EP1422061A1 - Printing cylinder with a cylindrical core and at least one tubular sleeve - Google Patents

Abstract

The plate cylinder has a cylinder body having an outer surface for one image to be printed. The inner surface (56) of a shell (16) is set to a cylinder body end (22,14) such that the shell has a gap (30) for holding a printing plate (40). The shell, axially movable on the cylinder body end, has an outer surface for other image to be printed and the inner surface with a projection (52) extending into the gap. An Independent claim is also included for an offset lithographic printing press.

Description

The present invention relates to a plate cylinder according to the preamble of Claim 1.

Printing plate cylinders are known from the prior art, which on their circumference Take up printing plates. The printing plates can be directly on the circumference of the cylinder or be included at the periphery of a hollow cylindrical jacket element, wherein the jacket element in turn on a reduced-diameter section of the cylinder is included.

Japanese Patent Application No. 2000-954 A describes one Printing plate cylinder with a cylinder body and a section of the Cylinder body with a smaller diameter applied jacket element that for Setting the side and circumferential registers attached to the jacket element Printing plate with respect to one on the other side of the printing plate cylinder on the Cylinder body attached pressure plate is movable independently. The jacket element has an even wall thickness.

EP 1 913 059 A1 discloses a plate cylinder, each with the end section of the Cylinder jacket elements, which are made with the help of the bottom of the Axially extending arms covering jacket elements relative to a cylinder body are movable. The jacket elements have a uniform wall thickness.

DE 101 35 506 A1 discloses a plate cylinder with an axially movable, in Circumferential direction, however, stationary jacket element arranged on a cylinder body. The jacket element has narrow grooves which guide the jacket element along narrow projections of the body of the cylinder in the axial direction Register operations are provided. The jacket element has such a large one Wall thickness on that a channel for receiving plate edges only a little in that Sheath element penetrates.

This is the case with printing cylinders that only accommodate one printing plate in the circumference Problem that when using the known jacket elements for register adjustment Diameter of the remaining cylinder body is so small that a sufficient Flexural rigidity may not be guaranteed.

At the same time, there is the problem that the wall thickness of the jacket element for receiving the plate edges must have a certain thickness and therefore not arbitrarily small can be chosen.

It is an object of the present invention to provide an improved plate cylinder to create at least one jacket element.

It is another object of the present invention to provide a plate cylinder which can accommodate at least one jacket element, but a sufficient one Has flexural rigidity.

These tasks are achieved by a device with the features according to claim 1 solved. Further features of the present invention are in the subclaims contain.

A plate cylinder according to the invention with a cylinder body and at least one Sheath element, which at least in the axial direction on the cylinder body is displaceable and has a channel for holding a pressure plate, stands out characterized in that the jacket element at least in the region of the channel one inwards has directed projection, wherein the channel extends into the projection.

An advantage of the invention is that the arrangement of the channel in the Projection of the jacket element, the wall thickness of the jacket element can be reduced can, so that the diameter of the cylinder body at the same time in sections, in particular in reinforcement ribs designed as projections can. This advantageously improves the bending stiffness of the cylinder body.

Since the channels used to attach printing plates often take up a lot of space Clamping mechanism, the present invention provides enough space for the channel and the clamping mechanism in the inward projection, while in other places, a low material thickness is advantageously possible. There this also reduces the weight of the jacket element, is the displacement of the Jacket element advantageously facilitated during register adjustment processes.

The jacket element is preferably at least partially in relation to the cylinder body Circumferential direction, in particular to register setting operations, movable.

The jacket element can also have a plurality of inward projections exhibit.

The jacket element can be an additional one which is spaced in the circumferential direction from the channel Have channel, which extends into a further inward projection extends.

The projections are preferably arranged symmetrically in the circumferential direction (preferably at angles of 360 ° / n where n is an integer greater than 2) and have in particular have essentially the same distances from one another.

The cylinder body preferably comprises at least one facing outwards Projection, which is at least partially adjacent to a projection of the in the circumferential direction Sheath element comes to rest.

Furthermore, projections of the cylinder body advantageously form between them a space for a projection of the jacket element, the space is wider than the projection of the jacket element. This will create a Circumference register adjustment enabled.

The cylinder body preferably carries a plurality of jacket elements in the axial direction, in particular on one or both end sections a jacket element. This can the page register can be set, especially to compensate for the fan-out effect (Wide stretch of the web when absorbing moisture).

In addition, a clamping device can be arranged in the channel. Advantageously the jacket element can thus have a wall thickness between those projecting inwards Have projections that are smaller than the corresponding dimension of a Clamping device is.

Several pressure plates can be accommodated on the jacket element in the axial direction his. For example, there can be two pressure plates on one jacket element be included, again at each end of the cylinder body Sheath element can be included. There can be two between the jacket elements Pressure plates on the cylinder body so that the cylinder has a total of 6 Carries pressure plates in the axial direction. 1 or 2 Printing plates must be included.

The jacket element can be designed as a sleeve.

Further features and advantageous embodiments of the invention are in the following description of preferred embodiments in connection with the attached drawings listed below.

Fig. 1

einen erfindungsgemäßen Plattenzylinder mit einem ein Bild tragenden Zylinderkörper und einem das andere Bild stützenden Mantelelement;

Fig. 2

einen Querschnitt des in Fig. 1 gezeigten Plattenzylinders;

Fig. 3, 4 und 5

alternative Mantelelement- und Zylinderkonstruktionen;

Fig. 6

einen Plattenzylinder mit einem drei Bilder tragenden Zylinderkörper und zwei Mantelelementen; und

Fig. 7

eine beispielhafte erfindungsgemäße Offsetdruckmaschine.

Show it:

Fig. 1

a plate cylinder according to the invention with a cylinder body bearing an image and a jacket element supporting the other image;

Fig. 2

a cross section of the plate cylinder shown in Fig. 1;

3, 4 and 5

alternative shell element and cylinder designs;

Fig. 6

a plate cylinder with a three-image bearing cylinder body and two jacket elements; and

Fig. 7

an exemplary offset printing machine according to the invention.

1 shows a printing cylinder, more precisely a printing form cylinder or plate cylinder 10, e.g. B. for printing in a direct or indirect process on a substrate such as Paper having a cylinder body 14 with two ends 12 and 22. The ends can be designed as a cylinder journal. On one end 22 facing one reduced effective diameter of the first section (e.g. the first Half) of the cylinder 14 is essentially around the cylinder body 14 hollow cylindrical jacket element 16 arranged. The jacket element 16 is preferably sleeve-shaped.

On a second section facing the end 12, the cylinder body 14 comprises which does not receive a jacket element, just like the jacket element 16, on it Outside area an image area 24. In the respective image area there is a printable area Print image defined. The two image areas 24 are essentially the same long scope, d. H. the outer diameter of the cylinder body 14 in the range of second section and the outer diameter of the jacket element 16 in the region of first section are essentially the same size.

The casing element 16 can be relative to a cylinder body outer surface or one Image area 24 on the outer surface of the cylinder body both axially and in limited Dimensions in the circumferential direction are moved and aligned in register, z. B. with help a motor or gear register register device 20 covering an area 18 of the jacket element 16 is contacted in a driving manner to a lesser extent.

FIG. 2 shows a cross section of the plate cylinder 10 shown in FIG. 1 along the line A-A. The jacket element 16 is in the circumferential direction around the cylinder body 14 arranged, d. H. it encompasses the cylinder body 14. The jacket element 16 has one the inner surface 56 arranged around the cylinder body 14. The cylinder body 14 has outward projections or tabs 62 that are in between each other Form a distance or space S circumferential direction.

The inner surface 56 of the jacket element 16 has inward projections or Lugs 52, which fit into the interstices S at a sufficient distance and thus Free spaces 58, d. H. Define free spaces. The space S is in Circumferential direction wider than the projection 52, so that between one side 66 of the Projection 62 and a side 72 of the projection 52 when the Projection 62 in the space S there is a distance D through which a movement of the Sheath element 16 in the circumferential direction for setting the circumferential register of the Sheath element 16 is made possible.

Contact the inner surface 56 of the shell member 16 and the cylinder body 14 each other in a contact area 53 which is covered with a friction reducing material, e.g. PTFE, can be provided to the relative movement in the axial direction and in To facilitate circumferential direction.

The projections on the jacket element and on the cylinder body form axially extending ribs or webs which advantageously reinforce or stiffen the respective Lead component.

An axially extending channel is located on the outer surface 26 of the casing element 16 30 for receiving the plate edges of an image-bearing printing plate 40, e.g. one flexible offset printing plate. A clamping device 32 can be provided in order to Plate edges and thus to fix the plate to the jacket element 16. The Image area 24 of cylinder 14 (FIG. 1) also has an axially extending channel a clamping device for a further pressure plate, which is axially adjacent or is arranged at a distance from the plate 40.

The casing element 16 thus comprises areas 54 of reduced material thickness or thickness between the projections 52 (areas of high material thickness or thickness). The projections 62 of the cylinder body come to lie between the projections 52 of the casing element 14, ie radially with respect to the areas 54. The casing element 16 and the cylinder body 14 thus form a serration.
Since the cylinder body 14 has a larger diameter in the regions of the projections 62 than in the regions of the interstices S, such a cylinder body advantageously has greater flexural rigidity than a cylinder body without projections 62. Improved flexural rigidity can reduce problems such as streaking during printing or prevent.

Fig. 3 shows an alternative embodiment of the present invention, in which both the casing element 116 and the cylinder body 114 each have four projections or four Have noses. For receiving pressure plates on the circumference of the casing element 116 can have two axially extending channels 130, 135, preferably offset by 180 ° be provided. Thus, the plate cylinder is a two printing plates in circumference load-bearing plate cylinder. Several plates can also be used in the axial direction be recorded side by side. So 2: 4, 2: 6 or 2: 8 plate arrangements are possible, wherein at least 2 plates in the circumferential direction on a movable common Sheath element are included. The projections can preferably in Be essentially eight-circle-shaped.

FIG. 4 shows a further alternative embodiment with a cylinder body 214 which has a single, outward projection, and with a jacket element 216, which has a single inward projection 218. Both ledges can preferably be substantially semicircular. To the Fastening a pressure plate is a channel 230 extending into the protrusion 218 intended.

FIG. 5 also shows an alternative embodiment in which the casing element 316 in one of two protrusions has a channel 330, the two protrusions engage between two projections of the cylinder body 314. The jacket element shown could also have two channels, preferably offset by 180 °, for holding two plates be provided.

In principle, at least as many channels for holding plates are conceivable as that Sheath element has inwardly projecting projections.

6 shows two register-adjustable jacket elements 416, 516, between which there is a central image area 414 of a cylinder 410, so that three or more axially adjacent or offset and possibly spaced apart Image areas can be provided.

Fig. 7 shows the use of the plate cylinder 10 in an exemplary Offset printing machine 100 with a blanket cylinder 2 and a printing material web 5. As soon as the plates are attached to the plate cylinder 10, the jacket element 16 (or more jacket elements) and the cylinder body 14 during a print run rotated together, and the axial or circumferential register can be adjusted become.

List of reference numbers

2

Blanket cylinder

5

train

10

plate cylinder

12

End of the cylinder body

14

cylinder body

16

jacket element

18

Smaller area

20

Register actuator

22

End of the cylinder body

24

Image area 26 outer surface

30

channel

32

clamping device

40

plate

52

head Start

53

contact area

54

Area of reduced thickness

56

Inner surface

58

Free rooms

62

Tab / nose

66

page

72

page

100

press

114

cylinder body

116

jacket element

130

channel

135

channel

214

cylinder body

216

jacket element

218

head Start

230

channel

314

cylinder body

316

jacket element

330

channel

410

cylinder

414

image area

416

jacket element

516

sheath elements

S

gap

D

distance

Claims (12)

Plate cylinder (10) with a cylinder body (14, 114, 214, 314, 414) and at least one jacket element (16, 116, 216, 316, 416) which can be displaced on the cylinder body at least in the axial direction and a channel (32, 130, 135, 230, 330) for holding a pressure plate (40),
characterized in that the casing element (16, 116, 216, 316, 416) has an inward projection (52) at least in the region of the channel (32, 130, 135, 230, 330), the channel (32, 130, 135, 230, 330) extends into the projection (52). Cylinder (10) according to claim 1,
characterized in that the jacket element (16, 116, 216, 316, 416) is movable in the circumferential direction with respect to the cylinder body (14, 114, 214, 314, 414). Cylinder (10) according to claim 1 or 2,
characterized in that the jacket element (16) has a plurality of inward projections (52). Cylinder (10) according to one of the preceding claims,
characterized in that the casing element (16, 116, 216, 316, 416) has an additional channel (30, 130, 135, 230, 330) spaced apart from the channel (32, 130, 135, 230, 330) in the circumferential direction extends into a further inward projection (52). Cylinder (10) according to claim 3 or 4,
characterized in that the projections (52) are arranged symmetrically in the circumferential direction, in particular have essentially the same distances from one another. Cylinder (10) according to one of the preceding claims,
characterized in that the cylinder body (14, 114, 214, 314, 414) has at least one outward projection (62) which is at least partially circumferentially adjacent to a projection (52) of the casing element (16, 116, 216, 316, 416) comes to rest. Cylinder (10) according to claim 6,
characterized in that projections (62) of the cylinder body (14, 114, 214, 314, 414) form a gap (S) for a projection (52) of the casing element (16, 116, 216, 316, 416), the gap (S) is wider than the projection (52) of the casing element (16, 116, 216, 316, 416). Cylinder (10) according to one of the preceding claims,
characterized in that the cylinder body (14, 114, 214, 314, 414, 514) carries a plurality of casing elements (16, 116, 216, 316, 416, 516) in the axial direction, in particular a casing element (16 , 116, 216, 316, 416, 516). Cylinder (10) according to one of the preceding claims,
marked by
a clamping device (32) arranged in the channel (30, 130, 135, 230, 330). Cylinder (10) according to one of the preceding claims,
characterized in that a plurality of pressure plates (40) are received in the axial direction on the casing element (16, 116, 216, 316, 416, 516). Cylinder (10) according to one of the preceding claims,
characterized in that the jacket element (16, 116, 216, 316, 416, 516) is designed as a sleeve. Printing machine, in particular offset printing machine,
marked by
a plate cylinder (10) according to any one of the preceding claims.

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