DE935399C - Process for the production of polarization filter grids - Google Patents

Description

Method of making polarizing filter grids The invention relates to a method for producing polarization filter grids, their grid elements the light passing through them alternately in different directions of oscillation polarize.

Such polarization filter grids are already known and have been hitherto by assembling polarizers cut into strips or by Pouring polarizing substance into the corresponding casting molds manufactured. It is also already known to use a substance to produce a grid use positive and negative dichroic crystals.

The first two methods mentioned allow the production of grids greater delicacy or complex shape only with considerable difficulty while the latter method only applies to screens with an irregular structure.

In contrast, according to the invention there is a method of manufacturing proposed by polarization filter grids, after which on layers with relief-like malleable surface preferably raster-shaped by optical imaging of a grid Areas are generated with a vector film known per se dying dichroic fabric are dyed, and that the relief layers are placed on the opposite layers of this vectorographic film in such a way that that the vectorograph film areas of a relief layer to be colored the interstices of the other relief layer which do not color the vectorographic film face. A uniform 44-sheet film can also be placed on the polarization filter grid are placed in such a way that their optical axis is at an angle of 45 ° to the polarization devices of the grid elements and thus the linearly polarized light alternately is converted into right and left circularly polarized light.

Since the production of the polarization grid is not based on mechanical Paths, but can be done by optical mapping of a grid template, it is easily possible when using scaling-down imaging systems, Produce polarization filter grid with very small grid elements, which accordingly the template, which is easy to draw in all cases, any geometric figures can represent.

In the drawing is a produced according to the proposed method Polarization filter grid shown for example, namely Fig. I shows the Polarization filter grid schematically, FIG. 2 the grid in cross section.

The elements of the polarizing filter grid shown in the figure are designed as strip-shaped polarizers 1,: 2. As if by oblique hatching is illustrated, the planes of polarization of the neighboring elements of the Grid perpendicular to each other.

A vector film known per se is used to produce the raster. This has a carrier layer 3, on the opposite surfaces of which layers 4, 5 of organic colloid, for example cellulose hydrate, are arranged: The Molecules of layer 4 are oriented in a certain direction - for example by mechanical stretching of the film forming the layer - while the molecules of the layer 5 are oriented in the direction perpendicular thereto. After coloring with a suitable substance the layers 4, 5 become dichroic in a known manner, where the direction of the plane of polarization of the light passing through it depends on the orientation of the molecules. Instead of the three layers 3, 4, 5 only a single layer can be used, the molecules of which are attached to the opposite Areas are oriented perpendicular to each other.

First, a grid is created, the elements of which correspond to elements i or 2 of the corresponding polarization filter grid to be produced on a master copy in Recorded in the form of alternately translucent and opaque strips and either in the contact method or optically on two in the vectorograph method known photographic layers shown, the unexposed areas in the Development will be washed out. This creates relief images on the master copy recorded grid.

Thereupon the two relief images are made with a vectorographic film dyed dichroically staining material and applied to the opposite layers4, 5 of the vector film placed in such a way that the elevations of a relief image face the depressions of the other relief image, and vice versa. When pressing of the relief images on the layers 4, 5, these layers are at the points i and 2, at which they are touched by the elevations of the relief images, colored and thus dichroic in these areas. Finally, the relief images of the layers 4, 5 removed again. With the now finished polarization filter grid the polarizing areas i of the layer 4 are the non-polarizing areas 7 of the layer 5 and the non-polarizing areas 6 of the layer 4 the polarizing Areas ?, the layer 5 opposite.

The grid can also be provided for circularly polarized light, if it is still provided with a uniform, non-screened)? / 4 film, their optical axis at an angle of 45 ° to the planes of polarization of the grid elements 1, 2 is oriented.

The polarization grid produced by the method according to the invention can also have any other shape instead of a strip shape and, for example be honeycomb-shaped.

Claims (2)

PATENT CLAIMS: i. Process for the production of polarization filter grids, characterized in that preferably on layers with a surface that can be shaped in relief grid-shaped areas are generated by optical imaging of a grid, which with a substance which dichroically stains a vector film known per se be colored, and that the relief layers on the opposite layers of this vector film are placed in such a way that the ones coloring the vector film Areas of the one relief layer are the spaces that do not color the vectorographic film face the other relief layer. 2. The method according to claim i, characterized characterized in that a uniform @ / 4 film is placed on the polarization filter that the optical axis of the A / 4 film is at an angle of 45 'to the directions of polarization of the grid elements. Referred publications: German patent specification No. 725 618; U.S. Patent No. 2,385,687.