CN113359297A

CN113359297A - AR intelligent glasses of intelligent vision training

Info

Publication number: CN113359297A
Application number: CN202110670475.1A
Authority: CN
Inventors: 王晓明; 赵琪
Original assignee: Jiangsu Hechen Software Technology Co ltd
Current assignee: Jiangsu Hechen Software Technology Co ltd
Priority date: 2021-06-17
Filing date: 2021-06-17
Publication date: 2021-09-07

Abstract

The invention relates to AR intelligent glasses for intelligent vision training, which comprise a glasses body, wherein a sliding toothed plate is arranged in a sliding groove, a gear used in a matched mode is arranged on the sliding toothed plate, a motor for driving the gear to rotate is arranged in a control area, a micro-projection optical machine is arranged at one end, away from a glasses leg, of the toothed plate, a coupling area is arranged on one side of the micro-projection optical machine, an AR display and control assembly comprises a main control unit and metadata, the metadata are arranged in the main control unit of the control area, AR display lenses are arranged on the inner side of the glasses frame, and a waveguide layer is arranged on one side, away from the glasses frame, of the AR display lenses. After adopting the structure, the invention has the following advantages: the motor is adopted to drive the gear to rotate, so that the toothed plate is driven to move in the sliding groove, the micro-projection optical machine and the coupling area are adjusted, the display content and the focusing of the AR display lens can be adjusted, and the eyesight and the vision of people can be trained better.

Description

AR intelligent glasses of intelligent vision training

Technical Field

The invention relates to the technical field of AR intelligent glasses, in particular to AR intelligent glasses for intelligent vision training.

Background

At present, an AR augmented reality technology is a new technology for seamlessly integrating real world information and virtual world information, and is characterized in that entity information which is difficult to experience in a certain time space range of the real world originally is overlapped after simulation through scientific technologies such as computers, virtual information is applied to the real world and is perceived by human senses, and therefore sensory experience beyond reality is achieved. Real environment and virtual object are superposed on the same picture or space in real time, so that people feel that the real environment and the virtual object exist at the same time.

Along with information technology's rapid development, the glasses that have information access and show the function have appeared, and people train people's eyesight and vision through AR intelligence glasses, but present AR intelligence glasses can't adjust the focus, cause eyesight and visual effect not good.

Disclosure of Invention

In order to solve the above problems, an objective of the present invention is to disclose an AR smart glasses for intelligent vision training, which can adjust the position of the micro-projector through a motor, so that the position of the micro-projector projected on the waveguide layer through the coupling-in region is changed, focus is adjusted, and the vision and vision training of people are trained.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

an AR intelligent glasses for intelligent vision training comprises a glasses body and an AR display control assembly embedded in the glasses body, wherein the glasses body comprises a glasses frame with a protruding front end, two sides of the glasses frame are provided with glasses legs connected through a hinge device, a control area is respectively arranged between the glasses frame and the glasses legs, a sliding chute is arranged on the inner side of the glasses frame of the control area, a sliding toothed plate is arranged in the sliding chute, a gear used in a matched mode is arranged on the sliding toothed plate, a motor for driving the gear to rotate is arranged in the control area, a micro-projection optical machine is arranged at one end, away from the glasses legs, of the toothed plate, a coupling area is arranged on one side of the micro-projection optical machine, the AR display control assembly comprises a main control unit and metadata, the metadata are arranged in the main control unit of the control area, an AR display lens is arranged on the inner side of the glasses frame, and a waveguide layer is arranged on one side, away from the glasses frame, of the AR display lens, and one end of the waveguide layer, which is far away from the inner AR display lens, is provided with a coupling-out area.

After adopting the structure, the invention has the following advantages:

the motor is adopted to drive the gear to rotate, so that the toothed plate is driven to move in the sliding groove, the micro-projection optical machine and the coupling area are adjusted, the display content and the focusing of the AR display lens can be adjusted, and the eyesight and the vision of people can be trained better.

As an improvement, a reflector is arranged in the coupling-in area, and the reflector can couple the light beam of the micro projection optical machine into the waveguide sheet, so that the light beam meets the condition of total reflection propagation in the waveguide sheet.

As an improvement, a volume holographic grating is arranged in the coupling-out area. The volume holographic grating can couple the light beam propagated by total reflection out of the waveguide sheet and transmit the light beam to human eyes.

As an improvement, the metadata receives data information through a Bluetooth communication module and a storage unit, and the metadata causes image generation through images or superposition of the images.

As an improvement, the outer side of the mirror frame is provided with a switch key connected with the AR display control component.

As an improvement, the mirror frame is provided with a face recognition camera which is connected with the main control unit.

As an improvement, the main control unit can control the motor to rotate.

As an improvement, one side of the main control unit is provided with a battery, and one end of the battery is provided with a charging interface.

Drawings

Fig. 1 is a schematic structural diagram of AR smart glasses for intelligent visual training according to the present invention.

FIG. 2 is a schematic structural diagram of an output area of AR smart glasses for intelligent visual training according to the present invention.

Fig. 3 is a schematic waveguide propagation diagram of an AR smart glasses for intelligent vision training according to the present invention.

Fig. 4 is a schematic transmission diagram of the AR smart glasses for intelligent visual training according to the present invention.

As shown in the figure: 1. glasses body, 1.1, the picture frame, 1.2, the mirror leg, 2, AR shows accuse subassembly, 2.1, the master control unit, 2.2, AR shows the lens, 2.3, the waveguide layer, 2.4, the battery, 2.5, the interface that charges, 3, the holographic grating of volume, 4, the control area, 4.1, the spout, 4.2, the pinion rack, 4.3, the gear, 4.4, the motor, 4.5, little projection light machine, 5, the speculum, 6, people's face identification camera, 7, the on-off switch.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

An AR intelligent glasses for intelligent visual training comprises a glasses body 1 and an AR display control assembly 2 embedded in the glasses body 1, wherein the glasses body 1 comprises a glasses frame 1.1 with a protruding front end, two sides of the glasses frame 1.1 are provided with glasses legs 1.2 connected by a hinge device, a control area 4 is respectively arranged between the glasses frame 1.1 and the glasses legs 1.2, the inner side of the glasses frame 1.1 of the control area 4 is provided with a sliding chute 4.1, the sliding chute 4.1 is internally provided with a sliding toothed plate 4.2, the sliding toothed plate 4.2 is provided with a gear 4.3 used in a matching way, the control area 4 is internally provided with a motor 4.4 for driving the gear 4.3 to rotate, one end of the toothed plate 4.2 far away from the glasses legs 1.2 is provided with a micro-projection optical machine 4.5, one side of the micro-projection optical machine 4.5 is provided with a coupling area, the AR display control assembly 2 comprises metadata arranged in a main control unit 2.1 and a main control unit 2.1 of the control area 4, the picture frame 1.1 inboard is equipped with AR and shows lens 2.2, AR show that one side that lens 2.2 kept away from picture frame 1.1 is equipped with waveguide layer 2.3, waveguide layer 2.3 keep away from interior AR and show that the one end of lens 2.2 is equipped with the coupling-out area.

The coupling-in area is internally provided with a reflector 5, and the reflector 5 can be replaced by a prism, a relief grating and a volume holographic grating in the specific implementation of the invention.

The coupling-out area is internally provided with a volume holographic grating 3. In the specific implementation of the invention, the volume holographic grating 3 can be replaced by an array semi-transparent and semi-reflective mirror, an embossed grating and a volume holographic grating.

The metadata receives data information through the Bluetooth communication module and the storage unit, and the metadata generates images through images or superposition of the images.

The outside of picture frame 1.1 be equipped with the on & off switch 7 of being connected with AR shows accuse subassembly 2, press on & off switch 7 and can start main control unit 2.1.

When the invention is implemented specifically, the face recognition camera 6 can recognize the face of a user and then transmit the face recognition camera 6 to the main control unit 2.1 for analyzing and comparing the previous use data to record.

The controllable motor 4.4 of main control unit 2.1 rotate, motor 4.4 rotates and drives gear 4.3 rotatory, drives pinion rack 4.2 and removes in spout 4.1 to adjust the position of little projection ray apparatus 4.5 and coupling-in district.

One side of main control unit 2.1 be equipped with battery 2.4, battery 2.4's one end be equipped with the interface 2.5 that charges.

The working principle of the invention is as follows: people can take the glasses body, the main control unit can be started through a switch key, the main control unit controls the face recognition camera to recognize the face, then data is transmitted to metadata for analysis, after the analysis, a signal is fed back to the main control unit for control, the main control unit controls to recognize new and old users according to the face recognition camera, people can be connected with the main control unit through a mobile phone and Bluetooth, signals can be output to the metadata through the mobile phone Bluetooth, the metadata can form influence through superposition of images and images, then the metadata is projected through a micro-projection optical machine, the micro-projection optical machine is projected on a reflector of a coupling-in area and then reaches a waveguide layer, the metadata is reflected to human eyes through a waveguide layer and a volume holographic grating of the waveguide layer, so that people can watch the metadata through the human eyes, during vision and vision training, the main control unit controls a motor to rotate, the motor rotates to drive a gear to rotate, and a toothed plate moves in a chute, therefore, the positions of the micro-projection optical machine and the coupling-in area are adjusted, the focusing is adjusted, and the content watched by human eyes is subjected to distance conversion to train vision.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides an AR intelligence glasses of intelligent vision training, its characterized in that, including glasses body (1) to and inlay AR in glasses body (1) and show accuse subassembly (2), glasses body (1) have picture frame (1.1) including the front end arch, the both sides of picture frame (1.1) be equipped with mirror leg (1.2) that the hinge device is connected, picture frame (1.1) and mirror leg (1.2) between be equipped with control area (4) respectively, picture frame (1.1) inboard of control area (4) be equipped with spout (4.1), spout (4.1) in be equipped with sliding tooth plate (4.2), sliding tooth plate (4.2) on be equipped with gear (4.3) that the cooperation was used, control area (4) in be equipped with drive gear (4.3) pivoted motor (4.4), the one end that mirror leg (1.2) was kept away from to toothed plate (4.2) be equipped with little projection light machine (4.5), one side of micro-projection ray apparatus (4.5) be equipped with the coupling-in area, AR show accuse subassembly (2) including setting up the metadata in main control unit (2.1) and main control unit (2.1) of control area (4), picture frame (1.1) inboard is equipped with AR and shows lens (2.2), AR show that one side that lens (2.2) kept away from picture frame (1.1) is equipped with waveguide layer (2.3), waveguide layer (2.3) keep away from the one end that interior AR shows lens (2.2) and be equipped with the coupling-out area.

2. The intelligent vision-trained AR smart glasses according to claim 1, wherein: a reflector (5) is arranged in the coupling-in area.

3. The intelligent vision-trained AR smart glasses according to claim 1, wherein: the coupling-out area is internally provided with a volume holographic grating (3).

4. The intelligent vision-trained AR smart glasses according to claim 1, wherein: the metadata receives data information through the Bluetooth communication module and the storage unit, and the metadata generates images through images or superposition of the images.

5. The intelligent vision-trained AR smart glasses according to claim 1, wherein: the outer side of the mirror frame (1.1) is provided with a switch key (7) connected with the AR display control component (2).

6. The intelligent vision-trained AR smart glasses according to claim 5, wherein: the glasses frame (1.1) on be equipped with face identification camera (6), face identification camera (6) connect main control unit (2.1).

7. The intelligent vision-trained AR smart glasses according to claim 1, wherein: the main control unit (2.1) can control the motor (4.4) to rotate.

8. The intelligent vision-trained AR smart glasses according to claim 7, wherein: one side of main control unit (2.1) be equipped with battery (2.4), the one end of battery (2.4) be equipped with interface (2.5) that charge.