EP1156393A2 - Printing machine - Google Patents

Abstract

Printer has one or more print mechanisms whose image cylinders (3) are driven by friction from an image transfer roller (4) which is used to transfer an image (5) to a print medium. The widths (6, 6') of the image cylinder and the transfer roller are sufficiently wider than the maximum width of the transfer image (5) that the rotational velocity of the image cylinder during changing of an image remains essentially constant.

Description

The invention relates to a printing press with at least one printing unit, the Image cylinder is driven by friction from an element to which the image is transferred becomes.

In such printing machines, it has been shown that as a result of a change in Images or the printing substrates to a change in the speed of the image cylinder can come. Changes in the speed are related to the pictures of the Toner application, i.e. toner thickness, toner distribution and image width as well as with regard to the Print substrates whose thickness, width and possibly also other properties of the Printing substrate.

This leads to register inaccuracies when moving from one print page to the next Changes in the sizes mentioned result from a change in speed Image cylinder both the assignment of an image to the printing substrate and the Assignment of the partial color images to one another becomes incorrect. To the register errors To counteract this, register marks are used in the printing presses of a known type printed and evaluated, for example, for digital image generation accordingly to control. However, this kind of problem solving takes time and it is through it in particular not possible to move seamlessly from one printed page to another without To stop the machine running. Such a seamless transition stands in the way of the time required for test prints and evaluation as well as the fact that when changes are made without interrupting the printing process, they become mutual Influencing of printed pages that comes with regard to the images and / or the Print substrates have differences. It is particularly important to have the influence such changes turn off when the successively printed pages differ in terms of content and paper.

The invention is therefore based on the object of a printing press at the outset mentioned type in such a way that the influence of a change in image content and / or sizes are kept as small as possible. As an additional task, the Influence of changes in the printing substrates can be kept as low as possible.

The object is achieved in that the width of the image cylinder and Element at least as much wider than the maximum width of the image to be transferred is that the speed of the image cylinder essentially changes when the image changes remains constant. The additional task is characterized by the features of claims 2 and 4 solved.

The invention is based on the knowledge that the influence of a change of the above variables on the speed of the image cylinder driven by friction only within certain ranges of the image and / or print substrate width in their relationship to the width of the image cylinder and that driving the image cylinder Elements affects. There is a range from when a minimum difference is exceeded, that the image cylinder and the element driving the image cylinder are wider than the width of the image in which changes in the above variables affect the speed of rotation Image cylinder no longer exert a significant influence. This area is after Not exceeding this minimum difference. The use of this area lies the invention. However, this area cannot be output in concrete dimensions as the specific location depends on the design of a machine type depends. Therefore, this range must be determined for each type of machine for example, can be done empirically. There is a similar one Area also with regard to the printing substrates, with the elements carrying the printing substrate must also be a minimum of wider than the printing substrates.

The invention makes a printing machine available, which with respect to its Register accuracy when changing the above sizes a high consistency having. This means that there are no or significantly less corrections to the register a change of the sizes mentioned is necessary. In this way, the loss of time considerably reduced to take into account changes in the sizes mentioned or reduced to zero. A printing press can often do this seamlessly one printed page after the other from the last printed page to press. The invention therefore makes the performance and register accuracy one Printing press increased, and it is also different in the continuous printing Print pages or short runs can be economically achieved.

Depending on how the specific printing press is designed, it can be Element that drives the image cylinder by friction around an element of the most varied Act kind. It can also be a cylinder or one with rollers Act band. It may already be the substrate for printing substrates or a act arbitrarily designed image transmission element, which the images into one Print substrate carrier transported further.

The dimensioning of the width of the image cylinder and the element or elements driving it depends on the image width when in the drive train for the image cylinder only pure image transfers take place. This dimensioning is based on the Print substrate width and thereby becomes larger around the non-printing edge when in this drive train, images are transferred to printing substrates.

One embodiment of the invention therefore provides that the element that forms the image cylinder drives, is the carrier that carries the printing substrates during the printing process and the width of the image cylinder and element is at least as much wider than that maximum width of the printing substrate that the speed of the image cylinder in the event of a change the printing substrate remains essentially constant. In this case, takes effect the width of the image is the width of the print substrate, but the print substrate is either the same width as the image or by a mostly relatively small image-free one Edge is wider.

In another embodiment of the printing press, the element is an image transfer cylinder. If the drive takes place directly via the image transfer cylinder or cylinders, so is only the image width for dimensioning the width of the image cylinder and the image transfer cylinder. However, it is provided that the image transfer cylinder is driven by the carrier for the printing substrates, so must also be provided here that the width of the image cylinder, image transfer cylinder and carriers are at least as much wider than the maximum width of the printing substrate, that the speed of the image cylinder when changing the sizes mentioned in remains essentially constant. With such power transmissions, at least when a printing substrate is passed between elements, one of the elements is one have certain elasticity which, even without the inclusion of a printing substrate Power transmission guaranteed.

It is preferably further provided that on the side of the carrier, the image transmission opposite, an impression cylinder is arranged, which is also at least has the above width. In this case, this is the width that follows the maximum width of the printing substrate. Regarding the carrier can be provided be that this is driven by a drive roller.

The measure according to the invention is preferably used in printing machines, where the image is a toner image because of its thickness, profile and size which, in normal machine operation, very often moves from one print page to the next switch. These are mostly printing presses with one device are equipped for digital image generation, usually a device for digital electrostatic imaging, with additional facilities for the Toner and toner removal are available. In such printing machines each image is newly generated, so that such a machine preferably in one Area is used in which each printed page from the previous and the following is different.

Fig. 1

ein Beispiel für eine Druckmaschine, die erfindungsgemäß ausgestaltet sein kann,

Fig. 2.

ein Druckwerk einer solchen Druckmaschine und

Fig. 3

ein Diagramm zur Erläuterung der erfindungsgemäßen Ausgestaltung.

The invention is explained below with reference to the drawing. Show it

Fig. 1

an example of a printing press which can be designed according to the invention,

Fig. 2.

a printing unit of such a printing press and

Fig. 3

a diagram for explaining the embodiment of the invention.

Fig. 1 shows a printing press 1, which can be designed according to the invention. This printing press 1 has at least one printing unit 2, generally four such printing units 2. Each printing unit 2 has an image cylinder 3 and an element 4 with an elastic coating, to which the image 5 is transferred. In the illustrated embodiment of the printing press 1, the element 4 is an image transfer cylinder 14, which is driven by the carrier 9 or printing substrates 10 located thereon, the force transmission being achieved by a partial wrap.

Furthermore, a carrier 9 is provided which carries the printing substrates 10 and through a Drive roller 17 is driven. On the carrier 9 are opposite the image transfer cylinders 14 impression cylinders 16, which mechanically and electrostatically support the image transmission.

Devices 18 for image generation are arranged on the image cylinders 3. It deals in the exemplary embodiment are devices 18 'for digital electrostatic Imaging. Furthermore, 3 devices 19 are located on the image cylinders the toner application and means 20 for removing the non-image transfer cylinder 14 transferred toner.

The images 5 generated by the devices 18, 18 '- in a multi-color printing press 1 are partial color images of the different printing inks generated for each print page and then by means of an image transmission 15, 15 'from Transfer image cylinder 3 to the image transfer cylinder 14. Another image transfer 15, 15 "takes place from the image transfer cylinder 14 onto the printing substrates 10 instead, which are on the carrier 9. The arrow 21 shows the transport direction of the Print substrates 10 and arrows 23 show the direction of rotation of the cylinders. The Printing substrates 10 are detected by means of a sensor 22 which is controlled by a controller 29 for the control of the devices for image generation 18, 18 'is connected.

FIG. 2 shows a printing unit 2 of a printing press 1 designed according to the invention in a view perpendicular to the transport direction 21 of the printing substrates 10. The same reference numerals correspond to the parts already described for FIG. 1.

In the upper part of this illustration, however, the case is shown in a departure from FIG. 1, that the drive takes place via the image transfer cylinder 14. An image transfer takes place 15 'from image cylinder 3 to image transfer cylinder 4, image 5 has a width 7 '. If this image width 7 'corresponds to the maximum image width 7, there must be a minimum difference 12 between this maximum image width 7 and the minimum width 6 of the image cylinder 2 to be present, which is achieved by the invention To achieve constant speed compared to changes in Fig. 5 and printing substrate 10.

The image cylinders 3 are driven as shown in FIG. 1 via the carrier 9, the image 5 is transferred to the printing substrate 10, it is necessary that the minimum widths 6 'of the image cylinder 3 and of the further image or substrate-carrying elements 4 and 9 have a minimum difference 12 'to the maximum printing substrate width 11. Drawn here is a print substrate width 11 'which corresponds to the maximum print substrate width 11.

In the illustration in FIG. 2, the minimum dimension 6 has been chosen for the sake of simplicity pure image transmission 5 in the drive train for the image cylinder 3 with the same dimension drawn as the minimum width 6 'when transferring an image to a printing substrate 10 in such a powertrain. In fact, of course, the minimum image width 6 ' be correspondingly larger than the minimum image width 6 by the larger width 11 of the Printing substrate 10 compared to the smaller width 7 of the image 5 with the same construction a machine, but with drive of the image cylinder 3 via the carrier 4, invoice to wear. These dimensions were shown correctly in FIG. 3.

3 shows a diagram to explain the configuration according to the invention. 3, the speed 8 of the image cylinder 3 is plotted against the dimensions 25 with respect to the width of the image and printing substrate in relation to the width of the image cylinder and elements to which the image is transferred.

If the image cylinder 3 is driven without friction during power transmission the toner of an image 5 and / or a printing substrate 10 in the power transmission path is located, the speed 24 of the image cylinder 3 is constant.

If an image 5 is transmitted between the image cylinder 3 and a driving element 4, then the speed curve 26 occurs, this is due to a deformation of the elastic covering of the image transfer cylinder 14. The speed curve 27 occurs, if a printing substrate 10 is on the carrier 9, since this is the effective radius of the Image transfer cylinder 14 changes. This creates an area 28 in which the Speed 8 of the image cylinder 3 for different images, that is, different toner profiles, Toner thickness, toner distribution and image widths is not constant. It is therefore necessary that the minimum width 6 of the image cylinder 3 and the maximum image width 7 outside this area 28 lie. This is achieved by making the minimum difference 12 between the maximum image width 7 and the minimum width 6 of the image cylinder 3 are observed becomes.

The power transmission takes place via an image transmission point 15 "in which the 5 is applied to a substrate 10, it is necessary that an area 28 ' is avoided in which the speed 8 of the image cylinder 3 is not constant. there the minimum width 6 'of the image cylinder 3 essentially increases by the image-free one Edge 13 of the printing substrate 10. Again, there must be a minimum difference 12 'between the maximum printing substrate width 11 and the minimum width 6 'of the image cylinder 3 and Elements 4 are observed to ensure a constant speed 8 against changes of the printing substrate 10 such as printing substrate thickness, width and other nature to achieve. The elements 4 can be the carrier 9 if this drives the image cylinder 3 directly or it can be both the support 9 act as well as the image transfer cylinder 14 when the machine is constructed in this way is as shown in FIGS. 1 and 2.

As already mentioned for FIG. 3, the invention is of course not based on the configuration a printing press, as shown in FIGS. 1 and 2, limited. Except the direct transfer of images 5 from image cylinders 3 to the printing substrates 10, it is also possible that an image transmission element, the images 5 of all image cylinders 3 collects and then transfers them together to a printing substrate 10. The Invention is also not based on electrostatic or digital imaging at all limited, the occurs even when transferring color instead of toner mentioned effect of the speed change of image cylinders on the invention can be solved. So there are all types of printing machines according to the invention configurable.

Reference list

1

Printing press

2nd

Printing unit

3rd

Image cylinder

4th

Element to which the image is transferred

5

image

6, 6 '

Minimum width of the image cylinder and other image or substrate bearing elements

6

with pure image transmission within the drive train for the image cylinder

6 '

when transferring images to a print substrate within the drive train for the image cylinder

7

maximum image width

7 '

Image width

8th

Image cylinder speed

9

Carrier that carries the printing substrates

10th

Printing substrates

11

Maximum print substrate width

11 '

Print substrate width

12th

Minimum difference between the maximum image width and the width of the Image cylinder and other image or substrate-bearing elements (9, 14)

12 '

Minimum difference between the maximum print substrate width and the width the image cylinder as well as other image or substrate-bearing elements (9, 14)

13

non-image edge of the print substrate

14

Image transfer cylinder

15

Image transmission

15 '

Image transfer image cylinder - image transfer cylinder

15 "

Image transfer Image transfer cylinder - printing substrate

16

Impression cylinder

17th

Drive role of the carrier

18, 18 '

Imaging device

18 '

Device for digital electrostatic imaging

19th

Setup for toner application

20th

Toner removal device

21

Arrow: transport direction of the printing substrates

22

Sensor for the detection of printing substrates

23

Arrow: Direction of rotation of the cylinders

24th

Rotation speed of the image cylinder without toner application, i.e. without image transfer

25th

Dimensions (width) of image, printing substrate, image cylinder and Elements to which the image is transferred

26

Speed curve of the image cylinder with pure image transmission (Toner transfer) in the drive train for the image cylinder

27

Speed curve if there is a picture in the drive train for the image cylinder is transferred to a printing substrate

28, 28 '

Area in which the speed of the image cylinder is not constant

29

control

Claims (9)

Printing machine (1) with at least one printing unit (2), the image cylinder (3) of which is driven by friction from an element (4) to which the image (5) is transferred,
characterized in that the width (6, 6 ') of the image cylinder (3) and element (4) is at least so much wider than the maximum width (7) of the image (5) to be transmitted that the speed (8) of the image cylinder (3) remains essentially constant when the image (7 ') changes. Printing machine according to claim 1,
characterized in that the element (4) is the carrier (9) which carries the printing substrates (10) during the printing process, and the width (6 ') is at least as much wider than the maximum width (11) of the printing substrate (10 ) that the speed (8) of the image cylinder (2) remains essentially constant when the printing substrates (11 ') change. Printing machine according to claim 1,
characterized in that the element (4) is an image transfer cylinder (14). Printing machine according to claim 3,
characterized in that the image transfer cylinder (14) is driven by the support (9) and the width (6 ') of the image cylinder (3), image transfer cylinder (14) and support (9) is at least as much wider than the maximum width (11 ) of the printing substrate (10) that the speed (8) of the image cylinder (3) remains essentially constant when the printing substrates change. Printing machine according to one of claims 1 to 4,
characterized in that an impression cylinder (16) is arranged on the side of the carrier (9) opposite the image transmission (15, 15 '), which also has at least the width (6'). Printing machine according to one of claims 1 to 5,
characterized in that the carrier (9) is driven by a drive roller (17). Printing machine according to one of claims 1 to 6,
characterized in that the image (5) is a toner image. Printing machine according to one of claims 1 to 7,
characterized in that it has a device (18, 18 ') for digital image generation. Printing machine according to claim 8,
characterized in that it includes means for digital electrostatic imaging (18 '), for toner application (19) and for toner removal (20).

Images