CN201481398U - Personal health monitor and personal health monitoring system - Google Patents

Abstract

The utility model provides a personal health monitor and a personal health monitoring system. The personal health monitor comprises a data acquisition module, a processor module and a communication module, wherein the data acquisition module is used for acquiring various physiological parameter data measured by a physiological parameter measuring device; the processor module is used for saving the physiological parameter data acquired by the data acquisition module to personal health records established locally and saving diagnosis results of the health status received by the communication module to the personal health records; and the communication module is used for sending the personal health records to a health monitoring center server through a communication network and transmitting the diagnosis results of the health status returned by the health monitoring center server to the processor module. The personal health monitor can acquire a plurality of physiological parameters of a human body through the data acquisition module and send the physiological parameters to a health monitoring center, so that the diagnosis results of the health status given by doctors can be acquired.

Description

Personal health monitor and system

Technical field

This utility model relates to transfer of data and analysis field, particularly relates to a kind of network communications technology that adopts and the individual physiological transfer of data that collects is arrived the health supervision center, the personal health monitor and the system that supply the doctor to diagnose.

Background technology

Progress along with society, people's living standard improves day by day, but some negative influences have also been brought, " three-hypers " symptoms such as hypertension, hyperlipidemia, hyperglycemia appear in increasing people, people's health in serious threat, and therefore, people wish in case physiological parameter instability or abnormal conditions appear in monitored person, can obtain doctor's support rapidly, easily, and maintenance or treatment under doctor's suggestion.

To some early stage or recessive cardiac, conventional Electrocardioscopy method is difficult to find, because these patients have only under certain condition, during as excited, work strain, spirit or physical over loading, electrocardiogram just can present unusually, if can not monitor its dynamic signal of telecommunication for a long time, in time catch the variation of electrocardiosignal when falling ill, diagnosis in time, recessive cardiac can not get timely medical treatment, and tends to cause sudden cardiac death.

Traditional personal health family health care equipment all is at one or several human body physiological parameter, blood pressure for example, and blood glucose etc., various instrumental functions are single, can not monitor in real time monitored person's health status; Can't handle in real time, analyze monitored person's various physiological parameters, thus the general health of understanding health; When monitored person's physiological parameter occurs when unusual, can't be automatically, in time and emergency center, relatives get in touch.As, traditional digital Wrist blood pressure meter only is one and is worn on patient's monitoring equipment on one's body, the blood pressure situation that records can't be uploaded to the health monitoring center; Traditional electrocardiogram monitor can only deposit monitored person's ecg information in storage medium, so that carry out retrospective analysis, can not the real-time analysis electrocardiosignal, and when monitored person's heart is caused danger, can not in time report to the police, thereby may affect treatment opportunity adversely.

In a word, need the urgent technical problem that solves of those skilled in the art to be exactly: the human body physiological parameter that how various personal health health care facilities is monitored in time is transferred to the health monitoring center, and obtains doctor's analysis and suggestion easily.

The utility model content

Technical problem to be solved in the utility model provides a kind of network communications technology that adopts the individual physiological supplemental characteristic that collects is transferred to the health supervision center, the personal health monitor and the system that supply the doctor to diagnose.

In order to address the above problem, the utility model discloses a kind of personal health monitor, comprising: data acquisition module is used to gather the various physiological parameter data that physiological parameter measurement mechanism is measured; Processor module be used for the physiological parameter data classification of described data collecting module collected is saved in the local personal health archives of setting up, and the health status diagnosis result that communication module is received is saved in described personal health archives; Communication module is used for described personal health archives are sent to the health monitoring central server by communication network, and gives processor module with the health status diagnosis result transmission that the health monitoring central server returns.

Preferably, described personal health monitor also comprises: human-machine interface module, be used to provide human-computer interaction interface, and show the personal health archive information.

Preferably, described human-machine interface module also is used to monitored person that the interface of input operation instruction is provided; Described communication module is sent to health monitoring central server with local health account by described communication network according to the instruction of monitored person by described human-machine interface module input.

Preferably, described processor module is used for also judging that physiological parameter data that described personal health archives preserve is whether in default range of normal value; If physiological parameter data exceeds range of normal value, then provide alarm by described human-machine interface module.

Preferably, described communication network is cordless communication network or wireline communication network.

Preferably, described cordless communication network is GPRS, global mobile communication service, CDMA or WLAN.

Preferably, described physiological parameter measurement mechanism is sphygomanometer, blood oxygen instrument and/or electrocardiogram monitor; Wherein, above-mentioned physiological parameter measurement mechanism has one or more data acquisition interfaces among infrared communication, bluetooth communication, serial communication, the USB.

According to another embodiment of the present utility model, a kind of personal health monitoring system is also disclosed, comprising: physiological parameter measurement mechanism is used to measure monitored person's various physiological parameters, and sends the physiological parameter data of measuring; The personal health monitor is used to receive the physiological parameter data that described physiological parameter measurement mechanism sends, and is stored to local personal health archives, and is sent to the health monitoring central server; And, receive the health status diagnosis result that the health monitoring central server sends; The health monitoring central server is used to receive monitored person's physiological parameter data that described data processing equipment sends, and upgrades the personal health archives of local storage; Receive the health status diagnosis result of doctor, and described health status diagnosis result is sent to data processing equipment according to the input of personal health archive information.

Preferably, described personal health monitor comprises: data acquisition module is used to gather the various physiological parameter data that physiological parameter measurement mechanism is measured; Processor module be used for the physiological parameter data classification of described data collecting module collected is saved in the local personal health archives of setting up, and the health status diagnosis result that communication module is received is saved in described personal health archives; Communication module is used for described personal health archives are sent to the health monitoring central server by communication network, and gives processor module with the health status diagnosis result transmission that the health monitoring central server returns.

Preferably, described personal health monitor also comprises: human-machine interface module is used to monitored person that the interface and the demonstration personal health archive information of input operation instruction are provided; Described communication module is sent to health monitoring central server with local health account by described communication network according to the instruction of monitored person by described human-machine interface module input.

With existing personal health family health care equipment can only monitoring human one or several physiological parameter, can not monitor monitored person's comprehensive health situation and compare, personal health detector of the present utility model can be gathered a plurality of physiological parameters of human body by physiological parameter measurement mechanism, after sending to the health monitoring center, can obtain the health status diagnosis result that the doctor provides.

In addition, based on personal health detector of the present utility model, after a plurality of physiological parameters of human body send to the health monitoring center, provide the health status diagnosis result after can organizing the consultation of doctors by the medical expert at health monitoring center, thereby make each user can both obtain effect multidisciplinary, multidigit medical expert's service.

Description of drawings

Fig. 1 is a kind of personal health monitor of this utility model structured flowchart;

Fig. 2 is a kind of personal health monitoring system example structure of this utility model block diagram;

Fig. 3 is a kind of method flow diagram that adopts personal health monitoring system monitoring personal health situation of this utility model.

The specific embodiment

Before with the specific embodiment this utility model being described in further detail in conjunction with the accompanying drawings, at first introduce the several notions relevant with data communication.

Bluetooth: Bluetooth, a kind of wireless communication technique.Bluetooth technology is used high-speed frequency-hopping (FH, Frequency Hopping) and time division multiple acess (TDMA, Time Division Muli-Access) advanced technology such as, in closely the most at an easy rate with several digitizers (various mobile devices, fixed communication apparatus, computer and terminal unit thereof, various digital data system, as digital photographing unit, digital camera etc., even various household electrical appliance, automation equipment) be netted link.Bluetooth technology will be the unified bridge of various peripheral interfaces in the network, and it has eliminated the line between the equipment, replaces with wireless connections.The standard of bluetooth is IEEE802.15, is operated in the 2.4GHz frequency band, and bandwidth is 1Mb/s.

Infrared communication: a series of infrared data communication standards that Infrared Data Association (IRDA, Infrared Data Association) works out have formed the basis of infrared data mechanics of communication.The infrared communication technology is a kind of point-to-point Data Transport Protocol, is the substituting of connection cable between the traditional equipment.Generally between 0 to 1 meter, the fastest 16Mbps that reaches of transfer rate, communication media are that wavelength is the near infrared ray about 900 nanometers to its communication distance.

Serial communication: Serial Communication, be meant peripheral hardware and intercomputer, by data signal line, ground wire, control line etc., a kind of communication modes of data is transmitted in step-by-step.The data wire that this communication modes uses is few, can save communications cost in telecommunication, but its transmission speed is lower than parallel transmission.

The abbreviation of USB:Universal Serial BUS, Chinese implication are " USB (universal serial bus) ".USB has transmission speed, and (USB1.1 is 12Mbps soon, USB2.0 is 480Mbps, USB3.0 is 5Gbps), easy to use, support hot plug, connect advantages such as flexible, independently-powered, can connect mouse, keyboard, printer, scanner, photographic head, flash disk, MP3, mobile phone, digital camera, portable hard drive, external smooth floppy drive, USB network interface card, external equipments such as ADSL Modem, Cable Modem.

GPRS:General Packet Radio Service, GPRS, be a kind of wireless, packet-switched technology, provide end to end, wireless IP connects based on global system for mobile communications (GSM, Global System For Mobile Communication).

EDGE:Enhanced Data rate for GSM Evolution improves data transfer rate GSM service.Make 800,900,1800, the network of 1900MHz frequency range can provide the partial function of 3G (Third Generation) Moblie network, and the standardization service that provides on gsm communication system at present can be provided greatly.This technology can provide the wide-area data communication service of 384kbps and the approximately local area data communication service of 2Mbps.

CDMA:Code Division Multiple Access, CDMA, it is a kind of wireless communication technology that grows up on spread spectrum technic.The principle of CDMA technology is based on spread spectrum, need to be about to certain signal bandwidth information data that has of transmission, modulate much larger than the high speed pseudo noise code of signal bandwidth with a bandwidth, the bandwidth of former data signal is expanded, again through carrier modulation and send.Receiving terminal uses identical pseudo noise code, makes relevant treatment with the bandwidth signal that receives, and the narrow band signal that broadband signal is changed into the prime information data is despreading, to realize information communication.

WLAN:Wireless Local Area Networks, WLAN utilizes wireless communication technique that computer equipment is interconnected, and formation can the intercommunication and the network system that realizes resource-sharing.Adopt the 802.11b standard, the transfer rate of 11Mbps can be provided.

With reference to Fig. 1, show a kind of personal health monitor of this utility model structured flowchart, specifically comprise following five modules:

Human-machine interface module 111: human-computer interaction interface is provided, and the data message that processor module 113 is obtained is shown to display screen;

The interface of input operation instruction is provided for monitored person in addition; Wherein, the interface of described input operation instruction is button input or touch screen input mode.

Data acquisition module 112: the PORT COM such as infrared, bluetooth, serial ports, USB and/or Ethernet that standard is provided, follow the communications protocol of standard, gather the various physiological parameter data that physiological parameter measurement mechanisms such as sphygomanometer, blood oxygen instrument and/or electrocardiogram monitor measure, and submit the data that collect to processor module 113.

Processor module 113: the control to whole personal health monitor is provided.

With the physiological parameter data that data acquisition module 112 collects, classification is saved to the inner personal health archives of setting up of described personal health monitor; As, for blood pressure parameter, can comprise measurement unit (as mmHg), high-voltage value, low voltage value;

The health status diagnosis result that communication module 114 is received is saved to the inner personal health archives of setting up of described personal health monitor;

At different physiological parameter data, compare with the normal value service of presetting; For the data that exceed range of normal value, provide alarm by human-machine interface module 111.

Communication module 114: will be kept at the personal health archives of described personal health monitor inside, and, be uploaded to the remote health monitoring central server by cable network or wireless network;

Wherein, cable network can adopt public switch telephone network (PSTN, Public Switched TelephoneNetwork); Wireless network can adopt GPRS, EDGE, CDMA or WLAN etc.; In addition, receive from the health supervision central server and return, the health status diagnosis result who provides according to the personal health archive information by the doctor.

Wherein, communication module 114 trigger mechanism of uploading the personal health archives can be following a kind or multiple:

Regularly trigger,, judge triggering opportunity promptly according to the preset trigger cycle parameter;

According to the transmission instruction triggers of monitored person from human-machine interface module 111 inputs;

Trigger when having upgraded physiologic parameter value or having gathered new physiological parameter.

In addition, the personal health monitor also is included as the power management module that this monitor inside provides power supply supply and allocation manager.

With reference to Fig. 2, show a kind of personal health monitoring system example structure of this utility model block diagram, specifically comprise with lower device:

Device 12: physiological parameter measurement mechanism is used to measure monitored person's various physiological parameters, and sends the physiological parameter data of measuring;

Wherein, described physiological parameter measurement mechanism is sphygomanometer, blood oxygen instrument and/or electrocardiogram monitor;

For guaranteeing that the physiological parameter data that records is delivered to the personal health monitor, above-mentioned physiological parameter measurement mechanism is provided with one or more data acquisition interfaces among infrared communication, bluetooth communication, serial communication, the USB, and disposes the transmission control module that satisfies above-mentioned standard communications protocol.

Device 11: the personal health monitor, be used to receive the physiological parameter data that described physiological parameter measurement mechanism sends, be stored to local personal health archives, and be sent to the health monitoring central server;

And, receive the health status diagnosis result that the health monitoring central server returns.

Device 13: the health monitoring central server, be used to receive that described personal health monitor sends, include the personal health archives of monitored person's physiological parameter data, upgrade the personal health archives of local storage;

Receive the health status diagnosis result of doctor, and described health status diagnosis result is returned personal health monitor 11 according to the input of personal health archive information.

Health monitoring central server 13 can provide the health status diagnosis result by full-time doctor according to the physiological parameter data of preserving in the personal health archives after receiving the personal health archives of personal health monitor 11 transmissions; Provide the health status diagnosis result after also the consultation of doctors can being organized by the medical expert at health monitoring center, formulation is at the guidance program of personal health, thereby make each user can both obtain effect multidisciplinary, multidigit medical expert's service, reach and make full use of medical resource, for how monitored person provides better service.

With reference to Fig. 3, show a kind of method embodiment flow chart that adopts personal health monitoring system that the personal health situation is monitored of this utility model, concrete steps comprise:

Step 201: the personal health monitor is gathered the various physiological parameter data that physiological parameter measurement mechanism obtains, and described physiological parameter data is stored to local personal health archives.

Wherein, the personal health monitor can adopt modes such as infrared communication, bluetooth communication, serial communication, USB communication or ethernet communication to connect when physiological parameter measurement mechanism is gathered various physiological parameter data.

When the storage physiological parameter data,,, be saved to the local personal health archives of setting up by specific form as blood pressure, blood oxygen etc. according to the classification of physiological parameter;

In addition, to different physiological parameters, compare judgement with the range of normal value of presetting respectively; If physiological parameter data exceeds the range of normal value that sets in advance, then provide alarm.

Step 202: the personal health monitor is sent to the health monitoring central server with described personal health archives.

Described when local personal health archives are sent to the health monitoring central server, adopt wireless network or cable network to connect, wherein, cable network can adopt PSTN, and wireless network can adopt GPRS, EDGE, CDMA or WLAN etc.

Step 203: the health monitoring central server receives the personal health archives that the personal health monitor sends, and is updated to the personal health archives of local storage, preserves to send

Step 204: the health monitoring central server returns the health status diagnosis result of doctor according to the input of personal health archive information to the personal health monitor;

Step 205: the personal health monitor receives the health status diagnosis result that the health monitoring central server returns, and upgrades local personal health archives.

Below to adopt blue tooth interface to gather the workflow that blood pressure data is a kind of personal health monitoring method of example explanation this utility model:

Step 301, on sphygomanometer and personal health monitor, configure the bluetooth communication parameter respectively, as device name, transmission password etc.;

Step 302, usefulness configure the sphygomanometer of bluetooth communication parameter and measure monitored person's blood pressure parameter data;

Step 303, select by button, open the data acquisition function of personal health monitor, the personal health monitor enters the wait data receiving state;

Step 304, open the data button of uploading of sphygomanometer, the beginning data transmit, and data transmit when finishing, and the human-machine interface module of personal health monitor ejects the prompting menu, and reminder-data is accepted to finish;

The classification of the physiological parameter data that step 305, personal health monitor foundation collect, the relevant parameter data field of data being deposited the personal health archives; For blood pressure parameter,, organize data message, the blood pressure parameter data field of data being deposited the personal health archives as measurement unit (as mmHg), high-voltage value, low voltage value etc. according to the blood pressure parameter data format;

Step 306, above-mentioned data and default normotensive value scope are compared judgement, if surpass range of normal value, then by screen prompt, it is higher or on the low side that this measures blood pressure, provides the canonical reference value simultaneously;

For different monitored persons, the normotensive value scope can be different, and emphasis is the fluctuation situation of monitoring blood pressure, and as the higher monitored person of some daily blood pressure, the pressure value that records exceeds the canonical reference value not for a long time, can provide alarm;

Step 307, open the upload function of personal health monitor, the personal health archives are uploaded to the health monitoring central server;

When uploading the personal health archives, the personal health monitor can connect by wireless or wired mode and health monitoring central server;

Step 308, according to the personal health archive information, the doctor at health monitoring center, or medical expert group provides the health status diagnosis result, is input to the health monitoring central server, and is back to corresponding personal health monitor;

Returning health status diagnosis as a result the time, the health monitoring central server can directly transmit by the interface channel that personal health monitor and health monitoring central server adopt wireless or wired mode to set up, also can adopt other communication channels, as note, multimedia message etc.;

Step 309, personal health monitor receive the health status diagnosis result that the health monitoring central server issues, and are saved in the personal health archives, and the prompting monitored person reads.

Other physiological parameter, as data acquisition modes such as blood oxygen, blood glucose, electrocardiograms, and other data communication transmission means, as serial ports, USB interface, Ethernet interface etc., can be with reference to above-mentioned workflow enforcement of gathering the blood pressure parameter data with blue tooth interface.

For step 307～309, can after step 301～all human body physiological parameters such as blood glucose, electrocardiogram are finished in 306 collections, seek unity of action again.

Each embodiment in this description all adopts the mode of going forward one by one to describe, and what each embodiment stressed all is and the difference of other embodiment that identical similar part is mutually referring to getting final product between each embodiment.

More than a kind of personal health monitor provided by the utility model and system are described in detail, used specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment just is used for helping to understand method of the present utility model and core concept thereof; Simultaneously, for one of ordinary skill in the art, according to thought of the present utility model, the part that all can change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (10)

1. a personal health monitor is characterized in that, comprising:

Data acquisition module is used to gather the various physiological parameter data that physiological parameter measurement mechanism is measured;

Processor module be used for the physiological parameter data classification of described data collecting module collected is saved in the local personal health archives of setting up, and the health status diagnosis result that communication module is received is saved in described personal health archives;

Communication module is used for described personal health archives are sent to the health monitoring central server by communication network, and gives processor module with the health status diagnosis result transmission that the health monitoring central server returns.

2. personal health monitor as claimed in claim 1 is characterized in that, also comprises:

Human-machine interface module is used to provide human-computer interaction interface, shows the personal health archive information.

3. personal health monitor as claimed in claim 2 is characterized in that, described human-machine interface module also is used to monitored person that the interface of input operation instruction is provided; Described communication module is sent to health monitoring central server with local health account by described communication network according to the instruction of monitored person by described human-machine interface module input.

4. personal health monitor as claimed in claim 2 is characterized in that, described processor module is used for also judging that physiological parameter data that described personal health archives preserve is whether in default range of normal value; If physiological parameter data exceeds range of normal value, then provide alarm by described human-machine interface module.

5. personal health monitor as claimed in claim 1 is characterized in that, described communication network is cordless communication network or wireline communication network.

6. personal health monitor as claimed in claim 5 is characterized in that, described cordless communication network is GPRS, global mobile communication service, CDMA or WLAN.

7. personal health monitor as claimed in claim 1 is characterized in that, described physiological parameter measurement mechanism is sphygomanometer, blood oxygen instrument and/or electrocardiogram monitor; Wherein, above-mentioned physiological parameter measurement mechanism has one or more data acquisition interfaces among infrared communication, bluetooth communication, serial communication, the USB.

8. a personal health monitoring system is characterized in that, comprising:

Physiological parameter measurement mechanism is used to measure monitored person's various physiological parameters, and sends the physiological parameter data of measuring;

The personal health monitor is used to receive the physiological parameter data that described physiological parameter measurement mechanism sends, and is stored to local personal health archives, and is sent to the health monitoring central server; And, receive the health status diagnosis result that the health monitoring central server sends;

The health monitoring central server is used to receive monitored person's physiological parameter data that described data processing equipment sends, and upgrades the personal health archives of local storage; Receive the health status diagnosis result of doctor, and described health status diagnosis result is sent to data processing equipment according to the input of personal health archive information.

9. system as claimed in claim 8 is characterized in that, described personal health monitor comprises:

Data acquisition module is used to gather the various physiological parameter data that physiological parameter measurement mechanism is measured;

Processor module be used for the physiological parameter data classification of described data collecting module collected is saved in the local personal health archives of setting up, and the health status diagnosis result that communication module is received is saved in described personal health archives;

Communication module is used for described personal health archives are sent to the health monitoring central server by communication network, and gives processor module with the health status diagnosis result transmission that the health monitoring central server returns.

10. system as claimed in claim 8 is characterized in that, described personal health monitor also comprises:

Human-machine interface module is used to monitored person that the interface and the demonstration personal health archive information of input operation instruction are provided; Described communication module is sent to health monitoring central server with local health account by described communication network according to the instruction of monitored person by described human-machine interface module input.

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