CN114768042A - Household sleep-assisting system - Google Patents

Abstract

The invention discloses a household sleep-aiding system which comprises a sleep-aiding support body and sleep-aiding detection equipment, wherein a somatosensory device is arranged in the flexible support body, the sleep-aiding detection equipment comprises a sleep data acquisition sensor and a sleep monitoring host, a sleep quality judgment module and an intelligent adjustment module are arranged in the sleep monitoring host, and the intelligent adjustment module is in driving connection with the somatosensory device. The invention can realize the association between the sleep quality monitoring and the somatosensory device and realize the adjustment of the intelligent somatosensory device to adapt to the current sleep state, thereby meeting the requirements of improving sleep quality by helping sleep. The body feeling device can realize the same frequency resonance of sound waves and vibration waves, the surface contact comfort level is met, and the sound waves and the vibration waves are coordinated to improve the sleep aiding effect. The method meets the adaptive gradient adjustment requirement on the sound wave vibration waves, adapts to the intelligent scheduling of various demanders, and has high economic value and popularization and application value.

Description

Household sleep-assisting system

Technical Field

The invention relates to a household sleep-assisting system, and belongs to the technical field of sleep quality monitoring and improvement.

Background

The causes of sleep quality degradation are varied, for example: noise, air pollution, disease, refreshing drinks, irregular work and rest, entertainment disturbance, fatigue, mood induction and the like. Physiological feedback is mainly the active control state of the autonomic nerves, which can be divided into sympathetic and parasympathetic nerves.

Vegetative nerve disturbance this term is perhaps unknown, but insomnia and anxiety are well known, and our sleep is regulated mainly by the vegetative nervous system, and there are three general ways to cause our insomnia: firstly, excessive excitation of sympathetic nerves can cause the symptoms of easy tension, anxiety, dysphoria, uneasiness, palpitation, tinnitus and the like of people, even can be accompanied by an agony feeling, and meanwhile, metabolism can be accelerated, so that energy consumption is very fast; secondly, parasympathetic neurasthenia, namely the vagus nerve, can help people to quickly keep cool and quiet and rationally deal with the problem for maintaining the physiological needs during quiet, is in an opposite relationship with the sympathetic nerve, and can directly determine the quality of sleep of a person due to the strength of parasympathetic inhibition capability; third, parasympathetic neurasthenia and sympathetic hyperactivity coexist, resulting in an overnight insomnia.

At present, various sleep monitoring devices exist, various data acquisition during sleep is generally required to be carried out through a plurality of sensors, and the data acquisition comprises information data adoption such as electroencephalogram, electrocardio, heart rate, myoelectricity, electrodermal, blood pressure, body temperature, respiratory rate, audio frequency, video frequency and the like, so that the sleep quality is comprehensively judged. The household sleep monitoring equipment generally collects bioelectricity, heart rate and respiratory rate, and corresponding sleep quality judgment is carried out through the bioelectricity, the heart rate and the respiratory rate information, but the monitoring equipment can only carry out sleep quality judgment, and does not promote the improvement of the sleep quality.

The improvement of the sleep quality needs to be realized through an interventional scheme, for example, through medicines, psychological intervention and sleep-aid equipment, wherein the medicines have the strongest intervention for improving the sleep quality, but have certain influence, and meanwhile, certain resistance and physiological disorder phenomena easily occur.

Sleep-aiding devices are also of a wide variety, and currently, it is more popular to aid sleep for audio, for example: various sounds such as wind ring, wind sound, rain sound and the like are combined to form sleep-assisting sound, so that a certain sleep-assisting effect is achieved.

Chinese patent applications, publication nos. CN108013680A, CN112021858A, CN204838781U, and CN211657811U, disclose various sleep-aiding devices, including somatosensory sleep-aiding with music and vibration, music sound wave sleep-aiding, heating sleep-aiding, etc., which utilize sound, wave, and heat to realize intervention, and thus have a certain sleep-aiding effect.

Sound, ripples, heat possess certain regulatory action to sympathetic nerve, can play sympathetic nerve's excessive excitement and alleviate to play the effect of helping sleeping, but the intervention effect that traditional help sleep equipment is relatively poor, hardly carries out corresponding adjustment according to sleeper actual conditions, and sound, ripples combination effect are relatively poor simultaneously, have restricted body and have felt the comfort level.

Disclosure of Invention

The invention aims to solve the defects of the prior art and provides a household sleep-assisting system aiming at the problems of single application, poor body feeling comfort level and poor sleep-assisting effect of the traditional sleep-assisting equipment.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the household sleep-aiding system comprises a sleep-aiding support body and sleep-aiding detection equipment, wherein the sleep-aiding support body is a flexible support body which supports and contacts with a human body,

the built-in body that is used for providing sound wave and vibration wave of flexible support body feels the device, help dormancy check out test set including be used for gathering sleep data acquisition sensor and with sleep data acquisition sensor reaches the sleep monitor host computer that the device communication is connected respectively is felt to the body, be equipped with in the sleep monitor host computer and be used for the basis sleep data acquisition sensor data acquisition carries out sleep quality judgement module, be used for the basis that sleep quality judgement module's judgement data carries out the intelligent regulation module that corresponding intelligent regulation instruction generated, intelligent regulation module with body feels the device and drives mutually and connect.

Preferably, the sleep data collected by the sleep data collecting sensor at least comprises brain electricity, heart rate and respiratory rate.

Preferably, the sleep quality judging module is provided with a plurality of sleep monitoring grades with gradient differences, the intelligent adjusting module is internally provided with monitoring adjusting driving grades which are in one-to-one correspondence with the sleep monitoring grades,

and a logic sequence instruction executed according to the gradient level sequence and a time instruction aiming at any monitoring and adjusting driving level are arranged in the intelligent adjusting module.

Preferably, a sleep monitoring database and an intelligent matching operation module for matching the currently acquired sleep data with the sleep monitoring database and generating a current sleep monitoring grade are arranged in the sleep quality judgment module.

Preferably, a somatosensory device driving database and a historical record database which are used for calling the somatosensory device are arranged in the intelligent adjusting module, and the historical record data are sleep data change record data after the somatosensory device is adjusted.

Preferably, the motion sensing device driving database comprises a plurality of motion sensing control data packets, and any one of the motion sensing control data packets at least comprises sound wave data, sound wave frequency and vibration wave frequency.

Preferably, the sleep monitoring host comprises at least one of a mobile phone end, an internet of things cloud end and a computer end.

Preferably, the somatosensory device comprises a resonant plate, the resonant plate comprises two wing plates which are arranged in mirror symmetry, a loudspeaker is arranged at the bottom of any wing plate, and a plurality of resonant rib plates are arranged on any wing plates.

Preferably, the flexible supporting body comprises a mattress and a pillow, the resonance plate is arranged in the mattress, and the sleep data acquisition sensor is arranged in the pillow.

Preferably, a temperature control body is arranged in the flexible support body, and the temperature control body is in communication connection with the sleep monitoring host.

The invention has the following beneficial effects:

1. the relevance of sleep quality monitoring and the somatosensory device can be realized, and the intelligent somatosensory device is adjusted to adapt to the current sleep state, so that the requirements of assisting sleep and improving sleep quality are met.

2. The body feeling device can realize the same-frequency resonance of sound waves and vibration waves, the surface contact comfort level is met, and the sound waves and the vibration waves are coordinated to improve the sleep aiding effect.

3. The method meets the adaptive gradient adjustment requirement on the sound wave vibration waves, adapts to the intelligent scheduling of various demanders, and has higher economic value and popularization and application value.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 is a schematic structural diagram of a household sleep-assisting system.

Fig. 2 is a schematic structural diagram of a body sensing device in the home sleep-aiding system.

Fig. 3 is a matching table diagram of sleep monitoring level and monitoring adjustment driving level in the household sleep-aiding system.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The present application will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings. It should be noted that, in the present application, the embodiments and features of the embodiments may be combined with each other without conflict.

The invention provides a household sleep-aiding system, which comprises a sleep-aiding support body 1 and sleep-aiding detection equipment 2, wherein the sleep-aiding support body 1 is a flexible support body which supports and contacts a human body.

Specifically, the sleep is generally performed on a bed, but may be performed on a sofa or a carpet, and the sleep-assisting support 1 in this case only needs to be in contact with a human body, and is in a flexible contact manner for comfort. In addition, the sleep-assisting detection equipment 2 can adopt hardware equipment in the prior art, can use integrated equipment such as a piezoelectric film sensor and the like, so that a large amount of data line collection and pasting operations on a human body are not needed, and the daily use routine requirements of people are met.

Specifically, the flexible support body 1 is internally provided with a body sensing device 3 for providing sound waves and vibration waves, and the sleep assisting detection device 2 comprises a sleep data acquisition sensor 4 for acquiring sleep data and a sleep monitoring host 5 which is respectively in communication connection with the sleep data acquisition sensor 4 and the body sensing device 3.

The somatosensory device 3 is used for providing sound waves and vibration waves, and is mainly used for relieving excessive excitement of sympathetic nerves to enable the sympathetic nerves to be relaxed, so that the sympathetic nerves can easily enter a sleep state, the function of the somatosensory device 3 is realized in the prior art, certainly, related optimization is realized in the scheme, the function is intensively explained in subsequent embodiments, the somatosensory device in the prior art can meet certain scheduling requirements of the scheme, and only certain defects exist in the comfort level of the somatosensory device.

In the present case, be equipped with in the sleep monitor host 5 and be used for carrying out sleep quality judgement module 51 that sleep quality was judged according to the data of sleep data acquisition sensor 4 collection, be used for carrying out the intelligent regulation module 52 that corresponding intelligent regulation instruction generated according to the judgement data of sleep quality judgement module 51, intelligent regulation module 52 is connected with body sensing device 3 looks drive.

Specifically, in general, the sleep quality determination module 51 analyzes the data collected by the current sleep data collection sensor 4 to obtain the current user status, for example: the sleep quality determination module 51 is not in the sleep state, the light sleep state, or the deep sleep state, and the determination method thereof belongs to the prior art, and the determination principle thereof is not described herein again, and it can perform the corresponding determination according to the currently acquired data.

The intelligent adjusting module 52 is used for controlling the motion sensing device 3 according to the current state, so that the sound wave and the vibration wave of the motion sensing device 3 are matched with the state of the current user.

Specifically, the sound waves and the vibration waves can generate certain physiological responses to the user, generally, the somatosensory device 3 has the function of adjusting the sound waves and the vibration waves, a use mode of manual active intervention is adopted, for example, in a high excitement state before sleep, slightly strong sound waves and vibration waves are generally adopted to interfere, in the process of continuously attenuating the excitement degree, the sound waves and the vibration waves are correspondingly adjusted, and in a specific control mode, different matching principles are formed through adjusting the volume, the vibration intensity and the music type. Thereby realizing staged matching sleep aiding and achieving the effect.

In one particular embodiment, the sleep data collected by the sleep data collection sensor includes at least brain electrical, heart rate, and respiration rate. Generally, the current sleep quality can be fed back through data acquisition of electroencephalogram, heart rate and respiratory rate.

When people enter a sleep state, the heart rate and the respiration rate are directly fed back, and the matched somatosensory device 3 is automatically adjusted according to the feedback state of the heart rate and the respiration rate.

Specifically, the sleep quality determination module 51 has a plurality of sleep monitoring levels with gradient differences, the intelligent adjustment module has monitoring adjustment driving levels corresponding to the sleep monitoring levels one to one, and the intelligent adjustment module has logic sequence instructions executed according to the gradient level sequence and time instructions for any monitoring adjustment driving level.

In one embodiment, the sleep quality determination module 51 includes six sleep monitoring levels from pre-sleep to deep sleep, which are a high level, a low level, and a deep level, respectively.

The monitoring and adjusting driving stages corresponding to the monitoring and adjusting driving stages sequentially comprise six stages, five stages, four stages, three stages, two stages and one stage, wherein the first stage is a closed body sensing device, and the strength of the body sensing device is gradually increased from one stage to six stages.

It should be noted that the logic sequence command is a logic according to which the intensity of the motion sensing device is changed from large to small, that is, when the sleep quality determination module 51 determines that a reverse level change occurs, the smart adjustment module does not perform a reverse intensity increase adjustment. When the deep sleep level is entered, the somatosensory device is not started any more, and when the hypo-contrastive level is changed to the hyper-contrastive level, the corresponding driving level is not changed any more, and only the current intensity level is maintained.

Generally, the sleep monitoring levels of the sleep quality determination module 51 are divided according to electroencephalogram, heart rate and respiratory rate, firstly, the shallow sleep level, the sub-deep sleep level and the deep sleep level are determined, when the electroencephalogram shows that the low-voltage brain wave frequency is mainly 4-7 cycles/second, the shallow sleep level is determined currently, when a transient high-voltage wave exceeding 50 microvolts appears and the frequency is 1-2 cycles/second, the sub-deep sleep is determined currently, and when the delta wave appearance time exceeds 50%, the deep sleep is determined currently.

The contrastive grade, the secondary contrastive grade and the mild grade are judged according to the change of the heart rate and the respiratory rate, and are related according to the change rate curves of the heart rate and the respiratory rate, and the method belongs to the prior art of clinical monitoring.

The intensity grade of the body sensing device is divided from strong to low according to the wave frequency and the curvature of the amplitude of the sound wave and the vibration wave.

In an embodiment, a sleep quality determination module 51 is provided with a sleep monitoring database, and an intelligent matching operation module for matching the currently acquired sleep data with the sleep monitoring database and generating a current sleep monitoring level.

The sleep monitoring database is used for storing the data acquired by the sleep data acquisition sensor 4 and matching and comparing the data during operation, and the intelligent matching and operation module can perform direct data comparison and judgment according to the currently acquired data to generate a sleep monitoring grade.

Of course, the intelligent matching operation module may adopt a certain judgment logic, that is, logic adjustment is performed according to the threshold or the threshold range of each sleep level, which is simple data comparison and analysis and is not described herein again.

In a specific embodiment, a somatosensory device driving database and a historical record database for calling the somatosensory device are arranged in the smart adjusting module 52, and the historical record data is sleep data change record data after the somatosensory device is adjusted. The motion sensing device driving database comprises a plurality of motion sensing control data packets, and any motion sensing control data packet at least comprises sound wave data, sound wave frequency and vibration wave frequency.

Specifically, the somatosensory device can correspondingly adjust the sleep-assisting instruction through sound wave data, sound wave frequency and vibration wave frequency so as to be matched with the current user state.

Generally, when the somatosensory device is used, people can correspondingly adjust sound wave data and intensity according to own preferences, similarly to listening to music, and when people listen to music and feel vibration, the human body can feed back corresponding heart rate, respiration rate and electroencephalogram related change information, historical record data are produced by collecting the change information, and the follow-up calling logic for high-correlation matching is met. It should be noted that, there is a great difference in audio data, the motion sensing device may have an audio database, the audio database may be built in the motion sensing device or the host, when the smart adjusting module 52 performs the automatic control of the relevant motion sensing device, the audio data used by the user is generally selected, and in order to improve the self-adaptation of the smart adjusting module 52 more appropriately, there is associated logic in the sound wave data, the sound wave frequency, and the vibration wave frequency in the motion sensing control data, and they are also associated with the monitoring and adjusting driving stage, for example: when the six-level to two-level audio is selected, the audio data are distributed from top to bottom and distributed in the amplitude range according to the amplitude range of the sound wave, so that the intelligent matching of the associated audio of each monitoring and adjusting driving level is realized, the audio is sequenced and classified according to certain logic amplitudes, and the sequencing and classification belong to the prior art, and are not described again.

In one embodiment, the sleep monitoring host comprises at least one of a mobile phone terminal, an internet of things cloud terminal and a computer terminal. The system can only meet the related requirements on system control, and certainly, the host end can be shared, so that control data and intelligent operation data are richer, and massive data reference can be provided.

In a preferred embodiment, the somatosensory device 3 comprises a resonance plate 31, the resonance plate 31 comprises two wing plates which are arranged in a mirror symmetry mode, a loudspeaker 32 is arranged at the bottom of any wing plate, and a plurality of resonance rib plates 33 are arranged on any wing plate.

Specifically, the traditional motion sensing device 3 is realized by adopting a point-like mode of multiple speakers 32, the contact comfort level is very poor, the common frequency effect of sound waves and vibration waves is very poor, and the better sleep-assisting effect is difficult to play.

In one specific embodiment, the flexible support comprises a mattress and a pillow, the resonance board is arranged in the mattress, and the sleep data acquisition sensor is arranged in the pillow.

The sleep data acquisition sensor can adopt related sensors such as a piezoelectric film sensor and the like, and only the monitoring requirements of electroencephalogram, heart rate and respiratory rate are needed to be met.

In a specific embodiment, a temperature control body 6 is arranged in the flexible support body, and the temperature control body 6 is in communication connection with the sleep monitoring host. Specifically, the temperature has certain associated influence on sleep, and the body temperature acquisition of the current sleep of the user and the corresponding temperature regulation of the temperature control body 6 can realize certain sleep-assisting effect, can be integrated in a monitoring regulation driving stage, and can be regulated according to the change of the optimal sleep temperature.

Through the above description, the household sleep-assisting system can realize the association between the sleep quality monitoring and the somatosensory device, and realize the adjustment of the intelligent somatosensory device to adapt to the current sleep state, thereby meeting the requirements of assisting sleep and improving the sleep quality. The body feeling device can realize the same frequency resonance of sound waves and vibration waves, the surface contact comfort level is met, and the sound waves and the vibration waves are coordinated to improve the sleep aiding effect. The method meets the adaptive gradient adjustment requirement on the sound wave vibration waves, adapts to the intelligent scheduling of various demanders, and has higher economic value and popularization and application value.

The terms "comprises," "comprising," or any other similar term are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (10)

1. House helps dormancy system, including helping the dormancy supporter and helping the dormancy check out test set, help the dormancy supporter for supporting and contact human flexible supporter, its characterized in that:

the utility model discloses a device is felt to flexible supporter embeds has the body that is used for providing sound wave and vibration wave to feel the device, help dormancy check out test set including be used for gathering sleep data the sleep data acquisition sensor and with sleep data acquisition sensor reaches the sleep monitor host computer that the device communication is connected respectively is felt to the body, be equipped with in the sleep monitor host computer and be used for the basis sleep quality judgement module that sleep quality was judged is carried out to sleep data acquisition sensor data, be used for according the intelligent regulation module that corresponding intelligent regulation instruction generated is carried out to the judgement data of sleep quality judgement module, intelligent regulation module with the body is felt the device and is connected with the drive mutually.

2. The home sleep-aid system according to claim 1, characterized in that:

the sleep data acquired by the sleep data acquisition sensor at least comprises electroencephalogram, heart rate and respiration rate.

3. The home sleep-aid system according to claim 1, characterized in that:

the sleep quality judging module is internally provided with a plurality of sleep monitoring grades with gradient difference, the intelligent adjusting module is internally provided with monitoring adjusting driving grades which are in one-to-one correspondence with the sleep monitoring grades,

and a logic sequence instruction executed according to the gradient level sequence and a time instruction aiming at any monitoring and adjusting driving level are arranged in the intelligent adjusting module.

4. A home sleep aid system according to claim 3 and also comprising:

the sleep quality judging module is internally provided with a sleep monitoring database and an intelligent matching operation module which is used for matching the currently acquired sleep data with the sleep monitoring database and generating a current sleep monitoring grade.

5. The home sleep-aid system according to claim 3, characterized in that:

the intelligent adjusting module is internally provided with a somatosensory device driving database and a historical record database which are used for calling the somatosensory device, and the historical record data is sleep data change record data after the somatosensory device is adjusted.

6. The home sleep-aid system according to claim 3, characterized in that:

the motion sensing device driving database comprises a plurality of motion sensing control data packets, and any motion sensing control data packet at least comprises sound wave data, sound wave frequency and vibration wave frequency.

7. The home sleep-aid system according to claim 1, characterized in that:

the sleep monitoring host comprises at least one of a mobile phone end, an Internet of things cloud end and a computer end.

8. A home sleep-aiding system according to any one of claims 1 to 7, which is characterized in that:

the somatosensory device comprises a resonant plate, wherein the resonant plate comprises two wing plates which are arranged in mirror symmetry, a loudspeaker is arranged at the bottom of any wing plate, and a plurality of resonant rib plates are arranged on any wing plate.

9. The home sleep-aid system according to claim 8, characterized in that:

the flexible supporting body comprises a mattress and a pillow, the resonance plate is arranged in the mattress, and the sleep data acquisition sensor is arranged in the pillow.

10. A home sleep aid system according to claim 9 and also comprising:

the flexible supporting body is internally provided with a temperature control body, and the temperature control body is in communication connection with the sleep monitoring host.

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