CN110025301A - Intelligent cardiovascular monitoring object wearing device - Google Patents

Abstract

The present invention relates to technical field of medical equipment, specifically a kind of intelligence cardiovascular monitoring object wearing device, including electrocardiograph monitoring clothes and signal acquisition bracelet, electrocardiograph monitoring clothes include coat body, the lap portion of coat body is equipped with signal processing box, signal processing box includes processor, memory and the first wireless communication module, coat body is provided with flexibility temperature sensor at armpit, wire assembly and multiple electrocardioelectrodes are additionally provided in coat body, electrocardioelectrode or flexibility temperature sensor are connect by wire assembly with signal processing box, flexibility temperature sensor is used for temperature collection signal, electrocardioelectrode is for acquiring ECG signal, the PPG module being electrical connected and the second wireless communication module are set in signal acquisition bracelet, PPG module is for acquiring PPG signal and exporting PPG signal to processor.The device can carry out in real time accurately acquisition to twelve-lead electrocardiogram, blood pressure, blood oxygenation information, facilitate the monitoring and judgement of cardiovascular disease.

Description

Intelligent cardiovascular monitoring object wearing device

Technical field

The present invention relates to technical field of medical equipment, specifically a kind of intelligence cardiovascular monitoring object wearing device.

Background technique

In current medical system, cardiovascular disease is usually when the patient feels have apparent symptom by doing electrocardio Scheme the detection of inspection and relevant multinomial physical signs to diagnose.But patient can only be learned a certain under this diagnostic mode The physical condition information at quarter, doctor can only obtain the treatment and prevention that useful information and guides disease from its variation tendency.Cause There are apparent defects, such as most of arrhythmia cordis when coping with the diagnosis of specified disease for this this diagnostic mode, even if It is for the cardiac made a definite diagnosis, it is also difficult to be captured by the electrocardiogram of this section type.Therefore, it is desirable to accurately examine Disconnected cardiovascular disease simultaneously prevents and treats in time and just needs to be patient prolonged electrocardiographic examination, and in conjunction with to blood pressure, The real time monitoring of the relative physiologic indexes such as blood oxygen.

Have some physical signs that some intelligent wearable devices are capable of real-time monitoring user on the market at present, such as can The Intelligent bracelet etc. of monitor heart rate.This kind of electronic functionalities multiplicity, sexual valence is relatively high and easy to use, can accomplish to examine in real time It surveys, and the professional medical treatment detection device that can also match in excellence or beauty for the detection accuracy of particular detection project.But current this kind of equipment energy The physical signs enough detected is still extremely limited, and the monitoring and judgement for the cardiovascular state of an illness help little.Therefore a set of energy is developed Enough intelligence wearing end products for accurately monitoring the multiple disease coherent detection projects of user comprehensively are very necessary.

Summary of the invention

The main purpose of the present invention is to provide one kind can be realized heart real time monitoring and blood pressure and blood oxygen saturation The intelligent cardiovascular monitoring object wearing device of (hereinafter referred to as blood oxygen) situation real-time monitoring.

To achieve the above object, the present invention provides a kind of intelligent cardiovascular monitoring object wearing device, including electrocardiograph monitoring clothes and Signal acquisition bracelet, is characterized in that, electrocardiograph monitoring clothes include coat body, and the lap portion of coat body is equipped at signal Box is managed, signal processing box includes processor, memory and the first wireless communication module, and coat body is arranged flexible at armpit Temperature sensor, is additionally provided with wire assembly and multiple electrocardioelectrodes in coat body, and wire assembly is by electrocardioelectrode or soft Property temperature sensor connect with signal processing box, flexibility temperature sensor is for temperature collection signal and to processor output temperature Signal, electrocardioelectrode are set in signal acquisition bracelet and are electrical connected for acquiring ECG signal and export ECG signal to processor PPG module and the second wireless communication module, PPG module is for acquiring PPG signal and exporting PPG signal to processor.

First wireless communication module and the second wireless communication module are wirelessly connected, and processor is electrical connected with memory, are located Reason device also passes through the first wireless communication module and externally sends signal.

By above scheme as it can be seen that the part for being responsible for acquisition PPG signal in device to be arranged to the form and and electrocardio of bracelet Monitor the convenience and detection accuracy of the independent certifiable wearing of clothing.Dispersed placement is negative in the electrocardioelectrode in coat body The ECG signal of duty acquisition human body many places, the unified collection of signal processing box and treatment temperature signal, PPG signal and ECG signal are right Three classes signal can show that body temperature, electrocardio, blood oxygen and blood pressure data information are stored in memory after passing through independence and comprehensive analysis respectively, In addition these data informations can also will be issued in a manner of wireless communication.By the way that a certain number of electrocardioelectrodes are arranged and in jacket Rational deployment is carried out on ontology can be achieved the 12 lead even 18 lead cardioelectric monitors to user, be arrhythmia cordis Qualitative, quantitative Diagnosis and determining heart reservation ability provide data and support.

Body temperature is an important referential physical signs, also has certain reference for the state of an illness monitoring of cardiovascular disease Value, and setting is also easy to for temperature monitoring and flexible frivolous temperature sensor thus for the state of an illness in coat body Monitoring and judgement provide more references.

Further embodiment is, the quantity of electrocardioelectrode is 10,10 electrocardioelectrodes be respectively LA electrode, RA electrode, LL electrode, RL electrode, V1 electrode, V2 electrode, V3 electrode, V4 electrode, V5 electrode and V6 electrode, in which:

LA electrode is located at the left side shoulder position on the lower side of coat body；

RA electrode is located at the right shoulder position on the lower side of coat body；

LL electrode is located at the left abdomen position of coat body；

RL electrode is located at the right abdomen position of coat body；

V1 electrode is located at the right chest of coat body and the position close to coat body middle line；

V2 electrode is located at the left chest of coat body and the position close to coat body middle line；

V3 electrode, V4 electrode, V5 electrode and V6 electrode are set to the lower left side in coat body and being located at V2 electrode, and V3 electrode, V4 electrode, V5 electrode and V6 electrode are incremented by successively at a distance from V2 electrode.

Above-mentioned each electrocardioelectrode is arranged in coat body referring to the normal electrode distribution form of 12 lead, it can be achieved that right The continual and steady twelve-lead electrocardiogram monitoring of user.

Further embodiment is, wire assembly is arranged along cable tray, cable tray include first passage, second channel, Third channel, fourth lane, Five-channel, the 6th channel, the 7th channel, the 8th channel, the 9th channel, the tenth channel, the tenth One channel and the 12nd channel, in which:

First passage extends along the left side bodice side seam line of coat body, and the upper end of first passage is located at a left side for coat body At armpit, the lower end of first passage is located at the waist of coat body or less position；

Second channel extends along the right side bodice side seam line of coat body, and the upper end of second channel is located at the right side of coat body At armpit, the lower end of second channel is located at the waist of coat body or less position；

The both ends of third channel are connect with the lower end of the lower end of first passage and second channel respectively；

The lower end of fourth lane and the upper end of first passage connect, and the upper end of fourth lane is located at LA electrode；

The lower end of Five-channel and the upper end of second channel connect, and the upper end of Five-channel is located at RA electrode；

The first end in the 6th channel and the upper end of first passage connect, and the second end in the 6th channel is located at V2 electrode；

The first end in the 7th channel and the upper end of second channel connect, and the second end in the 7th channel is located at V1 electrode；

The first end in the 8th channel is located at LL electrode, and the second end in the 8th channel is connect with first passage；

The first end in the 9th channel is located at RL electrode, and the second end in the 9th channel is connect with second channel；

Tenth channel is in the curved arc of the bottom towards coat body, and the tenth channel is located at the left chest of coat body simultaneously It is connect with the end of the side edge of V3 electrode, V4 electrode, V5 electrode and V6 electrode, the tenth channel with first passage；

The first end in the 11st channel is located at flexibility temperature sensor, the second end in the 11st channel and first passage or The connection of person's second channel；

The first end in the 12nd channel is connect with third channel, and the second end in the 12nd channel is located at signal processing box.

Wire assembly includes LA conducting wire, V2 conducting wire, LL conducting wire, RA conducting wire, V1 conducting wire and RL conducting wire, in which:

LA conducting wire connects LA electrode and signal processing box, LA conducting wire successively along fourth lane, first passage, third channel and 12nd channel cabling.

V2 conducting wire connects V2 electrode and signal processing box, V2 conducting wire successively along the 6th channel, first passage, third channel and 12nd channel cabling.

LL conducting wire connects LL electrode and signal processing box, LL conducting wire successively along the 8th channel, first passage, third channel and 12nd channel cabling.

RA conducting wire connects RA electrode and signal processing box, RA conducting wire successively along Five-channel, second channel, third channel and 12nd channel cabling；

V1 conducting wire connects V1 electrode and signal processing box, V1 conducting wire successively along the 7th channel, second channel, third channel and 12nd channel cabling；

RL conducting wire connects RL electrode and signal processing box, RL conducting wire successively along the 9th channel, second channel, third channel and 12nd channel cabling.

Wire assembly further includes the V3 conducting wire for connecting V3 electrode and signal processing box, connection V4 electrode and signal processing box The V6 conducting wire of V4 conducting wire, the V5 conducting wire of connection V5 electrode and signal processing box and connection V6 electrode and signal processing box, V3 are led Line, V4 conducting wire, V5 conducting wire and V6 conducting wire are successively along the tenth channel, first passage, third channel and the 12nd channel cabling.

Wire assembly further includes the temperature measuring wire for connecting flexibility temperature sensor and signal processing box, temperature measuring wire successively edge 11st channel, first passage, third channel and the 12nd channel cabling or temperature measuring wire are successively along the 11st channel, Two channels, third channel and the 12nd channel cabling.

Further embodiment is that information collection bracelet further includes hollow shell, PPG module and the second wireless communication module It is set to enclosure interior, shell is provided with transparent collecting window in bottom surface and PPG module corresponding region, and PPG module includes double shines Diode and optical receiver, double light emitting diodes can emit feux rouges and infrared light to wrist, and optical receiver receives arm and is reflected back Light pulse signal and generate corresponding PPG signal.

Further embodiment is arranged on the sleeve inner surface of side corresponding with flexibility temperature sensor in coat body Flexible cranse.

Detailed description of the invention

Fig. 1 is the structure chart of intelligent cardiovascular monitoring object wearing device embodiment of the invention.

Fig. 2 is the structure chart of electrocardiograph monitoring clothes in intelligent cardiovascular monitoring object wearing device embodiment of the invention.

Fig. 3 is LA conducting wire, V2 conducting wire and LL in intelligent cardiovascular monitoring object wearing device embodiment electrocardiograph monitoring clothes of the invention The distribution map of conducting wire.

Fig. 4 is RA conducting wire, V1 conducting wire and RL in intelligent cardiovascular monitoring object wearing device embodiment electrocardiograph monitoring clothes of the invention The distribution map of conducting wire.

Fig. 5 is that V3 conducting wire, V4 conducting wire, V5 are led in intelligent cardiovascular monitoring object wearing device embodiment electrocardiograph monitoring clothes of the invention The distribution map of line, V6 conducting wire and temperature measuring wire.

Fig. 6 is the electrical structure block diagram of intelligent cardiovascular monitoring object wearing device embodiment of the invention.

Fig. 7 is the structure chart of signal acquisition bracelet in intelligent cardiovascular monitoring object wearing device embodiment of the invention.

The invention will be further described with reference to the accompanying drawings and embodiments.

Specific embodiment

Referring to Fig. 1,2,6,7, intelligence cardiovascular monitoring object wearing device provided by the invention includes electrocardiograph monitoring clothes 1 and signal Acquire bracelet 2, electrocardiograph monitoring clothes 1 include coat body 11, and the lap portion of coat body 11 is equipped with signal processing box 12, at signal Reason box 12 includes that processor 121, memory 122 and the first wireless communication module 123, coat body 11 are provided with soft at armpit Property temperature sensor 13, is additionally provided with wire assembly 3 and multiple electrocardioelectrodes 4 in coat body 11, and wire assembly 3 is by electrocardio Electrode 4 or flexibility temperature sensor 13 are connect with signal processing box 12, and flexibility temperature sensor 13 is used for temperature collection signal simultaneously To 121 output temperature signal of processor, electrocardioelectrode 4 is for acquiring ECG signal and exporting ECG signal, signal to processor 121 The PPG module 21 being electrical connected and the second wireless communication module 22 are set in acquisition bracelet 2, PPG module 21 is for acquiring PPG signal And PPG signal is exported to processor 121；

First wireless communication module 123 and the second wireless communication module 22 are wirelessly connected, processor 121 and memory 122 It is electrical connected, processor 121 also externally sends signal by the first wireless communication module 123.

Specifically, processor 121 include body temperature analytical unit 124, ecg analysis unit 125, blood oxygen analysis unit 126, Analysis of blood pressure unit 127, main control unit 128.The temperature signal that body temperature analytical unit 124 is acquired according to flexibility temperature sensor 13 Body temperature value information is generated, ecg analysis unit 125 generates electrocardiogram, blood oxygen analysis list according to the ECG signal that electrocardioelectrode 4 acquires Member 126 obtains blood oxygen value information by analysis PPG signal, and analysis of blood pressure unit 127 passes through to the comprehensive of ECG signal and PPG signal It closes analysis and obtains blood pressure value information.Main control unit 128 is according to body temperature value information, electrocardiogram, blood oxygen value information and blood pressure value information Corresponding monitoring message deposit memory 122 is generated, main control unit 128 is also reported monitoring by the first wireless communication module 123 Text is sent to credit terminal device 3.

The first wireless communication module 123 and the second wireless communication module 22 are bluetooth module, signal processing in embodiment Box 12 and signal acquisition bracelet 2 are containing the charged lithium cells and USB charging interface (not marking in figure) being electrical connected.Embodiment Middle credit terminal device 6 is the smart phone for having bluetooth connection function and corresponding A PP being housed, which needs and signal processing Box 12 is attached and matches.

The PPG signal obtained according to photoplethysmographic graphical method (PhotoPlethysmoGraphy is abbreviated as PPG) Include many physiological and pathological informations such as human recycle system, respiratory system, can be used for the detection point of multiple physical body physical signs Analysis, for example blood oxygen levels can be obtained by the direct analysis to PPG signal.It can also theoretically be obtained by analysis PPG signal merely Pressure value out, analysis of blood pressure unit 127, which first synchronizes analysis to PPG signal and ECG signal, can be obtained pulse wave propagation time PWTT (Pulse Wave Translation Time), the linear relationship for being then based on arterial pressure and PWTT calculate blood pressure, this It is higher that the pressure value that kind analytical model obtains analyzes more merely the pressure value accuracy that PPG signal obtains.

Specifically, analysis of blood pressure unit 127 first merges ECG signal and PPG signal to guarantee synchronism, then by shooting Then two kinds of signal waveforms of isolated ECG and PPG carry out high frequency filter to two kinds of signals and make an uproar and filter out baseline drift processing.Most Extract the characteristic point of ECG signal and PPG signal afterwards, the main wave wave crest rising point of the specific R crest value point for extracting ECG and PPG it Between pulse wave propagation time as PWTT value.

Body temperature is an important referential physical signs, also has certain reference for the state of an illness monitoring of cardiovascular disease Value, and be also easy in coat body 11 setting for temperature monitoring and flexible frivolous flexibility temperature sensor 13 to More references are provided for the monitoring and judgement of the state of an illness.

The quantity of electrocardioelectrode 4 is 10, and 10 electrocardioelectrodes are respectively LA electrode 40, RA electrode 41, LL electrode 42, RL Electrode 43, V1 electrode 44, V2 electrode 45, V3 electrode 46, V4 electrode 47, V5 electrode 48 and V6 electrode 49, in which:

LA electrode 40 is located at the left side shoulder position on the lower side of coat body 11；

RA electrode 41 is located at the right shoulder position on the lower side of coat body 11；

LL electrode 42 is located at the left abdomen position of coat body 11；

RL electrode 43 is located at the right abdomen position of coat body 11；

V1 electrode 44 is located at the right chest of coat body 11 and the position close to coat body middle line；

V2 electrode 45 is located at the left chest of coat body 11 and the position close to coat body middle line；

V3 electrode 46, V4 electrode 47, V5 electrode 48 and V6 electrode 49 are set in coat body 11 and are located at V2 electrode 45 Lower left side, and it is incremented by successively at a distance from V3 electrode 46, V4 electrode 47, V5 electrode 48 and V6 electrode 49 and V2 electrode 45.

Above-mentioned each electrocardioelectrode be arranged in coat body 11 referring to the normal electrode distribution form of 12 lead, it can be achieved that The twelve-lead electrocardiogram monitoring continual and steady to user.The middle line of coat body 11 refers to the symmetry axis of coat body 11 Line, the line extend along the longitudinal direction of coat body 11.

Wire assembly 3 arranges that cable tray 5 includes first passage 5a, second channel 5b, third channel along cable tray 5 5c, fourth lane 5d, Five-channel 5e, the 6th channel 5f, the 7th channel 5g, the 8th channel 5h, the 9th channel 5i, the tenth channel 5j, the 11st channel 5k and the 12nd channel 5l, in which:

First passage 5a extends along the left side bodice side seam line of coat body 11, and the upper end of first passage 5a is located at jacket sheet At the left armpit of body 11, the lower end of first passage 5a is located at the waist of coat body 11 or less position；

Second channel 5b extends along the left side bodice side seam line of coat body 11, and the upper end of second channel 5b is located at jacket sheet At the right axillary nest of body 11, the lower end of second channel 5b is located at the waist of coat body 11 or less position；

The both ends of third channel 5c are connect with the lower end of the lower end of first passage 5a and second channel 5b respectively；

The lower end of fourth lane 5d is connect with the upper end of first passage 5a, and the upper end of fourth lane 5d is located at LA electrode 40 Place；

The lower end of Five-channel 5e is connect with the upper end of second channel 5b, and the upper end of Five-channel 5e is located at RA electrode 41 Place；

The first end of 6th channel 5f is connect with the upper end first passage 5a, and the second end of the 6th channel 5f is located at V2 electrode 45 Place；

The first end of 7th channel 5g is connect with the upper end second channel 5b, and the second end of the 7th channel 5g is located at V1 electrode 44 Place；

The first end of 8th channel 5h is located at LL electrode 42, and the second end of the 8th channel 5h is connect with first passage 5a；

The first end of 9th channel 5i is located at RL electrode 43, and the second end of the 9th channel 5i is connect with second channel 5b；

Tenth channel 5j is in the curved arc of the bottom towards coat body 11, and the tenth channel 5j is located at coat body 11 Left chest and side edge with V3 electrode 46, V4 electrode 47, V5 electrode 48 and V6 electrode 49, the end of the tenth channel 5j and the One channel 5a connection；

The first end of 11st channel 5k is located at flexibility temperature sensor 13, the second end and first of the 11st channel 5k Channel 5a or second channel 5b connection；

The first end of 12nd channel 5l is connect with third channel 5c, and the second end of the 12nd channel 5l is located at signal processing At box 12.

The upper body front surface region of human body is more sensitive, and the middle part of coat body 11 and the region, which exist, to be bonded, and it is above-mentioned walk Line passage 5 is above distributed in the two sides of coat body 11 in layout more, therefore can effectively reduce wire assembly 3 and human contact, from And it avoids influencing snugness of fit.Only third channel 5c longer in the cable tray 5 of lateral arrangement, but it is located at coat body 11 Therefore waist is hereinafter, also can effectively avoid bringing snugness of fit adverse effect.In addition electrocardioelectrode 4 is laid out closeer The tenth channel 5j that one article of arc is arranged in the left chest of coat body 11 is conducive to simplify wiring, and equally also can avoid, which influences dress, relaxes Adaptive.

Greatly as the essential term in clothing field, refer to that coat body 11 removes the part other than neck portion and two sleeve portions, it is real The bodice for applying this T-shirt style jacket in example is made of two pieces of pieces of cloth sutures, this two pieces of pieces of cloth need to stitch along longitudinal direction in the left and right sides It closes, therefore is here defined as two pieces of pieces of cloth for forming bodice in the longitudinal straight line for carrying out the reference of Linear repair when institute to left side edge Left side bodice side seam line, and this two pieces of pieces of cloth are defined as in the longitudinal straight line for carrying out the reference of Linear repair when institute to right side edge Right side bodice side seam line.

Because of be set to coat body 11 left side bodice side seam line at first passage 5a, set on coat body 11 The U-shaped channel that second channel 5b and 11 waist of coat body third channel 5c below at the bodice side seam line of right side is constituted Series connection, remaining cable tray 5 directly to connect with electrocardioelectrode 4, flexibility temperature sensor 13 or signal processing box 12 can be nearest Ground is connect with U-shaped channel, therefore all shortlyer settable, and shortens wire assembly 3 on the basis of guaranteeing snugness of fit Total length.Such as since flexibility temperature sensor 13 has been arranged at the right axillary nest of coat body 11 in embodiment, the 11st is logical Road 5k is connected to second channel 5b nearby.8th channel 5h and the 9th inclined arrangement of channel 5i in embodiment, reality can also It is arranged along the horizontal to shorten the length of respective wire.

Referring to fig. 2 to 5, wire assembly 3 includes LA conducting wire 3a, V2 conducting wire 3b, LL conducting wire 3c, RA conducting wire 3d, V1 conducting wire 3e With RL conducting wire 3f.

LA conducting wire 3a connection LA electrode 40 and signal processing box 12, LA conducting wire 3a is successively along fourth lane 5d, first passage 5a, third channel 5c and the 12nd channel 5l cabling.

V2 conducting wire 3b connection V2 electrode 45 and signal processing box 12, V2 conducting wire 3b is successively along the 6th channel 5f, first passage 5a, third channel 5c and the 12nd channel 5l cabling.

LL conducting wire 3c connection LL electrode 42 and signal processing box 12, LL conducting wire 3c is successively along the 8th channel 5h, first passage 5a, third channel 5c and the 12nd channel 5l cabling.

RA conducting wire 3d connection RA electrode 41 and signal processing box 12, RA conducting wire 3d is successively along Five-channel 5e, second channel 5b, third channel 5c and the 12nd channel 5l cabling.

V1 conducting wire 3e connection V1 electrode 44 and signal processing box 12, V1 conducting wire 3e is successively along the 7th channel 5g, second channel 5b, third channel 5c and the 12nd channel 5l cabling.

RL conducting wire 3f connection RL electrode 43 and signal processing box 12, RL conducting wire 3f is successively along the 9th channel 5i, second channel 5b, third channel 5c and the 12nd channel 5l cabling.

Wire assembly 3 further includes the V3 conducting wire 3g for connecting V3 electrode 46 and signal processing box 12, connection V4 electrode 47 and letter The V4 conducting wire 3h of number handle box 12, the V5 conducting wire 3i of connection V5 electrode 48 and signal processing box 12 and connection V6 electrode 49 and letter V6 conducting wire 3j, V3 conducting wire 3g, V4 conducting wire 3h, V5 conducting wire 3i and V6 conducting wire 3j of number handle box 12 successively along the tenth channel 5j, First passage 5a, third channel 5c and the 12nd channel 5g cabling.

Wire assembly 3 further includes the temperature measuring wire 3k for connecting flexibility temperature sensor 13 and signal processing box 12, and thermometric is led Line 3k is successively along the 11st channel 5l, first passage 5a, third channel 5c and the 12nd channel 5j cabling or temperature measuring wire 3k Successively along the 11st channel 5l, second channel 5b, third channel 5c and the 12nd channel 5j cabling.

Referring to Fig. 1, coat body 11 is provided with bullet on the sleeve inner surface of side corresponding with flexibility temperature sensor 13 Property cranse 14.Elasticity 14 can tighten the sleeve portion of coat body 11, and being disposed at one end in sleeve close to armpit can make Flexibility temperature sensor 13 close to user armpit so that the temperature value that detects of flexibility temperature sensor 13 is closer to using The body temperature of person.Specifically, elastic band production can be used in Elasticity 14.

Referring to Fig. 6, information collection bracelet 2 further includes hollow shell 23, PPG module 21 and the second wireless communication module 22 It is set to inside shell 23, shell 23 is provided with transparent collecting window 24, PPG module 21 in bottom surface and 21 corresponding region of PPG module Including double light emitting diodes 211 and optical receiver 212, double light emitting diodes 211 can emit feux rouges to wrist and infrared light, light connect It receives the light pulse signal that the reception arm of device 212 is reflected back and generates corresponding PPG signal.

Oxyhemoglobin (HbO in blood₂) and deoxyhemoglobin (Hb) in feux rouges and infrared light district, (600nm is extremely 1000nm) there is unique absorption spectrum, therefore the feux rouges of the sending of double light emitting diodes 211 and infrared light pass through the suction of arm tissue Light pulse signal is received and becomes after reflecting, optical receiver 212 is again to light pulse signal according to PRF (Pulse Recurrence Frequency, pulse recurrence frequency) it is tested and analyzed to obtain photoplethysmographic signal, i.e. PPG signal.PPG signal can It is sent to signal processing box 12 by the second wireless communication module, blood oxygen analysis unit 126 can be calculated directly according to PPG signal Blood oxygen levels information out.

Claims (9)

1. a kind of intelligence cardiovascular monitoring object wearing device, including electrocardiograph monitoring clothes and signal acquisition bracelet, it is characterised in that:

The electrocardiograph monitoring clothes include coat body, and the lap portion of the coat body is equipped with signal processing box, at the signal Reason box includes processor, memory and the first wireless communication module, and flexible temperature is arranged at armpit and passes for the coat body Sensor, is additionally provided with wire assembly and multiple electrocardioelectrodes in the coat body, and the wire assembly is by the electrocardio electricity Pole or the flexibility temperature sensor are connect with the signal processing box, and the flexibility temperature sensor is used for temperature collection signal And the temperature signal is exported to the processor, the electrocardioelectrode is for acquiring ECG signal and exporting to the processor The ECG signal sets the PPG module being electrical connected and the second wireless communication module, the PPG mould in the signal acquisition bracelet Block is for acquiring PPG signal and exporting the PPG signal to the processor；

First wireless communication module and second wireless communication module are wirelessly connected, the processor and the memory It is electrical connected, the processor also passes through first wireless communication module and externally sends signal.

2. intelligence cardiovascular monitoring wearable device as described in claim 1, it is characterised in that:

The quantity of the electrocardioelectrode is 10, and 10 electrocardioelectrodes are respectively LA electrode, RA electrode, LL electrode, RL electricity Pole, V1 electrode, V2 electrode, V3 electrode, V4 electrode, V5 electrode and V6 electrode, in which:

The LA electrode is located at the left side shoulder position on the lower side of the coat body；

The RA electrode is located at the right shoulder position on the lower side of the coat body；

The LL electrode is located at the left abdomen position of the coat body；

The RL electrode is located at the right abdomen position of the coat body；

The V1 electrode is located at the right chest of the coat body and the position close to the coat body middle line；

The V2 electrode is located at the left chest of the coat body and the position close to the coat body middle line；

The V3 electrode, the V4 electrode, the V5 electrode and the V6 electrode are set in the coat body and are located at institute State the lower left side of V2 electrode, and the V3 electrode, the V4 electrode, the V5 electrode and the V6 electrode and the V2 electrode Distance it is incremented by successively.

3. intelligence cardiovascular monitoring wearable device as claimed in claim 2, it is characterised in that:

The wire assembly arranges that the cable tray includes first passage, second channel, third channel, the along cable tray Four-way, Five-channel, the 6th channel, the 7th channel, the 8th channel, the 9th channel, the tenth channel, the 11st channel and the tenth Two channels, in which:

The first passage extends along the left side bodice side seam line of the coat body, and the upper end of the first passage is located at described At the left armpit of coat body, the lower end of the first passage is located at the waist of the coat body or less position；

The second channel extends along the right side bodice side seam line of the coat body, and the upper end of the second channel is located at described At the right axillary nest of coat body, the lower end of the second channel is located at the waist of the coat body or less position；

The both ends of the third channel are connect with the lower end of the lower end of the first passage and the second channel respectively；

The lower end of the fourth lane is connect with the upper end of the first passage, and the upper end of the fourth lane is located at the LA electricity At pole；

The lower end of the Five-channel is connect with the upper end of the second channel, and the upper end of the Five-channel is located at the RA electricity At pole；

The first end in the 6th channel is connect with the upper end of the first passage, and the second end in the 6th channel is located at described At V2 electrode；

The first end in the 7th channel is connect with the upper end of the second channel, and the second end in the 7th channel is located at described At V1 electrode；

The first end in the 8th channel is located at the LL electrode, and the second end in the 8th channel and the first passage connect It connects；

The first end in the 9th channel is located at the RL electrode, and the second end in the 9th channel and the second channel connect It connects；

Tenth channel is in the curved arc of the bottom towards the coat body, and the tenth channel is located at the jacket sheet The left chest of body and side edge with the V3 electrode, the V4 electrode, the V5 electrode and the V6 electrode, the described tenth The end in channel is connect with the first passage；

The first end in the 11st channel is located at the flexibility temperature sensor, the second end in the 11st channel and institute State first passage or second channel connection；

The first end in the 12nd channel is connect with the third channel, and the second end in the 12nd channel is located at the letter At number handle box.

4. intelligence cardiovascular monitoring wearable device as claimed in claim 3, it is characterised in that:

The wire assembly includes LA conducting wire, V2 conducting wire and LL conducting wire；

The LA conducting wire connects the LA electrode and the signal processing box, and the LA conducting wire is successively along the fourth lane, institute State first passage, the third channel and the 12nd channel cabling；

The V2 conducting wire connects the V2 electrode and the signal processing box, and the V2 conducting wire is successively along the 6th channel, institute State first passage, the third channel and the 12nd channel cabling；

The LL conducting wire connects the LL electrode and the signal processing box, and the LL conducting wire is successively along the 8th channel, institute State first passage, the third channel and the 12nd channel cabling.

5. intelligence cardiovascular monitoring wearable device as claimed in claim 3, it is characterised in that:

The wire assembly includes RA conducting wire, V1 conducting wire and RL conducting wire；

The RA conducting wire connects the RA electrode and the signal processing box, and the RA conducting wire is successively along the Five-channel, institute State second channel, the third channel and the 12nd channel cabling；

The V1 conducting wire connects the V1 electrode and the signal processing box, and the V1 conducting wire is successively along the 7th channel, institute State second channel, the third channel and the 12nd channel cabling；

The RL conducting wire connects the RL electrode and the signal processing box, and the RL conducting wire is successively along the 9th channel, institute State second channel, the third channel and the 12nd channel cabling.

6. intelligence cardiovascular monitoring wearable device as claimed in claim 3, it is characterised in that:

The wire assembly includes the V3 conducting wire for connecting the V3 electrode and the signal processing box, the connection V4 electrode and institute State the V4 conducting wire of signal processing box, the V5 conducting wire for connecting the V5 electrode and the signal processing box and the connection V6 electrode With the V6 conducting wire of the signal processing box, the V3 conducting wire, the V4 conducting wire, the V5 conducting wire and the V6 conducting wire successively edge Tenth channel, the first passage, the third channel and the 12nd channel cabling.

7. intelligence cardiovascular monitoring wearable device as claimed in claim 3, it is characterised in that:

The wire assembly includes the temperature measuring wire for connecting the flexibility temperature sensor and the signal processing box, the thermometric Conducting wire is successively along the 11st channel, the first passage, the third channel and the 12nd channel cabling, Huo Zhesuo Temperature measuring wire is stated successively along the 11st channel, the second channel, the third channel and the 12nd channel cabling.

8. intelligence cardiovascular monitoring object wearing device as claimed in any of claims 1 to 7 in one of claims, it is characterised in that:

The information collection bracelet further includes hollow shell, and the PPG module and second wireless communication module are set to Enclosure interior, the shell are provided with transparent collecting window in bottom surface and PPG module corresponding region, and the PPG module includes Double light emitting diodes and optical receiver, double light emitting diodes can emit feux rouges and infrared light, the optical receiver to wrist It receives the light pulse signal that arm is reflected back and generates corresponding PPG signal.

9. intelligence cardiovascular monitoring object wearing device as claimed in any of claims 1 to 7 in one of claims, it is characterised in that:

Elasticity is provided on the sleeve inner surface of side corresponding with the flexibility temperature sensor in the coat body.