CN211826724U - AR glasses - Google Patents

Abstract

The utility model provides AR glasses, which comprise a sensing module, an optical module and a transmission module; the sensing module comprises a sensor and a processor, data information of a user during movement is collected in real time through the sensor, and the data information is converted into image data through the processor; the optical module comprises an image generating device, a lens device and an optical waveguide; converting the image data into an optical image by the image generating device, amplifying the incident optical image by the lens device, and transmitting the amplified optical image to the front of the user by the optical waveguide; the transmission module is positioned between the sensing module and the optical module and is connected with the sensing module and the optical module. The utility model discloses can convey user's before the eyes with user's multiple health information and motion information in real time to can strengthen the interactive of motion, strengthen the interest of motion and improve the efficiency of motion/exercise.

Description

AR glasses

Technical Field

The utility model belongs to the technical field of the AR, a AR glasses is related to.

Background

Augmented Reality (AR) technology is a technology for calculating the position and angle of a camera image in real time and adding a corresponding image, is a new technology for seamlessly integrating real world information and virtual world information, and aims to sleeve a virtual world on a screen and interact with the real world. Along with the improvement of the computing power of electronic products, the use of the AR technology is more and more extensive.

With the improvement of life quality, people have higher and higher pursuits for healthy life, and sports become essential items for daily life of people. However, during exercise, due to lack of feedback of exercise information, it is difficult for the exerciser to obtain relevant information during exercise, so that good exercise effect is not achieved, and monotonous exercise can also cause people to have a bad taste to exercise, and reduce exercise efficiency.

Therefore, it is necessary to provide a new type of AR glasses to enhance the perception of the user.

SUMMERY OF THE UTILITY MODEL

In view of the above shortcomings of the prior art, an object of the present invention is to provide AR glasses for solving the problems of poor exercise effect, poor smell feeling during exercise and low exercise efficiency caused by the difficulty of the exerciser to obtain the relevant information during the exercise in the prior art.

To achieve the above and other related objects, the present invention provides AR glasses including:

the sensing module comprises a sensor and a processor; acquiring data information of a user during movement in real time through the sensor, and converting the data information into image data through the processor;

an optical module including an image generating device, a lens device, and an optical waveguide; converting the image data into a light image by the image generation device, magnifying the incident light image by the lens device, and transmitting the magnified light image to the front of the user's eye by the optical waveguide;

and the transmission module is positioned between the sensing module and the optical module and is connected with the sensing module and the optical module.

Optionally, the sensing module includes one or a combination of a biological data module, a body posture module and a motion state module.

Optionally, the biological data module comprises the sensor in contact with the skin of the human body, and the sensor comprises one or a combination of a heartbeat sensor, an electrocardio sensor, a blood oxygen sensor, a body temperature sensor and a blood pressure sensor.

Optionally, the biological data module includes a sensor opening for accommodating the sensor, and the sensor opening is filled with a transparent member so as to cover the sensor opening through the transparent member.

Optionally, the body posture module comprises one or a combination of an acceleration sensor, a gyroscope sensor and a geomagnetic sensor.

Optionally, the motion state module includes one or a combination of a GPS receiver, a WIFI receiver, a bluetooth receiver, a ZigBee receiver, and a cellular communication module; the cellular communication module includes one or a combination of 2G, 3G, 4G, 5G, and NB-IoT.

Optionally, the image generation device comprises a micro-display; the Micro-display comprises one or a combination of an OLED Micro-display, an LCOS Micro-display and a Micro-Led Micro-display.

Optionally, the optical module includes 2 optical modules to realize a 3D display effect.

Optionally, the transmission module includes a transmission line, and one or a combination of a flexible glue and a hinge structure wrapping the transmission line.

Optionally, the AR glasses include one of AR sport glasses, AR plane mirrors, AR myopia glasses, and AR presbyopic glasses; the AR sport glasses include one of AR swimming glasses, AR bicycle glasses, AR hockey glasses, AR ski glasses, and AR baseball glasses.

As described above, the present invention provides an AR glasses, which comprises a sensing module, an optical module and a transmission module; the sensing module comprises a sensor and a processor, data information of a user during movement is collected in real time through the sensor, and the data information is converted into image data through the processor; the optical module comprises an image generating device, a lens device and an optical waveguide; converting the image data into a light image by the image generation device, magnifying the incident light image by the lens device, and transmitting the magnified light image to the front of the user's eye by the optical waveguide; the transmission module is positioned between the sensing module and the optical module and is connected with the sensing module and the optical module. The utility model discloses can with user's multiple health information and motion information convey in real time user's is in the front to can strengthen the interactive of motion, strengthen the interest of motion and improve the efficiency of motion/exercise.

Drawings

Fig. 1 shows a side view of the AR swimming goggles according to the present invention.

Fig. 2 is a top view of the AR swimming goggles of the present invention.

Fig. 3 is a schematic structural diagram of the sensing module shown in fig. 1.

Fig. 4 is a schematic structural diagram of the transmission module in fig. 1.

Fig. 5 is a schematic structural diagram of the optical module in fig. 1.

100 sensing module

110 sensor opening

200 optical module

210 image generating device

220 lens device

230 optical waveguide

300 transmission module

310 transmission line

320 soft glue

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention.

Please refer to fig. 1 to 5. It should be noted that the drawings provided in the present embodiment are only for illustrating the basic idea of the invention in a schematic manner, and only the components related to the invention are shown in the drawings rather than being drawn according to the number, shape and size of the components in actual implementation, and the form, quantity and proportion of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

The present embodiment provides an AR glasses, which includes a sensing module 100, an optical module 200 and a transmission module 300; the sensing module 100 comprises a sensor and a processor, and the sensor acquires data information of a user during movement in real time and converts the data information into image data; the optical module 200 includes an image generating device 210, a lens device 220 and an optical waveguide 230; converting the image data into a light image by the image generation device 210, magnifying the incident light image by the lens device 220, and transmitting the magnified light image to the front of the user by the optical waveguide 230; the transmission module 300 is located between the sensing module 100 and the optical module 200, and connects the sensing module 100 and the optical module 200.

Specifically, the sensing module 100 may include the sensor, the processor and the power source, and the sensor collects data information of the user during movement in real time, the processor converts the obtained data information into image data, the transmission module 300 transmits the image data to the optical module 200, the image generation device 210 converts the image data into an optical image, the lens device 220 amplifies the incident optical image, and the optical waveguide 230 transmits the amplified optical image to the front of the user.

The AR glasses of the embodiment can transmit the data information of the user in motion to the eyes of the user in real time, so that the motion interactivity and the motion interest can be enhanced, and the motion/exercise efficiency can be improved.

As an example, the sensing module 100 includes one or a combination of a biological data module, a body posture module, and a motion state module.

Specifically, the biological data module can be used for reflecting biological information of the user during movement, such as heartbeat, electrocardio, blood oxygen, body temperature and the like; the body posture module can be used for reflecting the body posture of the user during movement, such as acceleration, inclination, rotation degree and the like. The motion state module can be used for reflecting the motion state of the user during motion, such as motion position information and the like.

As an example, when the sensing module 100 adopts the biological data module, the biological data module includes the sensor contacting with the skin of the human body, and the sensor includes one or a combination of a heartbeat sensor, an electrocardiograph sensor, a blood oxygen sensor, a body temperature sensor, and a blood pressure sensor.

Specifically, the heartbeat sensor is used for detecting real-time heartbeat data of the user during movement; the electrocardio sensor is used for detecting real-time electrocardio data of the user during movement; the blood oxygen sensor is used for detecting real-time blood oxygen data of the user during movement; the body temperature sensor is used for detecting real-time body temperature data of the user during movement; the blood pressure sensor is used for detecting real-time blood pressure data of the user during movement, but the type of the sensor in the biological data module is not limited to this. Preferably, the sensor is in contact with the skin of the human body, such as can be disposed on a temple of the AR glasses, and is in close proximity to the skin of the user, such as in a dense blood vessel position near the temple, thereby contributing to, but not limited to, enhancing the signal and accuracy of data acquisition.

As an example, the biological data module includes a sensor opening to accommodate the sensor, and the sensor opening is filled with a transparent member to cover the sensor opening through the transparent member.

Specifically, referring to fig. 3, in the present embodiment, a sensor opening 110 is disposed in the biological data module, and the sensor opening 110 is filled with the transparent member (not shown), so that the sensor opening 110 is covered by the transparent member. The top opening of the sensor opening 110 faces the skin of the user, so that the sensor can be protected by the transparent member to avoid contamination and damage, thereby prolonging the service life of the sensor, and the optical signal emitted from the sensor can be reflected back to the sensor after reaching the skin of the user through the sensor opening 110 to measure the biological information of the user. Preferably, the material of the transparent member may be Acrylic (Acrylic), Polystyrene (Polystyrene), Polycarbonate (Polycarbonate), Cyclic Olefin Polymer (COP), Cyclic Olefin Copolymer (COC), and the like, which are not limited herein.

As an example, when the body posture module is adopted by the sensing module 100, the body posture module may include one or a combination of an acceleration sensor, a gyroscope sensor, and a geomagnetic sensor.

Specifically, the acceleration sensor may be configured to detect real-time acceleration data of the user while the user is moving; the gyroscope sensor may be used to detect real-time tilt and rotation angle data of the user during movement, but the type of the body posture module is not limited thereto, and may further include a geomagnetic sensor and the like. Wherein, acceleration sensor, geomagnetic sensor or the gyroscope sensor need not to contact with user's skin, and specific position can be selected as required.

As an example, when the sensing module 100 adopts the motion state module, the motion state module includes one or a combination of a GPS receiver, a WIFI receiver, a bluetooth receiver, a ZigBee receiver, and a cellular communication module; the cellular communication module includes one or a combination of 2G, 3G, 4G, 5G, and NB-IoT.

Specifically, the position data of the user can be acquired in real time through the GPS receiver or the WIFI receiver, so that the relevant motion information of the user, such as acceleration, can be acquired. The type of the motion status module is not limited thereto, for example, the motion status module may further include one or a combination of a bluetooth receiver, a ZigBee receiver, and a cellular communication module, wherein the cellular communication module may include one or a combination of 2G, 3G, 4G, 5G, and NB-IoT.

As an example, the image generation device 210 includes a micro display; the Micro-display comprises one or a combination of an OLED Micro-display, an LCOS Micro-display and a Micro-Led Micro-display.

Specifically, referring to fig. 1, 2 and 5, the image data can be converted into a light image by the image generation device 210, and the light image can be further transmitted to the eye of the user by the optical waveguide 230 after being amplified by the lens device 220. The optical waveguide 230 is preferably a lens having both a function of displaying an image and a function of viewing an external environment, and the Micro-display may be one or a combination of an OLED Micro-display, an LCOS Micro-display and a Micro-Led Micro-display, but the specific type of the Micro-display is not limited thereto.

As an example, the optical module 200 includes 2 to realize a 3D display effect.

Specifically, referring to fig. 1 and 2, the optical module 200 includes 2 optical modules 200, so that the left and right eyes can respectively display different visual effects through the 2 optical modules 200, thereby implementing binocular stereoscopic vision, and thus a 3D display effect is constructed through the parallax of both eyes, so that the user can experience stereoscopic 3D display, and 3D display is implemented.

As an example, the transmission module 300 includes a transmission line 310, and one or a combination of a soft glue 320 and a hinge structure wrapping the transmission line 310.

Specifically, as shown in fig. 4, the transmission line 310 may include, for example, a data line or a power line, and the sensing module 100 and the optical module 200 are connected through the transmission line 310, so as to transmit the image data of the user during exercise, collected by the sensing module 100, to the optical module 200. In order to protect the transmission line 310, the outer side of the transmission line 310 may be wrapped by the soft rubber 320, so as to enhance the structural strength of the transmission module 300 and improve the contact and adhesion degree of the AR eyes and the skin of the human body, and to achieve water tightness, etc. The specific types of the transmission line 310 and the soft glue 320 are not limited herein, and as another embodiment, the hinge structure may be used to wrap the transmission line 310, which is not limited herein.

By way of example, the AR glasses include one of AR sport glasses, AR flat mirrors, AR myopia glasses, and AR presbyopic glasses; the AR sport glasses include one of AR swimming glasses, AR bicycle glasses, AR hockey glasses, AR ski glasses, and AR baseball glasses.

Specifically, in the embodiment, the AR swimming glasses are only taken as an example, but not limited thereto, and the AR glasses may also be AR plane mirrors, AR myopia glasses, AR presbyopic glasses, or other AR sports glasses according to needs, for example, the AR sports glasses may further include one of the AR bicycle glasses, AR hockey glasses, AR ski glasses, and AR baseball glasses, and the specific category is not limited herein.

To sum up, the AR glasses of the present invention comprise a sensing module, an optical module and a transmission module; the sensing module comprises a sensor and a processor, data information of a user during movement is collected in real time through the sensor, and the data information is converted into image data through the processor; the optical module comprises an image generating device, a lens device and an optical waveguide; converting the image data into a light image by the image generation device, magnifying the incident light image by the lens device, and transmitting the magnified light image to the front of the user's eye by the optical waveguide; the transmission module is positioned between the sensing module and the optical module and is connected with the sensing module and the optical module. The utility model discloses can with user's multiple health information and motion information convey in real time user's is in the front to can strengthen the interactive of motion, strengthen the interest of motion and improve the efficiency of motion/exercise.

Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. AR glasses, characterized in that the AR glasses comprise:

the sensing module comprises a sensor and a processor; acquiring data information of a user during movement in real time through the sensor, and converting the data information into image data through the processor;

an optical module including an image generating device, a lens device, and an optical waveguide; converting the image data into a light image by the image generation device, magnifying the incident light image by the lens device, and transmitting the magnified light image to the front of the user's eye by the optical waveguide;

and the transmission module is positioned between the sensing module and the optical module and is connected with the sensing module and the optical module.

2. The AR glasses according to claim 1, wherein: the sensing module comprises one or a combination of a biological data module, a body posture module and a motion state module.

3. The AR glasses according to claim 2, wherein: the biological data module comprises a sensor which is in contact with the skin of a human body, and the sensor comprises one or a combination of a heartbeat sensor, an electrocardio sensor, a blood oxygen sensor, a body temperature sensor and a blood pressure sensor.

4. The AR glasses according to claim 2, wherein: the biological data module comprises a sensor opening for accommodating the sensor, and a transparent piece is filled in the sensor opening to cover the sensor opening through the transparent piece.

5. The AR glasses according to claim 2, wherein: the body posture module comprises one or a combination of an acceleration sensor, a gyroscope sensor and a geomagnetic sensor.

6. The AR glasses according to claim 2, wherein: the motion state module comprises one or a combination of a GPS receiver, a WIFI receiver, a Bluetooth receiver, a ZigBee receiver and a cellular communication module; the cellular communication module includes one or a combination of 2G, 3G, 4G, 5G, and NB-IoT.

7. The AR glasses according to claim 1, wherein: the image generation device comprises a micro-display; the Micro-display comprises one or a combination of an OLED Micro-display, an LCOS Micro-display and a Micro-Led Micro-display.

8. The AR glasses according to claim 1, wherein: the optical module comprises 2 optical modules to realize a 3D display effect.

9. The AR glasses according to claim 1, wherein: the transmission module comprises a transmission line, and one or a combination of a soft rubber and a hinge structure wrapping the transmission line.

10. The AR glasses according to any of claims 1 to 9, wherein: the AR glasses comprise one of AR sport glasses, AR plane mirrors, AR myopia glasses and AR presbyopic glasses; the AR sport glasses include one of AR swimming glasses, AR bicycle glasses, AR hockey glasses, AR ski glasses, and AR baseball glasses.

Images