CN104097387A

CN104097387A - Printing unit and rubber fabric plate for the same

Info

Publication number: CN104097387A
Application number: CN201410144399.0A
Authority: CN
Inventors: U.莫伊茨纳; U.米特鲍尔
Original assignee: Manroland Web Systems GmbH
Current assignee: Manroland Web Systems GmbH
Priority date: 2013-04-12
Filing date: 2014-04-11
Publication date: 2014-10-15
Anticipated expiration: 2034-04-11
Also published as: CN104097387B; DE102013103712A1; IN2014DE00847A

Abstract

The invention provides a printing unit for a printer, which comprises an inking unit, a transfer cylinder (14) and a forme cylinder. The inking unit is used for applying the printing ink onto at least one printing form on the forme cylinder. The printing ink positioned on the basis of each printing forme has at least one on the transfer cylinder (14) as a blanket or blanket plate (23) formed transfer form on a substrate to be printed (21) coatable, wherein between the transfer cylinder (14) and the or each blanket or between the transfer cylinder (14) and a metal support (24) of the or each blanket plate (23) a contact structure (28) is positioned, that is either with the transfer cylinder (14) or with the metallic support (24) of the respective rubber blanket plate (23) connected.

Description

Print couple and for the rubber fabric swatch of print couple

Technical field

The present invention relates to according to the print couple of the printing machine of the preamble of claim 1 (printing couple).The invention still further relates to rubber fabric swatch (blanket plate).

Background technology

The print couple that Fig. 1 shows the printing machine known from prior art is the schematic diagram of the skew print couple of roll type printing machine.Print couple 10 shown in Fig. 1 comprises inking colour cell 11, damping (dampening) unit 12, forme (forme) cylinder 13 and transfer cylinder 14.On the excircle of plate cylinder 13, arrange at least one forme 15.By means of inking colour cell 11, printing-ink and by means of damping unit 12, damping solution can be applied on this forme or each forme 15 being positioned on plate cylinder 13.About inking colour cell 11, show ink fountain 16, ink foundation roller 17 and multiple other inking unit roller 18.About damping unit 12, show fountain solution metering system 19 and multiple dampings unit roller 20.On the circumference of transfer cylinder 14, be positioned with at least one transfer plate 23, transfer plate 23 may be embodied as rubberized fabric or rubber fabric swatch.Being applied to printing-ink on this forme or the each forme 15 being positioned on plate cylinder 13 by means of inking unit 11 can be from this forme or each forme 15, via being positioned this transfer plate on transfer cylinder 14 or each transfer plate 23 and being applied on substrate to be printed 21.In the exemplary embodiment shown in Fig. 1, printed substrate 21 in roll gap 22, roll gap 22 is formed between the transfer cylinder 14 of illustrated print couple 10 and the adjacent transfer cylinder 14 of adjacent print couple.Being used for the roll gap 22 of printed substrate 21 can alternatively be formed at the transfer cylinder 14 of print couple 21 and another impression cylinder for example between satellite cylinder.Inking colour cell 11 is exemplary with the illustrated arrangement of damping unit 12 in nature.

As explained, at least one transfer plate 23 is positioned on the transfer cylinder 14 of print couple 10, and this transfer cylinder 14 may be embodied as rubberized fabric or rubber fabric swatch.Fig. 2 shows the structure of the transfer plate that be formed as rubber fabric swatch 23 known from prior art, wherein, the rubber fabric swatch 23 of Fig. 2 comprises metallic carrier 24, wherein, in the first side 25 of metallic carrier 24, apply the functional structure 26 shifting for ink, and wherein on the opposition side 27 of metallic carrier 24, apply contact structures 28, in the time that rubber fabric swatch 23 is positioned on transfer cylinder 14, these contact structures 28 are positioned between the excircle and metallic carrier 24 of transfer cylinder 14 especially.By means of contact structures 28, can adjust the pressure for substrate to be printed 21.

From the known a kind of rubber fabric swatch of EP 2164710B1, it comprises the contact structures that are formed as plastics material film, and these contact structures are applied on the metallic carrier of rubber fabric swatch on heat-sealable material layer.According to EP 2164710B1, can be for example thermoplastic polyurethane or heat-curable urethane for heat-sealable material plastics material film being applied on metallic carrier.

Although preferably rubber fabric swatch is used as to transfer plate 23, also can uses so-called rubberized fabric as transfer plate 23.Rubberized fabric does not have any metallic carrier structure, via contact structures, substrate to be printed is carried out to pressure adjustment, these contact structures are applied in the exterior cylindrical surfaces of transfer cylinder 14, and therefore in the situation that rubberized fabric is positioned on transfer cylinder 14, are arranged between rubberized fabric and transfer cylinder 14.

Utilize from the known such print couple of prior art, printing issues may occur during operation.Therefore for example, for have cylinder especially the larger axis of plate cylinder 13 and transfer cylinder 14 to for the print couple of width, there is following problem: this have larger axis to have deflection tendency to the cylinder of width, and wherein, this deflection may damage press quality.The reason of this situation (and other situation) is: due to cylinder especially transfer cylinder 14 at its axial width upper deflecting, realized the pressure reduction of substrate 21 to be printed.

Especially when by from the known this print couple printing of prior art during with the substrate of variable-width, during printing operation, may go wrong equally, especially because be positioned this transfer plate on transfer cylinder 14 or the width of each transfer plate 23 is greater than substrate width.In the case, portion's section of this transfer plate or each transfer plate 23 is not covered by substrate 21 at that time during printing operation, therefore, in these regions of corresponding transfer plate 23, form the heat load increasing, because can there is not the heat release via substrate 21 to be printed.In the case, transfer plate 23 has the tendency that increases wearing and tearing.

Summary of the invention

From this point, the present invention is based on and form the novel printing colour cell of printing machine and the object of new type rubber fabric swatch.

By solving this object according to the print couple of claim 1.

According to the present invention, on the axial direction of transfer cylinder, to observe, the radial thickness of contact structures changes.

Because observe on the axial direction of transfer cylinder, the radial thickness of contact structures changes, in the situation that transfer plate is formed as rubberized fabric, these contact structures are positioned between rubberized fabric and transfer cylinder, or in the situation that transfer plate is formed as rubber fabric swatch, these contact structures are positioned between the metallic carrier and transfer cylinder of rubber fabric swatch, so can avoid the problem known from prior art during printing operation.

Therefore, utilize the present invention, thering is larger axis in the print couple of cylinder width, can reduce the pressure reduction forming by cylinder deflection.And, particularly will print variable substrate width in print couple time, utilize the present invention can alleviate the problem occurring in the time that this transfer plate or each transfer plate are not covered by substrate to be printed on its whole width.By adjusting suitably the radial thickness of contact structures, can avoid the pressure reduction of substrate to be printed.And, can reduce the heat load of the increase of the axial part section of the transfer plate not covered by substrate to be printed during printing operation.

According to the first favourable further developing of the present invention, on the axial direction of transfer cylinder, observe, in the middle part of transfer cylinder and/or the portion's section not covered by substrate to be printed at transfer cylinder, contact structures have relatively large radial thickness, and observe on the axial direction of transfer cylinder, in the portion's section not covered by substrate to be printed of the outer of transfer cylinder portion's section and/or transfer cylinder, at least one, contact structures have relatively little radial thickness.Therefore, can particularly advantageously alleviate printing issues well known in the prior art.

Preferentially, contact structures are formed by multiple films, multiple films are applied on transfer cylinder or on the metallic carrier of corresponding rubber fabric swatch, wherein, on the axial direction of transfer cylinder, observe, multiple films of different radial thickness location that is closely adjacent to each other, and/or in the observation in the radial direction of transfer cylinder, one of multiple film with different axial widths are positioned another top.Therefore, observe in the axial direction, the radial thickness of the variation of contact structures can provide in simple and favourable especially mode.

In claim 8, define according to rubber fabric swatch of the present invention.

Brief description of the drawings

Obtain and of the present inventionly preferably further develop from appended claims and following description.By means of accompanying drawing, explained in more detail exemplary embodiment of the present invention, but the present invention is not so limited.Shown in the drawings:

Fig. 1: from the structure of the known print couple of prior art;

Fig. 2: from the structure of the known rubber fabric swatch of prior art;

Fig. 3: according to the first print couple of the present invention, according to the details of the first rubber fabric swatch of the present invention and substrate to be printed;

Fig. 4: for thering is the details of Fig. 3 of narrower substrate;

Fig. 5: according to the second print couple of the present invention, according to the details of the second rubber fabric swatch of the present invention and substrate to be printed;

Fig. 6: according to the 3rd print couple of the present invention, according to the details of the 3rd rubber fabric swatch of the present invention and substrate to be printed;

Fig. 7: according to the 4th print couple of the present invention, according to the details of of the present invention two the 4th rubber fabric swatch and substrate to be printed; And

Fig. 8: according to the 5th print couple of the present invention, according to the details of the 5th rubber fabric swatch of the present invention and substrate to be printed.

Reference numeral:

10 print couple

11 inking colour cells

12 damping unit

13 plate cylinders

14 transfer cylinders

15 formes

16 ink fountains

17 ink foundation rollers

18 inking unit rollers

19 fountain solution metering systems

20 damping unit rollers

21 substrates

22 roll gaps

23 transfer plates/rubber fabric swatch

24 metallic carriers

25 sidepieces

26 functional structures

27 sidepieces

28 contact structures

29 sections

30 sections

31 sections

32 films

33 films

34 films

35 films

36 films

37 sections

38 sections

39 films

40 films

41 films

42 films.

Detailed description of the invention

The present invention relates to a kind of print couple of printing machine, particularly the skew print couple of roll type printing machine.The essential structure of this print couple has been described with reference to figure 1.

The invention still further relates to a kind of transfer plate that is formed as rubber fabric swatch, wherein described the essential structure of rubber fabric swatch with reference to figure 2.

Fig. 3 show the first print couple according to the present invention at transfer cylinder 14, be positioned to be formed as on transfer cylinder 14 the signal details in the transfer plate of rubber fabric swatch 23 and the region of substrate 21 to be printed.In Fig. 3, maximum can be used for the transfer cylinder 14 of printing and therefore the axial width of print couple 10 by size X mark, wherein, in Fig. 3, the transfer plate that is formed as rubber fabric swatch 23 is arranged on the excircle of transfer cylinder 14 on the axial width of transfer cylinder 14.Herein, the axial width that is formed as this transfer plate of rubber fabric swatch 23 can be used for the width X of the transfer cylinder 14 of printing corresponding to maximum, and wherein, according to Fig. 3, the width of substrate 21 is equally corresponding to this width X.

According to Fig. 3, on the axial direction of transfer cylinder 14, the radial thickness of contact structures 28 changes, and these contact structures 28 are connected to rubber fabric swatch 23 with fixed form in the situation that of rubber fabric swatch 23.In the exemplary embodiment of Fig. 3, on the axial direction of transfer cylinder 14, observe, in middle part 29, contact structures 28 have relatively large axial width, and according to Fig. 3, on the axial direction of transfer cylinder, observe, in two outer portion sections 30 and 31, contact structures 28 have relatively little radial thickness.Herein, the thickness of contact structures 28 can be identical or different in two edge portion sections 30,31, but in each case than less in middle part 29.

In the print couple of Fig. 3, wherein the axial width of substrate 21 can be used for corresponding to axial width and this print couple of transfer plate 23 the width X printing, on the axial width of substrate 21, observe, due to the axial deflection of transfer cylinder 14 especially and the pressure difference that may form in the print couple 10 with longer cylinder, this can alleviate by the present invention.Therefore, can improve press quality.

In the print couple of Fig. 4, the axial width Y of substrate 21 is less than the width X that print couple can be used for printing, make therefore, be formed as rubber fabric swatch 23 and be positioned when transfer plate on transfer cylinder 14 is observed in the axial direction only being covered by substrate 21 to portion's section during printing.Therefore, Fig. 4 shows rubber fabric swatch 23 during printing and is covered by substrate 21 in middle part 29, and in edge portion section 30 and 31, rubber fabric swatch is not covered by substrate 21 during printing.Therefore,, in the exemplary embodiment of Fig. 4, in printing process, do not relate to the edge portion section 30 and 31 of rubber fabric swatch 23.

By the present invention, for the print couple of Fig. 4, can reduce the heat load of the improper increase of the edge portion section 30 and 32 of the rubber fabric swatch 23 in press not relating to.In the edge portion section 30 and 31 of the rubber fabric swatch 23 in press not relating to, contact structures 28 have than less radial thickness in middle part 29 related in substrate 21 printings.

But, film 33,34 in edge portion section 30 and 31 in the Fig. 3 not relating in printing process and the therefore radial thickness of contact structures 28 make more greatly particularly, in the time of printing full duration substrate, sufficient pressure to be provided for to the substrate in edge portion section 30 and 31.

In the exemplary embodiment of Fig. 3 and Fig. 4, the contact structures 28 that are applied on the metallic carrier 24 of rubber fabric swatch 23 form by multiple films, film adhesive is incorporated on the metallic carrier 24 of rubber fabric swatch 23, wherein, on the axial direction of transfer cylinder 14, observe multiple films 32,33 and 34 of different radial thickness location that is closely adjacent to each other.Therefore, on the axial direction of transfer cylinder 14, observe, contact structures 28 are the vicissitudinous radial thickness of tool especially easily.

Fig. 5 shows according to print couple of the present invention or according to the configuration of rubber fabric swatch 23 of the present invention, the contact structures 28 in the axial direction with variable thickness are wherein set, because, in the observation in the radial direction of transfer cylinder, 35,36 1 of multiple films of different axial widths are positioned another top.According to Fig. 5, the first film 35 with larger axial width is positioned in the case the metallic carrier 24 of rubber fabric swatch 23 and has between the film 36 of less axial width.

By comparison, may be also that the film with less axial width 36 sections is positioned to have between the film 35 of larger axial width and the metallic carrier 24 of rubber fabric swatch 23.

In the time of the observing in the radial direction of transfer cylinder 14, there is film 35 and 36 that different axial widths and one is positioned another top and in the time of the observing in the radial direction of transfer cylinder 14, there is similar and different thickness.

Although the pattern of Fig. 5 only illustrates for substrate 21, its width Y is less than the width X of print couple that maximum can be used for printing, but the pattern that is similar to Fig. 5 of Fig. 3 also can be used for the axial width of substrate 21 to be printed wherein can be used for the width X of the print couple of printing print couple corresponding to maximum.

Fig. 6 shows the pattern of print couple, wherein, width Y be less than the substrate to be printed 21 of width X of print couple that maximum can be used for printing on transfer cylinder 14 not at middle part but directed in a side, make therefore, the portion's section 37 that is formed as the transfer plate of rubber fabric swatch 23 is related in printing process, and the portion's section 38 that is formed as the transfer plate 23 of rubber fabric swatch does not in press relate to.Therefore,, in the pattern of Fig. 6, contact structures 28 ratio in axial part section 37 is thicker in axial part section 38.

In the pattern of Fig. 6, can realize equally: corresponding to the exemplary embodiment of Fig. 3 and Fig. 4, multiple films 39,40 with different radial thickness glue together with being closely adjacent to each other or vulcanize to the metallic carrier 24 of rubber fabric swatch 23.

It should be pointed out that compared with the pattern with Fig. 3 to Fig. 6 at this, the present invention also can be especially for not being implemented as rubber fabric swatch when the transfer plate 23 of the exemplary embodiment of Fig. 3 to Fig. 6 but while being only embodied as the rubberized fabric without metallic carrier.In the case, then film 32,33,34 or 35,36 or 39,40 is glued in the exterior cylindrical surfaces of transfer cylinder 14.

But even in the time that transfer plate 23 is embodied as rubber fabric swatch, film 32,33,34 or 35,36 or 39,40 can be glued on the surface of transfer cylinder 14.But the in the situation that of rubber fabric swatch, preferably, these film adhesives are incorporated on the carrier 24 of corresponding rubber fabric swatch 23, because can be therefore protected the avoiding of the metallic carrier 24 of corresponding rubber fabric swatch 23 damaged.

Show other exemplary embodiment of the present invention by Fig. 7 and Fig. 8.Therefore, Fig. 7 shows a kind of pattern of the present invention, wherein, as in the exemplary embodiment of Fig. 3, the width of substrate 21 to be printed equally corresponding to transfer cylinder 14 and therefore the maximum of print couple can be used for printing width X.

But, compared with the exemplary embodiment of Fig. 3, in the exemplary embodiment of Fig. 7, on the axial direction of transfer cylinder 14, observe two transfer plates that are formed as rubber fabric swatch 23 layout that is closely adjacent to each other on the excircle of transfer cylinder.

In these rubber fabric swatch 23 in the region of each, form contact structures 28 in a certain mode, that is, and corresponding to the exemplary embodiment of Fig. 3, make in the middle axial part section of transfer cylinder 14, the thickness of corresponding contact structure 28 is greater than in side direction edge portion section 30,31.

Corresponding to the exemplary embodiment of Fig. 3, can realize equally: on the metallic carrier 24 of corresponding rubber fabric swatch 23, observe in the axial direction, the film of different radial thickness is closely adjacent to each other and applies,,, in the axial inner section of rubber fabric swatch 23, film 41 has relatively large radial thickness, and in the axial outer portion part of rubber fabric swatch 23, film 42 has relatively little radial thickness.

Fig. 8 shows a kind of pattern of the present invention, wherein, the axial width Y of substrate 21 to be printed is less than the width X that maximum can be used for the print couple of printing, and wherein do not guide in central authorities on transfer cylinder 14 corresponding to the substrate 21 of the exemplary embodiment of Fig. 6, but in the exemplary embodiment of Fig. 8, on the axial direction of transfer cylinder 14, observe two transfer plates 23 layout that is closely adjacent to each other on the circumference of transfer cylinder 14.

Corresponding to the exemplary embodiment of Fig. 6, in axial part section 37, contact structures 28 are implemented as than have larger radial thickness in axial part section 38, and axial part section 38 does not relate in printing process.But compared with Fig. 6, the corresponding film 39 with larger radial thickness extends on the region of two transfer plates 23, that is, according to Fig. 8, observe in the axial direction, completely on left-hand rotation transfer printing plate 23 and partly on right-hand rotation transfer printing plate 23.

In the pattern of Fig. 8, the corresponding film 39 and 40 that is preferentially closely adjacent to each other location when observing in the axial direction and has different radial thickness is applied on transfer cylinder 14.

Therefore, about the present invention, enforcement contact structures 28 have been proposed, at the axial direction of transfer cylinder 14, it is positioned between the metallic carrier 24 and transfer cylinder 14 of rubber fabric swatch 23 in the situation that divert film 23 is formed as rubber fabric swatch, and in the situation that transfer plate 23 is formed as rubberized fabric, it is positioned between rubberized fabric 23 and transfer cylinder 14, and therefore in the situation that transfer plate is formed as rubber fabric swatch 23, the vicissitudinous thickness of tool on the width of the metallic carrier 24 of rubber fabric swatch.Therefore, can alleviate the problem known from prior art, particularly in the time that transfer cylinder 14 has deflection tendency due to large axial dimension and/or especially in the time of printing width substrate 21 only.The in the situation that of transfer cylinder 14 axial deflection, utilize the present invention can reduce the pressure difference that substrate 21 to be printed is observed on the axial direction of transfer cylinder 14.During the printing of partial width substrate 21, can reduce the improper heat load of those sections of this transfer plate of not relating to or each transfer plate 23 in printing process.

Claims

1. the print couple of a printing machine, there is inking colour cell (11), transfer cylinder (14) and plate cylinder (13), wherein said inking colour cell (11) is applied to printing-ink at least one forme (15) being positioned on described plate cylinder (13), the described printing-ink wherein starting out from described or each forme (15) can start to be out applied to substrate to be printed (21) via at least one transfer plate from described or each forme (15), described transfer plate is formed as being positioned rubberized fabric or the rubber fabric swatch (23) on described transfer cylinder (14), and wherein contact structures (28) are positioned between described transfer cylinder (14) and described or each rubberized fabric or between described transfer cylinder (14) and the metallic carrier (24) of described or each rubber fabric swatch (23), described contact structures (28) are connected to the described metallic carrier (24) of described transfer cylinder (14) or corresponding rubber fabric swatch (23), it is characterized in that, on the axial direction of described transfer cylinder (14), observe, the radial thickness of described contact structures (28) changes.

2. print couple according to claim 1, it is characterized in that, on the axial direction of described transfer cylinder (14), observe, in the middle part (29) of described transfer cylinder and/or in the portion's section (29 being covered by described substrate to be printed of described transfer cylinder, 37) in, described contact structures (28) have relatively large radial thickness, and while observing on the axial direction of described transfer cylinder in the outer of described transfer cylinder portion section (30, 31) in and/or in the portion's section (30 not covered by substrate to be printed of described transfer cylinder, 31, 38) at least one, described contact structures (28) have relatively little radial thickness.

3. print couple according to claim 2, it is characterized in that, on the axial direction of described transfer cylinder, observe, described contact structures (28) are different from described first side along the Second Edge of portion's section (30) phase antidirection finding along the thickness in portion's section (31) along having in portion's section (30) at described first side.

4. according to the print couple described in any one in claims 1 to 3, it is characterized in that, described contact structures (28) are by multiple films (32,33,34,35,36,39,40,41,42) form, described film is applied on described transfer cylinder (14) or on the described metallic carrier (24) of corresponding rubber fabric swatch (23), wherein on the axial direction of described transfer cylinder, observe, multiple films (32,33,34 of different radial thickness, 39,40,41,42) location that is closely adjacent to each other.

5. print couple according to claim 4, is characterized in that, on the axial direction of described transfer cylinder, observes, and described film (32,33,34,39,40,41,42) has different axial widths.

6. according to the print couple described in any one in claim 1 to 5, it is characterized in that, described contact structures (28) are by multiple films (32,33,34,35,36,39,40,41,42) form, it is upper that described film is applied to described transfer cylinder (14) described metallic carrier (24) upper or corresponding rubber fabric swatch (23), wherein in the observation in the radial direction of described transfer cylinder, one of multiple film (35,36) with different axial widths are positioned another top.

7. print couple according to claim 6, is characterized in that, in the observation in the radial direction of described transfer cylinder, described film (35,36) has different thickness.

8. a rubber fabric swatch with metallic carrier (24), has: functional structure (26), and it is for shifting ink the first side that is applied to described metallic carrier (24); And contact structures (28), it is for contacting the transfer cylinder in the second side that is applied to described metallic carrier (24), it is characterized in that, described contact structures (28) have the thickness changing on the width of described carrier (24).

9. rubber fabric swatch according to claim 8, it is characterized in that, in described middle part (29) and/or the portion's section (29 being covered by substrate to be printed, 37) in, described contact structures (28) have relatively large radial thickness, and while observing on the axial direction of described transfer cylinder in described outer portion section (30,31) in and/or in the portion's section (30 not covered by described substrate to be printed, 31,38) in, at least one, described contact structures (28) have relatively little radial thickness.

10. rubber fabric swatch according to claim 9, is characterized in that, described contact structures (28) at first side along thering is the Second Edge that is different from phase antidirection finding in portion's section (30) along the thickness in portion's section (31).

Rubber fabric swatch in 11. according to Claim 8 to 10 described in any one, is characterized in that, described contact structures (28) are by multiple films (32,33,34,35,36,39,40,41,42) form, described film gummed or sulfuration are upper to described metallic carrier (24), wherein on the width of described carrier (24), and multiple films (32 of different radial thickness, 33,34,39,40,41,42) location that is closely adjacent to each other.

12. rubber fabric swatch according to claim 11, is characterized in that, described film (32,33,34,39,40,41,42) has different width.

Rubber fabric swatch in 13. according to Claim 8 to 10 described in any one, is characterized in that, described contact structures (28) are by multiple films (32,33,34,35,36,39,40,41,42) form, described film gummed or sulfuration are upper to described metallic carrier (24), and one of multiple film (35,36) wherein with different axial widths are positioned another top.

14. rubber fabric swatch according to claim 13, is characterized in that, described film (35,36) has different thickness.