CN106618556A - Wearable dynamic cardiovascular disease monitor - Google Patents

Abstract

The invention belongs to the field of cardiovascular disease monitoring equipment, provides a wearable dynamic cardiovascular disease monitor and aims at solving the problem that how to better monitor occurrence of cardiovascular diseases in real time in daily life in the prior art. The wearable dynamic cardiovascular disease monitor comprises a dot array electrode, a signal conditioning unit, an A/D conversion unit and a processor, wherein the dot array electrode is connected with the signal conditioning unit, the signal conditioning unit is connected with the A/D conversion unit, and the A/D conversion unit is connected with the processor; the dot array electrode comprises a plurality of Ag/AgCl paste electrode slices arranged in an array; and each Ag/AgCl paste electrode slice is connected with the signal conditioning unit. The wearable dynamic cardiovascular disease monitor provided by the invention has the advantages that the dot array electrode is adopted, and the best electrode monitoring position is determined by virtue of individual monitoring of each electrode and analysis of the processor, so that monitoring of the whole electrocardiosignal is more accurate; meanwhile, a dot array electrode body is made from fibers or other flexible materials, and the comfort of a human body is enhanced, so that the practicability of the wearable dynamic cardiovascular disease monitor is enhanced.

Description

A kind of Wearable dynamic cardiovascular disease monitoring instrument

Technical field

The invention belongs to cardiovascular disease custodial care facility field, and in particular to a kind of Wearable dynamic cardiovascular disease monitoring Instrument.

Background technology

Cardiovascular and cerebrovascular disease is the general designation of cardiovascular and cerebrovascular disease, is referred to because hyperlipemia, blood are sticky, dynamic Pulse atherosclerosis, hypertension etc. caused by the ischemic that occurs of heart, brain and body tissue or hemorrhage.Heart and brain blood Pipe disease is a kind of serious threat mankind, and the commonly encountered diseases of particularly more than 50 years old middle-aged and elderly people health are caused with high prevalence, height The characteristics of residual rate and high mortality, even if using treatment meanss most advanced, perfect at present, can still there is more than 50% cerebrovascular It is unexpected that survivor life can not take care of oneself completely, and the whole world dies from every year the number of cardiovascular and cerebrovascular disease and is up to 15,000,000 people, occupy each Plant the cause of the death the first.

Existing custodial care facility majority is used in the ward of hospital, and cardiovascular and cerebrovascular disease is sudden more substantially, arrives It is often more serious during ward；And it is used for the electrode of human ecg signal collection typically using Ag/AgCl adhesive electrodes. User can be allowed to realize the continuous monitoring of many physiological signals in a comfortable way.In addition, in order to allow the electrocardiosignal matter that collects Amount can reach the requirement of clinical monitoring, and this just proposes greatly requirement to the selection of electrode material, should meet and gather The comfortableness of journey, can collect again high-quality signal.At present, the electro-cardiologic signal waveforms using the collection of Ag/AgCl electrodes are clear Clear, signal stabilization is disturbed little.The silver fiber for preparing surface chlorination is can to obtain maturation process at present.How patient's Real-time monitoring advancing of disease trend in life, it is determined that preferably coping strategy is particularly important.

The content of the invention

It is an object of the invention to solve technical problem present in prior art, there is provided a kind of wearable, user Just, accurate Wearable dynamic cardiovascular disease monitoring instrument is monitored.

The purpose of the present invention is achieved through the following technical solutions：

A kind of Wearable dynamic cardiovascular disease monitoring instrument, including lattice array electrode, signal condition unit, A/D conversion list Unit and processor；The lattice array electrode is connected with signal condition unit, and the signal condition unit connects with A/D converting units Connect, the A/D converting units are connected with processor；The lattice array electrode includes several Ag/AgCl arranged with array Adhesive electrode piece；Each Ag/AgCl adhesive electrode piece is connected with signal condition unit.

Further improving is, described Wearable dynamic cardiovascular disease monitoring instrument, also including driven-right-leg circuit；Institute State driven-right-leg circuit to be connected with signal condition unit.

Further improving is, described Wearable dynamic cardiovascular disease monitoring instrument, also including cloud platform；The process Device is connected with cloud platform.

Further improving is, described Wearable dynamic cardiovascular disease monitoring instrument, also including client；The process Device is connected with user client communication.

Further improving is, described Wearable dynamic cardiovascular disease monitoring instrument, also including memorizer；The storage Device is connected with processor.

Further improvement is that the lattice array electrode also includes lattice array electrode body；Described several Ag/AgCl glue Patch electrode slice is fixed on lattice array electrode body.

Further improvement is that the signal condition unit is AD8232 analog front-end chips.

Further improvement is that the A/D converting units are super low consumption analog-digital converter.

Further improvement is that the processor is STM32L0.

The present invention is relative to the beneficial effect of prior art：The Wearable dynamic cardiovascular disease monitoring instrument of the present invention, Using lattice array electrode, by the way that the lattice array electrode body for being provided with lattice array electrode to be covered in the skin of the chest and abdomen of patient when using On skin, being separately monitored by each electrode determines the monitoring position of optimal electrode, so that whole by the analysis of processor The monitoring of individual electrocardiosignal is more accurate, while lattice array electrode body is made from fiber or other flexible materials, increases The comfortableness of strong man's body, so as to strengthen the practicality of the present invention.

Description of the drawings

The theory diagram of Fig. 1 present invention.

The structural representation of the lattice array electrode of Fig. 2 present invention.

Wherein, in accompanying drawing corresponding reference be 1-Ag/AgCl adhesive electrodes, 2- lattice array electrode bodies.

Specific embodiment

It is described in detail below in conjunction with drawings and Examples, it is sufficiently complete to enable those skilled in the art to Technical scheme is realized, and solves problems of the prior art to be solved by this invention.It should be noted that Hereinafter only it is the preferred embodiment of the present invention, for the person of ordinary skill of the art, without departing from the invention On the premise of design, some deformations and improvement can also be made, these should belong to protection scope of the present invention.

Embodiment

As shown in Figure 1-2, a kind of Wearable dynamic cardiovascular disease monitoring instrument, including lattice array electrode, signal condition list Unit, A/D converting units and processor；The lattice array electrode is connected with signal condition unit, the signal condition unit and A/D Converting unit connects, and the A/D converting units are connected with processor；The lattice array electrode is included with some of array arrangement Individual Ag/AgCl adhesive electrodes piece；Each Ag/AgCl adhesive electrode piece is connected with signal condition unit.

Further improvement is that the lattice array electrode also includes lattice array electrode body；Described several Ag/AgCl glue Patch electrode slice is fixed on lattice array electrode body.

As shown in Fig. 2 the lattice array electrode includes several Ag/AgCl adhesive electrodes pieces and lattice array electrode body； The lattice array electrode body using fiber or other make can human body sensory conformable material, so as to strengthen people when in use The comfortableness of body；The lattice array electrode body can make the shapes and sizes matched with human body chest and abdomen, it is also possible to according to Need to make other shapes and pattern.All of Ag/AgCl adhesive electrodes piece is fixed on lattice array electrode body；If will A dry Ag/AgCl adhesive electrodes piece rearranges in array fashion rectangle or foursquare array, and each Ag/AgCl pastes Electrode slice is connected with signal condition unit.

As shown in figure 1, noise in the signal transmitted each Ag/AgCl adhesive electrode piece by signal condition unit and Other not to meet and obtain satisfactory electrocardial analog signal after the target signal filter that electrocardial analog signal detection is required；Then will be every The electrocardial analog signal that individual Ag/AgCl adhesive electrodes piece is obtained after signal condition unit process is sent to A/D converting units, Electrocardial analog signal is become into electrocardiographicdigital digital signals by A/D converting units to send to processor；Processor is by all of electrocardio mould Intend signal to be analyzed, therefrom select optimal, most strong electrocardiographicdigital digital signals, while record producing the electrocardiographicdigital digital signals The position of the corresponding Ag/AgCl adhesive electrodes piece of original electrocardial analog signal, so as to realize determining optimum ecg signal acquiring Position, strengthen the accuracy of the overall detection of the present invention.

Further improving is, described Wearable dynamic cardiovascular disease monitoring instrument, also including driven-right-leg circuit；Institute State driven-right-leg circuit to be connected with signal condition unit.

For the interference of other signals in the electrocardial analog signal for reducing input signal conditioning unit, by the way that right lower limb is driven Galvanic electricity road is connected with signal condition unit, disturb present in the electrocardial analog signal of acquired original with being reduced to greatest extent Impact of the signal to electrocardial analog signal, so that testing result of the present invention is more accurate.

Further improving is, described Wearable dynamic cardiovascular disease monitoring instrument, also including cloud platform；The process Device is connected with cloud platform.

Backed up and preserved in order to processor is connect into all of electrocardiographicdigital digital signals received from A/D converting units, Medical worker is facilitated to refer to, so as to when in use, processor will include all of electrocardiographicdigital digital signals and analyze what is obtained Optimal electrocardiographicdigital digital signals information sends to cloud platform and is backed up and preserved.

Further improving is, described Wearable dynamic cardiovascular disease monitoring instrument, also including client；The process Device is connected with user client communication.

In order to when patient is using the present invention, be easy to nursing of the medical worker to others, by processor and medical worker Client set up communication connection, it is convenient in the client in real time being used the data is activation of the monitoring of patient to medical worker Its change in the very first time to the vital sign of patient is made a response.Preferably, the processor adopts WiFi with client Or bluetooth approach connection.

Further improving is, described Wearable dynamic cardiovascular disease monitoring instrument, also including memorizer；The storage Device is connected with processor.

In order to all of data that will be received from A/D converting units provide caching and local backup, by memorizer and place Reason device connection, so as to pass through processor by backup in need data storage in memorizer, it is preferable that the memorizer is Flash memory disk.

Further improvement is that the signal condition unit is AD8232 analog front-end chips.

In order to optimize process of the signal condition unit to analogue signal, obtain more accurately detecting data and result, adopt With the high AD8232 analog front-end chips of functional integration, the ability of data processing can be effectively lifted, lift final detection knot The accuracy of fruit；The signal condition unit of the present invention can also adopt the existing process side by using wave filter, amplifier Formula is processed the data collected by lattice array electrode, so as to other signals in the analogue signal for reducing acquired original Affect.

Further improvement is that the A/D converting units are super low consumption analog-digital converter.

A/D converting units are adopted into super low consumption analog-digital converter, overall power consumption can be effectively reduced, the present invention is lifted Service behaviour.

Further improvement is that the processor is STM32L0.

The stronger MCUSTM32L0 of data capability, be conducive to strengthening entirety of the invention the analysis ability to detection data and Other performances, so as to the operation for ensureing the present invention is more smooth, the result of monitoring is more accurate.

Claims (9)

1. a kind of Wearable dynamic cardiovascular disease monitoring instrument, it is characterised in that including lattice array electrode, signal condition unit, A/D converting units and processor；The lattice array electrode is connected with signal condition unit, and the signal condition unit turns with A/D Unit connection is changed, the A/D converting units are connected with processor；The lattice array electrode include with array arrange several Ag/AgCl adhesive electrode pieces；Each Ag/AgCl adhesive electrode piece is connected with signal condition unit.

2. Wearable according to claim 1 dynamic cardiovascular disease monitoring instrument, it is characterised in that also including right leg drive Circuit；The driven-right-leg circuit is connected with signal condition unit.

3. Wearable according to claim 2 dynamic cardiovascular disease monitoring instrument, it is characterised in that also including cloud platform； The processor is connected with cloud platform.

4. Wearable according to claim 3 dynamic cardiovascular disease monitoring instrument, it is characterised in that also including client； The processor is connected with user client communication.

5. Wearable according to claim 4 dynamic cardiovascular disease monitoring instrument, it is characterised in that also including memorizer； The memorizer is connected with processor.

6. Wearable according to claim 1 dynamic cardiovascular disease monitoring instrument, it is characterised in that the lattice array electrode Also include lattice array electrode body；Described several Ag/AgCl adhesive electrode pieces are fixed on lattice array electrode body.

7. Wearable according to claim 1 dynamic cardiovascular disease monitoring instrument, it is characterised in that the signal condition list Unit is AD8232 analog front-end chips.

8. Wearable according to claim 1 dynamic cardiovascular disease monitoring instrument, it is characterised in that the A/D conversions are single Unit is super low consumption analog-digital converter.

9. Wearable according to claim 1 dynamic cardiovascular disease monitoring instrument, it is characterised in that the processor is STM32L0。