DE1936905A1 - Device for color and brightness correction in optical devices, such as film copiers, photo printers, television scanners or the like. - Google Patents

Description

Device for color and brightness correction in optical devices, such as film copiers, photo printers, television scanners or the like.

The invention relates to a device for color and holiness correction, as they are used in particular in film copying machines, jotoprinters, television scanners or the like. Like optical devices are used and in which they change the color and brightness values of the recording material under technical or artistic Serve as a point of view when taking over to another carrier.

Known x-correction devices work on the subtractive principle in such a way that for brightness correction a "diaphragm band" with the required Number of more or less large aperture openings in the light path is switched on. In order to carry out any necessary color balancing at the same time, the aperture with a color filter strip of the desired color and density covered. This known control points because of the need for acceleration and braking of large masses, a low actuating speed and a low switching sequence speed on.

Another known device works according to the additive method " by separating the incident light into its basic colors (red, green, blue) or irradiation of three rays of light of this color, individually and independently brightness-controlled from each other by means of mechanically positioned adjustable bezels and then mixed before hitting the footage. Auoh with this one Device can only achieve low adjusting speeds of 5 - 8 milliseconds. achieved the ~ high achievable throughput speeds in a film copier machine are only insufficiently fair. Another disadvantage is that Changes in the input light, such as those caused by dust entering the device, due to current fluctuations, aging of the light source, etc.

can occur, cannot be compensated, so that is a prerequisite their flawless functioning requires the presence of an absolutely stable light source is.

The aim of the present invention is to create a high switching and adjusting speeds as well as a self-regulating light compensation Compensation device for optical devices and the invention is that in the beam path behind the diaphragm a photo element is arranged, which in connection with a punched tape reader or another reading device via a Comparison control acts on the adjustment device for the diaphragm.

A compensation device according to the invention is simple. under construction and allows due to the extensive elimination of inechanically moving parts positioning the achievement of extremely high adjusting speeds and fast switching sequences. less than 1 millisec. / Switching step.

It is completely self-balancing in that it is internal or external caused light fluctuations are condensed inertly. As a result, it is not applicable also the previously necessary and time-consuming readjustment of the optical device Replacement of a possibly defective lamp. Also the compensation of this Any sudden change in the device-specific light values occurs automatically.

A fixed mask can be used as a diaphragm in conjunction with an after Type of a mirror galvanometer or an electrodynamic loop oscillator working rotating mirror provided. be. However, it can also be electromagnetic actuated adjusting diaphragm, for example an iris diaphragm, slit diaphragm or sector diaphragm be provided.

Instead of magnetic, the adjustment can also be dynamic or piezoelectric take place. In addition, you can. electrochemical, dependent on Cells clouding or refracting from the flow of current serve as a screen. These Apertures work completely without inertia and therefore enable very high levels to be achieved Adjusting speeds.

The invention is illustrated in the drawing, for example.

Fig. 1 shows an embodiment of the invention using the example of one single light beam. In Figs. 2 to 4, other embodiments with different Apertures reproduced.

In the drawing, 1 denotes a light source whose light Bundled in a converging lens 2 to form parallel rays 3 and an adjustable one Aperture is regulated in quantity according to the invention in the beam path behind the Aperture a photo element 4 arranged, which in connection with a punched tape reader 5 acts via a comparison amplifier 6 on the adjustment device for the diaphragm.

In this case, a rotating mirror diaphragm is used as the diaphragm in the beam path 3 from a fixed mask 7 and one between magnetic poles 8 on a wire loop 9 rotatably suspended mirror 10 is provided. Between mask 7 and Photo element 4, a semitransparent mirror II is arranged, which the light beam 3 in the Usable beam 3a allowed to pass through and the measuring beam deflected onto the potentiometer 4 3b divides. A further amplifier 13 is also provided in the working circuit 12.

This embodiment of the invention is particularly effective because of the absence of any mechanical transmission links in the positioning, the short travel and the small mass to be adjusted, high switching sequence and Adjustment speeds, with the output from the lamp 1 and in the lens 2 bundled light is deflected on the mirror 10 in the direction of the mask 7 on which Depending on the deflection of the mirror, a more or less large part of the light beam is dimmed will. The mirror deflection is controlled via the comparison amplifier 6, to which the light value required by the reading device 5 is fed and the the current flow in the adjustment device as a function of that in the botoelement 4 generated current flow regulates to the value entered by the reading device 5. Since the aperture, i.e. in the example the mirror deflection from the current flow in the working group 12 is dependent and the circle of the comparison circuit by the controlled light beam is closed, raises the aperture always on the required light value.

In essentially the same manner, those in Figs. 2-11 operate 4 shown execution standards. In the cases of Fig. 2 is instead of the rotary mirror aperture a magnetically operated slit diaphragm made of a fixed diaphragm part 14 and a linearly displaceable diaphragm part 15 is provided, while in FIGS. 3 and 4 arrangements with electrochemical cells are shown, of which the cell 16 (Fig. 3) a masking by a turbidity proportional to the current flow between the diaphragm fluid and cell 17 (Fig. 4) enclosed by the discs create a deflection of the radiated light depending on the current flow in the sense of the arrangement according to Fig. 1 causes.

Claims (6)

P a t e n't a n s p r ü c h e Device for color and brightness correction in optical devices, such as picture copying machines, photographic copiers, television scanners or the like., in which an adjustable diaphragm is arranged in the light beam or each color beam is that od from the outside by means of punched tape. Like. Is controlled, characterized in that in the beam path behind the aperture (7; 14, 15; 16 17) a photo element (4) is arranged, which in connection with a punched tape reader (5) or another reading device via a comparison control (6) acts on the adjustment device for the diaphragm. 2. Apparatus according to claim 1, characterized in that between Aperture (7; 14, 15; 16; 17) and photo element (4) a semi-transparent mirror (11) is arranged, -on which the light beam (3) passing the diaphragm into which the main amount of light containing 1iutzstrshl (3a) and a proportional deflected onto the photo element (4) Measuring beam (3b) is broken down. 3. Device according to claim 1 or 2, characterized in that a fixed mask (7) in connection as a diaphragm with a . In the manner of a mirror galvanometer or an electrodynamic loop oscillator working rotating mirror (10) is provided. 4. Apparatus according to claim 1 or 2, characterized geke.nnzeich that as a diaphragm an adjustable diaphragm in the manner of a slit diaphragm (14, 15), iris diaphragm or Sector aperture is provided. 5. Apparatus according to claim 4, characterized in that the diaphragm with a magnetic, dynamic, motorized or piezoelectric adjustment device connected is. 6. Apparatus according to claim 1 or 2, characterized in that as a diaphragm an electrochemical one that becomes opaque or light deflecting under the influence of electricity Cell (16, 17) is provided. Blank page