CN114177474A - Sleep pillow system of sleep quality under adjustable deep sea environment - Google Patents

Abstract

The sleeping pillow system capable of adjusting sleeping quality in deep sea environment comprises: the flexible sleeping pillow comprises a flexible sleeping pillow shell, a first brain electrical acquisition component attached to the forehead, a second brain electrical acquisition component attached to the center, a third brain electrical acquisition component attached to the pillow, a first eye electrical acquisition component attached to the outer side of a left eye, a second eye electrical acquisition component attached to the outer side of a right eye, and a myoelectrical acquisition component attached to a mandible, wherein a concave part for fixing the head of a person is arranged on the upper surface of the flexible sleeping pillow shell, a controller is arranged in one end of the flexible sleeping pillow shell, and audio playing components are respectively attached to two sides of the flexible sleeping pillow shell, which are positioned in the concave part; the controller analyzes the time frequency of the first brain electrical signal, the second brain electrical signal, the third brain electrical signal, the first eye electrical signal, the second eye electrical signal and the myoelectrical signal, analyzes a certain period of the person in the five sleep periods, selects a sleep quality improving audio frequency and an audio frequency volume corresponding to the period from the audio frequency database, and controls the two audio frequency playing components to simultaneously send out to improve the sleep quality of the person.

Description

Sleep pillow system of sleep quality under adjustable deep sea environment

Technical Field

The invention relates to the technical field of sleep quality improvement, in particular to a sleeping pillow system capable of adjusting sleep quality in a deep sea environment.

Background

Stress factors existing in the deep ocean environment can all have important influence on the physiology and the psychology of operators, so that the operators are in a high-stress state for a long time, the sleep treatment of the operators is poor, the operators are always in a state of unstable sleep or sleep disorder, the problems of fatigue, anxiety, attention reduction and the like of the operators are caused due to poor sleep quality, and the operators are not suitable for deep sea operation of the operators for a long time and even can have serious consequences. Therefore, it is important to improve the sleep quality of the workers in the deep ocean environment.

Disclosure of Invention

Aiming at the problems and the defects in the prior art, the invention provides the sleeping pillow system capable of adjusting the sleeping quality in the deep sea environment.

The invention solves the technical problems through the following technical scheme:

the invention provides a sleeping pillow system capable of adjusting sleeping quality in a deep sea environment, which is characterized by comprising a flexible sleeping pillow shell, a first electroencephalogram acquisition component, a second electroencephalogram acquisition component, a third electroencephalogram acquisition component, a first electro-oculogram acquisition component, a second electro-oculogram acquisition component, a third electro-oculogram acquisition component, a first electro-oculogram acquisition component, a second electro-oculogram acquisition component and a myoelectricity acquisition component, wherein the first electro-oculogram acquisition component is attached to the forehead of a human head, the second electro-oculogram acquisition component is attached to the center of the human head, the third electro-oculogram acquisition component is attached to the pillow of the head, the first electro-oculogram acquisition component is attached to the outer side of the left eye of the head, the second electro-oculogram acquisition component is attached to the outer side of the right eye of the head, the myoelectricity acquisition component is attached to the mandible of the face, a concave part for fixing the head is arranged on the upper surface of the flexible sleeping pillow shell, a controller is arranged in the flexible sleeping pillow shell, audio playing components are respectively attached to two sides of the concave part in the flexible sleeping pillow shell, and an audio database is stored in the controller, the audio database comprises sleep quality improvement audios corresponding to each sleep five-stage and audio volume corresponding to each sleep quality improvement audio;

the first electroencephalogram component is used for collecting an electroencephalogram signal of the forehead as a first electroencephalogram signal and transmitting the first electroencephalogram signal to the controller, the second electroencephalogram component is used for collecting an electroencephalogram signal of the center as a second electroencephalogram signal and transmitting the second electroencephalogram signal to the controller, and the third electroencephalogram component is used for collecting an electroencephalogram signal of the occipital part as a third electroencephalogram signal and transmitting the third electroencephalogram signal to the controller;

the first electro-oculogram acquisition assembly is used for acquiring an electro-oculogram signal on the outer side of a left eye as a first electro-oculogram signal and transmitting the first electro-oculogram signal to the controller, and the second electro-oculogram acquisition assembly is used for acquiring an electro-oculogram signal on the outer side of a right eye as a second electro-oculogram signal and transmitting the second electro-oculogram signal to the controller;

the myoelectricity acquisition assembly is used for acquiring myoelectricity signals of the mandible and transmitting the myoelectricity signals to the controller;

the controller is used for carrying out time-frequency analysis on the first brain electrical signal, the second brain electrical signal, the third brain electrical signal, the first eye electrical signal, the second eye electrical signal and the myoelectrical signal, analyzing that a person is in a certain period of five sleep periods, selecting a sleep quality improvement audio frequency and an audio frequency volume corresponding to the period from the audio frequency database, and controlling the two audio frequency playing components to simultaneously send out to improve the sleep quality of the person.

Preferably, the pillow system further comprises a remote controller, wherein the remote controller is provided with an audio playing adjustment key for adjusting the playing mode of each sleep quality improvement audio of the period, a playing mode adjustment key for adjusting the playing mode of each sleep quality improvement audio of the period, and an audio volume adjustment key for adjusting the audio volume of the sleep quality improvement audio of the period, and the playing modes include a sequential playing mode, a random playing mode and a circular playing mode;

the controller is used for controlling the two audio playing components to simultaneously send out corresponding sleep quality improving audio based on the audio playing adjusting signal transmitted by the remote controller;

the controller is used for controlling the playing mode of each sleep quality improvement audio in the period based on the playing mode adjusting signal transmitted by the remote controller;

the controller is used for controlling the audio volume of the sleep quality improving audio played in the period based on the audio volume adjusting signal transmitted by the remote controller.

Preferably, the controller is configured to count the occurrence frequency of each playing mode of the sleep quality improvement audio in the period after being adjusted by the person, control the playing mode of the sleep quality improvement audio in the period next time to be the playing mode with the highest occurrence frequency, and control the playing mode of the sleep quality improvement audio in the period next time to be any one of the playing modes with the highest occurrence frequency when the playing mode with the highest occurrence frequency is multiple.

Preferably, the first electroencephalogram acquisition component comprises a first electroencephalogram flexible shell which is attached to the forehead, and two ends of the first electroencephalogram flexible shell are respectively provided with an electroencephalogram sensor;

the second electroencephalogram acquisition component comprises a second electroencephalogram flexible shell which is attached to the central part, and two ends of the second electroencephalogram flexible shell are respectively provided with an electroencephalogram sensor;

the third brain electricity collection component comprises a third brain electricity flexible shell used for being attached to the occipital part, and brain electricity sensors are arranged at two ends of the third brain electricity flexible shell respectively.

Preferably, the first electro-oculogram acquisition assembly comprises a first electro-oculogram flexible shell which is attached to the outer side of the left eye, and an electro-oculogram sensor is arranged on the first electro-oculogram flexible shell;

the second electro-oculogram acquisition assembly comprises a second electro-oculogram flexible shell used for being attached to the outer side of the right eye, and an electro-oculogram sensor is arranged on the second electro-oculogram flexible shell.

Preferably, the first electro-ocularly flexible shell is attached to the lateral lower part of the left eye by 1CM, and the second electro-ocularly flexible shell is attached to the lateral upper part of the right eye by 1 CM.

Preferably, the myoelectricity collection assembly comprises a myoelectricity flexible shell used for being attached to a mandible, and at least one myoelectricity sensor is arranged on the myoelectricity flexible shell.

Preferably, three electromyographic sensors are arranged on the electromyographic flexible shell, and the three electromyographic sensors are respectively located at a position 1cm above a central line of a lower edge of the mandible, at a position 2cm below the lower edge of the mandible and 2cm to the left of the central line, and at a position 2cm below the lower edge of the mandible and 2cm to the right of the central line.

On the basis of the common knowledge in the field, the above preferred conditions can be combined randomly to obtain the preferred embodiments of the invention.

The positive progress effects of the invention are as follows:

according to the invention, time-frequency analysis is carried out on the basis of the collected first brain electrical signal of the forehead, the second brain electrical signal of the center, the third brain electrical signal of the occipital part, the first eye electrical signal of the outer side of the left eye, the second eye electrical signal of the outer side of the right eye and the myoelectrical signal of the mandible, and if a person can be judged to be in a certain period of five sleep periods based on the time-frequency analysis result, the sleep quality improvement audio and the audio volume corresponding to the period are selected from the audio database, and the two audio playing components are controlled to simultaneously send out the corresponding sleep quality improvement audio and the audio volume, so that the sleep quality of the operating personnel in the deep ocean environment can be well improved.

Drawings

Fig. 1 is a schematic structural view of a flexible pillow case according to a preferred embodiment of the present invention.

Fig. 2 is a schematic structural view of a collecting assembly attached to a human head according to a preferred embodiment of the present invention.

FIG. 3 is a schematic structural diagram of a first electrical brain acquisition assembly according to a preferred embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a first electro-oculogram collecting assembly according to a preferred embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a remote controller according to a preferred embodiment of the invention.

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 any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1 and fig. 2, the present embodiment provides a sleeping pillow system capable of adjusting sleep quality in deep sea environment, which includes a flexible sleeping pillow case 1, a first electroencephalogram collecting component 2 for being attached to the forehead of a human head, a second electroencephalogram collecting component for being attached to the center of the human head, a third electroencephalogram collecting component for being attached to the pillow of the human head, a first opthalmic collecting component 3 for being attached to the outer side of the left eye of the human head, a second opthalmic collecting component 4 for being attached to the outer side of the right eye of the human head, and a myoelectric collecting component 5 for being attached to the mandible of the human face, wherein a concave portion 6 for fixing the human head and matching the head shape of the human head is disposed on the upper surface of the flexible sleeping pillow case 1.

The pillow comprises a flexible sleeping pillow shell 1 and is characterized in that a controller is arranged in one end of the flexible sleeping pillow shell 1, audio playing components 7 (such as an audio player, a loudspeaker and the like) are respectively attached to two sides of a concave portion 6 in the flexible sleeping pillow shell 1, an audio database is stored in the controller, and the audio database comprises each sleep quality improvement audio corresponding to each sleep five-phase and audio volume corresponding to each sleep quality improvement audio.

The standard of the American Academy of Sleep Medicine (AASM) is commonly used as the Sleep staging guideline, which divides Sleep into five stages, namely, a Wake stage (waking stage), a REM stage (rapid eye movement stage), an NREM stage (non-rapid eye movement stage, which is further divided into N1 stage (non-rapid eye movement 1 stage), N2 stage (non-rapid eye movement 2 stage), and N3 stage (non-rapid eye movement 3 stage).

As shown in fig. 3, the first electroencephalogram acquisition component 2 includes a first electroencephalogram flexible shell 21 for being attached to the forehead, and two ends of the first electroencephalogram flexible shell 21 are respectively provided with an electroencephalogram sensor 22.

The second brain electricity collection component comprises a second brain electricity flexible shell used for being attached to the central portion, brain electricity sensors are arranged at two ends of the second brain electricity flexible shell respectively, and the structure of the second brain electricity flexible shell is the same as that of the first brain electricity collection component 2.

The third brain electricity collection component comprises a third brain electricity flexible shell used for being attached to the occipital part, brain electricity sensors are arranged at two ends of the third brain electricity flexible shell respectively, and the structure of the third brain electricity flexible shell is the same as that of the first brain electricity collection component 2.

As shown in fig. 4, the first electro-ocular collection assembly 3 includes a first electro-ocular flexible shell 31 for being attached to the outer side of the left eye, an electro-ocular sensor 32 is disposed on the first electro-ocular flexible shell, and the first electro-ocular flexible shell is attached to the outer canthus and the outer lower 1CM of the left eye.

Second eye electricity collection component 4 is including being used for pasting the flexible casing of second eye electricity of establishing in the right eye outside, be equipped with the eye electricity sensor on the flexible casing of second eye electricity, just the flexible casing of second eye electricity pastes and establishes in the outer canthus of right eye 1CM on the upper side, and the structure is with first eye electricity collection component 3.

As shown in fig. 2, the myoelectricity collection assembly 5 includes the myoelectricity flexible casing that is used for pasting and establishes at the mandible, be equipped with three myoelectricity sensor on the myoelectricity flexible casing, it is three myoelectricity sensor is located mandible below edge centre line 1cm position department, mandible below edge 2cm and centre line position department that is 2cm on the left side, mandible below edge 2cm and centre line position department that is 2cm on the right side respectively, see fig. 2.

The working principle of the pillow system is described in detail as follows:

the electroencephalogram sensor 22 in the first electroencephalogram component 2 is used for collecting an electroencephalogram signal of the forehead as a first electroencephalogram signal and transmitting the first electroencephalogram signal to the controller, the electroencephalogram sensor in the second electroencephalogram component is used for collecting an electroencephalogram signal of the center as a second electroencephalogram signal and transmitting the second electroencephalogram signal to the controller, and the electroencephalogram sensor in the third electroencephalogram component is used for collecting an electroencephalogram signal of the occipital as a third electroencephalogram signal and transmitting the third electroencephalogram signal to the controller.

An electro-ocular sensor 32 in the first electro-ocular collection assembly 3 is used for collecting an electro-ocular signal outside the left eye as a first electro-ocular signal and transmitting the first electro-ocular signal to the controller, and an electro-ocular sensor in the second electro-ocular collection assembly 4 is used for collecting an electro-ocular signal outside the right eye as a second electro-ocular signal and transmitting the second electro-ocular signal to the controller.

And the electromyographic sensor in the electromyographic acquisition component 5 is used for acquiring an electromyographic signal of the mandible and transmitting the electromyographic signal to the controller.

The controller is used for carrying out time-frequency analysis on the first brain electrical signal, the second brain electrical signal, the third brain electrical signal, the first eye electrical signal, the second eye electrical signal and the myoelectrical signal, and if the person can be judged to be in a certain period of five sleep periods based on a time-frequency analysis result, the sleep quality improving audio and the audio volume corresponding to the period are selected from the audio database, and the two audio playing components 7 are controlled to be sent out simultaneously to improve the sleep quality of the person.

Further, as shown in fig. 5, the pillow system further includes a remote controller 8, and the remote controller 8 is provided with an audio playing adjustment key 81 (each period corresponds to one audio playing adjustment key) for adjusting each sleep quality improvement audio playing in the period, a playing mode adjustment key 82 for adjusting a playing mode of each sleep quality improvement audio playing in the period, and an audio volume adjustment key 83 for adjusting an audio volume of the sleep quality improvement audio playing in the period, where the playing modes include a sequential playing mode, a random playing mode, and a loop playing mode.

The controller is used for controlling the two audio playing components 7 to simultaneously send out corresponding sleep quality improving audio based on the audio playing adjusting signal transmitted by the remote controller 8.

The controller is used for controlling the playing mode of each sleep quality improvement audio in the period based on the playing mode adjusting signal transmitted by the remote controller 8.

The controller is used for controlling the audio volume of the sleep quality improving audio played in the period based on the audio volume adjusting signal transmitted by the remote controller 8.

The controller is used for counting the occurrence times of each playing mode of the sleep quality improvement audio in the period after the adjustment of the person, controlling the playing mode of the sleep quality improvement audio in the period next time to be the playing mode with the highest occurrence times, and controlling the playing mode of the sleep quality improvement audio in the period next time to be any one of the playing modes with the highest occurrence times when the playing mode with the highest occurrence times is multiple.

Such as: the operator presses the middle position of the audio playing adjustment key 81 corresponding to the REM period to play the first sleep quality improvement audio of the REM period, then the operator presses the right position of the audio playing adjustment key 81 corresponding to the REM period to play the second sleep quality improvement audio of the REM period, and then the operator presses the left position of the audio playing adjustment key 81 corresponding to the REM period to play the first sleep quality improvement audio of the REM period, so that each sleep quality improvement audio is played.

The operator can adjust the play mode of the current REM period, and the operator presses the play mode adjustment key 82, if the current sequential play mode is modified to the circular play mode, and the subsequent controller analyzes that the current operator is in the REM period, the last adjusted play mode is used for playing the sleep quality improvement audio.

The operator can adjust the audio volume of the current REM period, and presses the audio volume adjusting key 83, if the current audio volume is increased or decreased, and the subsequent controller analyzes that the current operator is in the REM period, the audio volume adjusted last time is adopted to play the sleep quality improvement audio.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that these are by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.

Claims (8)

1. A sleeping pillow system capable of adjusting sleeping quality in a deep sea environment is characterized by comprising a flexible sleeping pillow shell, a first electroencephalogram acquisition component, a second electroencephalogram acquisition component, a third electroencephalogram acquisition component, a first electro-oculogram acquisition component, a second electro-oculogram acquisition component and a myoelectricity acquisition component, wherein the first electro-oculogram acquisition component is used for being attached to the forehead of a head of a person, the second electro-oculogram acquisition component is used for being attached to the center of the head of the person, the third electro-oculogram acquisition component is used for being attached to the pillow of the head of the person, the first electro-oculogram acquisition component is used for being attached to the outer side of the left eye of the head of the person, the second electro-oculogram acquisition component is used for being attached to the outer side of the right eye of the head of the person, the myoelectricity acquisition component is used for being attached to the mandible of the face of the person, a concave portion used for fixing the head of the person is arranged on the upper surface of the flexible sleeping pillow shell, a controller is arranged in the flexible sleeping pillow shell, audio playing components are respectively attached to two sides, and an audio database is stored in the controller, the audio database comprises sleep quality improvement audios corresponding to each sleep five-stage and audio volume corresponding to each sleep quality improvement audio;

the first electroencephalogram component is used for collecting an electroencephalogram signal of the forehead as a first electroencephalogram signal and transmitting the first electroencephalogram signal to the controller, the second electroencephalogram component is used for collecting an electroencephalogram signal of the center as a second electroencephalogram signal and transmitting the second electroencephalogram signal to the controller, and the third electroencephalogram component is used for collecting an electroencephalogram signal of the occipital part as a third electroencephalogram signal and transmitting the third electroencephalogram signal to the controller;

the first electro-oculogram acquisition assembly is used for acquiring an electro-oculogram signal on the outer side of a left eye as a first electro-oculogram signal and transmitting the first electro-oculogram signal to the controller, and the second electro-oculogram acquisition assembly is used for acquiring an electro-oculogram signal on the outer side of a right eye as a second electro-oculogram signal and transmitting the second electro-oculogram signal to the controller;

the myoelectricity acquisition assembly is used for acquiring myoelectricity signals of the mandible and transmitting the myoelectricity signals to the controller;

the controller is used for carrying out time-frequency analysis on the first brain electrical signal, the second brain electrical signal, the third brain electrical signal, the first eye electrical signal, the second eye electrical signal and the myoelectrical signal, analyzing that a person is in a certain period of five sleep periods, selecting a sleep quality improvement audio frequency and an audio frequency volume corresponding to the period from the audio frequency database, and controlling the two audio frequency playing components to simultaneously send out to improve the sleep quality of the person.

2. The pillow system for adjusting sleep quality in deep sea environment according to claim 1, further comprising a remote controller, wherein the remote controller is provided with an audio playing adjustment key for adjusting each sleep quality improvement audio playing in the period, a playing mode adjustment key for adjusting the playing mode of each sleep quality improvement audio playing in the period, and an audio volume adjustment key for adjusting the audio volume of the sleep quality improvement audio playing in the period, and the playing modes include a sequential playing mode, a random playing mode and a loop playing mode;

the controller is used for controlling the two audio playing components to simultaneously send out corresponding sleep quality improving audio based on the audio playing adjusting signal transmitted by the remote controller;

the controller is used for controlling the playing mode of the sleep quality improvement audio in the period based on the playing mode adjusting signal transmitted by the remote controller;

the controller is used for controlling the audio volume of the sleep quality improving audio played in the period based on the audio volume adjusting signal transmitted by the remote controller.

3. The pillow system according to claim 2, wherein the controller is configured to count the adjusted occurrence number of each playing mode of the sleep quality improvement audio for the period, control the playing mode of the sleep quality improvement audio for the next period to be the playing mode with the highest occurrence number, and control the playing mode of the sleep quality improvement audio for the next period to be any one of the playing modes with the highest occurrence number when the playing mode with the highest occurrence number is plural.

4. The pillow system capable of adjusting sleep quality in deep sea environment according to claim 1, wherein the first electroencephalogram acquisition component comprises a first electroencephalogram flexible shell attached to the forehead, and two ends of the first electroencephalogram flexible shell are respectively provided with an electroencephalogram sensor;

the second electroencephalogram acquisition component comprises a second electroencephalogram flexible shell which is attached to the central part, and two ends of the second electroencephalogram flexible shell are respectively provided with an electroencephalogram sensor;

the third brain electricity collection component comprises a third brain electricity flexible shell used for being attached to the occipital part, and brain electricity sensors are arranged at two ends of the third brain electricity flexible shell respectively.

5. The sleep pillow system capable of adjusting sleep quality in a deep sea environment according to claim 1, wherein the first electro-oculogram collecting assembly comprises a first electro-oculogram flexible shell body for being attached to the outer side of the left eye, and an electro-oculogram sensor is arranged on the first electro-oculogram flexible shell body;

the second electro-oculogram acquisition assembly comprises a second electro-oculogram flexible shell used for being attached to the outer side of the right eye, and an electro-oculogram sensor is arranged on the second electro-oculogram flexible shell.

6. The system of claim 1, wherein the first electro-ocularly flexible shell is attached to the lateral lower part of the left eye at 1CM lateral canthus and the second electro-ocularly flexible shell is attached to the lateral upper part of the right eye at 1CM lateral canthus.

7. The sleep pillow system capable of adjusting sleep quality in deep sea environment according to claim 1, wherein the myoelectric collecting component comprises a myoelectric flexible shell for being attached to the mandible, and at least one myoelectric sensor is arranged on the myoelectric flexible shell.

8. The sleep pillow system capable of adjusting sleep quality in deep sea environment according to claim 1, wherein the electromyographic flexible shell is provided with three electromyographic sensors, and the three electromyographic sensors are respectively located at a position 1cm above the midline of the lower edge of the mandible, at a position 2cm below the lower edge of the mandible and 2cm to the left of the midline, and at a position 2cm below the lower edge of the mandible and 2cm to the right of the midline.

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