CN201394012Y - Wearable electrocardio electrode remote warding device - Google Patents

Abstract

The utility model discloses a wearable electrocardio electrode remote warding device, which comprises a housing, wherein a liquid crystal display and an operation button are arranged on the housing; amain controller, an interface module, a blood-pressure acquisition module, a blood oxygen acquisition module, an electrocardio acquisition module, a respiration acquisition module and a communicationmodule are arranged in the housing; and the blood-pressure acquisition module, the blood oxygen acquisition module, the electrocardio acquisition module, the respiration acquisition module and the communication module are all connected with the main controller and the interface module. The device is characterized in that the electrocardio acquisition module and the respiration acquisition moduleare connected with a wearable electrocardio electrode vest through the interface module, and a card reader circuit used for reading and writing SIM card is arranged on the communication module, and linked with GPRS/CDMA communication channel through communications. The device can perform the long-term warding on various physiological signals such as electrocardio, heart rate, blood pressure, bloodoxygen, respiration, pulse, etc.; by utilizing the wireless mobile GPRS/CDMA communication channel transmission technology, the use is convenient, and the device is not limited by distance.

Description

Wear-type electrocardioelectrodevice long distance monitoring device

Technical field

The present invention relates to technical field of medical instruments, especially relate to a kind of wear-type electrocardioelectrodevice long distance monitoring device.

Background technology

In modern society, the sickness rate of cardiovascular disease is in the trend of rising for heart disease, and electrocardiograph is as important electrocardio-data collection recording equipment, and its status is more and more important.Conventional Electrocardioscopy can only provide the patient health information at a moment, most arrhythmia, even concerning the cardiac who has made a definite diagnosis, the electrocardiogram of this section type all is difficult to capture, and this inspection can not the long term monitoring electrocardio, the variation of heart rate, from its variation tendency, obtain Useful Information, instruct prevention and treatment of diseases.The existing method that detects cardiovascular disease, be the electrocardiogram that hospital uses desk-top electrocardiograph record patient, but be to use the desk-top electrocardiograph requirement patient inspection of must lying in bed, concerning the cardiac who needs long term monitoring, detect inconvenience, and can not realize detecting at home.

If do not require that with existing portable dynamic electrocardiograph patient lies in bed in hospital, then the personnel of guarding can only analyze in the data on the instrument of patient being delivered afterwards, can not be real-time patient is monitored.The cardiac event of some bursts particularly, as angina pectoris, myocardial infarction, pernicious arrhythmia, and the symptom of some heart intermittent attacks, medical personnel are difficult to obtain timely patient's electrocardiogram (ECG) data accurately.

The utility model content

In view of this, the purpose of this utility model is to provide a kind of wear-type electrocardioelectrodevice long distance monitoring device, can realize long term monitoring to multiple physiological signals such as electrocardio, heart rate, blood pressure, blood oxygen, breathing, pulses, utilize wireless mobile GPRS/CDMA traffic channel technology, easy to use, be not subjected to distance limit.

This utility model is by the following technical solutions: a kind of wear-type electrocardioelectrodevice long distance monitoring device, comprise shell, shell is provided with LCDs and action button, be provided with master control in the shell, interface module, the blood pressure acquisition module, blood oxygen acquisition module, electrocardio, Breath collection module and communication module; The blood pressure acquisition module, blood oxygen acquisition module, electrocardio, Breath collection module and communication module all link to each other with interface module with master control, wherein, electrocardio, Breath collection module are connected with the wear-type electrocardioelectrodevice vest by interface module, communication module is provided with the Card Reader circuit that is used to read and write SIM, with GPRS/CDMA channel communication link.

This utility model can realize like this that described wear-type electrocardioelectrodevice vest is provided with the electrode more than six, and this electrode is wired to the electrocardio interface on the shell, and this electrocardio interface links to each other with interface module.

This utility model can also realize that so described shell is provided with the blood oxygen probe interface, and the one end links to each other with blood oxygen probe when blood oxygen is gathered, and the other end links to each other with blood oxygen acquisition module.

This utility model can also realize that so described shell is provided with the blood pressure interface, and the one end inserts when blood pressure is gathered and responds to cuff pressure, and the other end is connected with the blood pressure acquisition module.

The beneficial effects of the utility model are:

This utility model provides a kind of wear-type electrocardioelectrodevice long distance monitoring device, can realize the long term monitoring to multiple physiological signals such as electrocardio, heart rate, blood pressure, blood oxygen, breathing, pulses.Adopt modularized design, on hardware designs electrocardio, blood oxygen, blood pressure, wireless transmission, master control and demonstration being divided into independent module designs, each module all has independent mechanism to control, avoided the phase mutual interference of each physiological parameter sampling work, successfully solved the most scabrous anti-interference problem of multi-parameter monitoring device in the prior art, particularly overcome the interference of radio communication line, made the physiological data that collects accurate and stable other sampling circuits.

This utility model is gathered signals such as electrocardio, heart rate, breathing with the electrocardio electrode vest, solved formerly to use electrode, the lead of adhesive type electrocardioelectrode numerous in the technology, influences detected person's sleep, handicapped problem.Electrode is made up of silver and composite fibre, is base material with polynary composite fibres such as chinlon filament, polyester filaments, nano-silver layer is plated in forms silver-colored fiber on the composite fibre, and silver-colored fibrous woven is become cloth, makes electrode again.This electrode can solve formerly in the technology, rubs easily between skin and the electrode in the physical activity process, produces static, when electrostatic potential is too high, may cause between conductive fiber and the skin point discharge taking place, the problem of damage human body skin, easy to use.

This utility model utilizes wireless mobile GPRS/CDMA traffic channel technology, and the transfer of data that collects to system server, is stored, analysis and printed report.Button of this utility model self and display screen can independently carry out the monitoring of physiological signal.

Set forth in the following description, and to a certain extent,, perhaps can from practice of the present utility model, obtain instruction based on being conspicuous to those skilled in the art to investigating hereinafter.Target of the present utility model and other advantages can realize and obtain by specifically noted structure in following description or the accompanying drawing.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the structural representation of this utility model electrocardioelectrode vest;

Fig. 3 is a block diagram of the present utility model;

Fig. 4 is the structured flowchart of this utility model electrocardio, Breath collection module;

Fig. 5 is the structured flowchart of this utility model communication module.

Specific embodiments

Below in conjunction with drawings and Examples this utility model is further described:

This utility model comprises shell, and LCDs and action button are arranged on the shell, and master control is installed in the shell, interface module, blood pressure acquisition module, blood oxygen acquisition module, electrocardio, Breath collection module and communication module, blood pressure acquisition module; The blood pressure acquisition module, blood oxygen acquisition module, electrocardio, Breath collection module and communication module all link to each other with interface module with master control, and electrocardio, Breath collection module are connected with the wear-type electrocardioelectrodevice vest by interface module.Master control and interface module link to each other with wireless communication module with external equipment.In the present embodiment, master control and interface module adopt high speed SOC type single-chip microcomputer C8051F310 as control CPU, also are provided with power sense circuit in master control and interface module.

Shell is provided with electrocardio interface, blood pressure interface and blood oxygen probe interface, and the electrocardio interface is sent to electrocardio, Breath collection module to the electrocardio that collects on the electrocardioelectrode vest 1, breathing and heart rate signal.The data that the blood oxygen probe interface collects to blood oxygen probe are delivered to blood oxygen acquisition module.Blood pressure interface on the shell is used for inserting when blood pressure is gathered and the induction cuff pressure, makes blood pressure data be sent to the blood pressure acquisition module.Electric air pump and electromagnetic gas valve in the shell are controlled by the blood pressure acquisition module.Figure 3 shows that block diagram of the present utility model.The display screen that is provided with on the shell can show: ecg wave form, respiratory waveform, pulse frequency value, the breathing rate value, blood oxygen levels, pressure value, call out indication, multiple parameters such as electric weight indication and network indication can independently be monitored physiological signal by action button on the shell and display screen.

As shown in Figure 1 and Figure 2, the shell of wear-type electrocardioelectrodevice long distance monitoring device 4 is provided with electrocardioelectrode vest interface, be fixed with six electrodes 2 on the electrocardioelectrode vest 1, electrode 2 is wired on the electrocardio interface, fixedly install a pocket 3 in the lower right side of electrocardioelectrode vest 1, this pocket 3 can be used for putting wears formula electrocardioelectrode long distance monitoring device 4.Electrode 2 is made up of silver and composite fibre, specifically, is nano-silver layer to be plated in form silver-colored fiber on the composite fibre, and silver-colored fibrous woven is become cloth, makes electrode 2 again.

When this utility model detects at blood pressure, by the air pressure of cuff is delivered on the pressure transducer, obtain blood pressure signal by the pressure reduction on the pick-up transducers, from blood pressure signal, isolate pulse signal simultaneously by filter circuit, two kinds of signals are delivered to ADC, after the digital-to-analogue conversion through calculating information such as blood pressure pulse.

As shown in Figure 4, this utility model electrocardio Breath collection module, form by EGC sensor, pre-amplifier, band filter, wave trap, post-amplifier and electrocardiogram acquisition interface, pre-amplifier adopts the high-performance one chip amplifier, and it possesses high input impedance, high cmrr, low noise, low drift, low in power consumption.The signal that the EGC sensor handle collects is after pre-amplifier amplifies, be sent to band filter, band filter is finished the noise signal that leaches outside the 0.05-300Hz, wave trap is decayed at power frequency component, post-amplifier is amplified to signal-and giving ADC between the 2.5V-+2.5V carries out mould/number conversion, after converting digital signal to, under the control of master control MPU, carry out the electrocardiosignal sampling, extract electrocardio ripple signal, respiratory wave signal and heart rate value.

This utility model blood oxygen acquisition module is made up of blood oxygen transducer, blood oxygen acquisition interface, LED constant current source driving circuit, pre-amplifier, analog switch, HONGGUANG demodulator filter, post-amplifier, ADC and MPU, blood oxygen detected digital circuit generation 2kH pulse signal control constant-current source and is added to the polarity that blood oxygen transducer (light emitting diode) is gone up voltage when blood oxygen was gathered, and made the infrared light of its HONGGUANG of alternately sending wavelength 660nm and wavelength 940nm; Pre-amplifier will tentatively amplify from the signal that light sensitive diode obtains, and by analog switch HONGGUANG and infrared signal is separated, and the ADC that delivers among the MPU is amplified in demodulation filtering respectively, converts digital information to.The various information that collect during monitoring, deliver among the master control MPU by the interface of correspondence, through after corresponding the processing result being shown to the user, simultaneously data are delivered to communication module, after ICP/IP protocol is packaged into packet, send on the central monitoring server of designated domain name and store, for doctor's monitoring, analyze and use.

Figure 5 shows that the structured flowchart of this utility model communication module, communication module adopts the high performance LPC21XX Series of MCU of high performance wireless communication module and PHILIPS company ARM7 design, whole module is under the state of low-power consumption, can keep the stable link of GPRS/CDMA channel and pay no attention to disconnectedly for a long time and work, make physiological data can be intactly, be delivered on the corresponding server in real time.Adoptable communication mode is GPRS/CDMA wireless cellular network+Intemet wide area network, embedded tcp/ip communication agreement, 2.5G wireless data transmission pattern.Also be provided with the Card Reader circuit in the communication module, can the reading and writing SIM and carry out qualification testing.Communication module is connected with built-in aerial, is used for the emission and the acceptance of signal.

Claims (4)

1. wear-type electrocardioelectrodevice long distance monitoring device, comprise shell, shell is provided with LCDs and action button, be provided with master control in the shell, interface module, the blood pressure acquisition module, blood oxygen acquisition module, electrocardio, Breath collection module and communication module, the blood pressure acquisition module, the blood pressure acquisition module, blood oxygen acquisition module, electrocardio, the Breath collection module all links to each other with interface module with master control with communication module, it is characterized in that: electrocardio, the Breath collection module is connected with the wear-type electrocardioelectrodevice vest by interface module, communication module is provided with the Card Reader circuit that is used to read and write SIM, with GPRS/CDMA channel communication link.

2. according to the described wear-type electrocardioelectrodevice long distance monitoring of claim 1 device, it is characterized in that: described wear-type electrocardioelectrodevice vest is provided with the electrode more than six, this electrode is wired to the electrocardio interface on the shell, and this electrocardio interface links to each other with interface module.

3. according to the described wear-type electrocardioelectrodevice long distance monitoring of claim 1 device, it is characterized in that: described shell is provided with the blood oxygen probe interface, and the one end links to each other with blood oxygen probe when blood oxygen is gathered, and the other end links to each other with blood oxygen acquisition module.

4. according to the described wear-type electrocardioelectrodevice long distance monitoring of claim 1 device, it is characterized in that: described shell is provided with the blood pressure interface, and the one end inserts when blood pressure is gathered and responds to cuff pressure, and the other end is connected with the blood pressure acquisition module.

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