CN105771097A - Intelligent pillow - Google Patents

Abstract

The invention provides an intelligent pillow, comprising a pillow body used for supporting a user head, an additional pillow body, a plurality of laser generators distributed on the surface of the additional pillow body, information collection elements distributed in the pillow body and at relative positions in the additional pillow body, and a relative position determination element. The laser generator emits laser to irradiate a scalp area, thereby performing irradiation and growing hairs when a user rests or sleeps.

Description

Intelligent pillow

Technical Field

The invention relates to the field of intelligent household articles, in particular to an intelligent pillow.

Background

The popular pillow comprises a pillow body, a pillow cover and a pillow core. The pillow has more functions due to the diversity of the fillers of the pillow core. For a pillow with an information monitoring function, an information monitoring device is usually arranged in a pillow core, and the specific function of the pillow is to collect known human body biological signals, including electrocardiosignals, electroencephalogram signals, myoelectricity signals, blood pressure, pulse oxygen, respiration, human body actions and other biological signals, and transmit the known human body biological signals to the information monitoring device in the pillow so as to monitor physiological parameters of a user in real time and scientifically analyze the physiological state of the user.

Modern people are busy in work and excessive in brain use, and alopecia is an inevitable thing, and about 15 hundred million people worldwide face the problem of alopecia. Also, alopecia is not a patent for the elderly, it is progressing to the younger age, and there is data showing that early alopecia has occurred in patients seventeen and eight years old. A questionnaire survey on 3000 male baldness shows that the youngest tendency of baldness is the most severe in men in our country, with about 60% of people starting to lose hair less than 25 years of age. Seborrheic alopecia is partially inherited, but the long-term mental stress and night-out factors of modern society lead to the continuous forward movement of the onset time of alopecia. Alopecia brings about troubles in work and life for modern men.

Excessive online games are also one of the factors causing the male alopecia to be younger. Men who have longer average computer use per day are more prone to hair loss. This is associated with nervous overstrain. When the player plays games on the internet for a long time, the central nervous system is always in a tense state, vegetative nerve disturbance, skin vasoconstriction dysfunction, scalp local vasoconstriction and blood supply reduction can be caused, and hair follicle malnutrition can be caused to cause alopecia.

The radiation of electronic products is also one of the causes of alopecia, modern people generally use computers for a long time, and computer display screens, keyboards and mice all have radiation of different degrees, which can cause the weakness of the resistance of human bodies, further influence the skin and hair, and seriously cause alopecia.

In modern society with faster and faster life rhythm, people can hardly regularly draw a large amount of time to pertinently prevent and recover alopecia, but generally speaking, the sleeping time is relatively long, and at least several hours are provided every day, and the time period can be fully utilized. However, no pillow for promoting hair growth is available in the market for the alopecia phenomenon.

Disclosure of Invention

In order to solve the technical problem of hair growth in the sleeping process, the invention provides an intelligent pillow, which has the following technical scheme:

an intelligent pillow comprises a pillow body 1 for supporting the head of a user, an additional pillow body 2, a plurality of laser generators 3 distributed on the surface of the additional pillow body, relative position information collecting elements distributed inside the pillow body and the additional pillow body, and relative position judging elements;

the laser generator is used for emitting laser to irradiate the head so as to promote hair growth;

when the laser generator 3 works, the relative position of the additional pillow body 2 and the pillow body 1 is a preset value, so that the irradiation range of laser emitted by the laser generator 3 covers a standard scalp area 4;

the relative position information collecting element is used for collecting the relative position information of the pillow body and the additional pillow body;

the relative position judging element is used for receiving the relative position information collected by the relative position information collecting element and judging the relative position of the pillow body and the additional pillow body according to the received information, when the relative position of the pillow body and the additional pillow body enables the irradiation range of the laser emitted by the laser generator to cover a standard scalp area, the relative position is a preset value, and when the relative position of the pillow body and the additional pillow body enables the irradiation range of the laser emitted by the laser generator not to cover the standard scalp area, the relative position is not the preset value.

Furthermore, the intelligent pillow further comprises a scalp area detection scanning element and a laser controller, wherein the scalp area scanning element is used for scanning and judging the area where the scalp is located, and the laser controller receives the information of the scalp area scanning element to control the laser generator to work.

Further, intelligence pillow still includes laser generator outage component and temperature sensing element, laser generator outage component one end is connected with temperature sensing element, temperature sensing element is used for acquireing the scalp temperature, and the other end is connected with laser generator, and when the scalp temperature that temperature sensing element acquireed was higher than when predetermineeing the temperature interval, laser generator outage component work control laser generator outage stop work, and when the scalp temperature that temperature sensing element acquireed was less than when predetermineeing the temperature interval, laser generator outage component work control laser generator circular telegram began work.

Furthermore, the intelligent pillow further comprises an alignment element, the alignment element is respectively connected with the relative position judging element and the scalp area scanning element, and when the relative position judging element judges that the relative position of the pillow body and the additional pillow body is not a preset value or the scalp area scanning element cannot scan the scalp area, the alignment element adjusts the relative position of the pillow body and the additional pillow body so that the relative position of the pillow body and the additional pillow body is a preset value; or,

the pillow further comprises an alarm element, the alarm element is connected with the relative position judging element, and when the relative position judging element judges that the relative position of the pillow body and the additional pillow body is not a preset value, the alarm element gives an alarm.

Further, the intelligent pillow also comprises at least one group of components of:

the physiological parameter monitoring module is arranged on the surface of the flexible pillow towel or on the surface of the pillow body, and comprises a temperature sensor, a blood pressure sensor and a heart rate sensor;

the head and neck massage module comprises a kneading ball, a heating element, a motor and a temperature controller, wherein the kneading ball is arranged in the pillow body, part of the kneading ball is exposed out of the surface of the pillow and is contacted with the head and the neck, the heating element is arranged in the kneading ball and is used for enabling the kneading ball to have a warming function, the motor is connected with the kneading ball and is used for driving the rotation and the rotating direction of the kneading ball, and the temperature controller is respectively connected with the kneading ball and the motor and is used for controlling the working states of the kneading ball and the motor;

the pillow comfort adjusting module comprises an air bag group and an air bag group controller, wherein the air bag group is positioned in the pillow body or at the bottom of the pillow body, and the air bag group controller adjusts the inflation quantity of the air bag group according to set parameters so as to adjust the height and the shape of the pillow;

the REM monitoring module comprises infrared imaging equipment, an infrared distance measuring signal generator and a face position identification element, wherein the infrared imaging equipment is positioned above a detected target during working, the face position identification element is used for monitoring the sleeping posture of a human body and identifying the face position, and the infrared distance measuring signal generator is arranged obliquely above the pillow body and sends out an infrared distance measuring signal to monitor the rotation condition of eyes;

the sound detection and judgment module comprises an audio sensing element and an audio comparator, wherein the audio sensing element receives audio information, and the audio comparator compares the audio information received by the audio sensor with preset audio information to divide the audio information into snore and environmental noise;

the brain wave monitoring module comprises a brain wave sensor and a brain wave comparator, the brain wave sensor is installed at the contact position of the middle part of the pillow and the back of the head of a user and receives brain waves of a detected target, and the brain wave comparator compares the brain waves received by the brain wave sensor with a preset brain wave information threshold value to divide the brain waves into brain waves in a waking state and brain waves in a sleeping state.

Furthermore, the intelligent pillow further comprises a sleep quality parameter detection module, the sleep quality parameter detection module comprises a processor and a display, the processor is connected with the physiological parameter monitoring module and used for analyzing and processing the physiological parameter information acquired by the physiological parameter monitoring module, and the display is connected with the processor and used for receiving the information of the processor to generate and display a table and/or a curve.

Furthermore, the intelligent pillow also comprises a communication module, the communication module is respectively connected with the physiological parameter monitoring module and the REM monitoring module, and when the body physiological parameters or the sleep posture of the user are in an abnormal state, the communication module sends data signals to a preset receiving device;

or the communication module is connected with the physiological parameter monitoring module, compares the acquired body temperature information with the room temperature information, and sends a data signal to the preset receiving device when the temperature difference between the body temperature and the room temperature of the user is greater than the preset temperature difference.

Furthermore, the intelligent pillow further comprises a snore stopping and sleeping posture adjusting module, the snore stopping and sleeping posture adjusting module is respectively connected with the audio comparator, the infrared imaging device and the air bag controller, and if the audio information received by the audio comparator is snore or the human sleeping posture collected by the infrared imaging device is abnormal, the snore stopping and sleeping posture adjusting module sends an instruction to the air bag controller to adjust the air bag, so that the snore stopping purpose is achieved while the user is slightly stimulated to adjust the sleeping posture.

Furthermore, the intelligent pillow further comprises an opposite-phase noise elimination module, wherein the opposite-phase noise elimination module is connected with the sound detection judgment module and comprises a sound processor and an opposite-phase sound generator, the sound processor is connected with the audio comparator and is used for carrying out opposite-phase processing on the waveform of the environmental noise emitted by the audio comparator, and the opposite-phase sound generator is connected with the sound processor and is used for receiving the opposite-phase waveform of the environmental noise and generating opposite-phase sound for reducing the noise.

The intelligent pillow further comprises a GAMMA sound wave sleep-aiding module, the GAMMA sound wave sleep-aiding module comprises a brain wave sensor, a brain wave state judging element and a GAMMA sound wave generator, the brain wave sensor is located at the position, contacted with the head and the neck, of the surface of the pillow body and used for collecting brain wave information of a user, the brain wave state judging element receives the brain wave information collected by the brain wave sensor and judges whether the user is in a sleeping state at the moment, the GAMMA sound wave generator is controlled to work if the user is not in the sleeping state, the GAMMA sound wave generator is controlled to stop working if the user is in the sleeping state, the GAMMA sound wave generator sends soft GAMMA sound waves, and the frequency of the GAMMA sound waves is 25-100 HZ;

or the hypnosis music playing module is connected with the brain wave monitoring module, if the user is not in the sleep state, the hypnosis music playing module is controlled to work, and if the user is in the sleep state, the hypnosis music playing module is controlled to stop working, and the hypnosis music playing module is used for playing soft hypnosis music according to the preference of the user.

Compared with the prior art, the invention has the following advantages:

the intelligent pillow of the invention adopts the laser generator to emit laser to irradiate the scalp to promote hair growth, and the laser irradiates scalp cells, hair follicles and hair roots to accelerate blood circulation of scalp capillaries, improve hair quality and even make hair grow again. By utilizing the principle of laser hair growth, the additional pillow body with the laser generator distributed on the surface is added on the basis of the pillow body, when the laser generator works, the relative position of the additional pillow body and the pillow body is at a standard value, so that laser emitted by the laser generator covers a standard scalp area to achieve the purpose of laser hair growth. The invention can also determine the relative position of the pillow body and the additional pillow body and monitor whether the intelligent pillow works normally or not in real time.

The intelligent pillow can also control the working state of the laser generator in real time according to the scalp temperature, and scan and identify whether the standard scalp area is within the irradiation range of the laser generator, so as to control the working state of the laser generator. These mechanisms effectively increase hair growth efficiency and safety.

Drawings

FIG. 1 is a schematic view of the using state of the intelligent pillow of the present invention;

FIG. 2 is a schematic view of a usage status of the first embodiment of the present invention;

FIG. 3 is a schematic view of a second embodiment of the present invention in a use state;

fig. 4a, 4b, 4c and 4d are schematic diagrams illustrating the relationship between the pillow comfort level adjusting module and different sleeping postures.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An intelligent pillow, as shown in fig. 1, comprises a pillow body 1 for supporting the head of a user, an additional pillow body 2, a plurality of laser generators 3 distributed on the surface of the additional pillow body, a relative position information collecting element distributed inside the pillow body 1 and inside the additional pillow body 2, and a relative position determining element;

the laser generator 3 is used for emitting laser to irradiate the head so as to promote the hair growth; the intensity of the laser is soft, the intensity is preferably that the scalp temperature is raised by 1-2 ℃ after the laser is irradiated on the scalp area for a long time, and the preferred laser wavelength is 880-940 nanometers.

When the laser generator 3 works, the relative position of the additional pillow body 1 and the pillow body 2 is a preset value, so that the irradiation range of laser emitted by the laser generator 3 covers a standard scalp area 4; the standard scalp area 4 is a top of head overlook projection area, mainly comprises a forehead area and a top of head area when lying on the back, and also comprises an overlook projection area of a temple area, and because the back of the head is attached by the pillow when lying down, the head is not counted into the standard scalp area 4; when lying on side, the pillow mainly comprises a forehead area and a vertex area, and also comprises a top-view projection area of a back head spoon and a top-view projection area of a temple area which is not attached to the pillow. The relative positions of the pillow body 1 and the additional pillow body 2 are shown in fig. 1, the preset value of the relative position is that a laser irradiation area of the laser generator 3 covers a standard scalp area 4, and meanwhile, the distance from the additional pillow body 2 to the pillow body 1 is preferably 10-50 cm.

The relative position information collecting element is used for collecting the relative position information of the pillow body 1 and the additional pillow body 2, and the relative position information collecting element is preferably an inclination angle sensor;

the relative position judging element is used for receiving the relative position information collected by the relative position information collecting element and judging the relative position of the pillow body and the additional pillow body according to the received information, when the relative position of the pillow body 1 and the additional pillow body 2 enables the irradiation range of the laser emitted by the laser generator 3 to cover the standard scalp area 4, the relative position is a preset value, and when the relative position of the pillow body 1 and the additional pillow body 2 enables the irradiation range of the laser emitted by the laser generator 3 not to cover the standard scalp area 4, the relative position is not the preset value.

Furthermore, the intelligent pillow further comprises a scalp area detection scanning element and a laser controller, wherein the scalp area scanning element is used for scanning and judging the area where the scalp is located, and the laser controller receives the information of the scalp area scanning element to control the laser generator to work.

Further, intelligence pillow still includes laser generator outage component and temperature sensing element, and the preferred temperature sensor of temperature sensing element, laser generator outage component one end is connected with temperature sensing element, temperature sensing element is used for acquireing the scalp temperature, and the other end is connected with laser generator, and when the scalp temperature that temperature sensing element acquireed was higher than predetermineeing the temperature interval, laser generator outage component work control laser generator outage stop work, when the scalp temperature that temperature sensing element acquireed was less than predetermineeing the temperature interval, laser generator outage component work control laser generator circular telegram began work.

The preset temperature range is 1-2 ℃ higher than the normal temperature of the scalp, and is preferably 39-40 ℃.

Furthermore, the intelligent pillow further comprises an alignment element, the alignment element is respectively connected with the relative position judging element and the scalp area scanning element, and when the relative position judging element judges that the relative position of the pillow body and the additional pillow body is not a preset value or the scalp area scanning element cannot scan the scalp area, the alignment element adjusts the relative position of the pillow body and the additional pillow body so that the relative position of the pillow body and the additional pillow body is a preset value;

or the pillow further comprises an alarm element, the alarm element is connected with the relative position judging element, and when the relative position judging element judges that the relative position of the pillow body and the additional pillow body is not a preset value, the alarm element gives an alarm.

The alignment element can adopt a swing mechanism, and a user can automatically adjust the laser irradiation direction emitted by a laser generator on the additional pillow body through the swing mechanism. The alarm element can adopt a buzzer, a bell, a vibrator or a flashing lamp, and the like, and preferably the flashing lamp.

Further, the intelligent pillow also comprises at least one group of components of:

the physiological parameter monitoring module is arranged on the surface of the flexible pillow towel or on the surface of the pillow body, the physiological parameter monitoring module comprises a temperature sensor, a blood pressure sensor and a heart rate sensor, and when the physiological parameter monitoring module is arranged on the surface of the flexible pillow towel, the flexible pillow towel becomes a portable thin pillow and can be used when people have a rest in places such as offices and the like;

the head and neck massage module comprises a kneading ball, a heating element, a motor and a temperature controller, wherein the kneading ball is arranged in the pillow body, part of the kneading ball is exposed on the surface of the pillow and is contacted with the head and the neck, the heating element is arranged in the kneading ball and is used for enabling the kneading ball to have a warming function, the motor is connected with the kneading ball and is used for driving the rotation and the rotating direction of the kneading ball, the temperature controller is respectively connected with the kneading ball and the motor and is used for controlling the working state of the kneading ball and the motor, the kneading ball slowly rotates under the driving of the motor to knead and massage the head and neck region, when the massage is carried out for a certain time, the kneading ball can also automatically adjust the massage direction, the kneading ball is internally provided with the heating element and has a warming function, the temperature controller is used for controlling the temperature of the kneading ball to be kept at a proper temperature, preferably 40 ℃, and when the temperature is too high, automatically controlling the kneading ball to be powered off;

the pillow comfort degree adjusting module comprises an air bag group 6 and an air bag group 6 controller, wherein the air bag group 6 is positioned inside or at the bottom of the pillow body 1, preferably inside the pillow body 1, the air bag group 6 controller adjusts the inflation quantity of the air bag group 6 according to set parameters so as to adjust the height and the shape of the pillow, the module has a memory function, can remember the parameters selected by the user for adjusting the height and the shape of the pillow at the last time, and can automatically adjust the inflation quantity and the inflation sequence of the air bag group 6 according to different sleeping postures or habits of the user as shown in figures 4a, 4b, 4c and 4d, so that the shape and the height of the pillow meeting the requirements are achieved;

the REM monitoring module comprises infrared imaging equipment, an infrared distance measuring signal generator and a face position identification element, wherein the infrared imaging equipment is positioned above a detected target during working, the face position identification element is used for monitoring the sleeping posture of a human body and identifying the face position, and the infrared distance measuring signal generator is arranged obliquely above the pillow body and sends out an infrared distance measuring signal to monitor the rotation condition of eyes; REM sleep, rapid eye movement (rapid eye movement), is also known as out-of-phase sleep, or rapid phase sleep, out-of-phase sleep or fast wave sleep. The eyeball is a sleep stage, and the eyeball can rapidly move involuntarily at the sleep stage. Being the shallowest of all sleep stages in this stage, the person waking up while REM sleeps will be different from the situation in the other sleep stages, but full of alertness and mental fullness. In addition, during REM sleep, more auxin is secreted by the pituitary, so that REM sleep is ensured to have a certain positive significance on the growth and development of human bodies. REM sleep is therefore very physiologically different from other sleep stages;

the sound detection and judgment module comprises an audio sensing element and an audio comparator, wherein the audio sensing element receives audio information, the audio comparator compares the audio information received by the audio sensor with preset audio information to divide the audio information into snore and environmental noise, the audio sensing element can select an audio sensor to collect surrounding sound signals, the audio comparator receives the collected sound signals, analyzes the waveform of the sound signals, then compares the waveform with the preset snore waveform, if the coincidence rate of the waveform exceeds 70%, the snore is judged, and if the coincidence rate of the waveform is lower than 70%, the environmental noise is judged;

the brain wave monitoring module comprises a brain wave sensor and a brain wave comparator, the brain wave sensor is installed at the contact position of the middle part of the pillow and the back of the head of a detected target and receives brain waves of the detected target, the brain wave comparator compares the brain waves received by the brain wave sensor with a preset brain wave information threshold value and divides the brain waves into brain waves in a waking state and brain waves in a sleeping state, and the comparison of the brain waves is realized through waveform conformity.

Furthermore, the intelligent pillow further comprises a sleep quality parameter detection module, the sleep quality parameter detection module comprises a processor and a display, the processor is connected with the physiological parameter monitoring module and used for analyzing and processing the physiological parameter information acquired by the physiological parameter monitoring module, and the display is connected with the processor and used for receiving the information of the processor to generate and display a table and/or a curve.

Furthermore, the intelligent pillow also comprises a communication module, the communication module is respectively connected with the physiological parameter monitoring module and the REM monitoring module, and when the body physiological parameters or the sleep posture of the user are in an abnormal state, the communication module sends data signals to a preset receiving device;

or the communication module is connected with the physiological parameter monitoring module, compares the acquired body temperature information with the room temperature information, and sends a data signal to the preset receiving device when the temperature difference between the body temperature and the room temperature of the user is greater than the preset temperature difference. For example, when the temperature difference between the body temperature and the room temperature is less than 10 ℃ in summer, the communication module sends an operation instruction to an air conditioner of a receiving device in a bathroom, or when the temperature difference between the body temperature and the room temperature is more than 15 ℃ in winter, the communication module sends an operation instruction to a room heating device, and the above 2 examples are only one specific embodiment of the present invention and should not be construed as limiting the present invention.

Further, intelligence pillow still includes snore stopping and adjustment appearance module of sleeping, snore stopping and adjustment appearance module of sleeping are connected with audio frequency comparator, infrared imaging equipment, gasbag controller respectively, if audio information that audio frequency comparator received is snore or the human sleep attitude that infrared imaging equipment gathered is unusual, then snore stopping and adjustment appearance module of sleeping send instruction to gasbag controller and adjust the gasbag to reach the purpose of snore stopping when slightly stimulating the user to adjust the appearance of sleeping by oneself, human sleep attitude unusual including lifting quilt, twitching, and crouching etc..

Furthermore, the intelligent pillow further comprises an opposite-phase noise elimination module, the opposite-phase noise elimination module is connected with the sound detection judgment module and comprises a sound processor and an opposite-phase sound generator, the sound processor is connected with the audio comparator and is used for carrying out opposite-phase processing on the waveform of the environmental noise emitted by the audio comparator, the opposite-phase sound generator is connected with the sound processor and is used for receiving the opposite-phase waveform of the environmental noise and generating opposite-phase sound for reducing the noise, the distance between two loudspeakers playing different-power opposite-phase sounds and two ears can be adjusted, and therefore the function of eliminating the noise in an opposite phase mode is achieved.

The intelligent pillow further comprises a GAMMA sound wave sleep-aiding module, the GAMMA sound wave sleep-aiding module comprises a brain wave sensor, a brain wave state judging element and a GAMMA sound wave generator, the brain wave sensor is located at the position, contacted with the head and the neck, of the surface of the pillow body and used for collecting brain wave information of a user, the brain wave state judging element receives the brain wave information collected by the brain wave sensor and judges whether the user is in a sleeping state at the moment, the GAMMA sound wave generator is controlled to work if the user is not in the sleeping state, the GAMMA sound wave generator is controlled to stop working if the user is in the sleeping state, the GAMMA sound wave generator sends soft GAMMA sound waves, and the frequency of the GAMMA sound waves is 25-100 HZ;

or the hypnosis music playing module is connected with the brain wave monitoring module, if the user is not in the sleep state, the hypnosis music playing module is controlled to work, and if the user is in the sleep state, the hypnosis music playing module is controlled to stop working, and the hypnosis music playing module is used for playing soft hypnosis music according to the preference of the user.

The first embodiment is as follows: an intelligent pillow, as shown in fig. 2, comprises a pillow body 1 for supporting the head of a user, an additional pillow body 2, a plurality of laser generators 3 distributed on the surface of the additional pillow body 2, a relative position information collecting element distributed inside the pillow body 1 and inside the additional pillow body 2, and a relative position determining element;

the laser generator 3 is used for emitting laser to irradiate the head so as to promote the hair growth; the intensity of the laser is soft, the intensity is preferably that the scalp temperature is raised by 1-2 ℃ after the laser is irradiated on the scalp area for a long time, and the preferred laser wavelength is 880-940 nanometers.

When the laser generator 3 works, the relative position of the additional pillow body 2 and the pillow body 1 is a preset value, so that the irradiation range of laser emitted by the laser generator 3 covers a standard scalp area 4; the standard scalp area 4 is a top of head overlook projection area, mainly comprises a forehead area and a top of head area when lying on the back, and also comprises an overlook projection area of a temple area, and because the back of the head is attached by the pillow when lying down, the head is not counted into the standard scalp area 4; when lying on side, the pillow mainly comprises a forehead area and a vertex area, and also comprises a top-view projection area of a back head spoon and a top-view projection area of a temple area which is not attached to the pillow. The relative positions of the pillow body and the additional pillow body are shown in figure 1, the preset value of the relative position is that a laser irradiation area of the laser generator covers a standard scalp area 4, and meanwhile, the distance from the additional pillow body to the pillow body is preferably 10-50 cm.

Preferably, the laser generator is arranged in a row as shown in fig. 2, and can scan up and down on the standard scalp area 4 to cyclically irradiate the standard scalp area 4. The cost can be effectively reduced while the hair growth function is achieved.

Example two:

an intelligent pillow, as shown in fig. 3, comprises a pillow body 1 for supporting the head of a user, an additional pillow body 2, a plurality of laser generators 3 distributed on the surface of the additional pillow body 2, a relative position information collecting element distributed inside the pillow body and inside the additional pillow body, and a relative position determining element;

the laser generator is used for emitting laser to irradiate the head so as to promote hair growth; the intensity of the laser is soft, the intensity is preferably that the scalp temperature is raised by 1-2 ℃ after the laser is irradiated on the scalp area for a long time, and the preferred laser wavelength is 880-940 nanometers.

When the laser generator works, the relative position of the additional pillow body and the pillow body is a preset value, so that the irradiation range of laser emitted by the laser generator covers a standard scalp area 4; the standard scalp area 4 is a top of head overlook projection area, mainly comprises a forehead area and a top of head area when lying on the back, and also comprises an overlook projection area of a temple area, and because the back of the head is attached by the pillow when lying down, the head is not counted into the standard scalp area 4; when lying on side, the pillow mainly comprises a forehead area and a vertex area, and also comprises a top-view projection area of a back head spoon and a top-view projection area of a temple area which is not attached to the pillow. The relative positions of the pillow body and the additional pillow body are shown in figure 1, the preset value of the relative position is that a laser irradiation area of the laser generator covers a standard scalp area 4, and meanwhile, the distance from the additional pillow body to the pillow body is preferably 10-50 cm.

The invention also comprises an REM monitoring module 5, wherein the REM monitoring module 5 comprises an infrared imaging device, an infrared distance measuring signal generator and a face position identification element, when the REM monitoring module works, the infrared imaging device is positioned above a detected object, the face position identification element is used for monitoring the sleeping posture of a human body and identifying the face position, the infrared distance measuring signal generator is arranged obliquely above the pillow body and sends out an infrared distance measuring signal to monitor the rotation condition of eyes; REM sleep, rapid eye movement (rapid eye movement), is also known as out-of-phase sleep, or rapid phase sleep, out-of-phase sleep or fast wave sleep. The eyeball is a sleep stage, and the eyeball can rapidly move involuntarily at the sleep stage. Being the shallowest of all sleep stages in this stage, the person waking up while REM sleeps will be different from the situation in the other sleep stages, but full of alertness and mental fullness. In addition, during REM sleep, more auxin is secreted by the pituitary, so that REM sleep is ensured to have a certain positive significance on the growth and development of human bodies. REM sleep is therefore very physiologically different from the other sleep stages.

The above examples are illustrative only, not limiting, and are not intended to limit the scope of the invention. Although the embodiments and drawings of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various substitutions, alterations, and modifications are possible, without departing from the spirit and scope of the invention and appended claims, and therefore the scope of the invention is not limited to the embodiments and drawings disclosed. The invention has simple and smart structure, and any changes or substitutions which can be easily conceived by those skilled in the art are all covered by the protection scope of the invention.

Claims (10)

1. An intelligent pillow is characterized by comprising a pillow body for supporting the head of a user, an additional pillow body, a plurality of laser generators distributed on the surface of the additional pillow body, a relative position information collecting element distributed inside the pillow body and the additional pillow body, and a relative position judging element;

the laser generator is used for emitting laser to irradiate the head so as to promote hair growth;

when the laser generator works, the relative position of the additional pillow body and the pillow body is a preset value, so that the irradiation range of laser emitted by the laser generator covers a standard scalp area;

the relative position information collecting element is used for collecting the relative position information of the pillow body and the additional pillow body;

the relative position judging element is used for receiving the relative position information collected by the relative position information collecting element and judging the relative position of the pillow body and the additional pillow body according to the received information, when the relative position of the pillow body and the additional pillow body enables the irradiation range of the laser emitted by the laser generator to cover a standard scalp area, the relative position is a preset value, and when the relative position of the pillow body and the additional pillow body enables the irradiation range of the laser emitted by the laser generator not to cover the standard scalp area, the relative position is not the preset value.

2. The intelligent pillow according to claim 1, further comprising a scalp area detection scanning element and a laser controller, wherein the scalp area scanning element is used for scanning and judging the area where the scalp is located, and the laser controller receives the information of the scalp area scanning element and controls the laser generator to work.

3. The intelligent pillow of claim 2, further comprising a laser generator power-off element and a temperature sensing element,

laser generator outage component one end is connected with temperature sensing element, temperature sensing element is used for acquireing the scalp temperature, and the other end is connected with laser generator, and when the scalp temperature that temperature sensing element acquireed was higher than when predetermineeing the temperature interval, laser generator outage component job control laser generator outage stop work, and when the scalp temperature that temperature sensing element acquireed was less than when predetermineeing the temperature interval, laser generator outage component job control laser generator circular telegram began work.

4. The intelligent pillow of claim 2, wherein:

the scalp region scanning component is used for scanning scalp regions, and adjusting the relative positions of the pillow body and the additional pillow body by the alignment component when the relative position judging component judges that the relative positions of the pillow body and the additional pillow body are not preset values or the scalp region scanning component cannot scan the scalp regions; or,

the pillow further comprises an alarm element, the alarm element is connected with the relative position judging element, and when the relative position judging element judges that the relative position of the pillow body and the additional pillow body is not a preset value, the alarm element gives an alarm.

5. The intelligent pillow according to any one of claims 1-4, further comprising at least one set of components selected from the group consisting of:

the physiological parameter monitoring module is arranged on the surface of the flexible pillow towel or on the surface of the pillow body, and comprises a temperature sensor, a blood pressure sensor and a heart rate sensor;

the head and neck massage module comprises a kneading ball, a heating element, a motor and a temperature controller, wherein the kneading ball is arranged in the pillow body, part of the kneading ball is exposed out of the surface of the pillow and is contacted with the head and the neck, the heating element is arranged in the kneading ball and is used for enabling the kneading ball to have a warming function, the motor is connected with the kneading ball and is used for driving the rotation and the rotating direction of the kneading ball, and the temperature controller is respectively connected with the kneading ball and the motor and is used for controlling the working states of the kneading ball and the motor;

the pillow comfort adjusting module comprises an air bag group and an air bag group controller, wherein the air bag group is positioned in the pillow body or at the bottom of the pillow body, and the air bag group controller adjusts the inflation quantity of the air bag group according to set parameters so as to adjust the height and the shape of the pillow;

the REM monitoring module comprises infrared imaging equipment, an infrared distance measuring signal generator and a face position identification element, wherein the infrared imaging equipment is positioned above a detected target during working, the face position identification element is used for monitoring the sleeping posture of a human body and identifying the face position, and the infrared distance measuring signal generator is arranged obliquely above the pillow body and sends out an infrared distance measuring signal to monitor the rotation condition of eyes;

the sound detection and judgment module comprises an audio sensing element and an audio comparator, wherein the audio sensing element receives audio information, and the audio comparator compares the audio information received by the audio sensor with preset audio information to divide the audio information into snore and environmental noise;

the brain wave monitoring module comprises a brain wave sensor and a brain wave comparator, the brain wave sensor is installed at the contact position of the middle part of the pillow body and the back of the head of a user and receives brain waves of a detected target, and the brain wave comparator compares the brain waves received by the brain wave sensor with a preset brain wave information threshold value to divide the brain waves into brain waves in a waking state and brain waves in a sleeping state.

6. The intelligent pillow according to claim 5, further comprising a sleep quality parameter detection module, wherein the sleep quality parameter detection module comprises a processor and a display, the processor is connected with the physiological parameter monitoring module and used for analyzing and processing the physiological parameter information collected by the physiological parameter monitoring module, and the display is connected with the processor and used for receiving the information of the processor to generate and display a table and/or a curve.

7. The intelligent pillow according to claim 5, further comprising a communication module, wherein the communication module is respectively connected with the physiological parameter monitoring module and the REM monitoring module, and sends a data signal to a preset receiving device when the body physiological parameter or the sleep posture of the user is in an abnormal state; or,

the communication module is connected with the physiological parameter monitoring module, compares the acquired body temperature information with the room temperature information, and sends a data signal to a preset receiving device when the temperature difference between the body temperature and the room temperature of the user is greater than the preset temperature difference.

8. The intelligent pillow according to claim 5, further comprising a snore stopping and sleep posture adjusting module, wherein the snore stopping and sleep posture adjusting module is respectively connected with the audio comparator, the infrared imaging device and the air bag controller, and if the audio information received by the audio comparator is snore or the human body sleeping posture collected by the infrared imaging device is abnormal, the snore stopping and sleep posture adjusting module sends an instruction to the air bag controller to adjust the air bag, so that the purpose of stopping snore is achieved while slightly stimulating a user to adjust the sleep posture by himself.

9. The intelligent pillow of claim 5, further comprising an inverse sound elimination module, wherein the inverse sound elimination module is connected to the sound detection and judgment module and comprises a sound processor and an inverse sound generator, the sound processor is connected to the audio comparator and is used for performing inverse processing on the waveform of the environmental noise emitted by the audio comparator, and the inverse sound generator is connected to the sound processor and is used for receiving the inverse waveform of the environmental noise and generating inverse sound for reducing the noise.

10. The intelligent pillow according to claim 5, further comprising a GAMMA sound wave sleep-aiding module, wherein the GAMMA sound wave sleep-aiding module comprises a brain wave sensor, a brain wave state judging element and a GAMMA sound wave generator, the brain wave sensor is located on the surface of the pillow body and is in contact with the head and neck portion and used for collecting brain wave information of a user, the brain wave state judging element receives the brain wave information collected by the brain wave sensor and judges whether the user is in a sleeping state at the moment, the GAMMA sound wave generator is controlled to work if the user is not in the sleeping state, the GAMMA sound wave generator is controlled to stop working if the user is in the sleeping state, the GAMMA sound wave generator sends soft GAMMA sound waves, and the frequency of the GAMMA sound waves is 25-100 HZ; or,

the device also comprises a hypnosis music playing module, wherein the hypnosis music playing module is connected with the brain wave monitoring module, if the user is not in the sleep state, the hypnosis music playing module is controlled to work, if the user is in the sleep state, the hypnosis music playing module is controlled to stop working, and the hypnosis music playing module is used for playing soft hypnosis music according to the preference of the user.