WO2009003391A1 - Multifunctional health examining apparatus and control method therefor - Google Patents

Abstract

A multifunctional health examining apparatus and control method therefor, the apparatus includes several parallel operating measure modules, a central control device (2) provided with buffer, a console (7) and a storage module (6). The central control device (2) reads the measured information of each measure modules in sequence by parallel pipelining process, and stores them into the buffer, when all of the measure modules finish the detecting processes, all information is transferred from the buffer to the storage module (6).

Description

 Multifunctional health inspection device and control method thereof

 [1] Technical field

 [2] The present invention relates to a health check medical device and a control method thereof, and in particular to a multifunctional health check device and a control method thereof.

[3] Background Art

 [4] Health tests usually include routine examinations (blood pressure, height, weight), general examinations (ENT, vision, hearing, smell, taste, surgery, internal medicine, etc.), electrophysiological measurements (electrocardiogram, etc.) ), image observation (B-ultrasound, X-ray, etc.), biochemical measurements (blood routine, urine routine, etc.) in five categories, the measurement process between these five categories is independent of each other. Since the measurement process between the five general health checks is independent, these measurements have been artificially assigned to a number of independently operating devices and operating spaces, ie, distributed physical examinations in the traditional sense. Department measurement). Obviously, the distributed physical examination in the traditional sense requires a lot of space and manpower, the process is cumbersome, the human flow and equipment configuration are difficult to control accurately, and the non-batch physical examination is inefficient, and each type of inspection in the distributed medical examination must be equipped with corresponding Professionals, leading to the drawbacks of traditional distributed medical examinations, the cost of personnel is too high.

 [5] In order to solve the above-mentioned problem of distributed medical examination, recently, foreign related institutions have proposed the concept of 'physical inspection house', and the statistical installation of separate physical examination equipment is deployed in the same room, which can effectively reduce the shortcomings of equipment deployment space, but each The physical examination equipments are still separated and cannot communicate and share information. Therefore, the corresponding equipment-side intelligent connection equipment and central control equipment must be additionally equipped, resulting in increased complexity and correspondingly increased costs. In the traditional distributed medical examination system, the personnel cost accounts for more than 50% of the total cost. Therefore, the above concept of 'physical inspection house' does not fundamentally solve the above problems in the traditional distributed physical examination.

 [6] Summary of the invention

 [7] In view of the disadvantages of high cost, cumbersome process and low efficiency in the non-batch physical examination of the conventional distributed medical examination system, the present invention proposes a multifunctional health examination apparatus and a control method thereof.

[8] The invention

The multi-functional health check device includes: a plurality of measurement modules working in parallel for the health of the subject Checking; a central controller for monitoring the working condition of each of the above measuring modules, and reading and transferring the measurement information of each of the measuring modules in the buffer zone, wherein the central controller and the respective measuring modules are respectively connected by a data transmission line a console for monitoring the working condition of the central controller and displaying measurement data, and giving a control signal to the central controller, the console being connected to the central controller through a data transmission line; a storage module for storing the central controller Obtaining measurement information of the detected person, and the storage module is connected to the central controller through a data transmission line.

 [9]

 The multifunctional health check device further includes an RFID identification module, the RFID identification module is configured to read personal information on the ID card held by the detected person, and the RFID identification module and the central controller pass the data transmission line Connected.

[10]

 A plurality of measurement modules working in parallel include a height measurement module for measuring height information of the detected person, a weight detection module for measuring body weight information of the detected person, and a blood pressure measurement module for measuring blood pressure information of the detected person, the height The measurement module, the weight detection module, and the blood pressure measurement module are respectively connected to the central controller through a data transmission line.

 [11] The multifunctional health inspection apparatus adopts a bed type structure including a front bed head assembly, a rear bed head assembly, and a bed frame assembly for carrying a subject; the height measurement The module consists of an ultrasonic distance measuring probe mounted on the front bed head assembly or the rear head head assembly, which sends the detected distance signal to the central controller.

 [12]

 The plurality of measurement modules working in parallel further includes an electrocardiographic measurement module, wherein the electrocardiographic measurement module is configured to perform electrophysiological measurement on the detected person, and the ECG measurement module is connected to the central controller through a data transmission line.

[13] The above RFID identification module釆

 Radio frequency identification is applied to the front bed assembly or the rear head assembly of the bed structure described above.

[14] The weight measuring module is composed of at least one pressure sensor and an A/D conversion module, and the pressure sensor is installed in the On the bed frame assembly, the pressure signal output by the pressure sensor is processed by the A/D conversion module and sent to the central controller.

 [15] The blood pressure measuring module is connected to the measuring sleeve by an air pump, and the measuring sleeve is slidably coupled to a sliding rail fixed to the bed frame assembly by a bracket.

[16] The blood pressure measurement module realizes front and rear adjustable barrel blood pressure measurement by sliding the rail assembly. The central controller, the storage module, the electrocardiographic measurement module, the A/D conversion module, the B-ultrasound detection module, and the blood pressure measurement module are integrated in the chassis, and the chassis is located at a lower portion of the bed frame assembly.

[17] The console uses a touch screen controller that is coupled to the bed frame assembly by a retractable rocker arm structure.

[18] Above

 The central controller, the storage module, the ECG measurement module, the A/D conversion module, and the B-ultrasonic detection module are integrated in the chassis, and the chassis is located at a lower portion of the bed frame assembly;

[19] The console uses a touch screen controller that is coupled to the bed frame assembly by a retractable rocker arm structure.

[20] The method for controlling the health inspection device of the present invention is carried out as follows:

[21] Stepl powers up the multifunctional health check equipment;

[22] Each measurement module of Step2 multifunctional health inspection equipment performs self-test;

[23] Step3 reset each measurement module;

[24] Step4 each measurement module performs measurements simultaneously;

[25] Step5 central controller monitors the status of each measurement module;

[26] Step6

The central controller determines whether there is a measurement module that has completed the detection; if the determination result is no, repeats to St e _P 5; if the determination result is yes, executes Step 7;

[27] Step7

The central controller determines whether all measurement modules have completed the measurement at present; if the determination result is no, the central controller first reads the measurement information of the measurement module that has completed the detection, and stores it in the buffer, and then pauses the measurement of the completed measurement. Module, repeat to Step5; if the judgment result is yes, Bay I" executes Step8 [28] Step8

 The central controller reads the measurement information of the current buffer and stores it in the storage module, then clears the buffer and repeats to Step 3.

[29] Effect of the invention:

 [30] The present invention uses a plurality of measurement modules working in parallel to work together, and provides a measurement method for the central controller, organically integrating the original isolated physical examination equipment into a limited measurement space, and implementing The design concept of the examiner as the center has changed the way of medical examinations in which the subjects frequently rushed to various departments. The invention can perform parallel pipeline health checkup on the subject; the subject does not need to move the spatial position during the measurement process, or only moves in a small range; the devices are synchronized and summarized by the central controller, and the operator passes The console controls all devices. The structure of the invention adopts an integrated design concept, which makes the overall health checkup process more concise and greatly facilitates the examinee.

 [31] Compared with the existing distributed medical examination system, for the same measurement item, if the equipment of the present invention is used for detection, the medical labor required for a subject to complete a physical examination is reduced by 80%, and the equipment cost is reduced. Reduced by more than 30% year-on-year. It can be seen that the invention can greatly reduce the cost, including the cost of labor, land use, information summary exchange, physical examination and equipment; and can effectively improve the detection efficiency in the non-batch physical examination, and can fundamentally solve the traditional distributed medical examination. There are problems such as high personnel costs and large use space.

 [32] BRIEF DESCRIPTION OF THE DRAWINGS

 1 is a schematic structural view of a multifunctional health inspection device of the present invention;

 2 is a flow chart showing a control method of the multifunctional health inspection device of the present invention;

 [35] FIG. 3 is a schematic view showing the overall structure of a bed type multifunctional health inspection device of the present invention;

 [36] FIG. 4 is a schematic view showing the assembly structure of each functional module of the bed type multifunctional health inspection device in the chassis;

[37] Figure 5 is

 The pipeline of each measurement module of the multifunctional health inspection device of the present invention is parallel to measure the schematic diagram of the turn.

[38] Specific implementation

 [39] Various preferred embodiments of the present invention will be described in detail below.

[40] As shown in FIG. 1, the present invention The multifunctional health check device includes a plurality of measurement modules working in parallel, a central controller 2 equipped with a buffer, a console 7 and a storage module 6; the measurement module is used for performing a health check on the subject, The central controller 2 is configured to monitor the working conditions of the above various measurement modules, and read and transfer the measurement information of each measurement module in the buffer zone; the console 7 is used to monitor the working state of the central controller and display the measurement of each measurement module. The obtained data is given to the central controller control signal; the storage module 6 is configured to store the measurement information of the detected person obtained by the central controller; the measurement module, the storage module 6, and the console 7 respectively pass through the data transmission line and the central controller 2 Connected. The plurality of parallel working measurement modules include a height measuring module 3 for measuring height information of the detected person, a body weight detecting module 4 for measuring body weight information of the detected person, and a blood pressure measuring module for measuring blood pressure information of the detected person 5. The height measuring module 3, the weight detecting module 4, and the blood pressure measuring module 5 are respectively connected to the central controller 2 through a data transmission line.

 [41] The above technical solution integrates the traditional distributed height, weight and blood pressure checkup, and the examinee can perform the routine health check in the usual sense without moving too much space. Among them, low-speed data transmission and control are realized by RS232, such as ECG, height and weight, blood pressure and other measurement data transmission; high-speed data transmission through USB2.0 transmission, such as B-ultrasound detection data transmission; storage module 6 can use hard disk storage Mode; console 7 can use a touch screen controller.

 [42] As shown in FIG. 1, an RFID identification module 9 can be added on the basis of the above technical solution, which is used for reading personal information on an ID card held by a detected person, and it is associated with the central controller 2 Also connected by a data transmission line. An identity authentication procedure has been added to the apparatus of the present invention by adding an RFID identification module 9, which is a method of radio frequency identification. Each subject is pre-issued with a card containing unique ID information. When the subject is examined, the ID card is used to complete the registration in the reader area of the R FID identification module 7 of the inspection device. After the medical examination information of the subject is saved, it is packaged and stored in the storage module 6 together with the ID information, so that it is convenient to establish a medical examination electronic file, to conveniently inquire the medical examination information of the subject, and to provide medical treatment for the future subject. Ample information. The function of the above ID card can also be combined with the labor security card, which not only saves resources, but also promotes the improvement of the labor security system.

[43] As shown in FIG. 1, the B-ultrasound detection module 1 and the electrocardiographic measurement module 8 can be added on the basis of the above technical solution, and the B-ultrasound detection module 1 is used for performing image observation on the detected person, and With central controller 2 The ECG measurement module 8 is configured to perform electrophysiological measurement on the detected person, and the ECG measurement module 8 is connected to the central controller 2 through a data transmission line. By integrating the image observation device and the electrophysiological measurement device of the health check into the inspection device of the present invention, the interconnection of the five types of health inspections is increased, and the deployment space of the device is reduced. Similarly, other image observation devices and electrophysiological measurement devices can be integrated, such as an X-ray irradiation system. Both the ECG measurement module 8 and the B-ultrasound detection module 1 described above can use the functional modules known in the prior art, so the description will not be repeated here.

 [44] Based on the above control concept, Fig. 3 provides a bed type mechanical structure for the multifunctional health inspection apparatus of the present invention. In Fig. 3, the multifunctional health inspection apparatus employs a bed type structure including a front bed head assembly 16-1, a rear bed head assembly 16-2, and a bed frame assembly 12, and the bed frame assembly 12 Used to carry the subject. The height measuring module 3 is constituted by an ultrasonic distance measuring probe mounted on the front bed head assembly 16-1 or the rear head unit assembly 16-2. After using the cymbal, the inspected person lies on the bed structure, and the test subject's foot can be attached to the rear bed head assembly 16-2, and then the ultrasonic distance measuring probe on the front bed head assembly 16-1 is measured. The distance between the head of the inspector and the front headboard assembly 16-1 is detected, and the distance signal is transmitted to the central controller, and the central controller obtains the height of the inspected person based on the distance signal and the fixed distance of the bed structure. The RFID identification module 9 is mounted by radio frequency identification and mounted on the front bed assembly 16-1 or the rear bed assembly 16-2 of the bed structure. The weight measuring module 4 is composed of at least one pressure sensor 17 and an A/D conversion module, the pressure sensor 17 is mounted on the bed frame assembly 12, and the pressure signal output by the pressure sensor 17 is processed by the A/D conversion module. And sent to the central controller 2. As shown in Fig. 3, the weight measuring module 4 can employ four pressure sensors 17, and four pressure sensors 17 are respectively distributed on the four anchorages of the bed frame assembly 12.

 [45] As shown in FIG. 3, the blood pressure measurement module is a conventional blood pressure measurement module, and the module is connected to the measurement sleeve 14 by an air pump, and the measurement sleeve is sleeved on the arm of the human body to realize blood pressure detection, and the blood pressure measurement module The blood pressure measurement data is transmitted to the central controller 2. In order to accommodate different inspected persons, a sliding guide 13 is mounted on the bed frame assembly 12, and the measuring sleeve 14 is slidably coupled to the sliding rail assembly 13 by a bracket 20 integrally provided therewith, and the measuring sleeve 14 is The slide rail assembly 13 can be moved back and forth along the slide rail assembly. In this way, the measurement position of the measurement sleeve 14 can be arbitrarily adjusted according to the height of the detected person, and the barrel blood pressure measurement can be adjusted before and after, and is convenient to use.

[46] As shown in FIG. 3 and FIG. 4, the integrated main board, the storage module 6, and the electrocardiogram measuring module 8 of the central controller 2 described above The A/D conversion module, the B-ultrasound detection module 1, and the blood pressure measurement module 5 are integrated in the chassis 11, and the chassis 11 is located at a lower portion of the bed frame assembly 12, which reduces the occupied space. As shown in FIG. 4, a general-purpose device such as a UPS power supply device 18 is also integrated in the chassis 11.

As shown in FIG. 3, the console 7 described above uses a touch screen controller 10, which is connected to the bed frame assembly 12 via a retractable rocker arm structure 15, via USB 2.0. The central controller is connected. The supporting angle of the bed frame assembly 12 in contact with the ground can be carried out by a pulley structure, which is convenient for movement and easy to carry.

 [48] As shown in FIG. 3, the detection signal input end of the B-ultrasound detection module 1 on the chassis 11 is connected to the B-ultrasound probe 19 through a data line, and the B-ultrasound probe 19 can be placed under the bed frame assembly 12 of the touch screen controller 10. At the corner of the corner, it is convenient to use, and the examiner can perform B-ultrasound detection while observing the image displayed on the console 7.

 [49] Figure 3 shows an optimal embodiment of the structure. Similarly, it is also possible to use the individual detection modules to be integrated into one room, or to use a chair structure, or to replace with other structural carriers.

 As shown in Fig. 2, the multi-function health inspection apparatus of the present invention can employ the following control method flow regardless of the number of measurement modules. The control method is performed as follows:

 [51] Stepl powers up the multifunctional health check equipment;

 [52] Each measurement module of Step2 multifunctional health inspection equipment performs self-test;

 [53] Step3 each measurement module is reset;

 [54] Step 4 each measurement module performs measurements simultaneously;

 [55] Step5 central controller monitors the status of each measurement module;

 [56] Step6

The central controller determines whether there is a measurement module that has completed the detection; if the determination result is no, repeats to St e _P 5; if the determination result is yes, executes Step 7;

[57] Step7

 The central controller determines whether all measurement modules have completed the measurement at present; if the determination result is no, the central controller first reads the measurement information of the measurement module that has completed the detection, and stores it in the buffer, and then pauses the measurement of the completed measurement. Module, repeat to Step5; if the judgment result is yes, Bay I" executes Step8

[58] Step8 The central controller reads the measurement information of the current buffer and stores it in the storage module, then clears the buffer and repeats to Step 3.

 [59] As shown in Figure 6, tl is the completed inter-segment of weight measurement, t2 is the completed inter-segment of height measurement, t3 is the completed inter-segment of blood pressure measurement, and t4 is the completed inter-segment of ECG measurement. T5 is the completion interval of the B-ultrasound measurement. According to the above control process, the subject's weight, height, blood pressure, ECG, and B-ultrasound information are sequentially stored in the central controller 2 buffer area, and then stored in the storage module 6 for long-term storage. The control method of the present invention ensures that the various measurement modules work in an orderly manner, interconnecting the original independent detection devices, and making it possible to change the conventional distributed medical examination mode.

 [60] In summary, the present invention integrates the original isolated physical examination equipment into a limited measurement space, which effectively saves the space occupied by the equipment, improves the detection efficiency of the non-batch physical examination, and saves the detection cost. , reducing the inspection process, with obvious progress and practicality.

 [61] It should be understood that the specific examples of the technical solutions of the present invention are described in detail and are not to be construed as limiting the scope of the invention. The content shall prevail.

Claims

Claim

 [1] 1, one

 The multifunctional health check device, wherein the multifunctional health check device comprises: a plurality of measurement modules working in parallel for performing a health check on the subject;

 a central controller, configured to monitor the working conditions of each of the measuring modules, and read and dump the measurement information of each of the measuring modules in a buffer, and the central controller and the respective measuring modules are respectively connected by a data transmission line;

 a console for monitoring the working condition of the central controller and displaying measurement data, and giving a control signal to the central controller, the console being connected to the central controller through a data transmission line; and a storage module for storing the central controller The measurement information of the subject, and the storage module is connected to the central controller through a data transmission line.

 2,

 The multifunctional health check device according to claim 1, wherein the multifunctional health check device further comprises an RFID identification module, wherein the RFID identification module is configured to read an ID held by the subject Personal information on the card, and the RFID identification module is connected to the central controller via a data transmission line.

 3. The multifunctional health check device according to claim 2, wherein the plurality of parallel working measurement modules comprise a height measurement module for measuring the height information of the subject, and the measurement is received The body weight detecting module of the examiner weight information and the blood pressure measuring module for measuring the blood pressure information of the subject, the height measuring module, the weight detecting module and the blood pressure measuring module are respectively connected to the central controller through a data transmission line.

 4. A multifunctional health check apparatus according to claim 3, wherein said multifunctional health check apparatus employs a bed type structure including a front bed head assembly and a rear bed head An assembly and a bed frame assembly for carrying a subject; the height measurement module is constituted by an ultrasonic distance measuring probe mounted on the front bed head assembly or the rear bed head assembly, and the ultrasonic distance measuring probe will detect The distance signal is sent to the central controller.

5. The multifunctional health check device according to claim 4, wherein the plurality of parallel working measurement modules further comprise an electrocardiographic measurement module, wherein the electrocardiographic measurement module is used to The examiner performs electrophysiological measurements, and the ECG measurement module is connected to the central controller via a data transmission line.

 The multi-function health inspection device according to claim 4, wherein the plurality of parallel working measurement modules further comprise a B-ultrasound detection module, wherein the B-ultrasound detection module is used for the subject The image observation is performed, and the B-ultrasound detection module is connected to the central controller through a data transmission line.

The multifunctional health check device according to claim 4, wherein the RFI D identification module is in a radio frequency identification manner and is installed in the front bed head assembly of the bed structure or On the headboard assembly.

 8 ,

A multifunctional health check apparatus according to claim 4, wherein said weight measuring module is constituted by at least one pressure sensor and an A/D conversion module, said pressure sensor being mounted on said bed frame assembly The pressure signal output by the pressure sensor is processed by the A/D conversion module and sent to the central controller.

 9,

A multifunctional health check apparatus according to claim 4, wherein said blood pressure measuring module is connected to the measuring sleeve by an air pump, said measuring sleeve being fixed to said bed frame assembly by a bracket The sliding guide slides the connection.

10

 The multifunctional health inspection device according to any one of claims 4 to 8, wherein the central controller, the storage module, the electrocardiographic measurement module, the A/D conversion module, and the B-ultrasound detection module are provided. The blood pressure measurement module is integrated in the chassis, and the chassis is located at the lower part of the bed frame assembly.

11

A multifunctional health check apparatus according to claim 10, wherein said console uses a touch screen controller, and said touch screen controller is connected to said bed frame assembly through a retractable rocker arm structure . A control method for a multifunctional health check device, characterized in that the control method is performed as follows:

 Stepl powers on the multifunctional health check device;

 Self-test of each measurement module of Step2 multi-function health inspection equipment;

 Step3 each measurement module is reset;

 Step4 Each measurement module performs measurements simultaneously;

 The Step 5 central controller monitors the status of each measurement module;

 Step6

The central controller determines whether there is a measurement module that has completed the detection; if the determination result is no, repeats to Step 5; if the determination result is yes, then Step 7 is performed;

 Step7

The central controller determines whether all measurement modules have completed the measurement at present; if the determination result is no, the central controller first reads the measurement information of the measurement module that has completed the detection, and stores it in the buffer, and then pauses the measurement of the completed measurement. Module, repeat to Step5

If the judgment result is yes, execute Step8;

Step8

The central controller reads the measurement information of the current buffer and stores it in the storage module, then clears the buffer and repeats to Step 3.