CN208769772U - A kind of electrocardio, breathing, position monitoring sleep-walking reporting system - Google Patents

Abstract

The utility model discloses a kind of electrocardios, the sleep-walking reporting system of breathing, position monitoring comprising physiologic information picks up transmitter, mobile terminal, cloud and PC terminal；Electrocardiosignal, respiratory waveform signal and the position active signal that transmitter acquires user are picked up by physiologic information；Analysis identification is carried out to electrocardiosignal, respiratory waveform signal and the position active signal under user's waking state in mobile terminal, the sleep state identification model for constructing its electrocardiosignal, respiratory waveform signal and position active signal judges whether user is in sleep-walking state by the sleep state identification model.

Description

A kind of electrocardio, breathing, position monitoring sleep-walking reporting system

Technical field

The utility model belongs to physiological monitoring device technical field, specifically, the utility model relates to a kind of electrocardio, exhaling It inhales, the sleep-walking reporting system of position monitoring.

Background technique

Sleep-walking is the behavior of leaving the bed that do not know in sleep, in general, sleepwalker can also return on bed.Dream of is in neurology A kind of sleep disturbance, symptom are generally walked about in shelter under postdormitum, but some patients can leave shelter or make one A little dangerous movements.Some somnambules can get up suddenly from the bed in spite of oneself and say something recklessly after sleeping soundly；Very To getting dressed without any confusion, meal is burnt；Or after going to one circle of outside pocket, and sleep in bed back, until next day wakes up But to have no impression to nocturnal thing.Sleepwalker's eyes open, and allow people to be mistaken for awake, and can answer Simple problem or order.Sleepwalker's behavior of one third has aggressiveness, cannot remember for oneself after waking up and once left the bed.Most of dream Trip a few minutes time were differed by one hour.How to judge whether a people is in sleep-walking, and when the third party learns sleep-walking Person is in sleep-walking, how about goes to persuade sleepwalker；This needs corresponding monitoring device and is monitored and can just be done safely In advance.Therefore, how to monitor then becomes the task of top priority.

In the prior art for monitor sleep-walking method have very much, as the applying date be on December 18th, 2014, application No. is 201410786621.7, the Chinese patent document of entitled " a kind of cloth patch with sleep-walking detection prompting function ", the China are special Sharp file belongs to service for life technical field, specifically provides a kind of cloth patch with sleep-walking detection prompting function, has and pass through Judge whether user dreams of and can shake in sleep-walking with parameters such as displacement, acceleration in automatic detection user's sleep procedure to call out Awake function, by displacement sensor, processor, vibrator, acceleration transducer, battery, Bluetooth transmission module, cloth patch, bluetooth Receiving module, upper computer software, mobile phone are constituted.When sleep cannot accurately be recognized in real time by solving user in daily life Symptom that whether appearance is dreamed of and the problem of cannot prevent in time.The Chinese patent document has accuracy, the spy of real-time Point.Although the Chinese patent document can obtain the letter that user is in activity by displacement sensor and acceleration transducer Breath, but simultaneously can not learn whether user is in sleep state, under normal circumstances, when only user is in sleep state Activity just for dream of.

Utility model content

The purpose of this utility model is to provide a kind of electrocardios, the sleep-walking reporting system of breathing, position monitoring, at least to solve Sleep-walking monitoring device certainly existing in the prior art can not obtain the technical issues of whether user is in sleep state.

To solve the above-mentioned problems, the utility model provides the sleep-walking reporting system of a kind of electrocardio, breathing, position monitoring, Its technical solution is as follows:

A kind of electrocardio, breathing, position monitoring sleep-walking reporting system comprising physiologic information picks up transmitter, posts On the body of user, for acquiring and sending the electrocardiosignal, respiratory waveform signal and position active signal of user；It is mobile whole End is equipped with receiving module in the mobile terminal, data processing module, uploads cloud module；The receiving module and the life Reason information picks up transmitter and is wirelessly connected, and the electrocardio letter for the user that transmitter is sent is picked up for receiving the physiologic information Number, respiratory waveform signal and position active signal；The data processing module is connected with the receiving module, the data processing Signal value when module judges user's electrocardiosignal, respiratory waveform signal for user in sleep, and received user Position active signal is when user is in signal value when awakening, it is concluded that user is in sleep-walking state；The upload cloud Module is connected with the data processing module, and the information for user to be in sleep-walking state is uploaded to cloud；With PC terminal, The PC terminal and the cloud, which are realized, to be wirelessly connected, and the user for obtaining the cloud is in the information of sleep-walking state, To realize the monitoring and report that are in sleep-walking state to user.

Such as sleep-walking reporting system of above-mentioned electrocardio, breathing, position monitoring, further preferably are as follows: the physiologic information is picked up Transmitter is picked up along the vertical direction of human body central axes, is posted in the manubrium position of front.

Such as sleep-walking reporting system of above-mentioned electrocardio, breathing, position monitoring, further preferably are as follows: the physiologic information is picked up Picking up transmitter includes shell, for providing installation space；Position acquisition module is fixedly mounted in the shell, for acquiring The position active signal of user；Electrocardio Breath collection module, is fixedly mounted in the shell, for acquiring the heart of user Electric signal and respiratory waveform signal；Bluetooth communication module is fixedly mounted in the shell, is picked up for realizing the physiologic information Pick up data transmission and the communication between transmitter and the mobile terminal；Central processing unit, the central processing unit are fixedly mounted In the shell, the central processing unit respectively with the position acquisition module, the electrocardio Breath collection module and described Bluetooth communication module is connected, for receiving and handling the electrocardiosignal, respiratory waveform signal and position active signal of user, with And the wireless telecommunications of control and the mobile terminal.

Such as sleep-walking reporting system of above-mentioned electrocardio, breathing, position monitoring, further preferably are as follows: the position acquires mould Block is four axis gyro sensors or six axis gyro sensors.

Such as sleep-walking reporting system of above-mentioned electrocardio, breathing, position monitoring, further preferably are as follows: the electrocardio breathing is adopted Collecting module includes chip, is used for collecting signal；First electrode button, the first electrode button pass through Internal cable and the chip phase Even, for acquiring the electrocardiosignal and breath signal of user；Second electrode button, the second electrode button by Internal cable with The chip is connected, for acquiring the electrocardiosignal and breath signal of user；The chip collect the first electrode button and The electrocardiosignal and respiratory waveform signal of the second electrode button, and electrocardiosignal and respiratory waveform signal are sent in described Central processor.

Such as sleep-walking reporting system of above-mentioned electrocardio, breathing, position monitoring, further preferably are as follows: the physiologic information is picked up Picking up transmitter further includes power module, and the power module is fixedly mounted in the shell, for picking up for the physiologic information It picks up transmitter and electric power is provided.

Such as sleep-walking reporting system of above-mentioned electrocardio, breathing, position monitoring, further preferably are as follows: the shell is streamline Shuttle shape structure.

Such as sleep-walking reporting system of above-mentioned electrocardio, breathing, position monitoring, further preferably are as follows: the length of the shell For 96~110mm, the width of the shell is 35~55mm, the shell with a thickness of 10~15mm.

Such as sleep-walking reporting system of above-mentioned electrocardio, breathing, position monitoring, further preferably are as follows: in the mobile terminal On be additionally provided with waveform display module, the waveform display module is connected with the data processing module, for showing user's Heart real time waveform, real-time respiratory waveform, instantaneous heart rate value and instantaneous breathing value.

Such as sleep-walking reporting system of above-mentioned electrocardio, breathing, position monitoring, further preferably are as follows: in the mobile terminal On be additionally provided with position display module, the position display module is connected with the data processing module, for showing user's Position active signal.

A method of such as above-mentioned electrocardio, the monitoring sleep-walking of the sleep-walking reporting system of breathing, position monitoring comprising step It is rapid as follows:

Step 1: picking up electrocardiosignal, the respiratory waveform signal, body of transmitter acquisition user using the physiologic information Position active signal, and it is sent to the receiving module of the mobile terminal；

Step 2: the mobile terminal receives the electrocardiosignal of user, respiratory waveform signal, position active signal Afterwards, the electrocardiosignal of user, respiratory waveform signal, position active signal are uploaded to cloud or PC terminal；

Step 3: the mobile terminal or PC terminal believe the electrocardiosignal of user, respiratory waveform signal, position activity Number with user be in sleep when electrocardiosignal, respiratory waveform signal and position active signal be compared, when the heart of acquisition Electric signal, respiratory waveform signal and position active signal are when user is in signal value when sleeping, it is concluded that user Do not occur sleep-walking state；Signal value when the electrocardiosignal of acquisition and respiratory waveform signal are in sleep for user, and adopt The position active signal integrated as user awakening when signal value when, it is concluded that there is sleep-walking state in user；

Step 4: user is in the information of sleep-walking state and is not in sleep-walking state by the mobile terminal or PC terminal Information be uploaded to the cloud；

Step 5: being in the information of sleep-walking state by user of the PC terminal to the cloud and being not in sleep-walking The information of state is collected, arranges, files, and generates report, intervenes for the later period to user and provides basic basis.

If above-mentioned monitors the method dreamed of, further preferably are as follows: the electrocardio and breathing value when user is in sleep are small 80% of electrocardio and breathing value when in awakening.

Analysis it is found that compared with prior art, advantages and beneficial effects of the utility model lie in that

Electrocardio provided by the utility model, breathing, position monitoring sleep-walking reporting system, transmitter is picked up with physiologic information To acquire source, the electrocardiosignal, respiratory waveform signal and position active signal of user are acquired, and by the heart of user Electric signal, respiratory waveform signal and position active signal are sent to mobile terminal, will in the data processing module of mobile terminal Electrocardio letter when the sleep of the electrocardiosignal of collected user, respiratory waveform signal and position active signal and user Number, respiratory waveform signal and position active signal be compared, when electrocardiosignal, respiratory waveform signal and the position activity of acquisition Signal is when user is in signal value when sleeping, it is concluded that user does not occur sleep-walking state；When the electrocardio of acquisition is believed Number and respiratory waveform signal be user be in sleep when signal value, and acquire position active signal be user awaken when Signal value when, it is concluded that there is sleep-walking state in user；User is in by dream by the upload cloud module of mobile terminal again The information of free state uploads to cloud, is received by the information that PC terminal is in sleep-walking state to the user that cloud stores Collection arranges, and can be filed and be generated analysis report, carries out treatment with the sleep-walking to user and is ready；Meanwhile Since the physiologic information of the utility model picks up transmitter, only there are two the front positions that electrode button is directly worn to user, no It will appear the cable winds user body of routine monitoring device and lead to user's poor sleep, is i.e. the utility model can be from Acquisition source provides the comfortable basis of good sleep and the stronger superiority of system rejection to disturbance ability for user.The utility model It show that user is in sleep state by electrocardiosignal and respiratory waveform signal, while use is obtained by position active signal Person is in active state, i.e. the utility model can immediately arrive at user to be in dormant position active signal i.e. direct Show that user is in sleep-walking state.

Detailed description of the invention

Fig. 1 is the logical construction for the sleep-walking reporting system that the electrocardio, breathing, position of the preferred embodiment in the utility model monitor Figure；

Fig. 2 is that the physiologic information of the preferred embodiment in the utility model picks up the structural schematic diagram of transmitter.

In figure: 1- physiologic information picks up transmitter；11- shell；12- charging module；13- position acquisition module；14- electrocardio Breath collection module；141- chip；142- first electrode button；143- second electrode button；15- power module；16- central processing Device；17- bluetooth communication module；18-5pin contact interface；19- charging storage box；2- mobile terminal；21- receiving module；22- number According to processing module；23- memory module；24- uploads cloud module；25- waveform display module；26- position display module；27- numerical value Display module；The cloud 3-；4-PC terminal.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in Figure 1 and Figure 2, the sleep-walking reporting system that the electrocardio of the preferred embodiment in the utility model, breathing, position monitor Mainly include that physiologic information picks up transmitter 1, be placed on the body of user, for acquiring electrocardiosignal, the breathing of user Waveform signal and position active signal；Mobile terminal 2, in mobile terminal 2 be equipped with receiving module 21, data processing module 22, Upload cloud module 24；Receiving module 21 picks up transmitter 1 with physiologic information and is connected, and picks up transmitter 1 for receiving physiologic information User electrocardiosignal, respiratory waveform signal and position active signal；Data processing module 22 is connected with receiving module 21, The received user's electrocardiosignal of data processing module 22, respiratory waveform signal are signal value when user is in sleep, and Received user's position active signal is (electrocardiosignal and breathing when acquisition when user is in signal value when awakening Waveform signal is still in signal value range when sleep, and when the position active signal acquired be the signal value stood or walked), Then show that user is in sleep-walking state；Waveform display module 25 is connected with data processing module 22, for showing user's Heart real time waveform diagram and real-time respiratory waveform figure；Position display module 26 is connected with data processing module 22, makes for showing The real-time position action message of user；27 data processing module 22 of numerical value display module is connected, for showing that user's is instantaneous Heart rate value and instantaneous breathing value；It uploads cloud module 24 to be connected with data processing module 22, for user to be in sleep-walking state Information be uploaded to cloud 3；With PC terminal, PC terminal and cloud 3 are realized and are wirelessly connected, at the user for obtaining cloud 3 In the information of sleep-walking state, to realize the monitoring and report that are in sleep-walking state to user.

To sum up, electrocardio provided by the utility model, breathing, position monitoring sleep-walking reporting system picked up with physiologic information Picking up transmitter 1 is acquisition source, is acquired to the electrocardiosignal, respiratory waveform signal and position active signal of user, and will Electrocardiosignal, respiratory waveform signal and the position active signal of user is sent to mobile terminal 2, in the data of mobile terminal 2 In processing module 22, by the electrocardiosignal of collected user, respiratory waveform signal and position active signal and user Electrocardiosignal, respiratory waveform signal and position active signal when sleep are compared, electrocardiosignal, respiratory waveform when acquisition Signal and position active signal are when user is in signal value when sleeping, it is concluded that user does not occur sleep-walking state； Signal value when the electrocardiosignal of acquisition and respiratory waveform signal are in sleep for user, and the position active signal acquired For user awakening when signal value when, it is concluded that there is sleep-walking state in user；Pass through the upload cloud module of mobile terminal 2 again The information that user is in sleep-walking state is uploaded to cloud 3 by 24, is in dream to the user that cloud 3 stores by PC terminal 4 The information of free state is collected, arranges, and can be filed and be generated analysis report, is carried out with the sleep-walking to user Treatment is ready；Simultaneously as the physiologic information of the utility model picks up transmitter 1 directly along the Vertical Square of human body central axes To, post in the manubrium position of front be not in the cable winds user body of routine monitoring device and cause using The case where person's poor sleep, i.e. the utility model, can provide the basis of comfortable sleeping from acquisition source for user.This is practical It is novel to show that user is in sleep state by electrocardiosignal and respiratory waveform signal, while being obtained by position active signal User is in active state, i.e., the utility model can immediately arrive at user and be in dormant position active signal i.e. It immediately arrives at user and is in sleep-walking state.

It is acquired for the ease of the physiologic information to user, as shown in Fig. 2, the physiologic information of the utility model is picked up Transmitter 1 is posted along the vertical direction of human body central axes in the manubrium position of front.The utility model physiologic information picks up hair Emitter 1 includes mainly shell 11, for providing installation space；Position acquisition module 13 is fixedly mounted in shell 11, for adopting Collect the position active signal of user；Electrocardio Breath collection module 14, is fixedly mounted in shell 11, for acquiring user's Electrocardiosignal and respiratory waveform signal；Central processing unit 16, central processing unit 16 are fixedly mounted in shell 11, central processing unit 16 are connected with position acquisition module 13 and electrocardio Breath collection module 14 respectively, and the electrocardio for receiving and handling user is believed Number, respiratory waveform signal and position active signal, and wireless telecommunications of control and mobile terminal.

It is movable specific that accurate and accurate measurements user position is monitored in order to the body position signal to user Parameter, as shown in Fig. 2, the position acquisition module 13 of the utility model is four axis gyro sensors or six axis gyro sensors Device；Under normal circumstances, position acquisition module 13 can judge the simple physical activity information of user, but accuracy compared with Difference；Furthermore four axis gyro sensors and six axis gyro sensors are usually used in aviation, navigation, space flight and national defense industry, right National defense industry is monitored, and there are no the position letters used four axis gyro sensors and six axis gyro sensors to people It number is monitored, the utility model takes full advantage of four axis gyro sensors and the function of six axis gyro sensors is special Point can reinforce the precision of the body position signal monitoring to user to realize the monitoring to the body position signal of user in this way.

In order to user electrocardiosignal and respiratory waveform signal measurement it is accurate, as shown in Fig. 2, the utility model Electrocardio Breath collection module 14 include chip 141, for collecting electrocardio and breath signal；First electrode button 142, first electrode Button 142 is connected by Internal cable with chip 141, for acquiring the electrocardiosignal of user；With second electrode button 143, second Electrode button 143 is connected by Internal cable with chip 141, for acquiring the electrocardiosignal of user, and passes through first electrode button 142 and second electrode button 143 effect acquisition user respiratory waveform signal；The heart of the collection first electrode button 142 of chip 141 The respiratory waveform signal of the electrocardiosignal and user of electric signal and second electrode button 143, and by the electrocardiosignal of user Central processing unit 16 is sent to respiratory waveform signal.143 pairs of uses of first electrode button 142 and second electrode button in order to prevent are made It is interfered at unstability, as shown in Fig. 2, the shell 11 of the utility model is coated on the outside of first electrode button 142, for preventing First electrode button 142 causes unstability and in use for protecting first electrode button 142；The shell 11 of the utility model wraps It is overlying on the outside of second electrode button 143, for preventing the 143 pairs of uses of second electrode button from unstability being caused to interfere and for protecting Second electrode button 143.Preferably, the packet of shell 11 carries out first electrode button 142,143 part of second electrode button is circular configuration, in circle Shape structure is equipped with arc-shaped transition section；Since first electrode button 142 and second electrode button 143 pass through Internal cable and chip respectively 141 are connected, in order to which this cable is protected and prevented between first electrode button 142, second electrode button 143 and Internal cable There is Hard link, involve Internal cable when pulling first electrode button 142, second electrode button 143, as shown in Fig. 2, this is practical Novel shell 11 realizes being flexible coupling between first electrode button 142, second electrode button 143 and Internal cable.It is practical new at this In type, electrocardio Breath collection module 14 is the acquisition module of ADAS1000-4LFCSP model.

Physiologic information picks up transmitter 1 and causes unconformable situation to user in order to prevent, as shown in Fig. 2, this is practical The shell 11 that novel physiologic information picks up transmitter 1 is streamline shuttle shape structure, at the length direction both ends of streamline shuttle shape structure The radian stage with outward extension.Preferably, the length of shell 11 is 96~110mm, and the width of shell 11 is 35~55mm, Shell 11 with a thickness of 10~15mm；First electrode button 142, second electrode button 143 circular configuration diameter be 15mm, set The length of some arc-shaped transition sections is 30mm.The utility model why to physiologic information pick up transmitter 1 size structure into Row limits, and its purpose is to user is convenient for wear, so that physiologic information is picked up transmitter 1 along people by the restriction of size The vertical direction of body central axes is posted in the manubrium position of front；Accordingly even when user turns over, moves, It will not influence the normal use that physiologic information picks up transmitter 1, especially when user sleeps and turns over due to the depth of chest ditch Greater than the thickness that physiologic information picks up transmitter 1, accordingly even when physiologic information pickup transmitter 1 will not press after user turns over The chest for compeling user, can make user's ortho.

Under normal circumstances, it is only necessary to user night wear physiologic information pick up transmitter 1 carry out electrocardiosignal, exhale Suction waveform signal, body position signal are monitored, and the low or out of power feelings of electricity occurs in physiologic information pickup transmitter 1 in order to prevent Shape, as shown in Fig. 2, it further includes power module 15, the fixed peace of power module 15 that the physiologic information of the utility model, which picks up transmitter 1, In shell 11, electric power is provided for picking up transmitter 1 for physiologic information.In the present invention, the confession of power module 15 The electric time is greater than 8 hours, can satisfy the electric power needs of the All Through The Night of user in this way.The utility model further includes charging mould Block 12 is fixedly mounted in shell 11, for charging to power module 15；

It further includes charging storage box 19 that the physiologic information of the utility model, which picks up transmitter 1, and charging storage box 19 is for receiving Physiologic information of receiving picks up transmitter 1, and controls physiologic information and pick up the opening and closing of transmitter 1, pick up transmitter 1 for physiologic information The charging of power module 15, transmission physiologic information pick up the data that transmitter 1 stores, and show that physiologic information picks up transmitter 1 and is Charged state or working condition.The disassembly of power module 15 picks up transmitter 1 to physiologic information and causes bad shadow in order to prevent It rings, as shown in Fig. 2, it further includes 5pin contact interface 18,5pin contact interface that the physiologic information of the utility model, which picks up transmitter 1, 18 one end is connected with the contact pilotage of charging storage box 19.The contact pilotage of charging storage box 19 is placed on its top surface, 5pin contact interface 18, which are placed in physiologic information, picks up on the bottom surface of transmitter 1, is connected with power module 15, for charging for power module 15.

Under normal circumstances, physiologic information picks up transmitter 1 and is not easy by the way of cable to connect with mobile terminal 2；I.e. Make to be conventional wireless manner, also due to user turns over the connection letter for causing physiologic information to pick up transmitter 1 and mobile terminal 2 It is number poor；The appearance of these situations in order to prevent, as shown in Fig. 2, the physiologic information pickup transmitter 1 of the utility model further includes Bluetooth communication module 17, bluetooth communication module 17 are connected with central processing unit 16, and are connected with the bluetooth equipment of mobile terminal 2, For the electrocardiosignal of user, respiratory waveform signal, body position signal to be sent to the bluetooth equipment of mobile terminal 2.This is practical The novel bluetooth equipment for making full use of mobile terminal 2 reinforces physiologic information and picks up signal biography between transmitter 1 and mobile terminal 2 It send.

The utility model is for accurate measurements and the electrocardiosignal, respiratory waveform signal and position of observation user is facilitated to believe Number, as shown in Figure 1, the utility model is additionally provided with waveform display module 25, waveform display module 25 and data on mobile terminal 2 Processing module 22 is connected, for showing the ecg wave form and respiratory waveform of user.For the ease of distinguishing the electrocardio wave of user Shape and respiratory waveform, the waveform display module 25 of the utility model are divided for top display unit and lower part display unit, and list is respectively used to The solely ecg wave form or respiratory waveform of display user.In order to check the position activity of user in time, such as Fig. 1 institute Show, the utility model is additionally provided with position display module 26, position display module 26 and data processing module 22 on mobile terminal 2 It is connected, for showing the position active signal of user.In order to be carried out convenient for heartbeat numerical value, the breathing numerical value to user Monitoring, as shown in Figure 1, the utility model is additionally provided with numerical value display module 27, numerical value display module 27 and number on mobile terminal 2 It is connected according to processing module 22, for showing the heartbeat numerical value and respiration rate numerical value of user.For the ease of the heart to user The information such as electric signal, respiratory waveform signal, body position signal are stored, as shown in Figure 1, the utility model is on mobile terminal 2 It is additionally provided with memory module 23, memory module 23 is connected with data processing module 22, for storing data the letter in processing module 22 Breath.

In the present invention, the data processing module 22 of mobile terminal 2 handles electrocardiosignal, the respiratory waveform of user The information of signal and position active signal, what change information, user's respiratory rate including user's heart rate and the rhythm of the heart changed The information of difference, user breathe equilibrium degree information and position chanP information between information, user's inspiratory phase and expiratory phase.

The utility model also provides a kind of method of electrocardio, breathing, the monitoring sleep-walking of position comprising steps are as follows:

Step 1: using the physiologic information pick up transmitter 1 acquire the electrocardiosignal of user, respiratory waveform signal, Position active signal, and it is sent to the receiving module of mobile terminal 2；

Step 2: after mobile terminal 2 receives the electrocardiosignal of user, respiratory waveform signal, position active signal, it will Electrocardiosignal, respiratory waveform signal, the position active signal of user is uploaded to cloud 3 or PC terminal 4；

Step 3: mobile terminal 2 or PC terminal 4 are by the electrocardiosignal of user, respiratory waveform signal, position active signal Electrocardiosignal, respiratory waveform signal and position active signal when being in sleep with user are compared, when the electrocardio of acquisition Signal, respiratory waveform signal and position active signal be user be in sleep when signal value when, it is concluded that user not There is sleep-walking state；Signal value when the electrocardiosignal of acquisition and respiratory waveform signal are in sleep for user, and acquire Position active signal be user awaken when signal value when (when the electrocardiosignal and respiratory waveform signal of acquisition are still in Signal value range when sleep, and acquire position active signal be stand or walk signal value when), it is concluded that user goes out Now dream of state；

Step 4: user is in the information of sleep-walking state and is not in sleep-walking state by mobile terminal 2 or PC terminal 4 Information is uploaded to the cloud；

Step 5: being in the information of sleep-walking state to the user in cloud by PC terminal 4 and being not in sleep-walking state Information is collected, arranges, files, and generates report, provides basic basis for the successive treatment of user.

In the medical institutions such as hospital, judge whether a people is in dormant foundation, often takes a brain electricity Convenient value as threshold value, be then sleep state in threshold range；It is then waking state not in threshold range；But This monitoring is inaccurate, and the situation of mistake even occurs, and use process is extremely inconvenient, severe jamming user's sleeps It sleeps；In order to solve this problem, the utility model integrates high-precision electrocardio, breathing, position information, is formed and completely new is sentenced Disconnected system, principle are as follows:

Heart rate information, the average heart rate of the user obtained in origin or beginning acquisition, for heart rate value of awakening.When the heart of user Rate value is equal to or less than the 80% of the awakening heart rate value of user, then the sleep heart rate value after falling asleep for user；

Rhythm of the heart information, the mean heart rate of the user obtained in origin or beginning acquisition, for rhythm of the heart value of awakening.When the heart of user Rule value is equal to or less than the 80% of the awakening rhythm of the heart value of user, then the sleep rhythm of the heart value after falling asleep for user；

Respiratory rate information, the average respiratory rate of user obtained in origin or beginning acquisition, for respiratory rate value of awakening, When user respiratory rate value be equal to or less than user the awakening respiratory rate value of information 80%, then enter for user Sleep-respiratory frequency information value after dormancy；

Phase differential information is breathed, the mean difference between the inspiratory phase and expiratory phase of the user obtained in origin or beginning acquisition Value breathes phase difference value for awakening.When the awakening that the breathing phase difference value of user is equal to or less than user breathes difference 80% not be worth, then the sleep difference value after falling asleep for user；

Equilibrium degree information is breathed, the average breathing rule of the user obtained in origin or beginning acquisition is awakening breathing equilibrium degree Value.The 80% of balanced angle value is breathed when the breathing rule of user is equal to or less than awakening for user, then is in and sleeps for user Breathing equilibrium angle value when dormancy.

After above-mentioned " origin or beginning " refers in particular to user's wearing physiologic information pickup transmitter, one section to lie down before falling asleep is felt It wakes up the time.

Analysis it is found that compared with prior art, advantages and beneficial effects of the utility model lie in that

Electrocardio provided by the utility model, breathing, position monitoring sleep-walking reporting system transmitter 1 is picked up with physiologic information To acquire source, the electrocardiosignal, respiratory waveform signal and position active signal of user are acquired, and by the heart of user Electric signal, respiratory waveform signal and position active signal are sent to mobile terminal 2, in the data processing module 22 of mobile terminal 2 In, heart when by the sleep of the electrocardiosignal of collected user, respiratory waveform signal and position active signal and user Electric signal, respiratory waveform signal and position active signal are compared, when the electrocardiosignal, respiratory waveform signal and position of acquisition Active signal is when user is in signal value when sleeping, it is concluded that user does not occur sleep-walking state；When the heart of acquisition Electric signal and respiratory waveform signal are signal value when user is in sleep, and the position active signal acquired is user's feel Wake up when signal value when, it is concluded that there is sleep-walking state in user；Again by the upload cloud module 24 of mobile terminal 2 by user Information in sleep-walking state uploads to cloud 3, is in the letter of sleep-walking state to the user that cloud 3 stores by PC terminal 4 Breath is collected, arranges, and can be filed and be generated analysis report, carries out treatment with the sleep-walking to user and carries out standard It is standby；Simultaneously as the physiologic information of the utility model picks up transmitter 1 directly along the vertical direction of human body central axes, post The manubrium position of front is not in the cable winds user body of routine monitoring device and leads to user's poor sleep The case where, i.e., the utility model can provide the basis of comfortable sleeping from acquisition source for user.The utility model passes through the heart Electric signal and respiratory waveform signal show that user is in sleep state, while showing that user is in by position active signal Active state, i.e. the utility model, which can immediately arrive at user and be in dormant position active signal and immediately arrive at, to be made User is in sleep-walking state.

As known by the technical knowledge, the utility model can pass through other essence without departing from its spirit or the reality of essential feature Scheme is applied to realize.Therefore, embodiment disclosed above, in all respects are merely illustrative, and are not only 's.All changes that come within the scope of the invention or equivalents of the invention are by the utility model packet Contain.

Claims (10)

1. the sleep-walking reporting system of a kind of electrocardio, breathing, position monitoring characterized by comprising

Physiologic information picks up transmitter, posts on the body of user, for acquiring and sending electrocardiosignal, the breathing of user Waveform signal and position active signal；

Mobile terminal is equipped with receiving module in the mobile terminal, data processing module, uploads cloud module；The reception mould Block picks up transmitter with the physiologic information and is wirelessly connected, and picks up the user that transmitter is sent for receiving the physiologic information Electrocardiosignal, respiratory waveform signal and position active signal；The data processing module is connected with the receiving module, described Data processing module judges signal value when user's electrocardiosignal, respiratory waveform signal are in sleep for user, and receives User's position active signal be user be in awakening when signal value when, it is concluded that user is in sleep-walking state；Institute It states upload cloud module to be connected with the data processing module, the information for user to be in sleep-walking state is uploaded to cloud；

With PC terminal, the PC terminal and the cloud realize and are wirelessly connected that the user for obtaining the cloud is in dream The information of free state, to realize the monitoring and report that are in sleep-walking state to user.

2. the sleep-walking reporting system of electrocardio according to claim 1, breathing, position monitoring, it is characterised in that:

The physiologic information picks up transmitter along the vertical direction of human body central axes, posts in the manubrium position of front.

3. the sleep-walking reporting system of electrocardio according to claim 1 or 2, breathing, position monitoring, which is characterized in that described Physiologic information picks up transmitter

Shell, for providing installation space；

Position acquisition module is fixedly mounted in the shell, for acquiring the position active signal of user；

Electrocardio Breath collection module, is fixedly mounted in the shell, for acquiring the electrocardiosignal and respiratory waveform of user Signal；

Bluetooth communication module is fixedly mounted in the shell, picks up transmitter and the shifting for realizing the physiologic information Data transmission and communication between dynamic terminal；

Central processing unit, the central processing unit are fixedly mounted in the shell, the central processing unit respectively with the body Position acquisition module, the electrocardio Breath collection module are connected with the bluetooth communication module, for receiving and handling user's Electrocardiosignal, respiratory waveform signal and position active signal, and the wireless telecommunications of control and the mobile terminal.

4. the sleep-walking reporting system of electrocardio according to claim 3, breathing, position monitoring, it is characterised in that:

The position acquisition module is four axis gyro sensors or six axis gyro sensors.

5. the sleep-walking reporting system of electrocardio according to claim 3, breathing, position monitoring, which is characterized in that the electrocardio Breath collection module includes:

Chip is used for collecting signal；

First electrode button, the first electrode button is connected by Internal cable with the chip, for acquiring the electrocardio of user Signal and breath signal；

Second electrode button, the second electrode button is connected by Internal cable with the chip, for acquiring the electrocardio of user Signal and breath signal；The chip collects the electrocardiosignal and respiratory waveform of the first electrode button and the second electrode button Signal, and electrocardiosignal and respiratory waveform signal are sent to the central processing unit.

6. the sleep-walking reporting system of electrocardio according to claim 3, breathing, position monitoring, which is characterized in that the physiology Information picks up transmitter further include:

Power module, the power module are fixedly mounted in the shell, are mentioned for picking up transmitter for the physiologic information For electric power.

7. the sleep-walking reporting system of electrocardio according to claim 3, breathing, position monitoring, it is characterised in that:

The shell is streamline shuttle shape structure.

8. the sleep-walking reporting system of electrocardio according to claim 3, breathing, position monitoring, it is characterised in that:

The length of the shell is 96~110mm, and the width of the shell is 35~55mm, the shell with a thickness of 10~ 15mm。

9. the sleep-walking reporting system of electrocardio according to claim 1 or 2, breathing, position monitoring, it is characterised in that:

It is additionally provided with waveform display module, the waveform display module and the data processing module phase on the mobile terminal Even, for showing heart real time waveform, real-time respiratory waveform, instantaneous heart rate value and the instantaneous breathing value of user.

10. the sleep-walking reporting system of electrocardio according to claim 1 or 2, breathing, position monitoring, it is characterised in that:

It is additionally provided with position display module, the position display module and the data processing module phase on the mobile terminal Even, for showing the position active signal of user.