CN2875319Y - Electronic hemopiezometer for measuring blood viscosity, blood vessel elasticity and blood pressure simultaneously - Google Patents

Abstract

An electronic sphygmomanometer that can complete the blood viscosity, blood vessel flexibility and blood pressure measurements at one time, on the basis of the components of traditional sphygmomanometer products, the utility model increases a blood pressure data extraction unit, a pulse waveform extraction unit and a heart rate calculation unit; the output and amplified pressure signals from a storage unit, and the pressure waveform data in the digital signal are supplied to the blood pressure data extraction unit, the pulse waveform extraction unit and the heart rate calculation unit for further waveform processing respectively. The utility model overcomes the disadvantage of the difficulty in pinpointing the location during the pulse wave collection of the traditional pulse wave acquisition device, and enhances the anti-jamming ability; the utility model combines the blood pressure measurement and the pulse wave acquisition together, with the simple and fast operation, thus to eliminate the additional errors caused by the separated blood pressure measurement and the pulse wave acquisition.

Description

Once finish the electric sphygmomanometer of blood viscosity, blood vessel elasticity and blood pressure measurement

Technical field

This utility model relates to a kind of electronic measuring device of non-invasive measurement cardio-vascular parameters, particularly relate to a kind of electric sphygmomanometer that utilizes and in the process of measuring blood pressure, gather pulse wave simultaneously, measure the electronic measuring device of blood viscosity, blood vessel elasticity, blood pressure and heart rate.

Background technology

Cardiovascular disease worldwide is one of principal disease that threatens human health always.At present, no matter be from being in the health care aspect or the needs of medical aspect, it is more and more to be used for the electronic medical instruments product category that this type of disease measures on the market, and function is also more and more complete.Wherein modal is electric sphygmomanometer, can guard measurement to blood pressure, the cardiovascular patient is had significantly help.Simultaneously, blood vessel elasticity is one of important indicator of cardiovascular health situation.If in the monitoring blood pressure, can often monitor blood viscosity, blood vessel elasticity and change, to finding and prevent the cardiovascular diseases early, and the daily nursing of cardiovascular patient is all had great importance.

But present electric sphygmomanometer product mostly can not be simultaneously to blood viscosity, even blood vessel elasticity is measured.Therefore, on existing electric sphygmomanometer, how to realize the measurement of blood viscosity and blood vessel elasticity, just become a problem that industry needs to be resolved hurrily.

About the measuring method of blood viscosity, several frequently seen prior art exists following defective usually:

1. the means of the most direct measurement blood viscosity chemical examination of need drawing blood, simultaneously, blood vessel elasticity can be checked with means such as doppler ultrasounds.Need to use professional instrument to carry out by the professional but do these checks to hospital, both time-consuming, effort, and also price is higher, is difficult to accomplish self-monitoring and often monitoring.

2. also have a kind of common non-invasive measurement blood viscosity and the method for blood vessel elasticity.By tracing the waveform of human body artery beat pulse, pulse wave such as radial artery, the method of employing manual method or Computer Automatic Recognition finds the characteristic point of pulse wave, the reuse conventional method is measured blood pressure, calculates cardio-vascular parameters such as blood is sticking, blood vessel elasticity then by some clinical experience parameters and according to a series of formula that the cardiovascular system kinetic model is derived.

This non-invasive measurement method of utilizing the arterial pulse waveform when gathering pulse wave, adopts strain chip or piezoelectric force transducer more.User is when using this force transducer, need make on its skin that is close to measured's wrist radial artery place, the conduct vibrations of measured's Artery Vein wall is to force transducer, and force transducer is converted to the signal of telecommunication to the pressure signal at wrist place and by instrument waveform recording is got off.But the shortcoming of this collection pulse wave method is: need adjust sensing station repeatedly so that find the stronger position of beat pulse on the wrist.In the real operation, often take place so, will certainly cause interference to measured signal because influences such as measured's vessel position, tissue thickness are difficult to find suitable position, use rather inconvenience, measurement result is inaccuracy often also.Moreover, in this above-mentioned measuring method, trace pulse wave and need carry out separately with the measurement blood pressure, increased the complexity of operation.Moreover, since characteristics of human body such as blood pressure be in time, environmental change, the independent measurement meeting causes the variation owing to the passing of time and environment to be easy to generate additional measurement error.

The utility model content

This utility model is just in order to solve above-mentioned existing in prior technology defective, and the electric sphygmomanometer of blood viscosity, blood vessel elasticity and blood pressure measurement is once finished in proposition, by measuring in the process of blood pressure at oscillographic method, gather the data of pulse wave simultaneously, thereby carry out the measurement of blood viscosity, blood vessel elasticity, blood pressure and heart rate.

This utility model provides a kind of electric sphygmomanometer of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement, the gas circuit that comprises air bag 10, air valve 11, air pump 12 and be used for being connected with air bag; Silicon pressure sensor 13, amplifying circuit 14, A/D converting unit 15, memory element 16, air bag 10 connects miniature air valve 11, air pump 12 and silicon pressure sensor 13 by gas circuit, air bag 10 inflation back compressing measured's wrist, the pressure at measured's wrist place conducts to silicon pressure sensor 13 through air bag 10; Silicon pressure sensor 13 will convert the signal of telecommunication to from the air pressure signal of air bag 10; Amplifying circuit 14 amplifies the signal of telecommunication of silicon pressure sensor output; A/D converting unit 15 receives amplified analog signal and converts thereof into digital signal; After the A/D conversion, be kept in the memory element 16, it is characterized in that:

This device also comprises blood pressure data extraction unit 18, pulse wave extraction unit 20 and heart rate computing unit 21, the pressure signal of exporting from memory element through amplifying is supplied with blood pressure data extraction unit 18, pulse wave extraction unit 20 and heart rate computing unit 21 respectively with the pressure waveform data of digital signal form and is made further waveform processing.

Different with the conventional techniques means of relevant this technology in the conventional art, this utility model is gathered the pulse wave at wrist place by air bag, because the area that air bag contacts with human body is bigger, needn't painstakingly seek the position of pulse during use, use traditional method to gather the weakness that pulse wave is difficult for capturing position thereby overcome, the capacity of resisting disturbance when gathering pulse wave strengthens to some extent; On the other hand, this utility model is gathered the pulse wave under the different static pressure in the whole measuring process, and be higher than systolic pressure according to static pressure in the air bag, between systolic pressure and the diastolic pressure, the situation that is lower than diastolic pressure is handled respectively, has obtained more information than only gather pulse wave under a kind of fixation pressure.In addition, this utility model unites two into one blood pressure measurement process and collection pulse wave process, make user operation easier, measures more fast, got rid of simultaneously and measured blood pressure and gather pulse wave when separately carrying out the additive error of being brought owing to time and environmental change.

Be elaborated below in conjunction with embodiment and with reference to the technical scheme of accompanying drawing to this utility model.

Description of drawings

Fig. 1 is the functional unit block diagram representation of the electronic blood pressure counter device of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement that this utility model proposed.

Fig. 2 is the work process curve chart of the blood pressure data extraction unit of the electric sphygmomanometer implementation method of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement that this utility model proposed.

Fig. 3 is the pressure oscillation curve chart of the electric sphygmomanometer implementation method of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement that this utility model proposed.

Fig. 4 is the pulse wave curve chart of the electric sphygmomanometer implementation method of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement that this utility model proposed.

Fig. 5 is the functional unit block diagram representation of the A/D modular converter of the electric sphygmomanometer implementation method of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement that this utility model proposed.

The specific embodiment

All kinds of monitors and electric sphygmomanometer extensively adopt oscillographic method to realize no-invasive measurement of blood pressure on the market.Adopting oscillographic method to measure blood pressure can carry out at upper arm or wrist place.When using oscillographic method to measure blood pressure, inflation makes air pressure surpass measured's systolic pressure in cuff or wrist strap, and when air bag was exitted gradually, the vibration of human artery wall caused the concussion of cuff or wrist strap pressure.Pressure oscillation on cuff or wrist strap goes on record.The amplitude of Sasser sequence can obtain the envelope that shock range changes with cuff or wrist strap pressure in the match pressure decline process, the important evidence that is shaped as definite diastolic pressure and systolic pressure of envelope.Pressure in its maximum point correspondence is that average tremulous pulse is intrinsic pressure.And systolic pressure and diastolic pressure can not directly record, and are obtained by the blood pressure algorithm.

The criterion of systolic pressure and diastolic pressure roughly is divided into two classes, and a class is the normalization criterion, and another kind of is the catastrophe point criterion.The normalization criterion is exactly the amplitude of vibration signal to be compared with the maximum amplitude of signal carry out the normalizing processing, by determining that systolic pressure and diastolic pressure get normalized value and discern systolic pressure and diastolic pressure.The catastrophe point criterion thinks that systolic pressure and diastolic pressure correspondence the point that the vibration wave amplitude is undergone mutation, and promptly discerns the flex point of Sasser envelope, can adopt the method for fitting of a polynomial.

No matter adopt which kind of blood pressure algorithm, a key technology of oscillographic method measurement blood pressure is to obtain cuff or the wrist strap internal pressure is pressed onto the envelope that is lower than wave of oscillation amplitude the diastolic pressure change procedure from being higher than to shrink.Below in conjunction with accompanying drawing, the technical scheme that this utility model adopted is further described.

As shown in Figure 1, be the functional unit block diagram of once finishing the electric sphygmomanometer of blood viscosity, blood vessel elasticity and blood pressure measurement of the present utility model.This device comprises being used for signal input block that receives and change and the output unit that is used for calculated signals and extraction from functional perspective.Input block comprises: air bag 10, air valve 11, air pump 12 and both are used for the gas circuit that is connected with air bag; Silicon pressure sensor 13, amplifying circuit 14, A/D converting unit 15, memory element 16.And output unit comprises: blood pressure computing unit 17, blood pressure data extraction unit 18, blood viscosity/blood vessel elasticity computing unit 19, pulse wave extraction unit 20 and heart rate computing unit 21.

Air bag 10 connects miniature air valve 11, air pump 12 and silicon pressure sensor 13 by gas circuit, air bag 10 inflation back compressing measured's wrist, and the pressure at measured's wrist place conducts to silicon pressure sensor 13 through air bag 10; Silicon pressure sensor 13 is used for converting the air pressure signal from air bag 10 to the signal of telecommunication; Amplifying circuit 14 is used for the signal of telecommunication of silicon pressure sensor output is amplified; A/D converting unit 15 receives amplified analog signal and converts thereof into digital signal; After the A/D conversion, be converted to digital signal by the analogue signal amount, the pressure waveform data that originally come from the air bag 11 are kept in the memory element 16 with the digital signal form after amplifying.This pressure signal after amplifying in the memory element is supplied with blood pressure data extraction unit 18, pulse wave extraction unit 20 and heart rate computing unit 21 respectively with the pressure waveform data of digital signal form and is further processed.

The processing of blood pressure data extraction unit 18 comprises: extract wave of oscillation sequence from the reset pressure Wave data, and further obtain the envelope that oscillation amplitude changes with wrist strap pressure in view of the above.

As shown in Figure 2, be the work process curve of blood pressure data extraction unit.It is the sketch map of the pressure waveform that changes with Measuring Time in the air bag that is collected in the one-shot measurement process.Air bag 10 at first is pressurized to the blood pressure systolic pressure above the measured, and then slowly venting descends the pressure in the air bag 10 gradually.In the pressure decline process in air bag 10, the vibration of human artery wall causes the vibration of wrist strap pressure, therefore among the figure slowly the pressure curve 201 of descending branch be the curve of pulse wave of on the static pressure baseline of an inclination, having superposeed, wherein, static pressure baseline 202 obtains by the method for the minimum point of each heartbeat waveform of connection; The pressure curve 201 of descending branch is deducted static pressure baseline 202, extract the curve of the intracapsular pressure vibration that beat pulse causes, as shown in Figure 3.

Find out that by Fig. 3 the amplitude of pressure oscillation curve 301 changes with the different of static pressure in the air bag with shape.Oscillation amplitude is less when the static pressure in the air bag 10 is higher than measured's systolic pressure, and along with the static pressure in the air bag 10 reduces gradually up to the diastolic pressure less than the measured, the oscillation amplitude of pulse wave is changed from small to big earlier; Then again from large to small.The summit that connects each pressure oscillation curve, obtaining with the static pressure is abscissa, the pulse wave amplitude is the envelope 302 of vertical coordinate.This envelope is the foundation of oscillographic method calculating blood pressure.

The function of pulse wave extraction unit 20 is the waveforms that extract single pulse wave from the reset pressure Wave data.With tradition directly pick off is placed on measured's wrist place gather the method for radial pulse waveform different be: traditional method is gathered pick off in the waveform process and is pressed in the skin surface at measured's radial artery place with constant compression force, and therefore the baseline of the pulse wave that records is level basically; This utility model in gathering the process of waveform the static pressure in the wrist strap all the time in continuous decline, so the pulse wave that will obtain the wrist place at first will be got rid of the wave distortion that static pressure constantly descends and causes.

As shown in Figure 4, suppose that the waveform 401 that collects in the heart beat cycle is P (x).Here the starting point and the terminal point that connect a heart beating with straight line 402, this straight line can be thought the curve of the interior static pressure decline of heart beat cycle.As initial point, then the equation of this straight line 402 can be written as with the starting point of heartbeat waveform

K is this collinear slope in the y=kx formula.

Make q (x)=p (x)-kx

Through above-mentioned processing, the waveform 403 of q (x) representative is for having eliminated the pulse wave of the continuous decline of static pressure to the influence of waveform.

Another difference that this utility model is gathered pulse wave and traditional method is: because there are ulnar artery and two tremulous pulsies of radial artery in the human body wrist place, the two forms deep palmar arch and can be combined into vascular ring at metacarpus, so the pulse wave that obtains at the wrist place with air bag is the stack of two red artery waveforms.Under different static pressure, the pulse wave that air bag collects is the amplitude difference not only, and its shape also changes along with the difference of human body artery blocking-up situation.This utility model is gathered the pulse wave under the different static pressure in the whole measuring process, and be higher than systolic pressure according to static pressure in the air bag, between systolic pressure and the diastolic pressure, the situation that is lower than diastolic pressure is handled respectively, therefore uses this acquisition method than using traditional method and can obtain more information.

Blood pressure computing unit (17) is used the normalization criterion according to above-mentioned wave of oscillation amplitude envelops line and is identified high pressure and low pressure.Heart rate is directly calculated according to period of oscillation by heart rate computing unit (21).Blood viscosity, blood vessel elasticity computing unit (19) are analyzed the shape of pulse wave, find the characteristic point of pulse wave, extrapolate blood viscosity and blood vessel elasticity through mathematical operation and logical judgment according to parameter such as the amplitude of the position of characteristic point, pulse wave, area and in conjunction with blood pressure, heart rate data.

The electronic blood pressure counter device of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement that this utility model proposed also comprises: parts such as wrist strap, casing, circuit board, single-chip microcomputer, LCDs, button.

Wrist strap links to each other with casing by Plastic hanger; Measuring air bag is fixed on wrist strap inside; Circuit board, air pump and air valve are installed in the casing; Components and parts such as silicon pressure sensor, amplifying circuit, A/D change-over circuit, scratch pad memory, single-chip microcomputer are installed on the circuit board; Button for the user operation is arranged on the casing; The liquid crystal display screen that is used for showing the measurement result detecting information also is installed on the casing; Blood pressure data extraction unit, pulse wave extraction unit, heart rate computing unit, blood pressure computing unit, blood viscosity/blood vessel elasticity computing unit are solidificated in the inside of single-chip microcomputer with the form of program software; Complete machine uses battery powered.

This device uses micro air pump and air valve to dwindle machine volume, and whole instrument can be fixed on the user wrist by wrist strap.For adapting to battery powered, the electronic devices and components that this instrument uses all adopt the model of low-power consumption.Because the pressure oscillation in the air bag that measured's beat pulse causes is extremely faint, the shape that detects very little pressure oscillation and will discern fluctuation under very big static pressure needs very high resolution and sample rate faster, for this this instrument has carried out special design to A/D conversion portion circuit.Adopt integration type voltage---pulse-width conversion circuit, cooperated the pulse width measure module on the single-chip microcomputer to finish the A/D translation function.

Fig. 5 is the block diagram of A/D modular converter.Silicon pressure sensor 51 is driven by constant-current source 52.The ultra-weak electronic signal of silicon pressure sensor 51 output is through the two ends that amplifying unit 53 amplifies back and the common input voltage comparator 55 of output signal of the sawtooth generator 54 of one-period and constant amplitude, pulse width that comparator 55 is exported and silicon pressure sensor be output into direct ratio.

Pulse width measure module on the single-chip microcomputer can be measured the width of this pulse with very high count frequency.

The program software that is solidificated in the single-chip microcomputer just can record the pressure that is applied on the silicon pressure sensor by the register value that reads the pulse width measure module.Can obtain to surpass sampling resolution and the above sampling rate of 50Hz of 14Bit in this way.

The flow process that this instrument is measured by Single-chip Controlling.The measured only need tie up the wrist strap volume on wrist during use, and the measurement key of pressing on the instrument can begin to measure.

This instrument detecting is pressed the back miniature inflator pump of startup to the airbag aeration in the wrist strap, compressing measured's wrist behind the airbag aeration to measuring key.Single-chip microcomputer monitors the pressure in the air bag in the gas replenishment process, and air pump stops inflation when pressure is elevated to preset value.Then, the air in the air bag is slowly released by air valve, and the pressure in the air bag descends gradually.In the beginning of pressure decline process several seconds, single-chip microcomputer detects the pressure oscillation in the air bag, if detect the systolic pressure that the blowing pressure is lower than the measured, just booster air pump is with pressure step of pressure rising once more, and the pressure in air bag is higher than till measured's the systolic pressure.In ensuing deflation course, the pressure waveform in the air bag is gathered and is stored, and blood pressure data extraction module and blood pressure computing module constantly attempt calculating systolic pressure and diastolic pressure according to available data in this stage.When intracapsular pressure be lower than measured's diastolic pressure and program software judge have enough data to carry out computing after, this instrument is opened vent valve fully and is bled off residual air in the air bag fast.Then, the software in the single-chip microcomputer through computing and logical analysis, calculates measured's blood viscosity, blood vessel elasticity, blood pressure and heart rate according to collecting the pressure waveform data, at last measurement result is shown on liquid crystal display screen.

Claims (6)

1. electric sphygmomanometer of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement, the gas circuit that comprises air bag, air valve, air pump and be used for being connected with air bag; Silicon pressure sensor, amplifying circuit, A/D converting unit, memory element, air bag connects miniature air valve, air pump and silicon pressure sensor by gas circuit, compressing measured's wrist behind the airbag aeration, the pressure at measured's wrist place conducts to the silicon pressure sensor through air bag; The silicon pressure sensor will convert the signal of telecommunication to from the air pressure signal of air bag; Amplifying circuit amplifies the signal of telecommunication of silicon pressure sensor output; The A/D converting unit receives amplified analog signal and converts thereof into digital signal; After the A/D conversion, be kept in the memory element, it is characterized in that:

Also be included in the memory element outfan in the sphygomanometer and be provided with blood pressure data extraction unit, pulse wave extraction unit and heart rate computing unit, the pressure signal of exporting from memory element through amplifying is supplied with blood pressure data extraction unit, pulse wave extraction unit and heart rate computing unit respectively with the pressure waveform data of digital signal form and is finished waveform processing.

2. the electric sphygmomanometer of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement as claimed in claim 1 is characterized in that, described A/D modular converter adopts integration type voltage/pulse-width conversion circuit.

3. the electric sphygmomanometer of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement as claimed in claim 1 or 2, it is characterized in that, described A/D modular converter further comprises sawtooth generator and voltage comparator, the silicon pressure sensor is driven by constant-current source, the ultra-weak electronic signal that it is exported is after amplifying unit amplifies, with the two ends of the common input voltage comparator of output signal of the sawtooth generator of cycle and constant amplitude.

4. the electric sphygmomanometer of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement as claimed in claim 2 is characterized in that, the pulse width of described comparator output and silicon pressure sensor be output into direct ratio.

5. the electric sphygmomanometer of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement as claimed in claim 1 is characterized in that this device also comprises wrist strap, casing, circuit board, single-chip microcomputer, LCDs, button.

6. the electric sphygmomanometer of once finishing blood viscosity, blood vessel elasticity and blood pressure measurement as claimed in claim 1 is characterized in that described wrist strap links to each other with casing by Plastic hanger; Described air bag is fixed on wrist strap inside; Circuit board, air pump and air valve are installed in the described casing; Components and parts such as silicon pressure sensor, amplifying circuit, A/D change-over circuit, scratch pad memory, single-chip microcomputer are installed on the described circuit board; Button is set on the described casing and the liquid crystal display screen that is used for showing the measurement result detecting information is installed; Blood pressure data extraction unit, pulse wave extraction unit, heart rate computing unit, blood pressure computing unit, blood viscosity/blood vessel elasticity computing unit are solidificated in single-chip microcomputer inside.

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