Printing – Planographic – Lithographic plate making – and processes of making or using...
Reexamination Certificate
2001-02-23
2003-04-08
Funk, Stephen R. (Department: 2854)
Printing
Planographic
Lithographic plate making, and processes of making or using...
C430S309000, C430S328000
Reexamination Certificate
active
06543361
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a method of increasing the service life of printing forms whereon images can be set directly in printing machines, regardless of whether the printing forms whereon images can be set are in plate form or in sleeve form, in particular, printing forms whereon images can be set thermally without any process.
The published non-prosecuted German Patent Application (DE-OS) 196 12 927 A1 is concerned with a printing machine and an imaging or image production method for a printing machine. A printing unit with a seamless image cylinder is provided which, by a direct imaging method is coated within the printing unit with a dryable polymer. After the polymer has been dried, the surface property of the polymer applied to the image cylinder is transformed, completely or in given regions, by selective laser radiation, in order to alter the affinity thereof with respect to a printing ink. The image cylinder is used instead of a plate cylinder in a conventional offset printing machine, and indeed, more specifically in wet offset printing or also in dry offset printing. After printing, the image cylinder is cleaned of the layer provided with an image. In this case, it is unnecessary for the layer to be removed completely and, moreover, the system can be employed in already existing printing machines.
In the case of computer-to-plate or computer-to-press applications, thermal printing plates are employed as printing forms whereon images can be set directly, a distinction being drawn between thermal printing plates for development in the wet process, and process-free thermal printing plates of the second generation.
When plate imaging or setting an image on a plate by thermal detachment of polymers, the non-printing plate segments are detached by heat and subsequently washed out. When plate imaging or setting an image on a plate by thermal crosslinking, partial crosslinking of the printing plate segments by heat occurs, and at the non-printing locations, the unchanged polymers are washed out.
Total crosslinking of the printing plate segments or partial crosslinking, if necessary or desirable, of the non-printing plate segments which may occur is achieved in a preheating phase, for example, by the application of infrared radiation.
In a further known plate image setting or imaging process by a thermal masking method, a mask layer over the printing plate segments is cured thermally. The mask layer over the non-printing plate segments is then washed out before, in a further process step, post-exposure to floodlights destroys those plate segments which are not protected by the mask. The mask layer remaining located over the printing plate segments is washed out afterwards.
In the case of these thermal printing plates, various process steps are accordingly necessary for the development of the print-ready printing forms and, in the case of a job change, have to be run through, and naturally take time.
By comparison, process-free thermal printing plates constitute a further development. These may have an image set thereon by a process involving thermal ablation of the printing segments. By a laser, the printing image is burned into a central multilayer structure forming the image. The washing water dissolves the imaged segments together with the covering layer when the printing machine is started up; the soapy layer thereof is transferred via the rubber blanket to the first feed sheets.
According to a further process for plate imaging or setting an image on a plate by thermal transfer of the printing segments, an ink-accepting carbon layer is transferred by heat from a carrier film to the plate. In a second process step which is necessary in this process, outside the “computer-to-plate” system, the segments whereon no image has been set are pulled off the plate, together with a carrier film. The plate image setting or imaging processes for process-free printing plates remain to some extent at the laboratory stage. In the case of process-free printing forms, the service life or durability has previously been limited merely to edition levels of about 30,000 prints, and after this time, the process-free thermal printing plates generally have to be interchanged and replaced by new printing plates.
Powder, paper dust and other dirt particles, which can penetrate into the printing machine in the printing hall in the widest possible range of ways, to some extent result in minor damage to the ink-carrying layer even after a short time, and the damage becomes visible in the print. In individual cases, the phenomenon occurs wherein the applied damage becomes continuously greater in the course of printing an edition.
In current applications of thermal process-free printing forms, the service life or durability of the printing form whereon an image can be set directly in the printing machine is determined by the external action of particles such as dirt, dust grains, paper dust, powder or particles from plate fabrication or plate packaging. The process-free printing forms do not exhibit the service life or durability of a conventional or a burned-in processed printing form.
Heretofore, attempts have been made to increase the service life of conventional printing forms by burning-in the upper sides of printing forms finished in this way. The burning-in was performed outside the printing machine. If processed printing forms are used as printing forms whereon images can be set directly, prolongation of the service life of the printing forms whereon images can be set can be achieved by effecting the development and burning-in outside the rotary system, after image setting or imaging has been performed on a plate exposure unit. In order to burn-in the plates, an additional operation outside the printing unit is required following the image setting or imaging. The additional handling which is required in this manner for a printing form whereon an image has already been set intrinsically carries with it risks of damage to the surface of the printing form whereon an image has already been set and makes no sense in computer-to-press operation because the plates would have to be unclamped.
SUMMARY OF THE INVENTION
Based upon the state of the prior art outlined hereinbefore and the technical problems indicated, it is an object of the invention to provide a method of increasing the service life of printing forms whereon images can be set in printing machines by stabilizing the surface of a printing form whereon an image has been set directly in the printing machine, and of prolonging the service life or durability of the printing form without having to remove from the printing machine the printing form whereon an image can be set directly.
With the foregoing and other objects in view, there is provided, in accordance with a first aspect of the invention, a method of treating a process-free printing form fitted to a printing-form cylinder, which comprises having an imaging unit act upon a coating of a printing form and produce printing areas and non-printing areas on the printing form, and after the imaging unit has acted upon the coating, operating the imaging unit at reduced power during a return pass into a starting position thereof.
In accordance with another mode of the method invention, the reduced power corresponds to the power just needed for fixing the part of the coating whereon the printing areas are produced.
In accordance with a further mode, the method invention includes providing power during the return pass of the imaging unit into the starting position thereof which corresponds to the power required for producing the printing areas on the coating, which are ink carrying areas.
In accordance with an added mode, the method invention includes, during the return pass of the imaging unit, performing renewed imaging on the coating of the printing form in accordance with a bitmap of a raster image processor.
In accordance with an additional mode, the method invention includes preselecting the power of the imaging unit for the respective retu
Funk Stephen R.
Greenberg Laurence A.
Locher Ralph E.
Stemer Werner H.
LandOfFree
Method of increasing the service life of printing forms... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Method of increasing the service life of printing forms..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Method of increasing the service life of printing forms... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3005871