WO2019006781A1

WO2019006781A1 - Smart glasses

Info

Publication number: WO2019006781A1
Application number: PCT/CN2017/093540
Authority: WO
Inventors: 袁晖
Original assignee: 深圳市科迈爱康科技有限公司
Priority date: 2017-07-07
Filing date: 2017-07-19
Publication date: 2019-01-10
Also published as: CN107290870A

Abstract

A pair of smart glasses (100), comprising a frame (10), lenses (70) provided on the frame (10), and two temples (20) connected to two ends of the frame (10), respectively. The frame (10) is provided with an integrated processor (11) and a display device (12) electrically connected to the integrated processor (11); one of the temples (20) is provided with a skin conductance detection device (21); the skin conductance detection device (21) is electrically connected to the integrated processor (11). The smart glasses (100) can present changes in emotions of a wearer, so that a teacher or a manager can arrange a teaching process, learning materials or work tasks according to the data of the changes in emotions such as likes or dislikes of the wearer.

Description

Smart glasses

Technical field

The invention relates to the technical field of glasses, and in particular to a smart glasses.

Background technique

Under the daily learning work scene, emotion has a great influence on the efficiency of learning work. Timely and rapid acquisition of emotional changes and data can better guide the teaching process and the arrangement of learning materials, or the arrangement of work tasks.

Summary of the invention

The main object of the present invention is to provide a smart glasses capable of presenting a change in the mood of the wearer, so that the teacher or the manager can arrange the teaching process, the arrangement of the learning materials, or the work according to the emotional change data such as the wearer's likes or dislikes. Arrangement of tasks.

In order to achieve the above object, the smart glasses provided by the present invention include a spectacle frame, a lens disposed on the spectacle frame, and two temples respectively connected to the two ends of the spectacle frame, wherein the spectacle frame is provided with an integrated processor and The display device is electrically connected to the display device, and the temple is provided with a skin electrical detecting device, and the skin detecting device is electrically connected to the integrated processor.

Optionally, the smart glasses further include an elastic function band, two ends of the elastic functional band are respectively connected to the two glasses legs, and the elastic function band is provided with an electroencephalogram electrically connected to the integrated processor. A detecting device, the EEG detecting device comprising at least one EEG electrode.

Optionally, the EEG detecting device comprises an EEG signal processor electrically connected to the integrated processor, an EEG signal amplifier electrically connected to the EEG signal processor, and the EEG signal amplifier The brain electrical electrode electrically connected.

Optionally, at least one transmission belt is protruded from an end of the elastic functional band, and at least one reference electrode is disposed at an end of the transmission belt away from one end of the elastic functional band, the reference electrode and the EEG The signal amplifier is electrically connected.

Optionally, the skin electrical detecting device comprises a skin electrical signal processor electrically connected to the integrated processor, a skin electrical signal amplifier electrically connected to the skin electrical signal processor, and the skin electrical signal amplifier Electrically connected skin electrode.

Optionally, the elastic function band is further provided with a wireless communication device, and the wireless communication device is electrically connected to the integrated processor.

Optionally, the eyeglass frame is further provided with a controller, and the controller and the wireless communication device are electrically connected.

Optionally, the eyeglass frame is provided with an eye movement measuring camera for eye movement detection, and the eye movement measuring device is electrically connected to the integrated processor.

Optionally, the spectacle frame is further provided with an infrared emitter for supplementing the light of the eye movement measuring camera, and the infrared emitter is electrically connected to the eye movement measuring camera.

Optionally, the smart glasses further include a flexible battery disposed on the eyeglass frame or the temple, the flexible battery being electrically connected to the integrated processor;

And/or the smart glasses further includes a control switch disposed on the eyeglass frame or the temple, the control switch being electrically connected to the integrated processor;

And/or the smart glasses further includes a distance sensor for detecting a distance between the user's eyes and the smart glasses, the distance sensor being disposed in the eyeglass frame and electrically connected to the integrated processor;

And/or the smart glasses further includes a front smart camera, a vibration sensor and a wireless transmitter disposed on the eyeglass frame, wherein the front smart camera, the vibration sensor and the wireless transmitter are electrically connected to the integrated processor. connection;

And/or, the smart glasses further include GPS for positioning (Global Positioning) a positioning device, an altimeter for detecting an altitude, and an audio player for playing navigation information, wherein the GPS positioning device, the altimeter, and the audio player are both disposed in the eyeglass frame And are electrically connected to the integrated processor;

And/or the smart glasses further includes a temperature detector and a humidity detector disposed on the eyeglass frame or the temples, wherein the temperature detector and the humidity detector are both electrically connected to the integrated processor;

And/or the smart glasses are housed in a glasses case, the glasses case includes a first coil and a power interface electrically connected to the first coil, the smart glasses further comprising a frame disposed on the frame or a second coil of the temple, a wireless charging device, and a rechargeable battery, wherein the second coil and the rechargeable battery are electrically connected to the wireless charging device;

And/or the smart glasses further includes a pedometer provided on the eyeglass frame or the temples, the pedometer being electrically connected to the integrated processor.

In the technical solution of the present invention, the smart glasses include a spectacle frame, a lens disposed on the spectacle frame, and two temples respectively connected to the two ends of the spectacle frame, the spectacle frame being provided with an integrated processor and the integrated processor An electrically connected display device, wherein the temple is provided with a skin detecting device, and the skin detecting device is electrically connected to the integrated processor; specifically, when the user uses and wears the smart glasses, the skin detecting device is provided Contacting the skin of the head of the human body, specifically the skin of the temple part of the human body, detecting the skin electrical detection information of the wearer in real time through the skin electric detecting device, and transmitting the skin electric detecting information to the integrated processor, through the integrated processor Processing of skin electrical data, and analyzing the state of the wearer's emotions (such as happiness, anger, sadness, fear, surprise, likeness, disgust, etc.) based on parameters such as skin electrical, skin resistance, and skin temperature and changes thereof, to display Device. When the teacher asks the participant to wear the smart glasses of the present invention to guide the teaching, or the manager requests the manager to wear the smart glasses of the present invention to perform the work task arrangement, the display device displays the emotional state of the corresponding wearer to enable the educator to Or the manager can arrange the teaching process, the arrangement of the learning materials, or the arrangement of the work tasks according to the emotional change data such as the wearer's likes or dislikes.

DRAWINGS

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below. Obviously, the drawings in the following description are only It is a certain embodiment of the present invention, and those skilled in the art can obtain other drawings according to the structures shown in the drawings without any creative work.

FIG. 1 is a schematic structural view of an embodiment of a smart glasses according to the present invention.

Description of the reference numerals:

标号 Label	名称 Name	标号 Label	名称 Name
100 100	智能眼镜 Smart glasses	30 30	弹性功能带 Flexible function belt
10 10	眼镜框 glasses frames	31 31	脑电检测装置 EEG detection device
11 11	综合处理器 Integrated processor	311 311	脑电信号处理器 EEG signal processor
12 12	显示装置 Display device	312 312	脑电信号放大器 EEG signal amplifier
13 13	控制器 Controller	313 313	脑电电极 Electroencephalic electrode
14 14	眼动测量摄像装置 Eye movement measuring camera	32 32	无线通信装置 Wireless communication device
15 15	红外线发射器 Infrared emitter	40 40	传输带 conveyor belt
20 20	眼镜腿 Glasses legs	41 41	参考电极 Reference electrode
21 twenty one	肤电检测装置 Skin electrical detection device	50 50	柔性电池 Flexible battery
211 211	肤电信号处理器 Skin signal processor	60 60	控制开关 Control switch
212 212	肤电信号放大器 Skin signal amplifier	70 70	镜片 Lens
213 213	肤电电极 Electroelectric electrode

The implementation, functional features, and advantages of the present invention will be further described in conjunction with the embodiments.

Detailed ways

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

It should be noted that all directional indications (such as up, down, left, right, front, back, ...) in the embodiments of the present invention are only used to explain between components in a certain posture (as shown in the drawing). Relative positional relationship, motion situation, etc., if the specific posture changes, the directional indication also changes accordingly.

In addition, the descriptions of "first", "second", and the like in the present invention are used for the purpose of description only, and are not to be construed as indicating or implying their relative importance or implicitly indicating the number of technical features indicated. Thus, features defining "first" and "second" may include at least one of the features, either explicitly or implicitly. In addition, the technical solutions between the various embodiments may be combined with each other, but must be based on the realization of those skilled in the art, and when the combination of the technical solutions is contradictory or impossible to implement, it should be considered that the combination of the technical solutions does not exist. It is also within the scope of protection required by the present invention.

In the present invention, the terms "connected", "fixed" and the like should be understood broadly, unless otherwise clearly defined and limited. For example, "fixed" may be a fixed connection, or may be a detachable connection, or may be integrated; It may be a mechanical connection or an electrical connection; it may be directly connected or indirectly connected through an intermediate medium, and may be an internal connection of two elements or an interaction relationship of two elements unless explicitly defined otherwise. For those skilled in the art, the specific meanings of the above terms in the present invention can be understood on a case-by-case basis.

Referring to FIG. 1 , a smart glasses 100 according to an embodiment of the present invention includes an eyeglass frame 10 , a lens 70 disposed on the eyeglass frame, and two lens legs 20 respectively connected to the two ends of the eyeglass frame 10 , and the eyeglass frame 10 is provided with an integrated processor 11 . The display device 12 is electrically connected to the integrated processor 11, and the temple 20 is provided with a skin electric detecting device 21, and the skin electric detecting device 21 is electrically connected to the integrated processor 11.

In the technical solution of the present invention, the smart glasses 100 include a spectacle frame 10, a lens 70 disposed on the spectacle frame, and two temples 20 respectively connected to the two ends of the spectacle frame 10. The spectacle frame 10 is provided with an integrated processor 11 And a display device 12 electrically connected to the integrated processor 11, the temple 20 is provided with a skin electric detecting device 21, and the skin detecting device 21 is electrically connected to the integrated processor 11; specifically, the user uses When the smart glasses 100 are worn, the set skin electric detecting device 21 contacts the skin of the head of the human body, specifically the skin of the temple part of the human body, and the skin electric detecting information of the wearer is detected in real time by the skin electric detecting device 21, and The skin electrical detection information is transmitted to the integrated processor 11, and the skin electrical data is processed by the integrated processor 11, and the wearer's emotions are analyzed based on parameters such as skin electrical power, skin resistance, and skin temperature and their changes (such as pleasure, The state of anger, sadness, fear, surprise, likeness, disgust, etc. is presented to the display device 12. When the teacher asks the participant to wear the smart glasses 100 of the present invention to perform the instructional teaching, or the manager requests the manager to wear the smart glasses 100 of the present invention to perform the work task arrangement, the display device 12 displays the emotional state of the corresponding wearer. In order to enable the teacher or manager to arrange the teaching process, the arrangement of the learning materials, or the arrangement of the work tasks according to the emotional change data such as the wearer's likes or dislikes.

Specifically, the display device 12 may be a display screen or an array of LEDs or the like capable of displaying image or character data.

Further, the smart glasses 100 further include an elastic function belt 30, and two ends of the elastic function belt 30 are respectively connected to the two temples 20, and the elastic function belt 30 is provided with an electroencephalogram detecting device 31 electrically connected to the integrated processor 11, brain The electrical detection device 31 includes at least one brain electrical electrode 313. Specifically, the electroencephalogram electrode 313 may be one or more attached to one or more human head positions such as the forehead, the temple or the occiput, and the electroencephalogram electrode 313 is used to detect the forehead, the temple or the human head. EEG signals of one or more parts such as the occiput. The EEG detecting device 31 is disposed on the elastic function belt 30. When the user wears the smart glasses 100, the elastic function belt 30 can be placed on the wearer's forehead or the occiput or the top of the head, and the wearer's EEG information. The EEG detecting device 31 transmits the EEG information detected by the EEG to the integrated processor 11, and the integrated processor 11 analyzes the amplitude and energy of the alpha wave in the EEG signal (obtained by energy integration of 8-13 Hz) and changes. The concentration is focused and further outputted to the display device 12 by the integrated processor 11 for display.

Further, the EEG detecting device 31 includes an EEG signal processor 311 electrically connected to the integrated processor 11, an EEG signal amplifier 312 electrically connected to the EEG signal processor 311, and an electrical connection with the EEG signal amplifier 312. Electroencephalogram electrode 313. Specifically, the EEG signal amplifier 312 is configured to amplify the EEG parameters detected by the EEG electrode 313 and transmit the EEG parameters to the EEG signal processor 311 for processing the EEG parameters through the EEG signal processor 311. The signal processor 311 transmits the processed EEG parameters to the integrated processor 11, which is further processed by the integrated processor 11 and output to the display device 12 for display.

Further, the end of the elastic function belt 30 is convexly provided with at least one conveyor belt 40. The end of the conveyor belt 40 away from one end of the elastic function belt 30 is provided with at least one reference electrode 41, and the reference electrode 41 is electrically connected to the EEG signal amplifier 312. . Specifically, the data detected by the reference electrode 41 can be used as a background parameter for detecting the data of the electroencephalogram electrode 313 to filter external noises and the like to avoid interference of the noise on the EEG detection, that is, the EEG signal processor 311 detects the reference electrode 41. The data is used as a background parameter to process the EEG data, and the processed EEG parameters are transmitted to the integrated processor 11 and sent to the display device 12 for presentation by the integrated processor 11. The reference electrode 41 is provided as a clamping structure (for example, as a clip-like structure), and in use, the reference electrode 41 can be clamped to the wearer's earlobe.

Further, the skin-electricity detecting device 21 includes a skin electrical signal processor 211 electrically connected to the integrated processor 11, a skin electrical signal amplifier 212 electrically connected to the skin electrical signal processor 211, and an electrical connection with the skin electrical signal amplifier 212. Electrophysical electrode 213. Specifically, the skin electrode 213 may be one or more, and more specifically, the skin electrode 213 is disposed at a position where the temple 20 corresponds to the wearer's temple, that is, when the smart glasses 100 are worn, the skin electrode 213 is attached. Attached to the wearer's temple, the skin electrode 213 is used to detect the skin electrical information of the human temple; the skin electrical signal amplifier 212 is used to amplify the skin electrical parameters detected by the skin electrode 213 and transmit it to the skin electrical signal processor. 211, the skin electrical parameter processing is performed by the skin electrical signal processor 211, and the wearer's emotions (such as happiness, anger, sadness, fear, surprise, and the like) are analyzed based on parameters such as skin electrical power, skin resistance, and skin temperature and changes thereof. The state of like, dislike, etc. is sent to the display device 12 for display.

Further, the elastic function belt 30 is further provided with a wireless communication device 32, and the wireless communication device 32 is electrically connected to the integrated processor 11. Specifically, the wireless communication device 32 can be a WiFi module or a Bluetooth module, etc., that is, the wireless communication device 32 can establish a communication connection with a mobile terminal, a tablet computer, a computer, or a background server of the external communication device by turning on WiFi or Bluetooth, etc., through the external The mobile terminal, tablet or computer controls the operation or stop of each functional module of the smart glasses 100, or transmits data.

Further, the eyeglass frame 10 is further provided with a controller 13, and the controller 13 and the wireless communication device 32 are electrically connected. The user can control whether the smart glasses 100 accept the WiFi or Bluetooth connection of the external communication device, whether to accept the wireless control of the external communication device, or whether to transmit data to the external communication device or the like through the controller 13.

Further, the eyeglass frame 10 is provided with an eye movement measuring imaging device 14 for eye movement detection, and the eye movement measuring imaging device 14 is electrically connected to the integrated processor 11. Specifically, the eye movement measuring imaging device 14 is disposed on the surface of the eyeglass frame 10 facing the wearer's eyeglasses; the eye movement measuring camera device 14 is configured to monitor and recognize the eye movement data of the wearer and transmit it to the integrated processor 11 for processing. The integrated processor 11 is based on the number of blinks, PERCLOS (Percentage Of EyeIid CIosure over the PupiI,over Time; measure the physical quantity of fatigue/sleepiness, the proportion of eye opening degree <20% per unit time), the direction of gaze and time, etc. The wearer's fatigue condition is analyzed and sent to the display device 12 for display.

Further, the eyeglass frame 10 is further provided with an infrared emitter 15 for supplementing the light of the eye movement measuring device 14 , and the infrared emitter 15 is electrically connected to the eye movement measuring device 14 . Specifically, the infrared emitter 15 is used to supplement the sensing light of the camera of the eye movement measuring camera 14 to help the eye movement measuring device 14 to capture and detect the result more accurately, and to enable the smart glasses 100 to be applied to a relatively dim environment.

It can be understood that the integrated processor 11 can also be used only as a relay station in the data set, and does not have a data processing function, and an external communication device (mobile terminal, tablet, computer or computer) that establishes a communication connection with the wireless communication device 32 of the smart glasses 100 The background server or the like performs data reception and processing, and transmits the processing result to the integrated processor 11 via the wireless communication device 32, and further sends it to the display device 12 through the integrated processor 11 to display the result.

Specifically, for example, when performing an important technical training, the participant wears the smart glasses 100. The teacher combines the attention and excitement of the participants in the process of teaching, and judges the degree of interest of the participants in the relevant teaching materials and improves the teaching materials or process arrangement accordingly. More specifically, for example, when the attention of most of the students is more concentrated, but the mood is calm, it indicates that most of the participants have better participation, and the part of the course is better; when the fatigue of the participants is shown to be higher However, when the emotion is displayed as disgusting, it indicates that the person may be dissatisfied with the current course schedule, the course effect will not be very good, and it may be necessary to add a relaxed link to adjust the classroom atmosphere; the teaching manager may wait for the positive emotion or disgust according to the wearer's likes. Wait for changes in negative emotions, concentration of concentration, and fatigue to better organize the course.

For example, when a workshop worker needs attention to ensure high quality and needs to wear protective glasses for protecting glasses, the lens 70 of the smart glasses 100 of the present invention is set as a protective lens, indicating that the workshop workers wear the smart glasses 100. . When the patrol personnel finds that the display device 12 of the smart glasses 100 worn by the worker shows high degree of fatigue and inattention, the worker can be promptly reminded to rest; when the display device 12 shows that the degree of fatigue is not high, but the attention is not concentrated and the emotion is displayed. When it is more negative, it indicates that the workers are dissatisfied with the current work and can improve their work efficiency by adjusting the posts. When it was found that most of the workers' display devices 12 showed red with a high degree of fatigue, it was necessary to arrange a rest.

Further, the smart glasses 100 further include a flexible battery 50 disposed on the eyeglass frame 10 or the temple 20, and the flexible battery 50 is electrically connected to the integrated processor 11; specifically, the flexible battery 50 is made of a flexible material, so that the flexible battery 50 can Adapting to changes in different shapes, increasing the use environment of the flexible battery 50, and improving the service life of the smart glasses 100.

Further, the smart glasses 100 further include a control switch 60 provided on the eyeglass frame 10 or the temple 20, and the control switch 60 is electrically connected to the integrated processor 11. Specifically, the integrated processor 11 of the smart glasses 100 is controlled to communicate with the flexible battery 50 by the control switch 60, and the operation of various functional modules is turned on, or the integrated processor 11 and the flexible battery of the smart glasses 100 are controlled by the control switch 60. The circuit of 50 is turned off and the various functional modules are stopped.

Further, the smart glasses 100 further include a distance sensor (not shown) for detecting the distance between the user's eyes and the smart glasses 100. The distance sensor is disposed on the eyeglass frame 10 and is electrically connected to the integrated processor 11. Specifically, the distance sensor is disposed on the eyeglass frame 10 and faces the eyes of the user, and the distance sensor is configured to detect the distance between the eyes of the user and the eyeglass frame 10 of the smart glasses 100. When the distance is less than the preset distance value, the integrated processor 11 controls The various functional modules of the smart glasses 100 are turned on; when the distance is greater than the preset distance value, the integrated processor 11 controls the various functional modules of the smart glasses 100 to stop running, and the smart glasses 100 are in a standby sleep state to implement the smart glasses 100. Automatic control.

Further, the smart glasses 100 further include a front smart camera (not shown) provided in the eyeglass frame 10, a vibration sensor (not shown), and a wireless transmitter (not shown), a front smart camera, a vibration sensor, and a wireless device. The transmitters are all electrically connected to the integrated processor 11. Specifically, the front smart camera is used to capture the landscape in front of the wearer's eyes, the vibration sensor is used to sense the vibration, and the wireless transmitter is used to transmit the photo or video taken by the front smart camera to a mobile terminal such as a mobile phone with which a communication connection is established or Background server, etc. When the user uses the hand, the eyeglass frame 10 can be moderately tapped by the hand, and the vibration sensor monitors the change of the number of vibrations and the frequency. When the change of the number of vibrations and the frequency reaches a preset value, the integrated processor 11 controls the front smart camera to open and starts. Take a photo or video, and then send the photo or video captured by the front smart camera to the mobile phone, tablet, computer or background server that establishes a communication connection with the wireless transmitter.

Further, the smart glasses 100 further include a GPS positioning device (not shown) for positioning, an altimeter for detecting altitude (not shown), and an audio player (not shown) for playing navigation information. The GPS positioning device, the altimeter and the audio player are all disposed on the eyeglass frame 10, and are electrically connected to the integrated processor 11. Specifically, the GPS positioning device is configured to detect the location information of the smart glasses 100 in real time, and transmit the location information to the integrated processor 11 and further to the mobile phone, the tablet computer, and the laptop computer that establish a communication connection with the wireless communication device 32. Or a background server or the like; similarly, the altimeter is used to detect the altitude information of the smart glasses 100 in real time, and transmit the altitude information to the integrated processor 11 and further to the mobile phone with which the communication connection is established by the wireless communication device 32, Further, the user can wear the smart glasses 100 of the present invention to participate in activities such as hiking in the wild, and usually activities such as hiking in the field travel for the team by establishing a communication connection with the wireless communication device 32. Using the mobile phone map on the mobile phone to present the position and altitude information of each player, the player can avoid the loss of the team members, which is beneficial to the team to travel safely; the wearer can also establish communication with the wireless communication device 32 by using a terminal such as a mobile phone, and control the smart glasses 100. Path navigation, audio player for Put the navigation audio information to guide the wearer travels in the correct route; of course be appreciated that the wearer can phones and other mobile terminals by establishing a communication connection with the wireless communication device 32 controls the audio player to play or not.

Further, the smart glasses 100 further include a temperature detector (not shown) and a humidity detector (not shown) provided in the eyeglass frame 10 or the temple 20, and the temperature detector and the humidity detector are both electrically connected to the integrated processor 11. connection. Specifically, the temperature detector and the humidity detector are respectively configured to detect the temperature and humidity of the environment in which the wearer is located, wherein the temperature detector and the humidity detector respectively transmit the detected temperature and humidity parameters to the integrated processor 11, The processing is processed by the integrated processor 11 and output to the display device 12 for display.

Further, the smart glasses 100 are housed in a glasses case (not shown), and the glasses case includes a first coil (not shown) and a power interface (not shown) electrically connected to the first coil, and the smart glasses 100 further includes A second coil (not shown) provided in the eyeglass frame 10 or the temple 20, a wireless charging device (not shown), and a rechargeable battery (not shown) are provided, and the second coil and the rechargeable battery are electrically connected to the wireless charging device. . Specifically, the first coil and the second coil are electromagnetic induction coils capable of realizing electromagnetic conversion. After the smart glasses 100 are placed in the glasses case, the power interface is plugged into an external power source, and the first coil converts the voltage signal input by the external power source into The radio frequency signal (such as electromagnetic signal, etc.) is emitted outward, and the second coil of the smart glasses 100 accommodated in the glasses case receives the wireless radio frequency signal and converts it into a voltage signal to charge the rechargeable battery through the wireless charging device.

Further, the smart glasses 100 further include a pedometer (not shown) provided on the eyeglass frame 10 or the temple 20, and the pedometer is electrically connected to the integrated processor 11. Specifically, the pedometer is used to measure the number of steps of the wearer, and the user can wear the smart glasses 100 to perform sports such as walking or running. By measuring the number of steps of the wearer, the wearer can conveniently plan the amount of exercise per day, and set walking or Run the journey and develop a sports route.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the invention, and the equivalent structural transformation, or direct/indirect use, of the present invention and the contents of the drawings are used in the inventive concept of the present invention. It is included in the scope of the patent protection of the present invention in other related technical fields.

Claims

A smart glasses, comprising: a spectacle frame, a lens disposed on the spectacle frame, and two temples respectively connected to two ends of the spectacle frame, the spectacle frame being provided with an integrated processor and the integrated A display device electrically connected to the processor, wherein the temple is provided with a skin electrical detecting device, and the skin detecting device is electrically connected to the integrated processor.
The smart glasses according to claim 1, wherein the smart glasses further comprise an elastic function belt, two ends of the elastic functional belt are respectively connected to the two temples, and the elastic function belt is provided with The integrated processor is electrically connected to an electroencephalogram detecting device, and the EEG detecting device includes at least one EEG electrode.
The smart glasses according to claim 2, wherein said EEG detecting means comprises an EEG signal processor electrically connected to said integrated processor, and an EEG signal electrically connected to said EEG signal processor An amplifier, and the brain electrical electrode electrically connected to the brain electrical signal amplifier.
The smart glasses according to claim 3, wherein at least one transport belt is protruded from an end of the elastic functional band, and at least one reference electrode is disposed at an end of the transport belt away from one end of the elastic functional band. The reference electrode is electrically connected to the EEG signal amplifier.
The smart glasses according to claim 1, wherein said skin electric detecting means comprises a skin electric signal processor electrically connected to said integrated processor, and a skin electric signal electrically connected to said skin electric signal processor An amplifier, and a skin electrode electrically connected to the skin electrical signal amplifier.
The smart glasses according to claim 2, wherein said skin electric detecting means comprises a skin electric signal processor electrically connected to said integrated processor, and a skin electric signal electrically connected to said skin electric signal processor An amplifier, and a skin electrode electrically connected to the skin electrical signal amplifier.
The smart glasses according to claim 3, wherein said skin electric detecting means comprises a skin electric signal processor electrically connected to said integrated processor, and a skin electric signal electrically connected to said skin electric signal processor An amplifier, and a skin electrode electrically connected to the skin electrical signal amplifier.
The smart glasses according to claim 4, wherein said skin electric detecting means comprises a skin electric signal processor electrically connected to said integrated processor, and a skin electric signal electrically connected to said skin electric signal processor An amplifier, and a skin electrode electrically connected to the skin electrical signal amplifier.
The smart eyewear according to claim 2, wherein said elastic function band is further provided with a wireless communication device, said wireless communication device being electrically coupled to said integrated processor.
The smart eyewear according to claim 3, wherein said flexible function band is further provided with a wireless communication device, said wireless communication device being electrically coupled to said integrated processor.
The smart glasses according to claim 4, wherein said elastic function band is further provided with a wireless communication device, said wireless communication device being electrically connected to said integrated processor.
The smart glasses according to claim 9, wherein said eyeglass frame is further provided with a controller, said controller and said wireless communication device being electrically connected.
The smart glasses according to claim 1, wherein said eyeglass frames are provided with an eye movement measuring camera for eye movement detection, said eye movement measuring camera being electrically connected to said integrated processor.
The smart glasses according to claim 2, wherein the eyeglass frame is provided with an eye movement measuring camera for eye movement detection, and the eye movement measuring camera is electrically connected to the integrated processor.
The smart glasses according to claim 3, wherein the eyeglass frame is provided with an eye movement measuring camera for eye movement detection, and the eye movement measuring camera is electrically connected to the integrated processor.
The smart glasses according to claim 4, wherein the eyeglass frame is provided with an eye movement measuring camera for eye movement detection, and the eye movement measuring camera is electrically connected to the integrated processor.
The smart glasses according to claim 13, wherein the spectacle frame is further provided with an infrared emitter for supplementing the light of the eye movement measuring camera, and the infrared emitter and the eye movement measuring device are electrically connection.
The smart glasses according to claim 1, wherein the smart glasses further comprise a flexible battery disposed on the eyeglass frame or the temples, the flexible battery being electrically connected to the integrated processor;

And/or the smart glasses further includes a control switch disposed on the eyeglass frame or the temple, the control switch being electrically connected to the integrated processor;

And/or the smart glasses further includes a distance sensor for detecting a distance between the user's eyes and the smart glasses, the distance sensor being disposed in the eyeglass frame and electrically connected to the integrated processor;

And/or the smart glasses further includes a front smart camera, a vibration sensor and a wireless transmitter disposed on the eyeglass frame, wherein the front smart camera, the vibration sensor and the wireless transmitter are electrically connected to the integrated processor. connection;

And/or the smart glasses further includes a GPS positioning device for positioning, an altimeter for detecting altitude, and an audio player for playing navigation information, the GPS positioning device, the altimeter and the audio Players are disposed on the frame of the glasses, and are electrically connected to the integrated processor;

And/or the smart glasses further includes a temperature detector and a humidity detector disposed on the eyeglass frame or the temples, wherein the temperature detector and the humidity detector are both electrically connected to the integrated processor;

And/or the smart glasses are housed in a glasses case, the glasses case includes a first coil and a power interface electrically connected to the first coil, the smart glasses further comprising a frame disposed on the frame or a second coil of the temple, a wireless charging device, and a rechargeable battery, wherein the second coil and the rechargeable battery are electrically connected to the wireless charging device;

And/or the smart glasses further includes a pedometer provided on the eyeglass frame or the temples, the pedometer being electrically connected to the integrated processor.