EP1413450A1 - Method for one-sided printing of transparent, decorated support media - Google Patents

Abstract

The single-sided printing method involves using shading corresponding to the illumination intensity distribution of an illumination device (4) for illuminating the carrier medium (8) in the operating state, with which white and/or silver pigments are applied to the side (9) of the carrier medium to be printed using the screen printing technique. The carrier medium can be directly printed or a film on the carrier medium can be printed. Independent claims are also included for the following: (a) a carrier medium for replaceable arrangement of especially transparent information media (b) and a housing with an illumination arrangement.

Description

The invention relates to a method for one-sided printing of a transparent carrier medium. In addition, the invention is intended to provide a housing for the arrangement of such a carrier medium.

A transparent carrier medium in the sense of the present invention serves to cover information boxes, panels or information housings which are preferably illuminated on the inside. The carrier medium, which is generally arranged in the direction of view behind a housing cover that closes the housing, is provided on the front side with an essentially transparent, exchangeable information carrier, for example an advertising poster, and is illuminated on the rear side by a lighting device provided for this purpose. The light of the lighting device thus illuminates the back of the carrier medium as well as the information carrier, so that the result is an information carrier which is illuminated from behind and is well visible even in the dark. One speaks of backlighting. Fluorescent tubes arranged parallel to the surface are used for backlighting.

A disadvantage of the arrangement described above, however, is that homogeneous light distribution and thus uniform illumination of the carrier medium together with the information carrier is only possible if the lighting device is arranged at a minimum distance from the carrier medium. This results in disadvantageously very bulky, ie deep Designs with a depth of 100 mm and more, which are unsuitable for use, particularly on public places, for aesthetic reasons but also for structural reasons. With a compact and flat design, the lighting device must therefore be positioned in the immediate vicinity of the carrier medium. The then resulting distance between the lighting device and the carrier medium is no longer sufficient to ensure a homogeneous light distribution, so that disadvantageously adjust brightness differences on the front of the carrier medium, the z. T. can be so disruptive that a visual detection of the information carrier arranged on the carrier medium is no longer possible. This effect occurs disadvantageously in particular when using fluorescent tubes, because the fluorescent tubes arranged on the back of the carrier medium literally stand out on the front of the carrier medium and thus also on the information carrier, so that the viewer sees an information carrier with alternating dark and perceives bright areas.

In order to be able to avoid such contrast formation on the front of the carrier medium and the information carrier, the use of a so-called "edge light" is known from the prior art. This is a device which is illuminated from the edges and which, in exchange for the lighting device arranged on the rear of the carrier medium, has lights arranged on body edges of the carrier medium and illuminates the rear space of the carrier medium by means of light emitted parallel to the carrier medium plane. Two carrier media are treated using etching technology so that reflection waves result. A disadvantage of this configuration, however, is on the one hand the complex and therefore also expensive to manufacture structure, and on the other hand the fact that even with this embodiment, if the width is too large, a central region of the carrier medium remains which, in contrast to the region surrounding this central region Zones are less illuminated, so that overall there is a light-dark contrast curve towards the center of the carrier medium. The width of the device is therefore subject to severe restrictions.

It is also known from the prior art to provide the individual illuminants of the lighting device with a surface coating which contains a large number of prisms. Such a surface coating is disclosed in US 5,186,530. Shown here are light guides arranged inside a housing, which are tubular and into which light is radiated from lamps arranged outside the housing. For a uniform light distribution within the housing, the individual light guides are provided with a special surface coating, which as a result forms a large number of prisms on the light guides. Depending on the position of the individual prisms on the surface of the light guide, an overall more uniform light distribution can be achieved. However, this type of configuration is disadvantageously very complex and, above all, cost-intensive. In addition, in order to obtain a uniform light distribution when assembling such a housing, a detailed fine-tuning and alignment of the light guides provided with the prisms is required, which has not only proven to be time-consuming, the adjustment made is also extremely susceptible to faults, so that it is necessary from Readjust from time to time.

A lighting device is known from US Pat. No. 4,937,716, in which a light source is arranged within a closed housing. The lighting device has a light reflector which is mirror-like in the longitudinal direction and a light exit opening which is closed by a cover which is essentially non-light-absorbing and is arranged separately from the reflector. The light reflector is formed from a diffusely permeable material, so that when the lighting device is switched on, the result is a light distribution that diffuses in the interior of the housing. A disadvantage of this arrangement is the complex design of the reflector and the associated cover. On the other hand, this arrangement takes up a lot of space, so that only comparatively deep housings can be provided with this proposed device. In addition, the reflector system is extremely susceptible to external influences, such as. B. contamination by dust or water droplets, contamination of the reflector acts disproportionately on the diffuse light distribution caused by the reflector.

Finally, a light box for slides is known from EP 0 225 542. This light box essentially consists of an outer frame, a rear wall and two support discs arranged on the front, between which a slide is held. A correction mask is arranged between the light source provided in the light box on the one hand and the slide on the other hand, which is arranged behind the slide in the direction of view of the housing box and is attached to the rearmost carrier disk. The correction mask is preferably a photographic film film which is inserted into the light box in an initially unexposed state and then exposed through the light source of the light box and then developed. It is disadvantageous that the correction mask is extremely complex to manufacture and, in particular, cannot be adapted to different light box sizes and shapes. Rather, it is necessary to make a separate correction mask for each type of light box. Another disadvantage is that the correction mask only reproduces the light intensity or light distribution given at the time of the initial illumination. It is not possible to adapt the correction mask later to changing lighting conditions. In addition, photographic film films have a very dark color after they have been developed in unexposed areas, which has a disadvantageous effect on the display of the slide upstream in the viewing direction of the film film. In addition, photographic film foils are very sensitive to external influences and, for example under the influence of heat, such as can be caused by sunlight, form a wave-like shape.

Proceeding from the above, it is an object of the invention to provide a method for one-sided printing of a transparently designed carrier medium, with which a carrier medium can be produced which, while avoiding the disadvantages mentioned above, despite the direct backlighting with a lighting device in a flat design, provides almost contrast-free lighting on the Carrier medium arranged information carrier allows. Furthermore, the invention is intended to provide a housing with a transparent carrier medium produced by the method.

Shallow depths of less than 60 mm should be possible and allow a homogeneous light distribution despite direct backlighting.

The method, it is proposed to solve the above object, a method for single-sided printing of a transparent formed carrier medium, in particular an opal, with a corresponding to the illuminance distribution of the carrier medium in the use state with light impinging illumination device formed shading, in which, using the screen printing technique white and / or silver Pigments are applied to the side of the carrier medium to be printed.

The method described above enables shading to be printed in a simple manner on the back of the carrier medium facing the lighting device. White and / or silver pigments are applied using the screen printing process, the application of which is not recognizable on the front of the carrier medium, but which nevertheless compensate for the brightly illuminated areas on the back, so that the result is a carrier medium that also forms with inhomogeneous lighting on the front has a uniformly formed and homogeneous lighting surface.

In this context, provision can be made for the carrier medium to be printed directly or, alternatively, for the carrier medium to be provided with a correspondingly printed film. It goes without saying that the film carrying the printed image is itself transparent and is suitable in terms of its material properties both for use in the screen printing process and for use in connection with the carrier medium according to the invention.

According to a special feature of the method, it is provided that the shading to be printed is a negative image of the illuminance distribution, for the preservation of which the illuminance distribution is digitally recorded in a first method step and converted into a negative image in a second method step.

According to this implementation of the method, it is provided to photographically record the inhomogeneous light distribution formed by the lighting device. This is preferably done using a digital camera, so that the result is a digitally editable positive of the inhomogeneous light distribution of the lighting device. This positive has both light and dark areas, with a high illuminance in the area of the light areas and a low illuminance in the area of the dark areas. In order to apply an imprint corresponding to this positive image to the back of the carrier medium, this positive image is to be converted into a negative image in a second process step. Like the positive image, the negative image has light and dark areas, the light and dark areas of the negative image being offset such that dark areas of the negative image are opposite light areas of the positive image and vice versa. The negative image obtained by converting the positive image can then be applied to the back of the carrier medium either directly or indirectly in a manner known per se using screen printing technology.

According to a special method step, it is provided that the positive image is converted into a digital grayscale image prior to conversion into a negative image. This conversion step is advantageous in that it enables softer transitions between dark and light areas to be formed, as a result of which a uniform illumination of the carrier medium appears as a result.

According to a further feature of the method, the negative image is post-processed with regard to brightness, contrast, gradation and / or sound separation. In this way, discrepancies in the negative image can advantageously be smoothed, which consequently results in an improved illumination result of the carrier medium.

According to an alternative implementation of the method, it is proposed that the shading to be printed is a negative image of the illuminance distribution, for the preservation of which the appearance of an unprinted and lighted carrier medium is digitally recorded as an actual image and with a predeterminable target image is compared. In this alternative implementation of the method, it is provided that an actual image is compared with a target image and a comparison image is created from this, which is then printed on the back of the carrier medium. The actual image produced by the lighting device is then corrected when the carrier medium is in use by the comparison image applied to the back of the carrier medium, so that the desired target image is set on the front of the carrier medium.

In order to record the actual image, the appearance of an unprinted carrier medium which is exposed to light must be recorded photographically, preferably digitally. The target image can be freely specified and results, for example, from the view of a homogeneously illuminated carrier medium, which can be achieved by a sufficient spacing of the illumination device from the carrier medium that cannot be implemented for practical use. As soon as the actual image and the target image are completed, they can be compared with one another to determine a comparison image.

According to a further alternative implementation of the method, the invention proposes that the shading to be printed is a negative image of the illuminance distribution, for the preservation of which the light conditions on the side facing the illuminating device in the state of use of the carrier medium are detected and converted into a negative image. In this process implementation, the illuminance is determined as a function of location on the back of the carrier medium by means of appropriate measuring devices. From these illuminance values, a negative image can then be calculated, which is printed on the back of the carrier medium in the manner described above.

With regard to the carrier medium of the object it is proposed a material produced according to the inventive method carrier medium for the replaceable arrangement of, in particular light-transmitting information carriers with the invention to the solution, which is characterized in that at least one surface of the support medium with a corresponding to the illuminance distribution of the information carrier and the carrier medium shading formed by light illuminating means is provided. The side facing away from the information carrier in the installed state is preferably shaded. The shading is preferably produced by printing.

The special feature of the carrier medium according to the invention lies in the shaded rear side, that is to say the side which, when the carrier medium is in use, faces the lighting device. The carrier medium is printed with a shade corresponding to the illuminance distribution, which can effectively counteract the formation of a contrast on the front of the carrier medium. The shading printed on the back of the carrier medium consists of alternating dark and light regions, dark regions being provided at all those points of the carrier medium which are exposed to high illuminance. On the other hand, those areas of the carrier medium that are only exposed to a low illuminance are printed with very little shading. The shading printed on the back of the carrier medium therefore represents a negative image of the illuminance distribution.

The carrier medium according to the invention advantageously allows an almost uniform and homogeneous illumination of the information carrier arranged on the carrier medium. The contrast areas occurring in the case of a flat design due to inhomogeneous illumination of the back of the carrier medium can be compensated for by the imprint provided on the back of the carrier medium in such a way that overlap of both contrast profiles, that is to say the contrast created by the illumination on the one hand and that by the On the other hand, the printed contrast on the back of the carrier medium creates a homogeneously illuminated information carrier. Without visual impairment, such an illuminated information carrier can clearly be seen by the viewer.

With the carrier medium according to the invention, therefore, in spite of an inhomogeneous backlighting or backlighting of the carrier medium which results in a flat design, one on the front side of the carrier medium homogeneous lighting impression are created, so that it is advantageously possible to ensure a close arrangement of the carrier medium and the lighting device and thus to achieve an overall compact and smaller design compared to the prior art. The downsizing of the design is not bought with the disadvantage of obtaining shades on the front of the carrier medium, because these can be prevented in the manner described above by the shading printed on the back of the carrier medium.

According to a further feature of the invention, the carrier medium is an opal disc. The use of an opal glass has proven to be particularly advantageous due to its milky appearance and the resulting translucent effects. In addition to an opal lens, other lens shapes are of course also possible. The only decisive factor is that the pane on its rear side, that is to say the side facing the lighting device, can be printed with the shading described above.

According to a further feature of the invention, the shading is applied by means of screen printing. Screen printing is particularly advantageous with regard to mass production, with white and / or silver pigments for forming the shading being applied to the back of the carrier medium in accordance with corresponding specifications in the screen printing process known per se. The use of white and / or silver pigments has the advantage that they represent a barrier in terms of shading with regard to the light striking the back of the carrier medium, but that these pigments are not perceived from the front, that is to say from the perspective of a viewer can be. This advantageously ensures that the shading applied to the back of the carrier medium has the effect of homogeneous illumination of the information carrier, but that the applied shading is itself imperceptible to the viewer. A mixture of a transparent carrier material, for. B. a resin, and white and silver pigments used.

The invention also proposes a housing with a housing box having a housing base and housing walls and closable with at least one transparent housing cover, a lighting device arranged inside the housing box and a transparent carrier medium arranged next to the housing cover while leaving a gap, the carrier medium being on the lighting device facing side is printed with a shade corresponding to the illuminance distribution.

The housing according to the invention advantageously serves to illuminate information carriers arranged on the carrier medium uniformly and homogeneously. In contrast to the housing devices known from the prior art, the housing according to the invention enables uniform and homogeneous backlighting of the information carrier arranged on the carrier medium even with a constant or, in particular, flatter design. An inadequate illumination and thus not presenting the information carrier in a visually appealing form can thus be avoided using the housing according to the invention. Both the manufacture and the handling of the housing are extremely simple and do not require any additional manufacturing or handling steps, as is the case, for example, with the "edge light" housings known from the prior art.

According to a further feature of the invention, in the case of a design provided on one side for information carriers, the side of the housing base facing the lighting device is provided with a light-reflecting coating. This achieves an overall better light distribution within the housing box, with light rays that are not directed directly onto the back of the carrier medium also being reflected and thus indirectly directed onto the carrier medium.

According to a further feature of the invention, the lighting device is formed from a multiplicity of illuminants arranged next to one another, preferably fluorescent tubes. The use of fluorescent tubes has changed proven to be particularly inexpensive and also advantageous in terms of the lighting result to be achieved.

According to a further feature of the invention, the housing box can be closed tightly against weather influences. This allows the housing boxes according to the invention to be arranged outside as well.

Fig. 1

in einer teilgeschnittenen Seitenansicht ein mit einem erfindungsgemäßen Trägermedium versehenes erfindungsgemäßes Gehäuse und

Fig.2

das erfindungsgemäße Trägermedium zu unterschiedlichen Zeitpunkten der Durchführung des erfindungsgemäßen Verfahrens, wobei Fig. 2a ein Positiv-Bild, Fig. 2b ein Graustufen-Bild, Fig. 2c ein Negativ-Bild und Fig. 2d ein nachbearbeitetes Bild zeigt.

Further features and advantages of the invention result from the description with reference to the figures. Show:

Fig. 1

in a partially sectioned side view of a housing provided with a carrier medium according to the invention and

Fig.2

the carrier medium according to the invention at different times when the method according to the invention is carried out, FIG. 2a showing a positive image, FIG. 2b showing a grayscale image, FIG. 2c showing a negative image and FIG. 2d showing a post-processed image.

1 shows a housing box 1. This consists of housing walls 2 and a housing base 3. In the interior of the housing box 1, a lamp 4 is arranged, which is fastened to the housing base 3 by means of corresponding holders 5. The housing box 1 is closed by a housing cover 6, seals between the housing box 1 and the housing cover 6 preferably not being shown in the figure, so that the housing box 1 closed with the housing cover 6 is weatherproof.

Provided within the housing box 1, leaving a gap space 12, is a carrier medium 8 which is arranged next to the housing cover 6 and which, according to this exemplary embodiment, is an opal glass pane. An information carrier 7, for example in the form of an advertising space, is arranged in the gap space 12 between the housing cover 6 and the carrier medium 8. The housing cover 6 is transparent and thus gives a clear view of the information carrier 7 arranged between housing cover 6 and carrier medium 8.

For uniform and visually appealing illumination of the information carrier 7 over its entire surface, the carrier medium 8 is printed on its side 9 facing the illuminating device 4 with a shade designed to correspond to the illuminance distribution of the illuminating device 4. It is preferably a negative image of the illuminance distribution, so that the carrier medium 8 connected upstream of the information carrier 7 in the direction of the light 11 compensates for the uneven illumination distribution with the aim that an overall uniform light distribution on the front side of the information carrier 7 prevails. In this way, an optimized illumination of the information carrier 7 can advantageously be achieved without contrast differences, ie dark and light areas alternating in a disruptive manner, forming on its front side.

The figures 2a to 2d show, in successive method steps, the formation of a printed image 16 which is printed on the back of the carrier medium 8 described above. According to a first method step, the illuminance distribution of the illuminating device consisting of several fluorescent tubes in this exemplary embodiment is recorded digitally as a positive image 14. For this purpose, the housing box 1 according to FIG. 1 is equipped with a non-printed carrier medium 8 and photographed in a dark room after the lighting device has been switched on. The resulting positive image 14 is shown in FIG. 2a. To create a negative image 13, the positive image is now brought to the appropriate format size in a first step and converted into a grayscale image 15. The distances between the individual fluorescent tubes of the lighting device and the ratio of gross to net format are checked. In a further method step, the conversion of the grayscale image 15 into the negative image 13, which is shown in FIG. 2c, then takes place. This negative image is then post-processed in a further process step, with brightness, contrast, gradation, tone separation and the like being able to be adapted as desired. The printed image 16 shows Fig. 2d. This is now applied to the completion of the carrier medium 8 according to the invention by means of the screen printing method known from the prior art on the back of the carrier medium 8 facing the lighting device.

LIST OF REFERENCE NUMBERS

1

housing case

2

housing wall

3

caseback

4

lighting device

5

holder

6

housing cover

7

information carrier

8th

transfer medium

9

back

10

page

11

light

12

gap

13

Negative image

14

Positive image

15

Grayscale image

16

print image

Claims (22)

Method for one-sided printing of a transparently designed carrier medium (8), in particular an opal disc, with a shading which corresponds to the distribution of illuminance of a lighting device (4) which illuminates the carrier medium (8) in the use state with light (11), in the case of which white and / or silver pigments are applied to the side (9) of the carrier medium (8) to be printed. A method according to claim 1, characterized in that the carrier medium (8) is printed directly. A method according to claim 1, characterized in that a film to be applied to the carrier medium (8) is printed. Method according to one of claims 1 to 3, characterized in that the shading to be printed is a negative image (13) of the illuminance distribution, for the preservation of which the illuminance distribution is digitally recorded in a first method step as a positive image (14) and in one second process step is converted into a negative image (13). Method according to claim 4, characterized in that the positive image (14) is converted into a digital grayscale image (15) before conversion into a negative image (13). Method according to claim 5, characterized in that the negative image (13) is reworked with regard to brightness, contrast, gradation and / or sound separation. Method according to one of claims 1 to 3, characterized in that the shading to be printed is a negative image (13) of the illuminance distribution, for the preservation of which the appearance of an unprinted carrier medium (8) exposed to light (11) is obtained. digitally recorded as an actual image and compared with a predefinable target image. Method according to Claim 7, characterized in that, in order to obtain the desired image, a non-printed carrier medium (8) is exposed to homogeneously distributed light and the appearance is recorded digitally. A method according to claim 8, characterized in that the shading to be printed is calculated from a comparison between the actual and target image. Method according to one of claims 1 to 3, characterized in that the shading to be printed is a negative image (13) of the illuminance distribution, for the preservation of which the lighting conditions on the side (in the state of use of the carrier medium (8) facing the illumination device (4) 9) detected and converted into a negative image (13). Carrier medium for the interchangeable arrangement of, in particular, translucent information carriers (7), produced by a method according to one of Claims 1 to 10,
characterized,
that the side (9) of the carrier medium (8) facing away from the information carrier (7) is printed with a shade which corresponds to the illuminance distribution of a lighting device (4) which acts on the information carrier (7) and the carrier medium (8) with light (11). Carrier medium according to claim 11, characterized in that it is an opal disc. Carrier medium according to one of claims 11 or 12, characterized in that the shading is applied by means of screen printing. Carrier medium according to one of claims 11, 12 or 13, characterized in that the shading is formed from white and / or silver pigments. Carrier medium according to one of claims 11 to 14, characterized in that the shading is a negative image (13) of the illuminance distribution. Housing with a housing base (3) and housing walls (2) which can be closed with a transparent housing cover (6), a lighting device (4) arranged inside the housing box (1) and a housing cover leaving a gap (12 ) secondary transparent carrier medium (8), in particular produced by a method according to one of claims 1 to 10, characterized in that the carrier medium (8) on its side facing the illuminating device (4) (9) with a corresponding to the illuminance distribution of the illuminating device ( 4) trained shading is printed. Housing according to claim 16, characterized in that the carrier medium (8) is an opal disc. Housing according to claim 16 or 17, characterized in that the side (10) of the housing base (3) facing the lighting device (4) is provided with a light-reflecting coating. Housing according to one of claims 16, 17 or 18, characterized in that the carrier medium (8) is interchangeably arranged in the housing box (1). Housing according to one of claims 16 to 19, characterized in that the shading is printed on the carrier medium (8) by means of screen printing. Housing according to one of claims 16 to 20, characterized in that the lighting device (4) is formed from a plurality of lamps arranged next to one another, preferably fluorescent tubes. 2 Housing according to one of claims 16 to 21, characterized in that the housing box (1) can be closed tightly against weather influences.

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