CN216561239U - Intelligent glasses capable of transmitting electronic data information at high speed - Google Patents

Abstract

The utility model relates to intelligent glasses capable of transmitting electronic data information at a high speed, which comprise a glasses frame and glasses legs arranged on the glasses frame; the left camera corresponding to the left eye and the VR/AR glasses function display screen corresponding to the right eye are arranged on the glasses frame; the glasses legs and/or the glasses frame are/is provided with an EEG sensor, a control circuit board and a battery; the glasses legs are also provided with a PPG biosensor; two WIFI modules and one Bluetooth module are arranged on the control circuit board in parallel; left camera, VR/AR glasses function display screen, EEG sensor, PPG biosensor all with control circuit board electric connection, and left camera and VR/AR glasses function display connect a WIFI module respectively electricity, and EEG sensor and PPG biosensor are connected with the bluetooth module electricity. The utility model discloses an utilize independent parallel wireless transmission frame, the signal is synchronous, has improved transmission speed, has guaranteed that the data of analysis are instant effective to and true reliable.

Description

Intelligent glasses capable of transmitting electronic data information at high speed

Technical Field

The utility model relates to intelligent glasses, in particular to intelligent glasses capable of transmitting electronic data information at a high speed.

Background

Along with the development of science and technology, intelligent glasses are as intelligent wearable equipment, and its intelligent degree is higher and higher, and the function is also more and more complicated, and the application is also more and more extensive, not only limits to leisure entertainment, begins to permeate gradually to the medical health field. Along with the increase of the intelligent degree, the electronic information data to be transmitted is more and more, and the requirement on the corresponding transmission speed is higher, however, due to the limitation of the glasses structure, the transmission speed is still not satisfactory. The transmission speed is not high, so that the transmitted data is not timely, and errors can also be generated.

SUMMERY OF THE UTILITY MODEL

Aiming at the existing defects, the utility model provides the intelligent glasses capable of transmitting electronic data information at a high speed.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the intelligent glasses capable of transmitting electronic data information at high speed comprise a glasses frame and glasses legs mounted on the glasses frame; the glasses frame is provided with a left camera corresponding to a left eye and a VR/AR glasses function display screen corresponding to a right eye, wherein the left camera is used for collecting eye conditions; the glasses legs and/or the glasses frame are/is provided with an EEG sensor, a control circuit board provided with a processor and a rechargeable battery for supplying power to the control circuit board; the glasses legs are also provided with a PPG biosensor; two WIFI modules and one Bluetooth module are arranged on the control circuit board in parallel; left side camera, VR AR glasses function display screen, EEG sensor, PPG biosensor all with control circuit board electric connection, just a WIFI module is connected to left side camera and VR AR glasses function display screen electricity respectively, EEG sensor and PPG biosensor are connected with the bluetooth module electricity.

Preferably, the PPG biosensor comprises PPG electrodes, the PPG electrodes are arranged on the temples of the glasses and correspond to the positions of the temporal lobes and the mastoid process beside the left and right ears, the EEG sensor comprises EEG electrodes, and the EEG electrodes are arranged on the inner surface of the glasses frame corresponding to the forehead position and/or the parts of the temples, which are close to the ears and are in contact with the skin.

Preferably, the left camera and the VR/AR glasses function display screen are arranged on the corresponding glasses frame at positions opposite to the canthus.

Preferably, the control circuit board is in communication connection with an intelligent terminal.

Preferably, the temple or the spectacle frame is further provided with a switch electrically connected to the control circuit board.

Preferably, the switch is a slide switch.

Preferably, the temple is further provided with a charging interface electrically connected with the control circuit board.

Preferably, the charging interface is detachably connected with a standby power supply.

Preferably, the temple is further provided with an adjusting device electrically connected with the control circuit board.

Preferably, the processor is an MCU integrated chip integrated with a control camera, an EEG sensor and a PPG biosensor.

The utility model has the beneficial effects that: the utility model forms independent parallel wireless transmission frame by two WIFI modules and one Bluetooth module which are arranged on the control circuit board in parallel, thereby improving transmission speed and signal synchronization, ensuring timely, effective, real and reliable analyzed data, the camera or the display screen is transmitted to the computer or/and the mobile phone by respective WIFI module, the merged signal of the EEG sensor and the PPG biosensor is simultaneously transmitted to the computer or/and the mobile phone by Bluetooth, the computer or/and the mobile phone simultaneously receives the signals by a corresponding receiving mechanism and carries out parallel processing, activities and indexes in the aspects of mind, cognition and psychology of people can be analyzed, thereby detecting the states of heart, brain and mental state of people, then executing improvement measures, the terminal simultaneously receives two ways of WIFI (4G, 5G or 6G), one way of Bluetooth, the data delay is minimum, and has small volume and low power consumption.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a functional block diagram of an embodiment of the present invention;

FIG. 3 is a circuit schematic of modules of an embodiment of the utility model;

part names and serial numbers in the figure: 1-2 spectacle frames, 3 spectacle legs, 4 left cameras, 5 VR/AR spectacle function display screens, 6 EEG sensors, 60 control circuit boards, 61 WIFI modules, 62 Bluetooth modules, 7 switches, 70 batteries, 8 charging interfaces, 9 PPG biosensors and a regulating device.

Detailed Description

For the purpose of more clearly illustrating the objects, technical solutions and advantages of the embodiments of the present invention, the present invention will be further described in detail below with reference to the accompanying drawings and embodiments, for clear and complete description, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention. In addition, directional terms used in the present invention, such as "upper", "lower", "front", "rear", "left", "right", "inner", "outer", etc., refer to directions only as shown in the attached drawings, and are used for better and clearer explanation and understanding of the present invention, and do not indicate or imply orientation which the present invention must have, and thus, should not be construed as limiting the present invention.

Embodiments of the present invention are shown in fig. 1 to 3, an intelligent glasses capable of transmitting electronic data information at high speed includes a frame 1 and glasses legs 2 installed on the frame 1, the frame 1 can be selected to be of a half frame or a full frame structure, and can be made of existing materials for manufacturing the frame of the glasses, according to different requirements, lenses with different functions can be installed on the frame 1, the glasses legs 2 are pivoted on the frame 1 through pile heads as in the case of the conventional glasses, the glasses legs 2 include left and right glasses legs, and the frame 1 also includes left and right frames; the glasses frame 1 is provided with a left camera 3 corresponding to a left eye and a VR/AR glasses function display screen 4 corresponding to a right eye, the left camera and the VR/AR glasses function display screen collect eye conditions, the cameras adopt miniature electronic cameras, eye data are collected through the cameras, the eye data comprise eye movement, eye spirit and eye ground related data, and the related information is transmitted to the control circuit board 6 after eye dynamic data are collected; the VR/AR glasses function display screen 4 is supposed to adopt a Micro-LED display screen. The camera can be arranged at any position on the glasses frame 1, only the eye condition can be collected, and in order to collect dynamic data of the eyes, the left camera 3 and the VR/AR glasses function display screen 4 are arranged at the positions, opposite to the canthus, of the corresponding glasses frame, the left camera 3 corresponds to the left glasses frame, the VR/AR glasses function display screen 4 corresponds to the right glasses frame and is arranged at the position obliquely above the canthus, the vision is not influenced at the position, and the use state and habit of the eyes can be comprehensively considered; the glasses legs 2 and/or the glasses frame 1 are provided with an EEG sensor 5, a control circuit board 6 provided with a processor and a rechargeable battery 7 for supplying power to the control circuit board 6, and the EEG sensor 5, the control circuit board 6 provided with a processor and the rechargeable battery 7 are arranged on the glasses legs 2, can be arranged on the left glasses legs or the right glasses legs, or respectively arranged on the left glasses legs and the right glasses legs, or can be arranged on the glasses frame 1, or can be arranged on the glasses frame 2 partially, or can be arranged on the glasses frame 1 partially, and can be correspondingly arranged according to different requirements; the EEG sensor 5 is an element sensitive to electroencephalogram signals, is arranged at the position where the middle section of the glasses leg 2 is contacted with the head, so that corresponding data can be better sensed and monitored, and relevant electroencephalogram signals are collected by combining an EEG technology to represent the emotional cognitive state of the brain, such as the concentration state during the addition, subtraction, multiplication and division of mental arithmetic mathematics; the control circuit board 6 has different electronic component circuit and data control processing center like the traditional control circuit board, the control circuit board 6 controls the operation of each module part as the control center of the glasses, it can adopt soft circuit board to facilitate its installation, it can also be hard circuit board of the concrete shape structure to choose according to its set position, the processor on it is the data control processing center, such as MCU, it is MCU integrated with control camera, EEG sensor 5, PPG biosensor 8, the integrated chip is used for connecting each sensor, play a total control role, it is more favorable to controlling; the battery 7 supplies power to each component to ensure the normal operation of the components, preferably a rechargeable lithium ion battery, which may be fixedly arranged on the control circuit board 6 and then arranged on the glasses legs 2 or the glasses frame 1, or detachably arranged on the glasses legs 2 or the glasses frame 1 and electrically connected with the control circuit board 6, so as to facilitate the charging of the glasses legs, a charging interface 70 electrically connected with the control circuit board 6 is arranged on the glasses legs 2, and the charging interface 70 selects a USB interface; the glasses legs 2 are also provided with a PPG biosensor 8, the PPG biosensor 8 is a chip module sensitive to skin bioelectricity, and utilizes a multispectral physiological data measuring module to accurately measure information such as pulse waveform, heart rate value, blood oxygen value, blood vessel microcirculation parameter and the like, so that the fatigue identification can be carried out, data related to an autonomic nervous system, including heart rate, blood oxygen, respiratory frequency and the like, can be directly output, the pulse waveform, the heart rate value, the blood oxygen value and the blood vessel microcirculation parameter can be directly output, the system complexity is greatly reduced, a user system can communicate with the module only through a serial port, and a measuring result is directly obtained, the glasses are accurate and easy to use, and simultaneously have the characteristics of ultra-small volume and ultra-low power consumption, the endurance time and the appearance design flexibility of the intelligent wearable equipment are improved, and more biological characteristic information can be provided through data analysis, such as blood pressure trend, respiratory rate, heart rate variability and the like, so that the user can better know the self condition; the control circuit board 6 is provided with two WIFI modules 60 and one bluetooth module 61 in parallel, which means that they are not mutually influenced and independent; the left camera 3, the VR/AR glasses function display screen 4, the EEG sensor 5 and the PPG biosensor 8 are electrically connected with a control circuit board 6, the left camera 3 and the VR/AR glasses function display screen 4 are respectively and electrically connected with a WIFI module 60, the EEG sensor 5 and the PPG biosensor 8 are electrically connected with a Bluetooth module 61, so that in the whole circuit, the left camera 3 is connected with one WIFI module 60, the module is used for wirelessly transmitting information collected by the left camera 3, the VR/AR glasses function display screen 4 is connected with another WIFI module 60, the information of the VR/AR glasses function display screen 4 is wirelessly transmitted, the Bluetooth module 61 is used for transmitting information monitored by the EEG sensor 5 and the PPG biosensor 8, the information does not interfere with each other and runs independently, and the information is transmitted to a computer or a mobile phone through the respective WIFI module 60, the EEG sensor 5 and the PPG biosensor 8 combine signals and simultaneously transmit the signals to a computer or a mobile phone through Bluetooth, and a clock chip is combined to carry out information synchronization indication, the computer or the mobile phone simultaneously receives the signals through a corresponding receiving mechanism and can carry out parallel processing to analyze activities and indexes of the mind, the mind and the cognition of people, so that detection related to the heart and brain and the mental state of people is carried out, corresponding quantitative basis is provided for improving corresponding spirit and cognitive defects, then improvement measures are carried out, a wireless transmission frame is independently and parallelly arranged, the transmission speed is increased, the signals are synchronized, the analyzed data are timely, effective, real and reliable, a terminal simultaneously receives two paths of WIFI, one path of Bluetooth is the smallest in data delay, the size is small, and the power consumption is low.

In a further refinement, as shown in fig. 1, the PPG biosensor 8 comprises PPG electrodes, the PPG electrodes are arranged on the temples 2 corresponding to the temporal lobe and mastoid process on the two sides of the left and right ears, namely the PPG electrodes are arranged on the left and right temples 2, the EEG sensor 5 comprises EEG electrodes which are arranged on the inner surface of the frame 1 corresponding to the forehead position and/or the positions, close to the ears and in contact with the skin, of the legs 2, namely the EEG electrodes can be arranged on the inner surface of the frame 1 corresponding to the forehead position, or can be arranged on the positions, close to the ears and in contact with the skin, of the legs 2, or can be arranged at two positions simultaneously, the left and right legs 2 are both provided with electrodes, because the area responsible for vision is located in the back occipital area of the brain, the prefrontal cortex of the brain can generate higher thought cognition, so that the result is more accurate; meanwhile, the sensor does not use any conductive adhesive preferentially, can be carried conveniently, is applied to indoor and outdoor environments, and solves the problems that the traditional electroencephalogram EEG equipment needs to use wet conductive gel, so that the measurement becomes complicated and people feel inconvenient.

In a further improvement, as shown in fig. 1 and fig. 2, the control circuit board 6 is communicatively connected with an intelligent terminal. Just can come to regulate and control each function through corresponding APP software on intelligent terminal, set to suitable mode, connect the cell-phone App and control, can carry out intelligent, individualized controlling, more do benefit to the use.

In a further improvement, as shown in fig. 1, a switch 62 electrically connected to the control circuit board 6 is further disposed on the temple 2 or the frame 1, and at this time, the switch is mounted at any temple 2 on the left or right of the glasses and close to the frame 1, wherein the switch 62 is a sliding switch, so that the size is small and the operation is convenient, and when the charging interface 70 is disposed on the temple 2, the switch 62 and the charging interface 70 are disposed on the same side or different sides.

In a further improvement, the charging interface 70 is detachably connected with a backup power supply, the backup power supply is used as an auxiliary power supply for the glasses to supply power, so that the problem of long-term use due to insufficient power is solved, and the glasses are worn on the head, so that the backup power supply is convenient to carry and connect with the glasses, and preferably has a shape capable of being hung on the neck, which is similar to the shape of a headset, and is more convenient to use.

In a further improvement, as shown in fig. 1, the temple 2 is further provided with an adjusting device 9 electrically connected to the control circuit board 6, and the adjusting device 9 is used to adjust corresponding parameters of the camera, the EEG sensor 5, and the PPG biosensor 8, such as timing and acquisition period, and the like, and at this time, the adjusting device may adopt a touch screen, and then, the corresponding control program is used to control the temple.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the utility model as defined in the appended claims.

Claims (10)

1. An intelligent glasses capable of transmitting electronic data information at a high speed, characterized in that: comprises a spectacle frame and spectacle legs arranged on the spectacle frame; the glasses frame is provided with a left camera corresponding to a left eye and a VR/AR glasses function display screen corresponding to a right eye, wherein the left camera is used for collecting eye conditions; the glasses legs and/or the glasses frame are/is provided with an EEG sensor, a control circuit board provided with a processor and a rechargeable battery for supplying power to the control circuit board; the glasses legs are also provided with a PPG biosensor; two WIFI modules and one Bluetooth module are arranged on the control circuit board in parallel; left side camera, VR AR glasses function display screen, EEG sensor, PPG biosensor all with control circuit board electric connection, just a WIFI module is connected to left side camera and VR AR glasses function display screen electricity respectively, EEG sensor and PPG biosensor are connected with the bluetooth module electricity.

2. The intelligent glasses capable of transmitting electronic data information at high speed according to claim 1, wherein the PPG biosensor comprises PPG electrodes disposed on the temple corresponding to the temporal lobe and mastoid positions beside the left and right ears, and the EEG sensor comprises EEG electrodes disposed on the inner surface of the frame corresponding to the forehead position and/or on the temple near the ears and contacting with the skin.

3. The intelligent glasses capable of transmitting electronic data information at high speed according to claim 1, wherein the left camera and the VR/AR glasses functional display are arranged on the corresponding glasses frame at a position opposite to the canthus.

4. The intelligent glasses capable of transmitting electronic data information at a high speed according to claim 1, wherein the control circuit board is connected with an intelligent terminal in a communication way.

5. The intelligent glasses capable of transmitting electronic data information at a high speed as claimed in claim 1, wherein the glasses legs or the glasses frame are further provided with a switch electrically connected with the control circuit board.

6. The intelligent glasses capable of transmitting electronic data information at high speed according to claim 5, wherein the switch is a slide switch.

7. The intelligent glasses capable of transmitting electronic data information at a high speed as claimed in claim 1, wherein the glasses legs are further provided with a charging interface electrically connected with the control circuit board.

8. The intelligent glasses capable of transmitting electronic data information at a high speed as claimed in claim 7, wherein the charging interface is detachably connected with a standby power supply.

9. The intelligent glasses capable of transmitting electronic data information at a high speed as claimed in claim 1, wherein the glasses legs are further provided with an adjusting device electrically connected with the control circuit board.

10. The intelligent glasses capable of transmitting electronic data information at high speed according to claim 1, wherein the processor is an MCU integrated chip integrated with a control camera, an EEG sensor and a PPG biosensor.

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