Lg electronics inc. (20240230968). LIGHT TRANSMISSIVE INJECTION MOLDED ARTICLE simplified abstract
LIGHT TRANSMISSIVE INJECTION MOLDED ARTICLE
Organization Name
Inventor(s)
Seung Cheol Jung of Seoul (KR)
LIGHT TRANSMISSIVE INJECTION MOLDED ARTICLE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240230968 titled 'LIGHT TRANSMISSIVE INJECTION MOLDED ARTICLE
The abstract describes a light transmissive injection molded article with planes formed at the front and back surfaces. The planes at the back surface create a light reflection pattern to reflect light passing through the front surface.
- The back surface planes include a first inclined surface, a second inclined surface, and a third inclined surface.
- The first inclined surface is inclined with respect to the normal direction of the front surface.
- The second inclined surface gradually approximates the front surface as it extends far from the first inclined surface.
- The third inclined surface also gradually approximates the front surface as it extends far from the second inclined surface.
Potential Applications: - Automotive lighting - Architectural lighting fixtures - Electronic displays
Problems Solved: - Enhancing light reflection - Improving light transmittance - Creating unique light patterns
Benefits: - Increased efficiency in light transmission - Enhanced aesthetic appeal - Versatile applications in various industries
Commercial Applications: Lighting manufacturers can utilize this technology to create innovative products for the automotive, architectural, and electronics industries. The improved light reflection and transmission properties can lead to more efficient and visually appealing lighting solutions.
Questions about the technology: 1. How does the design of the back surface planes improve light reflection? 2. What are the key advantages of using injection molding for creating light transmissive articles?
Original Abstract Submitted
a light transmissive injection molded article is disclosed. in the light transmissive injection molded article of the present invention, one or more planes are formed at a front surface and a back surface. the planes of the back surface form a light reflection pattern configured to reflect light passing through the front surface toward the front surface. the planes of the back surface include a first inclined surface, a second inclined surface, and a third inclined surface. the first inclined surface is a plane inclined with respect to a normal direction of the front surface. the second inclined surface is a plane gradually approximating to the front surface as the second inclined surface extends far from the first inclined surface. the third inclined surface is a plane gradually approximating to the front surface as the third inclined surface extends far from the second inclined surface.