WARD PAUL COURTENAY (GB)
EASTMAN KODAK CO (US)
FR2621710A1 | 1989-04-14 | |||
DE2246066A1 | 1974-03-28 | |||
EP0356345A1 | 1990-02-28 |
1. | A scanning device (10) for scanning 35mm film (12) in a photofinishing operation, characterized in that a bundle of optical fibres (14) is arranged linearly and divided into at least two sets (16, 18), a first set (16) of optical fibres being arranged to scan frames (20) of the film (12) to sense frame content information, and a second set (18) of optical fibres arranged to sense film reference information adjacent to at least one edge (22) of the film (12). |
2. | A device according to claim 1, characterized in that the second set (18) of optical fibres comprises a portion arranged to sense DX barcode information. |
3. | A device according to claim 1 or 2 characterized in that the second set (1'8) of optical fibres comprises a portion arranged to sense occurrence of sprocket holes. |
4. | A device according to any one of the preceding claims, characterized in that the second set (18) of optical fibres comprises a portion arranged to sense illumination level information off the film. |
5. | A device according to any one of the preceding claims, characterized in that the first set (16) of optical .fibres is connected to provide colour information regarding a frame to control means (28, 30, 32) which uses this information to derive frame position information. |
6. | A device according to any one of the preceding claims, characterized in that successive optical fibres or groups of optical fibres of the linear arrangement in the first set (16) are connected optically to colour filters (34) of correspondingly different colours. |
In -accordance with the present invention,
10 there is provided a scanning device for scanning 35mm film in a photofinishing operation, characterized in that a bundle of optical fibres is arranged linearly and divided into at least two sets, a first set of optical fibres being arranged to scan frames of the ■ ' ■ -' film to sense frame content information,, and a second set of optical fibres arranged to sense film reference information adjacent to at least one edge of the film.
Such a scanner may be used to produce a variety of different types of information, eg to ™ control the position of a film in a printing gate (framing), to obtain the necessary dye density information to control printer exposure and to enable photographic film control strips to be measured (control strip densitometr ) , with a single, low cost, 5 simple device. This can allow design of a very simple printer, use of existing exposure control algorithms, walk—away printing with high quality results, and possible retrofit to existing mini—labs.
The same scanner, with all these advantages, 0 can further be adapted to be able to read at the same time the film DX code and frame numbers. For the latter purpose, the second set of optical fibres comprises a portion arranged to sense DX barcode information. The second set of optical fibres may also comprise a portion arranged to sense occurrence of
sprocket holes so that the densities in the film can be related in position to these.
The second set of optical fibres may further enhance the usefulness of the scanner by comprising a portion arranged to sense, illumination level information off the film so as to provide a reference standard with which to compare the responses obtained by means of other, parts of the scanner.
The first set of optical fibres may comprise means to provide colour information regarding a frame and the scanner may comprise means connected to this set to receive such information and to derive, from this colour information, frame position information, thereby obtaining two kinds of information from one set of signals and hence reducing the complexity of the scanning means, eg by using suitable back—up circuitry.
In a preferred arrangement, successive fibres (or groups of fibres) of the linear arrangement in the first set are connected up optically to colour filters of correspondingly different colours, which enables a particularly simple and useful arrangement to result.
For a better understanding of the present invention, reference will now be made, by way of example only, to the accompanying drawings in which:-
Figure 1 is a * bottom plan view of a scanner embodying the present invention with its optical face facing the reader;
Figure 2 is a side elevation of the scanner shown in Figure 1;
Figure 3 is an end elevation of the scanner shown in Figures 1 and 2; and
Figures 4 and 5 are diagrammatic representations of alternative embodiments of optical fibre channels connections for the scanner shown in Figure 1.
Referring to the Figures 1 to 3, a linear scanning device 10 is shown. Such a device 10 is used for scanning 35mm film (referenced 12 in Figures 1 and 3) in a photofinishing operation. The device 10 comprises a bundle of optical fibres 14 arranged linearly so that the fibres scan through slits I to 5 as shown in Figure 1. The bundle of optical fibres 14 is divided into at least two sets 16, 18 (as shown in ' Figure 2). One set 16 of fibres is arranged for scanning frames 20 of the film 12 through slit 1 to sense frame content information. A second set 18 of fibres is arranged to sense film reference information adjacent to at least one edge 22 of the film 12.
The second set 18 of fibres scan the film 12 through portions identified by the slits 2, 3, 4 and 5. Portions 3 and 4 are arranged to sense DX barcode information 24, portion 2 is arranged to sense occurrence of sprocket holes 26 and portion 5 is arranged to sense background illumination level beyond the edge of 22 of the film 12.
The first set 16 of optical fibres is arranged to scan colour information through slit 1 and is connected to an interface 28 to receive colour information regarding a frame from that set 16. This information is then transferred to a computer 30 which derives frame position * information from this colour information. Computer 30 a " J.so obtains from interface 28 information derived from the various portions of the second set 18 of optical fibres. Computer 30 then provides the necessary information to means 32 which accordingly carries out control functions, data provision and any other functions which may be required.
Referring now to Figures 2 and 4, at the entrance (scanning) end of the optical fibres of the first set 16 are located red or green or blue colour
filters 34 (Figure 2) which are identified by respective references R, G, B in suitable proportions so that the quantities of cyan, magenta and yellow dye in the film can be measured and related to position and area in the film 12. ■ Light passing along these fibres is sensed by photosensors 36 and corresponding signals pass to the interface 28.
In an alternative embodiment shown in Figure 5, the colour filters 34 are located at the exit ends of the optical fibres of the first set 16 so that photosensors 36 are again responsive to respective colours red, green and blue and pass corresponding signals to the interface 28 as before.
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