DE334776C - Device for recording and showing natural-colored cinematographies without the use of color filters - Google Patents

Description

Device for taking and showing natural colored kinhaetographies without using color filters. The invention relates to a camera by means of which -Three-color cinematographic recordings simultaneously on the same film tape can be. Such cameras are already known. But they need the same corresponding color filters for generating the red, green and blue sub-images. The use of such filters, however, has two major drawbacks. Either a significant amount of colored light emitted by the object to be recorded radiates, absorbed by the color filter and thus the correct reproduction the brightness values of the colors are impaired and the exposure is prolonged or the switching on of light filters makes the projection a considerable one Swallowed a lot of light and thereby greatly reduced the brightness of the image.

In order to avoid this loss of light, it has already been suggested to accomplish the decomposition of the light by prisms, as z. B. in the Patent i8igig is described. According to the invention, a spectral Decomposition can be applied without a color filter, but by using the appearance. total reflection. As is well known, this occurs at the transition of light from one optically denser into an optically thinner body when the rays are below hit a certain critical angle. The amount of this critical angle is dependent on the ratio of the refractive exponents of the two bodies, and it thus joins Use of white light, total reflection, only up to a certain color a. But if you choose three bodies from the decreasing refraction exponent appropriately, so Total reflection occurs only approximately at the interface between the first and the second body up to a certain wavelength in blue. Of those entering the second body Residual rays then become light at the interface towards the third body Totally reflected up to a certain wavelength in green and the remainder red light is totally reflected at the interface of the third body. To a In order to obtain image-wise decomposition, one has to proceed from the object points Bundles of rays in the image space give such a direction that they are there towards one another run parallel. To bring about this beam path one can see how is specified in the patent i8igig, operate a focal diaphragm or whatever it is better to use a diffusing one at the front focal point of the lens Lens system, because the same thing besides the achievement of a parallel passage of the main rays In the image space there is also the possibility of correcting the chromatic and spherical Deviations granted by the bundle of rays when passing through the prism system suffer.

To get the images side by side on one film, you have to the totally reflective surfaces below and also the exit surfaces below and be parallel to the plane of the film.

In order to achieve the most favorable conditions possible for the separation to get the different colored rays by means of total reflection is recommended it is, substances with strong refractive power and strong dispersion with those of unite opposite properties. As particularly suitable substances are highly refractive flint glass, potassium mercury iodide and barium mercury iodide solution, cinnamic acid in connection with crown glass, weakly refractive liquids and Air.

In the drawing, 0 represents the lens, Fra the aperture; a is a container for holding a highly refractive liquid, e.g. B. cinnamic acid Äthvl, which at the points marked b with plane-parallel glass plates is locked; c and d are thin plane-parallel plates made of crown glass, their refractive power is so graded that on the surface of -c all blue rays and on the surface all green rays are totally reflected by d. The rear glass plate e is also plane-parallel, but thicker than c and d. The course of the main rays is characterized by the strongly marked lines.

The main rays leaving the diaphragms in a divergent direction are fed through the objective 0 in a parallel direction to the glass plate c, at which the blue rays are totally reflected towards zj, the location of the blue partial image will. The light bundle freed from the blue rays passes through the plate c through and arrives at plate d, on which all green rays be mirrored according to g, the location of the green partial image. The rest of the bundle of light which mainly consists only of orange and red rays, arrives finally to the plate e and is from the rear 'surface of the same to s #, mirrored to the location of the red partial image.

FIG. 2 shows that which takes place when the three j partial images are projected The path of light rays. L is the light source or, in its place, that of one Light cone emanating from the condenser in its narrowest constriction. 0 is the lens system, which makes the rays parallel. c, d and e are the totally reflective surfaces, of which the blue light is related to the blue partial image v, the green light to the green partial image g and the red light is mirrored to the red partial image r will.

The union of the three partial images into one image in the natural ones Colors can by means of the camera shown in Fig. Z as well as by a for each partial image specific projection lens take place.

Claims (1)

PATENT CLAIM: Device for picking up and presenting natural-colored Cinematographies without the use of color filters, identified by a group of colorless, transparent bodies touching each other in flat surfaces with such refraction ratios that the total Reflection only ever occurs up to a certain wavelength.