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CN-110673358-B - Light-adjusting glasses

CN110673358BCN 110673358 BCN110673358 BCN 110673358BCN-110673358-B

Abstract

The invention discloses dimming glasses which comprise a transparent LED display screen, a brightness sensor and a processor, wherein the transparent LED display screen is arranged on a glasses frame, the brightness sensor is overlapped on the transparent LED display screen, the processor is connected with the transparent LED display screen and the brightness sensor and is also used for confirming a first brightness value sensed by a first pixel of the brightness sensor and controlling a second pixel of the transparent LED display screen to carry out light supplementing display according to the first brightness value, and the positions of the first pixel and the second pixel are overlapped with each other. According to the invention, the brightness sensor is arranged on the mirror frame to sense the brightness of the environment, the processor is used for confirming whether light supplementing is needed, and the transparent LED display screen overlapped on the lens is used for supplementing light, so that the problem of unclear objects under the condition of low brightness is solved, and the visual effect of objects under the low-brightness environment is improved.

Inventors

  • LIU ZHAOJUN
  • YAN GEWEI
  • LIANG FENG
  • MO WEIJING

Assignees

  • 深圳市思坦科技有限公司

Dates

Publication Date
20260508
Application Date
20191011

Claims (8)

  1. 1.A pair of dimming spectacles, comprising: The transparent LED display screen is arranged on the glasses frame; the brightness sensor is overlapped on the transparent LED display screen; The processor is connected with the transparent LED display screen and the brightness sensor, and is also used for confirming a first brightness value sensed by a first pixel of the brightness sensor, controlling a second pixel of the transparent LED display screen to perform light supplementing display according to the first brightness value, and enabling the positions of the first pixel and the second pixel to be overlapped with each other; the dimming glasses further include: The liquid crystal light valve is arranged between the transparent LED display screen and the brightness sensor; The processor is connected with the liquid crystal light valve, and is further used for confirming a second brightness value sensed by a third pixel of the brightness sensor, controlling a fourth pixel of the liquid crystal light valve to perform noise reduction display according to the second brightness value, and enabling the positions of the third pixel and the fourth pixel to overlap with each other; the dimming glasses further include: The liquid crystal refractor is overlapped on the transparent LED display screen; the processor is connected with the liquid crystal refractor and is also used for controlling a fifth pixel of the liquid crystal refractor to adjust the light supplementing display according to the first brightness value, and the positions of the second pixel and the fifth pixel are overlapped with each other.
  2. 2. The pair of dimming glasses according to claim 1, wherein controlling the second pixels of the transparent LED display screen to perform the light-compensating display according to the first luminance value comprises: And when the first brightness value is lower than a first preset brightness value, controlling a second pixel of the transparent LED display screen to perform light supplementing display according to the first brightness value.
  3. 3. The pair of dimming glasses according to claim 1, wherein controlling the fourth pixel of the liquid crystal light valve to perform the noise reduction display according to the second luminance value comprises: And when the second brightness value is higher than a second preset brightness value, controlling a fourth pixel of the liquid crystal light valve to perform noise reduction display according to the second brightness value.
  4. 4. The dimming glasses of claim 1, wherein the resolution of the transparent LED display and the brightness sensor are the same.
  5. 5. The dimming glasses of claim 1, wherein the resolution of the transparent LED display and the liquid crystal light valve are the same.
  6. 6. The dimming glasses of claim 1, wherein the resolution of the transparent LED display and the liquid crystal refractor are the same.
  7. 7. The pair of dimming glasses according to claim 1, wherein the confirming the first brightness value sensed by the first pixel of the brightness sensor comprises: confirming the red light brightness value sensed by the first pixel and/or Confirming the green brightness value sensed by the first pixel and/or Confirming a blue light brightness value sensed by the first pixel; the controlling the second pixel of the transparent LED display screen to perform light filling display according to the first brightness value includes: controlling a second pixel of the transparent LED display screen to perform light supplementing display according to the red light brightness value and/or Controlling a second pixel of the transparent LED display screen to perform light supplementing display according to the green light brightness value and/or And controlling a second pixel of the transparent LED display screen to perform light supplementing display according to the blue light brightness value.
  8. 8. The pair of dimming glasses according to claim 1, wherein the confirming the second brightness value sensed by the third pixel of the brightness sensor comprises: Confirming the red light brightness value sensed by the third pixel and/or Confirming the green light brightness value sensed by the third pixel and/or Confirming a blue light brightness value sensed by the third pixel; the controlling the fourth pixel of the liquid crystal light valve to perform noise reduction display according to the second brightness value includes: Controlling a fourth pixel of the liquid crystal light valve to perform noise reduction display according to the red light brightness value and/or Controlling the fourth pixel of the liquid crystal light valve to perform noise reduction display according to the green light brightness value and/or And controlling a fourth pixel of the liquid crystal light valve to perform noise reduction display according to the blue light brightness value.

Description

Light-adjusting glasses Technical Field The embodiment of the invention relates to a technology for adjusting the brightness of glasses, in particular to dimming glasses. Background The range of brightness perceived by the human eye is limited, and too low a brightness can obscure the field of view. The device which can improve the visibility in the dark environment is very limited, namely, the light is used for improving the environment brightness, or the infrared device is used, the light is limited by the power and the volume of the light, the environment visibility cannot be improved in a portable mode in a large range, the light cannot be used under certain conditions when the light is not suitable for actively improving the environment brightness, and the infrared device is unrealistic for the ordinary people, and has high cost and can completely lose the color of an object. Disclosure of Invention The invention provides dimming glasses, which are used for improving the visibility of articles in a low-brightness environment. The embodiment of the invention provides a pair of glasses dimming glasses, which comprises: The transparent LED display screen is arranged on the glasses frame; the brightness sensor is overlapped on the transparent LED display screen; And the processor is connected with the transparent LED display screen and the brightness sensor, and is also used for confirming a first brightness value sensed by a first pixel of the brightness sensor, controlling a second pixel of the transparent LED display screen to perform light supplementing display according to the first brightness value, and mutually overlapping the positions of the first pixel and the second pixel. Optionally, the controlling the second pixel of the transparent LED display screen to perform light filling display according to the first ambient brightness value includes: And when the first brightness value is lower than a first preset brightness value, controlling a second pixel of the transparent LED display screen to perform light supplementing display according to the first brightness value. Optionally, the dimming glasses further include: The liquid crystal light valve is arranged between the transparent LED display screen and the brightness sensor; The processor is connected with the liquid crystal light valve, and is further used for confirming a second brightness value sensed by a third pixel of the brightness sensor, controlling a fourth pixel of the liquid crystal light valve to perform noise reduction display according to the second brightness value, and enabling the positions of the third pixel and the fourth pixel to overlap with each other. Optionally, the controlling the fourth pixel of the liquid crystal light valve to perform noise reduction display according to the second brightness value includes: And when the second brightness value is higher than a second preset brightness value, controlling a fourth pixel of the liquid crystal light valve to perform noise reduction display according to the second brightness value. Optionally, the dimming glasses further include: The liquid crystal refractor is overlapped on the transparent LED display screen; the processor is connected with the liquid crystal refractor and is also used for controlling a fifth pixel of the liquid crystal refractor to adjust the light supplementing display according to the first brightness value, and the positions of the second pixel and the fifth pixel are overlapped with each other. Optionally, the resolution of the transparent LED display screen and the resolution of the brightness sensor are the same Optionally, the resolution of the transparent LED display screen is the same as that of the liquid crystal light valve. Optionally, the resolution of the transparent LED display screen and the liquid crystal refractor are the same. Optionally, the confirming the first brightness value sensed by the first pixel of the brightness sensor includes: confirming the red light brightness value sensed by the first pixel and/or Confirming the green brightness value sensed by the first pixel and/or Confirming a blue light brightness value sensed by the first pixel; the controlling the second pixel of the transparent LED display screen to perform light filling display according to the first brightness value includes: controlling a second pixel of the transparent LED display screen to perform light supplementing display according to the red light brightness value and/or Controlling a second pixel of the transparent LED display screen to perform light supplementing display according to the green light brightness value and/or And controlling a second pixel of the transparent LED display screen to perform light supplementing display according to the blue light brightness value. Optionally, the confirming the second brightness value sensed by the third pixel of the brightness sensor includes: Confirming the red light brightness value sensed by the third