METHOD FOR IMPROVING OPERATING CONDITIONS OF A PRINTING MACHINE, AND A PRINTING MACHINE

Abstract

The printing machine comprises an impression cylinder (10) having a support surface (10a) supporting a web substrate (S), a pressure roller (12) pressing the web substrate (S) against the impression cylinder (10), one or more printing units (14) for printing ink on said web substrate (S) supported on the impression cylinder (10), and a liquid applying unit (18) for applying liquid insoluble with the ink being printed on the support surface (10a) of the impression cylinder (10) upstream of said pressure roller (12), said liquid forming a liquid layer (L) on at least one specific area of the support surface (10a) of the impression cylinder (10), so that the liquid layer (L) provides an ink-repellent coating on areas of the support surface (10a) not covered by the web substrate (S) and optionally an increased bonding of the web substrate (S) to the support surface (10a).

Claims

1. A method for improving operating conditions of a printing machine, said printing machine comprising: a rotary impression cylinder having a support surface which supports a web substrate moved in a transport direction, at least one pressure roller pressing said web substrate against said support surface of said impression cylinder said pressure roller providing an entry nip at which the web substrate first comes into contact with the support surface of the impression cylinder, and at least one offset printing unit having a printing cylinder arranged for printing ink on said web substrate that is supported on the impression cylinder, the method comprising: support a non-printed or non-freshly printed rear face of the web substrate on the support surface, said web substrate having a substrate width which is less than a maximum impression width of said support surface, said support surface exhibiting two non-covered areas not covered by the web substrate adjacent to a side edges of said web substrate during printing; applying, by a liquid applying unit controlled by control means, a liquid, which is insoluble with the ink, on the support surface of the impression cylinder upstream of said pressure roller, adapt, by said control means, flow rate and distribution of the applied liquid to particular printing conditions and to web substrate width said liquid forming a liquid layer on at least the non-covered areas of the support surface of the impression cylinder adjacent to a side edges of the web substrate during the printing, said liquid layer providing an ink-repellent coating at least on said non-covered areas; printing the ink on a front face of said web substrate, being said front face opposed to the rear face which is supported on the impression cylinder.

2. The method according to claim 1, wherein the liquid forms the liquid layer additionally on at least one covered area of the support surface of the impression cylinder that is covered by the web substrate during the printing and that is adjacent to a side edge of the web substrate during the printing, the liquid layer providing an increased bonding of the web substrate to said at least one covered area.

3. The method according to claim 2, wherein the covered area of the support surface of the impression cylinder on which the liquid layer is formed spans a substrate width comprised between two opposite side edges of the web substrate.

4. The method according to claim 1, wherein the liquid forms the liquid layer on an area of the support surface of the impression cylinder spanning a maximum impression width comprised between two opposite end edges of the support surface of the impression cylinder.

5. The method according to claim 1, wherein said particular printing conditions to which said liquid applying unit is adapted include at least the particularities of the web substrate and/or printing speed at which the web substrate is being printed.

6. The method according to claim 1, wherein the liquid layer has a thickness in the range of 0.05 to 2 microns.

7. The method according to claim 1, wherein the ink is a water-insoluble ink and the liquid used to form the liquid layer is water or a liquid based on water.

8. The method according to claim 1, wherein the support surface of the rotary impression cylinder is a smooth non-absorbent support surface.

9. The method according to claim 8, wherein said smooth non-absorbent support surface is provided by a corrosion resistant metallic material selected from the group consisting of stainless steel, chrome, an alloy comprising nickel and molybdenum.

10. The method according to claim 1, wherein the web substrate is made of a non-absorbent material.

11. A printing machine comprising: a rotary impression cylinder having a support surface supporting a non-printed or non-freshly printed rear face of a web substrate configured to be moved in a transport direction, at least one pressure roller pressing said web substrate against said support surface of said impression cylinder, said pressure roller providing an entry nip at which the web substrate first comes into contact with the support surface of the impression cylinder, at least one printing unit having a printing cylinder arranged for printing ink on a front face of said web substrate, being said front face opposed to the rear face supported on the impression cylinder, a liquid applying unit controlled by control means configured for applying a liquid that is insoluble with the ink to the support surface of the impression cylinder upstream of said pressure roller, adapting the flow rate and distribution of the applied liquid to particular printing conditions and to web substrate width, said liquid forming a liquid layer on at least specific areas of the support surface of the impression cylinder which are left uncovered by the web substrate during the printing with the ink and which are adjacent to a side edges of the web substrate during the printing with the ink; wherein said liquid applying unit comprises a plurality of spray nozzles distributed along an axial direction with respect to the impression cylinder, and valve devices associated with liquid supplying ducts which supply the liquid from a liquid supply to the spray nozzles, and wherein said control means of the liquid applying unit control said valve devices to supply the liquid to selected ones of the spray nozzles or to selected groups of spray nozzles, and/or to supply the liquid at a selected flow rate to each spray nozzle or group of spray nozzles.

12. The printing machine according to claim 11, wherein said liquid applying unit further comprises a set of transfer rollers comprising a receiving roller which receives thereon said liquid sprayed from said spray nozzles and a laminating roller which laminates the liquid as the liquid layer onto the support surface of the impression cylinder.

13. The printing machine according to claim 12, wherein said receiving roller and said laminating roller of the liquid applying unit have the same width, in a direction parallel to their own axes, than a maximum impression width comprised between two opposite end edges of the support surface of the impression cylinder, and the spray nozzles are distributed along the length of the receiving roller so as to apply the liquid on the entire surface hereof.

14. The printing machine according to claim 11, wherein the impression cylinder is a central impression cylinder around which a plurality of printing units are arranged for printing a plurality of inks on the web substrate supported on said central impression cylinder.

15. The printing machine according to claim 11, wherein the impression cylinder is one of a plurality of impression cylinders arranged in series to support the web substrate with at least one printing unit arranged for printing ink on said web substrate supported on each of the plurality of impression cylinders.

16. The printing machine according to claim 11, wherein the support surface of the rotary impression cylinder is a smooth non-absorbent support surface.

17. The printing machine according to claim 16, wherein said smooth non-absorbent support surface is provided by a corrosion resistant metallic material including stainless steel, or chrome, or an alloy comprising nickel and molybdenum.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0042] The foregoing and other advantages and features will be better understood from the following detailed description of illustrative and not limiting exemplary embodiments with reference to the accompanying drawings, in which:

[0043] FIG. 1 is a schematic front view of a printing machine according to an embodiment of the second aspect of the present invention implementing a method for improving operating conditions of a printing machine according to the first aspect of the present invention;

[0044] FIG. 2 is an enlarged detail of FIG. 1;

[0045] FIG. 3 is a schematic side view of elements of a liquid applying unit included in the printing machine;

[0046] FIGS. 4, 5 and 6 are partially sectioned side views of an impression cylinder and a printing cylinder of the printing machine of FIGS. 1 and 2 with a web substrate and a liquid layer arranged therebetween illustrating different embodiments of the method according to the first aspect of the present invention;

[0047] FIG. 7 is a partially sectioned side view of an impression cylinder and a printing cylinder of the printing machine of FIGS. 1 and 2 with a web substrate and a liquid layer arranged therebetween illustrating an alternative method embodiment which does belong to the present invention; and

[0048] FIG. 8 is a schematic front view of a printing machine according to another embodiment of the second aspect of the present invention implementing the method for improving operating conditions of a printing machine according to the first aspect of the present invention.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

[0049] Referring first to FIGS. 1 and 2, reference sign 50 designates a printing machine according to an embodiment of the second aspect of the present invention. The printing machine 50 comprises a rotary impression cylinder 10, in particular a central impression cylinder 10 arranged to rotate about an axis E. The impression cylinder 10 has a support surface 10a that supports a web substrate S moved in a transport direction indicated by arrows. The web substrate S has a rear face Sr which during a printing work is in contact with said support surface 10a of the impression cylinder 10 and an opposite front face Sf which will receive printed inks.

[0050] The printing machine comprises guiding rollers which guide the web substrate S from an unwinding device (not shown) to the impression cylinder 10. These guiding rollers comprise a pressure roller 12 pressing the web substrate S against the support surface 10a of the impression cylinder 10 to provide an entry nip 16a in which the web substrate S initially comes into contact with the support surface 10a of the impression cylinder 10. The web substrate S leaves the support surface 10a of the impression cylinder 10 at a leaving line 16b. Thus, during operation, a portion of the support surface 10a of the impression cylinder 10 comprised between the leaving line 16b and the entry nip 16a remains uncovered by the web substrate S and fully exposed.

[0051] The support surface 10a of the rotary impression cylinder 10 is a smooth non-absorbent support surface provided, for example, by a corrosion resistant metallic material including stainless steel, or chrome, or an alloy comprising nickel and molybdenum. The web substrate S is made of a non-absorbent material, such as a plastic film.

[0052] Around the impression cylinder 10, and downstream of the entry nip 16a in the forward direction of the web substrate S, a plurality of printing units 14 are arranged. Each of said printing units 14 has a printing cylinder 15 which prints a corresponding ink on said front face Sf of the web substrate S supported on the support surface 10a of the impression cylinder 10. A drying/curing device 17 is arranged downstream of each printing unit 14 to dry/cure the ink printed by this printing unit 14 on the front face Sf of the web substrate S before the ink printed by the next printing unit 14 is printed on. Additionally or alternatively, an end drying/curing device (not shown) is arranged to dry/cure the inks printed by the printing units 14 on the front face Sf of the web substrate S all together downstream the leaving line 16b.

[0053] In FIGS. 1 and 2 the printing units 14 are depicted as being offset printing units. However, the printing units could alternatively be other types of printing units, such as flexographic printing units or rotogravure printing units, or a combination of one or more offset printing units and/or one or more flexographic printing units and/or one or more rotogravure printing units.

[0054] The printing machine 50 further comprises a liquid applying unit 18 arranged for applying a liquid insoluble with the ink being printed to form a liquid layer L on said fully exposed portion of the support surface 10a of the impression cylinder 10 located downstream of the leaving line 16b and upstream of said pressure roller 12 and therefore upstream of the entry nip 16a. Then, the pressure roller 12 presses the web substrate S against the liquid layer L applied on the support surface 10a of the impression cylinder 10 at the entry nip 16a.

[0055] Depending on the areas of the support surface 10a of the impression cylinder 10 which the liquid layer is applied on, the liquid layer L can be used to provide an ink-repellent coating on one or more non-covered areas NCA of the support surface 10a of the impression cylinder 10 and optionally to increase bonding of the web substrate S to one or more covered areas CA of the support surface 10a of the impression cylinder 10, as explained below with reference to FIGS. 4-7.

[0056] As shown in FIGS. 2 and 3, the liquid applying unit 18 includes a plurality of spray nozzles 20 and a set of parallel rotating rollers rotated by a motor 19. In the embodiment shown in FIGS. 2 and 3, the set of parallel rotating rollers comprises a receiving roller 21 and a rolling laminating roller 22. As better shown in FIG. 3, the spray nozzles 20 are connected to liquid supplying ducts 24 and arranged along the length of the receiving roller 21 so as to apply the liquid on the entire surface thereof. The receiving roller 21 is in rolling contact with the laminating roller 22, and the laminating roller 22 is in rolling contact with the support surface 10a of the impression cylinder 10. Thus, the receiving roller 21 transfers the liquid to the laminating roller 22 and the laminating roller 22 laminates the liquid as the liquid layer L onto the support surface 10a of the impression cylinder 10.

[0057] Preferably, the printing machine 50 includes control means, such that a programmable logic controller, a computer, an electronic circuit or the like, for controlling the liquid applying unit 18 so that the liquid applying unit 18 supplies the liquid at a controlled flow rate and distribution. For example, as schematically shown in FIG. 3, the liquid applying unit 18 comprises a plurality of electrically or electronically controllable valve devices 23 arranged along an axial direction with respect to the impression cylinder 10 and connected to the control means.

[0058] The valve devices 23 are associated with the liquid supplying ducts 24 which supply the liquid from a liquid supply (not shown) to the spray nozzles 20, and these valve devices 23 are controlled by said control means so that the liquid can be selectively supplied to one or more selected spray nozzles 20 or to one or more selected groups of the spray nozzles 20 to apply the liquid as the liquid layer L on selected areas of the support surface 10a of the impression cylinder 10. The valve devices 23 are additionally or alternatively controlled by the control means to regulate the flow rate of the liquid sprayed by each spray nozzle 20 or each group of spray nozzles 20.

[0059] When the inks being printed by the printing units 14 are water-insoluble inks, which is, for example, the case of the inks usually used in offset printing, the liquid used to form the liquid layer L is water or a liquid based on water. Preferably, the liquid layer L applied by the liquid applying unit 18 has a thickness in the range of 0.05 to 2 microns (micrometres). The thickness of the liquid layer is uniformed and regularized after the web substrate S and the liquid layer L are pressed against the support surface 10a of the impression cylinder 10 by the pressure roller 12.

[0060] FIGS. 4, 5 and 6 are partial side views showing the web substrate S in a nip between the impression cylinder 10 and the printing cylinder 15 of one of the printing units 14. The support surface 10a of the impression cylinder 10 has a maximum impression width MIW comprised between opposite end edges thereof. In this example, the printing cylinder 15 has a printing width PW which in this case is equal than the maximum impression width MIW. However, in other examples the printing width PW can be less than the maximum impression width MIW. The web substrate S has a substrate width SW comprised between side edges thereof which is less than the maximum impression width MIW and less than the printing width PW.

[0061] As a result, the support surface 10a of the impression cylinder 10 has one or more covered areas CA which are covered by the web substrate S and two non-covered areas NCA which are not covered by the web substrate S at both sides of the one or more covered areas CA, and the printing cylinder 15 has side end portions extending on the non-covered areas NCA of the support surface 10a of the impression cylinder 10.

[0062] In FIGS. 4, 5 and 6 the thickness of the web substrate S and the thickness of the liquid layer L have been exaggerated for the sake of clarity in the drawing. In FIGS. 4 and 5 the surface of the printing cylinder 15, which is for example an offset printing cylinder provided with a compressible blanket coating, is shown deformed to a certain extent to accommodate the thickness of the web substrate S, and such deformation is also exaggerated for the sake of clarity in the drawing. By virtue of the mentioned deformation of the printing cylinder 15, or otherwise when the thickness of the web substrate S is very thin, the side portions of the printing cylinder 15 are in contact with the non-covered areas NCA of the support surface 10a of the impression cylinder 10 and therefore the ink applied by the printing cylinder 15 could dirt and build-up on these non-covered areas NCA of the support surface 10a of the impression cylinder 10 during printing.

[0063] As shown in FIG. 3, the receiving roller 21 and the laminating roller 22 of the liquid applying unit 18 of the printing machine 50 shown in FIGS. 1 and 2 have the same width as the maximum impression width MIW so that the liquid applying unit 18 is able to apply the liquid forming the liquid layer L on the whole support surface 10a of the impression cylinder 10. However, by controlling the aforementioned valve devices 23 with said means for controlling the liquid applying unit 18, the liquid applying unit 18 is able to apply the liquid layer L on one or more specific areas of the support surface 10a of the impression cylinder 10.

[0064] FIG. 4 shows an embodiment of the method of the present invention wherein the liquid layer L is applied on the whole maximum impression width MIW of the impression cylinder 10. In other words, the liquid layer L is applied on both the covered areas CA of the support surface 10a of the impression cylinder 10 covered by the web substrate S and a non-covered area NCA of the support surface 10a of the impression cylinder 10 not covered by the web substrate S. The non-covered areas NCA are adjacent two opposite side edges of the web substrate S and the covered area CA spans the complete substrate width SW between the two opposite side edges of the web substrate S.

[0065] In the embodiment shown in FIG. 4, the liquid layer L provides during printing an ink-repellent coating on the non-covered areas NCA of the support surface 10a of the impression cylinder 10 which prevents the inks which are being printed by the printing cylinders 15 of the printing units 14 from dirtying and/o building-up on these non-covered areas NCA, making it unnecessary to clean these non-covered areas NCA after a printing work, and an increased bonding of the web substrate S to the support surface 10a of the impression cylinder 10 at the covered areas CA.

[0066] FIG. 5 shows another embodiment of the method of the present invention which only differs from the embodiment shown in FIG. 4 in that the liquid layer L is applied on two covered area CA of the support surface 10a of the impression cylinder 10 adjacent the two opposite side edges of the web substrate S in addition to the two non-covered areas NCA of the support surface 10a of the impression cylinder 10 adjacent the two opposite side edges of the web substrate S. Here, the liquid layer L on the two covered areas CA assures an increased bonding of regions of the web substrate S adjacent the two opposite side edges thereof to the support surface 10a of the impression cylinder 10 during printing, and the liquid layer L on the two non-covered areas NCA provides the ink-repellent coating during printing.

[0067] FIG. 6 shows still another embodiment of the method of the present invention wherein the liquid layer L is only applied on the two non-covered areas NCA of the support surface 10a of the impression cylinder 10 adjacent the two side edges of the web substrate S, so that during printing the liquid layer L provides an ink-repellent coating on the areas of the support surface 10a of the impression cylinder 10 which are not covered by the web substrate S.

[0068] In FIGS. 4, 5 and 6, it is not necessary that the liquid layer covers all the areas of the support surface 10a of the impression cylinder 10 comprised between each side edge of the web substrate S and a corresponding end edge of the impression cylinder 10 or of the printing cylinder 15.

[0069] FIG. 7 shows another embodiment which does not belong to the method of the present invention but which can be carried out with the printing machine of the present invention. In the embodiment shown in FIG. 7, the liquid layer L is only applied on the whole covered area CA of the support surface 10a of the impression cylinder 10 which is covered by the web substrate S, so that during printing the liquid layer L provides an increased bonding of the web substrate S to the support surface 10a of the impression cylinder 10. In other variants (not shown) of this embodiment the liquid layer is applied on two or more selected covered areas of the support surface 10a of the impression cylinder 10 which are covered by the web substrate S during printing.

[0070] Referring now to FIG. 8, reference sign 60 designates a printing machine according to another embodiment of the second aspect of the present invention, which comprises a plurality of impression cylinders 30 arranged in series to support the web substrate S. One pressure roller 12 is arranged to press the web substrate S against a support surface of each impression cylinder 30. Each pressure roller 12 provides an entry nip in which the web substrate S comes in contact with the support surface of the corresponding impression cylinder 30, and the web substrate S leaves the support surface of each impression cylinder 30 at a leaving line.

[0071] One printing unit 14 is arranged to print one ink on the web substrate S supported on each impression cylinder 30. Preferably, one or more of the printing units 14 are offset printing units, although flexographic printing units and/or rotogravure printing units are also envisaged. A drying/curing device 17 is arranged downstream of each printing unit 14 to dry/cure the ink printed by this printing unit 14 on the front face of the web substrate S. Additionally or alternatively, an end drying/curing device (not shown) is arranged to dry/cure the inks printed by the printing units 14 on the web substrate S all together downstream the leaving line of the last printing unit 14.

[0072] One liquid applying unit 18 is arranged for applying a liquid insoluble with the ink being printed to form a liquid layer L on a fully exposed portion of the support surface of each impression cylinder 30 upstream of the corresponding pressure roller 12. Each liquid applying unit 18 is configured and arranged as explained above with reference to FIGS. 1, 2 and 3, so that the liquid layer L can be applied by each liquid applying unit 18 so as to cover non-covered areas NCA of the support surface of the corresponding impression cylinder 30 that will be not covered by the web substrate S during printing, in a manner analogous to that explained above with reference to FIG. 6, or to additionally cover one or more covered areas CA of the support surface of the corresponding impression cylinder 30 that will be covered by the web substrate S during printing, in a manner analogous to that explained above with reference to FIGS. 4 and 5, or to cover only one or more covered areas CA of the support surface of the corresponding impression cylinder 30, in a manner analogous to that explained above with reference to FIG. 7.

[0073] Both the printing machine 50 described above in relation with FIGS. 1, 2 and 3 and the printing machine 60 described in relation with FIG. 8 implement the method for improving operating conditions of a printing machine according to the first aspect of the present invention.

[0074] The scope of the present invention is defined by the appended claims.