CN209347880U - A kind of sleeping and anti-apnea device - Google Patents

Abstract

The utility model discloses a kind of sleeping and anti-apnea device.Described device includes: pillow body, the microprocessor being mounted in pillow body and the bio-signal acquisition module being connected with microprocessor, sleeping module, sound of snoring detection module and wake-up module.Microprocessor is used for according to the heartbeat signal, breath signal and the body movement signal that are inputted by bio-signal acquisition module or the sound of snoring signal inputted by sound of snoring detection module, whether judgment means user is in sleep state, if device user is not on sleep state, starting sleeping module makes device user quickly fall asleep；Whether there is apnea phenomenon according to the sound of snoring signal judgment means user inputted by sound of snoring detection module, if there is apnea phenomenon, starts wake-up module Rouser user.The utility model can automatically detect whether device user falls asleep, and make one to fall asleep as early as possible by starting sleeping module；It effectively can also detect and prevent the apnea phenomenon occurred in sleep procedure.

Description

A kind of sleeping and anti-apnea device

Technical field

The utility model belongs to the field of medical instrument technology, and in particular to a kind of sleeping and anti-apnea device.

Background technique

The mankind expend the life of about one third in sleep, and sleep helps to restore physical efficiency and energy, sleep are raw The needs of life are the indispensable important contents of health.With the rapid development of society, people's lives rhythm is also increasingly Fastly, the pressure of receiving is also bigger, and various pressure result in different degrees of sleeping problems, for example, insomnia, hypnosia, sleep-walking Disease, restless leg syndrome, apnea syndrome etc..Therefore, have for experience sleep disturbance and due to particular event For the people for there are short-term sleeping problems, it is very necessary to improve sleep quality.In addition, some people are likely to occur in sleep procedure and exhale Break-off phenomenon is inhaled, if may threat to life safety when waking up not in time.

Utility model content

In view of this, the sleep state of people can be monitored the utility model proposes a kind of sleeping and anti-apnea device, It makes one to enter sleep state as early as possible, and effectively can detect and prevent the apnea phenomenon occurred in sleep procedure.

To achieve the above objectives, the present invention adopts the following technical solutions:

A kind of sleeping and anti-apnea device, comprising: pillow body, the microprocessor being mounted in pillow body and Bio-signal acquisition module, sleeping module, sound of snoring detection module and the wake-up module being connected with microprocessor.Microprocessor is used for It is inputted according to the heartbeat signal, breath signal and the body movement signal that are inputted by bio-signal acquisition module or by sound of snoring detection module Whether sound of snoring signal, judgment means user are in sleep state, if device user is not on sleep state, starting is helped Dormancy module makes device user quickly fall asleep；According to the sound of snoring signal judgment means user inputted by sound of snoring detection module whether There is apnea phenomenon, if there is apnea phenomenon, starts wake-up module Rouser user.

Compared with prior art, the utility model has the following beneficial effects:

The utility model proposes a kind of sleeping and anti-apnea device, by setting pillow body, be mounted on pillow Intrinsic microprocessor and the bio-signal acquisition module being connected with microprocessor, sleeping module, sound of snoring detection module and Wake-up module, can automatically detect whether device user is in sleep state, if being not on sleep state, start sleeping Module makes device user quickly fall asleep；Can automatically detect device user, that apnea whether occurs in sleep procedure is existing As starting wake-up module Rouser user in case of apnea phenomenon.

Detailed description of the invention

Fig. 1 is the block diagram of a kind of sleeping of the utility model embodiment and anti-apnea device.

In figure: 1- microprocessor, 2- bio-signal acquisition module, 21- jogging sensor, 22- signal conditioning circuit, 23- Filter group, 3- sleeping module, 31- bone conduction earphone, 32- body-sensing vibration device, 4- sound of snoring detection module, 5- wake-up module.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing.

The block diagram of the sleeping of the utility model embodiment one kind and anti-apnea device is as shown in Figure 1, comprising: pillow sheet Body, the microprocessor 1 being mounted in pillow body and the bio-signal acquisition module 2 being connected with microprocessor 1, sleeping module 3, sound of snoring detection module 4 and wake-up module 5.Microprocessor 1 is used to be believed according to the heartbeat inputted by bio-signal acquisition module 2 Number, breath signal and body movement signal or the sound of snoring signal inputted by sound of snoring detection module 4, whether judgment means user, which is in, is slept Dormancy state, if device user is not on sleep state, starting sleeping module 3 makes device user quickly fall asleep；According to Whether the sound of snoring signal judgment means user inputted by sound of snoring detection module 4 there is apnea phenomenon, if there is breathing Break-off phenomenon starts 5 Rouser user of wake-up module.

In the present embodiment, described device is mainly made of pillow body and the electronic circuit being mounted in pillow body. Electronic circuit includes microprocessor 1 and the bio-signal acquisition module 2 being connected with microprocessor 1, sleeping module 3, sound of snoring inspection Survey module 4 and wake-up module 5.Bio-signal acquisition module 2 is for extracting physiology from the vibration signal on device user head Signal.Physiological signal in the present embodiment includes heartbeat signal, breath signal and body movement signal.Heartbeat signal and breath signal amount Refer to the fluctuating signal with heartbeat and synchronized with breath respectively；Body movement signal be by headwork generate signal, signal characteristic with Sleep depth has certain correlation, and general sleep is deeper, and body moves smaller.Heartbeat signal, breath signal in the present embodiment and Body movement signal is used for the sleep quality of monitoring device user, certainly can also be according to the characteristic parameter (amplitude of these three signals Frequency etc.) judge whether in sleep state.The present embodiment uses three kinds of signals to judge whether in sleep state simultaneously, can be with Improve the accuracy rate of judgement.Sound of snoring detection module 4 is for obtaining sound of snoring signal.On the one hand sound of snoring signal can be used to judgment means Whether user is in sleep state, such as the sound of snoring normally i.e. it is believed that having fallen asleep；Another aspect may further be used to It is no normally to judge whether apnea phenomenon occur.Sleeping module 3 is used to help device user and quickly falls asleep, and generally passes through production The raw audio signal with syngignoscism and/or vibration signal are realized.Sleeping module 3 is generally just lain down standard in device user Standby unlatching when the long period cannot fall asleep during sleep or after lying down.Wake-up module 5 is used for Rouser user, is typically also logical It crosses generation audio signal and/or vibration signal is realized, unlike sleeping module 3, the audio signal of the generation of wake-up module 5 And/or vibration signal should be the stronger signal of irritation.Wake-up module 5 is when detecting that apnea occurs in device user Starting, Rouser user, to prevent there is life danger.

Preferably, it includes: the detection of the real-time detection sound of snoring that whether judgment means user, which the method for apnea phenomenon occurs, The sound of snoring signal that module 4 exports, if not detecting sound of snoring signal within the set time, device user breathing is temporary Stop.

Preferably, whether judgment means user is in dormant method and includes:

From just lying down constantly device user, calculate current calculation cycle in heartbeat signal average frequency value X (n), The average frequency value Y of breath signal₁(n) and amplitude average value Y₂(n), the amplitude average value Z (n) of body movement signal, n are to calculate week Phase serial number, n=1,2 ... ...；And calculate separately the average frequency value of heartbeat signal in m calculating cycle before state of not falling asleepThe average frequency value of breath signalAnd amplitude average valueThe amplitude average value of body movement signalT is calculating cycle；

The amplitude of real-time measurement sound of snoring signal and period；

If formula (1) is set up or the amplitude of sound of snoring signal and period are in the range of setting, at device user In sleep state；Otherwise, device user is not on sleep state；

In formula (1), x₀、y₁₀、y₂₀And z₀It indicates threshold value, is the constant less than 1.Calculating cycle T, m and threshold value x₀、 y₁₀、y₂₀And z₀Size experiment determines rule of thumb or repeatedly.One group of value is given below for reference: T=1 minutes, m=10, x₀=y₁₀=y₂₀=0.1, z₀=0.3.

As a kind of alternative embodiment, the bio-signal acquisition module 2 includes the jogging sensor 21 being sequentially connected, letter Number conditioning circuit 22 and filter group 23.

This gives a kind of technical solutions of bio-signal acquisition module 2.In the present embodiment, physiological signal is examined Module 2 is surveyed mainly to be made of the jogging sensor 21, signal conditioning circuit 22 and filter group 23 being sequentially connected.If micro process Do not include A/D circuit in device 1, level-one A/D circuit should be also set behind filter group 23 and convert analog signals into number Signal.Jogging sensor 21 is used to obtain the analog signal comprising heartbeat signal, breath signal and body movement signal.Jogging sensor The signal of 21 outputs is generally weaker, and signal conditioning circuit 22 is exactly for believing the faint simulation that jogging sensor 21 exports The processing such as number amplify.Filter group 23 is used for special according to heartbeat signal, the breath signal frequency spectrum different with body movement signal Property, by the different bandpass filter of three centre frequencies of setting, isolate these three physiological signals.It is of course also possible to use Software filtering technical substitution filter group 23, for example, realizing digital filtering by Fast Fourier Transform (FFT) to extract three kinds of lifes Manage signal.In order to effectively obtain physiological signal, jogging sensor 21 generally selects highly sensitive piezoelectric film sensor.

As a kind of alternative embodiment, the sound of snoring detection module 4 includes the sound pick-up being connected with microprocessor 1.

This gives a kind of technical solutions of sound of snoring detection module 4.In the present embodiment, it is obtained using sound pick-up Sound of snoring signal.Microphone can be selected in sound pick-up, such as Lou Shi bone-conduction microphone.

As a kind of alternative embodiment, the sleeping module 3 include the bone conduction earphone 31 being connected with microprocessor 1 and/ Or body-sensing vibration device 32, bone conduction earphone 31 are used to play the audio signal with syngignoscism, body-sensing vibration device 32 is for leading to It crosses and generates function for assisting sleep with the audio signal synchronous vibration.

This gives a kind of technical solutions of sleeping module 3.In the present embodiment, sleeping module 3 includes at least The combination of one of bone conduction earphone 31 and body-sensing vibration device 32 or both.Bone conduction earphone 31 utilizes the principle of music hypnogenesis Sleeping can be selected and select Sen Haisaier (Sennheiser) earphone.Body-sensing vibration is a kind of emerging hypnosis mode, is related to sound Pleasure, acoustics, physics, biology, psychology and medicine etc., be by way of " physical perception music ", by music 16~ The low frequency signal of 150Hz is converted into vibrating by physics transducing, by " bone conduction effect " and psychology, physiological double stimuli, Brain centres can be activated in a short time, the rapid body and mind pleasure for obtaining high quality is made one and loosens, and be effectively improved insomnia, coke The symptoms such as worry, depression, physical psychological, and realize a series of rehabilitation physical therapy effect and health-care effect.Body-sensing vibration device 32 is optional Electrodynamic type (moving-coil type) music low frequency vibrator must be leaned on pleasure.

As a kind of alternative embodiment, the wake-up module 5 includes the wake-up vibrator being connected with microprocessor 1.

This gives a kind of technical solutions of wake-up module 5.In the present embodiment, wake-up module 5 is mainly by calling out Vibrator of waking up forms, and passes through to generate and vibrates Rouser user.Waking up vibrator can be selected SHICOH phone vibrator.When So, wake-up module 5 can also pass through sounding Rouser user using sound circuit.

As a kind of alternative embodiment, described device further includes being mounted in pillow body to deposit with what microprocessor 1 was connected Reservoir.

In the present embodiment, it is also provided with the memory for being mounted on and being connected in pillow body with microprocessor 1 (in Fig. 1 not It draws).The purpose that memory is arranged is to save the data such as physiological signal, is analyzed after being provided with.Although general in microprocessor 1 Also there is certain memory space, but need to be arranged the external memory of large capacity when data volume is bigger.

As a kind of alternative embodiment, described device further includes being mounted on leading to of being connected in pillow body with microprocessor 1 Believe module.

In the present embodiment, the communication module for being mounted on and being connected in pillow body with microprocessor 1 is also provided with (in Fig. 1 It is not drawn into).Communication module is used to send host computer for data such as physiological signals, to be analyzed and to be monitored.

The utility model embodiment is above-mentioned to be only illustrated several specific embodiments in the utility model, but can not As the protection scope of the utility model, equivalent change or modification that all design spirits according in the utility model are made Or equal proportion zooms in or out, and is deemed to fall the protection scope of the utility model.

Claims (7)

1. a kind of sleeping and anti-apnea device characterized by comprising pillow body is mounted on micro- in pillow body Processor and the bio-signal acquisition module being connected with microprocessor, sleeping module, sound of snoring detection module and wake-up module；It is micro- Processor is used for according to heartbeat signal, breath signal and the body movement signal inputted by bio-signal acquisition module or is detected by the sound of snoring The sound of snoring signal of module input, whether judgment means user is in sleep state, if device user is not on sleep State, starting sleeping module make device user quickly fall asleep；According to the sound of snoring signal judgement dress inputted by sound of snoring detection module It sets whether user apnea phenomenon occurs, if there is apnea phenomenon, starts wake-up module Rouser user.

2. sleeping according to claim 1 and anti-apnea device, which is characterized in that the bio-signal acquisition module Including the jogging sensor, signal conditioning circuit and filter group being sequentially connected.

3. sleeping according to claim 1 and anti-apnea device, which is characterized in that the sound of snoring detection module includes The sound pick-up being connected with microprocessor.

4. sleeping according to claim 1 and anti-apnea device, which is characterized in that the sleeping module include with it is micro- Processor connected bone conduction earphone and/or body-sensing vibration device, bone conduction earphone, which is used to play the audio with syngignoscism, to be believed Number, body-sensing vibration device is used for by generating function for assisting sleep with the audio signal synchronous vibration.

5. sleeping according to claim 1 and anti-apnea device, which is characterized in that the wake-up module include with it is micro- The connected wake-up vibrator of processor.

6. sleeping described in any one and anti-apnea device according to claim 1~5, which is characterized in that described device It further include being mounted on the memory being connected in pillow body with microprocessor.

7. sleeping described in any one and anti-apnea device according to claim 1~5, which is characterized in that described device It further include being mounted on the communication module being connected in pillow body with microprocessor.