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CN-121995653-A - Intelligent goggles system and working method thereof

CN121995653ACN 121995653 ACN121995653 ACN 121995653ACN-121995653-A

Abstract

The invention discloses an intelligent goggles system and a working method thereof. The system comprises a goggle main body and a calculation box, wherein the goggle main body is used for realizing augmented reality information display and image and video acquisition, the calculation box is used for integrating information sensing, data processing, human-computer interaction, data storage management and external communication, so that the goggle main body is driven to realize the functions of the goggle main body, and the data interaction of the goggle main body and the calculation box is realized through a high-speed data line. The method comprises the steps of system starting and initializing, near-eye display function, high-definition shooting function and myopia correction function. According to the invention, through combining the transmission type near-eye display and high-resolution image shooting functions with the goggles, the environmental applicability and the artificial efficiency of the intelligent goggles are greatly improved.

Inventors

  • SONG YANLIN
  • SONG CHUNLIN
  • ZHAO HAIFENG
  • TANG LAIXIN
  • QIAN GUODONG
  • LIU ZIYU
  • ZHANG CHENG
  • YANG YUE
  • CHEN ZHONGJIANG
  • LU DA
  • LI YAOKANG
  • Dong Yahao
  • JIN YONGXI
  • WANG LILEI

Assignees

  • 杭州智元研究院有限公司

Dates

Publication Date
20260508
Application Date
20260119

Claims (10)

  1. 1. An intelligent goggles system, characterized by comprising a goggles body (100) and a calculation box (200); The goggle main body (100) is used for realizing the display of augmented reality information and collecting images and videos; The computing box (200) is used for integrating information sensing, performing data processing, realizing man-machine interaction, managing data storage and external communication, so as to drive the goggle main body (100) to realize functions thereof; The two achieve data interaction through a high-speed data line (300).
  2. 2. The intelligent goggles system according to claim 1, wherein said goggle body (100) comprises a frame (101), a lens (102), a near-eye display module (103), a photographing module (104), a near-vision lens module (105); The glasses frame (101) is a main body structure of a goggles and is used for bearing and fixing the lenses (102), the near-eye display module (103), the shooting module (104) and the myopia lens module (105), the glasses frame (101) is used for fixing the lenses (102) through annular grooves and detachably installing the near-eye display module (103), the shooting module (104) and the myopia lens module (105) through an integrated fixing structure, and the glasses frame (101) is also connected with an elastic adjustable braid so as to ensure stable wearing; The lens (102) is fixed at the front end of the lens holder (101) and is positioned at the forefront of the visual field of a user, has a photochromic function, can automatically adjust the transmittance according to ambient illumination, and has anti-fog and anti-explosion treatment, so that visual comfort and physical protection are provided; The near-eye display module (103) and the shooting module (104) are integrated to form a display shooting module and are detachably arranged on the inner side of the frame (101), and the near-eye display module (103) projects images to the front of eyes of a user through a micro-display, an optical coupling system and an optical waveguide to realize transmission type near-eye display; The shooting module (104) is integrated with the near-eye display module (103) and is positioned above the middle of the display module, and a CMOS sensor and a photosensitive sensor are built in the near-eye display module, wherein the shooting module (104) is used for shooting high-definition pictures and videos, and perceiving ambient light through the photosensitive sensor to assist in adjusting display brightness; The myopia lens module (105) comprises a plurality of degrees of myopia lenses, adopts a magnetic attraction design, can be quickly and stably arranged on a fixed structure of the display shooting module (103/104), and provides vision correction for a myopic user; The near-eye display module (103), the shooting module (104) and the myopia lens module (105) adopt integrated design to form a quick-detachable display shooting module, so that independent use is realized.
  3. 3. The smart goggle system of claim 2, wherein the eyeglass frame (101) comprises an arcuate unit, a nose bridge support unit, and a frame unit; the arc-shaped unit is contacted with the forehead of a user, and a memory sponge is embedded in the arc-shaped unit; the nose bridge supporting unit adopts a Y-shaped bifurcation structure and is used for keeping stability and avoiding pressing nose bridge; The edge of the mirror frame unit is provided with an annular groove; the side surface of the mirror bracket (101) is fixed with an elastic braid through a connecting ring; two parallel guide rail grooves are formed in the left side and the right side of the upper edge of the mirror bracket (101), and a locating pin fixing structure is arranged at the tail end of the mirror bracket and used for fixing the display shooting module; and a release button is arranged on the outer side of the glasses frame (101), and when a user presses the release button, the release button reversely slides out of the display shooting module, so that quick disassembly and quick assembly are realized.
  4. 4. The intelligent goggles system according to claim 3, wherein the display shooting module is arranged in an upper region of the center of the goggle bracket (101), a positioning pin is arranged at the bottom of the display shooting module and matched with the positioning pin of the parallel guide rail groove, a one-way spring buckle is arranged in each of the two parallel guide rail grooves, and a corresponding locking clamping groove is arranged at the tail end of each buckle.
  5. 5. The smart goggle system of claim 4, wherein the near-eye display module (103) comprises a micro-display, an optical coupling system, and an optical waveguide, the micro-display generating a high resolution, high refresh rate image for projection to a user field of view via the optical coupling system and the optical waveguide for achieving a high-brightness, high-contrast see-through near-eye display; The near-eye display module (103) and the shooting module (104) are integrated into a whole, the near-eye display module (103) is positioned in front of eyes of a user, and the shooting module (104) is positioned above the middle of the display shooting module.
  6. 6. The intelligent goggles system according to claim 5, wherein the myopia lens module (105) comprises myopia lenses with various degrees, a user can select proper lenses according to vision conditions, a U-shaped groove is formed in the center of the near-eye display module (103), a magnet is embedded in the U-shaped groove, and a corresponding protruding structure is arranged above the center of the matched myopia lens frame and is embedded in a metal block.
  7. 7. The intelligent goggles system according to claim 1, wherein said computing box (200) comprises a computing module (201), an interaction module, a power module (204); The computing module (201) is arranged inside the computing box (200); the interaction module comprises a touch pad (202) and physical keys (203); The touch control plate (202) is arranged on the front surface of the computing box (200), and is used for realizing multi-point touch control and various gesture operations by adopting a capacitive sensing technology; The physical keys (203) are arranged at the side edges of the computing box (200), and have definite tactile feedback by adopting a convex key design; the power module (204) is located inside the computing box (200), integrating a polymer lithium battery.
  8. 8. The intelligent goggles system according to claim 7, wherein the computing module (201) is equipped with a high-performance multi-core processor customized for low-power consumption mobile edge computing scene depth, has heterogeneous computing capability, and can efficiently process complex visual computing, sensor fusion and real-time spatial positioning and mapping tasks locally.
  9. 9. The intelligent goggles system according to claim 7, wherein a hydrophobic and oleophobic coating is coated on a surface of the touch pad (202), and an enhanced capacitive sensing hardware design is adopted inside the touch pad.
  10. 10. A method of operation for implementing an intelligent goggles system as claimed in any one of claims 1-9, comprising the steps of: Step 1, starting and initializing a system, namely starting an intelligent wind mirror by pressing a start key by a user, and performing self-checking on each module by a computing unit to ensure that each module has normal functions; Step 2, a near-to-eye display function, which is to acquire and process data from the positioning module, the sensor module and the external equipment to generate content to be displayed, accurately project the content to a user field of view through a micro display and an optical system, dynamically adjust display brightness according to ambient illumination intensity and ensure that information is clear and visible; Step 3, a high-definition shooting function, namely triggering and setting shooting parameters by a user through a touch pad or a voice command to adapt to different shooting scenes and requirements, and optimally acquiring external images or videos by a shooting module according to the setting parameters by combining technologies such as automatic focusing, optical anti-shake and the like; And 4, a myopia correction function, wherein a user selects proper lenses from the provided myopia lens group according to the myopia degree of the user. The lens adopts the magnetism to inhale the design, and the user only needs to be close to the inside installation position of mirror holder with the lens of selecting, and the lens can be adsorbed by the automation fixedly, and the mounting means is convenient and in-process stable and reliable that uses, can not become flexible because of strenuous motion or external collision.

Description

Intelligent goggles system and working method thereof Technical Field The invention belongs to the technical field of intelligent goggles, and particularly relates to an intelligent goggles system and a working method thereof. Background Goggles serve as eye protection tools and play an important role in riding, skiing and industrial operations. However, the existing goggles have single functions, cannot meet the demands of people on information acquisition and life recording, are low in transmittance, cannot be adjusted under different illumination, are limited in use scene, cannot adapt to low-light environments such as night, and are inconvenient to wear by a myopic user, and the sealability and wearing comfort of the goggles are seriously affected. Disclosure of Invention The invention aims to provide an intelligent goggles system and a working method thereof, which are used for solving the technical problems that the existing goggles have single function, use fields Jing Shouxian and cannot be compatible with myopia glasses, and combining the functions of transmission type near-eye display and high-resolution image shooting with the goggles, so that the environmental applicability and the artificial efficiency of the intelligent goggles are greatly improved. In order to achieve the object of the invention, in one aspect, the invention provides an intelligent goggles system, comprising a goggles body and a calculation box; the goggle main body is used for realizing the display of augmented reality information and collecting images and videos; The computing box is used for integrating information sensing, carrying out data processing, realizing man-machine interaction, managing data storage and external communication, so as to drive the goggle main body to realize the functions thereof; The two realize data interaction through the high-speed data line. The goggle main body comprises a spectacle frame, lenses, a near-eye display module, a shooting module and a myopia lens module; the glasses frame is a main body structure of a goggles and is used for bearing and fixing the lenses, the near-eye display module, the shooting module and the myopia lens module, the glasses frame is used for fixing the lenses through an annular groove and detachably installing the near-eye display module, the shooting module and the myopia lens module through an integrated fixing structure, and the glasses frame is also connected with an elastic adjustable braid so as to ensure stable wearing; the lens is fixed at the front end of the lens frame and is positioned at the forefront of the visual field of a user, has a photochromic function, can automatically adjust the transmittance according to ambient illumination, has anti-fog and anti-explosion treatment, and provides visual comfort and physical protection; the near-eye display module is integrated with the shooting module to form a display shooting module and is detachably arranged on the inner side of the mirror bracket, and the near-eye display module projects an image to the front of eyes of a user through a micro display, an optical coupling system and an optical waveguide to realize transmission type near-eye display; The shooting module is integrated with the near-to-eye display module, is positioned above the middle of the display module, is internally provided with a CMOS sensor and a photosensitive sensor, and is used for shooting high-definition pictures and videos and sensing ambient light through the photosensitive sensor so as to assist in adjusting display brightness; the myopia lens module comprises a plurality of degrees of myopia lenses, adopts a magnetic attraction design, can be quickly and stably arranged on a fixed structure of the display shooting module, and provides vision correction for myopic users; The near-eye display module, the shooting module and the myopia lens module adopt an integrated design to form a quick-detachable display shooting module, so that independent use is realized. The glasses frame comprises an arc-shaped unit, a nose bridge supporting unit and a glasses frame unit; the arc-shaped unit is contacted with the forehead of a user, and a memory sponge is embedded in the arc-shaped unit; the nose bridge supporting unit adopts a Y-shaped bifurcation structure and is used for keeping stability and avoiding pressing nose bridge; The edge of the mirror frame unit is provided with an annular groove; The side surface of the mirror bracket is fixed with an elastic braid through a connecting ring; two parallel guide rail grooves are formed in the left side and the right side of the upper edge of the glasses frame, and a locating pin fixing structure is arranged at the tail end of the glasses frame and used for fixing the display shooting module; and a release button is arranged on the outer side of the glasses frame, and when a user presses the release button, the release button reversely slides out of the display shooting module, so that