CN201879675U - Hand-holding wireless health monitor - Google Patents

Abstract

The utility model provides a hand-holding wireless health monitor which comprises a shell, a main control and interface module connected with the shell, and an air pump, wherein the main control and interface module is connected with a blood pressure collecting module, an electrocardio, breathing, blood oxygen and pulse frequency collecting module, a GPS (global position system) module, a wireless communication module, a touch-type liquid crystal display screen and operation buttons are connected with the main control and interface module by a liquid crystal display screen and a keyboard interface; and the air pump is connected with the blood pressure collecting module. In the monitor, by adopting the modularized design, on the hardware design, electrocardio, blood pressure, blood oxygen, breathing, pulse frequency, wireless transmission, GPS positioning, and main control and display are divided into independent modules so as to be researched and developed; all the modules can be used for optimization on parameters and PCB (printed circuit board) wiring; therefore, the mutual interference of sampling work of all physiological parameters can be avoided, the anti-jamming problem, especially the interference of a wireless communication circuit on other sampling circuits, namely the problem difficult to solve during the miniaturization process of the multi-parameter monitor, can be solved successfully, and collected physiological data are exact and stable.

Description

A kind of handheld wireless health monitor

Technical field

This utility model relates to a kind of medical detector, especially a kind of real-time monitor of human body multi-physiological-parameter.

Background technology

Now, the monitoring instrument of relevant vital sign is comparatively universal in clinical practice, it is to the bed patient, especially vital signs such as the electrocardio of patients after surgery or critically ill patient, blood pressure, blood oxygen, breathing, pulse frequency can be monitored in real time, this not only makes patient can in time understand the physical condition of oneself, and help the doctor in time to understand patient's the state of an illness, so that take more efficiently treatment means.Raising along with social senilization's degree, increasing old people need be in and carry out secular medical monitoring, for a long time suffering from the people of chronic infirmities of age or the old man of long-term bed more needs his some vital signs are carried out monitoring regularly, so that the own health of in time understanding oneself is sought medical advice in time.Yet because away from hospital, and can't implement the real-time monitoring of remote vital sign.The monitoring instrument of simultaneously relevant vital sign also still is a blank out in the application facet means of the personal health physiological parameter monitoring that is used for family.

The utility model content

The purpose of this utility model is to overcome the deficiency of above-mentioned existence, a kind of remote wireless network physiology multi-parameter monitoring device and the personnel positioning that can carry out Long-distance Control is provided, it has electrocardio, blood pressure, blood oxygen, breathe, physiological signal collection and Presentation Functions such as pulse frequency, utilize wireless communication technique simultaneously, use GPRS/CDMA/WiFi traffic channel technical transmission to the remote system server data, show, storage, analyze and personnel positioning, control and management, this remote wireless network physiology multi-parameter monitoring device can feed back with the analysis of data collected that GSM short message mode receiving remote system server sends.

The purpose of this utility model is finished by following technical solution, a kind of handheld wireless health monitor, and it includes:

One shell is shaped on touch LCD screen, action button, cuff and blood pressure socket, socket, cardiac diagnosis lead-line and blood oxygen probe above;

One master control that is connected with shell and interface module is connected with blood pressure acquisition module, electrocardio, breathing, blood oxygen, pulse frequency acquisition module, GPS locating module and wireless communication module; Described touch LCD screen, action button connect master control and interface module by LCDs, keyboard interface;

One air pump connects the blood pressure acquisition module.

Described master control and interface module adopt the high speed flush bonding processor as master cpu, and are provided with power sense circuit; Described high speed flush bonding processor is connected with blood pressure data interface, electrocardiogram acquisition interface, oximetry data interface, wireless data transmission interface, GPS locating interface, TFT liquid crystal display screen, keyboard input, voice output respectively.

Described blood pressure acquisition module includes; The blood pressure information loop that connection cuff pressure by air pressure pick off, preamplifier A, low pass filter, ADC form successively; Organize the pulse information loop of forming by pressure transducer, preamplifier A, low pass filter, band filter A, post-amplifier A, high speed flush bonding processor, air pump control and Air Valve Control, blood pressure data interface with another.

Described electrocardio Breath collection module is made of EGC sensor, preamplifier B, band filter B, wave trap, post-amplifier B and electrocardiogram acquisition interface.

Described blood oxygen acquisition module includes; One group by the ADC among LED constant current source driving circuit, blood oxygen transducer, preamplifier C, analog switch, HONGGUANG conciliation wave filter, post-amplifier C, the MPU, the loop that blood oxygen acquisition interface constitutes; With one group of loop that constitutes by the ADC among LED constant current source driving circuit, blood oxygen transducer, preamplifier C, analog switch, infrared conciliation wave filter, post-amplifier C, the MPU, blood oxygen acquisition interface.

Described wireless communication module is made of wireless data transmission interface, WiFi module, GPRS module, SIM, WiFi antenna and GPRS antenna.

Described GPS locating module is made of GPS locating interface, GPS module and gps antenna.

This utility model possesses physiological signal, locating information acquisition functions such as electrocardio, blood pressure, blood oxygen, breathing, pulse, utilize wireless mobile GPRS/CDMA traffic channel technology and WiFi wireless local area network technology simultaneously, transfer of data is arrived the remote system server, store, analyze and feed back, the data analysis with GSM short message mode receiving remote system server feeds back simultaneously.Monitor self also possesses human computer conversation's functions such as button, demonstration, can independently monitor physiological signal.

This utility model adopts modularized design, on hardware designs, become independently module to research and develop with electrocardio, blood pressure, blood oxygen, breathing, pulse frequency, wireless transmission, GPS location, master control and demonstration are discrete, each module is all carried out parameter and PCB layout optimal design, avoided the phase mutual interference of each physiological parameter sampling work, successfully solved the most scabrous anti-interference problem in the microminiaturized process of multi-parameter monitor, particularly radio communication line makes the physiological data that collects accurate and stable to the interference of other sampling circuits.

Description of drawings

Fig. 1 is a structured flowchart of the present utility model;

Fig. 2 is the structured flowchart of master control described in the utility model and interface module;

Fig. 3 is the structured flowchart of this utility model blood pressure acquisition module;

Fig. 4 is the structured flowchart of this utility model electrocardio, Breath collection module;

Fig. 5 is the structured flowchart of this utility model blood oxygen acquisition module;

Fig. 6 is the structured flowchart of this utility model communication module;

Fig. 7 is the structured flowchart of this utility model GPS locating module;

The specific embodiment

Below in conjunction with accompanying drawing this utility model is done detailed introduction: as shown in Figure 1: this utility model mainly includes shell and module is formed, shell is provided with touch lcd color display and action button, connect shell master control and interface module 1 are arranged, blood pressure acquisition module 3, electrocardio, breathing, blood oxygen, pulse frequency acquisition module 2 and wireless communication module 4 all insert on master control and the interface module 1.Touch LCD screen and action button link to each other with master control and interface module 1 by liquid crystal display screen, keyboard interface module 5.

This utility model also is provided with air pump, and air pump and air pump valve are controlled by blood pressure acquisition module 3.Also be provided with blood pressure socket 6 on the shell, be used for inserting when blood pressure is gathered and the induction cuff pressure, make blood pressure data be delivered to blood pressure acquisition module 3.

Also be provided with other group of socket 7 on the shell described in the utility model, insert cardiac diagnosis lead-line 8 when being used to connect parameter acquisition such as electrocardio, breathing, signals such as human body electrocardio, breathing are delivered to electrocardio, Breath collection module 2, socket 7 also is used for blood oxygen, pulse frequency collection, and the data that blood oxygen probe 9 is collected are delivered to blood oxygen, pulse frequency acquisition module.

This utility model can show by display screen: ecg wave form, and respiratory waveform, the pulse frequency value, the breathing rate value, blood oxygen levels, pressure value is called out indication, electric weight indication, all multiparameters such as indication, network indication of leading.

As shown in Figure 2: master control described in the utility model and interface module 1 adopt the high speed flush bonding processor as master cpu processor 30, in master control and interface module 1, also be provided with power sense circuit 11, described master control and interface module 30 are connected to blood pressure data interface 12, electrocardiogram acquisition interface 13, oximetry data interface 14, GPS locating module interface 15, wireless data transmission interface 16, TFT LCD Interface 17, keyboard input interface 18, voice output interface 19 respectively.

As shown in Figure 3, when blood pressure detects by the air pressure of cuff is delivered on the pressure transducer 20, obtain blood pressure signal by the pressure reduction on the pick-up transducers 20, from blood pressure signal, pass through preamplifier A21 simultaneously, low pass filter 22 is isolated blood pressure signal and pulse signal, wherein blood pressure signal directly inserts ADC, after pulse signal passes through band filter A23 and post-amplifier A24 again, pulse signal is inserted blood pressure acquisition module 3, this blood pressure acquisition module 3 carries out air pump control and Air Valve Control 25, inserts main control module 30 by blood pressure data interface 12 again on the other hand.Described signal is delivered to ADC, after the digital-to-analogue conversion through calculating information such as blood pressure pulse.

As shown in Figure 4, electrocardio Breath collection module described in the utility model mainly contains preamplifier B26, band filter B27, wave trap 28, post-amplifier B29 composition, and acquired signal is to utilize EGC sensor 31.Preamplifier B26 is a Key Circuit, and it adopts the high-performance one chip amplifier, and it possesses characteristics such as high input impedance, high cmrr, low noise, low drift, low-power consumption.Band filter B27 finishes the noise signal outside the filtering 0.05-300Hz frequency, wave trap 28 is decayed at power frequency component, post-amplifier B29 is amplified to signal-give ADC between the 2.5V--+2.5V, after being converted to digital signal, under the control of master cpu, carry out the electrocardiosignal sampling, extract electrocardio ripple signal, respiratory wave signal and heart rate value.Above-mentioned electrocardio Breath collection module links to each other with main control module 30 by electrocardiogram acquisition interface 13.

As shown in Figure 5, blood oxygen detection digital circuit generation 2kH pulse signal control constant-current source 39 was added on the blood oxygen transducer 32 (light emitting diode) when blood oxygen was gathered, and made the infrared light of its HONGGUANG of alternately sending wavelength 660nm and wavelength 940nm; Preamplifier C33 will tentatively amplify from the signal that light sensitive diode obtains, by analog switch 34 HONGGUANG and infrared signal are separated, demodulation filtering 35,36 and deliver to ADC among the MPU through post-amplifier C37,38 respectively respectively, convert digital information to, and menses oxygen data-interface 14 links to each other with main control module 30.

As shown in Figure 6, communication module described in the utility model adopts high performance wireless communication module design, whole module is under the state of low-power consumption, can keep the stable link of GPRS/CDMA/WiFi channel and work incessantly for a long time, make physiological data, GPS locator data can be intactly, be delivered on the corresponding server in real time.Adoptable communication mode is GPRS/CDMA wireless cellular network+Internet wide area network/WiFi WLAN, embedded tcp/ip communication agreement.Connect wireless data transmission interface 15 in the communication module and also be provided with the Card Reader circuit, can reading and writing SIM 44 and carry out qualification testing.What communication module was connected with wireless data transmission interface 15 also is provided with GPRS module 41, and built-in GPRS antenna 42 and WiFi module 40 connect WiFi antenna 43, are used for the emission and the reception of signal.

As shown in Figure 7, GPS locating module described in the utility model is made of GPS locating interface 16, GPS module 45 and gps antenna 46.Whole module can keep the stable of GPS channel and work the collection of assurance GPS locator data for a long time incessantly under the state of low-power consumption.The built-in gps antenna 46 of GPS locating module is used for the reception of satellite.

Various information that collect during monitoring and GPS locator data, deliver in the master cpu by the interface of correspondence, through after corresponding the processing result being shown to the user, simultaneously data are delivered to communication module, after ICP/IP protocol is packaged into packet, send on the central monitoring server of designated domain name and store, for doctor's monitoring, analyze and use and personnel positioning is followed the tracks of.

This utility model is provided with touch lcd color display and action button, and structure is provided with master control and interface module, blood pressure acquisition module, electrocardio, Breath collection module, blood oxygen, pulse frequency acquisition module and communication module; The blood pressure acquisition module, electrocardio, Breath collection module, blood oxygen, pulse frequency acquisition module, communication module and GPS module all insert master control and interface module.This utility model adopts modularized design, on hardware designs, become independently module to research and develop with electrocardio, blood oxygen, blood pressure, pulse frequency, wireless transmission, GPS location, master control and demonstration are discrete, each module is all carried out parameter and PCB layout optimal design, avoided the phase mutual interference of each physiological parameter sampling work, successfully solved the most scabrous anti-interference problem in the microminiaturized process of multi-parameter monitor, particularly radio communication line makes the physiological data that collects accurate and stable to the interference of other sampling circuits.

Claims (7)

1. handheld wireless health monitor is characterized in that it includes:

One shell is shaped on touch LCD screen, action button, cuff and blood pressure socket (6), socket (7), cardiac diagnosis lead-line (8) and blood oxygen probe (9) above;

One master control that is connected with shell and interface module (1) are connected with blood pressure acquisition module (3), electrocardio, breathing, blood oxygen, pulse frequency acquisition module (2), GPS locating module (5) and wireless communication module (4); Described touch LCD screen, action button connect master control and interface module (1) by LCDs, keyboard interface (6);

One air pump connects blood pressure acquisition module (3).

2. handheld wireless health monitor according to claim 1 is characterized in that described master control and interface module (1) adopt high speed flush bonding processor (30) as master cpu, and is provided with power sense circuit (11); Described high speed flush bonding processor (30) is connected with blood pressure data interface (12), electrocardiogram acquisition interface (13), oximetry data interface (14), wireless data transmission interface (15), GPS locating interface, TFT liquid crystal display screen (17), keyboard input (18), voice output (19) respectively.

3. handheld wireless health monitor according to claim 1 is characterized in that described blood pressure acquisition module (3) includes; The blood pressure information loop that connection cuff pressure by air pressure pick off (20), preamplifier A (21), low pass filter (22), ADC form successively; Organize the pulse information loop of forming by pressure transducer (20), preamplifier A (21), low pass filter (22), band filter A (23), post-amplifier A (24), high speed flush bonding processor (30), air pump control and Air Valve Control (21), blood pressure data interface (12) with another.

4. handheld wireless health monitor according to claim 1 is characterized in that described electrocardio Breath collection module is made of EGC sensor (31), preamplifier B (26), band filter B (27), wave trap (28), post-amplifier B (29) and electrocardiogram acquisition interface (13).

5. handheld wireless health monitor according to claim 1 is characterized in that described blood oxygen acquisition module includes; One group by the ADC among LED constant current source driving circuit (39), blood oxygen transducer (32), preamplifier C (33), analog switch (34), HONGGUANG conciliation wave filter (35), post-amplifier C (37), the MPU, the loop that blood oxygen acquisition interface (14) constitutes; With one group of loop that constitutes by the ADC among LED constant current source driving circuit (39), blood oxygen transducer (32), preamplifier C (33), analog switch (34), infrared conciliation wave filter (36), post-amplifier C (37), the MPU, blood oxygen acquisition interface (14).

6. handheld wireless health monitor according to claim 1 is characterized in that described wireless communication module is made of wireless data transmission interface (15), WiFi module (40), GPRS module (41), SIM (44), WiFi antenna (43) and GPRS antenna (42).

7. handheld wireless health monitor according to claim 1 is characterized in that described GPS locating module is made of GPS locating interface (16), GPS module (45) and gps antenna (46).

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