DE102006011296A1 - Optical system for directing light, has laminar extending plate with two surfaces, where one of two surfaces is provided with optically effective microstructure having micro units tilted in symmetric axis related to surface-normal of plate - Google Patents

Abstract

The system has a laminar extending plate e.g. micro-structured prism plate (2), of preset thickness, where the plate is made of transparent plastic or glass. The plate has two surfaces, where one of the two surfaces is provided with an optically effective microstructure, which has a set of micro units. The micro-units are tilted in a symmetric axis related to a surface-normal of the laminar plate. The micro units are designed in the form of cones, pyramids, lenses or prisms. Tilting angle of individual micro units is varied between the symmetric axis and the surface-normal.

Description

The The invention relates to a device for the direction of the light of any Illuminant based on refraction with a surface extending, transparent plate of predetermined thickness, with the light on one first of the two plate surfaces enters the plate, exits at the second plate surface and at least one of the two surfaces having a microstructured one Surface provided is the direction of emission of the transmitted light in such a way influences that asymmetrically with respect to the surface normal of a the two plate surfaces appears. This is achieved by the individual used Micro-optics mainly cones, pyramids, lenses or prisms, are tilted in their symmetry axis with respect to the surface normal.

such according to the invention, optically effective surfaces are used to the opening angle of bulbs, in particular of luminaires. Thereby becomes common glare control in accordance with relevant work regulations guaranteed or the light emission in a preferred direction of emission directed. Very flat lighting structures become possible.

On the other hand are different facilities to the light direction, based on based on reflection. These are mostly macroscopic surfaces in Shape of mirrors, the incident light in a desired direction to steer. The lights in this case are very high in construction, the escaping light seems very hard.

As well are for glare and symmetrical radiation based on Refraction microprisms, cones and pyramids known. These are suitable for glare control purposes, flat lighting fixtures and soft light are feasible. However, asymmetric radiation is not possible.

Of the Invention is therefore the object of an optical surface for Direction of the light of different bulbs based on refraction or total reflection, or a mixture of both effects and with the positive properties of the refractive optical elements, low Superstructures and high transmission, combine.

According to the invention this through a plane reached an extended plate, mainly on the bulb opposite side with microprisms, micro cones or micropyramids is provided, wherein the axis of symmetry of the individual microelements against the surface normal the plate is tilted. According to the used bulbs and desired Abstrahlcharakteristika can the microelements are tilted differently.

The plate according to the invention can be made of transparent, thermoplastic plastics such as polycarbonate, PMMA or PE in the hot stamping process or sprayed.

In 1 is a microstructured prism plate ( 2 ), with which the incoming light beams ( 1 ) about refraction in the microstructure in the narrower beam angle of the symmetrically emerging light beams ( 4 ) are transformed.

As in 2 shown in one embodiment, caused by the tilt of the tilt angle ( 6 ) of the individual microelements in the prism plate ( 3 ) asymmetrically emerging light beams ( 5 ).

The on the opposite side final surface the plate can be optically smooth or structured as well.

1

entrants light rays

2

prism plate with symmetrical microstructure

3

prism plate with asymmetric, tilted microstructure

4

symmetrical emerging light rays

5

tilted, asymmetrically emitted light rays

 6

tilt angle

Claims (3)

Device for the light direction of any light source in the form of a flat extending plate of predetermined thickness of transparent plastic or transparent glass, characterized in that at least one of the two surfaces of the plate is provided with an optically active microstructure of a plurality of microelements, in their symmetry axis relative to the surface normal the flat outstretched plate are tilted. Device according to claim 1, characterized that the microelements in the form of cones, pyramids, or lenses Prisms are executed. Device according to claims 1 and 2, characterized that the tilt angle of individual microelements between symmetry axis and surface normals can be different.