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CN-121995633-A - Intelligent glasses, control method thereof and readable storage medium

CN121995633ACN 121995633 ACN121995633 ACN 121995633ACN-121995633-A

Abstract

The invention discloses intelligent glasses, a control method thereof and a readable storage medium, and relates to the technical field of wearable display equipment, wherein the intelligent glasses comprise a glasses frame and a shading module, the glasses frame is provided with a frame opening for installing lenses, and the shading module is arranged at the frame opening and circumferentially around the frame opening to form a light passing opening for passing light; the control method comprises the following steps of obtaining the ambient light brightness, and controlling the light transmission area of the light passing opening according to the ambient light brightness so as to enable the light shielding module to be in a light transmission state or a light shielding state. According to the technical scheme, the intelligent glasses can be switched to work states according to different ambient light brightness, so that luminous flux is reduced in a strong light environment, and the use experience of a user is improved.

Inventors

  • XU CHENXI
  • WANG PINGPING
  • YIN QI
  • ZHANG QINGKAI

Assignees

  • 青岛歌尔视界科技有限公司

Dates

Publication Date
20260508
Application Date
20241108

Claims (10)

  1. 1. The control method of the intelligent glasses is characterized in that the intelligent glasses comprise a glasses frame and a shading module, the glasses frame is provided with a frame opening for installing lenses, the shading module is arranged at the frame opening and circumferentially surrounds the frame opening to form a light passing opening for passing light, and the control method comprises the following steps: Acquiring the brightness of the environment; and controlling the light transmission area of the light-passing opening according to the ambient light brightness so as to enable the light shielding module to be in a light transmission state or a light shielding state.
  2. 2. The method of claim 1, wherein the step of controlling the light transmission area of the light passing port according to the ambient light level so that the light shielding module is in a light transmission state or a light shielding state comprises: When the ambient light brightness is smaller than or equal to a first preset brightness threshold, controlling the light transmission area of the light passing opening to be not smaller than the light transmission area of the frame opening so that the light shielding module is in the light transmission state; When the ambient light brightness is greater than a first preset brightness threshold, controlling the light transmission area of the light passing opening to be smaller than the light transmission area of the frame opening so that the light shielding module is in the light shielding state.
  3. 3. The method for controlling smart glasses according to claim 2, wherein the light shielding state includes at least two light shielding gears, and the step of controlling the light transmission area of the light passing opening to be smaller than the light transmission area of the frame opening when the ambient light brightness is greater than a first preset brightness threshold value, so that the light shielding module is in the light shielding state includes: Determining the corresponding shading gear of the shading module in the shading state according to the ambient light brightness; and controlling the covering area of the shading module corresponding to the frame opening according to the shading gear corresponding to the shading module so as to control the light transmission area of the light passing opening.
  4. 4. The method for controlling smart glasses according to claim 3, wherein the step of determining the light shielding gear corresponding to the light shielding module in the light shielding state according to the ambient light level includes: judging whether the brightness of the real-time environment is larger than a second preset brightness threshold value, wherein the second preset threshold value is larger than the first preset threshold value; if the ambient light brightness is smaller than or equal to the second preset brightness threshold, controlling the shading module to be in a first shading gear, wherein the shading area of the shading module corresponding to the frame opening is S1; And if the ambient light brightness is greater than the second preset brightness threshold, controlling the shading module to be in a second shading gear, wherein the shading area corresponding to the frame opening by the shading module is S2, and S2> S1 is satisfied.
  5. 5. The method for controlling intelligent glasses according to claim 3, wherein the shading module comprises a shading component and a driving component, the shading component is circumferentially arranged along the frame opening to form the light passing opening, and the step of controlling the shading module to cover the corresponding area of the frame opening according to the shading blocking position corresponding to the shading module to control the light passing area of the light passing opening comprises the following steps: according to the matched shading gear of the shading module, confirming the target telescopic distance of the shading component in the frame caliber direction; and controlling the driving assembly to drive the shading assembly to move the target telescopic distance.
  6. 6. The method of claim 5, wherein the step of controlling the driving assembly to drive the shade assembly to move the target telescopic distance comprises: Acquiring a target power supply voltage or a target power supply time of the driving assembly according to the target telescopic distance of the shading assembly; and controlling the driving assembly to work according to the target power supply voltage or the target power supply time.
  7. 7. The method of claim 6, wherein the power supply voltage is linearly related to a target telescopic distance of the shade assembly; and when the power supply voltage is zero, the shading module is switched to the light transmission state.
  8. 8. The method according to any one of claims 1 to 7, wherein after the step of controlling the light transmission area of the light passing port according to the ambient light level so that the light shielding module is in a light transmission state or a light shielding state, further comprising: acquiring the ambient light brightness at preset time intervals, and confirming the target working state of the shading module; When the current working state of the shading module accords with the target working state, controlling the shading module to maintain the current working state; And when the current working state of the shading module does not accord with the target working state, controlling the shading module to switch to the target working state.
  9. 9. A smart glasses comprising a memory, a processor and a computer program stored on the memory and executable on the processor, which when executed by the processor, implements the steps of the method of controlling a smart glasses according to any one of claims 1 to 8.
  10. 10. A readable storage medium storing program instructions which, when executed by a processor, implement the steps of the method of controlling smart glasses according to any one of claims 1 to 8.

Description

Intelligent glasses, control method thereof and readable storage medium Technical Field The invention relates to the technical field of wearable display equipment, in particular to intelligent glasses, a control method thereof and a readable storage medium. Background In current wearable equipment field, can provide clear image display for the user under outdoor highlight condition through the mode of ray apparatus outgoing high brightness light to reinforcing user's use experience. However, the manner of improving the brightness of the emergent light can cause discomfort to the user due to the irradiation of strong light when the user uses the light, and influence the use experience of the user. Disclosure of Invention The invention mainly aims to provide intelligent glasses, a control method thereof and a readable storage medium, and aims to enable the intelligent glasses to switch working states according to different ambient light brightness, so as to reduce luminous flux in a strong light environment and improve the use experience of a user. In order to achieve the above object, the present invention provides a control method for an intelligent glasses, the intelligent glasses including a frame and a shading module, the frame having a frame opening for mounting a lens, the shading module being disposed at the frame opening and circumferentially surrounding the frame opening to form a light passing opening for passing light, the control method comprising the steps of: Acquiring the brightness of the environment; and controlling the light transmission area of the light-passing opening according to the ambient light brightness so as to enable the light shielding module to be in a light transmission state or a light shielding state. In an embodiment, the step of controlling the light transmission area of the light-passing opening according to the ambient light brightness to make the light shielding module in a light transmission state or a light shielding state includes: When the ambient light brightness is smaller than or equal to a first preset brightness threshold, controlling the light transmission area of the light passing opening to be not smaller than the light transmission area of the frame opening so that the light shielding module is in the light transmission state; When the ambient light brightness is greater than a first preset brightness threshold, controlling the light transmission area of the light passing opening to be smaller than the light transmission area of the frame opening so that the light shielding module is in the light shielding state. In an embodiment, the light shielding state includes at least two light shielding gears, and when the ambient light brightness is greater than a first preset brightness threshold, the step of controlling the light transmission area of the light passing opening to be smaller than the light transmission area of the frame opening so that the light shielding module is in the light shielding state includes: Determining the corresponding shading gear of the shading module in the shading state according to the ambient light brightness; and controlling the covering area of the shading module corresponding to the frame opening according to the shading gear corresponding to the shading module so as to control the light transmission area of the light passing opening. In an embodiment, the step of determining that the light shielding module is in the light shielding state according to the ambient light level includes: judging whether the brightness of the real-time environment is larger than a second preset brightness threshold value, wherein the second preset threshold value is larger than the first preset threshold value; if the ambient light brightness is smaller than or equal to the second preset brightness threshold, controlling the shading module to be in a first shading gear, wherein the shading area of the shading module corresponding to the frame opening is S1; And if the ambient light brightness is greater than the second preset brightness threshold, controlling the shading module to be in a second shading gear, wherein the shading area corresponding to the frame opening by the shading module is S2, and S2> S1 is satisfied. In one embodiment, the light shielding module includes a light shielding component and a driving component, the light shielding component is circumferentially arranged along the frame opening to form the light passing opening, and the step of controlling the light shielding module to cover the corresponding area of the frame opening according to the light shielding gear corresponding to the light shielding module to control the light transmitting area of the light passing opening includes: according to the matched shading gear of the shading module, confirming the target telescopic distance of the shading component in the frame caliber direction; and controlling the driving assembly to drive the shading assembly to move the target