CN2569743Y - Domestic artificial intelligent electrocardiographic monitoring device combined with computer - Google Patents
Domestic artificial intelligent electrocardiographic monitoring device combined with computer Download PDFInfo
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- CN2569743Y CN2569743Y CN02260439U CN02260439U CN2569743Y CN 2569743 Y CN2569743 Y CN 2569743Y CN 02260439 U CN02260439 U CN 02260439U CN 02260439 U CN02260439 U CN 02260439U CN 2569743 Y CN2569743 Y CN 2569743Y
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Abstract
The utility model relates to a domestic artificial intelligent electrocardiogram monitoring device combined with a computer, which comprises an electrocardiogram electrode arranged in a human body. The utility model is characterized in that the utility model also comprises a pair of electrocardiogram remote measuring device used for receiving and processing electrocardiogram electrode signals; each electrocardiogram remote measuring device is composed of an electrocardiogram amplifier, an automatic tracking and modulating system, and a wireless emitting system; a remote measuring receiver carrying out signal connection with the electrocardiogram remote measuring device is composed of a wireless receiving circuit, an electrocardiogram signal demodulation circuit, and a general serial bus interface of a receiver; the general serial bus interface is used for sending signals to a domestic computer having an electrocardiogram signal software analyzing system to be analyzed and provide a consultation report to a cardiopathy patient. On the basis of the conventional electrocardiogram detection, the utility model combines electrocardiogram monitor with a computer, arranges the electrocardiogram signal receiver and the remote measuring device on a chip so as to form an electrode, forms an artificial intelligent monitoring device through the receiver and the domestic computer, and thus, causes people to carry out electrocardiogram monitor at any time and obtain the consultation report.
Description
Technical field
A kind of cardiac monitoring system of this utility model time relates in particular to and a kind ofly can combine and form on this basis the cardiac monitoring signal with household PC and receive the electrocardio artificial intelligence monitor device that the household PC of electrocardio consulting is carried out in the website.
Background technology
Along with the raising of aged tendency of population and people's lives, cardiovascular morbidity is progressively increased, and has become the principal disease that threatens human health.
The early stage characteristics of heart disease are: often manifest property of short duration, paroxysmal cardiopalmus, nervous and uncomfortable in chest, if the early stage untimely treatment of heart disease, the state of an illness develops aggravation, causes angina pectoris, myocardial infarction.For early diagnosis, control the convulsion cardiovascular diseases in early days, " cardiac monitoring " become one of current very important medical skill measure at present.Be hundreds of millions patients' destiny, and take rapidly, effectively, heart disease monitoring easily is human important health reassurances.
Routine electrocardiogram is born nearly 100 anniversaries, become to detect cardiopathic reliable and recognized techniques, but just relatively more difficult to property of short duration, paroxysmal ARR diagnosis.In the six's of twentieth century, begin to adopt 24 hr Ambulatory EKG Monitoring and phone electrocardiogram, the heart patient is guarded, obtain gratifying achievements, and apply in each hospital, if but can allow the heart patient in the own home, carry out cardiac monitoring, will improve the coverage rate of monitoring greatly, various arrhythmia of discovery that can be more early stage thus are for preventing early and treatment provides scientific basis.
In the prior art, the monitor device that can allow the heart patient carry out cardiac monitoring in the own home has: computerized family electrocardio blood pressure monitoring device and watch style electrocardiograph.
The electrocardio blood pressure monitoring device research of computerized family, its mentality of designing is the ward mornitoring device to be moved in the family guard, and with institute's detected electrocardiosignal of monitoring and blood pressure values, is sent to the monitoring center of hospital with phone, please guard the doctor at center, diagnose and handle.Though this monitor device can reach its intended purposes in theory, promptly allow the heart patient in the own home, carry out cardiac monitoring, but, because the price of every cover monitor device is very expensive, apply because of being difficult at last, thereby can not really realize allowing the heart patient in the own home, can both carry out the hope of cardiac monitoring whenever and wherever possible.
Watch style electrocardiograph, its advantage be, the watch style electrocardiograph is worn on hand, just can be observed the EGC pattern in the certain limit; Its shortcoming is, one, the price comparison costliness, every about 1000 dollars, two, though the watch style electrocardiograph can be worn over the EGC pattern that just can be observed on hand in the certain limit, but because therefore the discharger and the network of no electrocardiosignal can not in time obtain the doctor of division of cardiology consulting and diagnosis thereof and processing, and, because patient is ignorant of EGC pattern, so the cardiac monitoring of this watch style electrocardiograph value is subjected to certain limitation.
Summary of the invention
The purpose of this utility model is to provide a kind of electrocardio artificial intelligence monitor device of improved household PC, it can occur can not carrying out cardiac monitoring whenever and wherever possible by heart in good time, detect on the basis at routine electrocardiogram, cardiac monitoring combined with household PC carries out the consulting of networked medical science, for cardiopathic rapidly, effectively, monitoring easily and diagnoses and treatment in time provide new means.
The purpose of this utility model is achieved in that
A kind of electrocardio artificial intelligence monitor device of household PC comprises: the electrocardioelectrode that is placed in human detection position skin surface; Be characterized in also comprising:
A pair ofly be positioned at electrocardioelectrode is gathered on the human body skin signal and receive with the cardiac telemetry device of handling, and carry out the telemetry receiver that signal is connected, signal is delivered to household PC with electrocardiosignal software analysis system by USB with the cardiac telemetry device.
In the electrocardio artificial intelligence monitor device of above-mentioned household PC, wherein, described cardiac telemetry device comprises, an ecg amplifier, and what be connected with ecg amplifier is from the motion tracking modulating system, is wireless transmit with what be connected from the motion tracking modulating system; Wherein, described ecg amplifier is by the first via ecg amplifier and the second road ecg amplifier.
In the electrocardio artificial intelligence monitor device of above-mentioned household PC, wherein, described first via ecg amplifier comprises:
The defibrillation holding circuit, this defibrillation holding circuit is connected with electrocardiosignal 1, is made up of resistance R 116,139 and discharge diode F101, AF102;
Buffer circuits after this buffer circuits is arranged on the defibrillation holding circuit, is made up of two operational amplifier U101B, U102A and four diode D101 to D104;
Pre-amplification circuit after this pre-amplification circuit is arranged on buffer circuits, is made up of operational amplifier U101D and potentiometer W101;
The pacemaker impulse circuit after this pacemaker impulse circuit is arranged on pre-amplification circuit, is made up of two diode D105, D106 and capacitor C 104,105;
Time constant circuit after this time constant circuit is arranged on the pacemaker impulse circuit, is made up of capacitor C 103, resistance R 136 and R107;
The screen layer drive circuit, this screen layer drive circuit is connected with buffer circuits with electrocardiosignal 1, is made up of operational amplifier U101C and inductance L 101;
The high resistant amplifier circuit, this high resistant amplifier circuit is connected with time constant circuit, and U102A forms by operational amplifier;
50 hertz of active twin-T network circuit after these 50 hertz active twin-T network circuit are arranged on the high resistant amplifier circuit, are made up of operational amplifier U102B, resistance R 117 to R120, capacitor C 109 to C112;
Back limit width of cloth holding circuit after this back limit width of cloth holding circuit is arranged on 50 hertz of active twin-T network circuit, is made up of operational amplifier U102C, resistance R 140 and R141;
Automatic anti-shift circuit, this automatic anti-shift circuit is connected with 50 hertz of active twin-T network circuit with time constant circuit, is made up of operational amplifier U102D, two diode D111, D112 and fet Q101;
Back limit width of cloth holding circuit, this back limit width of cloth holding circuit is made up of operational amplifier U102C, resistance R 140, R141.
Electric source filter circuit, it is made up of inductance L 102, L103 and capacitor C 18 to C21.
In the electrocardio artificial intelligence monitor device of above-mentioned household PC, wherein, described the second road ecg amplifier comprises:
The defibrillation holding circuit, this defibrillation holding circuit is connected with electrocardiosignal 2, is made up of resistance R 147,148 and discharge diode F103, F104;
Buffer circuits after this buffer circuits is arranged on the defibrillation holding circuit, is made up of two operational amplifier U106E, U106A and four diode D115, D116, D118, D119;
Pre-amplification circuit after this pre-amplification circuit is arranged on buffer circuits, is made up of operational amplifier U106D and potentiometer W103;
The pacemaker impulse circuit after this pacemaker impulse circuit is arranged on pre-amplification circuit, is made up of two diode D121, D122 and capacitor C 131,143;
Time constant circuit after this time constant circuit is arranged on the pacemaker impulse circuit, is made up of capacitor C 132, resistance R 144, R165;
The screen layer drive circuit, this screen layer drive circuit is connected with buffer circuits with electrocardiosignal, is made up of operational amplifier U106C and inductance L 106;
The high resistant amplifier circuit, this high resistant amplifier circuit is connected with time constant circuit, and U107A forms by operational amplifier;
50 hertz of active twin-T network circuit after these 50 hertz active twin-T network circuit are arranged on the high resistant amplifier circuit, are made up of operational amplifier U107B, resistance R 176 to R179, capacitor C 133, C144 and C137, C138;
Back limit width of cloth holding circuit after this back limit width of cloth holding circuit is arranged on 50 hertz of active twin-T network circuit, is made up of operational amplifier U101D, resistance R 181 and R182;
Automatic anti-shift circuit, this automatic anti-shift circuit is connected with 50 hertz of active twin-T network circuit with time constant circuit, is made up of operational amplifier U107D, two diode D114, D126 and fet Q102;
Back limit width of cloth holding circuit, this back limit width of cloth holding circuit is made up of amplifier U107C, resistance R 181, R182.
Electric source filter circuit, it is made up of inductance L 104, L105 and capacitor C 45 to C48.
In the electrocardio artificial intelligence monitor device of above-mentioned household PC, wherein, being made up of a single chip circuit from the motion tracking modulating system in the described cardiac telemetry device, the input of this single chip circuit is connected with ecg amplifier; Wireless transmit in the described cardiac telemetry device is made up of the emission special module, and the input of this emission special module is connected with the outfan from the motion tracking modulating system.
In the electrocardio artificial intelligence monitor device of above-mentioned household PC, wherein, described telemetry receiver comprises, a wireless receiving circuit, this wireless receiving circuit is formed by receiving special module, it with the cardiac telemetry device in the emission special module of radio transmitter be signal and be connected; What be connected with wireless receiving circuit is an electrocardiosignal demodulator circuit; Receive electrocardiosignal demodulator circuit signal and what it was sent is a receptor standard universal serial bus interface.
In the electrocardio artificial intelligence monitor device of above-mentioned household PC, wherein, one computer standard universal serial bus interface is set in the described household PC, this computer standard universal serial bus interface is connected with receptor standard universal serial bus interface in the telemetry receiver, and signal delivered to electrocardiosignal software analysis system, household PC is connected with telephone wire.
The electrocardio artificial intelligence monitor device of this utility model household PC owing to adopted above-mentioned technical scheme, makes it to compare with the computerized family of prior art electrocardio blood pressure monitoring device, has following advantage and good effect:
1. this utility model owing to be with the electrocardiosignal receiving unit circuit of electrocardioelectrode with the electrocardiosignal receiving circuit of electrocardioelectrode and the ecg amplifier circuit in the cardiac telemetry device, from motion tracking modulation circuit, radio transmitter is arranged on the chip integratedly, make miniature special use " cardiac monitoring emission remote measurement electrode chip ", form unique electrode form, form new electrocardio artificial intelligence monitor device by telemetry receiver and household PC, and set up the cardiac monitoring signal to receive the website on this basis; Therefore not in good time when going out heart, can can carry out cardiac monitoring whenever and wherever possible, and the cardiac monitoring signal receives networking is in time carried out in the website to the electrocardiosignal that is taken place medical science consultancy service, therefore just as the doctor of division of cardiology with oneself, thereby can provide effective means for the timely diagnoses and treatment of heart disease human heart malaise symptoms;
2. the realization of technical solutions of the utility model can become nearly hundred million electrocardiogram monitor simultaneously again with at present global nearly hundred million computers, resemble the doctor of division of cardiology at any time with you, therefore can carry out cardiac monitoring rapidly, effectively, easily, thereby provide more favourable guarantee for human beings'health;
3. this utility model combines cardiac monitoring and carries out networked medical science consulting owing to detect on the basis at routine electrocardiogram with household PC, for cardiopathic timely diagnoses and treatment provides new means, also will produce huge economic benefit simultaneously.
Description of drawings
Embodiment by following electrocardio artificial intelligence monitor device to this utility model household PC can further understand the purpose of this utility model, specific structural features and advantage in conjunction with the description of its accompanying drawing.Wherein, accompanying drawing is:
Fig. 1 is the electrocardio artificial intelligence monitor device processing procedure FB(flow block) according to the household PC that the utility model proposes;
Fig. 2 is an ecg amplifier circuit diagram in the electrocardio artificial intelligence monitor device cardiac telemetry device of this utility model household PC;
Fig. 3 is an ecg amplifier part block diagram among Fig. 2;
Fig. 4 is the electrical schematic diagram of first via ecg amplifier among Fig. 2 and Fig. 3;
Fig. 5 is the electrical schematic diagram of the second road ecg amplifier among Fig. 2 and Fig. 3;
Fig. 6 is from motion tracking modulating system and wireless transmit partial circuit figure in the electrocardio artificial intelligence monitor device cardiac telemetry device of this utility model household PC;
Fig. 7 is wireless receiving partial circuit figure in the electrocardio artificial intelligence monitor device telemetry receiver of this utility model household PC;
Fig. 8 is an electrocardiosignal software analysis system block diagram in the electrocardio artificial intelligence monitor device of this utility model household PC;
Fig. 9 is the conventional twelve-lead electrocardiogram electrode of a human body installation position sketch map;
Figure 10 is human body routine three five the ECG electrode installation position sketch maps that lead;
Figure 11 is the miniature cardiac monitoring chip of the singlehanded tabular form of an electrocardioelectrode installation position sketch map;
Figure 12 is the miniature cardiac monitoring chip of an electrocardioelectrode both hands tabular form installation position sketch map;
Figure 13 is a card form cardiac monitoring electrode installation position sketch map;
Figure 14 is a card form cardiac monitoring telemeter structural representation.
The specific embodiment
See also shown in Figure 1ly, this is the electrocardio artificial intelligence monitor device processing procedure FB(flow block) of this utility model household PC.The electrocardio artificial intelligence monitor device of this utility model household PC is placed in the electrocardioelectrode 10 of human detection position skin surface, and this electrocardioelectrode 10 is in order to obtain patient's electrocardiosignal; What be connected with electrocardioelectrode 10 is an electrocardio telemeter 20, this cardiac telemetry device 20 comprises, one ecg amplifier 21, what be connected with ecg amplifier 21 is from motion tracking modulating system 22, with what be connected from motion tracking modulating system 22 is wireless transmit 23, in order to receive and to handle being positioned at the signal that electrocardioelectrode 10 is gathered on the human body skin; Carry out the telemetry receiver 30 that signal is connected with cardiac telemetry device 20, this telemetry receiver 30 comprises, one wireless receiving circuit 31, this wireless receiving circuit 31 is formed by receiving special module, it with cardiac telemetry device 20 in the emission special module of radio transmitter 23 be signal and be connected; What be connected with wireless receiving circuit 31 is an electrocardiosignal demodulator circuit 32; Receive electrocardiosignal demodulator circuit 32 signals and what it was sent is a receptor standard universal serial bus USB interface 33,, and signal is delivered to technician's computer 40 by phone in order to the patient's that receives electrocardiosignal; One computer standard universal serial bus USB interface 41 is set in the household PC 40, this computer standard universal serial bus USB interface 41 is connected with receptor standard universal serial bus USB interface 33 in the telemetry receiver 30, and signal delivered to electrocardiosignal software analysis system 42, household PC 40 also is connected with telephone wire, in order to receiving patient or person under inspection's consulting, and the consultancy service report is proposed to patient or person under inspection.
Please in conjunction with Fig. 1 referring to shown in Figure 2, this is an ecg amplifier circuit diagram in the electrocardio artificial intelligence monitor device cardiac telemetry device of this utility model household PC.Among Fig. 2, U104 and U105 are power supply chips, and in the present embodiment, what this power supply chip adopted is two power supply chips that model is UA7808UC, exports positive and negative 8 volts power supply, provide ecg amplifier 21 work; Ecg amplifier 21 is made up of the first via ecg amplifier and the second road ecg amplifier.
Please in conjunction with Fig. 2 referring to Fig. 3 and shown in Figure 4, they are respectively the electrical schematic diagrams of middle ecg amplifier part block diagram and first via ecg amplifier.Described first via ecg amplifier comprises: the defibrillation holding circuit, and this defibrillation holding circuit is connected with electrocardiosignal 1, is made up of resistance R 116,139 and discharge diode F101, F102, is used to receive the signal from electrocardiosignal 1; Buffer circuits after this buffer circuits is arranged on the defibrillation holding circuit, is made up of two operational amplifier U101B, U102A and four diode D101 to D104, and its effect is to the high voltage short circuit, with the operate as normal of protection integrated circuit; Pre-amplification circuit after this pre-amplification circuit is arranged on buffer circuits, is made up of operational amplifier U101D and potentiometer W101, mixes amplification in order to polarizing voltage and the electrocardiosignal that will be received; The pacemaker impulse circuit after this pacemaker impulse circuit is arranged on pre-amplification circuit, is made up of two diode D105, D106 and capacitor C 104,105, and its effect is that suppressor pulse prevents that the back utmost point from blocking; Time constant circuit after this time constant circuit is arranged on the pacemaker impulse circuit, is made up of capacitor C 103, resistance R 136, R107, and its effect is the decision low-frequency range; Screen layer drive circuit, this screen layer drive circuit are connected with buffer circuits by operational amplifier U101C and inductance L 101 with electrocardiosignal 1 and form, and its effect is to suppress external interfering signal; The high resistant amplifier circuit, this high resistant amplifier circuit is connected with time constant circuit, and U102A forms by operational amplifier, and its effect is to guarantee that the time constant of high impedance amplifier is unaffected; 50 hertz of active twin-T network circuit after these 50 hertz active twin-T network circuit are arranged on the high resistant amplifier circuit, are made up of operational amplifier U102B, resistance R 117 to R120, capacitor C 109 to C112; Back limit width of cloth holding circuit after this back limit width of cloth holding circuit is arranged on 50 hertz of active twin-T network circuit, is made up of operational amplifier U102C, resistance R 140 and R141, and its effect is to suppress 50 hertz of interfering signals; Automatic anti-shift circuit, this automatic anti-shift circuit is connected with 50 hertz of active twin-T network circuit with time constant circuit, form by operational amplifier U102D, two diode D111, D112 and fet Q101, its effect is, when drift is very big, electrocardiosignal is returned to the normal position very soon; Back limit width of cloth holding circuit, this back limit width of cloth holding circuit is made up of operational amplifier U102C, resistance R 140, R141, and its effect is that protection back limit width of cloth holding circuit A/D converter input voltage is no more than certain limit; Electric source filter circuit, it is made up of inductance L 102, L103 and capacitor C 18 to C21.
Please in conjunction with Fig. 2 referring to Fig. 3 and shown in Figure 5, they are respectively the electrical schematic diagrams of the middle ecg amplifier part block diagram and the second road ecg amplifier.The ingredient of described the second road ecg amplifier is consistent with the second road ecg amplifier, its action principle is also identical, comprise: the defibrillation holding circuit, this defibrillation holding circuit is connected with electrocardiosignal 2, is made up of resistance R 147,148 and discharge diode F103, F104; Buffer circuits after this buffer circuits is arranged on the defibrillation holding circuit, is made up of two operational amplifier U106E, U106A and four diode D115, D116, D118, D119; Pre-amplification circuit after this pre-amplification circuit is arranged on buffer circuits, is made up of operational amplifier U106D and potentiometer W103; The pacemaker impulse circuit after this pacemaker impulse circuit is arranged on pre-amplification circuit, is made up of two diode D121, D122 and capacitor C 131,143; Time constant circuit after this time constant circuit is arranged on the pacemaker impulse circuit, is made up of capacitor C 132, resistance R 144, R165; The screen layer drive circuit, this screen layer drive circuit is connected with buffer circuits with electrocardiosignal, is made up of operational amplifier U106C and inductance L 106; The high resistant amplifier circuit, this high resistant amplifier circuit is connected with time constant circuit, and U107A forms by operational amplifier; 50 hertz of active twin-T network circuit after these 50 hertz active twin-T network circuit are arranged on the high resistant amplifier circuit, are made up of operational amplifier U107B, resistance R 176 to R179, capacitor C 133, C144 and C137, C138; Back limit width of cloth holding circuit after this back limit width of cloth holding circuit is arranged on 50 hertz of active twin-T network circuit, is made up of operational amplifier U101D, resistance R 181 and R182; Automatic anti-shift circuit, this automatic anti-shift circuit is connected with 50 hertz of active twin-T network circuit with time constant circuit, is made up of operational amplifier U107D, two diode D114, D126 and fet Q102; Back limit width of cloth holding circuit, this back limit width of cloth holding circuit is made up of amplifier U107C, resistance R 181, R182.Electric source filter circuit, it is made up of inductance L 104, L105 and capacitor C 45 to C48.
Please in conjunction with Fig. 1 referring to shown in Figure 6, this is from motion tracking modulating system and wireless transmit partial circuit figure in the electrocardio artificial intelligence monitor device cardiac telemetry device of this utility model household PC.Described cardiac telemetry device 20 also comprises from motion tracking modulating system 22 and radio transmitter 23, form by a single chip circuit from motion tracking modulating system 22, the input of this single chip circuit is connected with ecg amplifier 21, the electrocardiosignal of reception after the ecg amplifier analog digital conversion, carry out from the motion tracking modulation treatment, and the electrocardiosignal after will handling is delivered to radio transmitter 23; This radio transmitter 23 is made up of emission special module SB2002-1F, the input of this emission special module SB2002-1F is connected with the outfan from motion tracking modulating system 22, be received from the electrocardiosignal that motion tracking modulating system 22 is sent here, and it is delivered to telemetry receiver 30.
Please in conjunction with Fig. 1 referring to shown in Figure 7, this is wireless receiving partial circuit figure in the electrocardio artificial intelligence monitor device telemetry receiver of this utility model household PC.Wireless receiving circuit 31 in the described telemetry receiver 30 is formed by receiving special module SB2002-1S, and this receives special module SB2002-1S composition and is connected with the emission special module SB2002-1F signal of radio transmitter 23 in the cardiac telemetry device 20.
Please in conjunction with Fig. 1 referring to shown in Figure 8, this is an electrocardiosignal software analysis system block diagram in the electrocardio artificial intelligence monitor device of this utility model household PC.Described electrocardiosignal software analysis system comprises that a top control module is provided with input module and communication thereof, identification module and artificial intelligence module thereof and interactive editor's module, analysis module, display module print module under this top control module; In this utility model, electrocardiosignal software analysis system can also be arranged in the cardiac monitoring computer analysis center, and can be connected with telemetry receiver 30 by telephone wire and relevant interface thereof, in order to received electrocardiosignal is carried out Clinical and Pathological Analysis, and provide the person under inspection analysis report.
Please in conjunction with Fig. 1 referring to Fig. 9 and shown in Figure 10, they are respectively conventional twelve-lead electrocardiogram electrode installation position sketch map of human body and human body routine three five the ECG electrode installation position sketch maps that lead.
This utility model is with the electrocardiosignal receiving unit circuit of electrocardioelectrode with the ecg amplifier circuit in the cardiac telemetry device 20, from motion tracking modulation circuit, radio transmitter and is arranged on the chip integratedly, makes miniature special use " cardiac monitoring emission remote measurement electrode chip " (hereinafter to be referred as " miniature cardiac monitoring chip "); Thus, form unique electrode form, the shape of electrode can be various, and in the present embodiment, what electrode adopted is 25 mm dias, 2 millimeters thickness circles, as the shape of a circle Renminbi coin size.
The setting of electrode has unique form, uses the wrist-watch drain pan, or gathers electrocardiosignal with electrocardio electrode slice, sheet metal or electrically conductive graphite electrode, non-stickup graphite plastic electrocardioelectrode and rubber graphite heart electrode under the wrist-watch drain pan.
The form of electrocardioelectrode can have following:
1. singlehanded tabular form.See also shown in Figure 11ly, this is the miniature cardiac monitoring chip of the singlehanded tabular form of an electrocardioelectrode installation position sketch map; Prepare the watch style electrocardioelectrode, comprise ecg amplifier in power supply, electrocardioelectrode, the cardiac telemetry device 20 in it,, make watch style (chip) from motion tracking modulation, radio transmitter electrocardioelectrode and ecg amplifier and cardiac telemetry emitter.The positive pole of watch style electrode is placed left hand wrist-watch drain pan, and negative pole places right oxter, intermediate connection;
2. both hands tabular form.See also shown in Figure 12ly, this is the miniature cardiac monitoring chip of an electrocardioelectrode both hands tabular form installation position sketch map; Prepare to comprise in it power supply, positive and negative electrode, ecg amplifier, from the watch style electrocardioelectrode of motion tracking modulation, radio transmitter, the positive pole of electrode places left hand wrist-watch drain pan, negative pole places right hand wrist-watch drain pan, and the line that leads is across cervical region, and the wrist-watch of connection both hands;
3. card form.See also Figure 13 and shown in Figure 14, they are respectively card form cardiac monitoring electrode installation position sketch map and card form cardiac monitoring telemeter structural representation.With power supply, positive and negative electrode, ecg amplifier, be integrated in an area and be about 50-75mm * 90-120mm from motion tracking modulation, radio transmitter, thickness is in 1-10mm card (chip); The front has liquid crystal can show electrocardiosignal and EGC pattern, and reverse side (contact human body skin face) has three and/or four electrodes (protuberance 3-4mm), and this card is placed front skin.
See also Fig. 8 to Figure 10, in this utility model, also can be when special-purpose electrocardiosignal software carries out the remote measurement reception of electrocardiosignal and analyzing and processing without the remote measurement electrocardiosignal, but be input in the household PC and go with Fig. 8, conventional electrocardiosignal on line shown in Figure 9, when pressing a certain button of computer, can on the screen of computer, demonstrate the electrocardiogram wave mode; Also can after 3-5 foreign language prompting in the reuse after time second, its content is:
1. normal ECG; 2. roughly normal electrocardio electrograph; 3. electrocardiogram has certain variation, but need repeat monitoring again; 4. may have electrocardiographic abnormality, cardiologist outpatient service or consulting are asked in suggestion; 5. critical heart disease possibility is arranged, please arrive the hospital emergency inspection immediately; 6. electrocardiogram is sent to special-purpose doctor's convulsion website consulting.Medical web site is beamed back short message or phone, tells electrocardiographic monitoring and diagnostic result (also can be oral direct-dial telephone contact consultancy service); 7. the clinical electrocardio software analysis system of dedicated web site.At this moment, because a large amount of electrocardiosignaies passes to the website, fully by the artificial judgment analysis, not only waste time and energy, and, will incur loss through delay the opportunity that gives emergency treatment to a patient owing to can not in time diagnose, therefore computer software analysis and clinicist's analysis must be combined, can a large amount of ecg informations be born by computer software than being easier to thus, and, carry out the analysis report (see figure 8) by the experienced specialist of clinical division of cardiology with the inconvenient EGC pattern of minority computer for analysis.
In sum, the electrocardio artificial intelligence monitor device of this utility model household PC, detect on the basis at routine electrocardiogram, the technical scheme that unique cardiac monitoring combines with computer has been proposed, electrocardiosignal receiving unit circuit and cardiac telemetry device are arranged on the electrode that forms uniqueness on the chip, form new electrocardio artificial intelligence monitor device by telemetry receiver and household PC, and set up the cardiac monitoring signal to receive the website on this basis; Therefore not in good time when going out heart, can can carry out cardiac monitoring whenever and wherever possible, and the cardiac monitoring signal receives networking is in time carried out in the website to the electrocardiosignal that is taken place medical science consultancy service, therefore just as the doctor of division of cardiology with oneself, thereby can provide effective means for the timely diagnoses and treatment of heart disease human heart malaise symptoms, for human beings'health provides more favourable guarantee, also will produce huge economic benefit simultaneously, therefore very practical.
Claims (7)
1. the electrocardio artificial intelligence monitor device of a household PC comprises: the electrocardioelectrode (10) that is placed in human detection position skin surface; It is characterized in that also comprising:
A pair ofly be positioned at signal that electrocardioelectrode on the human body skin (10) gathered and receive with the cardiac telemetry device of handling (20), and carry out the telemetry receiver (30) that signal is connected, signal is delivered to household PC (40) with electrocardiosignal software analysis system (42) by USB with cardiac telemetry device (20).
2. the electrocardio artificial intelligence monitor device of household PC as claimed in claim 1, it is characterized in that: described cardiac telemetry device (20) comprises, one ecg amplifier (21), what be connected with ecg amplifier (21) is from motion tracking modulating system (22), is wireless transmit (23) with what be connected from motion tracking modulating system (22); Wherein, described ecg amplifier (21) is by first via ecg amplifier (211) and the second road ecg amplifier (212).
3. the electrocardio artificial intelligence monitor device of household PC as claimed in claim 2, it is characterized in that: described first via ecg amplifier (211) comprising:
The defibrillation holding circuit, this defibrillation holding circuit is connected with electrocardiosignal 1, is made up of resistance R 116,139 and discharge diode F101, AF102;
Buffer circuits after this buffer circuits is arranged on the defibrillation holding circuit, is made up of two operational amplifier U101B, U102A and four diode D101 to D104;
Pre-amplification circuit after this pre-amplification circuit is arranged on buffer circuits, is made up of operational amplifier U101D and potentiometer W101;
The pacemaker impulse circuit after this pacemaker impulse circuit is arranged on pre-amplification circuit, is made up of two diode D105, D106 and capacitor C 104,105;
Time constant circuit after this time constant circuit is arranged on the pacemaker impulse circuit, is made up of capacitor C 103, resistance R 136 and R107;
The screen layer drive circuit, this screen layer drive circuit is connected with buffer circuits with electrocardiosignal 1, is made up of operational amplifier U101C and inductance L 101;
The high resistant amplifier circuit, this high resistant amplifier circuit is connected with time constant circuit, and U102A forms by operational amplifier;
50 hertz of active twin-T network circuit after these 50 hertz active twin-T network circuit are arranged on the high resistant amplifier circuit, are made up of operational amplifier U102B, resistance R 117 to R120, capacitor C 109 to C112;
Back limit width of cloth holding circuit after this back limit width of cloth holding circuit is arranged on 50 hertz of active twin-T network circuit, is made up of operational amplifier U102C, resistance R 140 and R141;
Automatic anti-shift circuit, this automatic anti-shift circuit is connected with 50 hertz of active twin-T network circuit with time constant circuit, is made up of operational amplifier U102D, two diode D111, D112 and fet Q101;
Back limit width of cloth holding circuit, this back limit width of cloth holding circuit is made up of operational amplifier U102C, resistance R 140, R141.
Electric source filter circuit, it is made up of inductance L 102, L103 and capacitor C 18 to C21.
4. the electrocardio artificial intelligence monitor device of household PC as claimed in claim 2, it is characterized in that: described the second road ecg amplifier (212) comprising:
The defibrillation holding circuit, this defibrillation holding circuit is connected with electrocardiosignal 2, is made up of resistance R 147,148 and discharge diode F103, F104;
Buffer circuits after this buffer circuits is arranged on the defibrillation holding circuit, is made up of two operational amplifier U106E, U106A and four diode D115, D116, D118, D119;
Pre-amplification circuit after this pre-amplification circuit is arranged on buffer circuits, is made up of operational amplifier U106D and potentiometer W103;
The pacemaker impulse circuit after this pacemaker impulse circuit is arranged on pre-amplification circuit, is made up of two diode D121, D122 and capacitor C 131,143;
Time constant circuit after this time constant circuit is arranged on the pacemaker impulse circuit, is made up of capacitor C 132, resistance R 144, R165;
The screen layer drive circuit, this screen layer drive circuit is connected with buffer circuits with electrocardiosignal, is made up of operational amplifier U106C and inductance L 106;
The high resistant amplifier circuit, this high resistant amplifier circuit is connected with time constant circuit, and U107A forms by operational amplifier;
50 hertz of active twin-T network circuit after these 50 hertz active twin-T network circuit are arranged on the high resistant amplifier circuit, are made up of operational amplifier U107B, resistance R 176 to R179, capacitor C 133, C144 and C137, C138;
Back limit width of cloth holding circuit after this back limit width of cloth holding circuit is arranged on 50 hertz of active twin-T network circuit, is made up of operational amplifier U101D, resistance R 181 and R182;
Automatic anti-shift circuit, this automatic anti-shift circuit is connected with 50 hertz of active twin-T network circuit with time constant circuit, is made up of operational amplifier U107D, two diode D114, D126 and fet Q102;
Back limit width of cloth holding circuit, this back limit width of cloth holding circuit is made up of amplifier U107C, resistance R 181, R182.
Electric source filter circuit, it is made up of inductance L 104, L105 and capacitor C 45 to C48.
5. the electrocardio artificial intelligence monitor device of household PC as claimed in claim 2, it is characterized in that: being made up of a single chip circuit from motion tracking modulating system (22) in the described cardiac telemetry device (20), the input of this single chip circuit is connected with ecg amplifier (21); Wireless transmit (23) in the described cardiac telemetry device (20) is made up of the emission special module, and the input of this emission special module is connected with the outfan from motion tracking modulating system (22).
6. the electrocardio artificial intelligence monitor device of household PC as claimed in claim 1, it is characterized in that: described telemetry receiver (30) comprises, one wireless receiving circuit (31), this wireless receiving circuit (31) is formed by receiving special module, and it is signal with the emission special module of the middle radio transmitter (23) of cardiac telemetry device (20) and is connected; What be connected with wireless receiving circuit (31) is an electrocardiosignal demodulator circuit (32); Receive electrocardiosignal demodulator circuit (32) signal and what it was sent is a receptor standard universal serial bus interface (33).
7. the electrocardio artificial intelligence monitor device of household PC as claimed in claim 1, it is characterized in that: a computer standard universal serial bus interface (41) is set in the described household PC (40), this computer standard universal serial bus interface (41) is connected with receptor standard universal serial bus interface (33) in the telemetry receiver (30), and signal delivered to electrocardiosignal software analysis system (42), household PC (40) is connected with telephone wire.
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CN02260439U CN2569743Y (en) | 2002-09-29 | 2002-09-29 | Domestic artificial intelligent electrocardiographic monitoring device combined with computer |
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CN02260439U CN2569743Y (en) | 2002-09-29 | 2002-09-29 | Domestic artificial intelligent electrocardiographic monitoring device combined with computer |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2008101409A1 (en) | 2007-02-16 | 2008-08-28 | Sun Medical-Scientific (Shanghai) Co., Ltd. | Non-electrode-lead ultra-thin micro multifunctional heart rate adjusting device |
US7729753B2 (en) | 2006-03-14 | 2010-06-01 | Cardionet, Inc. | Automated analysis of a cardiac signal based on dynamical characteristics of the cardiac signal |
US7996075B2 (en) | 2004-10-20 | 2011-08-09 | Cardionet, Inc. | Monitoring physiological activity using partial state space reconstruction |
US8200319B2 (en) | 2009-02-10 | 2012-06-12 | Cardionet, Inc. | Locating fiducial points in a physiological signal |
CN104837402A (en) * | 2012-12-06 | 2015-08-12 | 斯卡拉株式会社 | Sensor device, sensor system, and program |
CN105879226A (en) * | 2015-01-04 | 2016-08-24 | 南京理工大学 | Heart first-aid device for general practitioner |
-
2002
- 2002-09-29 CN CN02260439U patent/CN2569743Y/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7996075B2 (en) | 2004-10-20 | 2011-08-09 | Cardionet, Inc. | Monitoring physiological activity using partial state space reconstruction |
US7729753B2 (en) | 2006-03-14 | 2010-06-01 | Cardionet, Inc. | Automated analysis of a cardiac signal based on dynamical characteristics of the cardiac signal |
WO2008101409A1 (en) | 2007-02-16 | 2008-08-28 | Sun Medical-Scientific (Shanghai) Co., Ltd. | Non-electrode-lead ultra-thin micro multifunctional heart rate adjusting device |
US8200319B2 (en) | 2009-02-10 | 2012-06-12 | Cardionet, Inc. | Locating fiducial points in a physiological signal |
CN104837402A (en) * | 2012-12-06 | 2015-08-12 | 斯卡拉株式会社 | Sensor device, sensor system, and program |
CN105879226A (en) * | 2015-01-04 | 2016-08-24 | 南京理工大学 | Heart first-aid device for general practitioner |
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