CN201806700U - Heart meridian detection device of arm type - Google Patents
Heart meridian detection device of arm type Download PDFInfo
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- CN201806700U CN201806700U CN2010205573469U CN201020557346U CN201806700U CN 201806700 U CN201806700 U CN 201806700U CN 2010205573469 U CN2010205573469 U CN 2010205573469U CN 201020557346 U CN201020557346 U CN 201020557346U CN 201806700 U CN201806700 U CN 201806700U
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Abstract
The utility model relates to a heart meridian detection device of an arm type, mainly comprising an electrophysiological sensor, a physiological signal conditioning circuit, a microprocessor, a motion sensor, a wireless communication module and a RFID (Radio Frequency Identification) circuit. The electrophysiological sensor is connected with the physiological signal conditioning circuit which is connected with the microprocessor, and the microprocessor is also connected with the motion sensor and the wireless communication module, the RFID circuit singly forms an identification system, the microprocessor is also connected with a keyboard, and a sleeve band used for fixing the detection device on the arm is made from a shrinkable material. The utility model has the advantage of actively measuring the heart meridian without a guiding line, is simple and convenient to wear, can accurately and stably measure the electrophysiological signal in a motion state and judge the motion state of a wearer so as to calculate the exercise amount of the wearer in a day, and the like.
Description
Technical field
The utility model relates to a kind of being attached to and detect electrocardio ripple and heart rate on the arm, and the kinestate of judgement carrier (as: stand, walk, run, squat down etc.), thereby one day momental arm-type heart arteries and veins checkout gear of carrier calculated.
Background technology
According to world's heart alliance statistics, every dead 3 philtrums in the worldwide are cardiovascular disorders with regard to the cause of the death that 1 people is arranged.The mortality rate of cardiovascular disease becomes " first killer " of human health still far above the other diseases that comprises cancer, acquired immune deficiency syndrome (AIDS).In China recent years along with the improving constantly of resident living level, the continuous deterioration in bad border naturally, the prevalence of old people's cardiovascular disease, M ﹠ M all are the trend that rises year by year.Suffer from the cardiovascular diseases according to the old resident in Yangzi Evening report city and lead up to 62%, the sickness rate of visible old people's cardiovascular disease is so high.Become very urgent in China's prophylactic treatment cardiovascular disease, this singly is not related to old people's healthy living problem, also affects the national physique level of whole country on certain program.And the most direct effective method of angiocardiopathy preventing is regularly to detect electrocardiogram and heart rate, and the cardiac electrical means of traditional detection are escenter electrograph machines, and its heaviness is not removable, and very the side does not make, and often an electrocardiogram is difficult to capture the effective diagnosis foundation.Developed into Holter (ambulatory electrocardiogram) afterwards, though Holter can move, it has the line of leading to link to each other, and has limited patient's activity space, and it need could use under medical practitioner instructs, and is not suitable for patient's measurement that keeps healthy every day.Also occurred many wrist formula pulse frequency meters now on the market, attempting judge the health status of heart, but these products all has a defective by the monitoring pulse frequency, when the people under kinestate, pulse frequency all can't be measured.And very harsh to testing the place, pick off must be aimed at pulsation, otherwise can measure failure.
Summary of the invention
The purpose of this utility model is to overcome the deficiency that prior art exists, and provide a kind of arm-type heart arteries and veins checkout gear, the maximum characteristics of this checkout gear are: be not in the mood for the electric conductance on line, wear simple, convenient, suitable old people guarded heart at home in 24 hours, carrier also can correctly, stably detect electrocardio ripple and heart rate under kinestate.Carry, do not influence orthobiosis, work and sports, can calculate one day quantity of motion of carrier automatically, and have the RFID identity recognition function.
For achieving the above object, this utility model adopts following technical scheme: it mainly includes EGC sensor, physiological signal orderliness circuit, microprocessor, motion sensor, wireless communication module and RFID identification circuit, described EGC sensor links to each other with physiological signal orderliness circuit, described physiological signal orderliness circuit links to each other with a microprocessor, and this microprocessor also is connected with motion sensor, described microprocessor links to each other with wireless communication module, and described RFID identification circuit constitutes a recognition system separately.
Described microprocessor also is connected with a keyboard, and other has one described checkout gear is fixed on cuff on the arm, that make with the contractility material.
Described cuff inboard is installed with three EGC sensor, and they directly contact to gather electrocardiosignal with human body, and by the physiological signal orderliness circuit that links to each other to electrocardiosignal amplify, filtering, A/D is converted into digital signal, reaches continuous microprocessor at last; Thereby motion sensor be built-in, gather the human motion signal, can differentiate the carrier kinestate of standing, walk, run, squat down and calculate the pick off of one day quantity of motion of carrier; Described keyboard comprises that the user starts knob, whether wears and detect knob, emergency alarm button.
Described microprocessor adopts MSP430 single-chip microcomputer or arm processor, it by serial ports with link to each other by a kind of wireless communication module that constitutes in Zigbee module or bluetooth module or GPRS module or CDMA module or the Wifi module.
This utility model compared with prior art, having does not have the line that leads, and wears simply, convenient, active type measure heart arteries and veins under kinestate, is measured and also can be accomplished accurately stablely, and has characteristics such as RFID identity recognition function.
Description of drawings
Fig. 1 is the system block diagram of arm-type heart arteries and veins checkout gear described in the utility model.
Fig. 2 is that arm-type heart arteries and veins checkout gear described in the utility model is worn structural representation.
The specific embodiment
Label shown in the accompanying drawing is as follows: 1, EGC sensor, 2, electrocardiosignal handles 3 microprocessors, 4 keyboards, 5 motion sensors, 6 wireless communication modules, 7 cufves, 8RFID identification circuit.
Below in conjunction with accompanying drawing this utility model is described in detail: shown in Fig. 1,2, this utility model mainly includes EGC sensor 1, physiological signal orderliness circuit 2, microprocessor 3, motion sensor 5, wireless communication module 6 and RFID identification circuit 8.Described EGC sensor 1 links to each other with physiological signal orderliness circuit 2, described physiological signal orderliness circuit 2 links to each other with a microprocessor 3, and this microprocessor 3 also is connected with motion sensor 5, described microprocessor 3 links to each other with wireless communication module 6, and described RFID identification circuit 8 constitutes a recognition system separately.
Described microprocessor 3 also is connected with a keyboard 4, and other has one described checkout gear is fixed on cuff 7 on the arm, that make with the contractility material.
Described cuff 7 inboards are installed with three EGC sensor 1, and they directly contact to gather electrocardiosignal with human body, and by the 2 pairs of electrocardiosignaies of physiological signal orderliness circuit that link to each other amplify, filtering, A/D is converted into digital signal, reaches continuous microprocessor 3 at last.
Thereby described motion sensor 5 for built-in, gather the human motion signal, can differentiate the carrier kinestate of standing, walk, run, squat down and calculate the pick off of one day quantity of motion of carrier.
Described microprocessor 3 adopts MSP430 single-chip microcomputer or arm processors, it by serial ports with link to each other by a kind of wireless communication module that constitutes 6 in Zigbee module or bluetooth module or GPRS module or CDMA module or the Wifi module.
Described keyboard 4 comprises that the user starts knob, whether wears and detect knob, emergency alarm button.
EGC sensor: this programme adopts three EGC sensor, gathers the human heart physiological signal, at sensor internal physiology signal is changed into the signal of telecommunication, and this signal of telecommunication, delivers to physiological signal orderliness circuit.
Motion sensor: gather the kinestate of carrier, and signal is delivered to processor, processor calculates one day quantity of motion of carrier.
Physiological signal orderliness circuit: the physiological data that biosensor is collected carries out amplification filtering, needs to amplify because the signal that collects all is little signal of telecommunication, and is subjected to external interference easily and needs filtering.
Microprocessor: main collection and the date processing of being responsible for control electrocardiosignal and human motion signal, control wireless communication module, and response keyboard interrupt.Microprocessor can be 51 series monolithics, arm processor etc.
Keyboard: comprise that the user starts knob, whether wears and detect knob, emergency alarm button.
Wireless communication module: main being responsible for sends the related datas such as electrocardio, heart rate and carrier kinestate that collect.
Cuff: be used for fixing checkout equipment, wear comfortable, convenient.
RFID identification circuit: the identity that can discern carrier.
Embodiment one, as shown be arm-type heart arteries and veins checkout gear, comprise EGC sensor 1, physiological signal orderliness circuit 2, microprocessor 3, button 4, motion sensor 5, wireless communication module 6, cuff 7 and RFID identification circuit 8.EGC sensor (1) links to each other with physiological signal orderliness circuit 2, physiological signal orderliness circuit 2 links to each other with microprocessor 3, and motion sensor 5 also links to each other with microprocessor 3, and microprocessor 3 links to each other with wireless communication module 6, button 4 links to each other with microprocessor 3, and cuff is used for fixing sense terminals.RFID identification circuit 8 does not link to each other with other any parts, forms system separately.EGC sensor and contact skin are gathered electrocardiosignal, by physiological signal orderliness circuit to this signal amplify, filtering, A/D is converted into digital signal, microprocessor obtains carrying out computational analysis behind the digital signal, electrocardio ripple and heart rate value after finally obtaining handling are launched data by wireless communication module.Motion sensor is gathered the human motion signal, and signal draws human motion state and quantity of motion through the processor calculating analysis.Wireless communication module adopts the Zigbee module, microprocessor adopts MSP430, MSP430 is by serial ports and Zigbee module communication, and keyboard comprises that the user starts knob, whether wears and detect knob, emergency alarm button, and RFID identification circuit can be discerned the identity of carrier.
Embodiment two, as shown in the figure, the place identical with embodiment one be repeated description no longer, and difference is that wireless communication module 6 adopts bluetooth modules.
Embodiment three, as shown in Figure 1, the place identical with embodiment one be repeated description no longer, and difference is that microprocessor 3 adopts arm processors.
Work process of the present utility model is: user with arm-type heart arteries and veins test set band on arm, EGC sensor and contact skin are gathered electrocardiosignal, by the physiological single processing circuit to this signal of telecommunication amplify, filtering, A/D is converted into digital signal, microprocessor obtains carrying out computational analysis behind the digital signal, electrocardio ripple and heart rate value after finally obtaining handling are launched data by wireless communication module.Motion sensor is gathered the human motion signal, and signal is through the processor calculating analysis, draws human motion state (as: stand, walk, run, squat down etc.), thereby calculates one day quantity of motion of carrier; RFID identification circuit can be discerned the identity of carrier.
Claims (4)
1. arm-type heart arteries and veins checkout gear, it mainly includes EGC sensor (1), physiological signal orderliness circuit (2), microprocessor (3), motion sensor (5), wireless communication module (6) and RFID identification circuit (8), it is characterized in that described EGC sensor (1) links to each other with physiological signal orderliness circuit (2), described physiological signal orderliness circuit (2) links to each other with a microprocessor (3), and this microprocessor (3) also is connected with motion sensor (5), described microprocessor (3) links to each other with wireless communication module (6), and described RFID identification circuit (8) constitutes a recognition system separately.
2. according to the described arm-type heart arteries and veins checkout gear of claim 1, it is characterized in that described microprocessor (3) also is connected with a keyboard (4), other has one described checkout gear is fixed on cuff (7) on the arm, that make with the contractility material.
3. according to the described arm-type heart arteries and veins checkout gear of claim 2, it is characterized in that described cuff (7) inboard is installed with three EGC sensor (1), and they directly contact to gather electrocardiosignal with human body, and by the physiological signal orderliness circuit (2) that links to each other to electrocardiosignal amplify, filtering, A/D is converted into digital signal, reaches continuous microprocessor (3) at last; Described motion sensor (5) thus for built-in, gather the human motion signal, can differentiate the carrier kinestate of standing, walk, run, squat down and calculate the pick off of one day quantity of motion of carrier; Described keyboard comprises that the user starts knob, whether wears and detect knob, emergency alarm button.
4. according to claim 1 or 2 or 3 described arm-type heart arteries and veins checkout gears, it is characterized in that described microprocessor adopts MSP430 single-chip microcomputer or arm processor, it by serial ports with link to each other by a kind of wireless communication module that constitutes (6) in Zigbee module or bluetooth module or GPRS module or CDMA module or the Wifi module.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010205573469U CN201806700U (en) | 2010-10-09 | 2010-10-09 | Heart meridian detection device of arm type |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010205573469U CN201806700U (en) | 2010-10-09 | 2010-10-09 | Heart meridian detection device of arm type |
Publications (1)
Publication Number | Publication Date |
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CN201806700U true CN201806700U (en) | 2011-04-27 |
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CN2010205573469U Expired - Lifetime CN201806700U (en) | 2010-10-09 | 2010-10-09 | Heart meridian detection device of arm type |
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CN (1) | CN201806700U (en) |
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2010
- 2010-10-09 CN CN2010205573469U patent/CN201806700U/en not_active Expired - Lifetime
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Granted publication date: 20110427 |
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CX01 | Expiry of patent term |