DE628354C - Arrangement for the projection of lenticular films - Google Patents

Description

Arrangement for the projection of lenticular films It has already been proposed the usual multi-color filter for lenticular processes for recording and for projection to omit and to arrange an optical system that spectrally the white light disassembled. According to one of these known methods, the light-scattering system in a translucent trough a step prism or a step lens in a liquid arranged by a mean refraction exponent. This device cannot can be built into any projection apparatus and therefore requires one specially designed projector.

Furthermore, a method is known in which instead of the multicolor filter a gap is provided with a prism arranged directly behind it. With this one Procedure, a diaphragm with several slit openings must be arranged in front of the prism and there must still be a second aperture with several between the lens and the film Apertures are switched on, their slots in terms of number and The distances do not match those of the first-mentioned aperture. By the arrangement These diaphragms result in a considerable weakening of the light.

Finally, it has already been suggested that the projection should use the light-diffusing one Arrange element in front of the grid side and the lenticular lens film from the layer side to illuminate here. With this arrangement occur because of the dispersive effect of the Lenticular lenses cause strong losses of light, since they would otherwise be taken up by the filter Several spectra emerge on one level.

It is also known for recording and projecting lenticular lenticular films to use a straight prism. According to the invention for the projection of Lenticular lens films a rectilinear prism for color separation arranged so that the prism on the image window is between the light source and the film and the lenticular lenses of the film are facing the light source. So that the raster elements of the lenticular film Draw a glowing stripe in the layer of the picture, that of one Appears side to side in different colors, it is by no means necessary that there is a real spectrum in front of the lenticular lens in the beam path. If you switch on a spectrally splitting light in the immediate vicinity of the picture window optical system, as seen from the film, the light source appears as a spectrum in the plane belonging to the multicolor filter and in the dimensions corresponding to it.

The present arrangement significantly increases the Luminous efficiency achieved. Furthermore, the arrangement described has the advantage that the light diffusing System in the immediate vicinity of the image window is located, so that nothing has changed in the rest of the beam path in the projection apparatus needs to become. Because the light-scattering system is kept relatively small it can be placed in any projection apparatus. In addition, its mode of operation is independent of the arrangement of the apparatus.

In Fig. I a projection arrangement according to the invention is shown. The mirror or condenser a throws the light from the arc lamp b onto the picture window c, behind which the lenticular lens film d is arranged with the raster to the light source is. The light-refracting element is located directly above the image window c in the form of a straight prism e. Instead of a single prism like this a number of narrow, rectilinear prisms can also be arranged, as is known in order to achieve the smallest possible expansion in the direction of the beam path to reach. The virtual image can then be seen from the plane of film d of a spectrum. Instead of the evenly bright, white glowing surface that in the absence of the prism e from the film plane through the image window - is visible, there appears a surface shining in the spectral colors in which the zone of the blue hues broad, those of the green zone narrower and those of the red hues is very narrow if glass prisms4 of the usual dispersion are used.

The dimensions of the straight prism e are to be chosen so that the width of the spectrum corresponds to the width of the multicolor filter otherwise required. The scattering of the light by the straight prism e must be so great that the colors red, green and blue are seen far enough apart to make them appear pure. That of the wavelength 65o m & ,. corresponding picture of the mirror or condenser a may be z. B. with that of the wavelength 55o mp, corresponding Do not cover the image of a any more. The light scattering of most prismatic aggregates is characterized in that the blue part of the spectrum is much broader turns out to be about the red one. Do you work both during recording and playback according to the present procedure, this balances out. On the other hand, it becomes a with Lenticular lens film produced using the usual three-color filter only according to the present one Method projected, a color filter must be used when recording, which corresponds to this peculiarity of the spectrum designed by a prism, d. H. the color filter must have a very wide and relatively blue stripe have narrow red stripes (see Fig. z).

In Fig. 3 the beam path in the prism and fitting is shown again enlarged. The rays falling from the mirror of the light source onto the prism are practically parallel. However, the rectilinear prism P deflects them in different directions depending on their wavelength, so that, for example, the rays impinging on the center M of the louvre lens show different colors depending on their direction rays impinging from direction g are green and rays impinging from direction b are blue. According to their different directions, these rays are imaged by the lenticular lenses L in the photographic layer at r ', g', b ', ie exactly as if there were a filter with the color stripes red, green, blue in front of the lenses of the raster film.

Claims (1)

PATENT CLAIM: I .: Arrangement for the projection of lenticular films -with a straight prism for color separation, characterized in that the prism on the image window is between the light source and the film and, the lenticular lenses of the film are facing the light source.