OPTICAL MEMBER

Organization Name

denso corporation

Inventor(s)

HENG Liu of Nisshin-shi (JP)

HIROSHI Ando of Nisshin-shi (JP)

MASATOSHI Tsuji of Nisshin-shi (JP)

KOJIRO Tachi of Nisshin-shi (JP)

OPTICAL MEMBER - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240295699 titled 'OPTICAL MEMBER

The patent application describes an optical member with a complex structure designed to efficiently reflect and emit light.

• The light guide body has a smooth incident surface, a reflecting and emitting surface, a reflecting surface, and a smooth emitting surface.
• The reflecting and emitting surface has flat portions to emit light and reflecting portions to reflect light.
• The reflecting surface has flat and reflecting portions to redirect light towards the smooth emitting surface.
• The smooth emitting surface reflects light by total reflection and emits light towards the outside.

Potential Applications: - Optical communication systems - Display technologies - Lighting applications

Problems Solved: - Efficient light reflection and emission - Enhanced optical performance

Benefits: - Improved light transmission - Enhanced brightness and clarity - Energy efficiency

Commercial Applications: Title: Advanced Optical Components for Enhanced Light Emission This technology can be used in various commercial applications such as high-end displays, automotive lighting, and medical devices, where precise light control is essential for optimal performance.

Questions about the technology: 1. How does the complex structure of the optical member contribute to its efficiency in reflecting and emitting light? 2. What are the potential limitations of this technology in terms of scalability and mass production?

Original Abstract Submitted

an optical member includes a light guide body that includes a smooth incident surface, a reflecting and emitting surface disposed to face the smooth incident surface, a reflecting surface continuously arranged with the smooth incident surface, and a smooth emitting surface continuously arranged with the reflecting and emitting surface. the reflecting and emitting surface includes first flat portions configured to emit a part of an incident light, and first reflecting portions configured to reflect another part of the incident light. the reflecting surface includes second flat portions and second reflecting portions configured to reflect the light reflected by the first reflecting portions in different directions toward the smooth emitting surface. the smooth emitting surface is configured to reflect the light reflected by the second flat portions by total reflection and emit the light reflected by the second reflecting portions to the outside.