosis result can be given out in time through intelligent diagnosis software, or diagnosis can be assisted by a remote interpretation center through the Internet, especially for the checked personnel such as children, old people, disabled people and the like with inconvenient actions, so that the convenience of physical examination is greatly improved; physical examination can be arranged at any time according to the physical condition, subjective requirement and objective symptom of examined personnel, so that the general public can obtain physical examination resources in time, early diagnosis and early treatment of diseases can be realized, the number of people who can obtain good physical examination resources is expanded, and the method has very important significance for disease prevention and treatment.
Drawings
The above, as well as additional purposes, features, and advantages of exemplary embodiments of the present invention will become readily apparent from the following detailed description when read in conjunction with the accompanying drawings. Several embodiments of the present invention are illustrated by way of example, and not by way of limitation, in the figures of the accompanying drawings and in which:
Fig. 1 is a schematic diagram of an application scenario of a home health physical examination monitoring system provided by the invention;
FIG. 2A is a schematic view of the control integrated device in a non-use state;
FIG. 2B is a schematic view of the external appearance of the manipulation integration apparatus in an unfolded but unused state;
FIG. 2C is a schematic view of the control integrated device in an unfolded and in-use state;
FIG. 2D is a three-dimensional perspective view of a home health check-up monitoring system;
FIG. 3 is a front, rear, end and top perspective view of a home health screening system;
FIG. 4 is a front view, side view, top view and three-dimensional perspective of an X-ray cabinet compartment;
FIG. 5 is a schematic illustration of a swallowed endoscope set;
In the drawings, the same or corresponding reference numerals indicate the same or corresponding parts.
Detailed Description
The principles and spirit of the present invention will be described below with reference to several exemplary embodiments. It should be understood that these embodiments are presented merely to enable those skilled in the art to better understand and practice the invention and are not intended to limit the scope of the invention in any way. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.
According to an embodiment of the invention, a home-type health physical examination monitoring system is provided.
Any number of elements in the figures herein are for illustration and not limitation, and any naming is used for distinction only and not for any limiting sense.
The principles and spirit of the present invention are explained in detail below with reference to several representative embodiments thereof.
Application scene overview
Fig. 1 is a schematic view of an application scenario of a home health examination monitoring system provided by the present invention, as shown in fig. 1, the home health examination monitoring system includes a control integrated device 100.
The control integrated device 100 can provide detection functions of body temperature, heart rate, blood pressure, electrocardiogram, exercise electrocardiogram, 24-hour dynamic electrocardiogram, blood oxygen saturation, blood convention, liver and kidney functions, biochemical, blood fat, glycosylated hemoglobin, blood sugar and the like, can also provide detection functions of B-mode ultrasound, organ echo images, endoscopes and the like, and in addition, the control integrated device 100 can provide functions of on-site checking, analyzing, diagnosing and the like of detection data and detection images, and can also provide functions of transmitting the detection data and the detection images to the internet for expert diagnosis.
Optionally, in implementation, the home health examination monitoring system provided by the present invention may further include auxiliary physical examination facilities such as physical examination bed 300, X-ray cabinet 200 in fig. 1.
It should be noted that the application scenario shown in fig. 1 is only shown for the convenience of understanding the spirit and principle of the present invention, and embodiments of the present invention are not limited in any way in this respect. Rather, embodiments of the invention may be applied to any scenario where applicable. For example, the system is suitable for collective living places such as hospitals, schools, factories, medium-long-term field work residence points and the like, fixed medical places such as community medical stations, rural cooperative medical stations and the like, and mobile places such as intercontinental long-distance trains, ocean-going passenger ships and the like.
Exemplary System
The home health examination monitoring system provided by the invention is described below with reference to fig. 2A to 2D in combination with the application scenario of fig. 1.
Fig. 2A to 2C are schematic views of the operation integrated device 100 in the home health examination monitoring system, where fig. 2A is a schematic view of the operation integrated device 100 in a non-use state, fig. 2B is a schematic view of the operation integrated device 100 in an unfolded but non-use state, and fig. 2C is a schematic view of the operation integrated device 100 in an unfolded and use state. Fig. 2D is a three-dimensional perspective view of a home health check-up monitoring system.
As shown in fig. 2A to 2D, the manipulation integration apparatus 100 includes a cabinet 101 and a manipulation stage 102, wherein the cabinet 101 is provided with a built-in slot, and the manipulation stage 102 is rotatable along an axis fixed in the built-in slot to be received in the built-in slot or to be spread out of the built-in slot; as shown in fig. 2A, the console 102 is housed in the built-in slot; as shown in fig. 2B, the console 102 is unfolded outside the built-in slot and forms a right angle with the cabinet 101, and the space formed by the right angle can be used as an operation space for an operator.
A physical examination instrument bin 103 and a computer 104 are arranged in the console 102.
The physical examination instrument cartridge 103 may be ejected from the console 102 or retracted for placement of the physical examination sensor 103-1 (and its associated equipment). Among them, the physical examination sensor 103-1 refers to a sensing device for contacting a person to be examined and detecting corresponding physical information. For example, the following physical examination sensor 103-1 and its associated equipment may be placed in the physical examination instrument housing 103: b-type ultrasonic abdominal organ probes, heart probes, gland probes, peripheral vascular Doppler probes, electrocardiogram electrodes (comprising chest leads and limb leads), blood oxygen sensor finger cuffs, blood pressure sleeves, 24-hour dynamic electrocardiogram electrode sets (comprising 24-hour dynamic electrocardiogram electrodes and an electrocardiographic data acquisition and storage box), swallow-type endoscope sets (comprising miniature digital video cameras, charging seats and wireless remote controllers) and the like. As shown in fig. 2B, the physical examination instrument cartridge 103 is retracted inside the console 102 so as to house the various physical examination sensors 103-1; as shown in fig. 2C, the physical examination instrument cartridge 103 is ejected from the console 102 and deployed outside the console 102 so as to take out the various physical examination sensors 103-1.
As shown in fig. 2C, the computer 104 is foldable (e.g., a notebook computer) and can be embedded in the console 102, and the computer 104 can be opened when the console 102 is unfolded outside the built-in slot, and as shown in fig. 2B, the computer 104 needs to be folded when the console 102 is folded in the built-in slot. Optionally, one or more computers 104 may be provided on console 102 for providing a variety of functions for an operator, such as image display, keyboard input, handwriting input, and the like.
As shown in fig. 2D, the specimen cartridge 105, the assay device cartridge 106, the transfer positioning device 107, the data processing device cartridge 108, and the controller 109 are provided in the cabinet 101. The data processing device cartridge 108 houses a data processing device (not shown in fig. 2D), and the assay device cartridge 106 houses an assay device 106-1 for performing assay analysis on a physical examination specimen.
As shown in fig. 2D, the controller 109 has one end connected to the computer 104 and the other end connected to the physical examination sensor 103-1, the data processing device, the assay device 106-1, and the transfer positioning means 107.
The data processing device is installed in the data processing device bin 108, and the data processing device is connected to each physical examination sensor 103-1 in the physical examination instrument bin 103, and is used for receiving physical examination signals (such as pressure signals, ultrasonic signals, electrode signals, image signals and the like) returned by the physical examination sensor 103-1 and converting the physical examination signals into physical examination data (such as blood pressure values, electrocardiographic data, blood oxygen concentration, gastrointestinal images and the like).
In specific implementation, the data processing device may be a software or hardware device having a signal acquisition function and a signal processing function, for example, an integrated circuit board having a signal acquisition device and a signal processing program loaded thereon, where the signal acquisition device may be a signal acquisition device adopted by a physical examination device commonly found in the market at present, and the signal processing program may be a signal processing program adopted by a physical examination device commonly found in the market at present.
In particular, a corresponding data processing device may be provided for each of the body test sensors 103-1. For example, a data processing device provided for a B-type ultrasonic abdominal organ probe for acquiring an ultrasonic signal and converting it into B-ultrasonic image data; the data processing device is arranged for the blood pressure oversleeve and is used for collecting pressure signals and converting the pressure signals into blood pressure values; and the data processing equipment is arranged for the swallow type endoscope set and is used for acquiring the image signals and converting the image signals into gastrointestinal image data.
For convenience of distinction and maintenance, the data processing equipment compartment 108 may be divided into a plurality of sub-compartments 108-1, different sub-compartments 108-1 being used for installing data processing equipment provided for different physical examination sensors 103-1, and further, some sub-compartments 108-1 may be reserved for subsequent installation of additional data processing equipment (e.g., the addition of corresponding physical examination sensors 103-1).
In view of the fact that the data processing equipment compartment 108 generally does not need to be in direct contact with the person under test, only maintenance or cleaning is required in due course, alternatively, the data processing equipment compartment 108 may be provided inside the cabinet 101 and a door provided on the cabinet 101, and when the door is opened, the data processing equipment compartment 108 is exposed for maintenance of various data processing equipment.
The physical examination sensor 103-1 and the data processing equipment are connected to the controller 109 through data lines, and in consideration of the actions of expanding or retracting the console 102 from the built-in groove, and the actions of ejecting or retracting the physical examination instrument bin 103 from the console 102, the service life of the data lines can be influenced, and when the physical examination instrument bin is specifically implemented, data line channels can be arranged at proper positions of the cabinet 101 and the console 102 according to actual needs and used for laying the data lines.
The specimen cartridge 105 may be ejected from the cabinet 101 or retracted for placement of a physical examination specimen (e.g., blood, urine, etc.) for testing by a subject.
The assay device cartridge 106 may be ejected from or retracted into the cabinet 101, in which an assay device 106-1 for performing assay analysis on a physical examination specimen, such as a high-speed centrifuge, a spectral diffraction analyzer, or the like, is installed.
The transfer positioning device 107 is used to transfer the physical examination specimen in the specimen cartridge 105 to the testing device 106-1 for testing, and may be a mechanical structure such as a conveyor belt or a mechanical arm.
As shown in fig. 2B, the specimen cartridge 105 is retracted inside the cabinet 101; as shown in fig. 2C, when the specimen cartridge 105 is ejected from the cabinet 101, it is deployed outside the cabinet 101 to put in a physical examination specimen of a subject or to take out the physical examination specimen after the analysis and assay process.
Assay device cartridge 106 may be serviced or cleaned by ejecting assay device 106 from cabinet 101.
The functions of the controller 109 are as follows:
(1) The controller 109 controls the starting or closing of the physical examination sensor 103-1, the data processing device and the test device 106-1 according to the command sent by the computer 104, acquires physical examination data obtained by the data processing device and the test device 106-1, uploads the physical examination data to the computer 104, and the computer 104 displays the physical examination data to an operator;
(2) The controller 109 controls the motion of the transfer positioning device 107 according to the command sent from the computer 104 to send the physical examination specimen to the corresponding assay device 106-1. For example, a certain type of analysis test item is set in the computer 104, then a command is sent to the controller 109, the controller 109 controls the transfer positioning device 107 to send the physical examination sample to the test device 106-1 responsible for the analysis test item, and the controller 109 controls the operation of the test device 106-1;
Alternatively, an ejecting mechanism may be provided for each of the physical examination instrument well 103, the assay device well 106, and the specimen well 105, and the ejecting action or the retracting action may be achieved by controlling the ejecting mechanism. In addition, the physical examination instrument holder 103, the assay device holder 106, and the specimen holder 105 may be locked in the cabinet 101 by an ejector mechanism, for example, when the assay analysis process is started, in order to ensure safe operation of the assay device 106-1 and smooth progress of the assay analysis process, the assay device holder 106 and the specimen holder 105 are locked in the cabinet 101 by the ejector mechanism, and the ejection or retraction operation is inhibited. In particular implementations, the ejection mechanism may be controlled by the controller 109 to perform an ejection action, a retraction action, or a locking action.
Optionally, intelligent diagnosis software may be loaded in the computer 104, so as to obtain a disease diagnosis result according to the physical examination data uploaded by the controller 109, and implement intelligent diagnosis locally.
Alternatively, the computer 104 may be connected to the internet via a network interface, and may send the analysis assay results to a telemedicine unit for diagnosis, enabling telemedicine.
Optionally, a plurality of data transmission interfaces 109 connected to the computer 104 may be disposed on the console 102, for example, a USB jack, an optical disc drive, a network interface, and the like.
Optionally, a plurality of power interfaces may also be provided on the cabinet 101.
Optionally, the household health examination monitoring system provided by the invention further comprises an X-ray cabinet, wherein the X-ray cabinet comprises a shielding cover, a lifter, an X-ray machine, a rotary table and a data transmission line. Wherein the shielding cover is used for shielding X rays. The lifter is arranged on the shielding cover and can move up and down. The X-ray machine is arranged on the lifter and positioned in the shielding cover and moves up and down along with the lifter; the X-ray machine comprises an X-ray bulb tube and a photosensitive plate. The rotary table is provided at an inner bottom of the shield case and is rotatable. The data transmission lines are connected to the X-ray machine, the turntable, the elevator and the controller 109, respectively.
The controller 109 controls the rotation table to rotate according to the command sent by the computer 104, controls the lifter to move up and down, controls the X-ray machine to emit X-rays, and finally obtains the shooting result of the X-ray machine and forwards the shooting result to the computer 104; the result of the shooting is displayed by the computer 104.
Optionally, the elevator can also be used to measure height; the rotary table may also be used to measure body weight. The controller 109 acquires height data measured by the elevator and weight data measured by the rotary table, and forwards the height data and weight data to the computer 104; the computer 104 calculates the X-ray dose according to the height data and the weight data of the detected personnel; the controller 109 adjusts the operating parameters of the X-ray machine to cause the X-ray machine to emit X-rays according to the X-ray dose.
Optionally, the household health physical examination monitoring system provided by the invention can also comprise a physical examination bed for a patient to lie down when the patient is examined.
Example 1
Referring to fig. 1, fig. 2A to fig. 2D, and fig. 3, the present embodiment provides a specific home health examination monitoring system.
As shown in fig. 1, the home health examination monitoring system includes a manipulation integration apparatus 100, an X-ray cabinet 200, and an examination bed 300.
1. The manipulation integration apparatus 100 in the present embodiment is described below with reference to fig. 2A to 2D and fig. 3.
A, B, C in fig. 3 is a front view, a rear view, and an end view of the handling integrated device 100 in this embodiment, D is a top perspective view of the handling integrated device 100 in a non-use state, and E is a top perspective view of the handling integrated device 100 in an unfolded but non-use state, respectively. In this embodiment, the dimensions of the manipulation integration apparatus 100 are 180cm long, 80cm wide, and 100cm high.
The manipulation integration apparatus 100 is composed of a cabinet 101 and a manipulation stage 102, a built-in groove is provided in the cabinet 101, and the manipulation stage 102 is rotated along an axis fixed in the built-in groove to be housed in the built-in groove or to be unfolded outside the built-in groove. As shown in E of fig. 3, the console 102 is unfolded outside the built-in slot and forms a right angle with the cabinet 101, and the space formed by the right angle can be used as an operation space for an operator.
The console 102 is provided therein with a physical examination instrument holder 103, a first ejection mechanism, two foldable computers 104, and a plurality of data transmission interfaces 109.
The physical examination instrument bin 103 is of a drawer type structure and is embedded in the console 102 for placing the physical examination sensor 103-1 and matched equipment thereof.
The first ejection mechanism is disposed at the bottom of the physical examination instrument holder 103, and is used for ejecting the physical examination instrument holder 103 from the console 102 and expanding the physical examination instrument holder outside the console 102, or retracting the physical examination instrument holder 103 inside the console 102, or locking the physical examination instrument holder 103 inside the console 102.
In this embodiment, the following physical examination sensor 103-1 and its matching equipment are placed in the physical examination instrument bin 103: b-type ultrasonic abdominal organ probes, heart probes, gland probes, peripheral vessel Doppler probes, electrocardiogram electrodes (comprising chest leads and limb leads), blood oxygen sensor finger cuffs, blood pressure sleeves, 24-hour dynamic electrocardiogram electrode sets (comprising 24-hour dynamic electrocardiogram electrodes and an electrocardiogram data acquisition and storage box), and swallow-type endoscope sets (comprising miniature digital video cameras, charging seats and wireless remote controllers).
The folding computer 104 is embedded on the top surface of the console 102, and includes a computer a with a display function and a keyboard input function, and a computer b with a display function and a handwriting input function. When console 102 is received in the built-in slot, the display screens of computers a and b need to be closed.
The data transmission interface is disposed on the side of the console 102 and connected to the computers a and b, and includes a USB jack, an optical disc drive, and a network interface.
The data processing equipment magazine 108, the specimen magazine 105, the assay equipment magazine 106, the second ejection mechanism, the third ejection mechanism, the conveyance positioning device 107, and the controller 109 are provided in the cabinet 101.
The data processing apparatus bin 108 is disposed inside the cabinet 101 and has a plurality of sub-bins 108-1, each sub-bin 108-1 for housing data processing apparatus. The data processing device is connected to the physical examination sensor 103-1 in the physical examination instrument room 103 through the controller 109, and is used for receiving physical examination signals (such as pressure signals, ultrasonic signals, electrode signals, image signals, etc.) returned by the physical examination sensor 103-1 and converting the physical examination signals into physical examination data (such as blood pressure values, electrocardiographic data, blood oxygen concentration, gastrointestinal images, etc.).
In the embodiment, the data processing device 1 is connected with the ultrasonic abdominal organ probe B, and is used for receiving the ultrasonic signal and converting the ultrasonic signal into ultrasonic image data B; the data processing equipment No. 2 is connected with the blood pressure sleeve and is used for collecting pressure signals and converting the pressure signals into blood pressure values; the No. 3 data processing equipment can be connected with the miniature digital video ball and the miniature digital video cake in the swallow type endoscope set in a wireless way, and is used for receiving the image signals transmitted back by the miniature digital video ball and the miniature digital video cake in a wireless way and converting the image signals into gastrointestinal image data.
As shown in B in fig. 3, the back of the cabinet 101 is provided with a door 110, the periphery of which is fixed to the cabinet 101 by screws, and when the door 110 is opened, the data processing equipment bin 108 will be exposed, which is convenient for an operator or a serviceman to repair or maintain various data processing equipment. As shown in B of fig. 3, the door 110 is further provided with a power interface, a power switch, a data transmission interface, a heat dissipation hole, etc.
The specimen cabin 105 is of a drawer type structure and is embedded in the end part of the cabinet 101 for placing the body fluid specimen of the person to be tested.
The second ejection mechanism is disposed at the bottom of the specimen compartment 105, and is used to eject the specimen compartment 105 from the cabinet 101 and expand the specimen compartment 105 outside the cabinet 101, or to retract the specimen compartment 105 inside the cabinet 101, or to lock the specimen compartment 105 inside the cabinet 101. When the specimen cartridge 105 is deployed outside the cabinet 101, a body fluid specimen of a person under test can be placed therein, and when the specimen cartridge 105 is retracted inside the cabinet 101, the transfer positioning device 107 feeds the body fluid specimen into the assay device 106-1.
The assay device bin 106 is of a drawer type structure and is embedded in the cabinet 101 for installing the assay device 106-1 for performing assay analysis on the physical examination specimen.
The third ejection mechanism is provided at the bottom of the assay device cartridge 106 for ejecting and expanding the assay device cartridge 106 from the cabinet 101 to the outside of the cabinet 101, or for retracting the assay device cartridge 106 to the inside of the cabinet 101, or for locking the assay device cartridge 106 to the inside of the cabinet 101. When the assay device cartridge 106 is deployed outside of the cabinet 101, the assay device 106-1 therein may be washed.
In this embodiment, the assay device cartridge 106 is provided with assay devices such as a high-speed centrifuge and a spectral diffraction analyzer.
The transfer positioning device 107 is a mechanical arm structure and is used for conveying the physical examination specimen in the specimen warehouse 105 into the testing device 106-1 for testing. In this embodiment, the transfer positioning device 107 is controlled by the controller 109 to transfer the physical examination sample to the assay device 106-1 responsible for the particular analysis assay.
The controller 109 is connected to the computer 104, each data processing device, each assay device 106-1, the first to third ejection mechanisms, and the conveyance positioning means 107, respectively.
The controller 109 receives the command sent by the computer 104, controls the start or stop of the data processing equipment and the test equipment 106-1, collects the physical examination data obtained by the processing of the data processing equipment and the test equipment 106-1, uploads the physical examination data to the computer 104, and the computer 104 displays the physical examination data to an operator; controlling the movement of the transfer positioning means 107 to transfer the physical examination specimen to the corresponding assay device 106-1; each ejection mechanism is controlled to effect an ejection action, a retraction action, or a locking action.
In this embodiment, the computer 104 is provided with intelligent diagnosis software, so that a disease diagnosis result can be obtained according to the analysis and test result uploaded by the controller 109, intelligent diagnosis is realized locally, and when the computer 104 is connected to the internet through a network interface, the analysis and test result can be sent to a remote medical unit for diagnosis, so as to realize remote medical treatment.
2. The X-ray cabinet 200 of this embodiment is described below with reference to fig. 1 and 4.
Fig. 4a and D are front and side views of the X-ray cabinet 200, respectively, fig. 4B is a top view of the turntable 204, and fig. 4C is a three-dimensional perspective view of the X-ray cabinet 200.
The X-ray cabinet 200 mainly comprises a shielding case 201, an elevator 202, an X-ray machine 203, a turntable 204 and data transmission lines (not shown).
Wherein, the shielding case 201 is made of plumbitized plexiglass or rare earth glass, and can effectively shield X-rays. The X-ray machine 203 and the turntable 204 are located inside the shield case 201.
The upright post of the lifter 202 is fixedly installed on the side wall of the shielding case 201, can move up and down, and can be used as a height measuring scale to measure the height of a person to be detected.
The X-ray machine 203 includes an X-ray tube and a photosensitive plate (for example, a digital photosensitive plate), which are both mounted on the lift 202 and can move up and down along with the lift 202.
As shown in fig. 4B, the rotary table 204 is provided at the inner bottom of the shielding case 201 and can rotate 360 ° to enable the tested person to be positioned on the rotary table 204 by feet, and the rotary table 204 can satisfy the two-dimensional projection of any body position of the right position, the side position and the inclined position by the rotation of the rotary table 204, and the rotary table 204 is also an electronic weighing scale for measuring the body weight of the tested person.
The data transmission lines are respectively connected with the X-ray machine 203, the rotary table 204, the lifter 202 and the controller 109.
The controller 109 performs the following functions via the data transmission line:
(1) The rotation of the rotation table 204 and the up-and-down movement of the lifter 202 are controlled (the rotation of the rotation table 204 and the up-and-down movement of the lifter 202 may be manually controlled);
(2) Acquiring height data measured by the lifter 202 and weight data measured by the rotary table 204, forwarding the height data and the weight data to the computer 104, calculating X-ray dose by the computer 104 according to the height data and the weight data of the detected person, and adjusting working parameters of an X-ray machine according to a command of the computer 104 so that the X-ray machine emits X-rays according to the calculated X-ray dose to perform X-ray shooting;
(3) The result of the X-ray imaging is obtained and forwarded to the computer 104.
The computer 104 may also use the height data and weight data of the subject person as health assessment parameters.
3. The physical examination bed 300 in this embodiment can be lifted automatically or manually, and can be adjusted according to the physical examination needs.
4. Several physical examination functions and operation procedures thereof in this embodiment are described below.
(1) B ultrasonic inspection
The B-ultrasonic examination is an important item in physical examination, has important value of noninvasive discovery and diagnosis of important internal organs, glands and vascular lesions, especially important internal organs such as liver, can early discover micro tumors below 2cm, and can be cured if early treatment is carried out.
The household health physical examination monitoring system of the embodiment is provided with a combined split type B ultrasonic probe which comprises an abdominal organ probe, a heart probe and a small gland probe. The operation of B ultrasonic is not complex, only a specific probe is required to be placed at a specific part of a body, the probe is in close contact with the skin at a correct angle, the probe can be orderly and repeatedly moved within the range, and enough experience can be obtained during short-term exercise, so that the aim of obtaining effective image information is fulfilled. In this embodiment, the acquired B-ultrasonic image is sent to the computer 104, and is immediately interpreted by the intelligent diagnosis software, and if there is a positive finding and a query, the B-ultrasonic image is sent to a remote medical unit via the internet, and is confirmed by a professional, so that the detected person can obtain timely and effective early treatment. By utilizing the embodiment, the B-ultrasonic examination can be safely and conveniently carried out in the environments of non-professional hospitals such as families, communities and the like.
(2) X-ray examination
In this embodiment, an X-ray cabinet 200 is provided, an X-ray bulb tube and a photosensitive plate of an X-ray machine 203 are located in a shielding cover and are mounted on an elevator 202, and can move up and down along the elevator 202, and a rotary table 204 on a base enables a person to be tested to interact with the X-ray projection direction in two dimensions, so that the requirement of each part of the body to be tested is completely met. The rotating table 204 has a weight weighing function, the lifter 202 has a height measuring function, height and weight data can be obtained during X-ray examination, the X-ray machine 203 can be turned off, and the height and weight data can be obtained by utilizing the rotating table 204 and the lifter 202 independently. In this embodiment, the obtained X-ray image is sent to the computer 104 for immediate interpretation by the intelligent diagnostic software, in addition, the obtained X-ray image can be post-processed by using professional image processing software, each part of the image is analyzed by density value, and the pathological tissue structures such as normal and inflammation, tumor, foreign body and the like are distinguished, or the obtained X-ray image can be sent to a remote medical unit through the internet for confirmation by professionals, so that the detected personnel can obtain timely and effective early treatment. By utilizing the embodiment, the X-ray physical examination can be safely and conveniently carried out in the environments of non-professional hospitals such as families, communities and the like.
(3) Gastrointestinal examination
The swallow-type endoscope for gastrointestinal examination is arranged in the household health physical examination monitoring system of the embodiment and comprises a swallow-type endoscope body, and a charging seat and a wireless remote controller which are matched with the swallow-type endoscope.
The swallowable endoscope body can be a miniature digital video camera ball as shown in C-1, C-2 and C-3 in figure 5, or a miniature digital video camera cake as shown in D-1, D-2 and D-3 in figure 5.
The external views of the miniature digital video cameras are shown as C-1, C-2 and C-3 in FIG. 5. The miniature digital video recording ball is a smooth sealed ball, the surface of the miniature digital video recording ball is provided with two LED luminous bands which are arranged in a crossing way, each crossing point is provided with a camera, the two LED luminous bands divide the ball of the miniature digital video recording ball into four sub-parts, each sub-part is provided with a camera at the center, as shown in C-1, C-2 and C-3 of figure 5, and the whole miniature digital video recording ball is provided with six cameras in total. The surface of the miniature digital video-recording ball is made of nontoxic, non-irritating, waterproof and antiseptic materials, the diameter of the ball is about 25mm, the ball can be safely and smoothly swallowed, discharged after passing through the whole alimentary canal of human body, and the ball is cleaned, disinfected (soaked) and then reused. When the miniature digital photographing ball enters a cavity pipeline or a closed cystic organ (such as stomach and intestinal canal cavity), 360-degree panoramic dead-angle-free photographing can be carried out on the periphery of the pipeline wall or the capsule wall.
The external appearance of the miniature digital camera cake is shown as D-1, D-2 and D-3 in FIG. 5. The miniature digital camera cake is in a flat sphere shape, the centers of two opposite round surfaces of the miniature digital camera cake are respectively provided with a wide-angle lens, and a circle of LED light bands are arranged between the two round surfaces. The surface of the miniature digital camera cake is made of nontoxic, non-irritating, waterproof and antiseptic materials, the diameter of the round surface is about 25mm, the round surface can be safely and smoothly swallowed, discharged after passing through the whole alimentary canal of a human body, and the round surface is cleaned, disinfected (soaked) and then reused. When the miniature digital photographing cake enters a cavity pipeline or a closed cystic organ (such as stomach and intestinal canal cavity), photographing can be carried out on the periphery of the pipeline wall or the capsule wall, photographing visual fields of the two wide-angle lenses are discontinuous, but photographing of the complete visual field can be carried out through free turning.
An external view of the charging stand is shown as a in fig. 5. The charging seat is provided with a round pit, the miniature digital video recording ball or the miniature digital video recording cake can be placed in the round pit, the miniature digital video recording ball or the miniature digital video recording cake is charged in a contactless electromagnetic induction charging mode, and a power plug of the charging seat can be inserted into a power interface on the control desk or the cabinet.
As shown in B in fig. 5, a wireless remote controller performs wireless data transmission with the micro digital video ball or micro digital video cake by means of bluetooth, WIFI, etc., for example, the wireless remote controller controls the micro digital video ball or micro digital video cake to flip, or receives image data (which may be transmitted after swallowing or may be transmitted after being discharged from the body).
(4) 24-Hour dynamic electrocardiographic examination
Five criteria for diagnosis of coronary heart disease (a great risk of potential myocardial infarction), except that the "gold standard" procedure of angiocardiography can only be performed in hospitals, the remaining four: electrocardiography (chest leads, limb leads); exercise electrocardiogram (r.g.t); echocardiography; and very important 24-hour dynamic electrocardiogram, the household health physical examination monitoring system provided by the embodiment can be used. Besides the electrocardiogram electrode, a 24-hour independent dynamic portable electrode, an electrocardiogram data acquisition and storage box and a chargeable power supply are additionally arranged. The tested person carries the 24-hour independent dynamic portable electrode close-fitting for 24 hours and then takes off the electrode, 24-hour dynamic electrocardiographic information collected by the electrocardiographic data collection storage box is transmitted to corresponding data processing equipment through a data line, analysis, processing and interpretation are carried out, and a conclusion is obtained.
(5) Blood drawing assay examination
In this embodiment, only this item is required to withdraw venous blood, which requires strict aseptic technique (using standardized disposable blood withdrawal devices and test tubes), and which can be mutually withdrawn after training by family members, and can be grasped after several practices. The extraction can also be assisted by a person of a community medical station to visit the gate.
The above-mentioned various inspection can be completed in concentrated order, also can make any single detection at any time. Except that the two steps (3) and (4) take 10-24 hours, the rest can be finished only for a few minutes to tens of minutes. However, the two items (3) and (4) can be used for daily activities without any limitation after the miniature endoscope is swallowed and the 24-hour portable electrode is tightly adhered firmly. The former is recovered after excretion, and the latter is taken off after 24 hours.
Other general vital sign information, such as body temperature, heart rate, blood pressure, electrocardiogram, exercise electrocardiogram, blood oxygen saturation and the like, can be conveniently collected at any time, and are not repeated.
The household health physical examination monitoring system provided by the application has the following beneficial effects:
(1) The physical examination sensor, the data processing equipment, the assay equipment and the like are all concentrated in one physical platform, so that the integrated optimization of physical examination functions is realized, the physical examination sensors are uniformly controlled by a computer and a controller, and through the household health physical examination monitoring system, the traditional time and space separation can be completed through one piece of equipment, and multiple examinations which are respectively completed one by a plurality of single equipment in different occasions are realized;
(2) The method supports the addition, update and upgrade of hardware equipment such as physical examination sensors, intelligent judgment and other software programs so as to meet the higher and better physical examination requirements of examined personnel;
(3) The environment requirement is low, only a small space (for example, a room with about 10 square meters) and a stable power supply are needed, the operation is simple and easy, no professional is needed, the method is suitable for popularization in families, communities or any other occasions with requirements, the requirements of health physical examination of the general public are met, and the problem of insufficient physical examination resources of hospitals is solved;
(4) The diagnosis result can be given out in time through intelligent diagnosis software for common diseases which are easy to diagnose, the diseases which are difficult to diagnose can be diagnosed with the assistance of remote medical units through the Internet, and even if the detected personnel are out of home, the detected personnel can enjoy health physical examination, especially for the detected personnel with inconvenient actions such as children, old people, disabled people and the like, so that the convenience of physical examination is greatly improved;
(5) Physical examination can be arranged at any time according to the physical condition, subjective requirement and objective symptom of examined personnel, so that the general public can obtain physical examination resources in time, early diagnosis and early treatment of diseases can be realized, the number of people who can obtain good physical examination resources is expanded, and the method has very important significance for disease prevention and treatment.
The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the invention, and is not meant to limit the scope of the invention, but to limit the invention to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the invention are intended to be included within the scope of the invention.
Those of skill in the art will further appreciate that the various illustrative logical blocks (illustrative logical block), units, and steps described in connection with the embodiments of the invention may be implemented by electronic hardware, computer software, or combinations of both. To clearly illustrate this interchangeability of hardware and software (interchangeability), various illustrative components described above (illustrative components), elements, and steps have been described above generally in terms of their functionality. Whether such functionality is implemented as hardware or software depends upon the particular application and design requirements of the overall system. Those skilled in the art may implement the described functionality in varying ways for each particular application, but such implementation is not to be understood as beyond the scope of the embodiments of the present invention.
The various illustrative logical blocks, or units, or devices described in the embodiments of the invention may be implemented or performed with a general purpose processor, a digital signal processor, an Application Specific Integrated Circuit (ASIC), a field programmable gate array or other programmable logic device, discrete gate or transistor logic, discrete hardware components, or any combination thereof designed to perform the functions described. A general purpose processor may be a microprocessor, but in the alternative, the general purpose processor may be any conventional processor, controller, microcontroller, or state machine. A processor may also be implemented as a combination of computing devices, e.g., a digital signal processor and a microprocessor, a plurality of microprocessors, one or more microprocessors in conjunction with a digital signal processor core, or any other similar configuration.
The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may be stored in RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art. In an example, a storage medium may be coupled to the processor such that the processor can read information from, and write information to, the storage medium. In the alternative, the storage medium may be integral to the processor. The processor and the storage medium may reside in an ASIC, which may reside in a user terminal. In the alternative, the processor and the storage medium may reside as distinct components in a user terminal.
In one or more exemplary designs, the above-described functions of embodiments of the present invention may be implemented in hardware, software, firmware, or any combination of the three. If implemented in software, the functions may be stored on a computer-readable medium or transmitted as one or more instructions or code on the computer-readable medium. Computer readable media includes both computer storage media and communication media that facilitate transfer of computer programs from one place to another. A storage media may be any available media that can be accessed by a general purpose or special purpose computer. For example, such computer-readable media may include, but is not limited to, RAM, ROM, EEPROM, CD-ROM or other optical disk storage, magnetic disk storage or other magnetic storage devices, or any other medium that may be used to carry or store program code in the form of instructions or data structures and other data structures that may be read by a general or special purpose computer, or a general or special purpose processor. Further, any connection is properly termed a computer-readable medium, e.g., if the software is transmitted from a website, server, or other remote source via a coaxial cable, fiber optic cable, twisted pair, digital Subscriber Line (DSL), or wireless such as infrared, radio, and microwave, and is also included in the definition of computer-readable medium. The disks (disks) and disks (disks) include compact disks, laser disks, optical disks, DVDs, floppy disks, and blu-ray discs where disks usually reproduce data magnetically, while disks usually reproduce data optically with lasers. Combinations of the above may also be included within the computer-readable media.

Claims (15)

1. The household health physical examination monitoring system is characterized by comprising a cabinet and an operation console; the control platform can be folded and unfolded inside the cabinet or outside the cabinet;
a physical examination instrument bin and a computer are arranged in the control table;
The physical examination instrument bin can be ejected from or retracted back from the control console and is used for placing physical examination sensors;
The computer can be folded and embedded in the console;
The box is internally provided with a data processing equipment bin, a specimen bin, an assay equipment bin, a conveying and positioning device and a controller;
The data processing equipment is arranged in the data processing equipment bin and is used for receiving the physical examination signals returned by the physical examination sensor and converting the physical examination signals into physical examination data;
the specimen bin can be ejected or retracted from the cabinet and is used for placing a physical examination specimen of a person to be examined;
The assay equipment bin can be ejected or retracted from the cabinet and is used for installing assay equipment, and the assay equipment is used for obtaining physical examination data after performing assay analysis on the physical examination specimen;
The transfer positioning device is used for sending the physical examination specimen to the assay equipment;
The controller is respectively connected with the computer, the physical examination sensor, the data processing equipment, the assay equipment and the transmission positioning device and is used for starting or closing the physical examination sensor, the data processing equipment and the assay equipment, collecting physical examination data processed by the data processing equipment and the assay equipment and uploading the physical examination data to the computer, and controlling the transmission positioning device to transmit the physical examination sample to the assay equipment;
the computer is used for displaying the physical examination data;
The physical examination sensor includes one or more of the following: b-type ultrasonic abdominal organ probes, heart probes, small gland probes, peripheral vascular Doppler probes, electrocardiogram electrodes, blood oxygen sensor finger sleeves, blood pressure sleeves, 24-hour dynamic electrocardiogram electrode sets and swallow-type endoscope sets;
wherein the swallowed endoscope set comprises: a swallow endoscope body, a charging seat and a wireless remote controller which are matched with the swallow endoscope; the swallowed endoscope body includes one of: miniature digital video-recording ball; miniature digital video-recording cake;
The surface of the miniature digital video camera is provided with two LED luminous bands which are arranged in a crossing way, a camera is arranged at each crossing point, and the center positions of four spherical sub-parts which are divided by the two LED luminous bands which are arranged in the crossing way are respectively provided with a camera;
the miniature digital video cake is a flat spherical body, the centers of two opposite round surfaces of the flat spherical body are respectively provided with a wide-angle lens, and a circle of LED light bands are arranged between the two round surfaces;
The device also comprises an X-ray cabinet room, wherein the X-ray cabinet room at least comprises: the lifting machine is also used for measuring the height; the rotary table is also used for measuring body weight.
2. The home health examination monitoring system of claim 1, wherein a first ejection mechanism is provided in the console, and a second ejection mechanism and a third ejection mechanism are provided in the cabinet;
The first ejection mechanism is used for ejecting the physical examination instrument bin from the control table, or retracting the physical examination instrument bin into the control table, or locking the physical examination instrument bin into the control table;
the second ejection mechanism is used for ejecting the specimen bin from the cabinet, or retracting the specimen bin into the cabinet, or locking the specimen bin into the cabinet;
The second ejection mechanism is used for ejecting the assay equipment bin from the bin, or retracting the assay equipment bin into the bin, or locking the assay equipment bin into the bin.
3. The home health check-up system of claim 2, wherein the controller connects the first ejection mechanism, the second ejection mechanism, and the third ejection mechanism;
The controller is further configured to control the first, second, and third ejector mechanisms to perform an eject action, a retract action, and a lock action.
4. The home health check-up system as set forth in claim 1, wherein said data processing device compartment has a plurality of sub-compartments, one for each of said data processing devices.
5. The home health check-up system of claim 1, wherein a door is provided on the cabinet at a position corresponding to the data processing equipment compartment, the door being opened to expose the data processing equipment compartment.
6. The home health examination monitoring system of claim 1, wherein the conveyor positioning device is a conveyor belt and/or a robotic arm.
7. The home-based health examination monitoring system of claim 1, wherein,
The electrocardiogram electrode comprises a chest lead electrocardiogram electrode and a limb lead electrocardiogram electrode;
the 24-hour dynamic electrocardiogram electrode set comprises 24-hour dynamic electrocardiogram electrodes and an electrocardiogram data acquisition and storage box
The swallow type endoscope set comprises a charging seat, a wireless remote controller and a miniature digital video ball and/or miniature digital video cake.
8. The home health physical examination monitoring system of claim 1, wherein the swallowable endoscope comprises a miniature digital video ball and/or miniature digital video cake, as well as a charging stand and a wireless remote control.
9. The home health physical examination monitoring system of claim 1, wherein the assay device comprises one or more of the following: high-speed centrifuge, spectral diffraction analyzer.
10. The home health examination monitoring system of claim 1, wherein a data transmission interface is provided in the console.
11. The home health physical examination monitoring system of claim 10, wherein the data transmission interface comprises one or more of: USB jack, CD driver, network interface.
12. The home health check-up system of claim 5, wherein the door is provided with one or more of: the device comprises a power interface, a power switch, a data transmission interface and a heat dissipation hole.
13. The home health care monitoring system as in claim 1, further comprising an X-ray cabinet; the X-ray cabinet comprises a shielding cover, a lifter, an X-ray machine, a rotary table and a data transmission line;
The shielding cover is used for shielding X rays;
the lifter is arranged on the shielding cover and can move up and down;
the X-ray machine is arranged on the lifter and positioned in the shielding cover and moves up and down along with the lifter; the X-ray machine comprises an X-ray bulb tube and a photosensitive plate;
The rotary table is arranged at the inner bottom of the shielding cover and can rotate;
The data transmission line is respectively connected with the X-ray machine, the rotary table, the lifter and the controller;
The controller controls the rotating table to rotate according to a command sent by the computer, controls the lifter to move up and down, controls the X-ray machine to emit X-rays, acquires a shooting result of the X-ray machine and forwards the shooting result to the computer;
The computer displays the shooting result.
14. The home health physical examination monitoring system of claim 13, wherein the elevator is further configured to measure height; the rotary table is also used for measuring body weight.
15. The home-based health care monitoring system as claimed in claim 14, wherein,
The controller acquires height data measured by the lifter and weight data measured by the rotating table and forwards the height data and the weight data to the computer;
the computer calculates the X-ray dose according to the height data and the weight data of the detected personnel;
The controller adjusts working parameters of the X-ray machine to enable the X-ray machine to emit X-rays according to the X-ray dose.
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