DE563520C - Method for recording and reproducing series images - Google Patents

Description

The patent 547,240 relates to a method for taking series images in which the image generated by a lens is resolved in the form of a raster through a lens grid and the temporal changes in the image by moving the support against the grid lines are recorded continuously. In the aforementioned patent, the Recording such images on a steady basis

ίο specified moving substrate. Included However, the full continuity of the temporal recording could not be maintained, rather, the change of image caused interruptions that were larger than those that were constantly recorded Periods of time were.

The invention relates to an extension of the method according to the main patent to the effect that the recording can take place continuously over any period of time. The invention consists in the fact that both the lenticular grid and the substrate are shifted in such a way that both shifts are not equal to each other, but the lenticular grid by the width of a distance two grid elements or less is shifted against the layer support in the Time in which the substrate is shifted by one image width. At the same time that will Image of the object to be recorded by optically compensating for the movement of the Lens grid tracked.

The known series image recordings record moving processes in such a way that the The object on the picture surface is steady in all directions, but the course over time is only shown discontinuously by individual. Movement phases in the individual images be held. In contrast, the method according to the invention forms the object on the The picture surface only decreases steadily in one direction, in the other as a result of the dissolution discontinuous due to the lens grid, but the time sequence is continuous. This results two advantages. Once all stroboscopic illusions are avoided, caused by the discontinuous recording of the temporal sequence according to today's cinematography method, furthermore, a higher efficiency is achieved with high-frequency recordings. The latter is less than in the case of the processes specified in the main patent, but even greater than in the case of the normal one Row photography.

The figure shows a device for performing the method. In this picture is ι the illustrated book, 2 the lenticular lens, 3 the lens with slit diaphragm. 4 and 5

are the mirrors of an optical balance fixed by the support 6 on the shaft 7 which rotates about the axis 8. The carrier 6 is a body of revolution which carries on its circumference concentric to the axis 8 a number of mirrors, of which 4 and 5 are only a pair. The lenticular lens 2 is also attached to the carrier 6. The image tape 1 is moved by a toothed drum, not shown, at such a speed that it shifts by the length of one grid division against the grid during the time in which the optical compensation has moved on in accordance with one image division. In the type of optical compensation shown, the light path a -j- b must be equal to the distance c of the mirror 5 from the axis of rotation. Then the picture book 1 appears to be imaged on the axis 8 through the mirrors 4 and 5. This type of optical compensation is already known. The disadvantage of this optical compensation, that the effective "opening of the beam is limited in the direction of the circumference of the mirror drum, does not come into play, since the effective opening of the objective in the specified direction is anyway limited by the necessary grid aperture. The residual errors also occur The present method does not appear, since they cancel each other out when using the same device for recording and playback As a result, the type of optical compensation shown is particularly suitable for the method of the invention, but all other known types of optical compensation can also be used .

The device described can be used both for recording and for reproducing Series images are used; in the latter case there is only a lighting device to be provided. In both cases, diaphragms must be used in a known manner to limit the image field. The method described is suitable for all cases where there is a steady intake the timing of the process to be recorded is more important than a continuous mapping of the field of view in all directions.

Examples of this are operations in which stroboscopic illusions can occur ' or in which short-term phenomena occur at longer intervals. Of The procedure is also suitable for cases where, for other reasons, already the image is rasterized. Examples of this are remote cinematography and certain types of color cinematography. In these cases the division is 60 of the grid 2 in accordance with the division required for the purpose in question To bring the raster, so in the case of remote cinematography in accordance with the condition caused by the division into lines ten raster division, in color cinematography in accordance with the color raster.

Claims (3)

Patent claims: ι. Method of recording and playback of series images according to patent 547,240, in which the image produced by a lens is passed through a lenticular lens in connection with a diaphragm attached in the lens or its vicinity is resolved in the form of a grid, thereby characterized in that both the grid and the substrate are shifted in such a way that the lenticular grid is shifted to the width of the distance between two grid elements or less against the substrate in the Time in which the substrate is shifted by one image width. 2. Apparatus for the method according to claim 1, characterized in that the movement of an optical balance, the movement of the grid and the movement of the illustrated book in the ratio indicated by claim 1 are coupled to each other. 3. The method according to claim 1 for use with methods which in turn require a rasterization, e.g. B. remote cinematography, color cinematography, stereoscopic Cinematography, characterized in that the grid divisions of the two methods are adapted to one another are. For this purpose ι sheet of drawings