EP1020287A2 - Engraved roller for the dosed ink supply in a rotary printing press - Google Patents

Abstract

A color dosing print cylinder (1) is clad with an elastic sleeve which has a pattern of pockets (6) on the outer surface. each pocket has an elastic floor (8) with a void under each pocket. The voids are linked to variable pressures to increase and decrease the volume of the pockets and thereby adjust the color carrying capacity of the cylinder. A simple version has pockets in the outer surface of a solid cylinder and covered by a thin elastic sleeve, and with the pockets linked to a pressure/suction system.

Description

The invention relates to a meterable anilox roller, in particular for an anilox inking unit in a rotary printing press, according to the preamble of claim 1.

In the field of rotogravure and offset printing, inking units are used in which the printing ink via a doctor blade chamber into the wells or groove-shaped depressions an anilox roller, for example an anilox roller, is introduced, which the Printing ink then usually on the one or more intermediate rollers Surface of a printing form cylinder transfers.

Anilox rollers with recesses are known, which can be engraved, etched or with the help are introduced into the surface of the roller by lasers, the latter for example consists of steel, chrome, copper and / or ceramic. All rollers have in common that these cells or groove-shaped depressions, the volume of which Manufacture of the roller is set, and after that - apart from that by the Squeegee wear and tear - usually can no longer be changed.

Since the amount of ink transferred to the printing form is determined by the volume of the cells or the groove-shaped depressions of the anilox rollers is determined, and the total The amount of ink required depends on the size of the area to be inked on the printing form it with a view to optimally adapting the amount of ink supplied to the respective Print job desirable to be able to change the amount of color.

In this context, it is partially filled with ceramic rollers known from copper to remove copper from the filling by etching the roller thereby increasing the volume of the cells or grooves. A With these rollers, volume reduction can only be achieved by grinding the same can be brought about, but with a comparatively large mechanical effort is connected and also to adversely affect the Printing process impacting reduction in the size of the roller leads.

From DE 44 08 615 it is also known in the wells or depressions Anilox roller to bring a piezo-electric material, which is when a electrical voltage expands or contracts and thereby a change in the Well volume brings about. A disadvantage of the anilox roller described is that for a change in the well volume visible in the printed image, the piezo-electric Material in each of the wells must be subjected to a very high voltage, which not only leads to technical problems in the production of the anilox roller, but also due to the danger of voltage flashovers also a considerable one Poses a safety risk when operating the roller.

Accordingly, it is an object of the present invention to provide an anilox roller especially for an anilox inking unit of a rotary printing press, which has a simple structure, is inexpensive to manufacture and with which an effective and targeted change in the amount of ink transferred from the roller is possible.

This object is achieved by the features of claim 1.

Further features of the invention are contained in the subclaims.

The meterable anilox roller according to the invention is characterized in that the reason the wells, d. H. the cups or grooves, formed by an elastic material is formed below, from which chambers associated with the depressions are formed to increase or decrease the volume of the wells with a Pressure medium, for example pressurized with compressed air or with a liquid are. This has the advantage that by increasing or decreasing the Pressure of the pressure medium with a cumulative loading of all chambers entire amount of ink conveyed by the anilox roller can be changed in a simple manner can, for example, without the risk of voltage flashovers or other There are side effects that interfere with the printing process. However, it can be done in the same way be provided that the chambers below the wells in groups Corresponding supply channels are connected, which each have associated valves a different pressure can be applied independently of one another. If desired, this results in a simple and reliable zonal Changeability of the amount of ink supplied, as otherwise only from knife inking units is known, which are equipped with separately adjustable ink zone screws.

By using a structured tube, in the outer peripheral surface of which Wells, for example, by etching or laser processing or in other are introduced in a known manner, and on the inner peripheral surface between the Recesses arranged webs are formed, which with the pressure medium limit acting chambers laterally, there is the advantage that the roller comparatively inexpensive either directly by welding on Shaft journal on the pipe or when using a rotatably mounted cylindrical Roll core by simply pushing the structured tube onto the roll core can be manufactured.

According to a further embodiment of the anilox roller according to the invention, it comprises a roller base body, in the circumferential surface of which recesses are made, which are designed according to the shape of the wells and via feed channels inside of the roller base body can be acted upon with the pressure medium. To generate the Cup-shaped or groove-shaped depressions become in the aforementioned manner assembled roller base body then covered with a flexible coating that for example the shape of a plate or preferably a flexible, on the Has base body slidable sleeve. This results in a very simple to anilox roller that also produces an almost wear-free roller base has, since the flexible cover as the only wear part when the Print quality can be changed in a very short time. Here, the Supply channels for the pressure medium to the chambers, or the chambers themselves as one spiral-shaped single groove or if desired as a variety of in Grooves extending in the axial direction over the circumferential surface of the roller base body be trained. Because the grooves are very simple and with a very high accuracy by milling, etching or with the help of a laser in the preferably ground and Let the smooth circumferential surface of the roller base be brought in, is the manufacture of the roller body only slightly more expensive than the production of a conventional anilox roller with a fixed cell volume.

According to a further embodiment of the invention, the roller body consists of Area of its outer peripheral surface made of porous material, which is connected to the feed channels stands for the print medium, and in which the recesses directly are introduced. The feed channels can, for example, also directly in the porous material.

According to a particularly advantageous embodiment, the porous one Material also be shaped as a jacket body, which on a rotatably mounted core of the Roll body is slidable in the axial direction. Here are the feed channels preferably as a in the peripheral surface of the rotatably mounted core of the Roll body introduced and through the inner peripheral surface of the casing body designed groove covered to the outside, which means that the manufacturing effort again can be further reduced.

The flexible coating is preferred in the previously described embodiments formed by a sleeve which can be axially slid onto the roller base. The The sleeve is advantageously expanded by supplying compressed air the supply channels into the wells of the wells, causing the sleeve in its Diameter is expanded and on an air cushion on the roller base can be postponed. After switching off the compressed air and applying a vacuum via the Feed channels become the flexible coating on the roll base during operation of the Reliably fixed to the roller by applying compressed air to it again Feed channels in reverse when wear and tear occurs can be removed easily.

Furthermore, it can be provided that the depressions in the flexible coating as one fixed predetermined structure are introduced, which results in the advantage that the basic cell depth and cell volume in different areas the anilox roller even when applying a uniform vacuum to all cells can have different values, and an adaptation of the anilox roller different print jobs in an advantageous manner by simply exchanging the flexible coating can take place.

The pressure medium can be, for example, a gas, preferably air, with a appropriate increase or decrease in air pressure the desired Volume change is brought about. However, it is also possible as Pressure medium to choose a liquid, which gives the advantage that due to the incompressibility of liquids and the comparatively low temperature-related volume change of the same a very constant cell or Groove volume results, which is also at a high contact pressure of the rollers other rollers or only slightly changed in the event of strong temperature fluctuations. There is also the advantage that the use of liquids significantly generate larger pressures, which change the volume of the wells can be used.

Further features of the invention are described in the subclaims.

The invention is more preferred below with reference to the drawings Embodiments described.

Fig. 1

eine schematische Schnittansicht einer erfindungsgemäßen Rasterwalze, bei der die Vertiefungen dauerhaft in ein strukturiertes Rohr eingebracht sind und zwischen den Vertiefungen unterhalb derselben Stege angeordnet sind, welche die mit einem Druckmedium beaufschlagbaren Kammern definieren,

Fig. 2

einen Schnitt durch eine weitere bevorzugten Ausführungsform einer erfindungsgemäßen Rasterwalze, bei der die Druckfarbe aufnehmenden Vertiefungen durch einen flexiblen Überzug erzeugt werden, der auf den Walzengrundkörper aufgebracht ist und die darunter liegenden Kammern durch unmittelbar in die Außenumfangsfläche des Walzengrundkörpers eingebrachte Ausnehmungen gebildet werden,

Fig. 3

eine weitere Ausführungsform einer erfindungsgemäßen Rasterwalze, bei der die Ausnehmungen in einen Mantelkörper aus porösem Material eingebracht sind, welcher mit Zufuhrbohrungen für das Druckmedium im Inneren des Walzengrundkörpers in Verbindung steht und auf seiner Außenseite durch einen flexiblen Überzug abgedeckt ist.

Show in the drawings

Fig. 1

2 shows a schematic sectional view of an anilox roller according to the invention, in which the depressions are permanently introduced into a structured tube and are arranged between the depressions below the same webs which define the chambers to which a pressure medium can be applied,

Fig. 2

3 shows a section through a further preferred embodiment of an anilox roller according to the invention, in which the depressions receiving the ink are produced by a flexible coating which is applied to the base of the roller and the chambers below are formed by recesses made directly in the outer peripheral surface of the base of the roller,

Fig. 3

a further embodiment of an anilox roller according to the invention, in which the recesses are introduced into a jacket body made of porous material, which is connected to supply bores for the pressure medium in the interior of the roller base body and is covered on the outside by a flexible coating.

The embodiment of an anilox roller 1 according to the invention shown in FIG. 1 comprises a roller base body 2 in the form of a structured tube 2b, in the Outer peripheral surface 4 indentations 6 receiving ink are permanently introduced are. The structured tube 2b can, for example, be mounted on a rotatable one Roll core 2a may be axially slidable. The reason 8 of the wells will be thereby formed by a thin wall, below the one with a pressure medium actable chamber 10 is arranged, which by between the depressions 6th webs 12 arranged below the same is limited. By applying an overpressure or vacuum to the arranged below each recess 6 of the roller 1 Chambers 10, the bottom 8 of the recesses 6 due to the elasticity of the Change material in the manner indicated in Fig. 1 by the dashed lines.

By applying a negative pressure to the chambers 10, one of those with Pi <Pa designated lines, and thus an increase in the volume of the depressions 6, whereas when an overpressure is applied to the chambers 10 one of the ones with Pi> Pa designated positions of the base 8 is taken, which one A reduction in the volume of the recess corresponds. Here Pi denotes the pressure in Inside the chambers 10 and Pa the pressure outside the anilox roller 1, the latter corresponds to the air pressure of the ambient atmosphere, provided the roller is not inside a pressure chamber with positive or negative pressure is arranged.

In the embodiment of an anilox roller 1 according to the invention shown in FIG. 2, which is particularly advantageous with regard to the manufacturing process and Shows wear behavior, the roller base body 2 consists of solid material, for example made of aluminum or steel, in which preferably axial and radial Feed channels 14a and 14r are introduced. The radial feed channels 14r open into one Pressure distribution chamber 16, which is in the circumferential surface of the roller main body 2 recesses 18 is in flow connection. The recesses 18 can be formed, for example, as a spiral-shaped groove, or can have the shape of a cup. The cells can continue z. B. in itself extending axially through the roller base body 2, in FIG. 2 not supply bores shown may be connected to the pressure distribution chamber 16.

On the roller base body 2 formed in the manner described above is a Cover 20 made of a flexible material, such as rubber, plastic or applied a thin-walled metal. The cover 20 is preferably as a sleeve formed, which by applying compressed air to the supply bore 14a on a Air cushion can be pushed axially onto the roller body 2, and there after Switching off the compressed air and / or keeping it in a secure position when applying a vacuum becomes. It can be provided that the sleeve has a predetermined structure, whereby the basic volume of the depressions 6 as a whole and in different Adjust areas of the peripheral surface of the roller 1 to the respective requirements leaves. For example, in non-printing areas, e.g. H. in areas where no ink is to be transferred from the anilox roller 1, a structure with the Wells 6 convex bulges are used, which after Applying a negative pressure to the feed bore 14a or the recesses 18 an essentially flat area is deformed.

Furthermore, there is the possibility that according to the embodiment shown in FIG Invention the recesses 18 in a jacket body 22 made of solid and porous Material are formed, which via radial feed bores 24 with the pressure medium is applied. The radial feed bores 24 can be, for example, with a cavity 26 formed in the interior of the roller base body 2 stand, which acts on the axial supply bore 14a with the pressure medium becomes. The jacket body 22 made of porous material is preferably on a cylindrical smooth-walled core 28 of the cylinder body 2 axially pushed on, which is rotatably mounted in the inking unit of the printing press.

Finally, there is the possibility of the depth of the depressions 6 and thus the volume to change the depressions by increasing or decreasing the ambient pressure Pa, for example, in that the anilox roller 1 according to the invention is not within one shown completed and pressurized housing of the inking unit is housed.

REFERENCE SIGN LIST

pi

Internal pressure

Pa

External pressure

1

Anilox roller

2nd

Roller body

2a

rotatable roller core of Fig. 1st

2 B

structured tube

4th

Outer surface

6

Indentations

8th

Reason of deepening

10th

Chambers

12th

Walkways

14a

axial feed channel

14r

radial feed channel

16

Distribution zone

18th

Recesses

20th

flexible cover

22

Sheath body made of porous material

24th

Feed holes

26

cavity

28

smooth-walled core of the cylinder body

Claims (12)

Meterable anilox roller (1), in particular for an anilox inking unit of a rotary printing press, with a plurality of depressions (6) receiving printing ink arranged on the peripheral surface (4) of the roller (1),
characterized by
that the base (8) of the depressions is formed by an elastic material, and that below the depressions (6) there are associated chambers (10) which can be acted upon by a pressure medium to increase or decrease the volume of the depressions (6). Anilox roller according to claim 1,
characterized by
that this comprises a structured tube (2b), on the outer circumferential surface (4) of which the depressions (6) are permanently introduced, and on the inner circumferential surface between the depressions (6) arranged webs (12) are formed, which act on the chambers with the pressure medium (10) form. Anilox roller according to claim 2,
characterized by
that it comprises a rotatably mounted roller core (2a) onto which the structured tube (2b) can be pushed. Anilox roller according to claim 1,
characterized by
that recesses (18) are formed in the peripheral surface of the roller base body in accordance with the shape of the depressions (6) and can be acted upon by supply channels (14a, 14r, 16, 24, 26) and are covered with a flexible coating (20) and which form the channels (10). Anilox roller according to claim 4,
characterized by
that the recesses (18) are designed as a spiral circumferential groove. Anilox roller according to claim 4,
characterized by
that the recesses (18) are formed by grooves running in the axial direction over the peripheral surface of the roller base body (2). Anilox roller according to claim 4,
characterized by
that the roller base body (2) is made in the region of its outer peripheral surface from porous material which is connected to the feed channels (24, 26, 14a) for the printing medium and into which the recesses (18) are made. Anilox roller according to claim 7,
characterized by
that the recesses (18) are formed directly in a jacket body (22) made of the porous material, which is applied to a rotatably mounted core (28) of the roller base body (2). Anilox roller according to one of claims 4 to 8,
characterized by
that the flexible coating (20) is formed by a sleeve which can be pushed axially onto the roller base body (2). Anilox roller according to claim 9,
characterized by
the depressions (6) are introduced into the sleeve as a fixed, predetermined structure. Anilox roller according to one of the preceding claims,
characterized by
that the print medium is a liquid. Anilox roller according to one of claims 1 to 10,
characterized by
that the pressure medium is a gas, which acts from the outside on the peripheral surface of the anilox roller (1), and that the increase and decrease in the volume of the depressions (6) takes place by a corresponding increase or decrease in the gas pressure.

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