CN209547960U - Sleep quality monitoring device and system - Google Patents
Sleep quality monitoring device and system Download PDFInfo
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- CN209547960U CN209547960U CN201721812380.4U CN201721812380U CN209547960U CN 209547960 U CN209547960 U CN 209547960U CN 201721812380 U CN201721812380 U CN 201721812380U CN 209547960 U CN209547960 U CN 209547960U
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Abstract
This application involves a kind of sleep quality monitoring device, sleep-aid device and sleep qualities to monitor system, the system comprises: monitoring device, monitoring device and the sleep-aid device being sequentially connected electrically;Monitoring device sends the first monitoring instruction to monitoring device;Monitoring device enters first mode according to the first monitoring instruction, acquires the first sleep parameters of monitored target in the flrst mode, and send the first synchronic command to sleep-aid device in the flrst mode;Sleep-aid device reports the second sleep parameters of monitored target according to the first synchronic command to monitoring device;Monitoring device obtains the dormant data of monitored target according to the first sleep parameters and the second sleep parameters, and dormant data is sent to monitoring device;Monitoring device analyzes dormant data, and analysis obtains the corresponding data of sleep quality of monitored target.Sleep quality monitoring precision can be improved using this system.
Description
Technical field
This application involves field of computer technology, more particularly to a kind of sleep quality monitoring device and system.
Background technique
Rationally normal life style is to ensure that the key factor of human health.Life style is typically implemented in diet, work
Three aspects of momentum and sleep quality.Wherein, sleep maintains normal physiological function and growth and development extremely heavy body
It wants.Traditional approach people get up in the night to urinate number, second day state of mind etc. according to time for falling asleep, at night generally to judge oneself roughly
Sleep quality.But because criterion is inconsistent and the deviation of individual memory, lead to not the sleep matter for accurately determining oneself
Amount.For better monitoring sleep quality, occur various sleep monitoring devices in the market.Professional sleep in the market
Monitoring device needs stick many electrodes on the body of monitored target, and one people of monitored target can not complete alone above-mentioned
Operation, and the sleep of monitored target is produced bigger effect, it is unable to get the sleep of monitored target in its natural state
Situation, to be difficult to really reflect the true sleep quality of monitored target.And easy sleep monitoring device inspection in the market
The parameter of survey is relatively simple, so that monitoring result is also not accurate enough.
Utility model content
Based on this, it is necessary to which in view of the above technical problems, providing a kind of can be improved sleeping for sleep quality monitoring precision
Dormancy quality monitoring device, sleep-aid device and sleep quality monitor system.
A kind of monitoring device of sleep quality, including first communication module, the first parameter collection module and the first control mould
Block;The first communication module and first parameter collection module are electrically connected with first control module respectively;Described
One communication module is used to receive the first monitoring instruction of monitoring device transmission;First parameter collection module is used for according to described first
Monitoring instruction enters first mode, acquires the first sleep parameters of monitored target in the first mode;First control
Molding block is for sending the first synchronic command to sleep-aid device in the first mode, when the first communication module receives
When the second sleep parameters of the monitored target that the sleep-aid device is returned according to first synchronic command, according to described
First sleep parameters and the second sleep parameters obtain the dormant data of the monitored target, and controlling the first communication module will
The dormant data is sent to the monitoring device, analyzes the monitoring device to the dormant data, analysis obtains
The corresponding data of the sleep quality of monitored target.
One embodiment wherein, first parameter collection module include the heart for acquiring the hrv parameter of monitored target
The flesh of rate module, the acceleration transducer of the dynamic parameter of the first body of the acquisition monitored target or the acquisition monitored target
At least one of in the myoelectricity module of electrical parameter;The heart rate module is electrically connected with first control module, the acceleration
Sensor is electrically connected with first control module;The myoelectricity module includes electrode and filter amplification circuit, the electrode with
The filter amplification circuit electrical connection, the filter amplification circuit and first control module electrical connection.
One embodiment wherein, the monitoring device further include the wearing for carrying out wearing detection to the monitored target
Detection module;The wearing detection module is electrically connected with first control module.
One embodiment wherein, the monitoring device further include memory;The memory and the first control mould
Block electrical connection, stores the corresponding pulse strength in multiple Depth of sleep sections and each Depth of sleep section;The sleep number
According to including Depth of sleep;It is described when the first communication module receives the second monitoring instruction that the monitoring device is sent
First control module enters second mode according to the second monitoring instruction, obtains in the second mode in the memory
The corresponding multiple Depth of sleep sections of first state and the corresponding pulse strength in each Depth of sleep section, according to described
The affiliated Depth of sleep section of the Depth of sleep of monitored target, obtains corresponding pulse strength, utilizes the pulse strength got
Sleeping instruction is generated, sleeping instruction is sent to the sleep-aid device, instructs the sleep-aid device according to the sleeping
In pulse strength generate pulse signal.
A kind of sleep-aid device, including second communication module, the second parameter collection module and the second control module;Described second
Communication module and second parameter collection module are electrically connected with second control module respectively;The second communication module connects
Receive the first synchronic command that the monitoring device of the first sleep parameters for acquiring monitored target is sent;Second parameter acquisition mould
Block is used to that the second sleep parameters of the collected monitored target to be back to the prison according to first synchronic command
Device is surveyed, the monitoring device is made to obtain sleeping for the monitored target according to first sleep parameters and the second sleep parameters
Dormancy data, and the dormant data is sent to the monitoring device;The monitoring device analyzes the dormant data,
Analysis obtains the corresponding data of sleep quality of monitored target.
One embodiment wherein, the sleep-aid device further include pulse sleeping module;The pulse sleeping module and institute
State the electrical connection of the second control module;When the second communication module receives the sleeping instruction that the monitoring device is sent, institute
It states the second control module and the pulse sleeping module generation pulse signal is controlled according to sleeping instruction;In second communication
When module receives the sleeping halt instruction that the monitoring device is sent, second control module refers to according to sleeping stopping
It enables and controls the pulse sleeping module stopping generation pulse signal.
One embodiment wherein, second parameter collection module include acquire the monitored target the second body it is dynamic
Second body of parameter moves parameter detection module;It includes infrared sensor or range sensor that second body, which moves parameter detection module,
At least one of in;Second body moves parameter detection module and is electrically connected with second control module.
One embodiment wherein, second parameter collection module include electric power detection module, current detection module or
At least one of in temperature detecting module;The electric power detection module is electrically connected with second control module;The electric current inspection
Module is surveyed to be electrically connected with second control module;The temperature detecting module is electrically connected with second control module.
One embodiment wherein, the sleep-aid device further include carrying out low capacity prompt, overcurrent prompt or excess temperature prompt
Cue module;The cue module is electrically connected with first control module.
A kind of sleep quality monitors system, including monitoring device provided by the above embodiment and provided by the above embodiment helps
Dormancy device further includes monitoring device;The monitoring device is electrically connected with the monitoring device respectively with the sleep-aid device;It is described
Monitoring device sends the first monitoring instruction to the monitoring device;The monitoring device enters the according to the first monitoring instruction
One mode acquires the first sleep parameters of monitored target in the first mode, and in the first mode to helping
Dormancy device sends the first synchronic command;The sleep-aid device reports according to first synchronic command to the monitoring device described
Second sleep parameters of monitored target;The monitoring device obtains institute according to first sleep parameters and the second sleep parameters
The dormant data is sent to the monitoring device by the dormant data for stating monitored target;The monitoring device is slept to described
Dormancy data are analyzed, and analysis obtains the corresponding data of sleep quality of monitored target.
Above-mentioned sleep quality monitoring device, sleep-aid device and sleep quality monitor system, and monitoring device is according to monitoring device
The monitoring of transmission instructs, and can enter corresponding operating mode.In the flrst mode, monitoring device can acquire monitored target
The first sleep parameters, also the second sleep parameters of the collected monitored target of available sleep-aid device.Monitoring device root
According to the first sleep parameters and the second sleep parameters, the dormant data that monitored target is calculated can analyze.By dormant data
It is sent to monitoring device to analyze dormant data, can analyze the corresponding data of sleep quality for obtaining monitored target.
It can be obtained from multiple dimensions monitored in the case where not influencing monitored target sleep using sleep-aid device and monitoring device
The sleep parameters of object, can be more accurate using the sleep quality monitoring result that the sleep parameters of various dimensions are analyzed.
Detailed description of the invention
Fig. 1 is that sleep quality monitors systematic difference scene figure in one embodiment;
Fig. 2 is the structure chart that sleep quality monitors system in one embodiment;
Fig. 3 is the structure chart of monitoring device in one embodiment;
Fig. 4 is the structure chart of sleep-aid device in one embodiment.
Specific embodiment
It is with reference to the accompanying drawings and embodiments, right in order to which the objects, technical solutions and advantages of the application are more clearly understood
The application is further elaborated.It should be appreciated that specific embodiment described herein is only used to explain the application, not
For limiting the application.
It is various to be appreciated that term " first ", " second " used in the utility model etc. can be used to describe herein
Element, but these elements should not be limited by these terms.These terms are only used to distinguish the first element from the other element.It lifts
For example, without departing from the scope of the invention, the first client can be known as the second client, and similar
Second client can be known as the first client by ground.The first client and the second client both client, but it is not
Same client.
The application provides sleep quality and monitors system, can be applied in application environment as shown in Figure 1.Wherein, it monitors
Device 102 is connect by network with monitoring device 104.Monitoring device 104 is connect by network with sleep-aid device 106.Monitoring dress
Setting 102 can be terminal 1022, be also possible to the combination of terminal 1022 Yu server 1024.Terminal 1022 can be intelligent hand
At least one of machine, tablet computer, desktop computer or laptop, however, it is not limited to this.Server 1024 can be with
It is independent physical server, is also possible to the server cluster that multiple physical servers are constituted.Monitoring device 104, which can be, wears
Wear formula equipment, such as bracelet, foot ring, neck ring or waistband.Sleep-aid device 106 can be bedding, such as pillow or mattress.It needs
It is noted that monitoring device 104 and sleep-aid device 106 can be one respectively, it is also possible to multiple.
When monitored target needs to supervise the sleep quality of oneself (hereinafter referred to as " monitoring period of time ") whithin a period of time
When survey, monitoring instruction can be sent to monitoring device 104 by monitoring device 102.Monitoring device 104 according to monitoring instruct into
Enter corresponding operating mode.
When monitoring device 104 enters first mode, the first sleep parameters of monitored target are acquired according to predeterminated frequency,
Such as hrv parameter, the first body moves parameter or myoelectricity parameter etc..Monitoring device 104 in the flrst mode, according to predeterminated frequency to helping
Dormancy device 106 sends the first synchronic command.Sleep-aid device 106 is reported to monitoring device 104 and is collected according to the first synchronic command
Monitored target the second sleep parameters, such as the second body move parameter.Monitoring device 104 has been pre-stored sleep analysis model,
First sleep parameters and the second sleep parameters are input to sleep analysis model, are monitored using sleep analysis model analysis
The dormant data of object, such as sleep state or Depth of sleep.When monitored target it should be understood that oneself sleeping in monitoring period of time
When dormancy quality, the second synchronic command can be sent to monitoring device 104 by monitoring device 102.Monitoring device 104 is according to
Monitored target is sent to monitoring device 102 in the dormant data of monitoring period of time by two synchronic commands.Monitoring device 102 is to sleeping
Dormancy data are analyzed, and obtain the corresponding data of sleep quality of monitored target, and the sleep quality obtained to analysis is corresponding
Data be shown.
When monitoring device 104 enters second mode, monitored target sleeping in monitoring period of time is obtained in the manner described above
Dormancy data.Dormant data includes sleep state.Monitoring device 104 is under the second mode, raw when sleep state is first state
It is instructed at sleeping, sleeping instruction is sent to sleep-aid device 106.Sleep-aid device 106 enters sleeping mode according to sleeping instruction,
Generate the pulse signal for facilitating monitored target sleep.When sleep state is the second state, monitoring device 104 generates sleeping
Sleeping halt instruction is sent to sleep-aid device 106 by halt instruction.Sleep-aid device 106 stops generating according to sleeping halt instruction
Pulse signal.When sleep state is the third state, dormancy instruction is generated, dormancy instruction is sent to sleep-aid device 106.Sleeping
Device 106 is switched to suspend mode, break-off according to dormancy instruction.
It can be obtained in the case where not influencing monitored target sleep from multiple dimensions using sleep-aid device and monitoring device
The sleep parameters for taking monitored target, the sleep quality monitoring result analyzed using the sleep parameters of various dimensions can be more
Accurately;The operating mode of monitoring device is adjusted according to the sleep quality corresponding data that analysis obtains, so that monitoring dress
Set not only can with the sleep quality of accurate measurements monitored target, can also when monitored target poor sleeping quality, and
When monitored target sleep helped by pulse signal, a kind of closed loop is formed to the monitoring of sleep quality and is monitored, can be further
Improve the accuracy of sleep quality monitoring result.
In one embodiment, as shown in Fig. 2, providing a kind of sleep quality monitoring system, comprising: monitoring device 202,
Monitoring device 204 and sleep-aid device 206.Wherein, monitoring device 202 and monitoring device 204 are electrically connected, monitoring device 204 with
Sleep-aid device 206 is electrically connected.Monitoring device 202 sends the first monitoring instruction to monitoring device 204, makes monitoring device 204
Enter first mode according to the first monitoring instruction.Monitoring device 204 acquires the first sleep ginseng of monitored target in the flrst mode
Number;And the first synchronic command is sent to sleep-aid device 206 in the flrst mode.Sleep-aid device 206 is according to the first synchronic command
The second sleep parameters of monitored target are reported to monitoring device 204.Monitoring device 204 is also used to obtain preset sleep point
Model is analysed, the first sleep parameters and the second sleep parameters are input to sleep analysis model, obtain the sleep number of monitored target
According to dormant data is sent to monitoring device 202.Monitoring device 202 is also used to analyze dormant data, analysis obtain by
The corresponding data of the sleep quality of monitoring object.
In one embodiment, monitoring device 202 can be terminal 2022.Terminal 2022 includes being connected by system bus
Processor, memory, network interface, display screen and input unit.The processor of the terminal calculates and controls energy for providing
Power.The memory of the terminal 2022 includes non-volatile memory medium, built-in storage.The non-volatile memory medium is stored with behaviour
Make system.The built-in storage is the operating system in non-volatile memory medium.The network interface of the terminal 2022 be used for it is outer
The terminal in portion passes through network connection communication.The display screen of the terminal can be liquid crystal display or electric ink display screen, should
The input unit of terminal 2022 can be the touch layer covered on display screen, be also possible to the key being arranged in terminal enclosure, rail
Mark ball or Trackpad can also be external keyboard, Trackpad or mouse etc..
In another embodiment, monitoring device 202 is also possible to the combination of terminal 2022 Yu server 2024.Server
2024 include processor, memory, network interface and the database connected by system bus.Wherein, the server 2024
Processor is for providing calculating and control ability.The memory of the server 2024 includes non-volatile memory medium, interior storage
Device.The non-volatile memory medium is stored with operating system and database.The built-in storage is in non-volatile memory medium
Operating system.The database of the server 2024 is for storing historical sleep data and analyzing to obtain according to historical sleep data
The corresponding data of sleep quality.The network interface of the server is used to communicate with external terminal by network connection.
When monitored target needs to be monitored the sleep quality of oneself, monitoring dress can be triggered by terminal 2022
It sets 204 and enters corresponding operating mode, such as first mode or second mode.Monitoring device 204 is triggered by terminal 2022 to enter
Relevant work mode has numerous embodiments.In one embodiment, monitored target can be by terminal 2022 and monitoring
Device 204 is wirelessly connected, and monitoring device 204 and sleep-aid device 206 are wirelessly connected, monitoring device 204 is worn, at end
End 2022 generates monitoring instruction by click keys, the input modes such as text or voice, and monitoring instruction is sent to by terminal 2022
Monitoring device 204, monitoring device 204 enter relevant work mode according to monitoring instruction.Monitoring instruction includes the first monitoring instruction
With the second monitoring instruction.Monitoring device 204 according to first monitoring instruction enter first mode, or according to second monitoring instruct into
Enter second mode.In another embodiment, server 2024 and terminal 2022 can be wirelessly connected by monitored target,
Terminal 2022 and monitoring device 204 are wirelessly connected, monitoring device 204 and sleep-aid device 206 are wirelessly connected, monitoring is filled
It sets 204 to be worn, server 2024 obtains the historical sleep data of monitored target or crawls the medical note of monitored target
Record generates monitoring instruction according to the historical sleep data or diagnosis records of monitored target, and terminal 2022 will monitor instruction forwarding
To monitoring device 204, monitoring device 204 enters relevant work mode according to monitoring instruction.
First mode, which refers to monitoring device 204 only, to be needed to carry out the operating mode of data acquisition.Second mode refers to monitoring dress
It sets 204 not only to need to carry out data acquisition, it is also necessary to the operating mode for controlling sleep-aid device 206.Terminal 2022 and prison
Device 204 is surveyed, monitoring device 204 can be attached with sleep-aid device 206 by wireless networks such as bluetooth, Wi-Fi respectively.It needs
It is noted that terminal 2022 can be connect by local area network with monitoring device 204, wide area network or mobile network can also be passed through
It is connect Deng with monitoring device 204, so that terminal can carry out short distance control to monitoring device 204, it can also be to monitoring device
204 are remotely controlled.
In another embodiment, monitoring device 204 can also be triggered by self-triggering mode enters relevant work mould
Formula.Specifically, when monitored target needs to be monitored the sleep quality of oneself, can only by monitoring device 204 with help
Dormancy device 206 is wirelessly connected, and monitoring device 204 is worn.When wearing finishes, monitoring device 204 is worn automatically
Detection generates parameter acquisition instruction if testing result is to wear successfully, enters first mode according to parameter acquisition instruction.The touching
Originating party formula can reduce attended operation of the monitored target to monitoring device 202 and monitoring device 204.202 need of monitoring device
When the parameter acquired to monitoring device 204 synchronizes, it is wirelessly connected with monitoring device 204.
When entering first mode by the triggering monitoring device 204 of terminal 2022, monitored target can be in terminal 2022
User identifier and monitoring period of time are set.User identifier, which can be social account, phone number or identification card number etc., uniquely to be known
The information of an other monitored target.Monitoring period of time refers to the time zone for needing to be monitored to the sleep quality of monitored target
Between, such as first night 10:00~the next morning 6:00.Terminal 2022 is sent to the monitoring instruction note of monitoring device 204
The timestamp of current time is recorded.Monitoring device 204 can carry out time synchronization according to the timestamp.It is readily appreciated that, when passing through
When self-triggering mode triggers the entrance first mode of monitoring device 204, monitoring period of time refers to be worn successfully extremely from monitoring device 204
Monitoring device 204 wears the time interval of failure.
In order to improve sleep quality monitoring result, monitoring device 204 obtains the sleep ginseng of monitored target from multiple dimensions
Number.Specifically, in the flrst mode, monitoring device 204 is in monitoring period of time according to the first predeterminated frequency to the of monitored target
One sleep parameters are acquired.First predeterminated frequency can comprehensively consider the power consumption and sleep quality monitoring knot of monitoring device 204
The accuracy of fruit is configured, and such as 1 beat/min.First sleep parameters include that the first body moves parameter, hrv parameter or myoelectricity parameter
At least one of in.First body moves the sleep action parameter that parameter refers to monitored target, and such as arm lift action, leg is lifted
The parameter of movement or body twisting actions etc..
In the flrst mode, monitoring device 204 is also sent out according to the second predeterminated frequency to sleep-aid device 206 in monitoring period of time
The first synchronic command is sent, so that sleep-aid device 206 reports the second sleep parameters of monitored target.Specifically, sleeping
Device 206 is acquired according to the second sleep parameters of the third predeterminated frequency to monitored target.Wherein, the second predeterminated frequency can
To be freely arranged according to demand, such as 30 minutes;Third predeterminated frequency may be the same or different with the first predeterminated frequency.The
Two sleep parameters include that the second body moves parameter.Different according to sleep-aid device 206, the second body moves parameter can be different.For example, when helping
When dormancy device 206 includes pillow capable of improving sleeping, it includes that the parameter of pillow is left on the head of monitored target that the second body, which moves parameter,;Work as sleeping
When device 206 includes sleeping mattress, it includes that the body of monitored target leaves the parameter etc. of mattress that the second body, which moves parameter,.
Monitoring device 204 obtains sleep analysis model, and the first sleep parameters and the second sleep parameters are input to sleep point
Analyse model.Sleep analysis model can be server 2024 or terminal 2022 using the sleep parameters training of multiple monitored targets
It obtains, and is stored in advance to monitoring device 204.Monitoring device 204 obtains monitored target using sleep analysis model analysis
Dormant data, such as sleep state or Depth of sleep.
It, can be by terminal 2022 to prison when monitored target it should be understood that oneself is in the sleep quality of monitoring period of time
It surveys device 204 and sends the second synchronic command.For example, in the example above, it, will after monitored target can be with 7:00 gets up in the morning
The dormant data of first night 10:00 to the next morning 6:00 is synchronized to terminal 2022 from monitoring device 204.Terminal 2022
After the dormant data for receiving the monitored target that monitoring device 204 is returned according to the second synchronic command, generate it is synchronous at
Synchronous successful respond is back to monitoring device 204, makes monitoring device 204 by the dormant data of corresponding monitoring period of time by function response
It is deleted, to reduce the resource occupation to monitoring device 204.
The dormant data received is sent to server 2024 by terminal 2022, by server 2024 to monitored target
Dormant data is analyzed.Or terminal 2022 directly analyzes the dormant data received.Dormant data includes user
Mark.When terminal 2022 analyzes the dormant data received, terminal 2022 obtains the user identifier of storage, will sleep
The user identifier of dormancy data is matched with the user identifier got, when successful match, is supervised according to dormant data statistics
Object is surveyed in the sleep total duration of monitoring period of time, number etc. of regaining consciousness.For convenience, by the second predeterminated frequency corresponding time
In the referred to as parameter synchronization period, such as in the example above, the parameter synchronization period be can be 30 minutes.Dormant data further includes monitoring
The sleep state for the monitored target that each parameter synchronization period in period gets, i.e., monitored target is in monitoring period of time
Each parameter synchronization period sleep state.For example, evening 10:00~evening 10:30 sleep state.2022 basis of terminal
Monitored target calculates the sleep quality of monitored target in the sleep total duration of monitoring period of time, regain consciousness number and sleep state
Score.Sleep total duration of the terminal 2022 using monitored target in monitoring period of time, regain consciousness number, sleep state and sleep quality
Score etc. generates the corresponding Study document of user identifier, and in the inquiry request for receiving monitored target to Study document
It is shown.
Database is deployed on server 2024.When server 2024 analyzes the dormant data received, clothes
Business device 2024 in the manner described above analyzes the dormant data of monitored target, and sends to the Study document that analysis obtains
To terminal 2022, dormant data of the monitored target that analysis is obtained in monitoring period of time, sleep total duration, number of regaining consciousness are slept
The data records such as dormancy state and sleep quality score are to database.
In the present embodiment, monitoring device is instructed according to the monitoring that monitoring device is sent, and can enter corresponding operating mode.
In the flrst mode, monitoring device can acquire the first sleep parameters of monitored target, also available sleep-aid device acquisition
Second sleep parameters of the monitored target arrived.Monitoring device can analyze according to the first sleep parameters and the second sleep parameters
The dormant data of monitored target is calculated.Dormant data is sent to monitoring device to analyze dormant data, it can be with
Analysis obtains the corresponding data of sleep quality of monitored target.It can not influence to be supervised using sleep-aid device and monitoring device
In the case where surveying object sleep, the sleep parameters of monitored target are obtained from multiple dimensions, utilize the sleep parameters point of various dimensions
Analysing obtained sleep quality monitoring result can be more accurate.
In one embodiment, the internal structure chart of monitoring device 204 can be as shown in figure 3, the monitoring device includes the
One control module 302, the first parameter collection module 304, first communication module 306 and wearing detection module 308.First parameter is adopted
Collect module 304, first communication module 306 and wear detection module 308 and is electrically connected respectively with the first control module 302.Wherein,
First parameter collection module 304 includes at least one in myoelectricity module 3042, acceleration transducer 3044 or heart rate module 3046
?.Myoelectricity module 3042 includes electrode and filter amplification circuit etc..Electrode passes through filtering and amplifying circuit and the first control module 302
It is electrically connected.Myoelectricity module 3042 is used to acquire the myoelectricity parameter of monitored target.Acceleration transducer 3044 is for acquiring quilt
First body of monitoring object moves parameter.Heart rate module 3046 is used to acquire the hrv parameter of monitored target.First control module
302 for obtaining preset sleep analysis model, and the first body is moved parameter, hrv parameter or myoelectricity parameter and is input to sleep analysis
Model.First communication module 306 can be near-field communication module, such as bluetooth module;It is also possible to remote communication module, such as
Wi-Fi module etc..It is readily appreciated that, which further includes charging module 310, power module 312, cue module 314,
Memory 316 or key 318 etc..First control module 302, first communication module 306, is worn at first parameter collection module 304
Detection module 308, charging module 310, cue module 314 and memory 316 is worn to be electrically connected with power module 312 respectively.
Cue module 314 can be loudspeaker or LED light etc. can be to the device that monitored target is prompted.
In one embodiment, the internal structure chart of sleep-aid device 206 can be as shown in figure 4, the sleep-aid device includes the
Two control modules 402, the second parameter collection module 404, second communication module 406 and pulse sleeping module 408.Second parameter is adopted
Collect module 404, second communication module 406 and pulse sleeping module 408 to be electrically connected with the second control module 402 respectively.Wherein,
Second parameter collection module 404 includes that the second body moves parameter detection module, electric power detection module, current detection module and temperature inspection
Survey the submodules such as module.Multiple submodule can be electrically connected by system bus and the second control module 402.The dynamic ginseng of second body
Number detection module can be infrared sensor, range sensor etc..Second body moves parameter detection module for acquiring monitored pair
The second body of elephant moves parameter.Second control module 402 is used to the second body moving reporting parameters to monitoring device 204.Pulse sleeping
Module 408 is for generating pulse signal.The pulse frequency of pulse signal can promote human body sleeping close to human body electroencephalogram's wave frequency rate
It sleeps.It is readily appreciated that, the sleep of monitored target can also be promoted using other modes, if sleep-aid device 206 is according to default frequency
Rate vibration etc., with no restriction to this.It is readily appreciated that, which also further includes charging module 410, power module 412, prompt
Module 414 or memory 416 etc..Second control module 402, pulse sleeping module 408, charging module 410 and cue module
414 are electrically connected with power module 412 respectively.Cue module 414 can be loudspeaker or LED light etc. can be to monitored pair
Device as prompted in carrying out.
In one embodiment, the first communication module 306 of monitoring device 204 includes near-field communication module or telecommunication
Module (not shown);Near-field communication module receives the near field connection request that monitoring device 202 is sent, according near field connection request
The first communication link is established between monitoring device 202, and the first prison that monitoring device 202 is sent is received by the first communication link
Control instruction;Remote communication module receives the remote connection request that monitoring device 202 is sent, according to remote connection request and monitoring
The second communication link is established between device 202, and the first monitoring that monitoring device 202 is sent is received by the second communication link and is referred to
It enables.
In the present embodiment, monitoring device can be connect by local area network with monitoring device, can also pass through wide area network or shifting
Dynamic network etc. is connect with monitoring device, so that monitoring device can carry out short distance control to monitoring device, it can also be to monitoring
Device is remotely controlled.
In one embodiment, monitoring device 202 sends the second synchronic command, the second synchronic command to monitoring device 204
Including user identifier;Monitoring device 204 detects whether to be stored with the corresponding dormant data of user identifier according to the second synchronic command;
When the corresponding dormant data of the not stored user identifier of monitoring device 204, monitoring device 202 crawl user identifier it is corresponding default when
Interior diagnosis records generate the first monitoring instruction or the second monitoring instruction according to diagnosis records;When monitoring device 204 stores
When the corresponding dormant data of user identifier, monitoring device 202 receives monitoring device 204 and is supervised according to what the second synchronic command returned
The dormant data for surveying object generates the first monitoring instruction according to dormant data or the second monitoring instructs.
When monitored target needs to be monitored the sleep quality of oneself, monitoring dress can be triggered by terminal 2022
It sets 204 and enters corresponding operating mode.Specifically, server 2024 and terminal 2022 can be wirelessly connected by monitored target,
Terminal 2022 and monitoring device 204 are wirelessly connected, monitoring device 204 and sleep-aid device 206 are wirelessly connected, monitoring is filled
204 are set to be worn.When wearing finishes, monitoring device 204 carries out wearing detection automatically, if testing result is to wear successfully,
Sleep monitor request is generated, sleep monitor request is sent to terminal 2022.Sleep monitor request is sent to clothes by terminal 2022
Business device 2024.
Sleep monitor request carries user identifier.Server 2024 according to user identifier, inquire in the database whether
It is stored with the data of corresponding historical sleep data and the sleep quality analyzed according to historical sleep data.When presence pair
When the historical sleep data answered, indicate the corresponding monitored target of user identifier at least once using provided in this embodiment
Sleep quality monitoring system is acquired the dormant data of oneself, and it is corresponding that server 2024 obtains user identifier in the database
Historical sleep data and the corresponding data of sleep quality analyzed according to historical sleep data.2024 basis of server
The data got judge whether monitored target needs sleeping, when not needing sleeping, by the operating mode of monitoring device 204
It is set as first mode;Conversely, setting second mode for the operating mode of monitoring device 204, the setting of operating mode is utilized
Information generates the first monitoring instruction or the second monitoring instruction.
When corresponding historical sleep data are not present in database, indicate that the corresponding monitored target of user identifier is the
Once the dormant data of oneself is acquired using sleep quality provided in this embodiment monitoring system, server is according to user
Mark, crawls the diagnosis records of the corresponding monitored target of user identifier within a preset time in default website, according to medical note
The sleep quality of record prediction monitored target.Preset time can according to need free setting, such as 1 month.Diagnosis records can
To include that user identifier corresponds to monitored target using the dormant data of other devices acquisition, or goes to the medical number of hospital admission
According to.Server judges whether monitored target needs sleeping according to the sleep quality of prediction, and when not needing sleeping, monitoring is filled
The operating mode for setting 204 is set as first mode, generates the first monitoring using the setting information of first mode and instructs, terminal will
First monitoring instruction is forwarded to monitoring device 204.Conversely, server 2024 sets for the operating mode of monitoring device 204
Two modes generate the second monitoring using the setting information of second mode and instruct, and the second monitoring instruction is forwarded to prison by terminal 2022
Survey device 204.
In the present embodiment, when being stored with the historical sleep data of monitored target, is controlled and supervised according to historical sleep data
It surveys device and enters relevant work mode;When not being stored with the historical sleep data of monitored target, monitored target is crawled
Diagnosis records, using the sleep quality of diagnosis records auxiliary judgment monitored target, further according to the sleep of monitored target
Quality control monitoring device enters relevant work mode, so that it is more accurate to the control of monitoring device operating mode, into
And reach a kind of equilibrium between system power dissipation, sleeping effect and sleep quality monitoring effect.
In one embodiment, monitoring device 202 generates the first monitoring instruction or the according to the corresponding data of sleep quality
The operating mode of monitoring device 204 is switched to second mode using the second monitoring instruction, makes monitoring device by two monitoring instructions
204 generate sleeping instruction under the second mode, are instructed using sleeping and set sleeping mould for the operating mode of sleep-aid device 206
Formula makes sleep-aid device 206 generate pulse signal.
The corresponding data of sleep quality that dormant data and analysis obtain become monitored target next time using this implementation
When the sleep quality monitoring method that example provides, monitoring device 202 judges the foundation of 204 operating mode of monitoring device.In other words, certainly
The corresponding data of sleep quality that the dormant data and analysis that monitoring device 204 receives obtain become in above-described embodiment
Historical sleep data.In the present embodiment, monitoring device 202 controls the operating mode of monitoring device 204 and sleep-aid device 206, In
Monitoring device 204 and sleep-aid device 206 are respectively acquired the dormant data of monitored target when first mode, will collect
Dormant data feed back to monitoring device 202, monitoring device 202 analyzes the sleep quality of monitored target according to dormant data,
It is adjusted according to operating mode of the sleep quality to monitoring device 204, so that a kind of closed loop monitoring is formed to sleep quality, this
The monitoring of kind closed loop not only rests on the monitoring stage so that the sleep quality that this programme provides monitors system, can also be according to monitoring
As a result improved in time using sleep quality of the pulse signal to monitored target, to truly reach sleep quality
The effect of monitoring and monitoring.
In one embodiment, sleep-aid device 206 includes the second control module 402 and pulse sleeping module 408;Monitoring dress
The the second monitoring instruction for setting the transmission of 204 reception monitoring devices 202 enters second mode according to the second monitoring instruction, in the second mould
The dormant data of monitored target is obtained under formula according to predeterminated frequency;Dormant data includes sleep state;When sleep state is the
When one state, monitoring device 204 generates sleeping instruction, and sleeping instruction is sent to the second control module 402, makes the second control mould
Block 402 instructs control pulse sleeping module 408 to generate pulse signal according to sleeping;When sleep state is the second state, monitoring
Device 204 generates sleeping halt instruction, and sleeping halt instruction is sent to the second control module 402, makes the second control module 402
Pulse sleeping module 408 is controlled according to sleeping halt instruction to stop generating pulse signal.
When monitoring device 204 enters second mode according to the second monitoring instruction that monitoring device 202 is sent, monitoring device
204 obtain monitored target in the dormant data of monitoring period of time in the manner described above.It is pre- that predeterminated frequency can be above-mentioned second
If frequency.Dormant data includes the sleep state in each parameter synchronization period of the monitored target in monitoring period of time.Second
Under mode, monitoring device 204 is according to collected dormant data of the upper parameter synchronization period, to sleep-aid device 206 current
The operating mode in parameter synchronization period controlled.Specifically, the present embodiment sleep state includes first state, the second state
At least one of or in the third state, wherein first state can be waking state, and the second state, which can be, shallowly sleeps state, the
Three condition can be deep sleep.It is readily appreciated that, difference can be carried out by the sleep state to monitored target according to actual needs
The division of precision such as may include the 4th state, can also only include first state and the second state etc., without limitation.
When sleep state is first state, monitoring device 204 generates sleeping instruction, is instructed using sleeping by sleep-aid device
206 operating mode is set as sleeping mode.Under sleeping mode, sleep-aid device 206 joins the second sleep of monitored target
Number is acquired and reports, and generates pulse signal.The pulse frequency of pulse signal can promote close to human body electroencephalogram's wave frequency rate
Into sleep quality.It is readily appreciated that, the sleep of monitored target can also be promoted using other modes, as sleep-aid device 206 is pressed
According to predeterminated frequency vibration etc., with no restriction to this.It is collected when a upper parameter synchronization period was not present in monitoring device 204
When dormant data, as monitored target monitoring period of time use monitoring device 204 first parameter synchronization period, can will help
Operating mode default setting of the dormancy device 206 first parameter synchronization period is sleeping mode.
When sleep state is the second state, monitoring device 204 generates sleeping halt instruction, will using sleeping halt instruction
The operating mode of sleep-aid device 206 is switched to monitoring pattern.Under monitoring pattern, sleep-aid device 206 stops generating pulse letter
Number, it need to be only acquired according to second sleep parameters of the third predeterminated frequency to monitored target, it will according to the second predeterminated frequency
Each parameter synchronization period collected second sleep parameters report to monitoring device 204, it is possible to reduce the function of sleep-aid device 206
Consumption.
When sleep state is the third state, monitoring device 204 generates dormancy instruction, using dormancy instruction by sleep-aid device
206 operating mode is switched to suspend mode.In the hibernation mode, 206 break-off of sleep-aid device, without generating pulse letter
Number, it is acquired without the second sleep parameters to monitored target, further saves the power consumption of sleep-aid device 206.
In the present embodiment, monitoring device is instructed according to the monitoring that monitoring device is sent, and can enter different operating modes.
Under the second mode, monitoring device obtains monitored target in the dormant data of monitoring period of time in the manner described above, and according to sleeping
Dormancy data control the operating mode of sleep-aid device.Sleep-aid device can be adjusted in time according to the sleep quality of monitored target
The operating mode of whole sleep-aid device so that in the power consumption of sleep-aid device, sleeping effect and sleep quality monitoring result it is accurate
Reach a kind of equilibrium between degree.
In one embodiment, monitoring device 404 further includes memory 316;Memory 316 and first control module
302 electrical connections;Memory 316 stores the corresponding multiple Depth of sleep sections of first state and each Depth of sleep section pair
The pulse strength answered;Dormant data further includes Depth of sleep;When sleep state is first state, the first control module 302 exists
Memory 316 obtains the corresponding multiple Depth of sleep sections of first state and the corresponding pulse in each Depth of sleep section is strong
Degree, according to the affiliated Depth of sleep section of the Depth of sleep of monitored target, obtains corresponding pulse strength, utilizes the arteries and veins got
It rushes intensity and generates sleeping instruction, instructed using sleeping and set sleeping mode for the operating mode of sleep-aid device 206, fill sleeping
Set 206 according to sleeping instruct in pulse strength generate pulse signal.
Dormant data further includes Depth of sleep.Depth of sleep refer to monitored target sleep go deep into degree, being can be with table
Levy the dormant parameter value of monitored target.Monitoring device 204 is according to the Depth of sleep of monitored target, to sleep-aid device
The pulse strength of 206 generation pulse signals is controlled.Specifically, monitoring device 204 has been pre-stored multiple sleep in memory 316
The corresponding pulse strength of dormancy depth intervals and each Depth of sleep section.When sleep state is first state, expression is supervised
Surveying the sleep of object current generation, to go deep into degree weaker, needs sleep-aid device to carry out sleeping, monitoring device 204 obtains pre-stored
The corresponding pulse strength in multiple Depth of sleep sections and each Depth of sleep section, it is deep according to the current sleep of monitored target
Depth of sleep section belonging to degree, inquires corresponding pulse strength.Monitoring device 204 is helped using the pulse strength generation got
Sleep instruction, make sleep-aid device 206 according to sleeping instruct in pulse strength generate pulse signal, thus the pulse to pulse signal
Intensity is adjusted.
In the present embodiment, monitoring device generates pulse signal to sleep-aid device according to the Depth of sleep of monitored target
Pulse strength is controlled, so that the pulse strength of pulse signal adapts to the current Depth of sleep of monitored target, reaches a kind of
Preferable sleeping effect, also reaches a kind of equilibrium between sleeping effect and power consumption.
In one embodiment, monitoring device 204 acquires monitoring device information in the flrst mode;Monitoring device packet
Include at least one in the first charge information or first version information of monitoring device 204;It is sent when receiving monitoring device 202
The second synchronic command when, monitoring device information is sent to monitoring device 202 by monitoring device 204;Make 202 basis of monitoring device
First charge information generates low capacity prompt;Upgraded when receiving monitoring device 202 according to the monitoring that first version information is sent
When instruction, monitoring upgrade command carries monitoring upgrade package, and monitoring device 204 carries out edition upgrading using monitoring upgrade package.
In the flrst mode, monitoring device 204 is not only acquired the first sleep parameters of monitored target, also to prison
The monitoring device information for surveying device is acquired.Monitoring device information includes the first charge information or first of monitoring device 204
At least one of in version information.Wherein, the first charge information includes current electric quantity and charged state of monitoring device 204 etc..
The application program for parameter acquisition, Parameter analysis etc. is run in monitoring device 204, first version information refers to this using journey
The version number etc. of sequence.It is readily appreciated that, monitoring device information can also include other information, such as the product serial of monitoring device 204
Number, the address Mac (Medium Access Control, physical address) etc., with no restriction to this.Monitoring device 204 is to receiving
Monitoring device information be shown, and according to the monitoring device information received, judge the application program in monitoring device 204
Whether edition upgrading is needed, when needing to carry out edition upgrading, obtain corresponding monitoring upgrade package, generated using monitoring upgrade package
Upgrade command is monitored, monitoring upgrade command is sent to monitoring device 204, makes monitoring device 204 using monitoring upgrade package to fortune
Capable application program carries out edition upgrading.
In the present embodiment, monitoring device is not only acquired the first sleep parameters of monitored target, also sets to monitoring
Standby information is acquired, and monitored target can be directly acquainted with the monitoring devices such as the electricity of monitoring device letter by monitoring device
Breath, safeguards monitoring device convenient for monitored target.Monitoring device automatically can fill monitoring according to monitoring device information
The application program set carries out edition upgrading, it is possible to reduce the time cost of manual maintenance monitoring device.
In one embodiment, monitoring device 204 sends the first synchronic command to sleep-aid device 206 in the flrst mode,
Receive the sleeping facility information that sleep-aid device 206 is sent according to the first synchronic command;Sleeping facility information includes sleep-aid device 202
The second charge information, in second edition information or exception error code at least one of;When receive monitoring device 202 transmission
When the second synchronic command, sleeping facility information is sent to monitoring device 202 by monitoring device 204, makes monitoring device 202 according to
Two charge informations generate low capacity prompt, or generate the prompt of the corresponding overcurrent of sleep-aid device 206 or mistake according to exception error code
Temperature prompt;When receiving the sleeping upgrade command that monitoring device 202 is sent according to second edition information, monitoring device 204 is torn open
Except the communication link between sleep-aid device 206, communication link is established between monitoring device 202 and sleep-aid device 206, to sleeping
Device 206 carries out edition upgrading.
Under sleeping mode or monitoring pattern, sleep-aid device 206 not only carries out the second sleep parameters of monitored target
Acquisition, is also acquired the sleeping facility information of sleep-aid device 206.Sleeping facility information includes the second of sleep-aid device 206
At least one of in charge information, second edition information or exception error code.Wherein, the second charge information includes sleep-aid device
206 current electric quantity and charged state etc..The application journey for parameter acquisition, sleeping control etc. has been run on sleep-aid device 206
Sequence, second edition information refer to the version number etc. of the application program.Exception error code can be sleep-aid device 206 and get electric current
After information and temperature information, and current information and temperature information are compared with preset current threshold and temperature threshold respectively
It obtains.Wherein, current threshold and temperature threshold can be freely arranged according to actual needs respectively, as current threshold can be
3A, temperature threshold can be 70 DEG C.It is readily appreciated that, sleeping facility information can also include other information, such as sleep-aid device 206
Product ID, address Mac etc., with no restriction to this.
Monitoring device 202 is shown the sleeping facility information received, and low in the current electric quantity of sleep-aid device 206
Low capacity prompt is generated when threshold value, or is mentioned according to the generation corresponding overcurrent of sleep-aid device 206 prompt of exception error code or excess temperature
Show.In another embodiment, the exception error code that monitoring device 204 is reported according to sleep-aid device 206 controls sleep-aid device
206 enter suspend mode, break-off, to reduce the loss and overcurrent or excess temperature bring security risk of sleep-aid device 206.
In yet another embodiment, second control module 402 is helped the second parameter collection module 404 is collected in sleep-aid device 206
The operating current or operating temperature of dormancy device 206 are more than threshold value, generate abnormality detection code, and control and prompt according to abnormality detection code
Module 414 carries out excess temperature prompt or overcurrent prompt.
Monitoring device 202 judges the application program on sleep-aid device 206 according to the second edition information of sleep-aid device 206
Whether edition upgrading is needed.When needing to carry out edition upgrading, monitoring device 202 disconnects the network between monitoring device 204
Connection, is connect between sleep-aid device 206 by wireless network or cable network.Monitoring device 202 obtains corresponding sleeping liter
Grade packet generates sleeping upgrade command using sleeping upgrade package, sleeping upgrade command is sent to sleep-aid device 206, fills sleeping
It sets 206 and carries out edition upgrading using application program of the sleeping upgrade package to operation.
In the present embodiment, sleep-aid device is not only acquired the second sleep parameters of monitored target, also sets to sleeping
Standby information is acquired, and monitored target can be directly acquainted with the prison such as electricity, electric current, temperature of sleep-aid device by monitoring device
Measurement equipment information, and relevant prompt is generated according to monitoring device information, monitoring device is safeguarded convenient for monitored target.
Monitoring device can carry out edition upgrading to the application program on sleep-aid device automatically according to sleeping facility information, it is possible to reduce people
The time cost of work maintenance sleep-aid device.
In one embodiment, monitoring device 202 sends the second synchronic command to monitoring device 204, receives monitoring device
204 facility informations returned according to the second synchronic command;Facility information has corresponding user identifier;Dormant data, which has, to be corresponded to
User identifier;Monitoring device 202 obtains the corresponding dormant data of multiple user identifiers and facility information, to the multiple groups got
Dormant data and facility information carry out big data analysis, are generated based on the analysis results to monitoring device 204 and/or sleep-aid device
File is guided in 206 improvement, guides file to be sent to designated equipment for improving, and improves and guides file record device Improvement requirement
Information.
The product quality of monitoring device 204 and sleep-aid device 206 in order to better improve, server 2024 is according to default week
Phase requests according to the big data analysis of designated equipment, is extracted in the database to the corresponding dormant data of multiple user identifiers
And facility information, big data analysis is carried out to the multiple groups dormant data and facility information got.Predetermined period can be according to reality
Border demand is freely arranged, such as 3 months.Designated equipment refers to that 204 manufacturer of monitoring device and/or sleep-aid device 206 produce
The corresponding computer equipment of manufacturer.It should be noted that the dormant data in the present embodiment can not only include above-mentioned implementation
The dormant data analyzed according to the first sleep parameters and the second sleep parameters of monitoring device 204 in example can also include the
One sleep parameters and the second sleep parameters itself, and to the Study document that dormant data is analyzed.Facility information includes prison
Measurement equipment information and sleeping facility information.
Server 2024 carries out big data analysis to multiple groups dormant data.Specifically, server 2024 is according to getting
Multiple groups dormant data determines target dormant data.In other words, server 2024 calculates the average value of multiple groups dormant data, by this
Average value is as target dormant data.Target dormant data is sleep quality monitoring system provided in this embodiment to judge quilt
The a reference value of monitoring object sleep quality.Server 2024 reads pre-stored baseline dormant data in the database.Baseline
Data can be the normal value of the dormant data according to as defined in professional standard or medical practice.Baseline dormant data can be data
Section.The target dormant data that server 2024 will acquire is compared with baseline dormant data, is generated according to comparison result
File is guided in the improvement that monitoring parameters benchmark is adjusted, and guides file to be sent to specified set the improvement that monitoring parameters benchmark is adjusted
Standby, the improvement for showing monitoring device 204 and/or 206 manufacturer of sleep-aid device according to designated equipment guides file to prison
Survey the first sleep parameters or calibrate to the sleep analysis model for analyzing dormant data that device 204 acquires;Or root
It is calibrated according to the second sleep parameters that the improvement guides file to acquire sleep-aid device 206.
Server 2024 also carries out big data analysis to multiple groups facility information.Specifically, server 2024 is believed according to equipment
Product ID etc. in breath grabs multiple monitoring devices 204 from website using the page parsing technology of web crawlers respectively and helps
The corresponding comment information of dormancy device 206 guides file according to the improvement of comment information generating means performance, by changing for device performance
Into guiding file to be sent to designated equipment, allow monitoring device 204 and/or 206 manufacturer of sleep-aid device according to designated equipment
The improvement of displaying guides file to be adjusted the hardware configuration of monitoring device 204 and/or sleep-aid device 206, or to monitoring
Application program on device 204 and/or sleep-aid device 206 is upgraded.It is readily appreciated that, to multiple groups dormant data and facility information
The mode of big data analysis is there are also very much, and details are not described herein.
In the present embodiment, big data analysis is carried out to the multiple groups dormant data and facility information got, is tied according to analysis
Fruit guides the improvement of monitoring device and sleep-aid device, convenient for the producer of monitoring device and sleep-aid device to monitoring
It the problem of device and sleep-aid device are safeguarded, be can be improved to monitoring device and sleep-aid device system problem discovery time and asks
The key to exercises is determined the time, so as to reduce the time cost of manual maintenance monitoring device and sleep-aid device.
Each technical characteristic of above embodiments can be combined arbitrarily, for simplicity of description, not to above-described embodiment
In each technical characteristic it is all possible combination be all described, as long as however, the combination of these technical characteristics be not present lance
Shield all should be considered as described in this specification.
Above embodiments only express the several embodiments of the application, and the description thereof is more specific and detailed, but can not
Therefore it is interpreted as the limitation to claim.It should be pointed out that for those of ordinary skill in the art, In
Under the premise of not departing from the application design, various modifications and improvements can be made, these belong to the protection scope of the application.
Therefore, the scope of protection shall be subject to the appended claims for the application patent.
Claims (10)
1. a kind of monitoring device of sleep quality, which is characterized in that including the first communication mould being integrated in wearable device
Block, the first parameter collection module and the first control module;The first communication module and first parameter collection module difference
It is electrically connected with first control module;
First parameter collection module includes the heart rate module for acquiring the hrv parameter of monitored target, acquires described be monitored
First body of object moves in the myoelectricity module of the acceleration transducer of parameter or the myoelectricity parameter of the acquisition monitored target
At least one of;The heart rate module is electrically connected with first control module, the acceleration transducer and first control
Module electrical connection;The myoelectricity module includes electrode and filter amplification circuit, and the electrode is electrically connected with the filter amplification circuit
It connects, the filter amplification circuit and first control module electrical connection;
The first communication module includes bluetooth module or Wi-Fi module;First control module controls the bluetooth module
Or the hrv parameter collected, the first body are moved parameter to Wi-Fi module and myoelectricity parameter is sent to monitoring device.
2. monitoring device according to claim 1, which is characterized in that the monitoring device further includes loudspeaker or LED light;
The loudspeaker or LED light prompt monitored target.
3. monitoring device according to claim 1, which is characterized in that the monitoring device further includes to described monitored pair
Wearing detection module as wear detection;The wearing detection module is electrically connected with first control module.
4. monitoring device according to claim 1, which is characterized in that the monitoring device further includes memory;It is described to deposit
Reservoir is electrically connected with first control module.
5. a kind of sleep quality monitors system, which is characterized in that including monitoring device described in Claims 1 to 4 any one,
It further include sleep-aid device and monitoring device;The monitoring device is electrically connected with the monitoring device respectively with the sleep-aid device;
The sleep-aid device includes the second communication module being integrated in bedding, the second parameter collection module and the second control
Module;The second communication module and second parameter collection module are electrically connected with second control module respectively;It is described
Second parameter collection module includes that the second body of the dynamic parameter of the second body for acquiring the monitored target moves parameter detection module;Institute
State the second body move parameter detection module include in infrared sensor or range sensor at least one of;Second body moves parameter
Detection module is electrically connected with second control module;Second control module controls the second communication module for acquisition
Second body moves parameter and is sent to the monitoring device.
6. system according to claim 5, which is characterized in that the monitoring device includes terminal.
7. system according to claim 5, which is characterized in that the monitoring device passes through local area network, wide area network or movement
Network is connect with the monitoring device.
8. system according to claim 5, which is characterized in that the sleep-aid device further includes for generating pulse signal
Pulse sleeping module;The pulse sleeping module is electrically connected with second control module.
9. system according to claim 5, which is characterized in that the sleep-aid device further includes carrying out low capacity prompt, mistake
The cue module of stream prompt or excess temperature prompt;The cue module is electrically connected with first control module;The cue module
Including loudspeaker or LED light.
10. system according to claim 5, which is characterized in that second parameter collection module includes electric power detection mould
At least one of in block, current detection module or temperature detecting module;The electric power detection module and second control module
Electrical connection;The current detection module is electrically connected with second control module;The temperature detecting module and second control
The electrical connection of molding block.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112190419A (en) * | 2020-09-11 | 2021-01-08 | 深圳数联天下智能科技有限公司 | Sleep management method and device |
CN115153251A (en) * | 2021-04-02 | 2022-10-11 | 江苏里高智能家居有限公司 | Electric bed control box and electric bed |
WO2022226909A1 (en) * | 2021-04-29 | 2022-11-03 | 京东方科技集团股份有限公司 | Sleep data processing method and apparatus, and computer device, program and medium |
-
2017
- 2017-12-21 CN CN201721812380.4U patent/CN209547960U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112190419A (en) * | 2020-09-11 | 2021-01-08 | 深圳数联天下智能科技有限公司 | Sleep management method and device |
CN115153251A (en) * | 2021-04-02 | 2022-10-11 | 江苏里高智能家居有限公司 | Electric bed control box and electric bed |
WO2022226909A1 (en) * | 2021-04-29 | 2022-11-03 | 京东方科技集团股份有限公司 | Sleep data processing method and apparatus, and computer device, program and medium |
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Address after: 518101 16 floor, block B, long Guang Century Towers, south of Xinghua Road, Xin'an, Baoan District, Shenzhen, Guangdong. Patentee after: Perth Sleep Technology (Shenzhen) Co., Ltd. Address before: 518101 16 floor, block B, long Guang Century Towers, south of Xinghua Road, Xin'an, Baoan District, Shenzhen, Guangdong. Patentee before: Fast Sleep Innovation Technology (Shenzhen) Co., Ltd. |
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