CN108309282A - A kind of ECG detecting foot ring and its detection method - Google Patents

Abstract

The invention discloses a kind of ECG detecting foot ring and detection methods, ECG detecting foot ring includes foot toroidal shell body, flexible circumferential, main circuit and power module in foot toroidal shell body, and the main circuit includes switch module, power regulator module, charging module, data acquisition module, processor module and wireless signal transmission module；Wherein, the charging module, power module, power regulator module, switch module and processor module are sequentially connected, the data acquisition module, processor module and wireless signal transmission module are sequentially connected, and the data acquisition module and wireless signal transmission module are connect with the power regulator module；The data acquisition module is for acquiring human body electrocardio rate information；The processor module, into after the processing of row information, peripheral hardware host computer is sent to by wireless signal transmission module to human body electrocardio rate information.ECG detecting foot ring structure of the present invention is simple, easy to use, and realizes the ECG detecting method of lower cost.

Description

A kind of ECG detecting foot ring and its detection method

Technical field

The present invention relates to ECG signal sampling technical field more particularly to a kind of portable cardiac detection foot ring and its detections Method.

Background technology

As the improvement of people's living standards, the accelerating rhythm of life, cerebrovascular disease incidence of disease rises year by year, has become To threaten one of the principal element of human health, this brings great financial burden to society and family.Due to painstaking effort The invisible, sudden of pipe disease, the death rate are high, if cannot find and treat in time when morbidity, will be brought to patient extremely tight The harmful effect of weight.Traditional hospital's ECG detecting equipment can detect twelve-lead electrocardiogram, but since hospital equipment is heavy, It is difficult to meet the daily real-time detection demand of patient.Existing wearable device is mostly based on optical principle detection heart rate, it is difficult to examine Thought-read electricity or detection information are limited and cannot meet checkout and diagnosis demand.

Invention content

In order to overcome shortcoming and deficiency of the existing technology, the present invention provides a kind of simple in structure, small and conveniently The ECG detecting foot ring of carrying disclosure satisfy that the daily real time monitoring of cardiovascular patient and detect the need of its electrocardio rate information It asks.It is another object of the present invention to provide a kind of detection human body electrocardio rate information, user's heart can be understood more fully hereinafter Electric data, detection method easy to operate.

In order to solve the above technical problems, the present invention provides the following technical solutions：A kind of ECG detecting foot ring, is positioned over people Electrocardio rate information on body arm for detecting human body in real time, including the main circuit in foot toroidal shell body, flexible circumferential, foot toroidal shell body And power module；The main circuit includes switch module, power regulator module, charging module, data acquisition module, processor Module and wireless signal transmission module；Wherein, the charging module, power module, power regulator module, switch module and place Reason device module is sequentially connected, and the data acquisition module, processor module and wireless signal transmission module are sequentially connected, the number It is connect with the power regulator module according to acquisition module and wireless signal transmission module；The data acquisition module is for acquiring Human body electrocardio rate information, and human body electrocardio rate information is sent to processor module；The processor module is to data acquisition module The human body electrocardio rate information that block is sent is into after the processing of row information, by being sent to described in wireless signal transmission module and electrocardio is examined Survey the peripheral hardware host computer that foot ring is used cooperatively.The present invention makes it make by the way that modules are condensed into an ECG detecting foot ring With health data simple, small, easy to carry, and can seeing oneself whenever and wherever possible, to guarantee to send out in time Existing abnormality makes user be given treatment in time；The wearable foot ring of the present invention uses flexible circumferential, can be preferably bonded human body Comfort level when user's wearing also can be improved in skin.

Preferably, the data acquisition module includes chip U1, capacitance C1, capacitance C2, capacitance C3, capacitance C4, electricity Hold C5, capacitance C6, capacitance C7, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, electricity Hinder R9, resistance R10, resistance R11, resistance R12, resistance R13, resistance R14 and resistance R15；The chip U1 includes REFOUT Pin, OUT pins, LO+ pins, LO- pins, SDN pins, HPSENSE pins, IAOUT pins, SW pins, REFIN pins, GND pin ,+VS pins, AD/DC pins, HPDRIVE pins ,+IN pins ,-IN pins, RLDFB pins, RLD pins, SW draw Foot, OPAMP+ pins and OPAMP pins；

Wherein, REFOUT pins, OUT pins, LO+ pins, LO- pins, SDN pins all connect with processor module respectively It connects；Buffer voltagc output end on the basis of REFOUT pins；OUT pins are operational amplifier output terminal, for exporting electrocardiosignal； LO+ pins and LO- pins are the comparator output terminal that falls off；SND pins are shutdown control signal, when processor module is by SDN When driving is pulled to low level, data acquisition module can be turned off；

Connection resistance R4, the IAOUT pin connection of HPSENSE pins resistance R6, resistance R4 and resistance R6 are all connected with resistance R3, Resistance R3 connection capacitance C1 and SW pins, IAOUT pins connect OUT pins by concatenated resistance R9 with capacitance C7；

REFIN pins connect GND pin with capacitance C4 by resistance R12 in parallel, and REFIN pins are connected by resistance R10 + VS pins are connect, GND pin connects AD/DC pins by capacitance C6 connection+VS pins, GND pin, and FR pins pass through resistance R14 Connect SDN pins；

HPSENSE pins by capacitance C2 connection HPDRIVE pins, resistance R1 connects with resistance R5 after resistance R5 series connection+ Resistance R7 connects-IN pins, resistance R1 connection resistance R2 after IN pins, resistance R2 and resistance R7 series connection；RLDFB pins pass through electricity Hold C3 connection RLD pins, RLD pins connect resistance R8；OPAMP+ pins pass through resistance R11 connection resistance R9, OPAMP+ pins OPAMP pins are connected with resistance R13 by concatenated capacitance C5, OPAMP pins pass through resistance R15 connection OUT pins.

Preferably, the chip U1 uses the chip U1 of model AD8232.

Preferably, the charger module includes chip U2, micro usb interfaces, resistance R16, resistance R17, electricity Hinder R18, resistance R19, capacitance C8, capacitance C9, LED light D1 and LED light D2；Wherein, micro usb mouthfuls of pin VCC and draw Foot GND is connected with the pin VCC of chip U2 and pin GND respectively；The pin GND of the pin TEMP and chip U2 of chip U2 connect It connects, the pin PROG connections R19 of chip U2；

The pin BAT of chip U2 is charging current delivery outlet, is connect with power module, and be connected to by capacitance C9 The pin CHRG of GND pin, chip U2 is connect by concatenated resistance R17 and LED light D2 with the pin VCC of chip U2, chip The STDBY of U2 is connect by concatenated resistance R16 and LED light D1 with the VCC pin of chip U2.

Wherein, chip U2 is used for the charging current of stabilized power source module, and LED light D1, LED light D2 are respectively used to mark power supply Module, which is in charged state or electricity, has expired state.

Preferably, the chip U2 is the chip U2 of model TP4056.

Preferably, the power regulator module includes voltage stabilizing chip U3, capacitance C10 and capacitance C11；Voltage stabilizing chip The EN pins of U3 are connect with the VCC pin of voltage stabilizing chip U3, and are connected to GND pin by capacitance C10；Voltage stabilizing chip U3's VOUT pins export for regulated power supply, and the voltage stabilizing output that the power module passes through VOUT pins is that the main circuit is powered, VOUT pins are connected to GND pin by capacitance C11.

Preferably, linear regulator chip U3, the capacitance C10 that the voltage stabilizing chip U3 is model RT9013 are Decoupling capacitance C10.

Preferably, wireless signal transmission module is using Bluetooth transmission circuit or the movement of WiFi transmission circuits or 2/3/4G Transmission circuit；The processor module uses stm32 microcontrollers.

Preferably, the ECG detecting foot ring further includes dry electrode, the dry electrode and the data acquisition module Connection, the dry electrode include dry electrode one, dry electrode two and dry electrode three, electrode one, dry electrode two and dry electrode three with Data acquisition module connects；The dry electrode three is set to the foot ring case inside, is used to be bonded foot's skin；It is described dry Electrode one and dry electrode two are set to the left arm or right arm of human body.Dry electrode one, dry electrode two and the dry electrode three being arranged, can Cardioelectric monitor balancedly is carried out to whole whole body human body.

Preferably, the power module uses lithium battery

It is a further object of the present invention to provide a kind of detection methods of ECG detecting foot ring, include the following steps：

S1, ECG detecting foot ring is worn on the ankle of user, makes three subsidy user's ankle skin of dry electrode, it will Dry electrode one and two branch of dry electrode are positioned on the left arm or right arm of human body；

S2, data acquisition module monitor user in real time by being electrically connected with dry electrode one, dry electrode two and dry electrode three Human body electrocardio rate information, and send information to processor module；

After human body electrocardio rate information is carried out data analysis and processing by S3, processor module, human body electrocardio rate information is led to Cross the host computer that wireless signal transmission module is sent to peripheral hardware；

Human body electrocardio rate information result is carried out publicity by S4, host computer.

After adopting the above technical scheme, the present invention at least has the advantages that：

1, ECG detecting foot ring of the present invention can understand the electrocardiogram (ECG) data of user more fully hereinafter, with it is simple in structure, Advantage small, easy to use；With more good moisture-proof, anti-sweat, water resistance, convenient for user in all case, it is any Moment is dressed, and monitors ecg information at any time, so that user is given treatment in time to guarantee the state of noting abnormalities in time；

2, ECG detecting foot ring of the present invention can be preferably bonded human skin, also can be improved comfortable when user dresses Degree；

3, ECG detecting foot ring of the present invention has good responding ability, and data transmission bauds is fast, and transmission stablizes, is reliable；

4, the detection method of ECG detecting foot ring of the present invention accurately restores human body electrocardio rate information, can be more fully hereinafter Understand the electrocardiogram (ECG) data of user；It is worn on ankle by foot ring mode, is convenient for the positioning and fixation of dry electrode, be easy to use Person in all case, any moment monitor ecg information, so that user is rescued in time to guarantee the state of noting abnormalities in time It controls.

Description of the drawings

Fig. 1 is a kind of structure diagram of ECG detecting foot ring of the present invention；

Fig. 2 is a kind of data acquisition module circuit diagram of ECG detecting foot ring of the present invention；

Fig. 3 is a kind of power regulator module circuit diagram of ECG detecting foot ring of the present invention；

Fig. 4 is a kind of charging module circuit diagram of ECG detecting foot ring of the present invention.

Specific implementation mode

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase It mutually combines, the application is described in further detail in the following with reference to the drawings and specific embodiments.

Embodiment one

The present invention provides a kind of ECG detecting foot ring, it is positioned over the electrocardio for detecting human body in real time on human arm Main circuit and power module in rate information, including foot toroidal shell body, flexible circumferential, foot toroidal shell body, in use, ankle is across soft Property annulus, foot toroidal shell body are close to ankle skin.As shown in Figure 1, main circuit includes switch module, power regulator module, charging Module, data acquisition module, processor module and wireless signal transmission module；Wherein, the charging module, power module, electricity Source Voltage stabilizing module, switch module and processor module are sequentially connected, the data acquisition module, processor module and wireless communication Number transmission module is sequentially connected, and the data acquisition module and wireless signal transmission module connect with the power regulator module It connects；

The switch module is used to carry out switch to entire ECG detecting foot ring to close；The charging module is to power module mould Block carries out charging energy-storing, and power module provides power supply to entire ECG detecting foot ring；The power regulator module is for adjusting electricity The voltage of source module surely drops；The data acquisition module is sent out for acquiring human body electrocardio rate information, and by human body electrocardio rate information It send to processor module；Processing of the human body electrocardio rate information that the processor module sends data acquisition module into row information Afterwards, by being sent to the peripheral hardware host computer being used cooperatively with ECG detecting foot ring described in wireless signal transmission module.Peripheral hardware is upper Machine may generally be PC machine or Intelligent mobile equipment etc. or have the electronic equipment of display function.Preferably, power module uses Lithium battery electric power storage or power supply.

In the present embodiment, the processor module preferably uses stm32 microcontrollers.

As shown in Fig. 2, data acquisition module include chip U1, capacitance C1, capacitance C2, capacitance C3, capacitance C4, capacitance C5, Capacitance C6, capacitance C7, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, resistance R9, Resistance R10, resistance R11, resistance R12, resistance R13, resistance R14 and resistance R15；The chip U1 include REFOUT pins, OUT pins, LO+ pins, LO- pins, SDN pins, HPSENSE pins, IAOUT pins, SW pins, REFIN pins, GND draw Foot ,+VS pins, AD/DC pins, HPDRIVE pins ,+IN pins ,-IN pins, RLDFB pins, RLD pins, SW pins, OPAMP+ pins and OPAMP pins；

Wherein, REFOUT pins, OUT pins, LO+ pins, LO- pins, SDN pins all connect with processor module respectively It connects；Buffer voltagc output end on the basis of REFOUT pins；OUT pins are operational amplifier output terminal, for exporting electrocardiosignal； LO+ pins and LO- pins are the comparator output terminal that falls off；SND pins are shutdown control signal, when processor module is by SDN When driving is pulled to low level, data acquisition module can be turned off；

Connection resistance R4, the IAOUT pin connection of HPSENSE pins resistance R6, resistance R4 and resistance R6 are all connected with resistance R3, Resistance R3 connection capacitance C1 and SW pins, IAOUT pins connect OUT pins by concatenated resistance R9 with capacitance C7；

REFIN pins connect GND pin with capacitance C4 by resistance R12 in parallel, and REFIN pins are connected by resistance R10 + VS pins are connect, GND pin connects AD/DC pins by capacitance C6 connection+VS pins, GND pin, and FR pins pass through resistance R14 Connect SDN pins；

HPSENSE pins by capacitance C2 connection HPDRIVE pins, resistance R1 connects with resistance R5 after resistance R5 series connection+ Resistance R7 connects-IN pins, resistance R1 connection resistance R2 after IN pins, resistance R2 and resistance R7 series connection；RLDFB pins pass through electricity Hold C3 connection RLD pins, RLD pins connect resistance R8；OPAMP+ pins pass through resistance R11 connection resistance R9, OPAMP+ pins OPAMP pins are connected with resistance R13 by concatenated capacitance C5, OPAMP pins pass through resistance R15 connection OUT pins.

In the present embodiment, the chip U1 preferentially uses the chip U1 of model AD8232.

As shown in figure 3, the charger module includes chip U2, micro usb interfaces, resistance R16, resistance R17, resistance R18, resistance R19, capacitance C8, capacitance C9, LED light D1 and LED light D2；Wherein, micro usb mouthfuls of pin VCC and pin GND is connected with the pin VCC of chip U2 and pin GND respectively；The pin GND of the pin TEMP and chip U2 of chip U2 connect It connects, the pin PROG connections R19 of chip U2；

The pin BAT of chip U2 is charging current delivery outlet, is connect with power module, and be connected to by capacitance C9 The pin CHRG of GND pin, chip U2 is connect by concatenated resistance R17 and LED light D2 with the pin VCC of chip U2, chip The STDBY of U2 is connect by concatenated resistance R16 and LED light D1 with the VCC pin of chip U2.

Wherein, chip U2 is used to stablize the charging current of lithium battery, and LED light D1, LED light D2 are respectively used to mark power supply mould Block, which is in charged state or electricity, has expired state.

In the present embodiment, the chip U2 preferentially uses the chip U2 of model TP4056.

As shown in figure 4, the power regulator module includes voltage stabilizing chip U3, capacitance C10 and capacitance C11；Voltage stabilizing chip The EN pins of U3 are connect with the VCC pin of voltage stabilizing chip U3, and are connected to GND pin by capacitance C10；Voltage stabilizing chip U3's VOUT pins export for regulated power supply, and the voltage stabilizing output that the power module passes through VOUT pins is that the main circuit is powered, VOUT pins are connected to GND pin by capacitance C11.

In the present embodiment, the voltage stabilizing chip U3 preferentially uses the linear regulator chip U3 of model RT9013, described Capacitance C10 preferentially uses decoupling capacitance C10.

Further, the wireless signal transmission module is moved using Bluetooth transmission circuit or WiFi transmission circuits or 2/3/4G Dynamic transmission circuit.

Embodiment two

For embodiment two on the basis of embodiment one, ECG detecting foot ring increases dry electrode, the dry electrode with it is described Data acquisition module connects, as shown in Figure 1.The dry electrode includes dry electrode one, dry electrode two and dry electrode three, electrode one, Dry electrode two and dry electrode three are connect with data acquisition module；The dry electrode three is set to the foot ring case inside, For being bonded foot's skin；The dry electrode one and dry electrode two are set to the left arm or right arm of human body；The power module makes Use lithium battery.

The specifically used detection method of ECG detecting foot ring of the present invention is：

S1, ECG detecting foot ring is worn on the ankle of user, makes three subsidy user's ankle skin of dry electrode, it will Dry electrode one and two branch of dry electrode are positioned on the left arm or right arm of human body；

S2, data acquisition module monitor user in real time by being electrically connected with dry electrode one, dry electrode two and dry electrode three Human body electrocardio rate information, and send information to processor module；

After human body electrocardio rate information is carried out data analysis and processing by S3, processor module, human body electrocardio rate information is led to Cross the host computer that wireless signal transmission module is sent to peripheral hardware；

Human body electrocardio rate information result is carried out publicity by S4, host computer.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understand, can these embodiments be carried out with a variety of equivalent changes without departing from the principles and spirit of the present invention Change, change, replacing and modification, the scope of the present invention are limited by appended claims and its equivalency range.

Claims (10)

1. a kind of ECG detecting foot ring is positioned over the electrocardio rate information for detecting human body in real time on human arm, including foot Toroidal shell body, flexible circumferential, main circuit and power module in foot toroidal shell body, which is characterized in that the main circuit includes switch Module, power regulator module, charging module, data acquisition module, processor module and wireless signal transmission module；Wherein, institute It states charging module, power module, power regulator module, switch module and processor module to be sequentially connected, the data acquisition Module, processor module and wireless signal transmission module are sequentially connected, the data acquisition module and wireless signal transmission module It is connect with the power regulator module；The data acquisition module is for acquiring human body electrocardio rate information, and by human body electrocardio Rate information is sent to processor module；The processor module is used for human body electrocardio rate information into the analyzing processing of row information.

2. a kind of ECG detecting foot ring as described in claim 1, which is characterized in that the data acquisition module includes chip U1, capacitance C1, capacitance C2, capacitance C3, capacitance C4, capacitance C5, capacitance C6, capacitance C7, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, resistance R9, resistance R10, resistance R11, resistance R12, resistance R13, resistance R14 And resistance R15；The chip U1 includes REFOUT pins, OUT pins, LO+ pins, LO- pins, SDN pins, HPSENSE Pin, IAOUT pins, SW pins, REFIN pins, GND pin ,+VS pins, AD/DC pins, HPDRIVE pins ,+IN draw Foot ,-IN pins, RLDFB pins, RLD pins, SW pins, OPAMP+ pins and OPAMP pins；

Wherein, REFOUT pins, OUT pins, LO+ pins, LO- pins, SDN pins are all connect with processor module respectively； Buffer voltagc output end on the basis of REFOUT pins；OUT pins are operational amplifier output terminal, for exporting electrocardiosignal；LO+ Pin and LO- pins are the comparator output terminal that falls off；SND pins are shutdown control signal, when processor module drives SDN When being pulled to low level, data acquisition module can be turned off；

Connection resistance R4, the IAOUT pin connection of HPSENSE pins resistance R6, resistance R4 and resistance R6 are all connected with resistance R3, resistance R3 connection capacitance C1 and SW pins, IAOUT pins connect OUT pins by concatenated resistance R9 with capacitance C7；

REFIN pins connect GND pin with capacitance C4 by resistance R12 in parallel, and REFIN pins pass through resistance R10 connections+VS Pin, GND pin connect AD/DC pins by capacitance C6 connection+VS pins, GND pin, and FR pins are connected by resistance R14 SDN pins；

By capacitance C2 connection HPDRIVE pins, resistance R1 connects+IN with resistance R5 after resistance R5 series connection and draws HPSENSE pins Resistance R7 connects-IN pins, resistance R1 connection resistance R2 after foot, resistance R2 and resistance R7 series connection；RLDFB pins pass through capacitance C3 RLD pins are connected, RLD pins connect resistance R8；OPAMP+ pins are passed through by resistance R11 connection resistance R9, OPAMP+ pins Concatenated capacitance C5 connects OPAMP pins with resistance R13, and OPAMP pins pass through resistance R15 connection OUT pins.

3. a kind of ECG detecting foot ring as claimed in claim 2, which is characterized in that the chip U1 uses model AD8232 Chip U1.

4. a kind of ECG detecting foot ring as described in claim 1, which is characterized in that the charger module include chip U2, Micro usb interfaces, resistance R16, resistance R17, resistance R18, resistance R19, capacitance C8, capacitance C9, LED light D1 and LED light D2；Wherein, micro usb mouthfuls of pin VCC and pin GND is connected with the pin VCC of chip U2 and pin GND respectively；Core The pin GND of the pin TEMP and chip U2 of piece U2 are connect, the pin PROG connections R19 of chip U2；

The pin BAT of chip U2 is charging current delivery outlet, is connect with power module, and be connected to GND by capacitance C9 and draw The pin CHRG of foot, chip U2 is connect by concatenated resistance R17 and LED light D2 with the pin VCC of chip U2, chip U2's STDBY is connect by concatenated resistance R16 and LED light D1 with the VCC pin of chip U2.

Wherein, chip U2 is used for the charging current of stabilized power source module, and LED light D1, LED light D2 are respectively used to mark power module Being in charged state or electricity has expired state.

5. a kind of ECG detecting foot ring as claimed in claim 4, which is characterized in that the chip U2 is model TP4056's Chip U2.

6. a kind of ECG detecting foot ring as described in claim 1, which is characterized in that the power regulator module includes voltage stabilizing core Piece U3, capacitance C10 and capacitance C11；The EN pins of voltage stabilizing chip U3 are connect with the VCC pin of voltage stabilizing chip U3, and pass through electricity Hold C10 and is connected to GND pin；The VOUT pins of voltage stabilizing chip U3 export for regulated power supply, and the power module is drawn by VOUT The voltage stabilizing output of foot is that the main circuit is powered, and VOUT pins are connected to GND pin by capacitance C11.

7. a kind of ECG detecting foot ring as claimed in claim 6, which is characterized in that the voltage stabilizing chip U3 is model The linear regulator chip U3, the capacitance C10 of RT9013 is decoupling capacitance C10.

8. a kind of ECG detecting foot ring as described in claim 1, which is characterized in that the wireless signal transmission module is using blue Tooth transmission circuit or WiFi transmission circuits or 2/3/4G move transmission circuit；The processor module uses stm32 microcontrollers.

9. a kind of ECG detecting foot ring as described in claim 1-8 is any, which is characterized in that the ECG detecting foot ring also wraps Dry electrode is included, the dry electrode is connect with the data acquisition module, and the dry electrode includes dry electrode one, dry electrode two and does Electrode three, electrode one, dry electrode two and dry electrode three are connect with data acquisition module；The dry electrode three is set to the foot Ring case inside is used to be bonded foot's skin；The dry electrode one and dry electrode two are set to the left arm or right arm of human body；Institute It states power module and uses lithium battery.

10. a kind of detection method of ECG detecting foot ring, which is characterized in that include the following steps：

S1, ECG detecting foot ring is worn on the ankle of user, makes three subsidy user's ankle skin of dry electrode, by dry electricity Pole one and two branch of dry electrode are positioned on the left arm or right arm of human body；

S2, data acquisition module monitor the people of user in real time by being electrically connected with dry electrode one, dry electrode two and dry electrode three Body-centered electricity rate information, and send information to processor module；

After human body electrocardio rate information is carried out data analysis and processing by S3, processor module, human body electrocardio rate information is passed through into nothing Line signal transmission module is sent to the host computer of peripheral hardware；

Human body electrocardio rate information result is carried out publicity by S4, host computer.