CH666357A5 - DEVICE FOR SCANNING AND MEASURING PHOTOGRAPHIC FILMS WITH COPY DOCUMENTS. - Google Patents

Description

DESCRIPTION

The invention relates to a device according to the preamble of claim 1.

From US Pat. No. 3,708,676, a device of the type described in the opening paragraph is known, in which the copy originals to be measured or a central area thereof are imaged by beam splitters onto measuring devices each sensitized to a color and having a large number of light-sensitive areas. This integral mapping of the entire template onto a large number of measuring elements leads to extraordinary difficulties in the forwarding of the individual measuring signals. Furthermore, it is not readily possible to adapt this measuring arrangement to different template sizes.

The object of the invention is to provide a scanning device which is easy to connect to an evaluation circuit and can be adapted to different template formats.

This object is achieved by the invention defined in claim 1.

The use of a measuring cell row, over which the image of the template is moved, results in an inexpensive measuring device, the individual cells of which can be contacted from the side. Since the film has to be transported from a measuring station to a copying station anyway, the movement of the film with the originals across the scanning gap occurs without any particular additional effort. This line-by-line cross-scanning also enables easy adaptation to different document formats on a film of constant width, e.g. Small picture format 24 x 36 mm, square format 24 x 24 mm and half format 18 x 24 mm.

Further details and advantages of the invention emerge from the dependent patent claims in connection with the description of an exemplary embodiment. which is explained in detail below with reference to the drawing. Show it:

1 shows a measuring device according to the invention in a view in the direction of the film transport,

Fig. 2 shows the measuring device of Fig. 1 in plan.

1, 1 denotes a lamp, in particular a halogen lamp with a filament, the light of which is thrown onto a film guide track 4 via a double condenser 2a, 2b with a heat protection filter 3 arranged in between.

As can be seen from FIG. 2, the film guideway 4 in the scanning area has a gap 4a running transversely to the film running direction, the length of which corresponds approximately to the width of the film used for recording, while the width in the direction of transport corresponds to the one dimension of the document areas to be scanned. With 35mm film e.g. the dimensions of the areas to be scanned 2.2 x 2.2 mm. With ten areas arranged side by side, this results in a length of the gap of 22 mm, that is somewhat less than the usable film width of 24 mm. On the other hand, the gap width in the direction of transport for films of assembly 110 is only 1.1 mm, since the usable film width is also only 11 mm.

A deflection prism 6 is arranged below the film guide plate 4, the back of which is mirrored. The deflected beam path now strikes a lens 7, which is fastened in a carrier 16 with two openings. Another lens 17 is arranged in the other opening. For example, by rotating around an axis lying between the two objectives and parallel to the beam path, objectives 7 and 17 can be interchanged. The lens 7 is arranged and has such a focal length that it images the film 5 onto a measuring cell row 10 to be described, while the lens 17 in its effective position fills a film 5 in the film guideway 4 with a gap length of 11 mm Depicts measuring cell row 10. Behind the objective 7 are beam splitter mirrors 8 and 9, of which the first mirror 8 throws the blue component onto a measuring cell row 12, while the second, red-opaque mirror deflects the red component onto a measuring cell row 11. The green portion, which passes through these mirrors essentially without weakening, then strikes a measuring cell row 10. The measuring cell rows are each preceded by color filters, row 10 a green filter 13, row 11 a red filter 14 and row 12 a blue filter 15.

The condenser 2 is dimensioned such that it images the filament of the lamp 1 in the area of the two lenses 7 and 17 in their effective positions, so that the illumination of the original 5 in the stage 4 takes place in such a way that the lens is independent of the lens that is effective all areas of the film in the gap 4a are mapped onto the measuring cell row 10 to 12 with approximately the same brightness.

A stepper motor 18 is provided for the film drive, at least at the measuring point 4a, on the shaft 20 of which a drive roller 19 is seated.

The operation of the described device is as follows:

For modern exposure control methods in color copying, it is necessary to know the density values in the three colors including the location coordinates of this area for each of a larger number of areas of the master copy. A method for evaluating these measured values is e.g. described in German Offenlegungsschrift 2 912 130. The film to be scanned is e.g. applied to the film stage 4 by hand or by means of suitable feed means and advanced until the film start is gripped by the film drive roller 19. The stepper motor 18 therefore transports the film in increments of 0.2 mm each via the shaft 20.

The part of the film stage 4 above the gap 4a

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Film is evenly illuminated by the light source 1 and by the corresponding lens, e.g. 1 in small format by the lens 7 through the two beam splitter mirrors 8 and 9 and the filters 13, 14 and 15 sharply imaged on the respective measuring cell rows 10, 11 and 12. Each of the ten measuring cells therefore provides a signal for the averaged amount of light in the relevant color that hits the cell surface. These brightness signals are then sequenced by a suitable interrogation direction, e.g. in each case the three color signals for each of the first area are successively fed to a computing device for further processing.

The permeability of the filters 13, 14 and 15 is matched together with the beam splitters 8 and 9 in such a way that the impression of brightness on the measuring cell rows, depending on the light wavelength, runs in exactly the same way as the sensitivity curve of the copying material. Details of this can be found in German patent application P 3 317 804. The measurement values in the measuring cells are queried at such a speed that in a scanning cycle for the measuring cells the transport path of the film caused by the stepping motor 18 is in any case smaller than the extent of the Gap 4a in the direction of film. Depending on the speed of the scanning cycle, the scanning can also be suspended for a while until an area that has not yet been scanned fills the gap 4a. The faster the scanning cycle takes place, the closer the actually scanned strip on the film approaches the perpendicular 5 to the direction of movement of the film.

The start of a negative in the scanning position is recognized by suitable buttons, not shown, due to notches on the edge or due to transport holes assigned to the image field, which have already been used in the recording camera to position the film. Furthermore, film gluing points are also scanned in the scanning device and reported to the computer, since this information is important for the evaluation of an entire film.

If the scanning device is changed over to a narrower film, the film stage 4 must be changed, since the scanning gap 4a must be adapted to the new film width and to the size of the scanning areas. For packaging 110, the carrier 16 is e.g. Rotated 180 ° and the lens 17 brought into the effective position. The imaging scale 20 is changed in such a way that the imaging of the gap 4a, which is approximately half as long and half as wide, just fills the format of the measuring cell row again.

1 sheet of drawings

Claims (4)

666 357 1.Device for the area-wise scanning and measurement of photographic films with master copies in at least two colors for the exposure control of a photographic copier, containing a light source for illuminating the master copies, an imaging arrangement for mapping the master copies onto a number of light measuring devices, each with a large number of photoelectric measuring cells for Detecting the permeability of the copy master areas and a beam splitter in order to throw the light of one color onto each light measuring device, characterized in that the light measuring device is designed as measuring cell rows (10, 11, 12), each with the color separation of a film transverse to the transport direction Copying, strip-shaped scanning area (4a) is shown and that a drive motor (18) is provided which moves the film (5) at a speed that at most corresponds to the scanning speed over the scanning area (4a) moved away. 2. Device according to claim 1, characterized in that the imaging arrangement according to the width of the film to be scanned (5) contains a plurality of interchangeable lenses (7, 17), the focal lengths of which are dimensioned such that the lenses each extend approximately over the entire film width Map the strip-shaped scanning area (4a) of the master copy onto the measuring cell rows (10, 11, 12). 2nd PATENT CLAIMS 3. Device according to claim 2, characterized in that the objectives (7, 17) sit on a common, adjustable support (16). 4. Device according to one of the preceding claims, characterized in that the light source has a condenser (2a, 2b), which images the lamp filament (1) in the region of the lenses (7, 17) in their effective position.