18158729. OPTICAL LENS, CAMERA MODULE, AND TERMINAL simplified abstract (Huawei Technologies Co., Ltd.)

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OPTICAL LENS, CAMERA MODULE, AND TERMINAL

Organization Name

Huawei Technologies Co., Ltd.

Inventor(s)

Xiuwen Yao of Wuhan (CN)

Qi Wang of Dongguan (CN)

Shaopan Zhou of Dongguan (CN)

Tao Shao of Shenzhen (CN)

OPTICAL LENS, CAMERA MODULE, AND TERMINAL - A simplified explanation of the abstract

This abstract first appeared for US patent application 18158729 titled 'OPTICAL LENS, CAMERA MODULE, AND TERMINAL

Simplified Explanation

The abstract describes an optical lens with multiple components that can move relative to each other. Here are the key points:

  • The lens consists of four components, each containing at least one lens.
  • The second component includes a refraction member that changes the path of transmitted light.
  • The third and fourth components are aligned with each other and have an angle relative to the first component's optical axis.
  • The second component is fixed in position relative to the lens's imaging plane.
  • The first, third, and fourth components can move relative to the second component.

Potential Applications:

  • Photography and videography: The adjustable components allow for versatile focusing and image manipulation.
  • Microscopy: The lens's ability to change the transmission route of light can enhance imaging capabilities.
  • Optical instruments: The lens can be used in various optical devices, such as telescopes or binoculars.

Problems Solved:

  • Flexibility in focusing: The ability to move components allows for precise adjustment of focus and depth of field.
  • Versatile imaging: The refraction member and adjustable components enable different optical effects and image manipulation.
  • Adaptability in optical devices: The lens's design allows for integration into various optical instruments with different requirements.

Benefits:

  • Improved image quality: The lens's adjustable components and refraction member enhance image sharpness and clarity.
  • Enhanced functionality: The ability to change the transmission route of light provides more options for creative and technical applications.
  • Increased versatility: The lens's design allows for adaptation to different optical devices and imaging requirements.


Original Abstract Submitted

An optical lens () includes a first component (G), a second component (G), a third component (G), and a fourth component (G), where each component in the first component (G) to the fourth component (G) includes at least one lens, the second component (G) includes a refraction member (G), the refraction member (G) is configured to change a transmission route of light transmitted from the first component (G), the third component (G) and the fourth component (G) are coaxially disposed, there is an included angle between optical axes of the third component (G) and the fourth component (G) and an optical axis of the first component (G), a position of the second component (G) relative to an imaging plane of the optical lens () is fixed, and the first component (G), the third component (G), and the fourth component (G) can move relative to the second component (G).