CN117339106B - Portable wearable intelligent electrocardiograph monitoring physiotherapy watch - Google Patents

Abstract

The invention relates to the technical field of medical supplies, in particular to a portable wearable intelligent electrocardiograph monitoring physiotherapy watch, which comprises a dial plate, wherein an acquisition module and an analysis module are arranged on the dial plate, and a transmission module and a working module are arranged on a watchband; the acquisition module acquires first physiological data of a wearer, wherein the first physiological data comprises electrocardio, pulse and blood oxygen data; the analysis module receives and sorts the first physiological data, identifies abnormal characteristics in the first physiological data and generates a control signal; the transmission module transmits the control signal to the working module, the electrode plate of the working module sends out electric pulse stimulation to the acupuncture points after receiving the control signal, and reminds a wearer that the first physiological data are abnormal.

Description

Portable wearable intelligent electrocardiograph monitoring physiotherapy watch

Technical Field

The invention relates to the technical field of medical supplies, in particular to a portable wearable intelligent electrocardiograph monitoring physiotherapy watch.

Background

In modern life, intelligent wearable devices have become common wearable devices for people. The equipment can realize real-time monitoring and display of health data and motion states of users through direct contact with a wearer and a small display screen arranged in the equipment. However, many portable wrist-type smart watch-like electrocardiograph monitors currently on the market, which are concerned with data collection and analysis, such as heart rate monitoring, to help users understand their own physical condition, but lack direct physiological feedback and physical therapy mechanisms.

The traditional Chinese medicine is profound, and medical literature shows that acupuncture points have definite clinical curative effects on physiotherapy arrhythmia and myocardial ischemia, and the action mechanism of the acupuncture points is related to blocking calcium channels, improving autonomic nerve functions and regulating myocardial tissue protein expression and hormone level. According to the dialectical rules of acupoints in traditional Chinese medicine, "Neiguan acupoint", "Shenmen acupoint" and other important cardiovascular corresponding acupoints are just positioned near the wrist strap, so that the monitoring and stimulation physiotherapy can be combined to form the portable and wearable household automatic electrocardiograph monitoring physiotherapy instrument, and the portable and wearable household automatic electrocardiograph monitoring physiotherapy instrument is an intelligent watch with the functions of recording time in daily life and the like.

Disclosure of Invention

The invention aims at: aiming at the problems that intelligent wearing equipment only focuses on data collection and analysis and lacks direct physiological feedback and physiotherapy mechanism actions in the prior art, the invention sets the electrode slices to perform electric pulse stimulation on related acupuncture points through physiological data, so that the intelligent wearing equipment can play a role in assisting in monitoring and physiotherapy on cardiovascular diseases.

In order to achieve the above object, the present invention provides the following technical solutions:

the portable wearable intelligent electrocardiograph monitoring physiotherapy watch comprises a dial plate and a watchband, wherein an acquisition module and an analysis module are arranged on the dial plate, and a transmission module and a working module are arranged on the watchband;

the acquisition module acquires all-weather first physiological data of a wearer and transmits the first physiological data to the analysis module, wherein the first physiological data comprises electrocardio, pulse and blood oxygen data;

the analysis module receives and collates the first physiological data, identifies abnormal characteristics in the first physiological data and generates a control signal;

the transmission module transmits the control signal to the working module, the working module comprises an electrode plate, and the electrode plate sends out electric pulse stimulation to the acupuncture points of the human body after receiving the control signal and reminds the wearer of the abnormality of the first physiological data.

As a preferred technical scheme of the application, the acquisition module acquires the first physiological data through a non-contact sensor, and the analysis module receives the first physiological data and performs analysis correction, noise elimination and interference signal elimination, including using wavelet-based multi-scale analysis to reduce the influence of high-frequency noise and simultaneously retain the characteristics of waveforms;

training a neural network using the labeled dataset using an existing arrhythmia database MIT-BIH, wherein the arrhythmia database MIT-BIH includes a plurality of arrhythmia conditions and corresponding ECG signal characteristics thereof; extracting features in the first physiological data, specifically including detecting a QRS complex using Pan-Tompkins algorithm, and after determining the QRS complex, determining P and T waves from the QRS complex; after QRS, P and T waves are detected, extracting characteristics of each waveform, including duration, amplitude and slope, inputting the characteristics into a trained neural network, marking the extracted waveform characteristics, and determining whether the waveform is the QRS, the P or the T waves;

different control signals are correspondingly generated according to different abnormal conditions of different waveforms and are sent to the working module, different control signals correspond to different stimulation signals, the stimulation signals comprise stimulation duration, stimulation positions, stimulation frequency and stimulation intensity, and the electrode plates of the working module perform electric pulse stimulation on corresponding acupuncture points according to the stimulation signals.

As the preferred technical scheme of this application, still be provided with measurement module on the watchband, measurement module obtains the wrist according to watchband length of use and encloses, obtains the standard position of interior close cave and supernatural door cave according to the wrist of wearer's wrist and encloses, the electrode slice with the watchband passes through separable connection, measurement module obtains the electrode slice with the hookup location of watchband, obtain electrode slice and interior close cave and supernatural door cave relative position, if relative position surpasss the threshold value, then reminds the wearer to adjust wrist wearing position or adjustment electrode slice with the hookup location of watchband, until relative position is less than the threshold value.

As a preferred technical scheme of the application, the electrode plate is divided into a central area and an edge area, the edge area is divided into a plurality of sub-areas, when the electrode plate performs electric pulse stimulation on the acupuncture points, the central area keeps electric pulse stimulation, and the sub-areas of the edge area perform electric pulse stimulation one by one; recording first physiological data when the central area and each sub-area perform electric pulse stimulation, obtaining a time interval with the maximum improvement amplitude of the first physiological data, taking the sub-area corresponding to the electric pulse stimulation in the time area as an offset area, and offsetting the standard positions of the Neiguan acupoint and the Shenmen acupoint to the offset area.

As the preferred technical scheme of this application, still include remote module in the dial plate, the first physiological data synchronous transmission who gathers of collection module is given urgent contact, urgent contact is for the contact that the person of wearing predetermines, works as analysis module analysis first physiological data appears unusual, reminds the person current when first physiological data appears unusual, remote module synchronous to urgent contact sends the warning information, and simultaneously when first physiological data appears unusual, remote module inquires whether the person of wearing calls for help to the outside, does not obtain the response or obtains calling for help to the outside when needing to call for help the response in predetermine time, sends the current position information of person in the lump.

As the preferable technical scheme of the application, a database is preset in the dial, different emergency measures corresponding to cardiovascular diseases are stored in the database, the analysis module determines the current cardiovascular diseases according to abnormal conditions of different waveforms in the first physiological data of the wearer, matches the corresponding emergency measures in the database according to the current cardiovascular diseases, and plays the emergency measures to the outside.

As the preferable technical scheme of the application, the analysis module divides the current state of the wearer into a static state or a moving state according to the wrist activity amplitude, the wearer can also actively set the current state of the wearer into the static state or the moving state, and the analysis module analyzes different standard physiological data matched when the wearer is in different states.

As the preferable technical scheme of this application, still set up contact sensor on the collection module, contact sensor is used for analyzing first physiological data is unusual or when the wearer's feel is uncomfortable at the analysis module, contact sensor follow dial plate or protruding on the watchband, with the direct contact of wearer's skin and exert pressure, through exerting pressure contact survey the second physiological data of wearer, and will the second physiological data transmission to the analysis module, the analysis module receives second physiological data and arrangement, discerns second physiological data, judges according to the wave form of second physiological data whether the wearer physiological data has the abnormality, if second physiological data has the abnormality, then generates corresponding control signal, if second physiological data does not have the abnormality, then does not generate control signal.

As a preferable technical scheme of the application, the telescopic link is also arranged on the watchband, the other end of the telescopic link is connected with the electrode plate, the contact sensor is also arranged on the electrode plate and is used for analyzing whether the physiological data of the wearer is abnormal or not according to the waveform of the third physiological data, if the physiological data of the wearer is abnormal, the contact sensor and the electrode plate are raised from the watchband through the telescopic link and are in direct contact with the skin of the wearer and exert pressure, the contact sensor is used for measuring the third physiological data of the wearer through pressure exerted contact and transmitting the third physiological data to the analysis module, the analysis module is used for receiving and sorting the third physiological data, judging whether the physiological data of the wearer is abnormal or not according to the waveform of the third physiological data, if the physiological data of the third physiological data is not abnormal, generating the control signal, if the physiological data of the third physiological data is abnormal, generating the corresponding control signal, and the electrode plate is used for stimulating acupoints through pressure exerted by the contact; the telescopic rod is offset towards the elbow direction in the protruding process, so that the telescopic rod forms an acute angle with the watchband and the dial plate in the elbow direction.

As a preferred technical solution of the present application, the first physiological data is compared with the second physiological data and the third physiological data, and parameter correction is performed on the first physiological data measured by the non-contact sensor through differences between the second physiological data and the third physiological data and the first physiological data.

As the preferable technical scheme of the application, the dial plate further comprises a data processing module, wherein the data processing module collects the first physiological data, the second physiological data and the third physiological data of the wearer, which are abnormal, simultaneously records the time length of each occurrence of the abnormality and the time interval of each occurrence of the two abnormalities, obtains the time length change and the frequency change of the multiple abnormalities of the wearer, and adjusts the stimulation time length, the stimulation frequency and the stimulation intensity of the stimulation signals according to the time length change and the frequency change of the abnormalities.

Compared with the prior art, the invention has the beneficial effects that:

1. the method comprises the steps that daily first physiological data of a wearer are collected through the collecting module, the analyzing module analyzes whether the first physiological data has abnormal characteristics, if the first physiological characteristics are abnormal, a control signal is sent, and the working module carries out corresponding electric pulse stimulation according to a stimulation signal in the control signal; the Neiguan acupoint and Shenmen acupoint are just distributed at the wrist position, so that the operation is convenient, the daily activities are not influenced by the wearable acupoint, and local stimulation is automatically or manually sent through intelligent electrocardiograph data monitoring, so that the novel cardiovascular external home self-use and noninvasive intervention auxiliary physiotherapy means which are wide in coverage, convenient to operate, easy to accept and effective are formed; further, the dial plate also comprises a feedback module, wherein the feedback module is used for receiving and recording feedback signals of electrode stimulation, including but not limited to skin electrical impedance and nerve conduction speed of a wearer, and the skin electrical impedance and nerve conduction speed of different wearers are different, so that the feedback signals can be used for adjusting stimulation parameters so as to achieve the optimal physiotherapy effect;

2. The non-contact sensor is adopted to collect the first physiological data of the wearer, wearing comfort of the wearer can be effectively ensured, discomfort of the wearer due to long-time pressing of the contact sensor such as pressing is avoided, the wearer does not want to take a watch to perform stimulation massage and poor compliance, abnormal physiological data corresponding to different cardiovascular diseases are analyzed through data processing, different control signals are correspondingly generated according to different cardiovascular diseases and sent to the working module, the control signals correspond to preset different stimulation signals, the stimulation signals comprise stimulation duration, stimulation parts, stimulation frequency and stimulation intensity, and electrode plates of the working module perform electric pulse stimulation on corresponding acupuncture points according to the stimulation signals so as to play a role in auxiliary physical therapy of stimulation massage of the wearer;

3. considering that the wrist circumference lengths of wrists of different wearers are different, the positions of the interior-closing hole and the supergate hole at the wrist are also different, for the dial plate and the watchband, it is difficult to match the electrode sheet to the interior-closing hole and the supergate hole of each wearer in advance, therefore, the standard positions of the interior-closing hole and the supergate hole are determined after the wrist circumference is measured, the electrode sheet is detachably connected with the watchband, the measuring module obtains the connection positions of the electrode sheet and the watchband, the electrode sheet comprises the supergate hole electrode sheet and the interior-closing hole electrode sheet, and the relative positions of the interior-closing hole electrode sheet and the supergate hole electrode sheet can be obtained when the watch is worn, and the electrode sheet can be accurately attached to the positions of the interior-closing hole and the supergate hole by adjusting the wearing position of the watch or the connection position of the electrode sheet and the watchband; further, considering that the acupoints may be different due to reasons including individuals and cases, or that the most suitable acupoints of different wearers may deviate from the centers of the acupoints, in the present application, the electrode sheet is divided into a plurality of sub-areas of a central area and an edge area, during the stimulation, the central area is continuously stimulated, and the plurality of sub-areas perform the electric pulse stimulation one by one; recording first physiological data when the central area and each sub-area perform electric pulse stimulation, obtaining a time interval with the maximum improvement amplitude of the first physiological data, taking the sub-area corresponding to the electric pulse stimulation in the time area as an offset area, offsetting the standard positions of the Neiguan acupoint and the Shenmen acupoint towards the offset area, and directly taking the offset position as the standard position to perform position adjustment when a wearer wears the device next time, so that the stimulation position falls at the position with the best stimulation effect on the wearer after multiple times of adjustment and multiple times of wearing, and simultaneously, taking the worn body feeling into consideration when the variation amplitude of the multiple sub-areas in the corresponding time of the one-by-one stimulation is consistent, and adjusting the offset direction of the standard positions of the Neiguan acupoint and the Shenmen acupoint according to the body feeling of the wearer;

4. Considering that the wearer is older and risks of cardiovascular diseases, and when the wearer suffers from acute cardiovascular diseases, the wearer may have difficulty in making effective help-seeking measures due to severe pain and even falls into coma, so as to delay the rescue time, in the embodiment, the emergency contact receives information simultaneously when abnormal conditions occur by setting the emergency contact synchronous physiological data in the remote module, so that the wearer can be helped to carry out operations such as calling ambulance, and meanwhile, the remote module can also ask the wearer for help-seeking, and when the information for help-seeking is obtained or no response is obtained within the preset time, the wearer is determined to be likely to fall into coma, and the user is directly helped to call for help; further, considering that the emergency cardiovascular diseases are relatively dangerous, the gold rescue time is relatively short, and the ambulance and the medical staff with specialized first aid knowledge have the required time for arriving, but the optimal time for rescuing just in the time, a database is preset in the dial, different first aid measures corresponding to the cardiovascular diseases are stored in the database, the analysis module determines the current cardiovascular diseases according to the abnormal conditions of different waveforms in the first physiological data of the wearer, the corresponding first aid measures in the database are matched according to the current cardiovascular diseases, and the first aid measures are played to the outside, when the first aid measures are played to the outside, the wearer can perform first aid operation on the wearer according to the playing content, and at the same time, family members or passersby can also perform first aid operation on the wearer according to the playing content, so that the family members and passersby can master the most targeted first aid measures when the wearer is at home, and the passersby can get the benefit after the rescue measures are healed in time and correct;

5. Considering that the physiological data measured by the contact sensor directly contacting the human body is accurate relative to the non-contact sensor, when the analysis module analyzes that the first physiological data is abnormal, the contact sensor protrudes from the dial, the second physiological data of the wearer is measured through pressure contact, whether a control signal is sent or not is determined based on the second physiological data, the contact sensor protrudes to press the human body only when the first physiological data is abnormal, and therefore discomfort of the body feeling caused by daily life of the wearer is not influenced; furthermore, considering that the electrode plate is connected with the watchband, the connection with the skin and the acupuncture points of the human body is not tight during stimulation, the capacity loss and the unstable capacity are caused by the existence of gaps, and the telescopic rod is also arranged on the electrode plate, so that the electrode plate can directly press the acupuncture points during the stimulation, and the better stimulation effect is achieved; meanwhile, the contact type sensor is also arranged on the motor sheet, the electrode sheet can collect third physiological data when being in contact with acupuncture points for stimulation, and the collecting areas of the first physiological data, the second physiological data and the third physiological data are different, so that a multi-lead electrocardiogram can be formed, and the multi-lead electrocardiogram has better reference value; meanwhile, considering that the arms usually naturally droop in daily life of a wearer, when cardiovascular abnormality and pain occur, the wrist usually lifts up and then presses the chest, at the moment, the attractive force direction of the watch changes, the watch is easy to move towards the elbow, and the electrode plate is easy to stimulate to an incorrect position when moving, so in the embodiment, the telescopic rod is deviated towards the elbow in the protruding process, the telescopic rod, the watchband and the dial form an acute angle in the elbow direction, and in this way, when the watch has a trend of moving towards the elbow direction, the telescopic rod generates a supporting force on the watch, the watch is prevented from moving towards the elbow direction, the position of the electrode plate is kept, and meanwhile, the pressure of the electric meter also further presses the electrode plate and the contact sensor, so that the electrode plate, the contact sensor and the skin generate larger pressure;

6. The second physiological data and the third physiological data are obtained through measurement of a contact sensor, the first physiological data obtained by a non-contact sensor may be lower in data accuracy than the second physiological data and the third physiological data obtained by the contact sensor due to the fact that the sensor is far away from the skin and the like caused by wearing habits, and therefore, the first physiological data measured by the non-contact sensor are subjected to parameter correction through differences between the second physiological data and the third physiological data and the first physiological data, so that the first physiological data obtained by the first physiological data in daily measurement is more accurate; further, the data processing module acquires the time length of each occurrence of abnormality and the time interval of each occurrence of the abnormality by collecting the first physiological data, the second physiological data and the third physiological data of the abnormality of the wearer, and acquires the time length change and the frequency change of the abnormality of the wearer for a plurality of times, and when the wearer is in medical treatment, the abnormal physiological data can be provided for a doctor to be referred to, so that the problem that the cardiovascular of the wearer is in a normal and steady state when the wearer is in medical treatment is avoided, and the disease is difficult to judge; and meanwhile, the stimulation duration, the stimulation frequency and the stimulation intensity of the stimulation signal are adjusted according to the abnormal duration change and the frequency change, for example, the abnormal frequency of the wearer in the near period is increased, so that the intensity of the stimulation massage can be properly increased, and the device is flexibly applicable to the physical condition of the wearer.

Drawings

Fig. 1 is a schematic view of the overall structure of a portable wearable intelligent electrocardiograph monitoring physiotherapy wristwatch;

FIG. 2 is a schematic diagram of a portable wearable intelligent electrocardiograph monitoring physiotherapy wristwatch;

FIG. 3 is a schematic flow chart of a portable wearable intelligent electrocardiograph monitoring physiotherapy wristwatch;

FIG. 4 is a schematic diagram of an electrode pad of a portable wearable intelligent electrocardiograph monitoring physiotherapy wristwatch;

fig. 5 is a schematic diagram of a partial cross-sectional structure of a portable wearable intelligent electrocardiograph monitoring physiotherapy wristwatch.

The marks in the figure are as follows: 1-dial plate, 2-watchband, 3-Shenmen acupoint electrode plate, 4-Neiguan acupoint electrode plate, 41-central area, 42-edge area, 421-subarea and 5-telescopic rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. It will be apparent that the described embodiments are some, but not all, embodiments of the invention.

Thus, the following detailed description of the embodiments of the invention is not intended to limit the scope of the invention, as claimed, but is merely representative of some embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that, under the condition of no conflict, the embodiments of the present invention and the features and technical solutions in the embodiments may be combined with each other.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present invention, it should be noted that, the terms "upper", "lower", and the like indicate an azimuth or a positional relationship based on the azimuth or the positional relationship shown in the drawings, or an azimuth or a positional relationship conventionally put in use of the inventive product, or an azimuth or a positional relationship conventionally understood by those skilled in the art, such terms are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element to be referred must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

The portable wearable intelligent electrocardiograph monitoring physiotherapy watch provided by the embodiment is shown in fig. 1, 2 and 3, and comprises a dial plate 1 and a watchband 2, wherein an acquisition module and an analysis module are arranged on the dial plate 1, and a transmission module and a working module are arranged on the watchband 2;

The acquisition module acquires all-weather first physiological data of a wearer and transmits the first physiological data to the analysis module, wherein the first physiological data comprises electrocardio, pulse and blood oxygen data;

the analysis module receives and collates the first physiological data, identifies abnormal characteristics in the first physiological data and generates a control signal;

the transmission module transmits the control signal to the working module, the working module comprises an electrode plate, and the electrode plate sends out electric pulse stimulation to the acupuncture points of the human body after receiving the control signal and reminds the wearer of the abnormality of the first physiological data.

The acquisition module is arranged on one side of the dial 1 close to the skin of a human body, acquires physiological data such as pulse and blood oxygen signals through imaging photoplethysmography, acquires multi-lead electrocardiosignals through a wireless ECG device through an expansion interface, and transmits the data to the analysis module through the transmission module after the data are collected; the transmission module uses a Reed-Solomon code to verify the integrity of data and correct or retransmit when errors are found, and in addition, sensor calibration and periodic self-checking are also used for ensuring the accuracy of the data; particularly, the expansion interface generally uses a wireless channel for transmission, and when a main transmission channel, namely the wireless channel, has a problem, the prompt is automatically switched to other transmission modes; or the wearer manually activates the standby transmission channel after receiving the prompt to switch to a wired transmission or other wireless communication modes so as to ensure that data cannot be lost; particularly, the standby wireless transmission mode can be a mode which is replaced by 2.4Ghz WiFI, bluetooth and ZigBee, and the standby wired transmission is carried out through a USB cable; the transmission module supports multiple data sources and target formats, and two transmission modes of wire and wireless, can automatically identify and convert the different formats, can ensure the integrity and accuracy of data, has high availability, can automatically switch to a standby transmission mode, ensures the continuity and stability of data transmission, supports efficient incremental update, can automatically monitor the change in the data sources, only transmits newly added, modified or deleted data, and avoids repeated transmission and resource waste;

The electric pulse stimulation is connected with the corresponding PCB and electronic components by arranging the miniature pulse energy transmitter, other energy such as radio frequency and the like can be selected to be similar to micro current except for electric pulse stimulation, the pulse frequency is 2-15Hz density wave, the stimulation pulse width is 80 (1+/-30%) us, the working voltage is d.c.3.5-4V, the current intensity is 2mA-6mA, and the peak value is not more than 10mA; the conductive impedance of the stimulating electrode is 420 omega +/-10%;

the points of the Chinese medicine, such as Neiguan point and Shenmen point, are important cardiovascular diseases acupuncture stimulation points, and the literature proves that the Neiguan point and the Shenmen point are stimulated: 1) Has bidirectional regulating effect on arrhythmia, i.e. has certain curative effects on tachyarrhythmia such as atrial fibrillation, upper ventricular tachycardia, premature ventricular arrhythmia and various bradyarrhythmias; 2) Has the functions of tranquilizing, allaying excitement and relieving pain, so that the symptoms such as chest distress, angina, myocardial ischemia and insomnia can be relieved;

in this embodiment, the collecting module collects daily first physiological data of the wearer, the analyzing module analyzes whether the first physiological data has abnormal characteristics, if the first physiological characteristics are abnormal, a control signal is sent, and the working module performs corresponding electric pulse stimulation according to a stimulation signal in the control signal; the Neiguan acupoint and Shenmen acupoint are just distributed at the wrist position, so that the operation is convenient, the daily activities are not influenced by the wearable acupoint, and local stimulation is automatically or manually sent through intelligent electrocardiograph data monitoring, so that the novel cardiovascular external home self-use and noninvasive intervention auxiliary physiotherapy means which are wide in coverage, convenient to operate, easy to accept and effective are formed;

Further, the dial 1 further includes a feedback module, which is used for receiving and recording feedback signals of electrode stimulation, including but not limited to skin electrical impedance and nerve conduction speed of the wearer, and the skin electrical impedance and nerve conduction speed of different wearers are different, so that the feedback signals can be used for adjusting stimulation parameters to achieve the optimal physiotherapy effect.

As a preferred technical scheme of the application, the acquisition module acquires the first physiological data through a non-contact sensor, and the analysis module receives the first physiological data and performs analysis correction, noise elimination and interference signal elimination, including using wavelet-based multi-scale analysis to reduce the influence of high-frequency noise and simultaneously retain the characteristics of waveforms;

different control signals are correspondingly generated according to different abnormal conditions of different waveforms and are sent to the working module, different control signals correspond to different stimulation signals, the stimulation signals comprise stimulation duration, stimulation positions, stimulation frequency and stimulation intensity, and the electrode plates of the working module perform electric pulse stimulation on corresponding acupuncture points according to the stimulation signals.

It should be noted that, using the existing arrhythmia database MIT-BIH, in which a plurality of arrhythmia conditions and corresponding ECG signal characteristics are included, the neural network is trained using the labeled data set; extracting features in the first physiological data, specifically including detecting a QRS complex using Pan-Tompkins algorithm, and after determining the QRS complex, determining P and T waves from the QRS complex; after QRS, P and T waves are detected, extracting characteristics of each waveform, including duration, amplitude and slope, inputting the characteristics into a trained neural network, marking the extracted waveform characteristics, and determining whether the waveform is the QRS, the P or the T waves; p-waves are generated by the excitation of the atrium, the first half is mainly generated by the right atrium, the second half is mainly generated by the left atrium, the width of normal P-waves is not more than 0.11s, and the highest amplitude is not more than 2.5mm; the QRS complex reflects the electrical activation process of the left and right ventricles, and the width of the QRS complex is the QRS time limit, representing the time required for the full ventricular muscle activation process. Normal people do not exceed 0.10s at most; t wave represents the potential generated during the recovery after the ventricular activation, and on an electrocardiogram with the R wave as the main part, the T wave should not be lower than 1/10 of the R wave;

In this embodiment, the non-contact sensor is adopted to collect the first physiological data of the wearer, so that wearing comfort of the wearer can be effectively ensured, discomfort of the wearer caused by long-time pressing of the contact sensor such as pressing type is avoided, the wearer is not willing to take the watch to perform stimulation massage, compliance is poor, abnormal physiological data corresponding to different cardiovascular diseases are analyzed through data processing, different control signals are correspondingly generated according to different cardiovascular diseases and sent to the working module, the control signals correspond to preset different stimulation signals, the stimulation signals comprise stimulation time length, stimulation parts, stimulation frequency and stimulation intensity, and the electrode plates of the working module perform electric pulse stimulation on corresponding acupuncture points according to the stimulation signals, so that the effect of auxiliary physiotherapy of stimulation massage is achieved on the wearer.

As the preferred technical scheme of this application, still be provided with measurement module on the watchband 2, measurement module obtains the wrist according to watchband 2 length of use and encloses, obtains the standard position of interior close cave and superdoor cave according to the wrist of wearer's wrist and encloses, the electrode slice with watchband 2 is through separable connection, measurement module obtains the electrode slice with the hookup location of watchband 2, the electrode slice includes superdoor cave electrode slice 3 and interior close cave electrode slice 4, obtains interior close cave electrode slice 4 and interior close cave and superdoor cave electrode slice 3 and superdoor cave relative position, if relative position surpasss the threshold value, reminds the wearer to adjust the wrist-watch wears the position or adjusts the electrode slice with the hookup location of watchband 2 until relative position is less than the threshold value. Further, referring to fig. 4, the electrode sheet is divided into a central region 41 and an edge region 42, the edge region 42 is further divided into a plurality of sub-regions 421, when the electrode sheet performs electric pulse stimulation on the acupoints, the central region 41 maintains the electric pulse stimulation, and the plurality of sub-regions 421 of the edge region 42 perform electric pulse stimulation one by one; first physiological data when the central area 41 and each sub-area 421 perform electric pulse stimulation are recorded, a time interval with the maximum improvement amplitude of the first physiological data is obtained, the sub-area 421 corresponding to the electric pulse stimulation in the time area is taken as an offset area, and standard positions of Neiguan acupoint and Shenmen acupoint are offset to the offset area.

In this embodiment, considering that the wrist circumference of the wrist of different wearers is different, the positions of the interior-closing hole and the superdoor hole at the wrist are also different, for the dial 1 and the watchband 2, it is difficult to match the electrode sheet to the interior-closing hole and the superdoor hole of each wearer in advance, therefore, by measuring the wrist circumference of the wrist, the standard positions of the interior-closing hole and the superdoor hole are determined, the electrode sheet is connected with the watchband 2 in a separable way, the measuring module obtains the connection position of the electrode sheet and the watchband 2, the electrode sheet comprises the superdoor hole electrode sheet 3 and the interior-closing hole electrode sheet 4, and when the watch is worn, the relative positions of the interior-closing hole electrode sheet 4 and the superdoor hole electrode sheet 3 and the superdoor hole can be obtained, and by adjusting the wearing position of the watch or the connection position of the electrode sheet and the watchband 2, the electrode sheet can be accurately attached to the interior-closing hole and the superdoor hole; further, considering that the acupoints may be different in position due to the reasons including individuals and cases, or that the most suitable acupoints of different wearers may deviate from the centers of acupoints, in the present application, the electrode sheet is divided into a plurality of sub-areas 421 of the central area 41 and the edge area 42, during the stimulation, the central area 41 is continuously stimulated, and the plurality of sub-areas 421 perform the electric pulse stimulation one by one; the first physiological data when the central area 41 and each sub-area 421 perform electric pulse stimulation is recorded, a time interval with the maximum improvement amplitude of the first physiological data is obtained, the sub-area 421 corresponding to the electric pulse stimulation in the time area is taken as an offset area, the standard positions of the Neiguan acupoint and the Shenmen acupoint are offset towards the offset area, and the position after the offset is directly used as the standard position for position adjustment when the wearer wears the device next time, so that the stimulation position falls at the position with the best stimulation effect on the wearer after the adjustment and the wearing for multiple times, and the body feeling worn in consideration is considered when the variation amplitude of the corresponding time of the stimulation of the sub-areas 421 is consistent, and the offset direction of the standard positions of the Neiguan acupoint and the Shenmen acupoint is adjusted according to the body feeling of the wearer.

As the preferred technical scheme of this application, still include remote module in the dial plate 1, the first physiological data synchronous transmission who gathers of collection module is given emergency contact person, emergency contact person is for the contact person that the person of wearing predetermines, works as analysis module analysis is first physiological data appears unusual, reminds the person current when first physiological data appears unusual, remote module synchronous to emergency contact person sends the warning information, and simultaneously when first physiological data appears unusual, remote module inquires whether the person of wearing calls for help to the outside, does not receive the response or obtains when calling for help the response to the outside when predetermineeing the time, sends the current position information of person in the lump. Further, a database is preset in the dial 1, different emergency measures corresponding to cardiovascular diseases are stored in the database, the analysis module determines the current cardiovascular diseases according to abnormal conditions of different waveforms in the first physiological data of the wearer, matches the corresponding emergency measures in the database according to the current cardiovascular diseases, and plays the emergency measures to the outside.

In this embodiment, considering that the wearer is older and has cardiovascular disease risk for a large number of years, and when an acute cardiovascular disease occurs, the wearer may have difficulty in making effective help seeking measures due to severe pain and even falls into coma, resulting in delayed rescue time, so in this embodiment, by setting synchronous physiological data of emergency contacts in a remote module, the emergency contacts simultaneously receive information when abnormal conditions occur, so as to help the wearer to perform operations such as calling emergency ambulance, and meanwhile, the remote module can also ask the wearer for help seeking, and when the information for help seeking is obtained or no response is obtained within a preset time, the wearer is determined to be likely to fall into coma, and help seeking is directly performed; further, considering that the emergency cardiovascular diseases are relatively dangerous, the gold rescue time is relatively short, and the ambulance and the medical staff with specialized first aid knowledge arrive at the time, and the optimal time for rescue is just the time, so that the database is preset in the dial 1, different first aid measures corresponding to the cardiovascular diseases are stored in the database, the analysis module determines the current cardiovascular diseases according to the abnormal conditions of different waveforms in the first physiological data of the wearer, matches the corresponding first aid measures in the database according to the current cardiovascular diseases, plays the first aid measures to the outside, and can carry out first aid operation on the ambulance according to the play content when playing to the outside, and simultaneously, family members or passersby can also carry out first aid operation on the wearer according to the play content, so that the family members and passersby can grasp the most targeted first aid measures when at home, and have the benefit after the rescue is timely and correct measures on the wearer.

As the preferable technical scheme of the application, the analysis module divides the current state of the wearer into a static state or a moving state according to the wrist activity amplitude, the wearer can also actively set the current state of the wearer into the static state or the moving state, and the analysis module analyzes different standard physiological data matched when the wearer is in different states. In this embodiment, since the normal intervals of cardiovascular physiological data of the human body in different states are different, for example, the heart rate is lower than that in the awake state when sleeping, in this embodiment, the dial 1 may determine the activity state of the wrist by setting a gyroscope, the analysis module may divide the wearer into a static state or a moving state according to the activity amplitude of the wrist, and the wearer may also set actively, so that the analysis module may match with a correct area when analyzing the physiological data, thereby effectively improving the accuracy of analysis of the physiological data by the analysis module, and further, may also automatically identify the current state of the wearer according to different characteristics in different rest states of movement and according to the physiological data.

As the preferable technical scheme of this application, still set up contact sensor on the collection module, contact sensor is used for analyzing first physiological data is unusual or when the wearer's feel is improper in the analysis module, contact sensor follow dial plate 1 goes up the arch, with the direct contact of wearer's skin and exert pressure, through exerting pressure contact survey wearer's second physiological data, and will second physiological data transmission to the analysis module, the analysis module receives second physiological data and arrangement, discerns second physiological data, judges according to the waveform of second physiological data whether the wearer physiological data exists unusual, if second physiological data exists unusual, then generates corresponding control signal, if second physiological data does not have unusual, then does not generate control signal. As a preferred technical solution of the present application, referring to fig. 5, in order to clearly show the structure and angular relationship of the telescopic link 5, the distance between the watchband 2 and the wrist is shown to be relatively wide, in the actual use process, the distance between the watchband 2 and the wrist is relatively close, the telescopic link 5 is also provided on the watchband 2, the other end of the telescopic link 5 is connected with the electrode pad, the electrode pad is further provided with the contact sensor, the contact sensor is used for analyzing abnormal first physiological data or abnormal body feeling of the wearer at the analysis module, the contact sensor and the electrode pad protrude from the watchband 2 through the telescopic link 5, directly contact with the skin of the wearer and apply pressure, the contact sensor measures third physiological data of the wearer through pressure contact, and transmits the third physiological data to the analysis module, the analysis module receives the third physiological data and sorts the third physiological data, if the third physiological data is abnormal or the abnormal physiological data of the wearer is not detected, if the abnormal physiological data is not detected, and if the abnormal physiological data is not detected, the abnormal physiological data is generated by the control signal if the abnormal physiological data is detected by the third physiological data; the telescopic rod 5 is biased in the elbow direction during the protrusion, so that the telescopic rod 5 forms an acute angle with the watchband 2 and the dial 1 in the elbow direction. Furthermore, the telescopic rod 5 can be hinged with the watchband 2, so that the angle between the telescopic rod 5 and the watchband 2 can be adjusted, and the telescopic rod can also be simultaneously matched with a wearer to wear left hand or right hand to play a supporting role.

In this embodiment, considering that the physiological data measured by the contact sensor directly contacting the human body is accurate relative to the non-contact sensor, when the analysis module analyzes that the first physiological data is abnormal, the contact sensor protrudes from the dial 1, measures the second physiological data of the wearer through pressing contact, and determines whether to send a control signal based on the second physiological data, and the contact sensor only protrudes to press the human body when the first physiological data is abnormal, so that the discomfort of the body caused by the daily life of the wearer is not influenced; furthermore, considering that the electrode plate is connected with the watchband 2, the connection with the skin and the acupuncture points of the human body is not tight during stimulation, the capacity loss and the unstable capacity are caused by the existence of gaps in the stimulation effect, and the telescopic rod 5 is also arranged on the electrode plate, so that the electrode plate can directly press the acupuncture points during the stimulation process, and the better stimulation effect is achieved; meanwhile, the contact type sensor is also arranged on the motor sheet, the electrode sheet can collect third physiological data when being in contact with acupuncture points for stimulation, and the collecting areas of the first physiological data, the second physiological data and the third physiological data are different, so that a multi-lead electrocardiogram can be formed, and the multi-lead electrocardiogram has better reference value; meanwhile, considering that the arm usually naturally sags in the daily life of a wearer, when cardiovascular abnormality and pain occur, the wrist usually lifts up and then presses the chest, at this time, the attractive force direction of the watch changes, the watch easily moves towards the elbow direction, and the electrode plate is easily stimulated to an incorrect position when moving, so in this embodiment, the telescopic rod 5 is deviated towards the elbow direction in the protruding process, so that the telescopic rod 5 forms an acute angle with the watchband 2 and the dial 1 in the elbow direction, and in this design, when the watch has a trend of moving towards the elbow direction, the telescopic rod 5 generates a supporting force for the watch, so as to prevent the watch from moving towards the elbow direction, keep the position of the electrode plate, and at the same time, the pressure of the watch can further press the electrode plate and the contact sensor, so that the electrode plate and the contact sensor generate larger pressure with the skin.

As a preferred technical solution of the present application, the first physiological data is compared with the second physiological data and the third physiological data, and parameter correction is performed on the first physiological data measured by the non-contact sensor through differences between the second physiological data and the third physiological data and the first physiological data. As a preferred technical scheme of the application, the dial 1 further comprises a data processing module, the data processing module collects the first physiological data, the second physiological data and the third physiological data of the wearer, which are abnormal, and simultaneously records the time length of each occurrence of the abnormality and the time interval of each occurrence of the two abnormalities, so as to obtain the time length change and the frequency change of the multiple abnormalities of the wearer, and the stimulation time length, the stimulation frequency and the stimulation intensity of the stimulation signal are adjusted according to the time length change and the frequency change of the abnormalities.

In this embodiment, the second physiological data and the third physiological data are obtained by measuring with a contact sensor, and the first physiological data obtained by a non-contact sensor may be lower in data accuracy than the second physiological data and the third physiological data obtained by a contact sensor due to a reason that the sensor is far away from the skin, etc. due to wearing habits, so that parameter correction is performed on the first physiological data measured by the non-contact sensor by the difference between the second physiological data and the third physiological data and the first physiological data, so that the first physiological data obtained by the first physiological data in daily measurement is more accurate; further, the data processing module acquires the time length of each occurrence of abnormality and the time interval of each occurrence of the abnormality by collecting the first physiological data, the second physiological data and the third physiological data of the abnormality of the wearer, and acquires the time length change and the frequency change of the abnormality of the wearer for a plurality of times, and when the wearer is in medical treatment, the abnormal physiological data can be provided for a doctor to be referred to, so that the problem that the cardiovascular of the wearer is in a normal and steady state when the wearer is in medical treatment is avoided, and the disease is difficult to judge; and meanwhile, the stimulation duration, the stimulation frequency and the stimulation intensity of the stimulation signal are adjusted according to the abnormal duration change and the frequency change, for example, the abnormal frequency of the wearer in the near period is increased, so that the intensity of the stimulation massage can be properly increased, and the device is flexibly applicable to the physical condition of the wearer.

The above embodiments are only for illustrating the present invention and not for limiting the technical solutions described in the present invention, and although the present invention has been described in detail in the present specification with reference to the above embodiments, the present invention is not limited to the above specific embodiments, and thus any modifications or equivalent substitutions are made to the present invention; all technical solutions and modifications thereof that do not depart from the spirit and scope of the invention are intended to be included in the scope of the appended claims.

Claims (7)

1. The portable wearable intelligent electrocardiograph monitoring physiotherapy watch comprises a dial plate and a watchband, and is characterized in that an acquisition module and an analysis module are arranged on the dial plate, and a transmission module and a working module are arranged on the watchband;

the acquisition module acquires first physiological data of the wearer throughout the day and transmits the first physiological data to the analysis module, wherein the first physiological data comprises electrocardio, pulse and blood oxygen data;

the analysis module receives and collates the first physiological data, identifies abnormal characteristics in the first physiological data and generates a control signal;

the transmission module transmits the control signal to the working module, the working module comprises an electrode plate, and the electrode plate sends out electric pulse stimulation to the acupuncture points of the human body after receiving the control signal and reminds the wearer that the first physiological data are abnormal;

The measuring module is further arranged on the watch band, the wrist circumference of a wearer is obtained according to the using length of the watch band, the standard positions of the interior-closing point and the superdoor point are obtained according to the wrist circumference of the wearer, the electrode plate is detachably connected with the watch band, the connection position of the electrode plate and the watch band is obtained by the measuring module, the relative positions of the electrode plate and the interior-closing point and the superdoor point are obtained, and if the relative positions exceed a threshold value, the wearer is reminded of adjusting the wearing position of the watch or adjusting the connection position of the electrode plate and the watch band until the relative positions are smaller than the threshold value;

the electrode plate is divided into a central area and an edge area, the edge area is divided into a plurality of sub-areas, when the electrode plate performs electric pulse stimulation on acupuncture points, the central area keeps electric pulse stimulation, and the sub-areas of the edge area perform electric pulse stimulation one by one; recording first physiological data when the central area and each sub-area perform electric pulse stimulation, obtaining a time interval with the maximum improvement amplitude of the first physiological data, taking the sub-area which corresponds to the electric pulse stimulation in the time interval as an offset area, and offsetting the standard positions of the Neiguan acupoint and the Shenmen acupoint to the offset area;

The dial plate is internally provided with a remote module, first physiological data acquired by the acquisition module are synchronously transmitted to emergency contacts, the emergency contacts are preset for the wearer, when the analysis module analyzes that the first physiological data are abnormal, the remote module synchronously transmits reminding information to the emergency contacts when the first physiological data are abnormal, meanwhile, when the first physiological data are abnormal, the remote module inquires the wearer whether to call for help from the outside, when no response is obtained or a response requiring the help is obtained in preset time, the current position information of the wearer is transmitted together, a database is preset in the dial plate, different emergency measures corresponding to the cardiovascular diseases are stored in the database, the analysis module determines the current cardiovascular diseases according to abnormal conditions of different waveforms in the first physiological data of the wearer, matches the corresponding emergency measures in the database according to the current cardiovascular diseases, and plays the measures to the outside.

2. The portable wearable intelligent electrocardiograph monitoring physiotherapy wristwatch of claim 1, wherein the acquisition module acquires the first physiological data by a non-contact sensor, and the analysis module receives the first physiological data and performs analysis correction, noise elimination and interference signal elimination, including using wavelet-based multi-scale analysis to reduce the influence of high frequency noise while preserving the characteristics of the waveform;

Different control signals are correspondingly generated according to different abnormal conditions of different waveforms and are sent to the working module, different control signals correspond to different stimulation signals, the stimulation signals comprise stimulation duration, stimulation positions, stimulation frequency and stimulation intensity, and the electrode plates of the working module perform electric pulse stimulation to corresponding acupuncture points according to the stimulation signals.

3. A portable wearable intelligent electrocardiographic monitoring physiotherapy wristwatch according to claim 2, wherein said analysis module classifies the wearer currently in either a stationary state or a mobile state or a motion state according to wrist activity amplitude;

the wearer can also set the current state of the wearer to be a static state or a moving state or a motion state through active adjustment, and the analysis module analyzes different standard physiological data matched when the wearer is in different states.

4. The portable wearable intelligent electrocardiograph monitoring physiotherapy watch according to claim 2, wherein the acquisition module is further provided with a contact sensor, the contact sensor is used for analyzing whether the first physiological data is abnormal or the wearer feel uncomfortable in time, the contact sensor protrudes from the dial through a telescopic rod, is in contact with the skin of the wearer and applies pressure, the second physiological data of the wearer is measured through pressure contact, the second physiological data is transmitted to the analysis module, the analysis module receives the second physiological data and collates the second physiological data, the second physiological data is identified, whether the physiological data of the wearer is abnormal or not is judged according to the waveform of the second physiological data, if the second physiological data is abnormal, a corresponding control signal is generated, and if the second physiological data is not abnormal, the control signal is not generated.

5. The portable wearable intelligent electrocardiograph monitoring physiotherapy watch according to claim 4, wherein the telescopic rod is also arranged on the watch band, the other end of the telescopic rod is connected with the electrode slice, the contact sensor is further arranged on the electrode slice and is used for analyzing whether first physiological data are abnormal or not when the wearer feel uncomfortable in the analysis module, the contact sensor and the electrode slice are protruded from the watch band through the telescopic rod, are in contact with the skin of the wearer and exert pressure, the contact sensor is used for measuring third physiological data of the wearer through pressure contact and transmitting the third physiological data to the analysis module, the analysis module is used for receiving and sorting the third physiological data, identifying the third physiological data, judging whether the physiological data of the wearer are abnormal according to waveforms of the third physiological data, if the third physiological data are not abnormal, generating no control signal, and if the third physiological data are abnormal, generating a corresponding control signal, the electrode is stimulated through pressure contact; the telescopic rod is offset towards the elbow direction in the protruding process, so that the telescopic rod forms an acute angle with the watchband and the dial plate in the elbow direction.

6. The portable wearable intelligent electrocardiographic monitoring physiotherapy wristwatch of claim 5, wherein the first physiological data is compared with the second physiological data and the third physiological data, and the first physiological data measured by the non-contact sensor is parameter corrected by differences between the second physiological data and the third physiological data and the first physiological data.

7. The portable wearable intelligent electrocardiograph monitoring physiotherapy watch according to claim 6, wherein the dial further comprises a data processing module, the data processing module collects the first physiological data, the second physiological data and the third physiological data of the wearer, the time length of each occurrence of the abnormality and the time interval of each occurrence of the abnormality are recorded, the time length change and the frequency change of the multiple abnormalities of the wearer are obtained, and the stimulation time length, the stimulation frequency and the stimulation intensity of the stimulation signal are adjusted according to the time length change and the frequency change of the abnormalities.