DE3120964A1 - Contact exposure method - Google Patents

Abstract

A method is specified for forming concentrated (thickened) images by contact exposure of a lithographic platemaking film. The contact exposure method uses a printer, a reflecting layer, the lithographic platemaking film, which is constructed from a light-sensitive layer and a transparent carrier, a transparent substrate and the original film. The application of the reflecting layer renders it possible to apply lithographic platemaking films of low contrast. The result of applying the lithographic films of low contrast is to obtain a concentrated image without impairing the image quality.

Description

Contact exposure process

The invention relates to a Kontaktbe lichtullgsverfalire # l for production thickened images by contact exposure using a photographic Film, particularly a lithographic plate-making film.

Various contact exposure methods are available for forming thickened ones Pictures known. The method shown in Figure 1 is probably the most general procedures carried out. Fig. 1 shows a lithographic film for plate-making, comprising a transparent support 4 and a photosensitive layer 3, one transparent base 2 and an original film 1, which are based on in this order the printer 5 are placed. The plate-making film is laid so that the photosensitive layer 3 faces the original film 1.

The exposure is from the side of the original film for 1 second up to 100 seconds, after which the photographic treatments of the Development, fixing, washing with water and drying in the usual manner as a function from the lithographic plate-making film used. By this process will be the images of the letters or the like on the original film thickened on thea film. The thickened images obtained thereby can, for example are used as bag letters.

A printer base that will be in contact with the lithographic plate-making film is usually black to prevent light scattering or the like.

It is also possible to place a diffusion sheet 6 between an original film 1 and to apply the transparent base 2 or outside of the original film, as shown in Fig. 2 or 3, followed by the exposure and the developing treatment connect in the same way.

There are several types of lithographic film for plate making to disposal. However, only a lithographic plate-making film can of high contrast, a thickened image according to the above procedures result. Low contrast lithographic plate making films cannot provide satisfactory thickened images. The extent of the thickened width of the Images can be increased to some extent by changing the treatment conditions will. For example, an increase in development time increases, an increase the treatment temperature, the extent of the thickened width of the images. This can also by increasing the strength or the number of transparent bases in the in the method shown in Fig. 1 can be achieved. However, this results in a Damage to the image quality (sharpness) and it can hardly be used in practice.

As can be seen in the examples listed below, this enables It is the present invention to form a thickened image with a lithographic plate-making film of low contrast, which was previously considered possible for delivery of satisfactorily thickened images have been viewed. According to the invention The process can make the thickened image even more effective in lithographic plate-making films of high contrast can be obtained.

As used herein, "high contrast" means lithographic Plate-making films refers to those with a high gamma value which the Indicates gradation, i.e. a gamina value from about 7 to about 12, while the expression "low contrast" means those with a low gamma value, i.e., about 3 to about 6, designated.

The object of the invention consists in a contact exposure method, soft enables, thickened images with good image quality when used not only from high contrast lithographic plate-making films, but also low contrast lithographic plate making files.

In the drawings, Figures 1 to 3 represent cross-sections of conventional ones the build-up used during exposure.

Figures 4 and 5 are cross sections of those used in exposure Assemblies according to the invention. In the respective drawings, the reference numeral denotes 1 the original film, 2 a transparent base, 3 a photosensitive layer of the lithographic plate-making film, 4 a transparent support of the lithographic plate-making film, 5 a printer, 6 a diffusion sheet and 7 a reflective plate or sheet.

In the context of the description of the invention in detail, the above achieved using the following exposure method. That is, the task was performed by placing it on printer 5 in the following order a reflective plate or sheet 7, a lithographic one Plate-making film, the photosensitive layer of which is the reflective Plate or reflective sheet facing the transparent base 2 and the original film 1. The exposure is then from the side of the original film carried out. I.e. after laying the elements on top of one another, as shown in Fig. 4, the assembly is exposed from the original film side, followed by development treatment followed, so that thickened images with good image quality are obtained.

The photographic ones which can be used in the context of the present invention Films do not only include high contrast lithographic plate-making films, but also low contrast films previously believed to be they are unable to deliver satisfactorily thickened images. All kinds from lithographic plate-making films such as are commercially available can be used in the context of the invention.

The transparent base used in the invention is made of one or more, preferably about one to five sheets with a thickness from 50 to 200 pm.

The transparent basis can be effectively made up of any transparent one Be made of material. Examples of useful materials include glass plates as well as plastic films or sheets.

The reflective plate or sheet as used in Used within the scope of the invention includes plates and sheets, which are the bulk of the light, preferably those with a mirror surface will. Specific materials found useful include aluminum foils, Metal plates and Ferrotyoplatte, preferably aluminum foils and metal plates. the The thickness of this reflective plate or reflective sheet is not limited. The reflective plate or sheet can be printed on the exposure printer can be attached or can be integrated with the printer Embodiment of the present invention is a diffusion arch in addition to applied to the layers shown in FIG. The diffusion arc is preferred used to diffuse the light for the exposure, so that thereby the thickened Image is delivered even more effectively. As previously described, can the Diffusion sheet inserted between the original film and the transparent base However, it is preferred to have the diffusion arch on the outside of the original film as shown in FIG. Examples of useful Diffusion sheets include, for example, paper, tracing paper, and ground glass, which are preferably have a thickness of about 50 to about 300 µm.

The contact exposure method of the present invention enables the formation of thickened images when not only lithographic is used Plate-making films of high contrast but also of lithographic Low contrast platemaking films. With low contrast films it was previously not possible to have sufficiently thickened widths and good image quality or to maintain sharpness according to the usual procedures. Thus, the present invention provides Method an expanded selection of lithographic plate-making films and makes the processes for forming thickened images easier.

The invention will be described in detail below with reference to the following non-limiting examples of preferred embodiments of the invention.

Example 1 To obtain thickened images on low-grade lithographic films Contrast (Fuji Lith UV Contact FILM KU-100) using an original film The following layers were shown in the constructions below applied: original film, a transparent base, a lithographic film, a diffusion sheet and an aluminum foil.

Structure A: The layer structure shown in FIG. 1 #; ui.dc; (Comparative with three transparent PET sheets (poly-example) ethylene terephthalate)) (100 slm, Toray Lumir # ur Base T, Type 100, manufactured by Toray Co., Ltd.) which are available as transparent Basis 2 were used.

Structure B: The layer structure according to structure A was carried out by (comparative one between the transparent base 2 example) and the lithographic one Film 3 inserted @ n diffusion sheet modified.

Set-up C: Set-up A was carried out by means of a Original film and the transparent base 2 example) used diffusion sheet modified structure D: The layer structure shown in FIG three transparent sheets that were used as a trans conform) parent basis, and a 17 # m thick aluminum foil used as a reflective sheet 7.

Constructions A, B and D were made on a chemical lamp printer (FP-A3 by Fuji Photo Film Co., Ltd.) and for 35 seconds (light source: FL2OS-BL360 for capturing insects from Mitsubishi Electric Corp.). The exposed film was subjected to development processing in an automatic developing machine (FG24 PAKOROL by PAKO Co., Ltd.). The development took place at one Developing temperature of 27 ° C for 100 seconds using the following Developing solution for lithographic films (Developing Treatment A): 3 # 0composition of the developing solution adduct of formaldehyde and sodium bisulfite 50 g sodium sulfite 3g boric acid 7.5 g hydroquinone 22.5 g potassium bromide 1.6 g sodium carbonate (monohydrate) 55 g of 2,2'-iminodiabhanol 18.1 g of water to 11 According to the above Procedures were produced di setups A, B, C and D on a printer and wcl <-rend Exposed for 30 seconds, followed by development treatment using a automatic developing machine (FG24-SQ from PAKO Co., Ltd.). The development was used at a developing temperature of 380C for 20 seconds of the following MQ developing solution (Development Treatment B): Composition of the developing solution sodium sulfite 67 g hydroquinone 23 g 1-phenyl-3-pyrazolidone 0.4 g potassium hydroxide 11 g sodium carbonate (monohydrate) 11 g potassium bromide 3 g water to 11 Image quality and thickened width of the lith @ graphic Film through the above TTr.r drive formed thickened images were rated. The results obtained are shown in Tables I below and II listed.

Table I Evaluation of those obtained in A developing treatment Images Structure Image Quality Thickened Overall ~~~~~~~~~ Width Rating A For the Practice Sufficient for Unusable for the Prls Unusable for the practice B For the Practice Sufficient for Unusable for practice Unusable for practice D Sufficient for Sufficient for Sufficient for Practice Practice Practice Table II Evaluation of the Images Obtained with the Development Treatment B Image quality build-up Thickened overall ~~~~~~~~~~~~~~~ Width movement A Absolutely limited usability Absolutely useless for practical use B Absolutely usable to a limited extent Absolutely useless for practice useless C Absolutely useless for practice unusable unusable D For practical use Sufficient for For practical use the practice useful Tables I and II clearly show that that low contrast lithographic films have good thickened images of good Image quality (sharpness) and good usability in practice only in the case of the invention Method result, i.e. using the construction D. However, favorable results with low contrast films cannot be obtained if the invention Procedure is not applied.

Example 2 To make thickened images on lithographic films of low To form contrast (Fuji Lith Contact Film KB-100) using an original film, the following layers were used in the following constructions E and F: Original film and lithographic film.

Structure E: The layer structure shown in Fig. 1 was (comparative produced, however, diffusion sheets example) (tracing papers) each between the transparent film and the original film and on the outside of the Original film attached and only two sheets of transparent PES sheets (Polyethylene terephthalate) (100 pm, Toray Lumirror Base T, type 100, from Toray Co., Ltd.) were used as a transparent basis.

Structure F: The layer structure shown in Fig. 5 was (invention with three sheets of transparent film used as the transparent base according to) and using the same aluminum foil as in Example 1.

Assemblies E and F were printed on a printer (P-6F from Dainippon Screen Nfg. Co., Ltd.) and for 35 seconds using a Tungsten lamp exposed as a light source. The exposed film was developing using an automatic developing machine (FG24 PAKOROL). Development was carried out at a development temperature of 2 ° C. for 100 seconds using the same developing solution as in the developing treatment A of Example 1 carried out.

Image quality and thickened width of the thickened ones formed thereby Images on the lithographic film were evaluated using the methods shown in Table III obtained results.

Table III Evaluation of the images obtained. Construction. Image quality. Thickened Broad overall rating Absolutely limited for the absolutely unusable practice usable F For practical use Sufficient For practical use usable usable From Table III it is clear that in the process according to the invention (structure F) low contrast lithographic films to provide good thickened images can be used. A layer structure as in E gives poor results.

The invention has been described above on the basis of preferred embodiments described, without being asked to do so.

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Claims (6)

Claims 1. A method for contact exposure, thereby g e k Note that in the order given on a reflective Layer a lithographic plate-making film with a photosensitive Layer, with the photosensitive layer opposite the reflective layer present, a transparent base (transparent carrier) and an original film in overlay- are applied and the exposure is carried out. 2. A method for contact exposure according to claim 1, characterized g e k It is noted that the reflective layer is a reflective plate is used. 7. The method for contact exposure according to claim 1, characterized in that g e k It is noted that the reflective layer is a reflective sheet is used. 4. The method for contact exposure according to claim 1 to 3, characterized It is not noted that there is a diffusion layer between the rider transparent base and the original film or on the outside of the original film is launched. 5. A method for contact exposure according to claim 1 to 4, characterized it is not noted that a basis has been applied as a transparent basis consisting of 1 to 5 sheets of transparent material with a thickness of 50 up to 200 Fm. 6. A method for contact exposure according to claim 1 to 5, characterized it is not indicated that as a reflective layer a sheet of a Aluminum foil is applied.