CN204813838U - Cardiovascular health monitoring device - Google Patents

Cardiovascular health monitoring device Download PDF

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Publication number
CN204813838U
CN204813838U CN201520052903.4U CN201520052903U CN204813838U CN 204813838 U CN204813838 U CN 204813838U CN 201520052903 U CN201520052903 U CN 201520052903U CN 204813838 U CN204813838 U CN 204813838U
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electrode
user
ear
electrocardiosignal
blood pressure
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Chinese (zh)
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周常安
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Individual
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  • Measurement And Recording Of Electrical Phenomena And Electrical Characteristics Of The Living Body (AREA)

Abstract

The utility model discloses a cardiovascular health detection device. This cardiovascular health monitoring device includes a casing, a control circuit, the arteries and veins area is pressed to an inflatable, it goes up limbs to be used for surrounding an user's no. 1, a pump, the holding is in this casing, an at least first electrode and a second electrode, and the structure is worn to an ear, it sets up on it to have this first electrode, wherein, when carrying out the blood pressure measurement, this this pump of treater control is brought into to go to this pressure arteries and veins and is aerifyd and exit, with the blood pressure that detects the user, and when carrying out electrocardio signal measurement, wear on user's an ear through wearing this ear the structure, so that the skin in the skin of this ear of electrode contact or near this ear, and through pressing the arteries and veins belt wheel around on this on the limbs most likely, so that the 2nd electrode contact should go up the skin of limbs, this treater can be via this first electrode and this second electrode and is captured the electrocardiosignal.

Description

Cardiovascular health monitoring device
Technical field
This utility model relates to a kind of cardiovascular health monitoring device, particularly a kind of cardiovascular health monitoring device with blood pressure and electrocardiosignal measurement function.
Background technology
Modern more and more focuses on oneself health, especially the health of cardiovascular aspect, sphygomanometer is then that in daily life, the most frequently used house of monitoring cardiovascular health uses one of monitoring device, be not only because it is easy to use, also because hypertension is one of risk factor being relevant to chronic disease as various in heart disease and diabetes etc.
The modal wherein a kind of sphygomanometer in current house is electronic sphygmomanometer, its operating process is for first to fix arm-rest belt, press start key more afterwards and wait for that blood pressure measurement completes automatically, such simple operations flow process allows user regularly can note down pressure value change easily every day, effectively controls self cardiovascular health status.
Recently, due to user demand and technical development, except the function of Measure blood pressure, part sphygomanometer also starts to provide the more heterogeneous information about cardiovascular system, such as, derived by arterial pulse and the relevant ARR information that obtains, if application number is namely propose the sphygomanometer that can provide and close atrial fibrillation (AF, AtrialFibrillation) information in the U.S. Patent application of US702514.
Generally speaking, in order to judge that ARR basis is electrocardiogram, and electrocardiogram is also at present can the information of accurate response cardiomotility, in normal ecg wave form as shown in Figure 1, P wave table shows the process of atrial depolarization, QRS ripple has reacted the rapid depolarization process of left and right ventricles, T wave table shows the rapid repolarization process of ventricle, PR interval referred to from P ripple to the time that QRS ripple starts, its signal of telecommunication having reacted heart is after sinuatrial node sends, the time needed for ventricle is imported into by atrioventricular node, ST section then represents the process of the slow repolarization of ventricle, therefore, by observing the change of shape of waveform, just can learn the information of each position activity of related cardiac, and use distinguish symptom be caused by that position of heart.
For example, common a kind of arrhythmia symptom--early onset shrinks (PrematureBeats), namely the early onset atrial systole (Prematureatrialcontractions betiding atrium is divided into, PAC), and occur in the early onset ventricular systole (Prematureventricularcontractions of ventricle, PVC) two kinds, when both differentiations, usually whether can there is exception by the shape of observing P ripple and/or QRS ripple and judge that contraction is from atrium or ventricle.And two kinds of early onsets shrink at this point, because ventricular systole is responsible for blood being pumped heart and being delivered to health everywhere, therefore when ventricular systole occurs abnormal, blood will be made normally to pump, cause health cannot obtain normal blood supply, therefore occur abnormal compared to atrial systole, ventricular systole is even more serious symptom extremely.
But, sphygomanometer is when providing arrhythmia relevant information, due to be based on arterial pulse, obtain heart rate after carry out ARR judgement again, generally speaking, when observing heart rate appearance exception, waveform via arterial pulse is often difficult to distinguish that foregoing early onset shrinks is be derived from atrium or ventricle, also cannot correctly allow user understand detected by the seriousness of symptom; In addition, because arterial pulse is the result recorded on limbs after heartbeat transmits in the blood vessel via blood, therefore it also also exists the problem that accuracy cannot be comparable with electrocardiogram, so, even if sphygomanometer first can filter out the arrhythmia symptom of a part really easily, but inevitably, ARR final judgement still needs by observing electrocardiogram and confirms.
In addition, during Measure blood pressure, in the inflation/deflation process of arm-rest belt, different pressure can be produced to the blood vessel of arm, when pressure is excessive, to the amplitude of arterial pulse may be caused to diminish because being urged to blood vessel, and therefore pulses measure carried out at this moment just may occur omitting, cause erroneous judgement, therefore it can thus be appreciated that, when utilizing the arm-rest belt of sphygomanometer to obtain arterial pulse, use there is more restriction, the impact of pressure change for blood vessel of arm-rest belt must be considered, and, when in order to judge arrhythmia, also need to consider whether cause incorrect diagnostic result.
So, according to aforementioned known, when discussing cardiovascular health, being preferably blood pressure measurement and Electrocardiography to list in simultaneously and considering.
Therefore, if can there be a device that blood pressure measurement and electrocardiosignal can be provided to measure two kinds of functions simultaneously, believe can be cardiovascular health monitoring field, especially about ARR screening and judgement aspect, bring very large improvement, also can be the convenience that clinical diagnosis provides suitable.
Sphygomanometer is the most common in current family and one of cardiovascular health monitoring device of tool high popularization degree, and compared to sphygomanometer, the electrocardiosignal measuring device used at home is not then more by people is familiar with, therefore, combine with sphygomanometer if electrocardio can be measured, just allow electrocardiosignal measure by user for the familiarity of blood pressure measurement operating process and more go deep into daily life, contribute to the cardiovascular health that self is more understood and grasped to user at home, also allow these two kinds of physiological signals be relative to each other more effectively be utilized.
Generally commonly can electrocardiosignal measuring device be used at home mostly to be Handheld electrocardio detecting device, its mode that user can be allowed to grip checkout gear with hands is measured, institute uses not to be needed to use conductive paste, directly contact skin just can carry out measuring and reusable dry-type electrode, therefore quite convenient for using at home.
Wherein a kind of common mode of operation is, when measuring, and user on the other hand grip device the electrode on contact device surface simultaneously, then by another hands of another electrode contact or trunk, as shown in FIG. 2 and 3, to obtain electrocardiogram.
But the greatest problem that such mode faces is caused because utilizing hands to carry out operation also.When adopting contact both hands form, as shown in Figure 2, can problems faced be that stable operation degree is low, cause is easy to the phenomenon occurred when measuring as instability such as hand shakes in the mode that both hands carry out measuring, cause measured electrocardiogram to occur the situation such as baseline drift, waveform distortions, as in Fig. 4 A the part that indicates, therefore, compared to normal electro-cardiologic signal waveforms, it will cause incorrect analysis result; In addition, when user wish hand remain stable and muscular tone or specially firmly to guarantee with electrode Contact time, be also easy to because firmly producing electromyographic signal, as shown in Figure 4 B, signal quality can be caused equally to decline, and then cause incorrect ecg analysis result.
When adopting the mode in grip device another side contact chest on the other hand, as shown in Figure 3, compared to bimanualness, can be comparatively stable, acquired signal is also stronger, just such mode of operation has a disadvantage, clothes must be raised exactly just can measure to contact chest, user can be allowed to have certain scruples, in addition, thoracic cavity, because breathing the fluctuating produced, also can be caused the electrode in contact chest to produce relative movement with between the electrode contacting hands, equally easily causes baseline drift and affect measured electrocardiogram.
Therefore, when electrocardio measurement is combined with sphygomanometer, kind and the configuration mode of electrode must be considered, to provide user nature and the mode of operation easily realized, also help further to obtain good signal quality, wherein, the factor affecting signal quality mainly comprises, external environment disturbs, skin and electrode Contact situation, and user operational motion etc., for example, electromagnetic wave in measurement environment may produce noise (noises) in acquired electrocardiosignal, and the electromyographic signal that during measuring, unstable contact action and excessive muscle tone produce may become artificial disturbance source (artifacts) etc., these all can affect signal quality, moreover, also need, it is considered that whether the action contacting electrode can incorporate in sphygomanometer operating process naturally, so just can avoid the trouble relearned, also the fluency of lifting operation, further increase and use wish.
So, when considering electrocardiosignal measurement to combine with sphygomanometer, really having and needing these factors by above-mentioned all to list consideration in, to draw the cardiovascular health monitoring device that the most applicable house uses.
In addition, another advantage measured in conjunction with blood pressure measurement and electrocardiosignal is then, when can obtain stable and clearly electrocardiosignal time, just can obtain relevant heart rate variability rate (HRV, HeartRateVariability) information, and then it is movable to understand autonomic nerve, therefore, also being one of factor affecting blood pressure based on autonomic nervous system, just learning that whether the hypertensive origin cause of formation is relevant with autonomic nerve by observing relation that the movable and pressure value of autonomic nerve changes.
Utility model content
Namely the purpose of this utility model is to provide a kind of cardiovascular health monitoring device, it can provide blood pressure measurement and electrocardiosignal to measure two kinds of functions, detect arrhythmia in order to Measure blood pressure and by detection arterial pulse and electrocardiosignal, wherein, this device comprises:
One blood pressure monitoring unit;
One inflated type bandage, is connected to this blood pressure monitoring unit, in order to the limbs around a user, to measure the blood pressure of this user and multiple continuous arterial pulse;
One arrhythmia detecting unit, in order to calculate the interval between every two continuous arterial pulses, to draw a time sequence signature, by this time series feature and acquiescence arrhythmia time series feature at least one of them compares, and when both conform to, determine an arrhythmia Possible event, wherein, when after this arrhythmia Possible event of decision, this cardiovascular health monitoring device enters the state that can measure electrocardiosignal;
One notice generation unit, in order to produce an announcement information, learns to allow user and occurs this arrhythmia Possible event and remind user to carry out electrocardiosignal measurement;
Wholeheartedly electric signal measurement unit, comprises at least two electrodes, in order to perform wholeheartedly electric signal measurement via this at least two electrode, and then obtains an electrocardiogram;
One storage element, in order to store this electrocardiogram obtained; And
One analytic unit, in order to analyze this electrocardiogram, and then other information relevant ARR information being provided and can being obtained by electrocardiogram.
Wherein, this default arrhythmia time series feature comprises following features: early onset shrinks, atrial fibrillation, and heart beating is excessively slow, tachycardia, and heart beating suspends.
Wherein, this relevant ARR information comprises ARR kind.
Wherein, this announcement information, by following one of them or many and present, comprises audible signal, visual signal, haptic signal.
Wherein, this two electrode at least one of them be embodied as be positioned at having structure one of them on, comprising: ear wears structure, refer to wear structure, and wrist wear structure.
Wherein, comprise a housing further, and this at least two electrode at least one of them be embodied as be positioned at this housing one on the surface.
Wherein, this two electrode at least one of them is embodied as and is positioned on this arm-rest belt.。
Another object of the present utility model is to provide a kind of cardiovascular health monitoring device, it is in the blood pressure measurement operating process known, naturally the electrode contact behavior needed for electrocardiosignal measurement is brought into, to promote user acceptance by reducing use complexity.
An object more of the present utility model is to provide a kind of cardiovascular health monitoring device, and it effectively and exactly can provide relevant and judge ARR information.
Another object of the present utility model is to provide a kind of cardiovascular health monitoring device, it detects arterial pulse by inflating pulse pressurized bandage, to judge whether that there is arrhythmia Possible event, and notify that user carries out electrocardiosignal measurement according to this, and allow user can obtain electrocardiogram in real time, to be conducive to confirming ARR generation and type further.
Another object of the present utility model is to provide a kind of cardiovascular health monitoring device, and it adopts initiatively can wear structure to the ear that skin near user ear and ear exerts a force, and contacts with stable between skin to provide the electrode that is located thereon.
Another object of the present utility model is to provide a kind of cardiovascular health monitoring device, and it adopts initiatively can wear structure to the finger that user finger skin exerts a force, and contacts with stable between skin to provide the electrode that is located thereon.
Another object of the present utility model is to provide a kind of cardiovascular health monitoring device, and electrode combines with arm-rest belt required during blood pressure measurement by it, to complete the contact between electrode and skin while arm-rest belt is around arm.
Another object of the present utility model is to provide a kind of cardiovascular health monitoring device, and electrode is arranged at the surface of housing by it, can complete contact between electrode and skin while around arm-rest belt to allow user.
Another object of the present utility model is to provide a kind of cardiovascular health monitoring device, and electrode is arranged at the surface of housing by it, can complete contact between electrode and skin to allow user while pressurization operation device.
Another object of the present utility model is to provide a kind of cardiovascular health monitoring device, it realizes the contact between electrode and skin by wear structure, be applicable to obtaining high-quality for a long time and measure electrocardiosignal, be conducive to carrying out HRV analysis, and then understand the relation of autonomic nerve activity and blood pressure.
Accompanying drawing explanation
Fig. 1 shows standard cardioelectric waveform;
Fig. 2 shows a kind of mode of operation of existing Handheld electrocardio detecting device;
Fig. 3 shows the another kind of mode of operation of existing Handheld electrocardio detecting device;
Fig. 4 A shows the ecg wave form of baseline drift;
Fig. 4 B shows the ecg wave form affected by electromyographic signal;
Fig. 5 display is according to the block schematic diagram of cardiovascular health monitoring device of the present utility model;
Fig. 6 A-6C shows the exemplary embodiment wearing structure according to ear of the present utility model;
Fig. 7 display wears the schematic diagram of skin near the ear that structure can contact according to ear of the present utility model;
Fig. 8 A-8B shows the exemplary embodiment wearing structure according to finger of the present utility model;
Exemplary in conjunction with example according to electrode of the present utility model and arm-rest belt of Fig. 9 display;
Figure 10 display has the exemplary embodiment of another housing carrying start key according to cardiovascular health device of the present utility model;
Figure 11 A-11H figure shows the exemplary embodiment that electrode of the present utility model is combined with housing;
Figure 12-15 shows according to cardiovascular health monitoring device of the present utility model, and electrode is embodied as the exemplary embodiment being positioned at ear and wearing in structure and combine with arm-rest belt;
Figure 16 display is according to cardiovascular health monitoring device of the present utility model, and electrode is embodied as and is positioned at ear and wears structure and wrist wears structural exemplary embodiment;
Figure 17-19 shows according to cardiovascular health monitoring device of the present utility model, and electrode is embodied as and is positioned at ear and wears structure and refer to wear structural exemplary embodiment;
Figure 20 display is according to cardiovascular health monitoring device of the present utility model, and electrode is embodied as the exemplary embodiment being positioned at and referring to wear in structure and combine with arm-rest belt;
Figure 21 display is according to cardiovascular health monitoring device of the present utility model, and electrode is embodied as the exemplary embodiment being positioned in finger-worn type structure and combining with surface of shell;
Figure 22 display is according to cardiovascular health monitoring device of the present utility model, and electrode is embodied as and lays respectively at two fingers and wear structural exemplary embodiment;
Figure 23-24 shows according to cardiovascular health monitoring device of the present utility model, and electrode is embodied as the exemplary embodiment being positioned at ear and wearing in structure and combine with surface of shell;
Figure 25-27 shows according to cardiovascular health monitoring device of the present utility model, and electrode is embodied as the electrode combined with surface of shell and the exemplary embodiment combined with arm-rest belt;
Figure 28 display is according to cardiovascular health monitoring device of the present utility model, and electrode is embodied as the exemplary embodiment being positioned at ear and wearing in structure and combine with surface of shell;
Figure 29 display is according to this utility model cardiovascular health monitoring device, and electrode is all positioned at the exemplary embodiment of surface of shell;
Figure 30 A-30B shows according to cardiovascular health monitoring device of the present utility model, and an electrode is positioned at surface of shell, and another electrode is positioned at ear and wears in structure or to wear structural exemplary embodiment at finger;
Figure 31 display is according to an operational flowchart of cardiovascular health monitoring device of the present utility model; And
Figure 32-34 shows the exemplary embodiment according to the announcement information of cardiovascular health monitoring device of the present utility model.
Wherein, description of reference numerals is as follows:
10 control circuits
12 arm-rest belts
14 electrodes
100 start keys
101 another housings
111 surfaces
112 bearing structures
113 electrodes
114 openings
115 groove structures
116 another electrodes
20 another housings
201 start keys
202 electrodes
90 electrodes
Detailed description of the invention
This utility model is relevant to a kind ofly has the cardiovascular health monitoring device that blood pressure measurement and electrocardiosignal measure two kinds of functions, it can when deferring to the operating habit of blood pressure measurement, user is allowed naturally to record electrocardiogram, therefore, just can obtain by operating single device the multiple important information being relevant to cardiovascular health.
First, refer to Fig. 5, it is the schematic diagram according to this utility model cardiovascular health monitoring device, as shown in the figure, this cardiovascular health monitoring device comprises a control circuit 10, one arm-rest belt 12, one pump, one air valve, one pressure transducer, and at least two electrodes 14, at this, this control circuit 10 is embodied as and can performs blood pressure measurement via connected arm-rest belt 12 and electrode 14 and electrocardiosignal is measured, therefore, this control circuit 10 also can comprise, but be not limited to, some be used for realize measure common electronics element, such as, processor, at least one A/D converter, wave filter, amplifier etc., because these are all common content to those skilled in the art, therefore repeat no more.
According to cardiovascular health monitoring device of the present utility model, also there is a housing, so that this control circuit and this pump etc. are placed in wherein, at this, this housing can be embodied as and combines with arm-rest belt and be arranged at it user during measuring, or, also can be embodied as and be separated with arm-rest belt, and be not arranged at when measuring with it user, in addition, this surface of shell can be embodied as has operation interface, such as, display element, start key, input key etc.
Due to according to cardiovascular health monitoring device of the present utility model be on the basis of Measure blood pressure add utilize electrocardioelectrode to carry out the function of electrocardiosignal measurement, therefore, this utility model device is when implementing, overall appearance structure does not specifically limit, as long as generally common electric sphygmomanometer is all the structure that can be used as this utility model basis, such as, arm sphygnonanometer as shown in figure 12 and as shown in fig. 13 that Wrist blood pressure meter etc. are all applicable, and such practice is also user can be carried out measuring according to the electrocardiosignal of this utility model concept in the operation behavior be familiar with.
In this utility model, the measurement of electrocardiosignal mainly adopts the mode by directly contacting skin just can obtain the dry-type electrode of electrocardiosignal, when using dry-type electrode, compared to traditional reusable wet type electrode, user can when not needing conductive paste, electrocardiosignal measurement is carried out by direct skin contact electrode, therefore measure and can perform easily easily at any time, in addition, compared to deserted electrode patch, because dry-type electrode is not easy damage and maintain simple and easy, reusable, therefore the inconvenience changing electrode and the cost increased is decreased.In this utility model, dry-type electrode can be embodied as, but is not limited to, the electrode of stainless steel, the electrode made by conductive fibre fabric, and conductive rubber electrode etc., without any restriction.Moreover, alternatively, the electrode not needing directly to contact skin also can be embodied as, such as, utilize capacitive way, induction mode or electromagnetic mode and obtain the electrode of electrocardiosignal, just need not can carry out electrocardiosignal measurement by the medium as conductive paste equally, there is ease of use.
As for how electrode being integrated in sphygomanometer, this utility model is then set about by the operating process of blood pressure measurement, use lifting ease of use, and when arranging electrocardioelectrode, also consider further and how to realize simple and meet the mode of operation of ergonomics, contact to guarantee between electrode with user skin stable.
The operation sequence of general electronic sphygmomanometer is: after arm-rest belt is surrounded on arm or wrist, when keeping horizontal level and heart is contour, pressing start key and maintains stable posture and allow machine automatically complete measurement.
From the above, arranging arm-rest belt and pressing start key is indispensable operating process, and namely concept of the present utility model is the action by measuring the necessary contact electrocardioelectrode of electrocardiosignal, being merged into when carrying out blood pressure measurement is bound in the operational motion of execution, to avoid the increase of operating procedure as far as possible, thus, user also does not just need to relearn operating process.
Moreover another emphasis considered is the binding site of electrode on sphygomanometer.In order to obtain good signal quality, this utility model is on the setting position of electrode and the selection of the way of contact, mainly have employed two conceptions of species, the first, by selecting contact position and design electrode structure, allow electrode positive force contact the skin of user, thus, namely contact between electrode and skin is no longer dependent on user force, not only can improve contact stabilization, also can avoid electromyographic signal and artificial disturbance source (artifact); Second, when needs user force contact electrode, can the easily and natural position that contacts of realization by electrode is arranged on, and allow user can carry out electrode contact with posture easily, to increase stability during contact, allow the impact in artificial disturbance source be down to minimum, also can reduce muscle tone, reduce and produce electromyographic signal, in addition, if add the surface being embodied as by electrode contact surface and having ergonomics, contact stabilization also can obtain further to be guaranteed, more effective promotion signal quality.
Therefore, this utility model is based on above-mentioned concept when determining electrode position and form of implementation.And namely one of them proposition according to this may be the conception be arranged at by electrode on ear.
Although, the body part that ear can participate in when being not general blood pressure measurement, but, utilize ear to have an advantage to be as the position of contact electrode, ear and near be the minimum region of electromyographic signal, add the relative position relation of quite stable between itself and head, even if therefore user health during measuring occurs mobile, such as, rotate health a little or rotate neck, contact between electrode and skin still can remain stable, can not produce the interference affecting measurement result too much.
In addition, in general daily life, compared to other body parts, ear is the less position being subject to medicated clothing and covering, and can directly contact whenever necessary relatively easily, avoid lifting the puzzlement that clothes carries out measuring, moreover ear and skin around thereof also have the less characteristic of hair, the contact between electrode and skin can light clog-free realization, therefore, be select quite easily for user.
In addition, the available various fixed form because of ear structure, such as, earplug, ear clip, ear-hang etc., as shown in figs 6 a-6 c, be all fixed form common in general daily life, user does not need to relearn, and can very naturally be configured, therefore, user only needs, simply as worn earphone at ordinary times or electrode being sandwiched in the action on ear-lobe, can complete electrode and arrange; And, when being arranged on ear by electrode by above-mentioned fixed form, the contact of electrode and skin does not need user to exert a force can to realize, therefore occur muscular tone hardly, the interference of electromyographic signal can be reduced to minimum, can obtain good signal quality.
As for obtaining electrocardiosignal in which position on ear, being then not restriction, can be any position of ear itself, such as, auditory meatus is interior, ear-lobe, auricle inner face, such as, and cavity of auricular concha, auditory meatus mouth near zone etc., helix and the auricle back side, and as shown in Figure 7, the region near ear, such as, skin etc. near ear and head capsule intersection, these positions are all can in order to contact electrode and to obtain the position of electrocardiosignal.
Therefore, only need extend the electrode that can contact with ear from main frame or by being combined with the structure of arm-rest belt, allowing user put on after setting up arm-rest belt, just very naturally can complete electrode and arrange, and obtain good electrocardiosignal.
At this, two ears be all can select wear position, but, learn after experiment, the setting position of another electrode has the impact of certain degree for signal quality, wherein, when another electrode is arranged at left upper extremity, the quality of the electrocardiosignal obtained is much better than the signal acquired by right upper extremity, therefore, when carrying out electrocardiosignal in the mode contacting ear and measuring, be preferably the skin of another electrode contact left upper extremity, to avoid causing signal quality bad because of contact right upper extremity, and then cause analyzing generation erroneous judgement.
When reality is implemented, contact between electrode with ear is worn structure by an ear that can combine with ear and realizes, wherein, electrode is arranged on this ear and wears the position that can touch skin when structure combines with ear, therefore, when ear wear structure be fixed on ear time, electrode and ear or near it contact of skin namely complete simultaneously.
This ear wears structure can have various forms, for example, when this ear wear structure be embodied as earplug form time, electrode can be arranged on earplug, naturally to realize the contact with skin in auditory meatus, as shown in Figure 6A, in addition, if through particular design, the structure of earplug is also extensible and meet the curve of the inner face of auricle further, provides another kind of electrode contact locations to select; When being embodied as ear clip form, such as, be located in (Fig. 6 B) on auricle or on ear-lobe, electrode can be arranged at the inner side of ear clip, with the contact completed while sandwiched and between auricle or ear-lobe; When being embodied as ear-hang form, as shown in 6C figure, in a preferred embodiment, electrode can be embodied as on the hook member that is positioned at and extends to the ear back side, and contacts the skin at the auricle back side or the skin of ear rear and head junction, at this, this hook member can, for example, by the elasticity of material own or by structural design, and have towards the force in skin direction, and with produce stable contact between skin.
At this, be that it is for example purposes only that above-mentioned relevant ear wears describing of structure, is not construed as limiting with should be noted, such as, also can be embodied as the structure in conjunction with two kinds of forms, such as, earplug is combined with ear-hang form and implements, therefore, can change according to actual demand, not restriction.
Or, also can be embodied as and utilize the mode of magnetic force and be attached on ear, for example, can utilize across ear two parts that magnetic is attracting each other, and electrode be arranged at two parts or the mode wherein on parts and reach, at this, two parts can be embodied as has magnetic, such as, through inside, there is magnetisable material, or itself be the mode of magnetisable material, or be embodied as by can by magnetic attraction material made by, or the material that can be subject to magnetic attraction is set in inside, for example, can be embodied as there is magnetic force by parts, and another parts can be magnetically attracted, or, also can be that two parts are all embodied as and have magnetic force, various enforcement possibility can be had, not restriction.
In addition, in a preferred embodiment, this ear is worn structure and also can be embodied as with the electrode on it and be connected with arm-rest belt or housing by connectivity port, thus, when user do not need to carry out electrocardio measure time, just ear can be worn structure and remove.
At this, in order to avoid acquired electrocardiosignal is via connecting line induced environment noise, can process in advance in ate electrode when obtaining signal, such as, the processing of circuit such as amplification, buffering, filtering, digitized, to guarantee the definition of signal, and, required circuit also can be embodied as further and be contained in this ear and wear in structure, not restriction.
Moreover according to this utility model conception on the other hand, electrode also can be embodied as by referring to that wearing structure carried, such as, finger ring type structure or the belt body around finger.Refer to that wearing structure wears structure with ear and have same advantage, because refer to wear form to user, also be the occupation mode be familiar with and need not relearned, only when for measuring, directly need be incorporated into the contact that finger can complete between electrode and skin by referring to wear structure, operating process is naturally convenient, and the contact force between electrode and skin wears structure by finger to realize finger force, as long as user loosens the hands wearing electrode, the impact of muscle tone can be reduced to minimum equally.
At this, the setting position of structure on finger is worn according to finger of the present utility model, be preferably the dactylus at proximal phalanx or middle phalanx place, to avoid the situation because position to occur because hand motion comes off close to finger tips, when reality is implemented, this refers to wear structure can be as shown in Figure 8 A, adopt as the form of ring, or as shown in Figure 8 B, be embodied as the deflection belt body around finger, not restriction; At this, no matter adopt which kind of form, all can have the structure of adjustable collar around diameter further, to guarantee the contact stabilization between electrode and skin further, such as, ring can be embodied as and have alterable and guard against the mechanism enclosed, to adapt to the finger of different wearer, and belt body can be embodied as and has adjustable fixed position, such as, by arranging magic tape, with allow user select around time tightness etc., equally can change mode, not restriction according to practical situation.In addition, also can adopt the form of clip, such as, can be to clamp finger tip or other dactylus by the structural design of clip, as proximal phalanx or middle phalanx, so just reaching fixing effect by the elasticity of clip itself, be good selection equally.
At this, with to contact ear identical, when being carried out electrocardiosignal by contact finger and extracting, namely leading near the position that also can obtain in signal signal to be processed, to guarantee the quality of signal, and, similarly, circuit can be placed in this further and refers to wear in structure.
In addition, according to this utility model conception on the one hand again, another position arranging electrode is selected to be this arm-rest belt.Owing to installing the necessary behavior that arm-rest belt is Measure blood pressure, therefore, when electrode is positioned on arm-rest belt, allow the action of electrode contact skin just complete together by installing arm-rest belt, simplify the operation step.At this, electrode can be incorporated into any position of arm-rest belt, only need arm-rest belt by arm or wrist time can realize the position of electrode and skin Contact, such as, electrode can be incorporated into the inner side of arm-rest belt, or the position such as the edge of arm-rest belt, not restriction.
When electrode is incorporated into inside arm-rest belt, except can adopting common metal electrode film, in a preferred embodiment, in order to the contact promoted and between skin, electrode also can select the material adopting tool flexibility, such as, conductive fibre fabric, conductive rubber etc., or one deck conductive coating that also can be embodied as on arm-rest belt inner surface, to make electrode can bend along with arm-rest belt, and then the contact between realization and skin.
Wherein, in order to ensure the contact between electrode and skin, can be set as electrocardiosignal measure the inflation of arm-rest belt reach a more than particular pressure value (namely, and the contact force between skin reach to a certain degree after) just carry out, to make the contact between electrode and skin more stable.
At this, further, also by arranging extra structure to guarantee the contact between electrode and skin, contact between the electrode that carrying out during blood pressure measurement to avoid arm-rest belt inflates and exit may cause and skin is unstable, for example, on arm-rest belt, one supporting structure can be set in the position of counter electrode, thus can when arm-rest belt be around arm or wrist, by around strength, or because inflating the volumetric expansion produced during by inflating, and force is produced to this supporting structure, supporting structure is caused to apply towards the power of skin to electrode, and then the contact guaranteeing between electrode and skin, such as, this supporting structure can be embodied as has certain thickness and hardness, with realize by arm-rest belt around or the strength transmission of inflation to the effect of electrode, and further, this supporting structure can have the elasticity of compression, uncomfortable constriction can not be caused to user to allow the realization of force, in addition, in a preferred embodiment, this supporting structure is then be embodied as the ergonomics meeting contacted skin site, and such as, the radian of arm, guarantees the stability contacted further.
In a further preferred embodiment, as shown in Figure 9, electrode 90 also can be embodied as and be incorporated into arm-rest belt edge, be located in the upper limb of arm-rest belt, now, the way of contact between electrode and skin also has multiple choices, for example, electrode is made to have towards the force in skin direction by selecting the elastic electrode material of tool, therefore after around upper arm-rest belt, electrode can be close to skin naturally, or, make electrode shape meet the ergonomics of arm or wrist by structural design, and then the contact guaranteeing between electrode and skin, therefore, not restriction, can change according to actual demand.
At this, it should be noted that when electrode be embodied as combine with this arm-rest belt time, electrocardiosignal is measured and can be embodied as and carry out during blood pressure measurement simultaneously, or also can select to separate with blood pressure measurement to carry out, user can be selected according to practical situation.
Moreover according to the conception of the another aspect of this utility model, another position selection arranging electrode is the surface of this housing, utilizes finger to contact to allow user.
When carrying out blood pressure measurement, after arm-rest belt installs, in order to initiating inflation and process of measurement, start key on pressing housing is indispensable step, therefore, if electrode can be arranged on start key, thus, as long as user remains motionless after pressing start key, just can complete electrode contact with the time, simplify the electrometric operating procedure of the heart.
And, further, the action of this start key of finger presses, also can be embodied as initial electrocardiosignal simultaneously to measure and blood pressure measurement, thus, single push action just can complete three programs simultaneously, contact electrocardioelectrode, start blood pressure measurement, and start electrocardiosignal measurement, operating procedure complexity can be down to minimum.
At this, it is the various forms such as the tool pressing button of stroke or touch-controlled key that this start key may be embodied as, not restriction, and, the surface configuration of start key also can be embodied as the ergonomics meeting finger further, provides the radian meeting finger, makes contact more stable.
In addition, user also can be selected to carry out separately blood pressure measurement or electrocardiosignal measurement, or carries out both simultaneously, for example, different pressing strokes or the mode of different compressing times is realized during by pressing this start key, such as, when on time short, expression need not electrode contact, namely only starts blood pressure measurement, when growing on time, namely starting electrocardiosignal and measuring, and when immediately growing on time after short pressing, namely start two kinds of measurements simultaneously, therefore, can change according to actual status of implementation, not restriction.
In a preferred embodiment, as shown in Figure 10, another housing 101 that this start key 100 is embodied as beyond by this housing further carried, such as, a started by press structure, by such mode, start key can be moved to applicable diverse location according to the operating habit of user, thus, user just can carry out electrode contact with posture more easily, contributes to equally obtaining the good signal of quality.
In addition, according to this utility model conception on the one hand again, when housing be carried by arm-rest belt time, also can there be different selections the position of electrode on housing, can be embodied as to be positioned at the housing when arm-rest belt is surrounded on limbs and can to contact on the position of skin.
When housing be carried by arm-rest belt and be surrounded on the situation of upper arm or forearm time (operational scenario as shown in Figure 13 and Figure 14), a bearing structure 112 can be had more, be arranged on this housing, such as, be positioned on this surface 111, as shown in Figure 11 A-11C, to contact the skin of upper arm or forearm when arm-rest belt is surrounded on limbs, therefore, when electrode 113 is arranged on this bearing structure 112, electrode contact just can complete equally in the action of installing arm-rest belt.
For example, as shown in Figure 11 A, this bearing structure 112 can be embodied as the edge be positioned at close to arm-rest belt, and this arm-rest belt is embodied as in the position of this bearing structure corresponding and has an opening 114, therefore, just can realize the contact of electrode 113 between skin around upper arm or forearm action by arm-rest belt simultaneously, or as shown in Figure 11 B, this opening 114 also can be embodied as among arm-rest belt, this bearing structure 112 is then positioned at position corresponding thereto, moreover, as shown in Figure 11 C, this bearing structure 112 also can be embodied as the both sides outer rim being positioned at arm-rest belt, the contact with skin just can be realized thus when not changing the structure of arm-rest belt, at this, although show both sides outer rim in figure all there is this bearing structure, but not limitedly, also can be embodied as and only be arranged at one-sided outer rim.
In addition, further, this bearing structure can be embodied as tool elasticity, to adapt to the change that aeration period may occur, also guarantees the stability of electrode and skin Contact, for example, can adopt the elastic material of tool, such as, and rubber, silica gel etc.; Or employing telescopic mechanism, such as, can pressurized and produce the press-key structure of shift motion, therefore, can have various may.
At this, be with should be noted that, although this bearing structure can be embodied as protruding form as shown in the figure, but be not limited to this, visual housing is different from the combination between arm-rest belt and change to some extent, such as, can also be the bearing structure with surface of shell equal height, only need the contact that can realize when arm-rest belt is surrounded on arm between electrode and skin, not restriction.
In addition, alternatively, as shown in Figure 11 D, this bearing structure 112 also can be embodied as and be positioned on another housing 20, and be arranged on this housing by the mechanical bond between this another housing and this housing, skin on it can be contacted when arm-rest belt is surrounded on upper arm or forearm to make this electrode 113.
At this, between this another housing and this housing except carrying out mechanical bond, importantly, also an electrical connection can be realized, electrocardiosignal measurement is carried out to make this electrode 113 can coact with another electrode, wherein, this electrical connection can be embodied as the pair of connectors by laying respectively on this another housing and this housing and realize, such as, USB connector, miniUSB adapter etc., and in this case, this mechanical bond just can directly be realized electric connector by this; Or, alternatively, the hardware configuration also corresponded to each other by this another housing and this housing and realize this mechanical bond, therefore, not restriction.
This another electrode can be then above-mentioned various forms of electrodes, only need confirm position that it contacts be this arm-rest belt around limbs beyond skin, such as, can be ear-wearing type electrode, finger-worn type electrode or the electrode etc. be positioned on start key.
And in particular, this another electrode is upper outside except being connected to this housing or being positioned at this housing, also can be embodied as and be connected to this another housing by connecting line, or be located immediately on this another housing, namely, two electrodes in order to carry out electrocardiosignal measurement are all provided by this another housing, for example, except being positioned at the electrode 113 on this bearing structure, this another housing can connect an ear-wearing type electrode (as depicted in fig. 1 ie) again, or connect a finger-worn type electrode, in addition, also this another electrode can be set on the surface for another on this another housing beyond this surface, electrode 113 place, as shown in fig. 11f, electrocardiosignal measurement is carried out to allow another hands press, and, further, the position at this another electrode place also can be embodied as this start key as above, with the operation of person easy to use.
Moreover, as shown in Figure 11 G-11H, also this another housing 20 can be embodied as and there is a groove structure 115, such as, the form of ring-type or pothole, this another electrode 116 be arranged on its inner surface is contacted for finger stretches into, wherein, this inner surface is embodied as the surface meeting finger, to realize the contact between electrode and finger skin when pointing and stretching into, at this, this groove structure can made by the elastic material of tool, such as, rubber or silica gel, to realize the contact between electrode and skin, or, also can be formed as that there is plastic casing, and elastic material is set in inside and coated hands refers to, or adopt the modes such as the inside structural design exerted a force can be provided, to guarantee the good contact between internal electrode and finger tip skin, therefore, not restriction.
At this, be preferably, can be embodied as in order to the circuit extracting electrocardiosignal is at least partially placed in this another housing, such as, amplification, buffering, filtering and/or digitizer, and, because this another housing and this housing can be separated from one another because of the releasing of mechanical bond, therefore, when two electrocardioelectrodes be all arranged by this another housing time, user only by combining this another housing, just need can increase the function of ECG detecting again on blood pressure detector originally, quite convenient.
Except above-mentioned mentioned electrode setting position and mode, also other forms of electrode can be adopted according to cardiovascular health monitoring device of the present utility model, focus on the generation reducing electromyographic signal and the degree of stability increased when contacting, for example, structural bearing electrode is worn and the mode contacting wrist is also quite desirable selection by wrist, it does not need user to exert a force can to maintain and contact between wrist skin equally, therefore, user only need loosen during measuring by around limbs can obtain the signal of better quality.
Above-mentioned various electrode setting mode on the implementation and unrestricted, can difference according to demand and being selectively implemented in any one electrocardioelectrode.Below some embodiments are namely utilized to be described.
Refer to Figure 12 and Figure 13, according to an embodiment of the present utility model, two electrodes for electrocardiosignal measurement are separately positioned on inside arm-rest belt wears structure with gill, therefore, when carrying out blood pressure measurement, user is after around arm-rest belt, only again ear need be worn structure to put on, just complete and obtain blood pressure and read value and Electrocardiographic all installation procedures, this is almost as good as with general blood pressure measurement flow process, merely add the ear the same with generally wearing headphone manner and wear action, therefore, user can easily and ground free of a burden complete operation.At this, this ear wears structure can be connected to arm-rest belt or housing, not restriction.
In addition, Figure 14 and Figure 15 then shows the configuration utilizing external device (ED) as information display interface, such as, smart mobile phone, panel computer, intelligent watch can be utilized to equal outside and show, thus, the volume of the housing that arm-rest belt carries can be reduced to minimum, provide the experience that user is more comfortable, at this, housing on arm-rest belt and the connection between external device (ED) can be embodied as wired or wireless connection, such as, USB or bluetooth, WIFI connection etc., not restriction.
At this, Figure 14 shows the example that external device (ED) is the smart mobile phone of wireless connections, and Figure 15 shows the example that external device (ED) is the intelligent watch of wired connection, at this, this external device (ED) is except functions such as real-time reception data, displays, such as, guide operating process and display measurement result, also can be embodied as further and there is other functions, such as, the running of control device, start blood pressure and/or electrocardiosignal measurement, analyze the data received, store, export data to another device etc., further convenience can be provided.It is situation about being carried by arm-rest belt that such configuration is then particularly advantageous in housing, and user starts measurement like a cork by this external device (ED), understands operating process and viewing measurement result, quite convenient.
Figure 16 is then showing utilize ear to wear respectively example that structure and wrist wear structural bearing electrode, as shown in the figure, wrist wears structure can be embodied as form as bracelet, or, also the form of belt body can be embodied as, or, electrode also can be embodied as inside the watchband of the intelligent watch be positioned at as illustrated in fig. 15, therefore, not restriction, and in this case, user only need be put on ear and wear structure and wrist is worn structure and realizes electrode contact, can carry out the measurement of electrocardiosignal, same operation is simple and easy, and can obtain the good signal of quality.
In above-mentioned lifted embodiment, advantageously, in whole electrocardiosignal measuring process, the realization of electrode and skin Contact neither relates to user positive force, can avoid the interference of electromyographic signal, quite contributes to obtaining the good signal of tool quality.At this, be with should be noted that, in configuration so, ear-wearing type electrode selectively wears Yu Zuoer or auris dextra, not restriction, but as previously mentioned, the setting position of another electrode has the impact of certain degree for signal quality, therefore, arm-rest belt should be selected around left upper extremity, can obtain good signal intensity.
According to another embodiment of this utility model one, as in figs. 17-19, also two electrodes can be implemented respectively to wear structure by ear and refer to that wearing structure carried, user only need in wearing when electrocardiosignal is measured respectively on ear and finger for carrying out, just can complete the contact between electrode and skin like a cork, and, ear is worn structure and is referred to that the same user that also do not relate to of contact worn between structure with skin exerts a force, the interference of electromyographic signal can be allowed to minimize, in addition, because the action of wearing is very convenient, add and need not use arm-rest belt, therefore be also quite suitable for only carrying out electrocardiosignal measurement.
In addition, when use refers to wear structural bearing electrode, the electrode of other positions of can also arranging in pairs or groups uses together, such as, with the electrode (Figure 20) in arm-rest belt, or coordinate together with the electrode 201 (Figure 21) of surface of shell and carry out electrocardiosignal measurement, therefore, user just only needs to increase in the operating process of Measure blood pressure by referring to that wearing structure wears the action on finger more, quite convenient.In addition, two electrodes also can be embodied as all by referring to that wearing structure carried, and as shown in figure 22, are quite be convenient to use mode equally for user, and because need not use arm-rest belt, same being applicable to only carries out electrocardiosignal measurement.
According to another embodiment of this utility model one, as shown in figure 23, two electrodes measured for electrocardiosignal be embodied as respectively be positioned at housing operation-interface the electrode 201 that combines with start key from the teeth outwards and wear the electrode that structure is combined with ear, and by such mode, ear after around arm-rest belt, only need be worn structure and put on, press start key by user again, and the contact maintained between finger and start key, just can obtain blood pressure and read value and electrocardiogram.
In addition, as shown in figure 24, even if be embodied as the situation being sent data to external device (ED) by the mode of wireless connections, also can the electrode 201 combined with start key be set on the housing of upper arm, measure to realize contacting by the mode of pressing and to start electrocardio, or, alternatively, start the operation of measuring also can be embodied as by this external device (ED), as smart mobile phone, control, the electrode be positioned on surface of shell is then only implemented to carry out electrocardio measurement, therefore, not restriction.
According to this utility model embodiment again and again, two electrodes measured for electrocardiosignal are embodied as the electrode combined with start key and the electrode combined with arm-rest belt respectively, as shown in figure 25, user is as general arm sphygnonanometer carries out measurement, before being sitting in table, left hand upper arm is around arm-rest belt and be placed on desktop and loosen, blood pressure measurement is started again with the start key 201 of right hand pressing sphygomanometer, and by design of the present utility model, in such blood pressure measurement action, at least two electrodes of measurement required for electrocardiogram (namely, electrode in arm-rest belt and the electrode be positioned on the start key of surface of shell) to contact with different parts skin and also complete simultaneously, do not need extra action completely, measurement once just can obtain two kinds of physiological signals simultaneously, or, as shown in figure 26, when sphygomanometer is embodied as Wrist blood pressure meter, housing is subject to the carrying of arm-rest belt and is positioned at above wrist, now, user while pressing start key 201, can contact the electrode be positioned on surface of shell equally, the electrode of arm-rest belt inside in cooperation, obtains two kinds of physiological signals in measurement once simultaneously, or, as shown in figure 27, when sending data to external device (ED) in the mode by wireless connections, also can the electrode 201 combined with start key be set on the housing carried by bandage, be incorporated into the electrode inside bandage on coordinating, the mode just by pressing realizes contacting and starts electrocardio measurement again.
In such mode, compared to the program of carrying out merely blood pressure measurement, user only when for measuring electrocardiosignal, need increase the time of contact between finger with start key, action that need not be extra, can easily and complete free of a burdenly.
At this, be with should be noted that, although the action of contact start key can contact electrode simultaneously, such as, but user still can be selected only to carry out blood pressure measurement or electrocardiosignal measurement, is determined the measurement etc. selecting to carry out by the length of time of contact, therefore, not restriction.
In addition, electrode is upper outside except being positioned at start key as described above, also can be embodied as on the surface of shell be positioned at beyond start key.As shown in figure 28, its housing has the structure as shown in Figure 11 C, and electrode is positioned on the bearing structure on the surface that housing is combined with arm-rest belt, therefore, action around bandage just can realize the contact between housing top electrode and upper arm skin, cooperation is put on ear and is worn structure again, can complete all electrode contacts equally when not needing user to exert a force, and, compared to the operating process of general blood pressure measurement, only many wear the action that ear wears structure, therefore, quite convenient.
In addition, two electrodes also can be positioned on same housing simultaneously, as shown in figure 29, wherein, housing is the structure adopted as shown in Figure 11 B, therefore, when arm-rest belt is surrounded on upper arm, electrode in the face of upper arm can contact the skin of upper arm naturally through arm-rest belt, another electrode 202 being positioned at this surface of shell is then to contact another hands, to realize the measurement of electrocardiosignal, at this, be with should be noted that, although it is relative that electrode 202 is shown as the surface be positioned at in the face of this upper arm in the drawings, but when reality is implemented, it can be positioned at any one surface, as long as be different from the surface in the face of this upper arm, and the another hands of person easy to use carries out contacting, such as, with the side adjacent in the face of the surface of this upper arm, therefore, not restriction.
Further, also can be embodied as the electrode allowing user select wish use voluntarily, for example, in the face of the electrode of upper arm is by change-over switch (not shown) or connect other electrodes and be substituted, such as, the ear with electrode wears structure (as shown in fig. 30 a), or the finger with electrode wears structure (as shown in figure 30b), therefore, by such mode, user just can difference on demand and select oneself occupation mode applicable, more increases ease of use.
Further, when there being needs more than two electrodes, such as, using the 3rd electrode as ground connection or reference electrode, such as, to suppress common-mode noise, from the noise of power supply, then can being embodied as and picking out applicable various ways by above-mentioned various electrode design.
In addition, in this utility model, in order to help ecg measurement, (part or all of) electrode can be embodied as and be connected to a sensor, with detect and notice user and electrode Contact whether appropriate, for example, one pressure detector can be used to detect the size of the strength put on electrode, or learnt by impedance detection (impedancecheck) electrode whether be touched and contact condition whether good etc., or, as an alternative, also a switch can be utilized simply sense the power be applied on electrode, accordingly, also can be embodied as further, when the contact that control circuit senses on electrode reaches pre-conditioned, such as, force is enough large, be touched, and/or contact condition good time, ecg measurement is allowed automatically to start, or even can be embodied as device and be therefore activated.
On the other hand, in order to provide user more smooth and operating process easily, also by arranging the mode of induction apparatus in ate electrode, whether detecting electrode has been arranged at default position, such as, whether ear is worn structure and has been worn on ear, refer to whether wear structure has worn on finger, whether the electrode on bearing structure has been arranged at hands arm, and whether arm-rest belt is surrounded on arm etc., at this, this induction apparatus can be condenser type, resistance-type, the forms such as photoinduction, not restriction, and, also can be embodied as further to utilize and notify that user electrode has been arranged at predeterminated position as the mode such as sound or screen display, also contribute to allowing user operate more like a cork.
Thus, above-mentioned in order to detecting electrode contact whether good sensing or detection, just can be embodied as further and perform again sensing that electrode has been arranged at after on predeterminated position, and, mode equally by such as sound or screen display notifies that user electrode contact completes again, makes integrated operation flow process more smooth and easy.
Therefore, by the above-mentioned electrode position combined with sphygomanometer of this utility model, user easily and easily can complete the electrode carried out needed for electrocardiosignal measurement and arrange in the process using sphygomanometer, thus lower electrocardiogram can naturally be noted down, and also because electrocardiogram can provide detailed cardiac electric sexual activity, therefore, the information of what this utility model device can provide be relevant to cardiovascular health can specifically and precisely, for example, a program preloaded is performed by the processor in control circuit, or by performing its program possessed after electrocardiogram is sent to external device (ED), ARR kind can be judged why, such as, differentiate PAC and PVC, and other arrhythmia symptom, such as, AF (atrial fibrillation, AtrialFibrillation), heart beating is excessively slow, tachycardia, heart beating time-out etc., also the symptom had beyond arrhythmia can be known whether in addition, such as, can learn whether there is myocardial infarction symptoms by observing ST value (STlevel), or observe QRS wave amplitude and learn whether have ventricular hypertrophy etc.
Further, by the dependency that blood pressure to be read between value and electrocardiogram each other, can carry out cross-referenced between two kinds of signals, to obtain the information representing other physiological situations, such as, PTT (pulse wave passing time, pulse wave propagates through one period of tremulous pulse institute's time spent), in addition, more also contributing between arterial pulse with electrocardiosignal, removes noise/artificial disturbance source, to obtain the interpretation of correct various cardiovascular information.
In addition, further again, also relevant heart rate variability rate (HRV can be provided according to acquired electrocardiosignal according to cardiovascular health monitoring device of the present utility model, Heartratevariability) information, to allow user understand autonomic nerve activity by this, this is because, autonomic nervous system is one of factor affecting blood pressure, when orthosympathetic activity increases, vasoconstriction can make blood pressure rise, and parasympathetic active increase then can allow blood pressure drops on the contrary.
So, based on possessed electrocardiosignal measurement function, according to device of the present utility model by obtaining RRI (R-RInterval accurately, R-R interval) sequence, that is, changes in heart rate, and then calculate acquisition HRV, and carry out HRV analysis, to provide the information of relevant autonomic nerve activity, thus, when coordinating upper blood pressure measurement, user just can understand the relation between blood pressure and autonomic nerve in real time, for example, user can be allowed to know, and whether the hypertensive origin cause of formation is relevant with autonomic nerve, if and known relevant, then can understand physiology and psychological adjustment, such as, loosen, respiratory daoyin training etc., whether correctly have impact on autonomic nerve, and then the impact realized blood pressure.
Wherein, this HRV carried out analyzes can have different choice on demand, such as, frequency-domain analysis (Frequencydomain) can be carried out, general power (the TotalPower assessing overall heart rate variability degree is can be used to obtain, TP), high frequency power (the HighFrequencyPower of parasympathetic nervous activity can be reacted, HF), sympathetic activity can be reacted, or sympathetic nerve and parasympathetic nervous regulate and control the low frequency power (LowFrequencyPower of result simultaneously, LF), and the LF/HF (low high frequency power ratio) etc. of sympathetic/parasympathetic active balance can be reacted, in addition, also can after carrying out frequency analysis, the state distributed by observed frequency and learn the harmony analysis matrix that autonomic nerve operates, or, also time-domain analysis (TimeDomain) can be carried out, and obtain the SDNN that can be used as the index of overall heart rate variability degree, can be used as the SDANN of the index of long-term overall heart rate variability degree, can be used as the RMSSD of the index of the overall heart rate variability degree of short-term, and can be used to R-MSSD, NN50 and PNN50 etc. of assessing high frequency closedown among heart rate variability degree.
At this, be that the program being obtained RRI sequence by electrocardiosignal can be carried out before or after blood pressure measurement with should be noted that, only needing can relation between real time reaction pressure value instantly and autonomic nerve, does not limit; In addition, because the sample time of carrying out needed for HRV analysis is longer, such as, generally speaking the time of 5 minutes is about needed, and the state needing user to be in loosen, therefore, carry out when the contact between electrode and skin can be selected further not need user to exert a force voluntarily, such as, when adopting ear wear structure or refer to wear structure and carry electrode, or pass through to carry out when contacting skin around arm-rest belt at electrode, therefore, can select according to user use habit equally, not restriction.
After executing measurement, allow user learn measurement result according to cardiovascular health monitoring device of the present utility model by display element, such as, blood pressure reads value, average heart rate, arrhythmia instruction, heart rate variability rate parameter etc.; In addition, further, also a memorizer can be comprised according to device of the present utility model, to be used for storage assembly, analysis result and/or relevant information, and in a preferred embodiment, this memorizer is then embodied as the form of removable memorizer, can carry out data transmission or can with storing the removable memorizer of measurement/analysis result to counseling of out patient doctor easily to allow user; In addition, also a communication module can be comprised further according to this utility model device, to perform a wire communication, such as, USB connects, or radio communication, such as, bluetooth or WIFI, and the data such as acquired signal, measurement/analysis result are sent to an external device (ED), such as, PC, smart mobile phone, panel computer, intelligent watch etc., to carry out showing and/or perform further analytic method, at this, and the transmission between this external device (ED) also can be embodied as real-time Transmission further, not restriction.
Therefore, from the above, by the design of this utility model electrode position, user can naturally and record electrocardiogram during facilitating DIYU Measure blood pressure simultaneously, but, owing to all can occur when arrhythmia is not each Measure blood pressure, but pressure value needs timing every day and carries out the physiological signal that records for a long time, therefore, in the conception of this utility model another aspect, also provide for the first row filter when only carrying out blood pressure measurement and whether there is the mechanism of arrhythmia event, thus, user just can select the measurement carrying out electrocardiosignal after filtering out arrhythmia Possible event again.
The basis can carrying out first row filter so is then, in the process of Measure blood pressure, the inflation of arm-rest belt is except recording except pressure value, also arterial pulse can be detected, therefore, the heartbeat situation corresponding with pulse just can be learnt by analyzing continuous arterial pulse, and then filter out whether there is arrhythmia Possible event, such as, early onset shrinks (PrematureBeats), ventricular fibrillation (AF, AtrialFibrillation), tachycardia (Tachycardia), heart beating excessively slow (Bradycardia), heart beating suspends various symptoms such as (Pause).
So, to achieve the above object, according to cardiovascular health monitoring device of the present utility model, be embodied as further and there is arrhythmia detecting unit, announcement information generation unit, and ecg analysis unit.
Wherein, this arrhythmia detecting unit can judge whether to have an arrhythmia Possible event according to during blood pressure measurement by the continuous arterial pulse acquired by arm-rest belt; This announcement information generation unit in order to produce announcement information during blood pressure measurement and/or after terminating, can be understood for user and has occurred arrhythmia Possible event, and remind user to carry out electrocardiosignal measurement; This ecg analysis unit then by analyzing acquired electrocardiogram, and provides the information of more related cardiac, such as, can learn ARR kind and whether have the information such as other heart symptons by analysis waveform.
So, as shown in figure 31, when user carries out blood pressure measurement, its can as to carry out blood pressure measuring the same, inflated type bandage is arranged on limbs, such as, upper arm or hands wrist, and start inflation procedure, now, read except value except obtaining blood pressure, also arterial pulse can be obtained simultaneously, therefore this arrhythmia detecting unit can utilize acquired pulse and determine whether to occur arrhythmia Possible event, afterwards, if judged result finds not occur arrhythmia Possible event, then as blood pressure measurement the same, user can learn measured pressure value and average heart rate, and when if judgment result displays has arrhythmia Possible event, then except obtainable information when blood pressure reads the Measure blood pressure such as value and average heart rate, this announcement information generation unit can allow user learn in real time by producing announcement information and arrhythmia Possible event detected, and remind user to carry out electrocardiosignal measurement, the same time, namely the state that can measure electrocardiosignal is entered according to cardiovascular health monitoring device of the present utility model, therefore electrocardiogram can be recorded to allow user, afterwards, namely this ecg analysis unit provides user more information about heart further by analyzing ecg.
Therefore, by such mode, user need not change use habit, the mode of operation identical with Measure blood pressure can be utilized to carry out blood pressure measurement, the electrode that only need be combined by contact and sphygomanometer when there is arrhythmia Possible event is carried out electrocardiosignal measurement and records electrocardiogram, just can learn immediately according to Electrocardiographic analysis result, therefore not only operation uses conveniently upper, also contributes to obtaining the relevant ARR information having more correctness.
At this, be with should be noted that, owing to judging that the basis of arrhythmia Possible event is to analyze arterial pulse, therefore, also when not Measure blood pressure, arterial pulse can be obtained by means of only the inflation of arm-rest belt, also can reach same effect, therefore can change according to the actual demand of user, not restriction.
In addition, also be with should be noted that, when during blood pressure measurement, when obtaining arterial pulse under arm-rest belt inflated condition, possibly pulse cannot be recorded when considering under-inflation, and the blowing pressure excessive time also can on blood vessel cause compressing and impact measure correctness, therefore, when reality is implemented, the detection of arterial pulse can be embodied as only just to be carried out under specific arm-rest belt venting condition, for example, can process control be utilized and be set in the blowing pressure fixing when carry out, or, also can be set in inflation and reach certain pressure value (namely, contact force reaches to a certain degree) more than just carry out pulses measure.
After obtaining continuous arterial pulse, this arrhythmia detecting unit is when analyzing this continuous arterial pulse, the mode adopted is, first calculate the interval between each pulse respectively, to draw the time series feature of pulse, afterwards, again by the time series feature of this time sequence signature and various arrhythmia kind, such as, early onset contraction, AF, heart beating time series feature that is excessively slow, the various arrhythmia symptom such as tachycardia, heart beating time-out compare, and when occurring conforming to, be judged as that there is arrhythmia Possible event.
At this, tool advantageously, this utility model is when whether detection has arrhythmia Possible event, the sensitivity of detection moderately can be improved by the parameter value of adjustment programme, because only need measure by analyzing the electrocardiosignal of carrying out subsequently the electrocardiogram obtained, just can confirm the correctness of this arrhythmia Possible event immediately, thus, also be not easy to produce erroneous judgement even if sensitivity improves, therefore, by concept of the present utility model, just naturally can reach the judged result of high-accuracy, and effectively improve the error in judgement that prior art may occur.
When this arrhythmia detecting unit is judged as having arrhythmia Possible event, namely this announcement information generation unit produces announcement information, learn to allow user and arrhythmia Possible event detected, and remind user to carry out electrocardiosignal measurement, at this, this announcement information and/or can be measured during pulses measure and terminate rear generation, not restriction, and, the content of announcement information and advice method also can change according to actual embodiment difference, for example, in a preferred embodiment, can after blood pressure measurement completes, as shown in figure 32, on screen, light ECG measure prompt, know to allow user and need to carry out electrocardiosignal measurement further, and further, this ECG measures prompt except lighting, also can glimmer simultaneously, and just extinguish after user starts to carry out electrocardiosignal measurement, to strengthen the effect of reminding user, in another preferred embodiment, represent by another kind of symbol and arrhythmia Possible event detected, and allow user know to have occurred arrhythmia Possible event, needed to carry out electrocardiosignal measurement, such as, Figure 33 display utilizes RHYTHM to represent to detect the problem of regarding heart rate aspect, such as, AF, tachycardia, heart beating is excessively slow, heart beating time-out etc., further, in a preferred embodiment again, it is then the mode can measuring prompt and RHYTHM symbol by showing ECG simultaneously, as shown in figure 34, and user is reminded to carry out electrocardiosignal measurement, therefore, not restriction, various possibility can be had, only need clearly to allow user learn and record arrhythmia Possible event, and reach the effect of reminding user to carry out electrocardiosignal measurement.
At this, presenting of this announcement information can by audible signal, visual signal and/or haptic signal, not restriction, for example, the mode of screen display can be adopted as described above, such as, by the change of symbol or word, in addition, also present by other modes and give user, such as, changed by cresset, voice or sound, or the mode such as vibration, restriction, is not mainly to allow user clearly can learn the content of information; In addition, this announcement information also presents by external device (ED), such as, can show by Wireless transceiver, learn information to further facilitate user to smart mobile phone, panel computer, intelligent watch etc.
And after generation announcement information, enter according to cardiovascular health monitoring device of the present utility model the state can measuring electrocardiosignal immediately, carry out electrocardiosignal measurement to allow user by contact electrode.At this, based on the difference of electrode setting position, operation sequence has little bit different, for example, if existing electrode is incorporated on bandage, then user only need contact another electrode again, such as, put on that ear is worn structure, referred to wear structure, wrist wears structure, by be pressed in surface of shell electrode or by the electrode etc. be pressed in outside bandage; Or alternatively, when bandage not being combined with electrode, then carry out electrocardiosignal measurement by other two electrodes, such as, put on ear wear structure and refer to wear structure simultaneously, two handss are put on finger and are worn structure, put on ear and wear electrode after structure on finger presses surface of shell, or put on the electrode etc. referring to wear another hands pressing surface of shell after structure on the other hand; Or alternatively, when two electrodes are positioned on surface of shell simultaneously, also by directly contacting one of them electrode by hand-held housing, then the mode of another hands of another electrode contact or trunk is carried out electrocardiosignal measurement; Or alternatively, when two electrodes are embodied as on another the gripped housing being positioned at and being connected to housing simultaneously, housing can be gripped equally and a contact wherein electrode by hand-held this, again the mode of another hands of another electrode contact or trunk is performed electrocardiosignal to measure, therefore, different electrode design and configuration can be selected, not restriction according to the situation of actual enforcement.
In addition, also can there be different selections the initial of electrocardiosignal measurement, for example, can time by user is decided in its sole discretion and press start key, or contact situation between electrode and skin can be learnt by impedance detection, and after determining that electrode contact can be measured, automatically start to measure, for example, after device enters and can measure electrocardiosignal state, namely start to carry out impedance detection, wait for that user is worn and/or contacts electrode, and when the result show electrode contact of impedance detection can carry out electrocardiosignal measurement, automatically start to measure, such as, realized by screen display or sound notification user electrode contact, electrocardiosignal is measured and is about to start, or, also can after device enters and can measure electrocardiosignal state, as previously mentioned, first whether be positioned at suitable contact position by induction apparatus induction electrode, start again afterwards to carry out impedance detection, and the contact between impedance detection result show electrode and skin is when completing, automatically start to measure.Therefore, restriction, can not have various selection
After obtaining electrocardiogram, namely this ecg analysis unit is analyzed for acquired electrocardiogram, to provide the further information of related cardiac.Because electrocardiogram can provide detailed cardiac electric sexual activity, therefore, pass through analyzing ecg, first, the accuracy of this arrhythmia Possible event measured by arrhythmia detecting unit can be confirmed, afterwards, also can learn ARR kind, such as, differentiate PAC and PVC, and judge that heart beating is excessively slow exactly, tachycardia, AF, the symptoms such as heart beating time-out, moreover, also the heart disease whether having other can be learnt, such as, the symptom whether with myocardial infarction can be learnt by observing ST value, and observation QRS wave amplitude can learn whether have ventricular hypertrophy etc., thus, user is to filter out arrhythmia instantly possible, the situation of heart just can be grasped immediately immediately by deriving from Electrocardiographic further complete information, using as the reference the need of referring physician.
In sum, this utility model provides a kind of cardiovascular health monitoring device, it has blood pressure measurement and electrocardiosignal measures two kinds of functions, and under the principle deferring to existing sphygomanometer operation behavior, the electrocardioelectrode installation steps of carrying out needed for electrocardiosignal measurement are incorporated in the flow process of Measure blood pressure, realize the effect not increasing operation complexity, moreover, by the popularization of sphygomanometer in general family, electrocardiosignal can be made to measure in having higher acceptance at home, and, based on the relatedness between blood pressure and electrocardiogram, this utility model also can provide the information of more related cardiovasculars according to this, using the reference as house health control and clinical judgment.
Moreover, this utility model also provides special electrocardioelectrode structural design and setting position to select further, to improve the quality of acquired electrocardiosignal, more be conducive to obtaining analysis result more accurately, wherein, structure is worn by what initiatively exert a force to skin, such as, ear wears structure, refer to wear structure, wrist wears structure, and pass through around structural design simultaneously realizable during arm-rest belt, such as, the bearing structure of surface of shell, and the electrode structure to combine with arm-rest belt, the contact between stable electrode and skin can be provided according to this utility model, and can the impact in electromyographic signal and artificial disturbance source be down to minimum.
In addition, this utility model also provide for the mechanism measured electrocardiogram after whether first row filter has arrhythmia Possible event again and carry out confirming, therefore, user equally can when the operating process of not change blood pressure measurement, naturally learn whether there is arrhythmia Possible event, as long as and find to have occurred reminding when need carry out the signal of electrocardiosignal measurement when watching measurement result, perform electrocardiosignal more further to measure, just can learn correct relevant arrhythmia information immediately, and, electrode needed for electrocardiosignal is measured has been integrated on sphygomanometer, directly contact is only needed to measure, avoid the inconvenience using other devices, also save acquisition cost, really for being concerned about that the user of self cardiovascular health provides more natural and selects easily.

Claims (7)

1. a cardiovascular health monitoring device, detect arrhythmia in order to Measure blood pressure and by detection arterial pulse and electrocardiosignal, wherein, this device comprises:
One blood pressure monitoring unit;
One inflated type bandage, is connected to this blood pressure monitoring unit, in order to the limbs around a user, to measure the blood pressure of this user and multiple continuous arterial pulse;
One arrhythmia detecting unit, in order to calculate the interval between every two continuous arterial pulses, to draw a time sequence signature, by this time series feature and acquiescence arrhythmia time series feature at least one of them compares, and when both conform to, determine an arrhythmia Possible event, wherein, when after this arrhythmia Possible event of decision, this cardiovascular health monitoring device enters the state that can measure electrocardiosignal;
One notice generation unit, in order to produce an announcement information, learns to allow user and occurs this arrhythmia Possible event and remind user to carry out electrocardiosignal measurement;
Wholeheartedly electric signal measurement unit, comprises at least two electrodes, in order to perform wholeheartedly electric signal measurement via this at least two electrode, and then obtains an electrocardiogram;
One storage element, in order to store this electrocardiogram obtained; And
One analytic unit, in order to analyze this electrocardiogram, and then other information relevant ARR information being provided and can being obtained by electrocardiogram.
2. device as claimed in claim 1, wherein, this default arrhythmia time series feature comprises following features: early onset shrinks, atrial fibrillation, and heart beating is excessively slow, tachycardia, and heart beating suspends.
3. device as claimed in claim 1, wherein, this relevant ARR information comprises ARR kind.
4. device as claimed in claim 1, wherein, this announcement information, by following one of them or many and present, comprises audible signal, visual signal, haptic signal.
5. device as claimed in claim 1, wherein, this two electrode at least one of them be embodied as be positioned at having structure one of them on, comprising: ear wears structure, refer to wear structure, and wrist wear structure.
6. device as claimed in claim 1, wherein, comprises a housing further, and this at least two electrode at least one of them be embodied as be positioned at this housing one on the surface.
7. device as claimed in claim 1, wherein, this two electrode at least one of them is embodied as and is positioned on this arm-rest belt.
CN201520052903.4U 2015-01-26 2015-01-26 Cardiovascular health monitoring device Expired - Fee Related CN204813838U (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104665821A (en) * 2015-01-26 2015-06-03 周常安 Cardiovascular health monitoring device and cardiovascular health monitoring method
CN104665786A (en) * 2015-01-26 2015-06-03 周常安 Cardiovascular health monitoring device and cardiovascular health monitoring method
WO2016119656A1 (en) * 2015-01-26 2016-08-04 周常安 Cardiovascular health monitoring device and method
CN106236076A (en) * 2016-08-30 2016-12-21 苏州创莱电子科技有限公司 Miniature pressure electrocardio measuring device and heart electrical measuring systems
EP3318184A1 (en) * 2016-11-08 2018-05-09 Heart2Save Oy A system and method for determining a probability for a person to have arrhythmia
CN109512542A (en) * 2018-10-29 2019-03-26 江汉大学 A kind of suspension apparatus and method

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104665821A (en) * 2015-01-26 2015-06-03 周常安 Cardiovascular health monitoring device and cardiovascular health monitoring method
CN104665786A (en) * 2015-01-26 2015-06-03 周常安 Cardiovascular health monitoring device and cardiovascular health monitoring method
WO2016119656A1 (en) * 2015-01-26 2016-08-04 周常安 Cardiovascular health monitoring device and method
CN106236076A (en) * 2016-08-30 2016-12-21 苏州创莱电子科技有限公司 Miniature pressure electrocardio measuring device and heart electrical measuring systems
EP3318184A1 (en) * 2016-11-08 2018-05-09 Heart2Save Oy A system and method for determining a probability for a person to have arrhythmia
US11684279B2 (en) 2016-11-08 2023-06-27 Heart2Save Oy System and method for determining a probability for a person to have arrhythmia
CN109512542A (en) * 2018-10-29 2019-03-26 江汉大学 A kind of suspension apparatus and method

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