CN103784199B - Intelligence 3D health detection cabin - Google Patents

Abstract

An intelligent 3D health detection cabin, mainly composed of a casing, an intelligent main control system, an input device, a variety of biological information receiving devices, a display device, a lighting device, a transmission device, a multifunctional anti-static chair, a man-machine dialogue device, and a sensing device , a printout device, a mobile operating panel, and an auxiliary console. The examinee can choose self-service operation, or operate and monitor through the auxiliary console. It only takes a few minutes to screen out the main health risks and related dangers. Factors and tumor inducement assessment, the analysis system of the detection cabin automatically evaluates and warns the health status of the ten major systems of the human body according to five risk levels, and performs reverse calculation on the functional status of the human body. 3D imaging and graphic reports can be printed out. Intuitively and clearly see the health risks of your whole body. The device has the advantages of non-invasive, non-radiation, simple and fast, accurate and safe, and provides a basis for early clinical detection of diseases and health management.

Description

Intelligent 3D Health Testing Cabin

technical field

The invention belongs to early-warning equipment for human health, in particular to an intelligent 3D health detection cabin that can perform early disease screening for people in sub-health stages.

Background technique

With the progress of society and the improvement of living standards, people's demand for health is getting higher and higher. The traditional health management model aimed at seeing a doctor can no longer meet people's further needs for health. People hope to get a beautiful environment. , Physical and mental comfort, green and harmless, comprehensive and accurate, economical and convenient, and a new health management model and detection method that can prevent problems before they happen.

It is a pity that it is actually more difficult to prevent diseases than to treat them. Scientists have known and studied diseases for thousands of years. Scientists have discovered that new drugs and new medical methods are constantly appearing, and old diseases and problems are constantly being overcome, but the number of sick people continues unabated, and new diseases continue to emerge.

People began to realize that the importance of disease prevention is far better than disease treatment, so many scholars said that "preventive medicine" will become "mainstream medicine in the 21st century", but so far there is no effective way to pass the test The method provides early warning and quantitative assessment of human health risks, so as to achieve the purpose of disease prevention. The existing technology basically completes the inspection of physical health and chronic disease management in the form of routine physical examinations and questionnaires, and through health Lectures and other methods are used to promote health education, but traditional inspections have problems such as many items, cumbersome procedures, and long waiting times. In addition, traditional inspections mainly use clinical indicators as the basis for judging human health status, but clinical indicators cannot be detected in organ lesions. In other words, early warning is given before the disease is formed, and it is impossible to detect and quantify various symptoms and physiological dysfunction caused by the sub-health stage of the human body. Lecture-style health promotion cannot achieve one-on-one health analysis, guidance and consultation. Tracking and questionnaires have problems such as lack of information, human error and difficulty in follow-up management.

Contents of the invention

In order to solve the above technical problems, the present invention provides an intelligent 3D health testing cabin, the tester can easily and comfortably perform non-invasive, simple and fast screening of the body through self-help or other-assisted operation, and it only takes a few minutes , can achieve accurate risk assessment and disease early warning of physical health status.

An intelligent 3D health detection cabin, characterized in that it includes a casing, an intelligent main control system, an input device, a variety of biological information receiving devices, a display device, a lighting device, a transmission device, a multifunctional anti-static chair, and a man-machine dialogue device , induction device, print output device, mobile operation panel, auxiliary console, the intelligent main control system through the corresponding wire and casing, input device, various biological information receiving devices, display device, lighting device, transmission device, multiple Functional anti-static chair, man-machine dialogue device, sensing device, printout device, auxiliary console connection, mobile operation panel transmits and receives data through wifi, 3G, 4G.

The intelligent 3D health detection cabin is characterized in that the casing is composed of a hatch cover, a cabin body, and a cabin seat; the transmission device includes an electronically controlled rotating shaft and an electronically controlled push rod; the intelligent main control system It includes a signal receiving unit, a data conversion unit, an output unit, a data storage unit and a data processing unit; the input device includes a keyboard and a button switch; the various biological information receiving devices include a hand biological signal sensor, a head biological signal sensor , foot biological signal sensor, facial biological information collector; the display device includes a clamshell display and a wall-mounted display; the lighting device includes a lighting lamp and a lighting strip; the sensing device includes an infrared sensing device and a gravity sensor device.

The intelligent 3D health inspection cabin is characterized in that the appearance of the multi-functional anti-static chair is made of insulating anti-static material, and the backrest and seat adjustment can be performed through the keyboard and button switches, and the gravity sensing device is located at multiple Functional anti-static chair under the seat.

The above-mentioned intelligent 3D health detection cabin is characterized in that the electronically controlled rotating shaft is connected to the hatch cover and the cabin body, and the electronically controlled push rod is connected to the cabin body and the cabin seat.

The intelligent 3D health detection cabin is characterized in that a wall-mounted display and a facial biological information collector are embedded in the cabin cover.

The intelligent 3D health detection cabin is characterized in that the outer surface of the cabin body is a spherical surface, and the cabin body is provided with an intelligent main control system, a keyboard, a button switch, a hand biosignal sensor, a head biosignal sensor, and a flip cover. type display, lighting, multi-functional anti-static chair, man-machine dialogue device, gravity sensing device, infrared sensing device, print output device, the keyboard, button switch, hand biosignal sensor, head biosignal sensor, clamshell type The display, lighting, man-machine dialogue device, gravity sensing device, infrared sensing device, and printout device are all interconnected with the intelligent main control system through relevant wires. The multifunctional anti-static chair is set in the middle of the cabin, and the intelligent main control system is set in the In the lower part of the cabin, the keyboard, button switch, hand biosignal sensor, flip display, infrared sensing device, and printout device are set on the upper part of the seat surface of the multifunctional anti-static chair on the cabin, and the head biosignal sensor is set in the cabin. On the upper part of the back of the multi-functional anti-static chair, the lighting lamp is set on the top of the cabin, and the man-machine dialogue device is set on the side of the back of the multi-functional anti-static chair on the cabin.

The intelligent 3D health detection cabin is characterized in that the cabin seat has built-in foot biosignal sensors, lighting strips, and electronically controlled push rods, wherein the foot biosignal sensors are installed on telescopic panels.

The intelligent 3D health testing cabin is characterized in that all the electronic control devices in the testing cabin can be controlled by the button switch, the keyboard, the man-machine dialogue device, the mobile operation panel and the auxiliary console.

The examinee only needs to sit on the multifunctional anti-static chair in the testing cabin to operate the control button switch, input information and issue commands, and then start testing the body through a variety of biological information receiving devices in the testing cabin. The process only takes a few minutes to screen out the main health risks and related risk factors of the body. Through the intelligent analysis of the system, the health status of the ten major systems of the human body will be automatically evaluated according to five risk levels and tumor incentives, and the functional status of the human body will be evaluated. By performing reverse calculation of 3D imaging, the examinee can see his current health risk status intuitively and clearly through the display device in the cabin. The test cabin stores the examinee's cases through the intelligent control system, and prints out the health report through the printout device. Print with pictures, or transmit data from the intelligent control system to the Internet platform or remote control platform through wired or wireless means, or control the testing chamber wirelessly through the APP loaded on the mobile tablet or through an auxiliary device connected to the testing cabin Console for wired control.

The beneficial effects of the present invention are: it has the characteristics of non-invasive, non-radiation, simple, fast, accurate and safe; the detection process is highly private; the self-service detection function greatly saves limited medical resources; Assess the risk of the human body before the occurrence of diseases and give timely warnings to help people better prevent diseases. At the same time, it also provides a new scientific health management model for the management of sub-healthy populations, auxiliary clinical diagnosis and the construction of human body databases.

Description of drawings

Fig. 1 is a structural representation of the present invention;

In the figure, 1. hatch cover, 2. cabin body, 3. cabin seat, 4. intelligent main control system, 5. keyboard, 6. button switch, 7. hand biosignal sensor, 8. head biosignal sensor, 9. Foot biological signal sensor, 10. Facial biological information collector, 11. Clamshell display, 12. Wall-mounted display, 13. Lighting, 14. Lighting belt, 15. Electric push rod, 16. Telescopic Panel, 17. Electronically controlled rotating shaft, 18. Multifunctional anti-static chair, 19. Man-machine dialogue device, 20. Gravity sensing device, 21. Infrared sensing device, 22. Printout device, 23. Mobile operation panel, 24 . Auxiliary console.

detailed description

The present invention will be described in detail below in conjunction with the accompanying drawings.

In Figure 1, the main body of the 3D health detection cabin is composed of a hatch cover (1), a cabin body (2), and a cabin seat (3), as well as a mobile operating panel (23) and an auxiliary console (24); the hatch cover (1) Embedded with a wall-mounted display (12) and facial biometric information collector (10), connected to the cabin (2) through an electronically controlled rotating shaft (17), wherein the wall-mounted display (12) is used for display detection The images and data of the process and results are connected with the facial biological information collector (10) and the intelligent main control system (4) in the cabin through corresponding wires.

The cabin (2) is spherical in appearance, with built-in intelligent control main system (4), keyboard (5), button switch (6), hand biosignal sensor (7), head biosignal sensor (8), flip-up display (11), lighting (13), multifunctional anti-static chair (18), man-machine dialogue device (19), gravity sensing device (20), infrared sensing device (21), printout device (22), among which the keyboard (5), button switch (6), hand biosignal sensor (7), head biosignal sensor (8), clamshell display (11), lighting lamp (13), man-machine dialogue device (19), gravity The sensing device (20), the infrared sensing device (21), and the printout device (22) are all interconnected with the intelligent main control system (4) through relevant wires; the intelligent main control system (4) is composed of dense integrated circuits, containing signal Receiving unit, data conversion unit, output unit, data storage unit and data processing unit; the gravity sensing device (20) is built under the multi-functional anti-static chair (18); the appearance of the multi-functional anti-static chair (18) is made of insulating material , issue commands to the built-in intelligent main control system (4) to adjust the chair back and seat through the keyboard (5) and button switch (6); the hand biosignal sensor (7) collects human body information through human touch, and the head biosignal The sensor (8) is head-mounted to collect human body information; the human-machine dialogue device (19) is composed of a microphone and a sound system, and controls other devices through the intelligent main control system (4) to transmit and receive instructions; the clamshell display (11) can pass The instruction of the intelligent main control system (4) carries out the clamshell action.

The cabin seat (3) has a built-in foot biological signal sensor (9), lighting strip (14), electric control push rod (15), telescopic panel (16), and is interconnected with the intelligent main control system (4) through relevant wires. Among them, the foot biological signal sensor (9) collects human body information through human body touch, and is installed on the telescopic panel (16); the telescopic panel (16) can be controlled by the intelligent main control system (4) to move under the seat; the electric push rod (15) Connect the rear and lower end of the cabin (2), and adjust the front and rear angles of the cabin (2) through the intelligent main control system (4);

When the present invention is in use, the power supply of the detection cabin is first connected, and the examinee walks into the cabin through the steps of the cabin seat and sits on the multifunctional anti-static chair (18). At this time, the gravity sensing device (20) senses the pressure And at the same time, the infrared sensing device (21) activates the intelligent main control system (4) after sensing the human body. After the intelligent main control system (4) is activated, the system programs of the clamshell display (11) and the wall-mounted display (12) are automatically started, When the system is logged in, the facial biometric information collector collects the subject and transmits the data to the intelligent main control system (4), and identifies whether the subject has a detection condition after analysis by the signal receiving unit, data conversion unit and data processing unit. Historical records, if the subject has a test history before, the system will automatically retrieve the personal health file and prompt whether to change personal information and start a new test, if the subject is a new test subject, the system will prompt the need to create a personal health record Health records, at this time, the subject can register through the input device including the keyboard (5), button switch (6), facial biological information collector (10), or man-machine dialogue device (19). Both hands and feet need to be placed on the corresponding biological information receiving device, the skin on the bottom of the hand needs to be in contact with the biosignal sensor of the hand (7), the skin of the sole of the foot needs to be in contact with the biosignal sensor of the foot (9), and the biometric sensor on the head needs to be worn. The sensor (8) issues instructions to the intelligent main control system (4) through the keyboard (5), button switch (6) and man-machine dialogue device (19) to control the electric control rotation shaft (17) to rotate the hatch cover (1), and control The electric push rod (15) adjusts the cabin body (2) to the best posture, adjusts the lighting lamp (13) and the lighting strip (14) and starts detection. The whole detection process only takes a few minutes, without trauma, radiation, and accompanied by Light music is played; in addition, the doctor can also wirelessly control the testing chamber through the APP loaded on the mobile operation panel (23) or control the testing chamber through the auxiliary console (24) connected with the intelligent main control system (4) wire. Wired control and operation; after the detection is completed, all the data will be transmitted to the clamshell display (11) and wall-mounted display (12) after the system analysis of the intelligent main control system (4), and can also be transmitted to the doctor synchronously The mobile operation panel (23) in the hand and the display on the auxiliary console (24), and the system software performs cross-analysis and evaluation on these results, constructs a 3D model of human body functions and evaluates the health status of the ten major systems of the human body by five The risk level is evaluated and the tumor inducement is evaluated. The examinee can directly consult the report or print the report through the printout device (22), and can also upload the data to the Internet platform through the output unit by operating the intelligent main control system (4), so as to be able to Realize the functions of remote health management and big data management, and provide better services for the subjects.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalent replacements and improvements made within the spirit and principles of the present invention are included in the protection scope of the present invention. Inside.

Claims (7)

1. An intelligent 3D health detection cabin, characterized in that it includes a casing, an intelligent main control system (4), an input device, a variety of biological information receiving devices, a display device, a lighting device, a transmission device, and a multifunctional anti-static chair (18), man-machine dialogue device (19), sensing device, printout device (22), mobile operating panel (23), auxiliary console (24), the intelligent main control system (4) communicates with the Case, input device, various biological information receiving devices, display device, lighting device, transmission device, multifunctional anti-static chair (18), man-machine dialogue device (19), sensing device, printout device (22), auxiliary The console (24) is connected, and the mobile operation panel (23) transmits and receives data through wifi, 3G, and 4G; the casing is composed of a hatch cover (1), a cabin body (2), and a cabin seat (3); The transmission device includes an electronically controlled rotating shaft (17) and an electronically controlled push rod (15); the intelligent main control system (4) includes a signal receiving unit, a data conversion unit, an output unit, a data storage unit and a data processing unit; The input device includes a keyboard (5), a button switch (6); the multiple biological information receiving devices include a hand biological signal sensor (7), a head biological signal sensor (8), a foot biological signal sensor (9) ), a facial biological information collector (10); the display device includes a clamshell display (11) and a wall-mounted display (12); the lighting device includes a lighting lamp (13) and a lighting lamp strip (14); the The sensing device includes an infrared sensing device (21) and a gravity sensing device (20). 2. An intelligent 3D health inspection cabin according to claim 1, characterized in that the appearance of the multifunctional anti-static chair (18) is made of insulating anti-static material, and can be switched by the keyboard (5), button ( 6) Perform chair back adjustment and seat adjustment, and the gravity sensing device (20) is located under the seat of the multifunctional anti-static chair (18). 3. An intelligent 3D health detection cabin according to claim 1, characterized in that the electronically controlled rotating shaft (17) is connected to the hatch cover (1) and the cabin body (2), and the electronically controlled push rod (15) is connected to Cabin body (2) and cabin seat (3). 4. An intelligent 3D health detection cabin according to claim 1, characterized in that the cabin cover (1) is embedded with a wall-mounted display (12) and a facial biological information collector (10). 5. An intelligent 3D health detection cabin according to claim 1, characterized in that the cabin body (2) has a spherical surface, and the cabin body (2) is equipped with an intelligent main control system (4), a keyboard (5 ), button switch (6), hand biosignal sensor (7), head biosignal sensor (8), clamshell display (11), lighting (13), multifunctional anti-static chair (18), man-machine dialogue device (19), gravity sensing device (20), infrared sensing device (21), print output device (22), the keyboard (5), button switch (6), hand biological signal sensor (7), head internal biological signal sensor (8), clamshell display (11), lighting lamp (13), man-machine dialogue device (19), gravity sensing device (20), infrared sensing device (21), printout device (22) Interconnected with the intelligent main control system (4) through relevant wires, the multifunctional anti-static chair (18) is set in the middle of the cabin (2), the intelligent main control system (4) is set in the lower part of the cabin (2), and the keyboard (5 ), button switch (6), hand biosignal sensor (7), clamshell display (11), infrared sensing device (21), printout device (22) are arranged on the cabin body (2) on the multifunctional anti-static chair On the upper part of the seat surface of (18), the head biosignal sensor (8) is set on the upper part of the back of the multifunctional anti-static chair (18) on the cabin (2), and the lighting lamp (13) is set on the top of the cabin (2) , the man-machine dialogue device (19) is arranged on the back side of the multifunctional anti-static chair (18) on the cabin body (2). 6. An intelligent 3D health detection cabin according to claim 1, characterized in that the cabin seat (3) has a built-in foot biosignal sensor (9), lighting belt (14), electric push rod (15 ), wherein the foot biosignal sensor (9) is installed on the telescopic panel (16). 7. An intelligent 3D health detection cabin according to claim 1, characterized in that it includes a button switch (6), a keyboard (5), a man-machine dialogue device (19), a mobile operation panel (23), and an auxiliary console (24) All electronic control devices in the testing cabin can be controlled.