DE746663C - Polarizer - Google Patents

Description

Polarizer The present invention relates to a polarizer, for a wide variety of purposes, such as. for glare-free vehicle lighting, for the production of polarized glasses for viewing stereo films, for photographic filters and the like is suitable.

Has become known from the scientific literature that losehydratfolien dichroic substantive dyes caused staining of mechanically stretched Cellu ", which have a certain single color, such as blue, red or yellow, own, polarization capability. For the production of technically usable polarizers has not been such Cellulosehydratfolien used, which is probably due to the fact that the inherent color of such films makes the application for technical purposes impossible.

In accordance with the present invention, there are technically useful polarizers from colored, anisotropic, transparent films, such as. B. cellulose hydrate, the show complete extinction of the visible light of the spectrum, in obtained by using foils with permanent dyes are colored, which result in a homogeneous gray.

While so far in the literature the view has been taken that only those cellulose hydrate films show a polarization capacity with dichroic Dyes are colored, it has been found that when coloring the films not for the production of the polarizers according to the invention on the Use of dichroic dyes is limited, but in the choice of substantive dyes largely suitable for achieving the homogeneous gray color free is.

For scientific purposes one has cellulose fibers and films i.a. also with substances that were thought to be dichroic, such as B. bismuth and Tellurium, colored. The colorations obtained in this way, however, do not show any over the whole Spectrum uniform absorption, and besides, they show me a low power of polarization which is by far not sufficient for technical purposes.

Black dyes belonging to the class of substantive cotton dyes, such as diamine black, diamine blue black, etc., which have uniform absorption across the entire spectrum, are particularly suitable for coloring (the inventive polarizers but also with several dyes, which result in a homogeneous gray when looking through the film. Such dye mixtures are, for example, oxamine green G, diamine blue and p yellow or yellow, red and blue.

The required anisotropy is achieved by stretching the foils.

Since it has been found that thinner films are particularly good without there is a risk of tearing, letting it be stretched will be of advantage for the new polarizer foils used in a thickness less than 0.02 MM.

For the polarization effect of the polarizers according to the invention It is not the self-dichroism of the substances used to color the foils become authoritative, but the dichroism created by the interaction of the transparent Colloidal particles of the films made of colloidal material, such as cellulose hydrate films, with the dye particles embedded between these colloid particles comes.

The dyes used in the polarizers according to the invention should absorb as large a part of the visible spectrum as possible. This distinguishes the polarizers according to the invention from a known polarizing film, which is only based on the idea of using a very specific inorganic dichroic compound, e.g. B. Ptirpurkobaltehloridsulfatperjodid to prevent a change in color of the polarized Z> light. One advantage of the polarizers according to the invention compared to existing filters is, inter alia, that no relatively expensive dichroic substances are necessary for their manufacture.

In optics, however, it is common to have two or more color filters to be arranged one behind the other in order to obtain a certain color mixture. If now the coloring adhering to the known herapathite foils or single crystal filters of the residual light of two crossed filters through connection with one for residual color wanted to compensate for a complementary colored filter, then - "vürde a filter with result in a significantly poorer polarization effect. Relevant for a Polarization # sfilter is a good one with the highest possible transparency Erasure capability.

In the case of herapathite foils, however, the color filter applied reduces the transparency without increasing the erasure power. In the case of the films according to the invention, however, there is a reduction in traiisparence an increase in the polarizing effect in parallel.

Dyeing - the films are done in the same way as cotton is dyed. A fading of the colored films, to the extent not used light-fast dyes to prevent, it is convenient to have the polarizers with protective glasses that a high sorption capacity for waste ktirzwelli (Ye Strahleii cover.

Claims (2)

. PATENT CLAIMS: i. Polarizer, consisting of colored, anisotropic, transparent films made of organic materials, such as. B. cellulose hydrate, characterized by a film which is colored with substantive dyes that result in a lioniogenic gray. 2. Polarizer according to claim i, characterized in that the Fe # he is colored with a dye mixture which gives a homogeneous gray. In order to distinguish the subject of the announcement from the state of the art, the following printed publications were taken into account in the granting procedure: Zeiss-Nachrichten., Verlag Carl Zeiss, jena, -2. Episode, 2nd issue, pp. 55 to 64; Ainbronn-Frey, Das Polarisatioii-sinik-roskop, Leipzig 1926, p. 83, USA.-Patent ....... No. 2 oi 1 553-