CN204654915U - Portable physiological measurement mechanism - Google Patents
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- CN204654915U CN204654915U CN201520285635.0U CN201520285635U CN204654915U CN 204654915 U CN204654915 U CN 204654915U CN 201520285635 U CN201520285635 U CN 201520285635U CN 204654915 U CN204654915 U CN 204654915U
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Abstract
This utility model is a kind of portable physiological measurement mechanism, it comprises ecg circuit module, ecg circuit module comprises the first electrode and the second electrode, ecg circuit module is positioned at the surface of portable physiological measurement mechanism, and can pass through the first electrode and the second electrode measures an ECG signal; Pulse circuit module, it comprises two light source emitters and a detector, and pulse circuit module can in order to measure dipulse ripple signal; First sensor module is in order to measure human body temperature signal; Second sensor module, it is in order to measure the arm length of user and to sense the movement of portable physiological measurement mechanism; And signal processing module, it is electrically connected ecg circuit module, pulse circuit module, the first sensor module and the second sensor module, and signal processing module is in order to receive and to carry out calculation process to ECG signal, dipulse ripple signal and human body temperature signal.
Description
Technical field
This utility model about the portable physiological measurement mechanism of one, especially in regard to a kind of portable physiological measurement mechanism measuring user's pressure value, blood oxygen saturation, heart rate and human body temperature numerical value.
Background technology
Countries in the world, because of the progress of civilization, except the life extending the mankind, also improve living substance level, and allow the mankind pay close attention to the level of overall quality of the life.Therefore, preventive medicine in modern society, is an extremely important and subject under discussion be concerned.
Chronic disease is the common problem of civilized nation, by the convenience of armarium, effectively can measure and the physiology information of record patient, and help doctor on Diagnosis and Treat, have more accuracy.Increasing armarium is developed, in order to monitor the physiological signal of people, comprises blood pressure measuring device, electrocardiogram (ECG/EKG) monitoring system, and pulse blood oxygen instrument etc.For example, hyperpietic, must use blood pressure measuring device, carries out important physiological signal-blood pressure (BP), periodic measurement.
The patient of these kinds, its blood circulation, along with excessive pressure, can manifest the blood pressure of rising property, and may cause apoplexy and other potential problems.But, for the standard method of Measure blood pressure, be use oscillometry to determine systolic pressure and diastolic pressure.This kind be sphygmomanometry accurately, needs the cuff being suitable for user's arm or another location (as wrist or finger).If cuff is excessive or too small, all may underestimates or over-evaluate pressure value.In addition, the posture of user error, the error in issuable measurement.Further, if the pressure that cuff imposes is excessive, user also may feel under the weather.Most blood pressure measuring device except bulky, also need a connecting line, be used for connecting cuff and measuring device, cause not portable and inconvenient operation.Therefore, the blood pressure measuring device of this kind of cuff type, cannot reach the health status looking after user whenever and wherever possible.
Utility model content
Because the problem of above-mentioned prior art, the purpose of this utility model is exactly that have the advantage exceeding traditional measurement mode, wherein mainly it is relatively cheap for providing one can introspection at any time, and measure with when following the trail of physiological signal long-time, provide one mode easily.Portable physiological measurement mechanism of the present utility model, provides some characteristics, comprises volume little, easily carry, Noninvasive, more comfortable, easily uses, even easily obtains.In addition, the portable physiological measurement mechanism of this utility model, can obtain two or more physiological parameters simultaneously, is a kind of multi-functional technology of associativity.Therefore, design of the present utility model wishes physiological measurement mechanism to be supplied to, the user carried with.
In order to reach aforementioned object, this utility model provides a kind of portable physiological measurement mechanism, it comprises ecg circuit module, ecg circuit module comprises the first electrode and the second electrode, ecg circuit module is positioned at the surface of portable physiological measurement mechanism, and can pass through the first electrode and the second electrode measures an ECG signal; Pulse circuit module, it comprises two light source emitters and a detector, and pulse circuit module can in order to measure dipulse ripple signal; First sensor module is in order to measure human body temperature signal; Second sensor module, it is in order to measure the arm length of user and to sense the movement of portable physiological measurement mechanism; And signal processing module, it is electrically connected ecg circuit module, pulse circuit module, the first sensor module and the second sensor module, and signal processing module is in order to receive and to carry out calculation process to ECG signal, dipulse ripple signal and human body temperature signal.
Accompanying drawing explanation
Fig. 1 is a block schematic diagram of portable physiological measurement mechanism;
Fig. 2 is another block schematic diagram of portable physiological measurement mechanism;
Fig. 3 is a block schematic diagram again of portable physiological measurement mechanism; And
It is the enforcement schematic diagram of portable physiological measurement mechanism shown in Fig. 4.
Wherein, description of reference numerals is as follows:
1 portable physiological measurement mechanism
10 ecg circuit modules
102 first electrodes
104 second electrodes
11 first sensor modules
12 pulse circuit modules
122 pairs of light source emitters
124 detectors
13 signal processing modules
14 second sensor modules
15 power modules
16 display modules
17 first wireless communication modules
2 portable terminal devices
20 second wireless communication modules
21 controllers
22 screen modules
23 storage modules
200 first insulators
205 second insulators
Detailed description of the invention
Below will explain this utility model content through embodiment, it is about the portable physiological measurement mechanism 1 of one.But embodiment of the present utility model is also not used to restriction enforcement any specific environment of the present utility model, application or particular form.Therefore, the explanation about embodiment is only explaination the purpose of this utility model, and is not used to limit this utility model.Need expositor, following examples and graphic in, the assembly relevant to this utility model non-immediate all omits and does not illustrate; And for asking for the purpose of simple and easy understanding, the size relationship of each inter-module not shows according to actual ratio.
Portable physiological measurement mechanism 1 is a kind of without cuff and can the portable armarium of wireless measurement.This portable physiological measurement mechanism, its embodiment comprises but is not defined as mobile phone, Portable displaying arrangement, portable adnexa, numerical digit archives player, or a kind of shell of portable terminal device and also may be a kind of accessory being installed to portable terminal device.
Portable physiological measurement mechanism 1, when while the physiological parameter such as Measure blood pressure, detecting sphygmus and blood oxygen saturation (blood oxygen saturation), heart rate and body temperature time, without the need to using a connecting line, device is connected with a cuff.
As shown in Figure 1, portable physiological measurement mechanism 1 comprises ecg circuit module 10, ecg circuit module 10 comprises the first electrode 102 and the second electrode 104, ecg circuit module 10 is positioned at the surface of portable physiological measurement mechanism 1, and can pass through the first electrode 102 and the second electrode 104 to measure ECG signal.
Pulse circuit module 12, it comprises two light source emitters 122 and a detector 124, can in order to measure dipulse ripple signal.
First sensor module 11 is in order to measure human body temperature signal.
Second sensor module 14, it is in order to measure the arm length of user and to sense the movement of portable physiological measurement mechanism 1.
Signal processing module 13, it is electrically connected ecg circuit module 10, pulse circuit module 12, first sensor module 11 and the second sensor module 14, and signal processing module 13 is in order to receive and to carry out calculation process to ECG signal, dipulse ripple signal and human body temperature signal.
Ecg circuit module 10, be made up of first electrode 102 and the second electrode 104 with opposed polarity, this electrode can with a part for the health of user (such as, finger, arm, palm, head or thigh etc.) contact with each other, to measure ECG signal from bio signal wherein.
Therefore, if the first electrode 102 has just (+) current potential, then namely the second electrode 104 has negative (-) current potential.Ecg circuit module 10 is when producing based on heart beating, and the action potential of myocardial cell also utilizes the potential difference of the first electrode 102 and the second electrode 104, can measure the ECG signal along with time variations is associated.
Ecg circuit module 10, be built on a kind of portable physiological measurement mechanism 1 of non-pulse pressure pocket type, and ecg circuit module 10 directly can contact with the some of user's body, ecg circuit module 10 will carry out the measurement of ECG signal, and the signal that transmission measures is to signal processing module 13.
When the first electrode 102 and the second electrode 102, sense the pressure bestowed from the some of user's body, namely ecg circuit module 10 can start to measure, and simultaneously the signal of transmission measurement to signal processing module 13.
Pulse circuit module 12, is made up of two light source emitter 122 and detector 124.
When pulse circuit module 12 contacts with each other with the some (such as, a finger) of user's body, dipulse ripple signal can be measured, and the signal measured by sending is to signal processing module 13.
Ecg circuit module 10 and pulse circuit module 12, may be installed in the outside of portable physiological measurement mechanism 1, and this object directly contacts with a part for user's body.
First sensor module 11, is the sensor of a kind of heat or light, can contacts a part for user's body, in order to measure the body temperature of user.
It should be noted that, the first sensor module 11 can be temperature-sensitive sticker.
Second sensor module 14, be used to the arm length calculating user, with the movement of the portable physiological measurement mechanism 1 of sensing, a kind of inertia sensing device may be comprised, such as accelerometer, gyroscope, vibrations sensor, slant sensor, altimeter, gravity sensor, magnetometer or the combination of these sensors, or as the sensor of another kind of type, it can sense movement or the inclination of portable physiological measurement mechanism 1, and collect and then send a corresponding movable signal, and be sent to signal processing module 13.
Signal processing module 13, is included in portable physiological measurement mechanism 1, is the key element condition that portable physiological measurement mechanism 1 is formed, can controls general operation.
It should be noted that, when electric power by power module 15 supply seasonable, wherein power module 15 is electrically connected signal processing module 13, and no matter whether thoughts side is to any contact or pressure for ecg circuit module 10 or pulse circuit module 12, and namely signal processing module 13 brings into operation.
Based on measurement blood oxygen saturation, be according to using reflective sensor, starting the action of carrying out measuring when user touches the second electrode 104 of ecg circuit module.
Ecg circuit module 10 and pulse circuit module 12 can be integrated into portable physiological measurement mechanism 1 simultaneously.
It is worth mentioning that, when the displacement that the second sensing module 14 senses portable physiological measurement mechanism 1 is less than threshold value, signal processing module 13 starts the measurement carrying out ECG signal, dipulse ripple signal and human body temperature signal.
And when the second sensing module 14 carries out the measurement of user's arm length, signal processing module 13 is understood in response to arm length measurement result, to export the whether vicious notice of posture in user's measurement.
And when the displacement that this second sensing module 14 senses portable physiological measurement mechanism 1 is more than or equal to threshold value, output one is had the notice of the posture in measuring about user by signal processing module 13.
Refer to Fig. 2, be different from Fig. 1, the portable physiological measurement mechanism 1 of Fig. 2 still comprises display module 16, and display module 16 is electrically connected signal processing module 13, and it is in order to the result of display measurement.
In more detail, signal processing module 13 pairs of ECG signal, dipulse ripple signal and human body temperature signal carry out calculation process, union exports measurement result to display module 16 to show, and measurement result comprises pressure value, blood oxygen saturation, heart rate and human body temperature numerical value.
As shown in Figure 3, the pie graph of portable physiological measurements 1 and portable terminal device 2 is illustrated.
With portable physiological measurement mechanism 1, except comprising display module 16, it contains again the first wireless communication module 17.First wireless communication module 17 is electrically connected signal processing module 13, and it is also transferred to portable terminal device 2 by ECG signal, dipulse ripple signal and human body temperature signal after its Received signal strength processing module 13 calculation process.
With portable terminal device 2, it comprises the second wireless communication module 20, controller 21, screen module 22 and storage module 23, and the second wireless communication module 20, screen module 22 are electrically connected controller 21 with storage module 23.
Wherein, second wireless communication module 20 carries out calculation process in order to receive the ECG signal, dipulse ripple signal and the human body temperature signal that transmit and to be sent to controller 21, union Output rusults to screen module 22 to show, Output rusults comprises pressure value, blood oxygen saturation, heart rate and human body temperature numerical value, and storage module 23 is then in order to store results.
It is worth mentioning that, when electric power by power module 17 supply seasonable, no matter whether thoughts side is to any contact or pressure for ecg circuit module 10 or pulse circuit module 12, and namely signal processing module 13 brings into operation.
When have any contact or pressure sense by ecg circuit module 10 time, signal processing module 13 is in order to communicate with each other with portable terminal device 2, namely the preliminary signals process carrying out ECG signal and dipulse ripple signal is started, and by wireless communication module 17, pass the signal in portable terminal device 2, or portable terminal device 2, can calculating ECG signal and dipulse ripple signal separately, and be sent to display module 16, show physiology information (such as, blood pressure, blood oxygen saturation, heart rate and body temperature).
According in specific embodiment of the utility model, a kind of portable physiological measurement mechanism 1, comprises an ecg circuit module 10, only uses two electrodes on the surface of apparatus main body 1, through the light physical electric current that the first electrode 102 and the second electrode 104 detect, measure ECG signal.
Comprise again a pulse circuit module 12, it comprises two light source emitters 122 and a detector 124, and from empirical calibration, obtains blood oxygen saturation further.
Comprise again second sensor module 14, mainly in order to detect the movement of portable physiological measurement mechanism 1.
Comprise again a signal processing module 13, from the mobile informatiom that described second sensor module 14 receives, in order to determine whether the process will carrying out ECG signal and pulse wave signal.
Comprise again a wireless communication module 17, ECG signal and dipulse ripple signal are sent to a portable terminal device 2.
From another towards, this utility model is the ECG signal and dipulse ripple signal that are received by a kind of portable physiological measurement mechanism 1, be sent to the process computing that a portable terminal device 2 removes to carry out signal, the blood pressure that can obtain body temperature, heart rate, Oxygen saturation and non-depressed arteries and veins pocket type is estimated, and the physiological measurement that output calculates is in screen module 22.
In addition, portable terminal device 2, its embodiment comprise but be not defined as a kind of mobile phone, intelligent mobile phone, panel computer, PC, notebook computer, numerical digit sound source playing device, portable multimedia player (PMP) and its through the communication link with portable physiological measurement mechanism 1, the device of data can be received and dispatched.
What deserves to be explained is, when contacting or pressure is detected by the first electrode 102 and the second electrode 104, signal processing module 13 namely from the second sensor module 14 Received signal strength, and starts the mobile numerical value calculating the inclination number of degrees or displacement.
When the mobile numerical value be calculated is less than certain threshold value, namely the measurement of ECG signal and pulse wave signal is controlled and starts to measure, then, signal processing module 13 receives ECG signal and pulse wave signal from ecg circuit module 10 or pulse circuit module 12, and starts the process carrying out this physiological signal.
For this reason, when user is in measuring process, mobile or inclination may cause the mobile numerical value calculated greater than or equal to a threshold value, and this signal processing module 13 will not carry out the process of any physiological signal.
When the second sensor module 14 senses user mobile, a message guided or a kind of alarm may appear on display module 16, in order to guide user in the process measured, keep it to measure the stable of posture.
Wireless communication module 17, its function has been the communication link between portable physiological measurement mechanism 1 and portable terminal device 10.
Wireless communication module 17, can send physiological signal, information and instruction to the portable terminal device 2 of user or be even sent to a medical relevant unit.Therefore, if when the physiological signal of user is sent to the relevant unit of medical treatment, the physiological situation of user can be evaluated, and user in time can obtain the result of health status.
Wireless communication module 17 may be to perform short haul connection, such as, and bluetooth,
with near-field communication (NFC), in addition, and radio communication function can be performed, as WLAN (WLAN) and wireless Internet access (Wifi).
Display module 16, shows the various information be associated with the portable physiological measurement mechanism 1 of operation.Such as, display module 16 shows the information be associated with pulse wave signal with measurement ECG signal.
Wherein in an embodiment, portable physiological measurement mechanism 1, lightweight, volume is little and easily carry.Therefore, the size of display module 16 is relatively little.Display module 16 can comprise liquid crystal display, and electric ink and any monitor, it can show the data received from signal processing module 13.
Therefore, from the measurement information of the various pictures that portable physiological measurement mechanism 1 obtains, can export through the screen module 22 of portable terminal device 2.
When the signal processing module 13 in portable physiological measurement mechanism 1 utilizes an ECG signal and dipulse ripple signal, when calculating the function of blood pressure, blood oxygen saturation (SpO2) and heart rate value in order to support, display module 16 also can show the result of physiological measurements simultaneously.
Portable terminal device 2 comprises a controller 21, display module 22, storage module 23, and a wireless communication module 20.
The function of controller 21, has been the decoding process from wireless transmission signal, and has been sent to display module 22, and by last physiology information result, is stored in this storage module 23.
Controller 20 can utilize the ECG signal and dipulse ripple signal that receive from portable physiological measurement mechanism 1, in order to calculate blood pressure, blood oxygen saturation and heart rate value.
Display module 22, according to when regulating and controlling controller 20, the various information of the conditions associated and operation of display and portable terminal device 2 and portable physiological measurement mechanism 1.
Display module 22, can show the user's physiological values (as blood pressure, blood oxygen saturation, heart rate and body temperature) calculated by ECG signal and dipulse ripple signal, and show the health status of user.Except above-mentioned functions, display module 22 can also show health education information, self assessment record, one make motion scheme and the urgent rescue unit information even near user to measure.
Storage module 23, in order to the physiological values of stored user and the relevent information from controller 20 acquisition.Storage module 23, can comprise the magnetic sheet or extrapolation storage card (as SD, CF, XD, and giving card etc.) that are configured in portable terminal device 2.
For example, storage module 23 can the physiological values that calculates of continual storage, and result is supplied to user and medical related personnel, in order to assess the health status of user.
Wireless communication module 20, wirelessly can send instruction or data from controller 21, or wirelessly can receive data from portable physiological measurement mechanism 1, with by data transmission in the controller 21 of portable terminal device 2.
As shown in Figure 4, be the enforcement schematic diagram of portable physiological measurement mechanism 1.As shown in Figure 4, the body surfaces of portable physiological measurement mechanism 1 comprises two ECG electrode, the first electrode 102 and the second electrode 104, and has the characteristic of negative pole and positive pole respectively on the surface of electrode.And at the periphery of the first electrode 102 and the second electrode 104, there is the first insulator 200 and the second insulator 205 respectively, in order to intercept the circulation of electric charge.
The foregoing is only illustrative, but not be restricted.Anyly do not depart from spirit of the present utility model and category, and to its equivalent modifications of carrying out or change, all should be contained in accompanying claim.
Claims (10)
1. a portable physiological measurement mechanism, is characterized in that, this portable physiological measurement mechanism comprises:
One electrocardiogram circuit module, it comprises the first electrode and the second electrode, and this ecg circuit module is positioned at the surface of this portable physiological measurement mechanism, and can pass through this first electrode and this second electrode measures an ECG signal;
One pulse circuit module, it comprises two light source emitters and a detector, and this pulse circuit module is in order to measure a pair of pulse wave signal;
One first sensor module, it is in order to measure a human body temperature signal;
One second sensor module, it is in order to measure the arm length of user and to sense the movement of this portable physiological measurement mechanism; And
One signal processing module, it is electrically connected this ecg circuit module, this pulse circuit module, this first sensor module and this second sensor module, and this signal processing module is in order to receive and to carry out calculation process to this ECG signal, this dipulse ripple signal and this human body temperature signal.
2. portable physiological measurement mechanism according to claim 1, is characterized in that, this portable physiological measurement mechanism still comprises a display module, and this display module is electrically connected this signal processing module, and in order to the result of display measurement.
3. portable physiological measurement mechanism according to claim 2, it is characterized in that, this signal processing module carries out calculation process to this ECG signal, this dipulse ripple signal and this human body temperature signal, union exports this result to this display module to show, and this result comprises a pressure value, a blood oxygen saturation, a heart rate and a human body temperature numerical value.
4. portable physiological measurement mechanism according to claim 1, it is characterized in that, when the displacement that this second sensing module senses this portable physiological measurement mechanism is less than a threshold value, this signal processing module starts the measurement carrying out this ECG signal, this dipulse ripple signal and this human body temperature signal.
5. portable physiological measurement mechanism according to claim 1, it is characterized in that, when this second sensing module carry out user's arm length measure time, this signal processing module can in response to arm length measurement result, with export a user measure in the whether vicious notice of posture.
6. portable physiological measurement mechanism according to claim 1, it is characterized in that, when the displacement that this second sensing module senses this portable physiological measurement mechanism is more than or equal to a threshold value, output one is had the notice of the posture in measuring about user by this signal processing module.
7. portable physiological measurement mechanism according to claim 1, is characterized in that, this first electrode and this second electrode have positive pole and negative pole respectively.
8. portable physiological measurement mechanism according to claim 1, is characterized in that, this first sensor module is a temperature-sensitive sticker.
9. portable physiological measurement mechanism according to claim 1, it is characterized in that, wherein this portable physiological measurement mechanism still comprises one first wireless communication module, it is electrically connected this signal processing module, and this first wireless communication module receives ECG signal, dipulse ripple signal and the human body temperature signal after this signal processing module calculation process and it is transferred to a portable terminal device.
10. portable physiological measurement mechanism according to claim 9, it is characterized in that, wherein this portable terminal device comprises one second wireless communication module, a controller, a screen module and a storage module, and this second wireless communication module, this screen module and this storage module are electrically connected this controller; Wherein, this second wireless communication module carries out calculation process in order to receive this ECG signal, this dipulse ripple signal and this human body temperature signal that transmit and to be sent to this controller, union exports a result to this screen module to show, this result comprises a pressure value, a blood oxygen saturation, a heart rate and a human body temperature numerical value, and this storage module is then in order to store this result.
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| CN201520285635.0U CN204654915U (en) | 2015-05-06 | 2015-05-06 | Portable physiological measurement mechanism |
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Cited By (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105205984A (en) * | 2015-11-06 | 2015-12-30 | 刘琨 | Patrol instrument for extra-high voltage power transmission line |
| CN105266825A (en) * | 2015-12-02 | 2016-01-27 | 王芳 | Blood oxygen supply detecting method |
| CN105310656A (en) * | 2015-12-02 | 2016-02-10 | 王芳 | Blood oxygen supply detector |
| CN105380666A (en) * | 2015-11-06 | 2016-03-09 | 刘琨 | Use method of patrol instrument for extra-high voltage power transmission line |
| TWI584218B (en) * | 2015-11-27 | 2017-05-21 | Liu En-Quan | Safety care monitoring method and safety care system |
| TWI614499B (en) * | 2015-09-25 | 2018-02-11 | Mobile communication device with biochemical detection and carrying | |
| CN109377845A (en) * | 2018-12-10 | 2019-02-22 | 赵修茂 | Electrocardiogram teaching appliance |
| CN109876272A (en) * | 2019-03-13 | 2019-06-14 | 安徽华米信息科技有限公司 | Pressure regulating equipment and physiological parameter acquisition system |
| CN112971794A (en) * | 2021-02-07 | 2021-06-18 | 海口讯婕城医疗科技有限公司 | Electrocardio monitoring device comprising four dry electrodes and application method |
| CN114190920A (en) * | 2021-12-24 | 2022-03-18 | 甄十信息科技(上海)有限公司 | Method and device for identifying user age by wearable device |
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2015
- 2015-05-06 CN CN201520285635.0U patent/CN204654915U/en not_active Expired - Fee Related
Cited By (13)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI614499B (en) * | 2015-09-25 | 2018-02-11 | Mobile communication device with biochemical detection and carrying | |
| CN105380666B (en) * | 2015-11-06 | 2016-09-07 | 国网山东省电力公司沂水县供电公司 | A kind of logging for UHV transmission line |
| CN105205984A (en) * | 2015-11-06 | 2015-12-30 | 刘琨 | Patrol instrument for extra-high voltage power transmission line |
| CN105380666A (en) * | 2015-11-06 | 2016-03-09 | 刘琨 | Use method of patrol instrument for extra-high voltage power transmission line |
| CN105205984B (en) * | 2015-11-06 | 2016-04-27 | 国家电网公司 | A kind of logging for UHV transmission line |
| TWI584218B (en) * | 2015-11-27 | 2017-05-21 | Liu En-Quan | Safety care monitoring method and safety care system |
| CN105310656A (en) * | 2015-12-02 | 2016-02-10 | 王芳 | Blood oxygen supply detector |
| CN105266825B (en) * | 2015-12-02 | 2017-10-31 | 薛光玉 | A kind of blood oxygen supplies detection method |
| CN105266825A (en) * | 2015-12-02 | 2016-01-27 | 王芳 | Blood oxygen supply detecting method |
| CN109377845A (en) * | 2018-12-10 | 2019-02-22 | 赵修茂 | Electrocardiogram teaching appliance |
| CN109876272A (en) * | 2019-03-13 | 2019-06-14 | 安徽华米信息科技有限公司 | Pressure regulating equipment and physiological parameter acquisition system |
| CN112971794A (en) * | 2021-02-07 | 2021-06-18 | 海口讯婕城医疗科技有限公司 | Electrocardio monitoring device comprising four dry electrodes and application method |
| CN114190920A (en) * | 2021-12-24 | 2022-03-18 | 甄十信息科技(上海)有限公司 | Method and device for identifying user age by wearable device |
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