Flat foil printing press having foil web and sheet guidance

Abstract

The flat foil printing press comprises an evacuable back-pressure plate (9), with suction regions (15k) which run in the sheet running direction (X) and which are next to embossing regions (16k), in which foil webs (6k) run. The suction regions are subdivided into several suction segments (10i) which are successive in the sheet running direction, and are each connected to a vacuum source (14) by way of a vacuum feed line (12i) via a vacuum switching element (13i). With the running-out of an embossed sheet (5), firstly all suction segments (10i) covered by the sheet are evacuated, and subsequently the suction segments which are no longer covered by the sheet are successively disconnected from the vacuum source. This results in an error-free separation of foil webs and sheets, for a greater picture quality and machine output.

Claims

1. A flat foil printing press with a foil web guidance (2) for several foil webs (6k) and with a sheet guidance (3), characterised by an evacuable back-pressure plate (9) comprising suction regions (15k) which run in the sheet running direction (X) and which have suction openings (22) next to and between embossing regions (16k), in which the foil webs (6k) run, wherein the suction regions (15k) are subdivided into several suction segments (10i) which are successive in the sheet running direction (X) and wherein the suction segments are each connected to a vacuum source (14) via a vacuum switching element (13i) by way of a vacuum feed line (12i) and are controllable, so that after the embossing, firstly all suction segments (10i) covered by the sheet are evacuated, and subsequently, when the embossed sheet (5) runs out, the suction segments (10i) which are no longer covered by the sheet are successively disconnectable from the vacuum source (14).

2. A flat foil printing press according to claim 1, characterised in that the suction regions (15k) in each suction segment (10i) comprise a vacuum chamber (11i) with suction openings (22) and with a connection opening (23) to the corresponding vacuum feed line (12i) and to the vacuum switching element (13i).

3. A flat foil printing press according to claim 1, characterised in that vacuum suction valves are provided as vacuum switching elements (13i) on the vacuum feed lines (12i).

4. A flat foil printing press according to claim 1, characterised in that controlled vacuum switching valves are provided as vacuum switching elements (13i) on the vacuum feed lines.

5. A flat foil printing press according to claim 1, with a control (19) for a switchable and adjustable vacuum source (14).

6. A flat foil printing press according to claim 1, characterised in that the back-pressure plate (9) comprises an upper plate (9a) and a lower plate (9b), wherein the upper plate (9a) comprises suction regions (15k), with vacuum chambers (11i) and with suction openings (22) in each suction segment (10i), and the lower plate (9b) comprises vacuum feed lines (12i) with a connection opening (23) to each vacuum chamber (11i).

7. A flat foil printing press according to claim 6, characterised in that the back-pressure plate (9) as an upper plate (9a), in the suction regions (15k), comprises suction strips (20k) with vacuum chambers (11i) and suction openings (22), as well as a support mask (24) which surrounds the suction strips (20k).

8. A flat foil printing press according to claim 7, characterised in that the suction strips (20k) are adjustable, wherein the support mask (24) is adapted accordingly.

9. A flat foil printing press according to claim 1, characterised in that the vacuum in the suction regions (15k) is switched on given a standstill of the sheet and is switched off after the last suction segment is no longer covered by the running-out sheet.

10. A flat foil printing press according to claim 1, characterised in that the surface of the suction regions (15k) has an increased adhesion to the sheets (5).

11. A flat foil printing press according to claim 1, characterised in that separation air nozzles (34) with compressed air feed lines (35) which, after the embossing, blow an airflow between the foil webs and the sheet as soon as the back-pressure plate is lowered, are arranged on the back-pressure plate at the inlet side, directly behind the sheet (5) and below the foil webs (6k).

12. A flat foil printing press according to claim 1, characterised in that the back-pressure plate comprises a suction region (36) having a vacuum feed line (37) and running in the transverse direction (Y), at the entry side, below the rear edge of the sheet (5).

13. A back-pressure plate for a flat foil printing press with a foil web guidance for several foil webs and with a sheet guidance, characterised in that the back-pressure plate (9) is evacuable by way of suction regions (15k) which run in the sheet running direction (X) and which have suction openings (22) next to and between embossing regions (16k), in which the foil webs (6k) run, wherein the suction regions (15k) are subdivided into several suction segments (10i) which are successive in the sheet running direction (X), and wherein the suction segments are each connected to a vacuum source (14) via a vacuum switching element (13i) by way of a vacuum feed line (12i) and are controllable, so that after the embossing, firstly all suction segments (10i) covered by the sheet are evacuated, and subsequently, when an embossed sheet (5) runs out, the suction segments (10i) which are no longer covered by the sheet are successively disconnectable from the vacuum source (14).

14. A back-pressure plate according to claim 13, characterised in that the back-pressure plate (9) with the vacuum switching elements (13i) is designed in an exchangeable manner.

Description

[0007] The dependent claims relate to advantageous further developments of the invention with further improvements of the sheet guidance, of the back-pressure plate and of the foil web detachment and thus also of the machine output and picture quality. The invention is hereinafter explained in more detail by way of examples and figures. There are shown in:

[0008] FIG. 1 schematically, an evacuable flat foil printing press according to the invention, with a foil web guidance and with a sheet guidance, with a back-pressure plate which comprises suction regions with several suction segments, vacuum feed lines and a vacuum source;

[0009] FIG. 2 schematically, a back-pressure plate with suction regions which are subdivided into several suction segments and which are arranged next to the embossing regions;

[0010] FIG. 3 a back-pressure plate with an upper plate which comprises vacuum chambers with suction openings and with a lower plate with vacuum feed lines;

[0011] FIG. 4a seen from above, a back-pressure plate with three suction segments, with suction strips, support mask, vacuum feed lines and vacuum switching elements;

[0012] FIG. 4b the lower plate of the back-pressure plate, seen from below with vacuum feed lines to the vacuum switching elements;

[0013] FIG. 5a, 5b a back-pressure plate in the longitudinal section through a suction strip of a suction region with five suction segments and with vacuum chambers in an upper plate and with vacuum feed lines in a lower plate;

[0014] FIG. 6 the construction of the example of FIG. 5 with suction strips in seven suction regions with six embossing regions, with suction strips with five suction segments and with a support mask forming embossing regions, in an upper plate and with five vacuum feed lines in a lower plate, as well as a printing table as a support face;

[0015] FIG. 7 a view of a back-pressure plate with suction strips, a surrounding support mask and with a make up in the embossing regions;

[0016] FIG. 8a, b in the example of FIG. 7, an embossed sheet with foil pictures which is applied onto the back-pressure plate, corresponding to the course of the foil webs;

[0017] FIG. 9a,b a back-pressure plate with additional separation air nozzles at the inlet side and with a suction region in the transverse direction.

[0018] FIG. 1 shows a flat foil printing press 1 according to the invention, with a foil web guidance 2 for several foil webs 6k and with a sheet guidance 3 which by way of gripper bars 30 moves sheets 5 from a feeder 31 onto the embossing location on a back-pressure plate 9 of a flat bed press 4 with a printing and tool plate 7 and moves them further onto a delivery means 32 after the embossing procedure.

[0019] The back-pressure plate 9 is evacuable and comprises suction regions 15k which run in the sheet running direction X and which have suction openings 22. These suction regions are arranged next to and between embossing regions 16k, in which the foil webs 6k run (.fwdarw.FIG. 2). The suction regions 15k are subdivided into several suction segments 10i which are successive to one another in the sheet running direction X, wherein the suction segments are each connected to a vacuum source 14 via a vacuum switching element 13i by way of a vacuum feed line 12i and controlled, in a manner such that given a standstill of the embossed sheet 5, firstly all suction segments 10i covered by the sheet are evacuated (by which means the sheet is pressed onto the back-pressure plate 9) and subsequently, with the running-out of the embossed sheet 5, the suction segments 10i which are no longer covered by the sheet are successively disconnectable from the vacuum source 14 (and these suction segments are thus no longer evacuated). With the running-out of the sheet, above all it is also its rear end which is held back by the vacuum in the suction segments, and the sheet is stretched by way of this, so that even thin paper sheets can be kept flat and no creases can form.

[0020] The example of FIG. 1 comprises four suction segments 10.1-10.4 and accordingly also four vacuum feed lines 12.i=12.1-12.4 and four vacuum switching elements 13.i=13.1-13.4. At least two suction segments 10i are provided, preferably also more, e.g. three to five suction segments, depending on the application.

[0021] The vacuum source 14 and its power can also be set or switched on and off by way of a machine control 19.

[0022] A mechanical vacuum pump with a switching valve can be applied as a vacuum source 14 or preferably also a rapidly switchable injector pump. The vacuum in the suction regions 15k can be switched on with this, preferably given a standstill of the sheet 5, and can be switched off after the last suction segment 10i is no longer covered by the running-out sheet.

[0023] The example of FIG. 1 shows a flat foil printing press with a sheet running direction X and a foil web running direction F which are the same. The lowering of the back-pressure plate begins after the embossing and, in a settable manner, shortly thereafter the initial drawing of the foil webs 6k and of the sheet 5. The inventive, evacuable back-pressure plate 9 can likewise also be applied in flat foil printing presses with sheet running directions and foil web running directions which are counter to one another.

[0024] FIG. 2 schematically shows a back-pressure plate 9 with five embossing regions 16k=16.1-16.5, in which the foil webs 6.1-6.5 run, and with six suction regions 15k=15.1-15.6 next to and between the embossing regions. As FIG. 1 shows, this example shows four suction segments 10i=10.1-10.4 which, departing from the sheet end, extend past the middle of the back-pressure plate 9.

[0025] Here, a longer, larger sheet 5.1 covers all suction segments 10.1-10.4, whereas a shorter, smaller sheet 5.2 e.g. now merely covers the suction segments 10.3 and 10.4. The suction segments 10.1 and 10.2 can then be disconnected or covered. For embossing a narrower sheet—e.g. with suction regions 15.1 and 15.6 which are not covered-these can be covered or disconnected.

[0026] The suction segments 10i are connected to the vacuum source 14 via the feed lines 12i and the vacuum switching elements 13i.

[0027] Vacuum suction valves can preferably be applied as vacuum switching elements 13i in the vacuum feed lines 12i.

[0028] However, vacuum switching valves can also be applied.

[0029] Vacuum suction valves are self-controlling. When the suction openings 22 of a suction segment 10i are covered (closed) by a sheet 5, then the vacuum suction valve opens and a vacuum arises in the corresponding suction segment. The vacuum suction valve closes again when the suction segment is no longer covered by a sheet. The vacuum is therefore retained in the suction segments which are still covered.

[0030] Controlled vacuum switching valves can hence be opened and closed by way of the machine control 19 according to adjustable/settable machine rotation angles W, so that the suction segments 10i are evacuated at the desired times.

[0031] As a further example, FIG. 3 shows a part of a back-pressure plate 9 which is at the run-in side, wherein in each suction segment 10i, the back-pressure plate comprises a vacuum chamber 11i with suction openings 22 and with a connection opening 23 to the respective vacuum feed line 12i.

[0032] The back-pressure plate 9 here is divided into an upper plate 9a and a lower plate 9b. In each suction segment 10i, the upper plate 9a comprises vacuum chambers 11i with suction openings 22, and the separate lower plate 9b comprises vacuum feed lines 12i with a connection opening 23 to each vacuum chamber 11i. This division into an upper and a lower plate permits a simple manufacture of the evacuable back-pressure plate 9 according to the invention, said plate lying on the printing table 8.

[0033] FIG. 4a, 4b show a further advantageous embodiment variant of the back-pressure plate 9. According to FIG. 4a, in the suction regions 15k, here an upper plate 9a comprises suction strips 20k which comprise vacuum chambers 11i and suction openings 22, as well as a support mask 24 which surrounds the suction strips 20 in the embossing regions 16k.

[0034] Adjustable suction strips 20k which can be screwed on and which can be displaced according to a changed arrangement (layout) of foil webs 6k or of embossing regions 16k are also particularly advantageous. The support mask 24 here is also accordingly adapted or exchanged.

[0035] FIG. 4b shows the lower plate 9b seen from below, with the vacuum feed lines 12i=12.1-12.3, here visible as open channels which lie on the surfaces of the printing table 8 (shown in FIG. 5a and FIG. 6) and are coved by this surface and which are connected to the vacuum chambers 11i by way of connection openings 23. FIG. 4a, 4b represents an example with seven suction regions 15k=15.1-15.7 and with three suction segments 10i=10.1-10.3 and with just as many vacuum feed lines 12i and vacuum switching elements 13i.

[0036] FIGS. 5a, 5b in a cross section through a suction region 15k show a further example with suction strips 20k, with suction chambers 11i and with a surrounding support mask 24 as an upper plate 9a, here with five suction segments 10i=10.1-10.5, and with vacuum feed lines 12i as well as connection openings 23 in the lower plate 9b.

[0037] FIG. 5b shows an enlarged detail of FIG. 5a.

[0038] The surface of the suction regions 15k or of the suction strips 20k can advantageously have an increased adhesion to the sheets 5. For this, their surface can be designed more roughly than in the embossing regions 16k, or the surface can comprise a rubber coating.

[0039] FIG. 6 illustrates the construction of the example of FIG. 5. The lower plate 9b with the five vacuum feed lines 12.1-12.5 which are connected to the five vacuum switching elements 13i and to the vacuum source 14 lies on the printing table 8. The upper plate 9a with the five suction segments 10.1-10.5 each in the seven suction strips 20k=20.1-20.7 which form the suction regions 15k and with the support mask 24 lies on this lower plate

[0040] FIGS. 7 and 8 show views of a back-pressure plate 9 with six embossing regions 16k=16.1-16.6 and seven suction regions 15k=15.1-15.7 and with suction strips 20k which comprise three suction segments 10i=10.1-10.3, and with a corresponding support mask 24. Here, make ups 42 are evident on the support mask 24, in the embossing regions 16k.

[0041] FIG. 8a, b show a sheet 5 which is embossed by way of six foil webs 6k, with foil pictures 40 as picture strips, said sheet having been applied onto the back-pressure plate 9 in accordance with the course of the foil webs. As to how the finished, printed and embossed sheet is cut to size into individual pictures 41 is also indicated on this sheet. An identical picture from the picture strip 40 must then be present on each individual picture 41 at the same location (specifically in quality and security printing-e.g. for tickets and banknotes).

[0042] This illustrates that an error-free, secure detachment of the foil webs from the sheet after the embossing, without any warping, squashing and dislocation on the part of the foil webs and the sheet is an absolute precondition for challenging embossing tasks and error-free, registered pictures of the highest quality.

[0043] On detachment, the foil web tension and the suction force of the vacuum in the suction segments upon the sheet can also be matched to one another for this.

[0044] FIG. 9a, b show a further example of an evacuable back-pressure plate 9 with additional separation air nozzles 34 beneath the foil webs 6k and with an additional suction region 36 running in the transverse direction Y. The separation air nozzles 34 with compressed air feed lines 35, at the inlet side, are attached to the back-pressure plate directly behind the sheet 5 and below the foil webs 6k, and the suction region 36 with a vacuum feed line 37 is arranged below the rear edge of the sheet 5. After the embossing, the rear sheet end is pressed onto the back-pressure plate 9 by way of evacuation, and compressed air is blown between the foil webs 6k and the sheet 5 with the subsequent lowering of the back-pressure plate, so that the separation of foil webs and sheet is significantly improved here.

[0045] The suction region 36 can also comprise a suction strip, analogously to the suction regions 15k in the longitudinal direction.

[0046] FIG. 9a perspectively shows the back-pressure plate and FIG. 9b schematically shows a cross section through a separation air nozzle 34 and the suction region 36 with the lying-on edge of the sheet 5 beneath a foil web 6k. An arrangement of separation air nozzles 34 is also illustrated in FIG. 2.

[0047] The vacuum feed lines 11 with the vacuum switching elements 12i and the vacuum source 14 as well as their control in the machine control 19 also belong the evacuable back-pressure plate 9 according to the invention.

[0048] The back-pressure plate 9 with the vacuum switching elements 12i can preferably be designed in an exchangeable manner.

[0049] The following reference numerals are used in the scope of this description: [0050] 1 flat foil printing press [0051] 2 foil web guidance [0052] 3 sheet guidance [0053] 4 flat bed press [0054] 5 sheet [0055] 6 foil webs [0056] 7 printing plate with tool plate [0057] 8 printing table with supporting face for 9 [0058] 9 back-pressure plate (evacuable) [0059] 9a upper plate of 9 with 11i and 22 [0060] 9b lower plate with 12i and 23 [0061] 10i suction segments (in Y-direction) [0062] 11, 11i vacuum chambers [0063] 12, 12i vacuum feed lines [0064] 13, 13i vacuum switching elements [0065] 15 vacuum source [0066] 15, 15k suction regions (in X-direction) [0067] 16, 16k embossing regions [0068] 19 machine control [0069] 20, 20k suction strips with 11i and 22 [0070] 22 suction openings [0071] 23 connection openings (11i-12i) [0072] 24 support mask [0073] 30 gripper bar [0074] 31 feeder [0075] 32 delivery means [0076] 34 separation air nozzle, blower on 9 [0077] 35 compressed air fed line [0078] 36 suction region in Y-direction [0079] 37 vacuum feed line [0080] 40 embossed foil pictures as picture strips on 5 [0081] 41 cut-to-size singe picture [0082] 42 make up [0083] F foil web running direction [0084] W machine rotation angle [0085] X sheet running direction [0086] Y transverse direction [0087] Z vertical direction