WO2010000117A1 - Intelligent physiological parameter detecting apparatus - Google Patents

Abstract

An intelligent physiological parameter detecting apparatus includes a physiological parameter measuring device, and also includes a voice module(16), a timing control circuit(1) connected with said voice module(16) electronically which controls said voice module(16) to timing sound and said physiological parameter measuring device to timing start, a start key(4) for triggering control said timing control circuit(1).

Description

 Manual intelligent physiological parameter detector

 #细 or

 [1] The utility model relates to the field of medical instruments, and more particularly to an intelligent physiological parameter detecting instrument.

[2] Modern people pay more and more attention to physical health. A large number of hospital-specific physiological parameter measuring devices have gradually entered the family, such as thermometers, sphygmomanometers, blood glucose meters, blood oxygen concentration meters, arteriosclerosis devices, heart rate monitors, and so on. In this way, the monitoring of various indicators of the human body will be more ambiguous and accurate, and it can be continuous and continuous, and is more conducive to the improvement of people's health.

 [3] However, the existing physiological parameter measurement equipment directly faces the family and faces some problems. The main reasons are as follows:

[4] (1) The physiological indicators of the human body have inter-turn constants, that is, the values and meanings of physiological indicators in different inter-temporal segments are different. In the hospital, doctors and nurses will strictly follow a diurnal rule to do measurement tests, such as measuring body temperature and blood pressure at 7:00 am and 9:00 pm every day. In family use, family members tend to forget, which leads to missed measurements or inaccurate measurements. Maybe the first day is measured at 10 am and the second day is measured at 12 noon. The change in physiological parameters is obviously meaningless, thus causing the measurement results to lose meaning;

 [5] (2) Family members are often not trained in the use of measuring equipment, have not studied the instructions or are not fully familiar with the operation process, so in the actual measurement process, it is often easy to violate the operating specifications, resulting in inaccurate measurement. , use no effect or even negative effects.

 [6] Chinese Utility Model Patent CN02239348 discloses a sphygmomanometer receiving device that can be used to remind and store medicines. The fixed device includes a display module and a plurality of touch buttons, and can be fixed by multiple operations of the plurality of touch buttons.

 [7] This design has the following problems and drawbacks:

 [8] 1) Complex operations are required for setting and modifying between days, which is difficult for users to accept.

 [9] 2) The cost is high, it is not suitable for market requirements, and it is difficult to promote.

[10] Therefore, there is a need for a simple operation, low cost, small size, and can be used to remind the user to perform physiological parameter measurement. The technical problem to be solved by the utility model is that, in view of the defects of complicated operation and high cost of the physiological parameter measuring instrument of the prior art, the invention provides a simple operation, low cost, small volume, and can prompt the user to measure physiological parameters. Intelligent physiological parameter detector.

 The technical solution adopted by the utility model to solve the technical problem is: constructing an intelligent physiological parameter detecting instrument, comprising a physiological parameter measuring device, further comprising a voice module, electrically connecting with the voice module and controlling the voice module to be fixed A sounding control circuit board, a start button for triggering control of the fixed control circuit board.

 In the intelligent physiological parameter detector of the present invention, the start button is a single start button for triggering control of the fixed control circuit board and activation of the physiological parameter measuring device.

 In the intelligent physiological parameter detecting instrument of the present invention, the start button includes a fixed button for triggering control of the fixed control circuit board and an open button for starting the physiological parameter measuring device in the utility model. In the novel intelligent physiological parameter detector, the fixed control circuit board includes a control switch electrically connected to the voice module and the physiological parameter measuring device, triggered by the start button, and used to control the control switch to be turned on. And an off-chip smart chip, and an external crystal oscillator circuit controlled by the smart chip and cooperating with the smart chip to adjust the conduction between the control switches.

 In the intelligent physiological parameter detector of the present invention, the smart chip includes at least one of the following modules:

 A system calibration module for controlling continuous conduction of the control switch according to the set time is triggered by the start button, and a user branching module for controlling the control switch to be turned on multiple times is triggered by the start button. In the intelligent physiological parameter detector of the present invention, the voice module further includes a storage module for storing voice information for prompting the operation steps and a speaker for playing voice information stored in the storage module.

 In the intelligent physiological parameter detector of the present invention, the voice module further includes a recording unit for the user to record the voice and a recording button for triggering the recording unit to perform the recording.

In the intelligent physiological parameter detecting device of the present invention, the physiological parameter measuring device includes a sensor for converting a physiological signal of the subject into an electrical signal and an electrical signal for detecting the electrical signal detected by the sensor. A signal conversion module that is replaced with a digital signal for display display.

 [21] In the intelligent physiological parameter detector of the present invention, the intelligent physiological parameter detector further includes a housing, and the outside of the housing is further provided for electrically connecting with the storage module to input voice from the outside. A USB interface of the signal, and a measurement button area for adjusting the measurement operation of the physiological parameter measuring device.

 [22] In the intelligent physiological parameter detecting device of the present invention, the physiological parameter measuring device is a blood pressure meter, an electrocardiograph, a thermometer, a fat meter, a skin resistance meter, a blood glucose meter, a blood oxygen concentration meter, and an arteriosclerosis meter. Or the heart rate meter implements the intelligent physiological parameter detector of the utility model, which has the following beneficial effects:

 [23] The user only needs to press the button once to use the initial setting. The intelligent physiological parameter detector can be automatically turned on and off at the same time every day (after the user presses the button for 24 hours). , to set the working mode to remind the user to make physiological parameter measurement.

 Country deletion

 [24] The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:

[25] FIG. 1 is a schematic structural view of an intelligent physiological parameter detecting instrument of the present invention;

[26] FIG. 2 is a circuit block diagram of the intelligent physiological parameter detector of the present invention;

3 is a circuit block diagram of still another embodiment of the intelligent physiological parameter detector of the present invention; [28] FIG. 4 is a circuit schematic diagram of an exemplary embodiment of the intelligent physiological parameter detector of the present invention;

[29] FIG. 5 is a schematic structural view of still another embodiment of the intelligent physiological parameter detecting instrument of the present invention;

[30] FIG. 6 is a schematic structural view of the intelligent sphygmomanometer of the present invention.

 difficult

 As shown in FIG. 1 , the intelligent physiological parameter detector of the present invention comprises: a physiological parameter measuring device, a housing 7 , a voice module 16 disposed inside the housing 7 , and electrically connected to the voice module 16 . And controlling the voice module 16 to determine the sound of the fixed control circuit board 1, for triggering the control of the fixed control circuit board

Start button 4 of 1. In the embodiment of the intelligent physiological parameter detector of the present invention shown in FIG. 1, the fixed control circuit board 1 and the voice module 16 and the start button 4 are disposed outside the casing 7. Wherein, the physiological parameter measuring device is an electrocardiograph, a thermometer, a fat meter, a skin resistance meter, a blood glucose meter, a blood oxygen concentration meter, an arteriosclerometer or a heart rate meter. By using the physiological parameter detector of the utility model, the user only needs to perform an operation once to achieve the fixed setting, and the intelligent physiological parameter detector can be automatically turned on and off every day to set the working mode. Ding 吋 reminds the user to carry out physiological parameters Number measurement.

 [32] FIG. 2 is a circuit block diagram of the intelligent physiological parameter detector of the present invention. As shown in Fig. 2, the start button 4 may include a fixed button 41 for triggering control of the fixed control circuit board 1 and an open button 42 for activating the physiological parameter measuring device. The peer can also be used to trigger control of the fixed control circuit board 1 and a single start button 4 that activates the physiological parameter measuring device. The fixed control circuit board 1 includes a control switch 10 electrically connected to the voice module 16 and the physiological parameter measuring device, and an intelligent function triggered by the fixed button 41 and used to control the control switch 10 to be turned on and off. The chip 11, and the external crystal oscillator circuit 30 controlled by the smart chip 11 and cooperating with the smart chip 11 to adjust the conduction of the control switch 10 between the turns. In an exemplary embodiment of the present invention, the smart chip 11 is a smart single chip chip, and the control circuit board 1 is used to perform the inter-turn memory control function. When the user presses the button 吋 41吋, the control circuit board 1 is turned on, and the setting reminder is set. Therefore, if physiological parameter measurement is required, the user can press the open button 42, and the physiological parameter measuring device can be turned on. Thereafter, the voice module can set the working mode to remind the user to perform physiological parameter measurement at the same time every day (after the user presses the button for 24 hours), and simultaneously open the physiological parameter measuring device. In this embodiment, when the smart physiological parameter detector is required to be used, the open button 42 can be directly pressed to use without the fixed function.

 3 is a circuit block diagram of still another embodiment of the intelligent physiological parameter detector of the present invention. As shown in Fig. 3, the physiological parameter measuring device is not electrically connected to the fixed control circuit board 1, and is controlled to be turned on and off only by the open button 42. The fixed button 41 directly triggers the fixed control board 1, and the fixed voice function is activated.

4 is a circuit block diagram of an exemplary embodiment of an intelligent physiological parameter detector of the present invention. In this embodiment, the fixed control circuit board 1 further includes a power supply module 31 for providing an operating voltage to the smart chip 11. The voice module 16 further includes a storage module 61 for storing prompt voice information and a speaker 2 for playing voice information stored in the storage module. In a preferred embodiment of the present invention, the voice module 16 further includes a recording unit 63 for the user to record the voice and a recording button 64 for triggering the recording unit to perform the recording. The recording button 64 may be disposed inside the housing 7 or may be disposed outside the housing 7. When the user presses the record button 64, the recording unit 63 is activated to start recording. After pressing the record button 64 again, the recording is stopped. The recording unit 63 sends the recorded voice to the storage module 61. In an embodiment of the present invention, only the storage module 61 In a further embodiment of the present invention, the storage module 61 can store a plurality of voices, and the speaker 2 can switch among a plurality of voices.

[35] In a preferred embodiment of the present invention, the voice stored in the storage module 61 may include four parts: 1. reminding voice, 2. the physiological parameter measuring device turns on the prompt voice, 3. the measuring step prompts the voice, 4. The prompt voice at the end.

 [36] In the specific embodiment of the present invention shown in FIG. 4, the starting device 4 is a single start button 4 that directly triggers the control of the fixed control circuit board 1, the physiological parameter measuring device and the fixed device The circuit board 1 is connected and controlled by it. The smart chip 11 includes: a system calibration module 36 and a user distribution module 37. If the system setting module 36 is set, after the user triggers the start button 4, the smart chip 11 records the current time, and the external crystal oscillator circuit 30 cooperates with the smart chip 11 according to the system calibration module 36 to drive the control switch 10 to be turned on, the voice. The module 16 starts to play the voice prompt information, reminds the user that the physiological parameter measurement has been reached, and simultaneously activates the physiological parameter measuring device. After the physiological parameter measuring device is activated, the voice module 16 continues to play the prompt voice that the physiological parameter measuring device has turned on, and reminds the user that the measurement can be performed. During the measurement process of the user, the voice module 16 continues to play the voice prompt information of the measurement step, so that the measurer can perform measurement according to the voice content. After receiving the physiological parameter signal, the sensor 5 of the physiological parameter measuring device converts it into an electrical signal and transmits it to the signal conversion module 9, and the signal conversion module 9 converts the analog electrical signal into a digital signal that can be displayed by the display 14. Display 14 displays the measurement data. In a preferred embodiment of the present invention, the signal conversion module 19 can directly convert the analog electrical signal into an audio signal, and directly transmit the audio signal to the speaker 2, and then directly broadcast the physiological parameters by the speaker 2. When the measurement is completed, the system calibration module 36 drives the control switch 10 to be turned off, the voice module 16 stops prompting, and the physiological parameter measuring device is turned off. Thereafter, at the same time every day (after the user presses the button 24 of the start button 4), the external crystal oscillator circuit 30 cooperates with the smart chip 11 according to the system calibration module 36 to drive the control switch 10 to be turned on. The intelligent physiological parameter detector repeats the above work process, and this mode of operation is particularly suitable for use by users who need to measure once a day.

[37] If the user distribution module 37 is set, after the user triggers the start button 4 for the first time, the smart chip 11 records the first trigger time, and the external crystal oscillator circuit 30 cooperates with the smart chip 11 according to the system calibration module 36. When the drive control switch 10 is turned on, the voice module 16 starts to play the voice prompt information, reminding the user that the physiological parameter measurement has been reached, and simultaneously launching the physiological parameter measuring device. When the physiological parameter measuring device is activated After that, the voice module 16 continues to play the prompt voice that the physiological parameter measuring device has turned on, and reminds the user that the measurement can be performed. During the measurement process of the user, the voice module 16 continues to play the voice prompt information of the measurement step, so that the measurer can perform measurement according to the voice content. After the physiological parameter measuring sensor means 5 receives the physiological parameter signal, converts it into an electrical signal transmitted to the signal conversion module 9, the signal conversion means ₉ converts the analog electrical signal into a digital signal for display 14 for display. Display 14 displays the measurement data. After a period of time, after the user triggers the start button 4 for the second time, the smart chip 11 records the second trigger time, and the external crystal oscillator circuit 30 cooperates with the smart chip 11 according to the system calibration module 36 to drive the control switch 10 to conduct. The voice module 16 and the physiological parameter measuring device start working. After a period of time, after the user triggers the start button 4 for the third time, the smart chip 11 records the third trigger time, and the external crystal oscillator circuit 30 cooperates with the smart chip 11 to drive the control switch 10 according to the system calibration module 36. Turning on, the speech module 16 and the physiological parameter measuring device start working. Thereafter, the smart physiological parameter detector repeats the above work process between the three turns of the day (after the user presses the button 4 of the start button 4 three times).

[38] In other embodiments of the present invention, it may be set multiple times in a day, such as one or more times in the morning and evening.

 5 is a schematic structural view of still another embodiment of the intelligent physiological parameter detector of the present invention. As shown in FIG. 5, the voice module 16, the fixed control circuit board 1 is disposed inside the casing 7, and the display screen 14 and the start button 4 and the record button 64 are disposed outside the casing 7. The outside of the casing 7 is further provided with a USB interface 23 for electrically connecting to the storage module 61 to input a voice signal from the outside. In this embodiment, the voice information stored in the storage module 61 can be replaced by the USB interface 23. In this embodiment, the intelligent physiological parameter detector does not need to set the recording button 64 and the recording unit 63, and can be directly stored through the USB interface 23 to the storage module 61 after recording by using an external recording device. For some intelligent physiological parameter detectors that require parameter setting and adjustment during operation, a measurement button area 22 for adjusting the measurement operation of the physiological parameter measuring device is provided outside the housing 7. The measurement button area 22 can be provided with a plurality of buttons that can be used for physiological parameter setting and adjustment as needed.

In the embodiment of the present invention shown in FIG. 5, the fixed control circuit board 1 is only connected to the voice module 16, and is used to control the voice module 16 to determine the sound. The physiological parameter measuring device is electrically connected to a start button 41 provided on the housing 7. The start button 4 is only used to trigger the voice module 16 to sound. The physiological parameter measuring device is triggered by a start button 41. After the voice module 16 reminds the user to perform the measurement, the user can Press the start button 41 to turn on the physiological parameter measuring device.

 [41] In a preferred embodiment of the present invention, the physiological parameter measuring device may be an electrocardiograph, a thermometer, a fat meter, a skin resistance meter, a blood glucose meter, a blood oxygen concentration meter, an arteriosclerometer or a heart rate meter or the like. The device and the device having the physiological or pathological parameter measuring function may also be the physiological parameter measuring device having the plurality of physiological parameter detecting functions.

 6 is a schematic structural view of an intelligent sphygmomanometer according to the present invention. In this embodiment, the physiological parameter measuring device is a sphygmomanometer. The intelligent sphygmomanometer includes a housing 7, a compressor 3 disposed inside the housing 7, an air belt 6 connected to the compressor 3, a voice module 16 disposed in the housing 7, and The voice module 16 electrically connects and controls the fixed sound control circuit board 1 of the voice module 16 for triggering the fixed button 41 of the fixed control circuit board 1. In the embodiment of the smart sphygmomanometer of the present invention shown in FIG. 1, the voice module 16 and the fixed button 41 are both disposed inside the housing 7. In other embodiments of the present invention, the The voice module 16 and the fixed button 41 are disposed directly on the housing 7. In a preferred embodiment of the intelligent sphygmomanometer of the present invention illustrated in Figure 1, the sphygmomanometer further includes a display screen 14 for displaying test data and an open button for turning on the display screen 14 and activating blood pressure measurement 42. On the side of the casing 7, there is also provided a USB interface 23 for communicating with the outside.

 The present invention has been described with respect to the specific embodiments thereof, and those skilled in the art will understand that various changes and equivalents can be made without departing from the scope of the invention. In addition, many modifications may be made to the invention without departing from the scope of the invention. Therefore, the present invention is not limited to the specific embodiments disclosed herein, and all the embodiments falling within the scope of the claims.

Claims

Claim

 [1] 1. An intelligent physiological parameter detecting device, comprising a physiological parameter measuring device, characterized in that: further comprising a voice module (16), electrically connected to the voice module (16) and controlling the voice module (16) The fixed sound control circuit board (1) is used to trigger the start button (4) of the fixed control circuit board (1).

 [2] 2. The intelligent physiological parameter detector according to claim 1, wherein the start button (4) is a peer for triggering control of the fixed control circuit board (1) and starting the said A single activation button for the physiological parameter measuring device.

 [3] 3. The intelligent physiological parameter detector according to claim 1, wherein the start button (4) comprises a fixed button for triggering control of the fixed control circuit board (1) (41) And an open button (42) for activating the physiological parameter measuring device.

 [4] 4. The intelligent physiological parameter detector according to claim 3, wherein the fixed control circuit board (1) comprises a control electrically connected to the voice module (16) and the physiological parameter measuring device a switch (10), a smart chip (11) triggered by the start button (4) and used to control the control switch (10) to be turned on and off, and controlled by the smart chip (11) and The smart chip (11) cooperates to adjust the external crystal oscillator circuit (30) between the turn-on turns of the control switch (10).

 [5] 5. The intelligent physiological parameter detector according to claim 5, wherein the smart chip (11) comprises at least one of the following modules:

 Triggering, by the start button (4), a system calibration module (36) for controlling the continuous conduction of the control switch (10) according to the setting, and triggering by the start button (4) for controlling the The control switch (10) is a user-division module (37) that is turned on multiple times.

[6] 6. The intelligent physiological parameter detector according to claim 5, wherein the voice module (16) further comprises a storage module (61) for storing voice information prompting the operation step and for playing A speaker (2) for storing voice information in the storage module (61).

[7] 7. The intelligent physiological parameter detector according to claim 6, wherein the voice module (16) further comprises a recording unit (63) for recording the voice by the user and for triggering the recording unit. (63) Record the recording button (64).

[8] 8. The intelligent physiological parameter detecting apparatus according to claim 7, wherein the physiological parameter measuring device comprises a sensor (5) for converting a physiological signal of the subject into an electrical signal, and A signal conversion module (9) that converts the electrical signal detected by the sensor (5) into a digital signal for display by the display (14).

 [9] 9. The intelligent physiological parameter detector according to claim 8, wherein the intelligent physiological parameter detector further comprises a housing (7), and the housing (7) is further provided externally for The storage module (61) is electrically connected to a USB interface (23) for inputting a voice signal from the outside, and a measurement button area (22) for adjusting a measurement operation of the physiological parameter measuring device.

 [10] The intelligent physiological parameter detecting apparatus according to any one of claims 1 to 9, wherein the physiological parameter measuring device is a blood pressure meter, an electrocardiograph, a thermometer, a fat meter, and a skin resistance meter. , blood glucose meter, oximeter, arteriosclerosis or heart rate monitor.