The present invention relates to devices and methods for exposure and control of imageable media such as photographic film and printing plates. More specifically the invention relates to a digital control strip suitable for quality control of imaging devices and imaged media.
Flexographic printing plates are generally used to form relief printing surfaces that find general use in printing on surfaces which are soft and easily deformable, such as packaging materials, e.g. cardboard, plastic film, etc. We refer to patent application US 2003/0129533 A1, herein incorporated by reference in its entirety for background information only on flexographic printing plates, including imaging and processing of these plates.
Reproducing the smallest dots on a flexographic plate is of the utmost importance to obtain high quality printing. Therefore, plate making has to be performed with very high precision and control. The variations in softness and the thickness of the different plates make it difficult to keep the flexo process well under control.
Patent application EP-A-0 740 457, herein incorporated by reference in its entirety for background information only, discloses a screening method that is suitable for flexographic printing. We refer to this patent application for more information on screening technology, including the discussion of terms such as screen frequency (in lpi), dot size (in μm), coverage (in %) and other relevant terms. Agfa's Sublima™ screening can be used for flexographic applications.
Patent application EP-A-0 825 022, herein incorporated by reference in its entirety for background information only, discloses a digital control strip suitable for quality control of imaging devices.
To monitor and control the flexographic plate making process, only very few tools are available. After plate making, the printing plate can be controlled visually, but this is quite hard. After the image was printed, detecting on the printed image which dots are stable and which dots are not, is extremely difficult.
There is still a need for an improved method for monitoring and controlling the flexographic plate making process.
A digital control strip, applicable to an imageable medium such as a printing plate, includes (A) a plurality of control fields each having a dot size different from that of another control field, wherein each of the control fields includes a plurality of subfields each having a coverage different from that of another subfield of the control field; or (B) a plurality of control fields each having a coverage different from that of another control field, wherein each of the control fields includes a plurality of subfields each having a dot size different from that of another subfield of the control field; or (C) a control field including a first, a second and a third subfield, wherein a coverage of the second subfield is different from a coverage of the first subfield and wherein a dot size of the third subfield is different from a dot size of the first subfield.
The invention is described with reference to the following drawings without the intention to limit the invention thereto, and in which:
A preferred embodiment of the invention is a digital control strip illustrated by
A purpose of this control strip is to determine and to check the minimum dot size that can still be reproduced consistently and that remains stable on the printing plate.
Keeping the plate making process under control also means keeping the reproduction of the smallest dots on the plate under control, so that the highlights and shadows are well reproduced, as required for good quality printing.
The reproduction of the plates is influenced by a lot of different factors. Customarily, as discussed in patent application US 2003/0129533 A1 (mentioned already above) in connection with
Sublima™ flexo makes the plate making process easier and less critical to changes, by relying on the minimum dot definition. But, changing conditions or human errors may result in a change of the minimum dot. An advantage of applying the invention in connection with Sublima XM-screening technology is that it results in good reproduction of the initially defined minimum dot, so that the flexo Sublima screening behavior is maintained, resulting in good highlights, open shadow and clean midtones. On a strip in accordance with the invention, it is very easy to check visually if the minimum dot reproduction is stable and how much latitude is still available.
The strip is preferably as small as possible, making it possible to put the strip always on the plate and reducing the plate waste as much as possible. The location of the strip on the plate is preferably chosen so that it does not interfere with the image on the plate, e.g. in the margin, or, generally, at an image-wise irrelevant portion of the plate. The strip can be used on all sorts of flexo plates, regardless of the plate type and thickness.
Now, the three areas of the embodiment of the strip shown in
The purpose of the first and second areas, areas 1 and 2, is to monitor the flexo plate making itself, while the third area, area 3, serves to monitor film production.
Preferably, the first area includes a plurality of control fields as shown in
A control field may include more or less than three subfields (e.g. four subfields with coverages of respectively 0.6%, 1%, 2% and 5%). One or more subfields may have a non-circular form (e.g. the outer subfield 13, of 0.2% in
In another, less preferred embodiment of the invention, the first area of the strip includes a plurality of control fields that each have a different coverage, and each of the control fields has a number of subfields having different dot sizes (e.g. a control field for 1% has subfields for 3×3, 4×4 and 5×5 dots, another control field for 0.6% also has subfields for 3×3, 4×4 and 5×5 dots, etc.).
In yet another embodiment of the invention, a control field includes a combination of subfields that have different coverages and different dot sizes; e.g. a control field includes a first subfield of 3×3 and 0.6%, a second subfield of 3×3 and 1% and a third subfield of 2×2 and 1%.
A change in film processing may have an effect on minimum dot; by overexposing the film, small dots are lost.
A change in plate making (front/back exposure) may have an effect on minimum dot. By making higher relief depths, small dots are lost or become unstable.
As is the first area 1 in
These line patterns can be used to check the image quality in the shadows: suppose that dots of 2×2 pixels are well reproduced (as checked by the control fields in area 1), but that the quality of the line pattern with lines of two pixels wide is not OK, then this will result in bad image quality of the printed image in the shadows. It may then be better to select 3×3 minimum dots instead of 2×2. Thus, checking on plate the line patterns in area 2 of the strip helps to find a good balance between stability in the highlights (cf. the control fields in area 1 of the strip) and image quality in the shadows.
Analogously to the image quality in the shadows, the image quality in the highlights can be checked by controlling if the line patterns in the highlights are well reproduced.
In one embodiment of the invention, only negative line patterns—resulting in “valleys” on the plate—are present; in another embodiment of the invention, only positive line patterns—resulting in “mountains” on the plate—are present.
Returning to
The embodiment of
In one embodiment of the invention, the pattern subfields, or at least some of them, are checkerboard patterns, which are very sensitive to changes or fluctuations in film processing, while the background subfield is much less sensitive, such as a pattern of orthogonal lines. For control field 21, 2×2 dots may be used, for control field 22, 3×3 dots, for control field 23, 4×4 dots, etc.
In a particular embodiment of the invention, control field 27 is absent.
The three areas of the embodiment of the strip shown in
The parameters used above to describe particular embodiments of the invention may of course be changed; e.g. instead of having control fields for 3×3, 4×4 and 5×5 dots, control fields may be defined for 2×2, 3×3 and 4×4 dots. The choice of the exact parameters defining the digital control strip preferably depends on the properties of the flexo plate and platemaking process (e.g. another set of parameters may be chosen for digital plates than for analog plates).
The dots need not be symmetric; instead of e.g. 2×2 or 3×3 dots, 2×3 dots or 4×3 dots may be used.
The invention can advantageously be used for computer-to-plate packaging applications. The invention can be applied for all types of flexographic processes: film+analog plates; digital plates; direct engraving (of course, if no film is used in the flexographic process, the third area of the digital control strip may be absent).
The invention may be used to assess the imaging quality of the flexographic plate making process. It may also be used to find the cause of a problem in the process. If, e.g. a minimum dot size of 30 μm, that worked perfectly in the past, is no longer OK according to the digital control strip, it is of course possible to change to a minimum dot size of 40 μm, but a better alternative is to analyze the plate making process, using the digital control strip, in order to find the cause of the problem.
Those skilled in the art will appreciate that numerous modifications and variations may be made to the embodiments disclosed above without departing from the scope of the present invention.
This application claims the benefit of U.S. Provisional Application No. 60/572,833 filed on May 20, 2004.
Number | Date | Country | |
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60572833 | May 2004 | US |