CN117137719A

CN117137719A - Multifunctional health monitoring hypnotic eye mask device

Info

Publication number: CN117137719A
Application number: CN202310919735.3A
Authority: CN
Inventors: 赵向阳; 时蕾; 高洁; 贾中升; 韩文; 丁芸芸; 郑文华; 王靖媛; 计晓斐; 陈宏昌; 裴杭宇
Original assignee: Qingdao Haier Yikang Technology Co ltd; Qingdao University
Current assignee: Qingdao Haier Yikang Technology Co ltd; Qingdao University
Priority date: 2023-05-26
Filing date: 2023-07-25
Publication date: 2023-12-01

Abstract

The invention belongs to the technical field of eyeshields, and relates to a multifunctional health monitoring and sleep-improving eyeshield device which comprises an eyeshield body, a health monitoring device, a gas detection device, a massage device, a voice device, a preprocessing device, a processing device, an intelligent terminal and the like. The invention integrates the functions of health monitoring, gas detection, alarming, massage, music playing and the like, and has reliable principle and strong practicability.

Description

Multifunctional health monitoring hypnotic eye mask device

Technical field:

the invention belongs to the technical field of eyeshields, and relates to a multifunctional health monitoring hypnotic eyeshield device which can accurately monitor various health information such as body temperature, blood pressure, heart rate, blood oxygen, sleep, brain electricity and the like of a user while wearing the hypnotic eyeshield, can detect ambient air, can illuminate a warning lamp on the eyeshield to give an alarm when monitoring data are abnormal in cooperation with an intelligent terminal, and can realize the functions of controlling a massage device and playing music through voice.

The background technology is as follows:

in recent years, technology development is rapid, life pressure of people is gradually increased, and in order to have good experience during sleeping, many people are used to wearing eyeshields to fall asleep. The conventional eyeshade can only play a role in shading, so that people can fall asleep as soon as possible, and eyeshades with massage and sleep-aiding music are gradually appeared on the market. Night is a predisposing period for certain diseases, such as cerebral infarction, biliary colic, etc., which once they occur at night and the patient is not promptly treated, the consequences are extremely serious. Meanwhile, when people go to sleep at night, toxic gas such as carbon monoxide is not easy to be detected, and a part of people use wrong or aged heating equipment to bring the possibility of gas leakage and fire disaster, so that the household potential safety hazard of people is greatly increased. However, most of the prior eyeshade only has the functions of monitoring sleep quality and improving sleep condition, and can not respond to the leakage of toxic gas in time; meanwhile, the interaction mode of the user and the eyeshade is mostly limited to manual operation, and the eyeshade is inconvenient to operate when being worn.

In the prior art, chinese patent CN214231711U discloses a sleep monitoring eye mask, which comprises an eye mask body for masking an eye part, wherein a first electrode plate, a second electrode plate, a third electrode plate, a fourth electrode plate and a camera are arranged on the eye mask body; when the eye cover body is covered on the eyes, the first electrode plate is attached to the brain and used for collecting brain electrical signals; the second electrode plate is attached to the face and used for collecting oxygen saturation and heart rate signals; the third electrode sheet is attached to the mouth and nose part and used for collecting the information of the mouth and nose air flow; the fourth motor piece is attached to the inner side of the eyeshade body and is opposite to the eyeball part for acquiring eye movement information; the camera shooting area of the camera is positioned at the mouth and is used for collecting mandibular muscle activity information of the mouth; and the multi-biological information acquisition of brain electricity, oxygen saturation, heart rate signals, oral-nasal airflow, eye movement information and mandibular muscle activity information is respectively carried out, so that the sleep state is effectively monitored.

Chinese patent CN112156319a discloses a bone conduction music sleep-aiding system comprising an electroencephalogram signal monitoring component, a bone conduction sleep-aiding pillow component and a processor. An electroencephalogram signal acquisition electrode in the electroencephalogram signal monitoring component is arranged in the middle of the eye cover, a reference voltage acquisition electrode is arranged in an ear clip of the eye cover, the electroencephalogram signal acquisition electrode and the reference voltage acquisition electrode are connected with a TGAM electroencephalogram signal acquisition module, and the TGAM electroencephalogram signal acquisition module analyzes electroencephalogram data according to electrode signals and sends a processor through a Bluetooth signal sending module. The bone conduction loudspeaker in the bone conduction sleep-aiding pillow component acquires the digital signal sent by the processor through the Bluetooth signal receiving module, plays sleep-aiding music and assists in entering a good sleep state. The utility model can provide proper sleep-aiding music according to the current sleep state of the user, improves the sleep-aiding effect, and simultaneously avoids discomfort of wearing the earphone and interference to other people.

Chinese patent CN213430983U discloses an intelligent eye-shade capable of monitoring and improving sleep state, comprising an eye-shade body, a sign monitoring device for collecting sign information of a user, a controller for receiving and processing the sign information, and a sleep assisting device for assisting sleep. The intelligent eye mask provided by the utility model can monitor the sleeping condition of a user, assist the user to fall asleep, provide a better sleeping environment for the user and improve the sleeping effect of the user. However, the above-mentioned prior art can only monitor physical sign data, can not monitor environmental gas and give an alarm, and can not realize the functions of controlling the massage device and playing music through voice.

Through the search and analysis of the inventor, no hypnotic eye mask which can accurately and stably monitor various health of a user such as body temperature, blood pressure, heart rate, blood oxygen and the like, detect environmental gas, and can be matched with an intelligent terminal to light an alarm lamp to alarm when monitoring data are abnormal, and can realize the functions of controlling a massage device and playing music through voice has been disclosed in the prior art. Therefore, the multifunctional health monitoring hypnotic eye mask device can improve the defects of the prior art, increase the types of physical sign monitoring, realize gas detection on the surrounding environment while massaging and playing sleep-aiding music, and further ensure the sleep health and safety of a wearer while improving the sleep quality.

The invention comprises the following steps:

the invention aims to overcome the defects of the prior art, and designs the hypnotic eye mask based on the improvement of the prior hypnotic eye mask, which can accurately and stably monitor various health conditions of a user such as body temperature, blood pressure, heart rate, blood oxygen and the like, realize gas detection on the surrounding environment, and intelligently adjust massage and hypnotic music according to the processing and analysis results of electroencephalogram and electro-oculogram signals so as to achieve the hypnotic effect. The problems that the existing sleeping eye mask cannot monitor the ambient air and give an alarm, and the functions of controlling the massage device and playing music cannot be realized through voice are solved.

In order to achieve the above purpose, the invention provides a multifunctional health monitoring and sleeping eye shield device, which consists of an eye shield body, a health monitoring device, a gas detection device, a massage device, a voice device, a preprocessing device, a transmission device, a processing device, an intelligent terminal and a signal receiving device; the eye cover body is composed of an eye cover body, earrings and a head band, the eye cover body is of a covered sheet-shaped composite layer structure which is attached to the outline of the face, a double-layer design is adopted, the outer layer is made of black nano silver ion fiber fabric, the eye cover has a super-strong shading effect, external light can be effectively isolated, the inner layer of the attached face is made of cotton cloth, the wearing experience is soft and comfortable, the bottom of the eye cover body is of a concave arc-shaped design, the eye cover body is tightly attached to the periphery of the eye, so that visual dead angles are reduced, shading effect is improved, and a seamless sewing technology is adopted at the joint of the double-layer structure of the eye cover body so as to avoid light transmission; the eye-shade body both sides respectively fixedly connected with an earring, the surface of the earring of eye-shade one side is provided with a red light warning light, and the earring is for fixing at the part of ear and laminating behind the ear skin, and its one side of laminating behind the ear skin has used soft silica gel material, and both sides earring is connected by the banded, and the banded wide banded structure for elasticity antiskid material can play effectively fixed control in order to guarantee the steady operation of each sensor and monitor to whole eye-shade.

The health monitoring device comprises a temperature sensor, a PPG health sensor, an EEG sensor and an EOG sensor, wherein the temperature sensor is arranged on the surface of one side of the eardrum, which is attached to one side of the skin behind the ear, and is provided with a plurality of microprotrusion monitoring contacts for collecting the temperature behind the ear; the PPG health sensor comprises an LED emitter and a photoelectric signal receiver, wherein the LED emitter and the photoelectric signal receiver are both positioned on the outer surface of one side of the skin behind the ear, which is attached to the ear, the LED emitter can emit green light, red light and infrared light, and the photoelectric signal receiver is used for receiving light emitted by the LED emitter reflected by a human body; the EEG sensor is provided with a plurality of electrode points for acquiring EEG signals, and is positioned at the upper edge of the inner surface of the eye mask body fitting face, so that the EEG sensor can be opposite to the forehead of a wearer when the hypnotic eye mask is worn; the EOG sensor has a plurality of electrode points for collecting an eye electrical signal, and is disposed on the inner surface of the eye mask body on both sides of the face of the eye mask body so as to be capable of being closely fitted around the eyes of the wearer when the hypnotic eye mask is worn.

The gas detection device comprises a gas-sensitive resistance sensor and a gas purification device, wherein the gas-sensitive resistance sensor is positioned on the outer surface of an eye shield body and converts detected gas components and concentration into electric signals; the gas purifying device is positioned in the eye shield body and is adjacent to the gas sensitive resistor, and is used for removing water vapor, grease, suspended particles and other impurities in the air and then sending the purified air into the gas sensitive resistor for reaction.

The massage device is arranged on the inner surface of the eye mask body, which is attached to the acupoints on the two sides of the face, can cling to the eyes of a wearer, plays a role in massage and relaxation when the massage function is started, and promotes the sleeping of the wearer.

The invention relates to a voice device which comprises a bone conduction device, a microphone and a voice processing device, wherein the bone conduction device is symmetrically arranged on the surface of one side of the left ear button and the right ear button, which is attached to the skin behind the ear, and can spread music through contacting the skin behind the ear and bones; the microphones are arranged at the lower sides of the left ear button and the right ear button, can receive the sound of a wearer and transmit the sound to the voice processing device; the voice processing device is embedded in the eyeshade body and is used for converting voice processing transmitted by the microphone into instruction data, such as playing music, starting the massage device and the like, and transmitting the instruction data to the intelligent terminal.

The invention relates to a preprocessing device which is embedded in an eyeshade body and is used for preprocessing data acquired by a health monitoring device to obtain preprocessed data, and the preprocessing device specifically comprises the following steps: the method comprises the steps of removing excessive high or low noise from temperature data transmitted by a temperature sensor, performing low-pass filtering and high-pass filtering processing on data transmitted by a PPG health sensor to reduce burr and baseline drift, removing useless electrodes, re-referencing, filtering, segmenting and removing eye movement components from electroencephalogram data transmitted by an EEG sensor and eye movement data transmitted by an EOG sensor, performing endpoint detection and band-pass filtering processing on the eye movement data transmitted by the EOG sensor, and performing gain amplification and filtering on gas-sensitive electric signals transmitted by a gas-sensitive resistance sensor and converting the gas-sensitive electric signals into gas-sensitive digital signals.

The transmission device is embedded in the eye shield body, is a Bluetooth device generally, and is used for transmitting the data preprocessed by the preprocessing device to the processing device in the intelligent terminal.

The processing device is arranged in the terminal and processes the preprocessing information transmitted by the preprocessing device to generate various physical sign data, and specifically comprises the following steps: according to the absorption spectrum of the human body on different light rays, calculating the percentage of oxyhemoglobin in blood oxygen by using the lambert beer law on the photoelectric signals acquired and preprocessed by the PPG sensor to obtain blood oxygen data; the temperature sensor is used for acquiring and preprocessing the temperature of the surface of the skin behind the human ear, and comparing the temperature with the actual body temperature to realize temperature conversion, so as to obtain body temperature data; inputting the pulse wave waveform characteristics acquired and preprocessed by the PPG health sensor into a trained blood pressure prediction model to calculate to obtain blood pressure data; calculating heart rate by counting the number of continuous pulse wave peaks in 1 minute through the PPG health sensor to obtain heart rate data; the EEG data acquired by an EEG sensor and preprocessed are used for segmentation, superposition averaging, baseline correction and twice peak detection, the data after operation are used for training a deep learning model, and the EEG data are obtained by means of model calculation; obtaining the speeds of the electro-oculogram horizontal displacement and the electro-oculogram vertical displacement by calculating the slope or difference of the electro-oculogram signals of the EOG sensor, obtaining the distances of the electro-oculogram horizontal displacement and the electro-oculogram vertical displacement by calculating the time difference between two peaks in the electro-oculogram signals, obtaining the frequency and the direction of eyeball movement by calculating the instantaneous frequency of the EOG signals by applying wavelet analysis technology, and finally integrating to obtain electro-oculogram data; and further carrying out peak detection and comparison processing on the gas-sensitive digital signals acquired and preprocessed by the gas-sensitive resistance sensor to obtain gas-sensitive data.

The intelligent terminal is used for carrying out relevant diagnosis, suggestion and alarm according to the sign data of each item obtained after being processed by the processing device, and specifically comprises the following steps: generating diagnosis reports of abnormal body temperature, hypertension, arrhythmia, hypoxia, vitamin A deficiency, night blindness, deep and shallow sleep and the like according to body temperature, blood pressure, heart rate, blood oxygen, brain electricity and eye electricity data, performing REM sleep detection by using a spectrum analysis technology according to characteristic performances of rapid eye movement periods in the eye electricity data, such as high frequency, low amplitude and the like, and connecting relevant reminding and alarming functions in parallel, so that diagnosis and suggestion of body temperature, blood pressure, heart rate, blood oxygen and sleep are realized; when the indexes of blood pressure, blood oxygen, body temperature, heart rate and brain electricity exceed the normal range, an alarm signal is sent to a signal receiving device in the eye cover body, the eye cover body is instructed to start a red alarm lamp to alarm, the abnormal occurrence time and specific indexes are recorded on the intelligent terminal, and the user can dial 120 or inform family members when the monitored value exceeds a set threshold through setting of the user; when the gas-sensitive data transmitted by the gas detection device is abnormal, namely toxic gas is detected, a wearer is awakened by voice through the bone conduction device, whether an alarm is given or not is judged according to the gas concentration and the physical sign condition of the wearer, and the alarm is given immediately once the gas concentration reaches a set threshold value or the physical sign data of the wearer is abnormal; the massage device is controlled to be turned on or off according to the instruction sent by the wearer, or the bone conduction device is controlled to play or turn off music; according to the processing analysis results of the electroencephalogram and the electrooculogram signals, intelligent adjustment of massage and sleep-aiding music is performed, the massage force and the massage method of the massage device are adjusted according to the obtained heart rate, the electroencephalogram report, the sleep condition and the like, the sleep-aiding music type played by the bone conduction device is adjusted, the physical sign data of a wearer is continuously recorded in the process, and an optimal scheme is recommended according to the falling-to-sleep speed of different schemes, so that a special sleep-aiding scheme is realized, wherein the specific adjustment method comprises the following steps: when the electroencephalogram signal is beta wave, the wearer is in an thought state, the massage force is properly adjusted to be large, and the bone conduction device is used for playing white noise so as to relieve pressure and disperse attention, so that the sleep-aiding effect is better realized; when the brain electrical signal is alpha wave, the wearer is in a relaxed state, the massage force is properly slowed down, and the music volume is reduced; when the theta wave appears in the electroencephalogram signal, the wearer starts to enter light sleep, white noise is switched to be music relieving, the volume is reduced, and the massage frequency is reduced; when the brain electrical signal is changed into delta wave, the wearer enters deep sleep, and the massage device and the music are closed to complete sleep assistance.

The signal receiving device is embedded in the earmuff body and is connected with the alarm lamp, the massage device and the bone conduction device, and is used for receiving signals transmitted by the intelligent terminal, and the alarm lamp, the massage device, the bone conduction device and the LED emitter are further controlled and switched through cooperation with the intelligent terminal.

The working process of the device of the invention is as follows:

s1: receiving initial data: receiving initial data acquired by a health monitoring device and receiving gas-sensitive electrical signals detected by a gas detection device, wherein the health monitoring device comprises a temperature sensor, a PPG health sensor, an EEG sensor and an EOG sensor, the PPG health sensor comprises an LED emitter and a photoelectric signal receiver, the initial data comprise a multi-point skin temperature behind the ear, an ambient temperature, light emitted by the LED emitter reflected by a human body, an electroencephalogram signal acquired by the EEG sensor and an eye electrical signal acquired by the EOG sensor, and the gas detection device comprises a gas-sensitive resistance sensor and a gas purification device;

s2: pretreatment operation: the method comprises the steps of preprocessing received initial data to obtain preprocessed data, enabling the initial data to be easy to analyze and calculate, wherein the preprocessing operation comprises the operation of removing excessive high or excessive low noise from temperature data transmitted by a temperature sensor, the operation of performing low-pass filtering and high-pass filtering on data transmitted by a PPG health sensor to reduce burrs and baseline drifting, the operation of removing useless electrodes, re-referencing, filtering, segmenting and removing eye movement components from electroencephalogram data transmitted by an EEG sensor and eye movement data transmitted by an EOG sensor, the operation of performing endpoint detection and band-pass filtering on the eye movement data transmitted by the EOG sensor, and the operation of performing gain amplification and filtering on gas-sensitive electric signals transmitted by a gas-sensitive resistance sensor and converting the gas-sensitive electric signals into gas-sensitive digital signals;

S3: the processing operation comprises the following steps: further processing operation is carried out on the preprocessed data to generate various sign data, and the processing operation specifically comprises the following steps: according to the absorption spectrum of the human body on different light rays, calculating the percentage of oxyhemoglobin in blood oxygen by using the lambert beer law on the photoelectric signals acquired and preprocessed by the PPG sensor to obtain blood oxygen data; the temperature sensor is used for acquiring and preprocessing the temperature of the surface of the skin behind the human ear, and comparing the temperature with the actual body temperature to realize temperature conversion, so as to obtain body temperature data; inputting the pulse wave waveform characteristics acquired and preprocessed by the PPG health sensor into a trained blood pressure prediction model to calculate to obtain blood pressure data; calculating heart rate by counting the number of continuous pulse wave peaks in 1 minute through the PPG health sensor to obtain heart rate data; the EEG data acquired by an EEG sensor and preprocessed are used for segmentation, superposition averaging, baseline correction and twice peak detection, the data after operation are used for training a deep learning model, and the EEG data are obtained by means of model calculation; further peak detection and comparison processing are carried out on the gas-sensitive digital signals acquired and preprocessed by the gas-sensitive resistance sensor, so as to obtain gas-sensitive data;

S4: diagnostic alarm operation: according to the sign data obtained after the processing by the processing device, relevant diagnosis, suggestion and alarm are carried out, and the method specifically comprises the following steps: generating diagnosis reports of abnormal body temperature, hypertension, arrhythmia, hypoxia, vitamin A deficiency, night blindness, deep and shallow sleep and the like according to body temperature, blood pressure, heart rate, blood oxygen, brain electricity and eye electricity data, performing REM sleep detection by using a spectrum analysis technology according to characteristic performances of rapid eye movement periods in the eye electricity data, such as high frequency, low amplitude and the like, and connecting relevant reminding and alarming functions in parallel, so that diagnosis and suggestion of body temperature, blood pressure, heart rate, blood oxygen and sleep are realized; when the indexes of blood pressure, blood oxygen, body temperature, heart rate and brain electricity exceed the normal range, an alarm signal is sent to a signal receiving device in the eye cover body, the signal receiving device is instructed to start a red alarm lamp to alarm, the abnormal occurrence time and specific indexes are recorded on the intelligent terminal, and through the setting of a wearer, when the monitored value exceeds a set threshold value, the user dials 120 or informs family members; when the gas-sensitive data transmitted by the gas detection device is abnormal, namely toxic gas is detected, a wearer is awakened by voice through the bone conduction device, whether an alarm is given or not is judged according to the gas concentration and the physical sign condition of the wearer, and the alarm is given immediately once the gas concentration reaches a set threshold value or the physical sign data of the wearer is abnormal;

S5: voice collection and control operation: the voice transmitted by the bone conduction device is processed and converted into instruction data through the voice processing device, such as playing music, starting the massage device and the like, and the massage device is controlled to be turned on or turned off through the signal receiving device according to the instruction sent by a wearer, or the bone conduction device is controlled to play or turn off the music; according to the processing analysis results of the electroencephalogram and the electrooculogram signals, the massage and sleep-aiding music is intelligently adjusted, the massage force and the massage method of the massage device are adjusted according to the obtained heart rate, the electroencephalogram report, the sleep condition and the like, and the sleep-aiding music type played by the bone conduction device is adjusted, wherein the specific adjustment method is as follows: when the electroencephalogram signal is beta wave, the wearer is in an thought state, the massage force is properly adjusted to be large, and the bone conduction device is used for playing white noise so as to relieve pressure and disperse attention, so that the sleep-aiding effect is better realized; when the brain electrical signal is alpha wave, the wearer is in a relaxed state, the massage force is properly slowed down, and the music volume is reduced; when the theta wave appears in the electroencephalogram signal, the wearer starts to enter light sleep, white noise is switched to be music relieving, the volume is reduced, and the massage frequency is reduced; when the brain electrical signal is changed into delta wave, the wearer enters deep sleep, and the massage device and the music are closed to complete sleep assistance.

According to the invention, the body temperature, the blood pressure, the heart rate and the blood oxygen of a user can be stably and accurately monitored through the mutual coordination of materials and structures, if the measured body temperature, the blood pressure, the heart rate and the blood oxygen data are normal, the health condition is displayed, if certain data exceed the normal numerical value area, diagnostic reports such as abnormal body temperature, hypertension, arrhythmia and hypoxia are correspondingly generated, wherein the normal numerical value area is as follows: the body temperature is 36-37 ℃, the blood pressure is 90-139/60-89mmHg, the heart rate is 60-100 times/minute, the blood oxygen is 95-100%, and the electrooculogram data is 2.4+/-0.34; the sleeping state and quality of the user, such as drowsiness period, light sleeping period, deep sleeping period and fast wave sleeping period, can be measured and calculated through the brain electrical data. The user can set various alarm values according to the own physical condition, such as the body temperature is lower than 36 ℃ or higher than 37.3 ℃, the blood pressure is higher than 150mmHg, lower than 85mmHg or lower than 95mmHg, lower than 55mmHg, the heart rate is higher than 110 times/min or lower than 55 times/min, the blood oxygen is lower than 92%, the brain electrical data show spike wave, sharp wave, spike-speed compound wave and sharp-speed compound wave, the eye electrical data are higher than 2.74 or lower than 2.06, if the current data reach the alarm range, the alarm state is entered, the hearing aid is instructed to start a red light alarm lamp, so that the vigilance of other people around is conveniently caused, and the rescue is conveniently implemented; the user can also set whether to automatically dial the alarm call when the data reach the alarm value, and input the alarm call to be dialed, and when the data reach the alarm value, the intelligent terminal can automatically dial the alarm call to carry out first aid, so that the user can be effectively cured when the physical state is abnormal and the user is alone. Meanwhile, when the intelligent terminal receives the processed gas-sensitive data, the content of formaldehyde, acetaldehyde, acrolein and other substances in the gas can be judged through the data, so that the gas leakage or other toxic gas leakage can be judged, or the air quality can be detected; when the toxic gas content suddenly rises to exceed the safety threshold, the intelligent terminal sends out an instruction to wake up the voice of the user by using the bone conduction device

Compared with the prior art, the invention has the following advantages: (1) The invention can monitor physiological signals such as blood pressure, blood oxygen, heart rate and the like, can monitor brain electricity and eye electrical signals, and provides more comprehensive sleep sign monitoring service; (2) The gas detection device can effectively detect the change of the gas environment and provide effective emergency measures for preventing sudden emergency situations such as fire disaster, toxic gas leakage and the like during sleeping; (3) According to the invention, the massage device can be controlled to be turned on or turned off according to the voice command sent by the wearer, or the bone conduction device is controlled to play or turn off music, and the massage and sleep-aiding music is intelligently adjusted according to the processing and analysis results of the electroencephalogram and the electro-oculogram signals, so that the operation of the wearer when the eye mask is worn is more convenient and easy, and the sleep-aiding effect is better; (4) The invention is externally provided with an obvious alarm lamp and an intelligent terminal, so that when monitoring data is abnormal, the alarm lamp can be turned on immediately to give an alarm, and an emergency contact is sent to give an alarm notice, and the invention can dial 120 for emergency treatment when the monitoring data reaches a set threshold value; (5) The invention adopts the covering type sheet composite layer structure which is designed to be attached to the streamline of the face of a human body, and combines the black nano silver ion fiber fabric and cotton cloth, so that the eyeshade can effectively isolate external light while being soft and comfortable to wear, and a plurality of sensor contacts are used, slightly bulges at the contacts, so that the whole eyeshade has stability and attachment, and the measurement accuracy is ensured. The whole structure of the sleeping-aiding device is scientific and reasonable, good in wearing stability and comfort, accurate in measurement, obvious in alarming effect, ideal in sleeping-aiding effect, long in service life and friendly in application environment.

Description of the drawings:

fig. 1 is a schematic structural diagram of a multifunctional health monitoring eye mask device according to the present invention.

Fig. 2 is a schematic structural diagram of an eye mask body of the multifunctional health monitoring eye mask device according to the present invention.

Fig. 3 is a schematic view of the structural principle of the other side of the eye-shade body of the multifunctional health monitoring hypnotic eye-shade device according to the invention.

Fig. 4 is a process flow diagram of a method for monitoring a multi-functional health monitoring hypnotic eye mask device in accordance with the present invention.

The specific embodiment is as follows:

the technical scheme of the invention is further described below with reference to the accompanying drawings and specific embodiments.

Example 1:

as shown in the figure, the multifunctional health monitoring and sleep-improving eye mask device according to the embodiment 1 is composed of an eye mask body 1, a health monitoring device 2, a gas detection device 3, a massage device 4, a voice device 5, a preprocessing device 6, a transmission device 7, a processing device 8, an intelligent terminal 9 and a signal receiving device 10, and specifically comprises the eye mask body 1, the eye mask body 101, an ear clip 102, a head strap 103, an alarm lamp 104, the health monitoring device 2, a temperature sensor 201, an EEG sensor 202, an EOG sensor 203, a PPG health sensor, an LED transmitter 204, a photoelectric signal receiver 205, the gas detection device 3, a gas-sensitive resistor sensor 301, a gas purification device, the massage device 4, a voice device 5, a bone conduction device 501, a microphone 502, a voice processing device 503, the preprocessing device 6, the transmission device 7, the processing device 8, the intelligent terminal 9 and the signal receiving device 10;

The eye shade body 1 consists of an eye shade body 101, earrings 102 and a head band 103, wherein the eye shade body 101 is of a covered sheet-shaped composite layer structure for fitting the outline of a face, a double-layer design is adopted, the outer layer is made of black nano silver ion fiber fabric, the ultra-strong shading effect is achieved, the external light can be effectively isolated, the inner layer of the fitting face is made of cotton cloth, the wearing experience is soft and comfortable, the bottom of the eye shade body 101 is of a concave arc-shaped design, the eye shade body is tightly fitted with the eyes, so that visual dead angles are reduced, the shading effect is improved, and a seamless sewing technology is adopted at the joint of the double-layer structure of the eye shade body 101 so as to avoid light transmission; the two sides of the eye cover body 101 are fixedly connected with one ear clip 102 respectively, the outer surface of the ear clip 102 on one side of the eye cover is provided with a red light alarm lamp 104, the ear clip 102 is a part which can be fixed on an ear and is attached to the skin behind the ear, soft silica gel materials are used on one side of the skin behind the ear, the ear clips 102 on two sides are connected by a head band 103, the head band 103 is of a wide band-shaped structure made of elastic anti-slip materials, and the eye cover can be effectively fixed left and right to ensure the stable operation of each sensor and monitor;

the health monitoring device 2 comprises a temperature sensor 201, a PPG health sensor, an EEG sensor 202 and an EOG sensor 203, wherein the temperature sensor 201 is arranged on the surface of one side of the eardrum 102, which is attached to the skin behind the ear, and is provided with a plurality of microprotrusion monitoring contacts for collecting the temperature behind the ear; the PPG health sensor comprises an LED emitter 204 and a photoelectric signal receiver 205, both positioned on the outer surface of one side of the other side, which is attached to the skin behind the ear, wherein the LED emitter 204 can emit green light, red light and infrared light, and the photoelectric signal receiver 205 is used for receiving the light emitted by the LED emitter 204 reflected by the human body; the EEG sensor 202 has a plurality of electrode points for acquiring brain electrical signals, all located at the upper edge of the inner surface of the mask body 101 on the face, so that it can be faced to the forehead of the wearer when the hypnotic mask is worn; the EOG sensor 203 has a plurality of electrode points for collecting an eye electrical signal, and is disposed on the inner surface of the eye mask body 101 which is attached to the peripheral portions of the two sides of the face so as to be capable of being attached around the eyes of the wearer when the hypnotic eye mask is worn;

The gas detection device 3 includes a gas-sensitive resistance sensor 301 and a gas purification device, the gas-sensitive resistance sensor 301 being located on the outer surface of the eye-shade body 101, converting the detected gas components and concentrations into electrical signals; the gas purifying device is positioned in the eye mask body 101 and is close to the gas sensitive resistor, and is used for removing water vapor, grease, suspended particles and other impurities in the air and then sending the purified air into the gas sensitive resistor for reaction;

the massage device 4 is arranged on the inner surface of the eye cover body 101, which is attached to the acupoints on the two sides of the face, can be attached to the eyes of the wearer, plays a role in massage and relaxation when the massage function is started, and promotes the sleeping of the wearer;

the voice device 5 comprises a bone conduction device 501, a microphone 502 and a voice processing device 503, wherein the bone conduction device 501 is symmetrically arranged on the surface of the left and right earrings 102, which is attached to the skin behind the ear, and can transmit music by contacting the skin behind the ear and bones; the microphone 502 is disposed at the lower side of the left and right earpieces 102, and is capable of receiving the sound of the wearer and transmitting it to the voice processing device 503; the voice processing device 503 is embedded in the eye mask body 1, and is used for converting voice processing transmitted from the microphone 502 into instruction data, such as playing music, starting the massaging device 4, etc., and transmitting the instruction data to the intelligent terminal 9;

The preprocessing device 6 is embedded in the eyeshade body 1, and is used for preprocessing the data collected by the health monitoring device 2 to obtain preprocessed data, and specifically comprises: the method comprises the steps of performing operations of removing excessive high noise or excessive low noise on temperature data transmitted by a temperature sensor 201, performing low-pass filtering and high-pass filtering on data transmitted by a PPG health sensor to reduce burr and baseline drift, performing operations of removing useless electrodes, re-referencing, filtering, segmenting and removing eye movement components on electroencephalogram data transmitted by an EEG sensor 202 and eye movement data transmitted by an EOG sensor 203, performing endpoint detection and band-pass filtering on the eye movement data transmitted by the EOG sensor 203, performing operations of gain amplification and filtering on a gas-sensitive electric signal transmitted by a gas-sensitive resistance sensor 301, and converting the gas-sensitive electric signal into a gas-sensitive digital signal;

the transmission device 7 is embedded in the eye mask body 1, is a Bluetooth device generally, and is used for transmitting the data preprocessed by the preprocessing device 6 to the processing device 8 in the intelligent terminal 9;

the processing device 8 is arranged inside the terminal, processes the preprocessing information transmitted by the preprocessing device 6, and generates various physical sign data, and specifically includes: according to the absorption spectrum of the human body on different light rays, calculating the percentage of oxyhemoglobin in blood oxygen by using the lambert beer law on the photoelectric signals acquired and preprocessed by the PPG sensor to obtain blood oxygen data; the temperature sensor 201 is used for acquiring and preprocessing the temperature of the surface of the skin behind the human ear, and comparing the temperature with the actual body temperature to realize temperature conversion, so as to obtain body temperature data; inputting the pulse wave waveform characteristics acquired and preprocessed by the PPG health sensor into a trained blood pressure prediction model to calculate to obtain blood pressure data; calculating heart rate by counting the number of continuous pulse wave peaks in 1 minute through the PPG health sensor to obtain heart rate data; segmentation, superposition averaging, baseline correction and two peak detection are carried out on the EEG data acquired and preprocessed by the EEG sensor 202, the data after operation are used for training a deep learning model, and the EEG data are obtained by calculation of the model; obtaining the speeds of the electro-oculogram horizontal displacement and the electro-oculogram vertical displacement by calculating the slope or difference of the electro-oculogram signals of the EOG sensor 203, obtaining the distances of the electro-oculogram horizontal displacement and the electro-oculogram vertical displacement by calculating the time difference between two peaks in the electro-oculogram signals, obtaining the frequency and the direction of eyeball movement by calculating the instantaneous frequency of the EOG signals by applying a wavelet analysis technology, and finally integrating to obtain electro-oculogram data; further peak detection and comparison processing are carried out on the gas-sensitive digital signals acquired and preprocessed by the gas-sensitive resistance sensor 301, so as to obtain gas-sensitive data;

The intelligent terminal 9 is used for performing related diagnosis, suggestion and alarm according to various sign data obtained after being processed by the processing device 8, and specifically comprises the following steps: generating diagnosis reports of abnormal body temperature, hypertension, arrhythmia, hypoxia, vitamin A deficiency, night blindness, deep and shallow sleep and the like according to body temperature, blood pressure, heart rate, blood oxygen, brain electricity and eye electricity data, performing REM sleep detection by using a spectrum analysis technology according to characteristic performances of rapid eye movement periods in the eye electricity data, such as high frequency, low amplitude and the like, and connecting relevant reminding and alarming functions in parallel, so that diagnosis and suggestion of body temperature, blood pressure, heart rate, blood oxygen and sleep are realized; when the indexes of blood pressure, blood oxygen, body temperature, heart rate and brain electricity exceed the normal range, an alarm signal is sent to the signal receiving device 10 in the eye cover body 1, the signal receiving device instructs the red alarm lamp 104 to be started for alarming, the abnormal occurrence time and specific indexes are recorded on the intelligent terminal 9, and the user can dial 120 or inform family members when the monitored value exceeds the set threshold through the setting of the user; when the gas-sensitive data transmitted by the gas detection device 3 is abnormal, namely toxic gas is detected, the bone conduction device 501 wakes up the wearer through voice, judges whether to alarm according to the gas concentration and the physical sign condition of the wearer, and immediately alarms once the gas concentration reaches a set threshold value or the physical sign data of the wearer is abnormal; the massage device 4 is controlled to be turned on or off according to the instruction sent by the wearer, or the bone conduction device 501 is controlled to play or turn off music; according to the processing analysis results of the electroencephalogram and the electrooculogram signals, the massage and sleep-aiding music is intelligently adjusted, the massage force and the massage method of the massage device 4 are adjusted according to the obtained heart rate, the electroencephalogram report, the sleep condition and the like, the sleep-aiding music type played by the bone conduction device 501 is adjusted, the physical sign data of a wearer is continuously recorded in the process, and the optimal scheme is recommended according to the falling-to-sleep speed of different schemes, so that the special sleep-aiding scheme is realized, wherein the specific adjustment method is as follows: when the brain electrical signal is beta wave, the wearer is in an thought state, the massage force is properly adjusted to be large, and the bone conduction device 501 is used for playing white noise so as to relieve pressure and disperse attention, so that the sleep-aiding effect is better realized; when the brain electrical signal is alpha wave, the wearer is in a relaxed state, the massage force is properly slowed down, and the music volume is reduced; when the theta wave appears in the electroencephalogram signal, the wearer starts to enter light sleep, white noise is switched to be music relieving, the volume is reduced, and the massage frequency is reduced; when the electroencephalogram signal is changed into delta wave, the wearer enters deep sleep, the massage device and the music are closed, and sleep aiding is completed;

The signal receiving device 10 is embedded in the earmuff body and is connected with the alarm lamp 104, the massage device 4 and the bone conduction device 501, and is used for receiving signals transmitted by the intelligent terminal 9, and further controlling and switching the alarm lamp 104, the massage device 4, the bone conduction device 501 and the LED transmitter 204 through matching with the intelligent terminal 9.

When performing operations such as diagnosis generation and suggestion, the intelligent terminal 9 of the multifunctional health monitoring and hypnotic eye mask device according to the embodiment displays health condition if body temperature, blood pressure, heart rate, blood oxygen, brain electricity and electrooculogram data are normal, and correspondingly generates diagnosis reports such as abnormal body temperature, hypertension, arrhythmia, hypoxia, vitamin a deficiency, night blindness and light sleep if certain data exceed a normal numerical value region, wherein the normal numerical value region is: the body temperature is 36-37 ℃, the blood pressure is 90-139/60-89mmHg, the heart rate is 60-100 times/minute, the blood oxygen is 95-100%, and the electrooculogram data is 2.4+/-0.34; the sleeping state and quality of the user, such as drowsiness period, light sleeping period, deep sleeping period and fast wave sleeping period, can be measured and calculated through the brain electrical data. The user can set various alarm values according to the own physical condition, such as the body temperature is lower than 36 ℃ or higher than 37.3 ℃, the blood pressure is higher than 150mmHg, lower than 85mmHg or lower than 95mmHg, lower than 55mmHg, the heart rate is higher than 110 times/min or lower than 55 times/min, the blood oxygen is lower than 92%, the electroencephalogram data show spike wave, spike wave composite wave and spike wave composite wave, the electrooculogram data are higher than 2.74 or lower than 2.06, if the current data reach the alarm range, the alarm state is entered, the red alarm lamp 104 is started, the alertness of other people around is conveniently caused, and the rescue is conveniently implemented; the user can also set whether to automatically dial an alarm call when the data reach the alarm value, and input the alarm call to be dialed, and when the data reach the alarm value, the intelligent terminal 9 can automatically dial the alarm call to carry out first aid, so that the user can be effectively cured when the physical state is abnormal and the user is alone.

When the intelligent terminal 9 of the multifunctional health monitoring hypnotic eye mask device receives the processed gas-sensitive data, the content of substances such as formaldehyde, acetaldehyde, acrolein and the like in the gas can be judged through the data, so that the gas leakage or other toxic gas leakage can be judged, or the air quality can be detected; when the toxic gas content suddenly rises beyond the safety threshold, the intelligent terminal 9 will instruct the user to wake up by voice using the bone conduction device 501.

The intelligent terminal 9 of the multifunctional health monitoring eye-mask device according to the embodiment can also switch the light of the LED emitter 204 through the user-defined setting, when the LED emitter 204 emits a light beam with a certain wavelength to irradiate the skin surface, the contraction and expansion of the blood vessel can affect the light transmission or the light reflection during each heartbeat, when the light passes through the skin tissue and then is reflected to the photoelectric signal receiver 205, the light can be attenuated to a certain extent, the absorption of the light by muscles, bones, veins and other connecting tissues is basically unchanged, but the obtained signal can be divided into a Direct Current (DC) signal and an Alternating Current (AC) signal due to the different absorption of the pulsation of the blood to other tissues, the characteristics of blood flow can be reflected, but when the skin color is darker or the skin surface texture to be measured has tattoos, the red light has insignificant effect in the measurement process, compared with the green light can be absorbed by oxyhemoglobin and deoxyhemoglobin, the measurement effect can be obtained more accurately, and the measurement accuracy of the group can be increased due to the switching of the light color.

Example 2:

this embodiment relates to a method of operating the multi-functional health monitoring hypnotic eye mask device of embodiment 1, comprising the steps of:

s1: receiving initial data: receiving initial data acquired by the health monitoring device 2 and receiving gas-sensitive electrical signals detected by the gas detection device 3, wherein the health monitoring device 22 comprises a temperature sensor 201, a PPG health sensor, an EEG sensor 202 and an EOG sensor 203, the PPG health sensor comprises an LED emitter 204 and a photoelectric signal receiver 205, the initial data comprises a multi-point skin temperature behind the ear, an ambient temperature, light emitted by the LED emitter 204 reflected by a human body, an EEG signal acquired by the EEG sensor 202 and an eye electrical signal acquired by the EOG sensor 203, and the gas detection device 3 comprises a gas-sensitive resistor sensor 301 and a gas purifying device;

s2: pretreatment operation: the method comprises the steps of preprocessing received initial data to obtain preprocessed data, and enabling the initial data to be easy to analyze and calculate, wherein the preprocessing operation comprises the operation of removing excessive high or excessive low noise from the temperature data transmitted by a temperature sensor 201, the operation of performing low-pass filtering and high-pass filtering on the data transmitted by a PPG health sensor to reduce burrs and baseline drifting, the operation of removing useless electrodes, re-referencing, filtering, segmenting and removing eye movement components from electroencephalogram data transmitted by an EEG sensor 202 and eye movement data transmitted by an EOG sensor 203, the operation of performing endpoint detection and band-pass filtering on the eye movement data transmitted by the EOG sensor 203, and the operation of performing gain amplification and filtering on a gas-sensitive electric signal transmitted by a gas-sensitive resistance sensor 301 and converting the gas-sensitive electric signal into a gas-sensitive digital signal;

S3: the processing operation comprises the following steps: further processing operation is carried out on the preprocessed data to generate various sign data, and the processing operation specifically comprises the following steps: according to the absorption spectrum of the human body on different light rays, calculating the percentage of oxyhemoglobin in blood oxygen by using the lambert beer law on the photoelectric signals acquired and preprocessed by the PPG sensor to obtain blood oxygen data; the temperature sensor 201 is used for acquiring and preprocessing the temperature of the surface of the skin behind the human ear, and comparing the temperature with the actual body temperature to realize temperature conversion, so as to obtain body temperature data; inputting the pulse wave waveform characteristics acquired and preprocessed by the PPG health sensor into a trained blood pressure prediction model to calculate to obtain blood pressure data; calculating heart rate by counting the number of continuous pulse wave peaks in 1 minute through the PPG health sensor to obtain heart rate data; segmentation, superposition averaging, baseline correction and two peak detection are carried out on the EEG data acquired and preprocessed by the EEG sensor 202, the data after operation are used for training a deep learning model, and the EEG data are obtained by calculation of the model; further peak detection and comparison processing are carried out on the gas-sensitive digital signals acquired and preprocessed by the gas-sensitive resistance sensor 301, so as to obtain gas-sensitive data;

S4: diagnostic alarm operation: according to the various sign data obtained after the processing by the processing device 8, relevant diagnosis, suggestion and alarm are carried out, and the method specifically comprises the following steps: generating diagnosis reports of abnormal body temperature, hypertension, arrhythmia, hypoxia, vitamin A deficiency, night blindness, deep and shallow sleep and the like according to body temperature, blood pressure, heart rate, blood oxygen, brain electricity and eye electricity data, performing REM sleep detection by using a spectrum analysis technology according to characteristic performances of rapid eye movement periods in the eye electricity data, such as high frequency, low amplitude and the like, and connecting relevant reminding and alarming functions in parallel, so that diagnosis and suggestion of body temperature, blood pressure, heart rate, blood oxygen and sleep are realized; when the indexes of blood pressure, blood oxygen, body temperature, heart rate and brain electricity exceed the normal range, an alarm signal is sent to a signal receiving device 10 in the eye cover body 1, the signal receiving device instructs the eye cover body to start a red alarm lamp 104 to alarm, the abnormal occurrence time and specific indexes are recorded on the intelligent terminal 9, and through the setting of a wearer, when the monitored value exceeds a set threshold value, the user dials 120 or informs family members; when the gas-sensitive data transmitted by the gas detection device 3 is abnormal, namely toxic gas is detected, the bone conduction device 501 wakes up the wearer through voice, judges whether to alarm according to the gas concentration and the physical sign condition of the wearer, and immediately alarms once the gas concentration reaches a set threshold value or the physical sign data of the wearer is abnormal;

S5: voice collection and control operation: the voice transmitted by the bone conduction device 501 is processed and converted into instruction data by the voice processing device 503, such as playing music, starting the massage device 4, etc., and the massage device 4 is controlled to be turned on or off by the signal receiving device 10 according to the instruction sent by the wearer, or the bone conduction device 501 is controlled to play or turn off the music; according to the processing analysis results of the electroencephalogram and the electrooculogram signals, the massage and sleep-aiding music is intelligently adjusted, the massage force and the massage method of the massage device 4 are adjusted according to the obtained heart rate, the electroencephalogram report, the sleep condition and the like, and the sleep-aiding music type played by the bone conduction device 501 is adjusted, wherein the specific adjustment method is as follows: when the brain electrical signal is beta wave, the wearer is in an thought state, the massage force is properly adjusted to be large, and the bone conduction device 501 is used for playing white noise so as to relieve pressure and disperse attention, so that the sleep-aiding effect is better realized; when the brain electrical signal is alpha wave, the wearer is in a relaxed state, the massage force is properly slowed down, and the music volume is reduced; when the theta wave appears in the electroencephalogram signal, the wearer starts to enter light sleep, white noise is switched to be music relieving, the volume is reduced, and the massage frequency is reduced; when the brain electrical signal is changed into delta wave, the wearer enters deep sleep, and the massage device and the music are closed to complete sleep assistance.

Claims

1. A multi-functional health monitoring hypnotic eye-shade device, its characterized in that: the device comprises an eye shade body, a health monitoring device, a gas detection device, a massage device, a voice device, a preprocessing device, a transmission device, a processing device, an intelligent terminal and a signal receiving device; the eye cover body is of a covered sheet-shaped composite layer structure which is attached to the outline of the face, the eye cover body adopts a double-layer structure design, two sides of the eye cover body are fixedly connected with one ear clip respectively, the outer surface of the ear clip on one side of the eye cover body is provided with a red light alarm lamp, the ear clip can be fixed on the ear part which is attached to the skin behind the ear, the ear clips on the two sides are connected by the head band, and the head band is of a wide band-shaped structure; the gas detection device is arranged on the eye cover body and is used for detecting gas and is connected with the intelligent terminal; the massage device is arranged on the inner surface of the eye mask body, which is attached to the acupoints on the two sides of the face, can be clung to the eyes of a wearer, and is used for playing a role in massage and relaxation when the massage function is started and is connected with the intelligent terminal; the voice device is arranged on the ear button and used for converting voice processing into instruction data and playing music, and is connected with the intelligent terminal; the health monitoring device is fixed on the ear buckle and used for collecting various physical sign data and is connected with the preprocessing device; the preprocessing device is embedded in the eye shield body and is used for preprocessing data acquired by the health monitoring device to obtain preprocessed data; the transmission device is embedded in the eyeshade body and is used for transmitting the data preprocessed by the preprocessing device to the processing device in the intelligent terminal; the processing device is arranged in the terminal and is used for processing the preprocessing information transmitted by the preprocessing device to generate various sign data; the intelligent terminal is used for carrying out relevant diagnosis, suggestion and alarm according to the various sign data obtained after being processed by the processing device, carrying out awakening and alarm according to the gas-sensitive data transmitted by the gas detection device, and controlling the massage device and the voice device to carry out sleep-aiding operation; the signal receiving device is embedded in the earmuff body and is connected with the alarm lamp, the massage device and the bone conduction device, and is used for receiving signals transmitted by the intelligent terminal, and further controlling and switching the alarm lamp, the massage device, the bone conduction device and the LED emitter through matching with the intelligent terminal.

2. The multi-functional health monitoring hypnotic eye-mask device according to claim 1, wherein: the eye-shade body skin be black nanometer silver ion fiber surface fabric, the inlayer of laminating facial is the cotton material, eye-shade body bottom adopts the sunken circular-arc design of closely laminating with the periocular, eye-shade body bilayer structure seam crossing adopts seamless sewing technology in order to avoid printing opacity, the earring one side of laminating behind the ear skin have used soft silica gel material, bandeau be elasticity antiskid material.

3. The multi-functional health monitoring hypnotic eye-mask device according to claim 1, wherein: the gas detection device comprises a gas-sensitive resistance sensor and a gas purification device, wherein the gas-sensitive resistance sensor is positioned on the outer surface of the eye shield body and is used for converting detected gas components and concentration into electric signals; the gas purifying device is positioned in the eye shield body and is adjacent to the gas sensitive resistor, and is used for removing water vapor, grease and suspended particle impurities in the air and then sending the purified air into the gas sensitive resistor for reaction.

4. The multi-functional health monitoring hypnotic eye-mask device according to claim 1, wherein: the voice device comprises a bone conduction device, a microphone and a voice processing device, wherein the bone conduction device is symmetrically arranged on the surface of one side of the left ear button and the right ear button, which is attached to the skin behind the ear, and is used for transmitting music through contacting the skin behind the ear and bones; the microphones are arranged at the lower sides of the left ear button and the right ear button and are used for receiving the sound of a wearer and transmitting the sound to the voice processing device; the voice processing device is embedded in the eyeshade body and is used for converting voice processing transmitted by the microphone into instruction data and transmitting the instruction data to the intelligent terminal.

5. The multi-functional health monitoring hypnotic eye-mask device according to claim 1, wherein: the health monitoring device comprises a temperature sensor, a PPG health sensor, an EEG sensor and an EOG sensor, wherein the temperature sensor is arranged on the surface of one side of the earmuff attached to one side of the skin behind the ear, and is provided with a plurality of microprotrusion monitoring contacts for collecting the temperature behind the ear; the PPG health sensor comprises an LED emitter and a photoelectric signal receiver, wherein the LED emitter and the photoelectric signal receiver are both positioned on the outer surface of one side of the skin behind the ear, which is attached to the ear, the LED emitter can respectively emit green light, red light and infrared light, and the photoelectric signal receiver is used for receiving light emitted by the LED emitter reflected by a human body; the EEG sensor is provided with a plurality of electrode points for acquiring EEG signals, and is positioned at the upper edge of the inner surface of the eye mask body fitting face, so that the EEG sensor can be opposite to the forehead of a wearer when the hypnotic eye mask is worn; the EOG sensor has a plurality of electrode points for collecting an eye electrical signal, and is disposed on the inner surface of the eye mask body on both sides of the face of the eye mask body so as to be capable of being closely fitted around the eyes of the wearer when the hypnotic eye mask is worn.

6. The multi-functional health monitoring hypnotic eye-mask device according to claim 1, wherein: the pretreatment operation performed by the pretreatment device specifically comprises the following steps: the method comprises the steps of removing excessive high or low noise from temperature data transmitted by a temperature sensor, performing low-pass filtering and high-pass filtering processing on data transmitted by a PPG health sensor to reduce burr and baseline drift, removing useless electrodes, re-referencing, filtering, segmenting and removing eye movement components from electroencephalogram data transmitted by an EEG sensor and eye movement data transmitted by an EOG sensor, performing endpoint detection and band-pass filtering processing on the eye movement data transmitted by the EOG sensor, and performing gain amplification and filtering on gas-sensitive electric signals transmitted by a gas-sensitive resistance sensor and converting the gas-sensitive electric signals into gas-sensitive digital signals.

7. The multi-functional health monitoring hypnotic eye-mask device according to claim 1, wherein: the processing device specifically processes the preprocessing information of the preprocessing device, and the processing device specifically comprises: according to the absorption spectrum of the human body on different light rays, calculating the percentage of oxyhemoglobin in blood oxygen by using the lambert beer law on the photoelectric signals acquired and preprocessed by the PPG sensor to obtain blood oxygen data; the temperature sensor is used for acquiring and preprocessing the temperature of the surface of the skin behind the human ear, and comparing the temperature with the actual body temperature to realize temperature conversion, so as to obtain body temperature data; inputting the pulse wave waveform characteristics acquired and preprocessed by the PPG health sensor into a trained blood pressure prediction model to calculate to obtain blood pressure data; calculating heart rate by counting the number of continuous pulse wave peaks in 1 minute through the PPG health sensor to obtain heart rate data; the EEG data acquired by an EEG sensor and preprocessed are used for segmentation, superposition averaging, baseline correction and twice peak detection, the data after operation are used for training a deep learning model, and the EEG data are obtained by means of model calculation; obtaining the speeds of the electro-oculogram horizontal displacement and the electro-oculogram vertical displacement by calculating the slope or difference of the electro-oculogram signals of the EOG sensor, obtaining the distances of the electro-oculogram horizontal displacement and the electro-oculogram vertical displacement by calculating the time difference between two peaks in the electro-oculogram signals, obtaining the frequency and the direction of eyeball movement by calculating the instantaneous frequency of the EOG signals by applying wavelet analysis technology, and finally integrating to obtain electro-oculogram data; and further carrying out peak detection and comparison processing on the gas-sensitive digital signals acquired and preprocessed by the gas-sensitive resistance sensor to obtain gas-sensitive data.

8. The multi-functional health monitoring hypnotic eye-mask device according to claim 1, wherein: the related diagnosis, suggestion and alarm operation performed by the intelligent terminal specifically comprises the following steps: generating diagnosis reports of abnormal body temperature, hypertension, arrhythmia, hypoxia, vitamin A deficiency, night blindness and deep and shallow sleep according to body temperature, blood pressure, heart rate, blood oxygen, brain electricity and electrooculogram data, performing REM sleep detection according to characteristic expression of rapid eye movement period in electrooculogram data, and connecting relevant reminding and alarming functions in parallel to realize diagnosis and suggestion of body temperature, blood pressure, heart rate, blood oxygen and sleep; when the indexes of blood pressure, blood oxygen, body temperature, heart rate and brain electricity exceed the normal range, an alarm signal is sent to a signal receiving device in the eye cover body, the signal receiving device is instructed to start a red light alarm lamp to alarm, the abnormal occurrence time and specific indexes are recorded on the intelligent terminal, and the alarm device can dial 120 or inform family members when the monitoring value exceeds the set threshold through the setting of a wearer.

9. The multi-functional health monitoring hypnotic eye-mask device according to claim 1, wherein: the intelligent terminal wakes up and alarms according to the gas-sensitive data transmitted by the gas detection device, and comprises the following steps: when the gas-sensitive data transmitted by the gas detection device is abnormal, namely toxic gas is detected, the bone conduction device wakes up the wearer through voice, judges whether to alarm according to the gas concentration and the physical sign condition of the wearer, and immediately alarms once the gas concentration reaches a set threshold value or the physical sign data of the wearer is abnormal.

10. The multi-functional health monitoring hypnotic eye-mask device according to claim 1, wherein: the sleep-aiding operation of the intelligent terminal comprises the following steps: the massage device is controlled to be turned on or off according to the instruction sent by the wearer, or the bone conduction device is controlled to play or turn off music; according to the processing analysis results of the electroencephalogram and the electrooculogram signals, the massage and sleep-aiding music is intelligently adjusted, and the massage force and the massage method of the massage device are adjusted according to the obtained heart rate, the electroencephalogram report and the basis of the sleep condition, and the sleep-aiding music type played by the bone conduction device is adjusted.