INK JET PRINTER AND PRINTING METHOD FOR PRINTING AN IMAGE WITH MATS AND SHINY IMAGE RANGE

专利摘要:
There is provided a method of printing an image (1) having matte areas (2) and glossy areas (3) by applying an ink to the matte areas (2) by means of the ink jet printing process and curing immediately thereafter. In the glossy areas (3), on the other hand, curing of the same follows immediately after application of the ink. Furthermore, an inkjet printer (40..44) for carrying out said method and its controller (11) are given.
公开号:AT512061A1
申请号:T1530/2011
申请日:2011-10-19
公开日:2013-05-15
发明作者:Christian Dipl Ing Waschnig
申请人:Durst Phototech Digital Tech；
IPC主号:

专利说明:

1
The invention relates to a method for printing an image with matte areas and shiny areas. Furthermore, the invention relates to a controller for an ink jet printer for printing a picture with matte areas and with glossy areas and an ink jet printer with such a control.
An ink jet printer or a printing method for printing an image with matt and shiny areas are basically known. In this case, an intended for the matte image areas ink and another, provided for the glossy image areas ink stored in different tanks and applied by two different printheads. A disadvantage of the known printer or the known printing method is the need for two tanks and two printheads for different ink.
The object of the invention is now to provide an improved printing method, an improved control for an ink jet printer and an improved ink jet printer. In particular, the need for two tanks and two printheads for different ink is to be avoided.
The object of the invention is achieved by a method of the type mentioned above, comprising the steps of
Applications of an ink by means of an ink jet printing process in the matt areas and immediately subsequent curing of the matt areas,
Applications of an ink by means of the inkjet printing process in the glossy areas without immediately following curing of the glaze- N2011 / 28100 2 * · ·
the areas, in particular by deactivating the curing for the shiny areas.
The object is further achieved with a control of the type mentioned above, comprising an output for a curing device, which is activated in the operation of the inkjet printer in the matte areas and deactivated in the shiny areas.
Finally, the object of the invention is achieved by an inkjet printer comprising a printhead for ink and a hardening device which is connected to the above-mentioned controller.
This ensures that an image with matte and glossy areas can be printed without the need for two tanks and two printheads for different ink. In contrast, the applied ink in the matte areas is cured immediately after application. This prevents the ink from running into each other. The ink thus forms a comparatively rough surface, whereby the image areas treated in this way appear dull. On the other hand, in the glossy image areas, the applied ink is not cured or later cured, whereby the ink has enough time to run into each other to form a smooth surface. These image areas therefore appear shiny. For the presented method, therefore, only one type of ink is needed for the glossy and matt image areas. Multi-color printing requires only one ink of each color. The presented inkjet printer is thus particularly simple.
It should be noted that within the scope of the invention an "image" is to be understood as meaning, in particular, a photograph, as well as a graphic in each case with and without text. Furthermore, an "image" is to be understood as pure text. For the interests of the invention, it is irrelevant in which format the image to be printed is transmitted to the printer. For example, a text can be transmitted in ASCI format or in pixel format. Similarly, a graphic in vector format or also in pixel format can be transmitted. N2011 / 26100 • ♦ 3 • · · * · «« ··· · · ·· ·· * «
Advantageous embodiments and developments of the invention will become apparent from the dependent claims and from the description in conjunction with the figures. It is advantageous if the printhead for the ink, a curing device is tracked and the curing device is activated in the matte areas and deactivated in the shiny areas. In this way, the just applied areas can be selectively hardened or not.
It is advantageous if the matt areas are printed in one direction of movement of the print head and the glossy areas in the other direction of movement of the print head. As a result, a curing device needs to be provided only on one side of the print head. The structure of such ink jet printer is therefore comparatively compact.
It is also advantageous if a line feed occurs when the matte areas and the glossy areas of a line have been printed. In this variant, therefore, one line is printed before a line feed takes place. In this way, the substrate is moved only in one direction under the print head or the print heads over the substrate. The expression becomes so very accurate.
It is advantageous if the curing takes place with the aid of a UV lamp. As a result, the ink can be cured with relatively simple and also proven technical means. The inkjet printer can thus be easily put into practice and is also very reliable.
It is advantageous in this context if the curing takes place by activating the UV lamp. Accordingly, the curing device of the inkjet printer is formed in this case by a UV lamp, wherein the activation of the curing device is effected by switching on the UV lamp. In the matte areas, the UV lamp is turned on, turned off in the shiny areas. N2011 / 28100 4 4 • · ♦ ··· φ • · »· • · ·· #«
Alternatively, in an advantageous variant, it is also conceivable that the curing takes place by opening a diaphragm arranged downstream of the UV lamp in the beam direction. Accordingly, the curing device of the inkjet printer is formed by a UV lamp with a downstream in the beam direction diaphragm, wherein the activation of the curing device is effected by opening the aperture. In this variant, the UV lamp can remain switched on permanently. In the matte areas, said aperture is opened so that the UV light can strike the applied ink, in the shiny areas it remains closed so that the UV light is kept away from the applied ink. Moreover, it is favorable if the curing takes place with the aid of a harder sprayed on or applied in an ink-jet printing process. Accordingly, the curing device of the ink jet printer is formed by a pressure or spray head for a curing agent, wherein the activation of the curing device is carried out by application of the curing agent. Hardener is applied in the matt areas, but not in the shiny areas. For this purpose, an ink is used, the drying process can be accelerated by a hardener. The hardener can be applied with a printhead which has the same structure as the printhead for the ink. Alternatively, the hardener may also be applied with a spray head of a simpler design than the printhead, which can selectively spray the matt areas, but in which this area is greater than a pressure point. Alternatively, it would also be conceivable that a substance is applied, which retards the curing of the ink. By analogy with the above, this substance is not applied in the glossy areas in the mats.
It is particularly advantageous if a distance between the print head for ink and the curing device can be varied. By varying the temporal spacing between the printhead and the curing device, the degree of gloss of the mattable regions can be controlled. If the distance between the printhead and the curing device is long, the ink will have more time to flow into one another and accordingly form a comparatively smooth surface. These areas appear 1/28100 5
Therefore not completely dull but not completely shiny, but rather shiny. If the distance between the print head and the curing device is short, the ink has less time to flow into each other and accordingly forms a comparatively rough surface. Therefore, these areas do not appear completely dull and not completely shiny, but rather dull.
It is also particularly advantageous if a movement speed of the print head for ink and the curing device can be varied. This is another way to control the degree of gloss of the applied ink. As a result, the ink again has more or less time to run into each other. It is also conceivable that a distance between the print head and the hardness device and the speed of movement thereof be varied in order to cover a particularly wide range of the gloss level of the image areas.
It is advantageous if the curing device is arranged adjacent to the print head for ink in a direction of movement of the print head and this is movable by a common drive for the curing device and the print head. In this way, the printhead and the curing device are always moved synchronously. Because only one drive is required for their movement, the inkjet printer can be made particularly compact.
It is also advantageous if the curing device can be coupled to the print head for ink and this can be moved by a common drive for the curing device and the print head. Instead of firmly connecting the printhead and the curing device, the curing device can be coupled to the printhead by means of a clutch as needed. Advantageously, the hardness-teeinrichtung can be decoupled when printing only glossy images, which then only smaller masses must be moved. The expression can accordingly be faster, or the mechanics of the printer is less stressed. The clutch can in particular also be constructed so that the hardening device can be coupled at different distances to the print head. For example, on the printhead to a strip with a series N2011 / 28100 6 6 9 ¬ be provided ♦ ············ holes from which have different distances to the printhead and in which a pin of the curing device engages. Of course, the strip could also be mounted on the curing device and engage a pin of the printhead in one of said holes. It is also conceivable, for example, that the distance between the print head and the hardening device is varied by means of a threaded spindle.
Finally, it is advantageous if the curing device and the print head for ink can be moved by separate drives. In this way, a coupling between the print head and the curing device can be omitted. In addition, a distance between the printhead and the curing device in this variant can be varied particularly well to control the degree of gloss of the ink applied.
It should be noted at this point that the variants mentioned for the method and the resulting advantages are mutatis mutandis applicable to the control of the inkjet printer and the inkjet printer and vice versa.
For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
FIG. 1 shows the matt image areas of an exemplary image; FIG.
Fig. 2 shows the glossy image areas of the image of Fig. 1;
Fig. 3 shows the complete picture partially shown in Figs. 1 and 2;
4 shows an exemplary and schematically illustrated inkjet printer in plan and elevation;
FIG. 5 shows the printer from FIG. 4 in a first operating state in which the matt image areas are printed; FIG.
Fig. 6 as Figure 5, only with a different position of the print head and the curing device. N2011 / 28100 7 ··· Μ
FIG. 7, like FIG. 5, only with the print head and the curing device on the right edge of the substrate; FIG.
FIG. 8 shows the printer from FIG. 4 in a second operating state in which the glossy image areas are printed; FIG.
Fig. 9- as Fig. 8, only with the print head and the curing device on the left edge of the substrate;
Fig. 10 shows a printer where the curing device can be parked and the print head moved alone;
11 shows a printer in which the hardening device and the printing head can be moved independently of one another;
FIG. 12 shows a printer in which the hardening device and the print head form a structural unit; FIG.
FIG. 13 shows a printer in which hardening device is formed by a pressure or spray head for a hardener, and FIG
14 shows an exemplary inkjet printer with a shutter for a UV lamp and an explicitly shown control.
By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, wherein the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and are to be transferred to the new situation mutatis mutandis when a change in position. Others may also represent individual features or combinations of features from the illustrated and described different embodiments for themselves, inventive or inventive solutions. N2011V28100 All information on ranges of values in the physical description should be understood to include any and all sub-ranges thereof, e.g. is the statement 1 to 10 to be understood that all sub-areas, starting from the lower limit 1 and the upper limit 10 are included, ie. all subregions begin with a lower limit of 1 or greater and end at an upper limit of 10 or less, e.g. 1 to 1.7, or 3.2 to 8.1 or 5.5 to 10.
Figures 1 to 3 show an exemplary image 1 with matte areas 2 and shiny areas 3. In Fig. 1, only the matte areas 2 of the image 1, specifically a house and the landscape in the foreground, shown. FIG. 2 shows only the glossy regions 3 of the image 2, specifically the clouds and an exemplary text. Finally, FIG. 3 shows the complete picture 2.
4 shows an exemplary and purely schematically illustrated ink jet printer 40 in plan and elevation. Over a substrate 5, for example a sheet of paper, the print head 6 for ink and a curing device 7, which is formed in this example as a UV lamp, are arranged. The print head 6 and the curing device 7 are movably mounted on a bridge 8. As a result, they can be moved or moved transversely to the substrate 5 (that is to say in FIG. 4 in relation to the plane of the drawing in the horizontal direction). The bridge 8 itself is displaceable in a longitudinal direction of the substrate 5 (ie in FIG. 4 in relation to the plane of the vertical direction). As a result, the print head 6 and the curing device 7 are displaceable or movable longitudinally and transversely to the substrate 5.
In a method for printing an image 1 with matte areas 2 and shiny areas 3, the following steps are now carried out:
Applications of an ink by means of an ink jet printing process in the matt areas 2 and immediately subsequent curing of the matt areas 2,
Injections of an ink by means of the inkjet printing process in the shiny areas 3 without immediately following subsequent curing of the same. N2011 / 28100 ••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• ft. Zenden areas 3, in particular by deactivating the curing of the shiny areas. 3
For example, the printhead 6, the curing device 7 are tracked, wherein the curing device 7 is activated in the matte areas 2 and deactivated in the shiny areas 3. Preferably, the matte portions 2 are printed in a moving direction of the printing head 6 and the glossy portions 3 in the other moving direction of the printing head 6. FIGS. 5 to 9 show an exemplary sequence of movements of the ink-jet printer 40, wherein the matt areas 2 are printed from left to right, while the gloss areas are printed from right to left. Of course, the matte areas 2 can also be printed from right to left and the glossy areas from left to right.
In Fig. 5, the printing head 6 starts the curing device 7 at the left edge of the substrate 5. In this case, ink is applied by the ink-jet printing method in a manner known per se. In addition, the curing device 7 acting as UV lamp is activated. By the synchronous movement of the print head 6 and the UV lamp 7, the currently applied ink is cured by the UV lamp 7. Since the ink is not given sufficient time to flow into one another and thus form a smooth surface, these image areas 2 appear dull.
Fig. 6 shows the inkjet printer 40 at a later time. The UV lamp 7 has thus already swept over the image areas on the left edge of the substrate 5 and thus cured.
FIG. 7 shows the ink jet printer 40 at an even later point in time when the print head 6 and the hardening device 7 have reached the right edge of the substrate 5. As a result, the direction of movement of the print head 6 and the hardener 7 is reversed to print the glossy areas 3. During this return movement, the UV lamp 7 is deactivated. Thus, the ink is not hardened immediately after application and thus can flow into each other and form a substantially smooth surface. These image areas 3 therefore appear shiny. N2011 / 28100
FIG. 8 shows the ink jet printer 40 at a later time when the print head 6 and the curing device 7 have reached about the center of the substrate 5. FIG. 6 shows the ink jet printer 40 at an even later point in time when the print head 6 and the hardening device 7 have reached the left edge of the substrate 5. Thereafter, the bridge 8 is shifted by one line in the longitudinal direction of the substrate 5 and the sequence shown in Figures 5 to 9 begins again. This sequence is repeated until the complete image 1 is printed.
It is also conceivable in the sequence illustrated in FIGS. 5 to 9 that the UV lamp 7 remains switched on during the entire printing process-that is to say even when the glossy image areas 3 are printed-provided that the area illuminated by the UV lamp 7 is so small in that the pressure range of this is not or only slightly influenced. As a result of the fact that the UV lamp 7 precedes the print head 6 when the glossy image areas 2 are printed, the ink has sufficient time to flow into each other, even when the UV lamp 7 is activated.
It should also be noted at this point that the hardening device 7 does not necessarily have to be designed to be movable. Instead, it may also be rigidly mounted in the ink jet printer 40 and illuminate an area comprising at least one printed line. In this case, the curing device 7 (ie in this particular example the UV lamp 7) is activated only when printing the matt image areas 2, while the printing of the glossy image areas 3 is deactivated.
In an advantageous variant, the curing device 7 additionally influences not only the currently printed line, but also the line printed before the last line feed. In this way, it is achieved that the glossy image areas 3 of the last line are also hardened during the printing of the matt image areas 2 of the current line. Thus, the glossy Bitdbereiche 3 are cured, but much later than the matt image areas. 2
Of course, the matte image areas 2 and the glossy image areas 3 can also be used in a direction of movement of the print head 6 and the hardness setting device N2011 / 28100 11 * * * * * * m • ♦ ······· Φ «* e * 9 • • »* • • • * * • • * • • · * * ··· ·· 4. In this case, for example, the matt image areas 2 are printed in a first pass, the print head 6 and the curing device 7 are subsequently moved to the starting position and the glossy image areas 3 are printed in a second pass. This is followed by a line feed. It is advantageous if first the glossy image areas 3 and then the matt image areas 2 are printed. In a first pass, the glossy image areas 3 are printed, for example once again from left to right, when the curing device 7 is deactivated. In a second pass, the matt image areas 2 are printed with hardening device 7 activated-also from left to right. It is thereby achieved that the hardening device 7 also passes over and thus hardens the glossy image areas 3, but again significantly later than the matt image areas 2. In this case, the curing device 7 does not need to influence the last printed line (ie, that before the last line feed) ,
In FIGS. 5 to 9, it has been assumed that the print head 6 and the hardening device 7 are coupled to one another. On the one hand, this can be realized in such a way that the print head 6 and the hardening device 7 are permanently connected to one another, or can be coupled to each other as required by means of a coupling.
The curing device 7 can thus be arranged adjacent to the print head 6 for ink in a direction of movement of the print head, this being movable by a common drive (not shown in FIGS. 5 to 9) for the curing device 7 and the print head 6. Alternatively, the curing device 7 may be coupled to the print head 6 for ink, which are movable by a common drive.
10 now shows a situation in which the print head 6 is moved alone, whereas the UV lamp 7 remains in a parking position. Consequently, images or image areas 3 with only a glossy surface can be printed in this operating state. If the UV lamp 7 is required for even matt pictures N2011 / 28100 44 44 4 »4 4 44 4 444 4 4 44 * 4 4 • • • 4 • 44 # 44 • • 4 4 • • • 4 4 4 * 4 * 4 x 4 x 4 x 9 4 4 444 4 12 or image areas 2 to print, the print head 6 moves to the UV lamp 7 where the two are coupled together by a coupling (not shown).
Alternatively, it is also conceivable that the curing device 7 and the print head 6 are movable by separate drives. This situation is shown in FIG. 11. At a certain distance, the UV lamp 7 travels to the print head 6, assuming that the hardener 7 and the print head 6 are moved at the same speed. The UV lamp-7 therefore starts the movement a little later.
By varying the (temporal) distance between the print head 6 and the curing device 7, the degree of gloss of the matt image areas 2 can now be controlled. If the distance between the print head 6 and the curing device 7 is large, the ink has more time to merge to flow and accordingly to form a comparatively smooth surface. These areas therefore do not appear completely dull but not completely glossy, but rather shiny. If the distance between the print head 6 and the curing device 7 is small, the ink has less time to flow into each other and accordingly forms a comparatively rough surface. Therefore, these areas do not appear completely dull and not completely shiny, but rather dull. In particular, running transitions between matt image areas 2 and glossy image areas 3 can be generated in this way.
In the above example, it has been assumed that the print head 6 and the curing device 7 are moved by separate drives. However, this is by no means mandatory for the production of semi-matt or semi-glossy image areas. Alternatively, it is conceivable that the hardening device 7 is coupled to the print head 6 at a variable (local) distance. Also in this case, the ink applied by the print head 6 is sooner or later hardened. It is conceivable that this distance is predetermined by a printer control or manually adjustable.
A further possibility for varying the gloss level of the image areas 2, 3 is that a movement speed of the print head 6 and the hardness N2011 / 28100 teeinrichtung 7 is variable. As a result, the ink again has more or less time to run into each other. The print head 6 and the curing device 7 can be moved by a common or by separate drives. In addition, it is conceivable that a distance between the print head 6 and the hardening device 7 and the speed of movement thereof are varied in order to cover a particularly wide range of the degree of gloss of the image areas.
Fig. 12 now shows an ink jet printer 42, wherein the print head 6 and the curing device 7 form a common structural unit and therefore can only be shifted synchronously but also need only a common drive.
FIG. 13 shows a further construction of an ink-jet printer 43, in which instead of the UV lamp a pressure or spray head 9 for a hardener is provided as a hardening device. In this case, the curing of the ink takes place with the aid of a sprayed or ink-jet-applied hardener. For this purpose, an ink is used, the drying process can be accelerated by a hardener. The production of matt image areas 2 and glossy image areas 3 takes place analogously to the above-mentioned process variants. Instead of turning a UV lamp on or off, image areas are sprayed with a hardener or not. Alternatively, it would also be conceivable that a substance is applied, which retards the curing of the ink. In analogy to the above, this substance is applied in the shiny areas 3, but not in the matt areas 2.
FIG. 14 shows a further variant of an ink-jet printer 44, in which the hardening device 3 is formed by a UV lamp 7 with a diaphragm 10 connected downstream in the beam direction. The UV lamp 7 can therefore remain permanently switched on, the activation of the hardening device 3 or the selective hardening of image areas, on the other hand, takes place by opening the panel 10.
In addition, FIG. 14 shows a controller 11 for the inkjet printer 44, which comprises an output for the curing device 3. Specifically, the controller 11 drives the shutter 10, that is, activates (open) in the mat-ready / 2 & 100 14 areas and deactivates (closed) in the glossy areas. In addition, the controller 11 includes outputs for the print head 6 and the common drive 12.
Of course, the controller 11 is not only replaceable for an ink jet printer 44 with a diaphragm 10, but also for the variants shown in the preceding figures. For this purpose it is noted that equally positive logic or negative logic can be replaced for the activation of the hardening device 7. That is, activation of the curing device 7 may be associated with a positive logic level at the output of the controller 11 or at a negative logic level.
Finally, it is noted that the longitudinal feed does not necessarily have to take place by means of a bridge 8 which can be moved relative to a stationary substrate 5. Equivalently, it is also conceivable that the substrate 5 is transported relative to the print head 6 which is fixed in the longitudinal direction. Of course, the transverse and longitudinal directions of the substrate 5 are exchangeable, that is, the substrate 5 can also be printed in landscape format. Suitable substrates 5 are all printable materials, in particular paper, films and fabrics, tarpaulins and the like. Although it has been assumed in the foregoing examples that the matte image areas 2 and the glossy image areas 3 are mutually exclusive, it is also conceivable that the aforementioned areas 2 and 3 overlap each other.
The embodiments show possible embodiments of an ink jet printer according to the invention 40..44 respectively its controller 11 and its operating method, it being noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but rather also various combinations of the individual embodiments with each other possible and this possibility of variation is due to the doctrine of technical action by objective invention in the skill of those skilled in this technical field. So there are also all conceivable design variants, by combinations of individual details N2011 / 28100 15
the illustrated and described embodiment variant are possible, encompassed by the scope.
In particular, it is noted that inkjet printers 40..44 as well as its controller 11 may in reality also comprise more components than illustrated and / or be of a different design.
For the sake of order, it should finally be pointed out that, for a better understanding of the structure of the inkjet printers 40... 44, these or their components have been shown partially unevenly and / or enlarged and / or reduced in size.
The task underlying the independent inventive solutions can be taken from the description. N2011 / 28100 • * * * * * * * * * * * * *····················································································································································································
Reference Figure 1 Figure 2 Mild Area 3 Glossy Area 40..44 Illuminated Area Identifier 5 Substrate 6 Printhead for Ink 7 Hardening Device (UV Lamp) 8 Bridge 9 Hardening Device (Spray Head) 10 Aperture 11 Control 12 Drive Motor N2011 / 28100

权利要求:
Claims (18)
[1]
1 1

1. A method of printing an image (1) with matte areas (2) and shiny areas (3), characterized by the steps of applying an ink by means of the ink jet printing method in the matte areas (2) and immediately thereafter curing the matte areas (2), applying an ink by means of the ink jet printing method in the glossy areas (3) without immediately following curing shiny areas (3).
[2]
2. The method according to claim 1, characterized in that a printing head (6) for the ink, a curing device (7, 9) is tracked and the curing device (7, 9) in the matte areas (2) activated and in the shiny areas ( 3) is deactivated.
[3]
3. The method according to claim 1 or 2, characterized in that the matte areas (2) in a direction of movement of the print head (6) and the shiny areas (3) in the other direction of movement of the print head (6) are printed.
[4]
4. The method according to any one of claims 1 to 3, characterized in that a line feed takes place when the matte areas (2) and the shiny areas (3) of a line were printed.
[5]
5. The method according to any one of claims 1 to 4, characterized in that the curing takes place with the aid of a UV lamp (7). N2011 / 28100 2
[6]
6. The method according to claim 5, characterized in that the curing takes place by activating the UV lamp (7).
[7]
7. The method according to claim 5, characterized in that the curing by opening one of the UV lamp (7) in the beam direction downstream aperture (10).
[8]
8. The method according to any one of claims 1 to 4, characterized in that the curing takes place with the aid of a sprayed or applied by ink jet printing method hardener.
[9]
9. The method according to any one of claims 1 to 8, characterized in that a movement speed of the print head (6) for ink and the curing device (7, 9) is variable.
[10]
10. The method according to any one of claims 1 to 9, characterized in that a distance between the print head (6) for ink and the curing device (7, 9) is variable.
[11]
11. A controller for an inkjet printer (40..44) for printing an image (1) with glossy areas (3) and matte areas (2), characterized by an output for a curing device (7, 9), which in operation of the inkjet printer (40..44) is activated immediately after application of the ink in the matt areas (2) and deactivated in the shiny areas (3).
[12]
12. An inkjet printer (40..44), comprising a print head (6) for ink, characterized by a hardening device (7, 9) which is connected to a controller (11) according to claim 11. N2011 / 28100 3


[13]
13. An ink jet printer (40..44) according to claim 12, characterized in that the hardening device (7, 9) is arranged adjacent to the print head (6) for ink in a direction of movement of the print head (6) and this by a common drive (12 ) for the curing device (7, 9) and the print head (6) is movable.
[14]
14. inkjet printer (40..44) according to claim 12, characterized in that the curing device (7, 9) with the print head (6) for ink can be coupled and this by a common drive (12) for the curing device (7, 9 ) and the print head (6) is movable.
[15]
15. inkjet printer (40..44) according to claim 12, characterized in that the hardening device (7, 9) and the print head (6) for ink by separate drives are movable.
[16]
16. inkjet printer (40..44) according to any one of claims 12 to 15, characterized in that the hardening device is formed by a UV lamp (7) and the activation is carried out by turning on the same.
[17]
17. inkjet printer (40..44) according to one of claims 12 to 15, characterized in that the curing device is formed by a UV lamp (7) with a downstream in the beam direction diaphragm (10) and the activation by opening the diaphragm ( 10).
[18]
18. inkjet printer (40..44) according to any one of claims 12 to 15, characterized in that the curing device is formed by a pressure or N2011 / 28100 spray head (9) for a curing agent and the activation thereof by order of the same. Durst Phototechnik Digital Technology GmbH

Lawyer GmbH N2011 / 26100

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DE102020120411A1|2022-02-03|Device and method for printing a recording medium with a printing device

---

DE102015109161B4|2018-12-13|Method for pretreating a substrate web before printing with printed images in an ink printing device

---

DE102018116376A1|2020-01-09|Method and cover unit for cleaning a printhead

---

DE102006027538A1|2007-12-20|Roller blind`s visible area imprinting method, involves fixing roller blind strips sealingly and combinedly in roller blind plane in pushed condition at time of imprinting, where strips are defined with visible area to be imprinted

同族专利:

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公开号 | 公开日

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US20140340456A1|2014-11-20|

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BR112014009364A2|2017-04-18|

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WO2013056292A1|2013-04-25|

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MX2014004097A|2014-09-22|

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CN104023987A|2014-09-03|

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BR112014009364B1|2021-01-19|

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AT512061B1|2013-07-15|

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CA2848928C|2019-07-30|

---

EP2768673B1|2015-12-30|

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CN104023987B|2016-05-25|

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CA2848928A1|2013-04-25|

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MX341592B|2016-08-26|

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US8944583B2|2015-02-03|

---

ES2566144T3|2016-04-11|

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EP2768673A1|2014-08-27|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

US20090225143A1|2008-03-04|2009-09-10|Takashi Fukui|Image forming apparatus and method|

---

WO2010111121A1|2009-03-27|2010-09-30|Electronics For Imaging, Inc.|Selective ink cure|

---

GB2470067A|2009-05-08|2010-11-10|Inca Digital Printers Ltd|Method of printing using a curable printing medium|

---

JP3201674B2|1993-03-26|2001-08-27|キヤノン株式会社|Inkjet printing method and inkjet printing apparatus|

---

US5847729A|1993-06-14|1998-12-08|Canon Kabushiki Kaisha|Ink-jet printing apparatus and method, and printed matter obtained thereby and processed article obtained from printed matter|

---

EP2083404A3|2008-01-24|2010-01-06|Seiko Epson Corporation|Receipt printing processing method, printer and receipt printing processing system|

---

JP5009862B2|2008-06-10|2012-08-22|株式会社リコー|Printing apparatus, printing system, and program|

---

CN102131643B|2008-08-21|2013-09-25|罗兰Dg有限公司|Ink jet type recording device and computer program|

---

JP2010173286A|2009-02-02|2010-08-12|Ricoh Co Ltd|Recording method, ink, and media|DE102015207450A1|2015-04-23|2016-10-27|Koenig & Bauer Ag|Printing machine with at least one printing unit and at least one dryer unit and a method for operating a printing press|

---

US10279614B2|2015-10-30|2019-05-07|Nike, Inc.|Adjustable gloss level for printing|

---

US10589506B2|2015-10-30|2020-03-17|Nike, Inc.|Adjustable gloss level for compact printhead arrangement|

---

JP2017128066A|2016-01-21|2017-07-27|キヤノン株式会社|Gloss control device, gloss control method, and program|

---

JP6674863B2|2016-08-10|2020-04-01|株式会社ミマキエンジニアリング|Printing apparatus and printing method|

---

JP6514261B2|2017-04-18|2019-05-15|ローランドディー．ジー．株式会社|Ink jet printer and printing method|

---

JP6563436B2|2017-04-18|2019-08-21|ローランドディー．ジー．株式会社|Inkjet printer|

---

DE102018210836A1|2017-08-08|2019-02-14|Heidelberger Druckmaschinen Ag|Device for printing and drying of printing material|

---

JP2019217760A|2018-06-15|2019-12-26|株式会社リコー|Inkjet printing apparatus, inkjet printing method, and glossiness control method of printed image|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA1530/2011A|AT512061B1|2011-10-19|2011-10-19|INK JET PRINTER AND PRINTING METHOD FOR PRINTING AN IMAGE WITH MATS AND SHINY IMAGE RANGE|ATA1530/2011A| AT512061B1|2011-10-19|2011-10-19|INK JET PRINTER AND PRINTING METHOD FOR PRINTING AN IMAGE WITH MATS AND SHINY IMAGE RANGE|

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BR112014009364-4A| BR112014009364B1|2011-10-19|2012-10-17|inkjet printer and image printing process with matte and glossy image areas|

---

PCT/AT2012/050165| WO2013056292A1|2011-10-19|2012-10-17|Ink jet printer and printing method for printing an image having matt and glossy image areas|

---

MX2014004097A| MX341592B|2011-10-19|2012-10-17|Ink jet printer and printing method for printing an image having matt and glossy image areas.|

---

EP12805556.3A| EP2768673B1|2011-10-19|2012-10-17|Ink jet printer and printing method for printing an image having matt and glossy image areas|

---

CA2848928A| CA2848928C|2011-10-19|2012-10-17|Ink jet printer and method of printing an image having matt and glossy image areas|

---

CN201280048496.9A| CN104023987B|2011-10-19|2012-10-17|For printing ink-jet printer and the Method of printing of the image with matt image-region and gloss image-region|

---

US14/344,977| US8944583B2|2011-10-19|2012-10-17|Ink jet printer and printing method for printing an image having matt and glossy image areas|

---

ES12805556.3T| ES2566144T3|2011-10-19|2012-10-17|Inkjet printer and printing procedure for printing an image with matt and bright areas of the image|