CN101357061A - No-electrode line wireless physiological phenomenon description and record system - Google Patents
No-electrode line wireless physiological phenomenon description and record system Download PDFInfo
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- CN101357061A CN101357061A CNA2007100444498A CN200710044449A CN101357061A CN 101357061 A CN101357061 A CN 101357061A CN A2007100444498 A CNA2007100444498 A CN A2007100444498A CN 200710044449 A CN200710044449 A CN 200710044449A CN 101357061 A CN101357061 A CN 101357061A
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Abstract
The invention provides a no-electrode wireless psychological phenomenon describing system, belonging to the field of medical measurement. The no-electrode wireless psychological phenomenon describing system comprises a psychological phenomenon detection module and a detection result recording/output module; the psychological phenomenon detection module comprises a wireless electrode which consists of a power supply, a sensor, a wireless signal transmission unit and an electrode fixed unit; the detection result recording/output module comprises a remote control/display device which consists of a signal sending/receiving unit, an information concentrative processing unit and a psychological signal recording output unit; a portable middle transmission control unit is arranged between the psychological phenomenon detection unit and the detection result recording/output unit; the portable middle transmission control unit comprises a power supply, a wireless signal transmission unit, a control unit and/or a psychological signal recording/display unit. The no-electrode wireless psychological phenomenon describing system has the advantages of integrated wireless electrode, small volume, strong anti-interference capability, and describing the psychological indexes of a plurality of human bodies or human bodies of multi-item or multi-type, and can be widely applied to the field of measurement/monitoring/recording of various medical psychological indexes.
Description
Technical field
The invention belongs to the fields of measurement that is used for diagnostic purpose, relate in particular to a kind of device that is used to measure the human body parts bio signal.
Background technology
Traditional rhythm of the heart/checkout gear is made of with the electrode wire harness that is connected each detector and main frame several (being generally 10~12) adsorption-type detectors (being commonly called as " sucked type electrode "), main frame having an information output apparatus usually.
Its adsorption-type detector is used to detect the various physiological signals (bioelectrical signals) of heart, be transferred to main frame respectively through electrode wires, by main frame with its record, analysis, synthetic, form the waveform of various reflection heart physiological indexs, (for example pass through output device again, oscilloscope device or bound printer) with waveform output, become the information of human readable.
Because the existence of electrode wire harness makes the detected person can only be limited in one in the relatively-stationary scope of main frame distance, if exceed the wire harness length range, then can't detect and monitor.
Along with the continuous development of medical skill, need sometimes the detected person is carried out round-the-clock 24 hours monitoring, whether exist to determine some hidden danger or intermittent heart defect.
For the detected person, will be very inconvenient and difficult as adopting rhythm of the heart/checkout gear traditional, that have the electrode wire harness again this moment, and its testing result also can't reflect detected person's time of day.
The day for announcing is on February 11st, 2004, notification number is the Chinese patent of CN 2602765Y, a kind of " heart beating wireless transmitter structure " disclosed, it is by the body of usheing to seat, loam cake, circuit board, battery and battery cover constitute, wherein, this body of usheing to seat is by housing, two fixing bands and two conduction rubber of this housing left and right sides constitute with integral structure, and every conduction rubber leading portion part directly constitutes the part of this enclosure interior structure, when circuit board is placed in this enclosure interior, the conductive region of circuit board bottom surface directly contacts conduction rubber leading portion part, constitute and closely electrically connect and the good conductive path, and the other parts of every conduction rubber, the fixing band below or the back side under then being coated on, and protrude out in affiliated fixing band outside its bottom surface is exposed are used for contacting user skin and detect heartbeat signal.
Though this technical scheme can realize the wireless transmission of heartbeat signal (real is the beat pulse signal), solved the restricted problem of detected person's range of activity, it is simple that but it detects content, can only detect heartbeat signal singlely, be used for motion detection still can, be used for medical detection and then can not satisfy the demand.
Summary of the invention
Technical problem to be solved by this invention provides a kind of no-electrode line wireless physiological phenomenon description and record system; it is portable; little/miniaturization; no-electrode line; signal stabilization, reliable, but data long transmission distance can be simultaneously, detect/trace/transmit a plurality of (kind) physical signs signal in real time; daily routines to the detected person do not have distance limit, can satisfy the needs of medical detection or monitoring fully.
Technical scheme of the present invention is: a kind of no-electrode line wireless physiological phenomenon description and record system is provided, comprise physiological phenomenon detection module and testing result record/output module, it is characterized in that: described physiological phenomenon detection module comprises a marconigram of being made up of power supply, pick off, wireless signal transmitting unit and electrode fixed cell at least; Described testing result record/output module comprises a Long-distance Control/display device that is made of signal transmission/receiving element, information centralized processing unit and physiological signal record output unit at least; Portable intermediate conveyor control unit is set between described physiological phenomenon detecting unit and testing result record/output unit; Described portable intermediate conveyor control unit comprises power supply, wireless signal transmitting unit, control unit and/or physiological signal recording and displaying unit at least.
Its described marconigram comprises power supply module, wireless signal transmitting unit, pick off, contact electrode at least and is positioned at electrode fixed component on the electrode shell.
Its described pick off is physics, chemistry, biology or biochemical sensors such as vibration type pick off, voltage sensor, current sensor, sound transducer, heat sensor, optical pickocff, pressure transducer, magnetic field sensor, PH pick off, gene expression pick off, protein vigor pick off, oxygen level sensor.
Its described electrode fixed component is soft skirt edge or soft shirt rim.
Its described marconigram is more than two, and between the wireless signal transmitting unit of each marconigram and the portable intermediate conveyor control unit data information exchange takes place respectively and be subjected to the control of portable intermediate conveyor control unit simultaneously respectively.
Perhaps, its described marconigram is more than two, data information exchange wherein takes place between the wireless signal transmitting unit of first marconigram and the portable intermediate conveyor control unit and be subjected to the control of portable intermediate conveyor control unit, the wireless signal transmitting unit of remaining marconigram only and carry out data information exchange between first marconigram and controlled by it.
The power supply of its described marconigram is wafer-type, column type, laminated type or Stackable batteries.
Carry out data information exchange between the wireless signal transmitting unit of its described portable intermediate conveyor control unit and the Long-distance Control/display device;
Carry out the transmission of measurement data/pilot signal between described wireless signal transmitting unit and at least one marconigram;
Described physiological signal recording and displaying unit is a liquid crystal display circuit.
Signal transmission/the receiving element of described Long-distance Control/display device is wired or wireless signal transmission/receiver module;
Described information centralized processing unit is a computer;
Described physiological signal record output unit is image display module, digital display module, sound/optical signal demonstration/alarm module or computer-readable recording medium printout module.
Compared with the prior art, advantage of the present invention is:
1. adopt the system structure of marconigram, portable intermediate conveyor control unit and testing result record/output module, the various Human Physiology measurement/monitor control indexs of wireless tracing that can be three-dimensional, dynamic, real-time/transmit, be convenient to during detected person orthobiosis, (for example carry out corresponding monitoring, can carry out 12 of the no-electrode line surface electrocardiogram that leads traces), get rid of the inconvenient and interference that electrode wires is brought, satisfy the needs of medical measurement;
2. marconigram is set, can realize that detecting electrode and body surface (or even in body) tissue or the tight of internal organs contact, assurance detects/and to trace the result truer, and data distortion is little, simultaneously, be convenient in real time, synchronously carry out multiple spot position, multiple physiological signal detection, trace and record;
3. portable intermediate conveyor control unit is set, helps to increase the coverage of data information exchange, capacity of resisting disturbance improves, and is low to computer access quantity and Capability Requirement, helps to reduce the comprehensive cost and the use cost of whole system;
4. adopt the fixed form of soft skirt edge or shirt rim, can easily marconigram be fixed on needs fixed any position, need not the health care professional operation, and the detected person can carry out remote detection/monitoring easily anywhere.
Description of drawings
Fig. 1 is a system structure sketch map of the present invention;
Fig. 2 is the system structure sketch map of the embodiment of the invention;
Fig. 3 is the plan structure sketch map of marconigram of the present invention;
Fig. 4 is the side-looking structural representation of Fig. 3.
1 is electrode shell among the figure, and 2 is soft shirt rim, and 3 is power supply module, and 4 is wireless signal transmitting unit, and 5 is pick off, and 6 is contact electrode.
The specific embodiment
The present invention will be further described below in conjunction with accompanying drawing.
Among Fig. 1, in the technical program, portable intermediate conveyor control unit is set between physiological phenomenon detecting unit and testing result record/output unit, and its physiological phenomenon detection module comprises a marconigram of being made up of power supply, pick off, wireless signal transmitting unit and electrode fixed cell at least; Its testing result record/output module comprises a Long-distance Control/display device that is made of signal transmission/receiving element, information centralized processing unit and physiological signal record output unit at least.
Its portable intermediate conveyor control unit comprises power supply, wireless signal transmitting unit, control unit and/or physiological signal recording and displaying unit at least.
Described marconigram is more than two, and between the wireless signal transmitting unit of each marconigram and the portable intermediate conveyor control unit data information exchange takes place respectively and be subjected to the control of portable intermediate conveyor control unit simultaneously respectively.
The power supply of marconigram is wafer-type, column type, laminated type or Stackable batteries.
Carry out data information exchange between the wireless signal transmitting unit of portable intermediate conveyor control unit and the Long-distance Control/display device.
Carry out the transmission of measurement data/pilot signal between the wireless signal transmitting unit of portable intermediate conveyor control unit and at least one marconigram.
The physiological signal recording and displaying unit is a liquid crystal display circuit.
Signal transmission/the receiving element of Long-distance Control/display device is wired or wireless signal transmission/receiver module;
The information centralized processing unit is a computer.
Physiological signal record output unit is image display module, digital display module, sound/optical signal demonstration/alarm module or computer-readable recording medium printout module.
Among Fig. 2, described marconigram is more than two, data information exchange wherein takes place between the wireless signal transmitting unit of first marconigram and the portable intermediate conveyor control unit and be subjected to the control of portable intermediate conveyor control unit, the wireless signal transmitting unit of remaining marconigram only and carry out data information exchange between first marconigram and controlled by it.
All the other same Fig. 1.
In Fig. 3 and Fig. 4, its marconigram comprises power supply module 3, wireless signal transmitting unit 4, pick off 5, contact electrode 6 at least and is positioned at electrode fixed component 1 on the electrode shell.
Described pick off is physics, chemistry, biology or biochemical sensors such as vibration type pick off, voltage sensor, current sensor, sound transducer, heat sensor, optical pickocff, pressure transducer, magnetic field sensor, PH pick off, gene expression pick off, protein vigor pick off, oxygen level sensor.
Described electrode fixed component 1 is soft skirt edge or soft shirt rim, be used for marconigram contacting with body surface (or even body is interior) tissue or the tight of internal organs to realize detecting electrode by pasting (when electrode is positioned at body surface) or sewing up (when electrode is positioned at body) at human body surface or intravital internal organs.
Adopt the fixed form of soft skirt edge or shirt rim, can easily marconigram be fixed on needs fixed any position.
Because the present invention has adopted technique scheme, have that marconigram is integrated, volume is little, capacity of resisting disturbance is strong, can trace the advantage of a plurality of, multinomial or multiple human body physical signs simultaneously, adopt different pick offs, can be used to write down cardiac index, audition, intraocular pressure, intranasal PH or various physical signs such as body fluid PH, blood pressure or pulse.
The present invention can be widely used in the measurement/monitoring/record field of various medical physical signs.
Claims (9)
1. a no-electrode line wireless physiological phenomenon description and record system comprises physiological phenomenon detection module and testing result record/output module, it is characterized in that:
Described physiological phenomenon detection module comprises a marconigram of being made up of power supply, pick off, wireless signal transmitting unit and electrode fixed cell at least;
Described testing result record/output module comprises a Long-distance Control/display device that is made of signal transmission/receiving element, information centralized processing unit and physiological signal record output unit at least;
Portable intermediate conveyor control unit is set between described physiological phenomenon detecting unit and testing result record/output unit;
Described portable intermediate conveyor control unit comprises power supply, wireless signal transmitting unit, control unit and/or physiological signal recording and displaying unit at least.
2. according to the described no-electrode line wireless physiological phenomenon description and record system of claim 1, it is characterized in that described marconigram comprises power supply module, wireless signal transmitting unit, pick off, contact electrode at least and is positioned at electrode fixed component on the electrode shell.
3. according to the described no-electrode line wireless physiological phenomenon description and record system of claim 2, it is characterized in that described pick off is physics, chemistry, biology or biochemical sensors such as vibration type pick off, voltage sensor, current sensor, sound transducer, heat sensor, optical pickocff, pressure transducer, magnetic field sensor, PH pick off, gene expression pick off, protein vigor pick off, oxygen level sensor.
4. according to the described no-electrode line wireless physiological phenomenon description and record system of claim 2, it is characterized in that described electrode fixed component is soft skirt edge or soft shirt rim.
5. according to the described no-electrode line wireless physiological phenomenon description and record system of claim 1, it is characterized in that described marconigram is more than two, and between the wireless signal transmitting unit of each marconigram and the portable intermediate conveyor control unit data information exchange takes place respectively and be subjected to the control of portable intermediate conveyor control unit simultaneously respectively.
6. according to the described no-electrode line wireless physiological phenomenon description and record system of claim 1, it is characterized in that described marconigram is more than two, data information exchange wherein takes place between the wireless signal transmitting unit of first marconigram and the portable intermediate conveyor control unit and be subjected to the control of portable intermediate conveyor control unit, the wireless signal transmitting unit of remaining marconigram only and carry out data information exchange between first marconigram and controlled by it.
7. according to the described no-electrode line wireless physiological phenomenon description and record system of claim 1, the power supply that it is characterized in that described marconigram is wafer-type, column type, laminated type or Stackable batteries.
8. according to the described no-electrode line wireless physiological phenomenon description and record system of claim 1, it is characterized in that carrying out data information exchange between the wireless signal transmitting unit of described portable intermediate conveyor control unit and the Long-distance Control/display device;
Carry out the transmission of measurement data/pilot signal between described wireless signal transmitting unit and at least one marconigram;
Described physiological signal recording and displaying unit is a liquid crystal display circuit.
9. according to the described no-electrode line wireless physiological phenomenon description and record system of claim 1, the signal transmission/receiving element that it is characterized in that described Long-distance Control/display device is wired or wireless signal transmission/receiver module;
Described information centralized processing unit is a computer;
Described physiological signal record output unit is image display module, digital display module, sound/optical signal demonstration/alarm module or computer-readable recording medium printout module.
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102274017A (en) * | 2011-05-20 | 2011-12-14 | 吉林大学 | Wireless dynamic electrocardiogram monitoring device and monitoring method based on pure silver nano fibrous membrane |
CN104138256A (en) * | 2013-05-10 | 2014-11-12 | 南方医科大学 | Human body physiological information detection equipment |
CN105068654A (en) * | 2015-08-14 | 2015-11-18 | 济南中景电子科技有限公司 | Motion capturing system and method based on CAN bus and inertial sensor |
CN105982668A (en) * | 2015-02-27 | 2016-10-05 | 联想(北京)有限公司 | Detection system |
WO2018126498A1 (en) * | 2017-01-03 | 2018-07-12 | 江苏鹿得医疗电子股份有限公司 | Leadless standard electrocardiograph |
CN109602397A (en) * | 2019-01-19 | 2019-04-12 | 深圳市全息调频医疗器械有限公司 | Biological information captures storage device |
-
2007
- 2007-08-01 CN CNA2007100444498A patent/CN101357061A/en active Pending
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102274017A (en) * | 2011-05-20 | 2011-12-14 | 吉林大学 | Wireless dynamic electrocardiogram monitoring device and monitoring method based on pure silver nano fibrous membrane |
CN104138256A (en) * | 2013-05-10 | 2014-11-12 | 南方医科大学 | Human body physiological information detection equipment |
CN105982668A (en) * | 2015-02-27 | 2016-10-05 | 联想(北京)有限公司 | Detection system |
CN105068654A (en) * | 2015-08-14 | 2015-11-18 | 济南中景电子科技有限公司 | Motion capturing system and method based on CAN bus and inertial sensor |
CN105068654B (en) * | 2015-08-14 | 2018-05-25 | 济南中景电子科技有限公司 | Action capture systems and method based on CAN bus and inertial sensor |
WO2018126498A1 (en) * | 2017-01-03 | 2018-07-12 | 江苏鹿得医疗电子股份有限公司 | Leadless standard electrocardiograph |
CN109602397A (en) * | 2019-01-19 | 2019-04-12 | 深圳市全息调频医疗器械有限公司 | Biological information captures storage device |
CN109602397B (en) * | 2019-01-19 | 2024-03-12 | 深圳市全息调频医疗器械有限公司 | Biological information capturing and storing device |
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Application publication date: 20090204 |