CN103156575B - Automatic wireless transmission type monitoring system for physiological data and monitoring method for same - Google Patents

Abstract

Provided are an automatic wireless transmission type monitoring system for physiological data and a monitoring method for the same. The system comprises at least one periphery module, a main detecting module and a servo platform. The periphery module comprises a monitoring unit which monitors the state of a user. The main detecting module is provided with a physiology detecting unit. The main detecting module has a detecting state for detecting physiology detecting data of a user and a transmission state in wireless connection with the periphery module and the servo platform, and the detecting state and the transmission state are not coexistent. Monitoring data of the periphery module is automatically collected through the main detecting module, the monitoring data and data obtained by the physiology detecting unit are uploaded to the servo platform in a wireless connection manner for an observer to check, and through a mode that the detecting state and the transmission state are automatically separated, interference on a detector of a wireless signal can be avoided.

Description

Automated wireless conveying type physiological data monitoring system and monitoring method thereof

Technical field

The present invention relates to a physiological data monitoring system, be specifically related to a kind of automated wireless conveying type physiological data monitoring system.

Background technology

Modern is due to the change of daily life system and dietary habit, and initiation symptom such as the symptom Probabilities such as hypertension, diabetes or hypercholesterolemia of various chronic disease greatly improve.And in the regular medical system of hospital, the record of the foundation of sufferer personal data, the collection of relevant physiological state data and while in hospital continual various blood, urine and diet must be passed through, be supplied to doctor whereby or caregiver sets up doctor's advice and carries out the foundation of administration.And although the routine that sufferer carries out daily life by family gauge after going home detects and reaches the object of self-health control.But, follow-up health status also cannot be learnt in sufferer after institute by hospital, if when thus having sufferer to be negligent of self management or have emergency to occur, cannot be definite carry out accurately immediately judging by obtaining physiological-related information and carry out correspondence treatment, thus has the possibility of delay treatment.

In order to avoid the generation of above-mentioned situation, " integrating interactive health administration module " of No. M342565th, TaiWan, China patent announcement, wherein, the mode detected with oneself by the person of looking after and the physiologic information recorded can be sent to a medical servo platform, the related personnel participating in this platform treating can be learnt by the house Self-Care situation of the person of looking after, avoid the generation of above-mentioned situation whereby.But there is no the mode of public data transmission in this case, and the easy Interference Detection signal of signal of data transmission, thus likely cause the inaccurate problem of measurement data.

Summary of the invention

Main purpose of the present invention, is the physiological data monitoring system providing a full-automatic wireless transmission, and avoids data transfer signal likely Interference Detection signal and cause the inaccurate problem of measurement data.

For reaching above-mentioned purpose, the invention provides a kind of automated wireless conveying type physiological data monitoring system, including at least one peripheral module, a main detection module, and one and the servo platform of these main detection module wireless connections.This peripheral module includes the first wireless transmission unit that a monitoring means, is electrically connected this monitoring means, and one is electrically connected the periodic Control unit of this first wireless transmission unit, the unlatching interval of this this first wireless transmission unit of periodic Control unit controls.This main detection module includes a CPU and the physiology detecting unit be electrically connected with this CPU respectively, one second wireless transmission unit, a long range radio transmissions unit, this second wireless transmission unit to should peripheral module the first wireless transmission unit and carry out wireless data transmission.And this main detection module is automatically connected with this servo platform is transmitted by this long range radio transmissions unit.

Wherein, this CPU has not coexistent detected state and a transmission state, this physiological detection unit only can detect when this detected state, and when this transmission state, opens this second wireless transmission unit and carry out wireless connections and data transmission.And this peripheral module periodically opens this first wireless transmission unit by this periodic Control unit, and when opening this second wireless transmission unit in this main detection module in transmission state, carry out wireless connections, and the Monitoring Data obtained by monitoring means is sent to this main detection module, and via this long range radio transmissions unit and this servo platform wireless connections, and then upload this Monitoring Data and this physical detection data.

In addition, the present invention also discloses another automated wireless conveying type physiological data monitoring system, and it includes at least one peripheral module, a main detection module, and one and the servo platform of these main detection module wireless connections.This peripheral module includes one and is electrically connected the first wireless transmission unit of this monitoring means in order to the monitoring means and obtaining a Monitoring Data.This main detection module, include a CPU, and the physiology detecting unit be electrically connected with this CPU respectively, one second wireless transmission unit, a long range radio transmissions unit, a memory element, this second wireless transmission unit is to should the first wireless transmission unit and carry out wireless data transmission.And this main detection module is automatically connected with this servo platform is transmitted by this long range radio transmissions unit.

Wherein, this CPU has not coexistent detected state and a transmission state, this physiological detection unit only can detect when this detected state, and when this transmission state, opens this second wireless transmission unit and carry out wireless connections and data transmission.And this main detection module is when transmission state, obtains the Monitoring Data of this monitoring means by this this peripheral module of the second wireless transmission unit automatic searching, and be temporarily stored in this memory element.Then transfer to this servo platform by this long range radio transmissions unit.

In addition, the present invention also discloses a kind of monitoring method of automated wireless conveying type physiological data, and this monitoring method carries out a peripheral step and a key step respectively at least one peripheral module and a main detection module, and this peripheral step includes:

P1: obtained by a monitoring means of this peripheral module and record a Monitoring Data;

P2: be arranged at one first wireless transmission unit on this peripheral module by a periodic Control unit unlatching one of this peripheral module;

P3: judge wireless connection conditions, judge this first wireless transmission unit whether with these main detection module wireless connections, if connect, carry out step P4, if do not connect, then directly carry out step P5;

P4: this Monitoring Data is sent to this main detection module by this first wireless transmission unit;

P5: close this first wireless transmission unit, and await orders;

And this key step includes:

S1: make this main detection module be in a detected state, obtains a physical detection data by a physiology detecting unit of this main detection module;

S2: switch this main detection module to transmission state, and open one second wireless transmission unit in this main detection module;

S3: wait to be connected, waits for that this first wireless transmission unit is connected with this second wireless transmission unit, if connect, carries out step S4, if do not connect, then directly carry out step S5;

S4: receive this Monitoring Data;

S5: the long range radio transmissions unit opening this main detection module, line number of going forward side by side reportedly transports to a servo platform;

S6: close this second wireless transmission unit and this long range radio transmissions unit, and switch to this detected state.

Except carrying out data transmission with this peripheral module from this main detection module that is dynamically connected in the above described manner, and reaching outside the monitoring of physiological data, also can directly find this peripheral module in automatic searching mode by this main detection module and obtain this Monitoring Data.The peripheral step of this monitoring method includes:

P1a: obtained by a monitoring means of this peripheral module and record a monitoring message Monitoring Data;

P2a: wait for and start and connect, waits for the wireless signal of this main detection module and starts one first wireless transmission unit of this peripheral module;

P3a: connect and transmit, by this first wireless transmission unit, this monitoring message Monitoring Data being sent to this main detection module;

P4a: close this first wireless transmission unit, and await orders;

And the key step of this mode includes:

S1a: make this main detection module be in a detected state, obtains physiology detection signal data by a physiology detecting unit of this main detection module;

S2a: switch this main detection module to transmission state, and open one second wireless transmission unit in this main detection module;

S3a: automatic searching connects, one first wireless transmission unit of this peripheral module of automatic searching, and is attached thereto, if connect, carries out step S4a, if do not connect, then directly carries out step S5a;

S4a: receive this monitoring message Monitoring Data;

S5a: the long range radio transmissions unit opening this main detection module, line number of going forward side by side reportedly transports to a servo platform;

S6a: close this second wireless transmission unit and this long range radio transmissions unit, and switch to this detected state.

As shown in the above description, compared to known techniques, the present invention has features:

One, the detection of physiological data and the transmission of wireless data is carried out by this main detection module respectively at when not coexistent detected state and transmission state, get rid of when detecting by the possibility of wireless signal electronic interferences, electromagnetic wave has been subject to the attention of height to the subject under discussion that medical device disturbs, even if be in holding state, during detection, still likely have the doubtful anxiety be interfered.

Two, by controlling the open and close of wireless transmission unit, defining two not coexistent states, not by electromagnetic interference when guaranteeing to detect, improving the reliability of physical detection data whereby.

Three, by self-propagating mode, make automatic data transmission in this peripheral module and this main detection module to this servo platform, avoid the possibility likely not transmitting data because of anthropic factor.

Four, thus whenever where this main detection module is connected with this servo platform in the mode of wireless connections, all can carry out uploading of data.

Accompanying drawing explanation

Fig. 1 is the square configuration schematic diagram of first embodiment of the invention;

Fig. 2 is the use module diagram of first embodiment of the invention;

Fig. 3 A-Fig. 3 B is the monitoring method schematic diagram of first embodiment of the invention;

Fig. 4 is the square configuration schematic diagram of second embodiment of the invention;

Fig. 5 A-Fig. 5 B is the monitoring method schematic diagram of second embodiment of the invention;

Fig. 6 is the state display schematic diagram of the present invention one servo platform.

Detailed description of the invention

Detailed description for the present invention and technology contents, the existing accompanying drawing that just coordinates is described as follows:

Refer to shown in Fig. 1 and Fig. 2, the present invention is a kind of automated wireless conveying type physiological data monitoring system, and in the first embodiment, this monitoring system includes the main detection module 20 of at least one peripheral module 10, and one and the servo platform 30 of these main detection module 20 wireless connections.This peripheral module 10 includes the first wireless transmission unit 12 that a monitoring means 11, is electrically connected this monitoring means 11, and one is electrically connected the periodic Control unit 13 of this first wireless transmission unit 12, this periodic Control unit 13 controls the unlatching interval of this first wireless transmission unit 12.This peripheral module 10 can be pedometer, image record equipment, electronic medicine box, sphygomanometer, weighing machine, fat meter, novopen or clinical thermometer etc., thus this monitoring means 11 is a Monitoring Data in order to obtain the measurement numerical value of above-mentioned peripheral module 10, this Monitoring Data coordinates above-mentioned record equipment and can be motion, diet, drug use or condition data etc., and wherein condition data can be body temperature, body weight, body fat or blood pressure etc.And in the first embodiment, it has three peripheral modules 10a, 10b, 10c, it represents electronic medicine box 51, pedometer 52 and mobile phone 53 (using as photologging equipment) respectively, can learn the administration time of user, moving situation and diet content and quantity whereby.

Physiology detecting unit 22,1 second wireless transmission unit 23, the long range radio transmissions unit 24 that this main detection module 20 includes a CPU 21 and is electrically connected with this CPU 21 respectively, this second wireless transmission unit 23 is to should the first wireless transmission unit 12 and carry out wireless data transmission.And this main detection module 20 is automatically connected with this servo platform 30 is transmitted by this long range radio transmissions unit 24.Wherein, this long range radio transmissions unit 24 can be global mobile communication technology (Global System for Mobile Communications with the mode of these servo platform 30 wireless connections, GSM), overall radio packet communication technology (General packet radio service, or code division multiple access communication technology (Code division multiple access, CDMA) etc. GPRS).And this first wireless transmission unit 12 and the wireless transmission method of this second wireless transmission unit 23 can be bluetooth, infrared transmission, ZigBee network technology (Zigbee), ultra broadband (Ultra-wideband, UWB), home radio (Home RF), global intercommunication microwave access (WiMax), Wireless Fidelity (Wi-Fi) or wireless radio-frequency etc.Wherein wireless radio-frequency comprises frequency shift keying modulation (the Frequency-shift keying that wide model uses, FSK), amplitude shift keying modulation (Amplitude-shift keying, or phase-shift keying (PSK) modulation (Phase-shift keying ASK), the technology such as PSK), this kind of wireless radio-frequency itself has lower powered characteristic, electric power can be saved, add that Monitoring Data automatically transmits at any time, the data volume transmitted each time can't be too many, therefore, the Radio Transmission Technology being used as this case is also applicable to.And the convenient function with this physiological detection unit 22 with detection of main detection module 20 of the present invention itself, this physiological detection unit 22 can be blood testing, saliva is detected or the instrument of urine detection, and has the functions such as blood glucose, blood oxygen concentration, blood fat, cholesterol, uric acid, ethanol, triglyceride, ketoboidies, kreatinin, lactic acid or hematin test.In addition, this main detection module 20 more includes and to be electrically connected with this CPU 21 and the emergency interconnection unit 25 providing emergency interconnection to use and watch a display unit 26 of testing result and transmission state for user.And due to peripheral module 10 small volume and be convenient for carrying, for older or forgetful user, likely can not find because of arbitrarily placing temporarily, cause the inconvenience of user, therefore, this main detection module 20 more can comprise a calling unit 27, and this peripheral module 10 also can include a pair should the auditory tone cues unit 14 of calling unit 27, this calling unit 27 is connected with this CPU 21, this auditory tone cues unit 14 is connected with this first wireless transmission unit 12, this auditory tone cues unit 14 sends the sound by the call of this calling unit 27, user is found by the prompting of sound.

Wherein, this CPU 21 has not coexistent detected state and a transmission state, this physiological detection unit 22 only can detect when this detected state, this second wireless transmission unit 23 is for closing, and when this transmission state, could open this second wireless transmission unit 23, this main detection module 20 and this peripheral module 10a, 10b, 10c carry out wireless connections and data are transmitted.Shown in Fig. 3 A and Fig. 3 B, Fig. 3 A and Fig. 3 B is the monitoring method schematic diagram of first embodiment of the invention, its monitoring method carries out a peripheral step and a key step for this peripheral module 10 respectively with this main detection module 20, and this peripheral step includes:

P1: obtained by this monitoring means 11 and record this Monitoring Data, this peripheral module 10a, 10b, 10c record the Monitoring Data of the administration time of user, moving situation and diet content and quantity respectively;

P2: open this first wireless transmission unit 12 by this periodic Control unit 13, in order to more save electric power, this periodic Control unit 13, only after obtaining this Monitoring Data, controls the unlatching interval of this first wireless transmission unit 12; In time not yet obtaining this Monitoring Data, this periodic Control unit 13 and this first wireless transmission unit 12 just do not carry out any action, to save electric power;

P3: judge wireless connection conditions, judge this first wireless transmission unit 12 whether with these main detection module 20 wireless connections, if connect, carry out step P4, if do not connect, then directly carry out step P5;

P4: transmit Monitoring Data, by this first wireless transmission unit 12, this Monitoring Data is sent to this main detection module 20;

P5: close this first wireless transmission unit 12, and await orders.

And this key step includes:

S1: make this main detection module 20 be in this detected state, a physical detection data is obtained by this physiological detection unit 22, a corpse or other object for laboratory examination and chemical testing for this physiological detection is blood glucose, saliva or uric acid etc., and when this detected state, this second wireless transmission unit 23 and this long range radio transmissions unit 24 are in closedown, to avoid the data correctness affecting this detected state because of Electromagnetic Interference, on the other hand, the effect of power saving can also be reached;

S2: switch this main detection module 20 to this transmission state, this CPU 21 is utilized to switch to this transmission state, and open this second wireless transmission unit 23, this transmission state only continues the time to be transmitted, wireless transmission is carried out, if exceed this time to be transmitted namely close this transmission state to save electric power for this peripheral module 10a, 10b, 10c;

S3: wait to be connected, wait for that this first wireless transmission unit 12 is connected with this second wireless transmission unit 23, if connect, carry out step S4, if do not connect, then directly carry out step S5, wherein, because this periodic Control unit 13 is periodically to open this first wireless transmission unit 12, thus this peripheral module 10a, 10b, 10c and this main detection module 20 only can carry out wireless connections in special time;

S4: receive this Monitoring Data, is sent to this main detection module 20 by the Monitoring Data that monitoring means 11 obtains;

S5: open this long range radio transmissions unit 24, line number of going forward side by side reportedly transports to this servo platform 30;

S6: close this second wireless transmission unit 23 and this long range radio transmissions unit 24, and switch to this detected state.

Invention also discloses the second embodiment, refer to shown in Fig. 4, a kind of automated wireless conveying type physiological data monitoring system of the present invention, it includes at least one peripheral module 10d, a main detection module 20, and one and the servo platform 30 of these main detection module 20 wireless connections.This peripheral module 10d includes one to be electrically connected this monitoring means 11 the first wireless transmission unit 12 in order to the monitoring means 11 and obtaining a Monitoring Data.

This main detection module 20 includes a CPU 21, and physiology detecting unit 22,1 second wireless transmission unit 23, long range radio transmissions unit 24, memory element 28 be electrically connected with this CPU 21 respectively, this second wireless transmission unit 23 is to should the first wireless transmission unit 12 and carry out wireless data transmission.And this main detection module 20 is automatically connected with this servo platform 30 is transmitted by this long range radio transmissions unit 24.In addition, this main detection module 20 more includes the emergency interconnection unit providing emergency interconnection to use 25 and be electrically connected with this CPU 21 and watches the display unit 26 of testing result and transmission state for user.

Wherein, what this CPU 21 was same has not coexistent detected state and transmission state, this physiological detection unit 22 only can detect when this detected state, and when this transmission state, open this second wireless transmission unit 23, this main detection module 20 automatic searching this peripheral module 10d also carries out wireless connections and data transmission.Shown in Fig. 5 A and Fig. 5 B, Fig. 5 A and Fig. 5 B is the monitoring method schematic diagram of second embodiment of the invention, and the peripheral step in its monitoring method is as follows:

P1a: obtained by this monitoring means 11 and record this Monitoring Data;

P2a: wait for and start connection, wait for the wireless signal of this main detection module 20 and start this first wireless transmission unit 12;

P3a: connect and transmit, by this first wireless transmission unit 12, this Monitoring Data being sent to this main detection module 20;

P4a: close this first wireless transmission unit 12, and await orders.

And this key step includes:

S1a: make this main detection module 20 be in a detected state, obtain a physical detection data by this physiological detection unit 22;

S2a: switch this main detection module 20 to transmission state, utilize this CPU 21 to switch to this transmission state, and open this second wireless transmission unit 23;

S3a: automatic searching connects, first wireless transmission unit 12 of this peripheral module of automatic searching 10d, and is attached thereto, if connect, carries out step S4a, if do not connect, then directly carries out step S5a;

S4a: receive this Monitoring Data;

S5a: open this long range radio transmissions unit 24, line number of going forward side by side reportedly transports to this servo platform 30;

S6a: close this second wireless transmission unit 23 and this long range radio transmissions unit 24, and switch to this detected state.

Specifically be, second embodiment and the first embodiment difference are: this main detection module 20 is when transmission state, utilize the control of this CPU 21, by this this peripheral module of the second wireless transmission unit 23 automatic searching 10d, and obtain the Monitoring Data of this monitoring means 11, and this long range radio transmissions unit 24 is utilized to be uploaded to this servo platform 30.If upload unsuccessful, be then temporarily stored in this memory element 28, wait for next time and upload chance.

The last information that just can obtain on this servo platform 30 as shown in Figure 6, and the exercise data 41 in different time points of user, dietary data 42, physical detection data 43 and drug use data 44 can be learnt.The relatives etc. of medical care personnel, doctor or user just can learn the exercise data 41 of user, dietary data 42, physical detection data 43 and drug use data 44 by this servo platform 30 of network entry, and can judge the health of user further or provide health consultation.

In sum, the present invention has following characteristics:

One, because the present invention carries out the detection of physiological data and the transmission of wireless data by this main detection module 20 respectively at when not coexistent detected state and transmission state, by the possibility of wireless signal electronic interferences when eliminating detects, improve the reliability of physical detection data whereby.

Two, by self-propagating mode, and automatic data transmission in this peripheral module 10 and this main detection module 20 can be made to this servo platform 30, avoid the possibility likely not transmitting data because of anthropic factor.

Three, thus whenever where this main detection module 20 is connected with this servo platform 30 in the mode of wireless connections, all can carry out uploading of this Monitoring Data and this physical detection data.

Four, utilize default automatic transmission, and exempt the complicated transmission installation procedure of user, reach the noninductive object uploaded.

Five, stored and display by the data of this servo platform 30, and be supplied to the user of beholder as care personal healths such as doctor, household and teacher of the looking after.

Below the present invention be described in detail, as described above, be only a preferred embodiment of the present invention, when not limiting scope of the invention process.

Claims (27)

1. an automated wireless conveying type physiological data monitoring system, is characterized in that, includes:

At least one peripheral module, include the first wireless transmission unit that a monitoring means, is electrically connected this monitoring means, and one is electrically connected the periodic Control unit of this first wireless transmission unit, the unlatching interval of this this first wireless transmission unit of periodic Control unit controls;

One main detection module, include a CPU and the physiology detecting unit be electrically connected with this CPU respectively, one second wireless transmission unit, a long range radio transmissions unit, this second wireless transmission unit is to should the first wireless transmission unit and carry out wireless data transmission; And

One with the servo platform of these main detection module wireless connections, this main detection module is automatically connected with this servo platform by this long range radio transmissions unit and transmits;

This CPU has not coexistent detected state and a transmission state, and this physiological detection unit only can detect when this detected state, and when this transmission state, opens this second wireless transmission unit and carry out wireless connections and data transmission.

2. automated wireless conveying type physiological data monitoring system as claimed in claim 1, it is characterized in that, this periodic Control unit, only after this monitoring means obtains a Monitoring Data, controls the unlatching interval of this first wireless transmission unit.

3. automated wireless conveying type physiological data monitoring system as claimed in claim 2, it is characterized in that, this servo platform at least includes exercise data, dietary data, physical detection data and drug use data.

4. automated wireless conveying type physiological data monitoring system as claimed in claim 1, it is characterized in that, this at least one peripheral module has a plurality of, and is selected from the group be made up of pedometer, photologging equipment, electronic medicine box, sphygomanometer, weighing machine, fat meter, novopen and clinical thermometer.

5. automated wireless conveying type physiological data monitoring system as claimed in claim 1, it is characterized in that, this main detection module more includes the emergency interconnection unit and a display unit that are electrically connected with this CPU.

6. automated wireless conveying type physiological data monitoring system as claimed in claim 1, it is characterized in that, the mode of this long range radio transmissions unit and these servo platform wireless connections is selected from the group be made up of global mobile communication technology, overall radio packet communication technology and code division multiple access communication technology.

7. automated wireless conveying type physiological data monitoring system as claimed in claim 1, it is characterized in that, the wireless transmission method of this first wireless transmission unit and this second wireless transmission unit be selected from accessed by bluetooth, infrared transmission, ZigBee network technology, ultra broadband, home radio, global intercommunication microwave, group that Wireless Fidelity and wireless radio-frequency form.

8. automated wireless conveying type physiological data monitoring system as claimed in claim 1, it is characterized in that, the wireless transmission method of this first wireless transmission unit and this second wireless transmission unit is selected from the group be made up of frequency shift keying modulation tech, amplitude shift keying modulation tech and phase-shift keying (PSK) modulation tech.

9. automated wireless conveying type physiological data monitoring system as claimed in claim 1, it is characterized in that, this main detection module when this detected state, after obtaining a physical detection data by this physiological detection unit, switch to transmission state, open this second wireless transmission unit.

10. automated wireless conveying type physiological data monitoring system as claimed in claim 1, it is characterized in that, this main detection module is when this detected state, after obtaining a physical detection data by this physiological detection unit, switch to transmission state, and close after opening this second wireless transmission unit one time.

11. automated wireless conveying type physiological data monitoring systems as claimed in claim 1, it is characterized in that, this main detection module includes a calling unit, this peripheral module includes a pair should the auditory tone cues unit of calling unit, this calling unit is connected with this CPU, and this auditory tone cues unit is connected with this first wireless transmission unit.

12. 1 kinds of automated wireless conveying type physiological data monitoring systems, is characterized in that, include:

At least one peripheral module, includes one and is electrically connected the first wireless transmission unit of this monitoring means in order to the monitoring means and obtaining a Monitoring Data;

One main detection module, include a CPU, and the physiology detecting unit be electrically connected with this CPU respectively, one second wireless transmission unit, a long range radio transmissions unit, a memory element, this second wireless transmission unit is to should the first wireless transmission unit and carry out wireless data transmission; And

One with the servo platform of these main detection module wireless connections, this main detection module is automatically connected with this servo platform by this long range radio transmissions unit and transmits;

This CPU has not coexistent detected state and a transmission state, this physiological detection unit only can detect when this detected state, and when this transmission state, open this this peripheral module of the second wireless transmission unit automatic searching and carry out wireless connections and data transmission.

13. automated wireless conveying type physiological data monitoring systems as claimed in claim 12, it is characterized in that, this servo platform at least includes exercise data, dietary data, physical detection data and drug use data.

14. automated wireless conveying type physiological data monitoring systems as claimed in claim 12, it is characterized in that, this at least one peripheral module has a plurality of, and is selected from the group be made up of pedometer, photologging equipment, electronic medicine box, sphygomanometer, weighing machine, fat meter, novopen and clinical thermometer.

15. automated wireless conveying type physiological data monitoring systems as claimed in claim 12, is characterized in that, this main detection module more includes the emergency interconnection unit and a display unit that are electrically connected with this CPU.

16. automated wireless conveying type physiological data monitoring systems as claimed in claim 12, it is characterized in that, the mode of this long range radio transmissions unit and these servo platform wireless connections is selected from the group be made up of global mobile communication technology, overall radio packet communication technology and code division multiple access communication technology.

17. automated wireless conveying type physiological data monitoring systems as claimed in claim 12, it is characterized in that, the wireless transmission method of this first wireless transmission unit and this second wireless transmission unit be selected from accessed by bluetooth, infrared transmission, ZigBee network technology, ultra broadband, home radio, global intercommunication microwave, group that Wireless Fidelity and wireless radio-frequency form.

18. automated wireless conveying type physiological data monitoring systems as claimed in claim 12, it is characterized in that, the wireless transmission method of this first wireless transmission unit and this second wireless transmission unit is selected from the group be made up of frequency shift keying modulation tech, amplitude shift keying modulation tech and phase-shift keying (PSK) modulation tech.

19. automated wireless conveying type physiological data monitoring systems as claimed in claim 12, it is characterized in that, this main detection module is when this detected state, after obtaining a physical detection data by this physiological detection unit, switch to transmission state, this peripheral module of automatic searching also carries out wireless connections and data transmission.

20. automated wireless conveying type physiological data monitoring systems as claimed in claim 12, it is characterized in that, this main detection module is when this detected state, after obtaining a physical detection data by this physiological detection unit, switch to transmission state, after this peripheral module one time of automatic searching, then close this second wireless transmission unit.

21. automated wireless conveying type physiological data monitoring systems as claimed in claim 12, it is characterized in that, this main detection module includes a calling unit, this peripheral module includes a pair should the auditory tone cues unit of calling unit, this calling unit is connected with this CPU, and this auditory tone cues unit is connected with this first wireless transmission unit.

The monitoring method of 22. 1 kinds of automated wireless conveying type physiological datas, is characterized in that, this monitoring method carries out a peripheral step and a key step respectively at least one peripheral module and a main detection module, and this peripheral step includes:

P1: obtained by a monitoring means of this peripheral module and record a Monitoring Data;

P2: be arranged at one first wireless transmission unit on this peripheral module by a periodic Control unit unlatching one of this peripheral module;

P3: judge wireless connection conditions, judge this first wireless transmission unit whether with these main detection module wireless connections, if connect, carry out step P4, if do not connect, then directly carry out step P5;

P4: this Monitoring Data is sent to this main detection module by this first wireless transmission unit;

P5: close this first wireless transmission unit, and await orders;

And this key step includes:

S1: make this main detection module be in a detected state, obtains a physical detection data by a physiology detecting unit of this main detection module;

S2: switch this main detection module to transmission state, and open one second wireless transmission unit in this main detection module;

S3: wait to be connected, waits for that this first wireless transmission unit is connected with this second wireless transmission unit, if connect, carries out step S4, if do not connect, then directly carry out step S5;

S4: receive this Monitoring Data;

S5: the long range radio transmissions unit opening this main detection module, line number of going forward side by side reportedly transports to a servo platform;

S6: close this second wireless transmission unit and this long range radio transmissions unit, and switch to this detected state.

The monitoring method of 23. automated wireless conveying type physiological datas as claimed in claim 22, it is characterized in that, this servo platform at least includes exercise data, dietary data, physical detection data and drug use data.

The monitoring method of 24. automated wireless conveying type physiological datas as claimed in claim 22, it is characterized in that, this at least one peripheral module has a plurality of, and is selected from the group be made up of pedometer, photologging equipment, electronic medicine box, sphygomanometer, weighing machine, fat meter, novopen and clinical thermometer.

The monitoring method of 25. 1 kinds of automated wireless conveying type physiological datas, is characterized in that, this monitoring method carries out a peripheral step and a key step respectively at least one peripheral module and a main detection module, and this peripheral step includes:

P1a: obtained by a monitoring means of this peripheral module and record a Monitoring Data;

P2a: wait for and start and connect, waits for the wireless signal of this main detection module and starts one first wireless transmission unit of this peripheral module;

P3a: connect and transmit, by this first wireless transmission unit, this Monitoring Data being sent to this main detection module;

P4a: close this first wireless transmission unit, and await orders;

And this key step includes:

S1a: make this main detection module be in a detected state, obtains a physical detection data by a physiology detecting unit of this main detection module;

S2a: switch this main detection module to transmission state, and open one second wireless transmission unit in this main detection module;

S3a: automatic searching connects, one first wireless transmission unit of this peripheral module of automatic searching, and is attached thereto, if connect, carries out step S4a, if do not connect, then directly carries out step S5a;

S4a: receive this Monitoring Data;

S5a: the long range radio transmissions unit opening this main detection module, line number of going forward side by side reportedly transports to a servo platform;

S6a: close this second wireless transmission unit and this long range radio transmissions unit, and switch to this detected state.

The monitoring method of 26. automated wireless conveying type physiological datas as claimed in claim 25, it is characterized in that, this servo platform at least includes exercise data, dietary data, physical detection data and drug use data.

The monitoring method of 27. automated wireless conveying type physiological datas as claimed in claim 25, it is characterized in that, this at least one peripheral module has a plurality of, and is selected from the group be made up of pedometer, photologging equipment, electronic medicine box, sphygomanometer, weighing machine, fat meter, novopen and clinical thermometer.