EP1157855A1 - Rubber sleeve, especially for rotary offset printing presses - Google Patents

Abstract

The sleeve (2.2) has an inner support sleeve (3) that can be expanded by air, at least one compressible layer (4) and an outer cover layer (6). The cover layer has an impact point (16.2), which is filled with a compressible material. The compressible layer preferably cannot by expanded or is arranged over a layer (5) that cannot be expanded. Preferably, all the layers have impact points arranged on top of each other.

Description

The invention relates to a rubber sleeve according to the preamble of claim 1. A similar device is known from DE 196 28 555 A1.

Such sleeves are, for example, from US Pat. Nos. 5,429,048,5 323 702, 5 440 981 and 5 304 267. A disadvantage of this known Rubber cylinder sleeves (transfer cylinder sleeves) is that the middle and lower layers of the same must be at least partially continuous. This has a particularly disadvantageous effect on the manufacturing costs.

From US Pat. No. 5,351,615 it is also known to refer to a Carrier plate to apply a rubber blanket, for. B. by gluing. After that, this Arrangement formed into a rubber cylinder sleeve and both on top of each other facing ends of the carrier plate and that of the rubber blanket, or Rubber flooring connected together, e.g. B. by welding or gluing. This arrangement no longer shows a gap, but remains on the surface a joint, or a joint.

In the rubber cylinder sleeve shown in US Pat. No. 5,429,048 it is Outer layer continuously sleeve-shaped and consists of an incompressible Material. Apart from the higher ones already mentioned Manufacturing costs, a continuous outer layer has the disadvantage that the Blanket sleeve at the rolling contact with a form and a Back-pressure cylinder is loaded with tangential forces, which are with everyone Revolution add further forces. There is a high burden on the Blanket sleeve. This burden also adversely affects the Print quality (e.g. due to the tendency of the rubber blanket sleeve to slip printing web in the printing nip and in the unrolling nip to form a plate cylinder).

The object of the present invention is a generic Rubber cylinder sleeve, especially for offset web-fed rotary printing presses, in Compared to the known sleeves of this type cheaper to manufacture at about same or improved print quality and behavior.

The task is accomplished through the application of the characteristics of the independent Claim 1 solved. The rubber cylinder sleeve is inexpensive to produce. It also enables good print quality because it matches the compressible material filled joint allows tangential forces during the rolling contact with other printing unit cylinders.

Advantageous developments of the invention result from the Subclaims and from the description in conjunction with the drawings.

As from the prior art, such as in the preceding was set out, is known, there is the basic structure of such Rubber cylinder sleeves essentially from an inner, preferably metallic sleeve. However, it can also be used instead of the inner metal sleeve For example, a glass fiber reinforced sleeve (GRP) can be used. This The thickness of the sleeves is such that they can be pushed onto the Transfer cylinder, which is usually used for indirect printing processes working printing machines is called rubber cylinders, by air slightly can be expanded. This is advantageous because, like that, in particular U.S. Patent 5,429,048 shows such a sleeve through the side wall of a Printing machine on the previously uncovered transfer cylinder can be postponed. It is just with the help of Transfer cylinder provided openings with the sleeve to be pushed on Compressed air expanded so that application is possible in a simple manner after which the compressed air is removed and the sleeve is firmly seated occupies on the transfer cylinder.

At least one is on this inner, preferably metallic support sleeve another layer - directly or indirectly - applied, which is compressible, d. i.e., the Has air pockets. At least one top layer is over this layer provided, which can for example consist of an elastomeric material. With this material, a forme cylinder or a printing form, for example an offset printing plate or a sleeve-shaped offset printing form, the image to be printed is transferred and transferred to a print carrier.

There is preferably between the compressible layer (e.g. an elastomer with Air pockets) and the top layer another non-stretchable layer provided, for example in the form of a hard elastomeric material or for example in the form of short fibers (e.g. threads) that are also in the hard elastomeric material can be embedded. Alternatively, one cannot stretchable layer or non-stretchable particles, such as threads or pieces Threads, introduced directly into the volume compressible layer mentioned above become.

Fig. 1:

teilweise einen Transferzylinder mit Gummituchhülse und einen Plattenzylinder im Querschnitt

Fig. 2:

eine weitere Variante zu Figur 1

Fig. 3:

eine dritte Variante zu Figur 1.

The invention will be explained in more detail below using a few exemplary embodiments. The accompanying drawings show schematically:

Fig. 1:

partly a transfer cylinder with a blanket sleeve and a plate cylinder in cross section

Fig. 2:

another variant of Figure 1

Fig. 3:

a third variant of Figure 1.

In Figure 1, the transfer cylinder with 1 (blanket cylinder) and the openings or nozzles provided on its surface are designated by 1a. In the the transfer cylinder sleeve 2 applied above (Blanket sleeve) preferably has one, as stated above air-expandable metal sleeve 3 on which a compressible layer 4 vulcanized or glued on. On the compressible layer 4 is one Layer of a non-stretchable material 5, preferably a hard one Elastomer layer with short fibers, which are not specified, is provided. A cover layer 6 is provided on the non-stretchable layer 5, For example, from an elastic material with the offset printing process can be printed.

According to the invention, a metal sleeve is preferably used as the carrier sleeve 3 used, for example made of steel, which is expandable by air and the one Has joint 7. This joint 7 can for example be a weld be formed in an advantageous manner in that the metallic sleeve is made of a plate whose ends are welded together so that the joint 7 results.

The carrier sleeve 3 can also be designed to be shock-free and gap-free, in which case then the joint 7 shown in FIG. 1 is omitted. With a metallic Such execution recommends the production by galvanic means. Non-metallic carrier sleeves 3 are advantageously free of bumps and gaps producible.

A joint is understood in particular to mean that a sleeve or cylindrical rubber or plastic layer or a sleeve or cylindrical metallic or non-metallic carrier in the circumferential direction is not endless, i.e. not seamless or not continuous, i.e. that in longitudinal or Axis direction there is a seam or a joint. The joint can have abutting layers. It can also be a gap between represent the ends of a layer, which is advantageous with an adhesive or vulcanizable material is closed.

Furthermore, the compressible layer 4 also has a joint 8 which can be produced in that the compressible layer on the metal sleeve 3 4 is glued in the form of a rubber blanket, so that the joint 8 through the Ends of the rubber layer 4 are formed.

Likewise, if a non-stretchable layer 5 on the compressible layer 4 is used, these also have a joint 9 according to the invention, which can be formed in the manner described above.

Furthermore, according to one embodiment, such Layer structure, d. H. a carrier sleeve 3 preferably made of metal with a Butt joint 7 and at least one compressible layer 4 applied a joint 8, a cover layer 6 applied without a joint.

It is also possible that the cover layer 6 - just like the compressible layer 4 - Has air pockets, so that the cover layer 6 has a certain Compressibility has what is advantageous compared to the prior art and too lead to better printing results or printing behavior and better web guidance can.

The sleeve according to the invention can also be particularly advantageous in this way be made that a welded metal sleeve 3 made of steel or aluminum or, for example, a CFRP sleeve with a joint is used on the a conventional offset rubber blanket, e.g. B. with a compressible layer, is applied, for example glued or vulcanized or is. After that the top layer of the conventional rubber blanket is removed, for example, sanded and replaced by a continuous, d. H. a shock-free cover layer 6 applied, for example vulcanized. Across from the known sleeves is such a manufacture and such Sleeve construction much cheaper and has a number of advantages. In this case, the joints 8, 9 are one above the other because they are the ends of the conventional blanket, which was glued to the carrier sleeve 3, represent.

The joints 8, 9 can advantageously - but do not necessarily have to be direct be arranged above the joint 7.

When applying finite individual layers, i.e. H. at least one compressible layer 4 and a cover layer 6 and optionally one another inextensible layer, which is denoted by 5 in the exemplary embodiment, the individual joints 7, 8, 9 can also be seen circumferentially at others Digits are d. H. they do not have to be on top of one another, as shown.

In layer 5, for example, the advantageous arrangement of short is not stretchable pieces, such as threads.

The sleeve 2 according to the invention offers a variety of possible uses not just on the use of offset web-fed rotary presses are limited. For example, this sleeve 2 can also be used with others indirect printing processes, such as indirect gravure, are used or as Roller are used.

It is advantageous to apply the sleeve 2 in register. This can for example, in that the sleeve 2 in a predetermined Circumferential position is postponed.

For example, a marking on one end of the sleeve and one Transfer cylinder end to be present, which coincided with a registration enable, d. H. the sleeve 2 in the manner on the transfer cylinder 1st it can be pushed on that the joints 7, 8, 9 or columns of the tensioning channel 14 a plate cylinder 15 in the rolling area with this opposite, as in the Drawing shown.

In the case of the registration described, even the cover layer 6 can impact or have gap, as indicated at 16. If the gap 16 or the bumps or gaps are relatively large, they can be covered with a suitable material, e.g. an adhesive or vulcanizable material.

By a corresponding tight fit of the sleeve 2, for example the Metal layer 3 on the transfer cylinder 1, can be ensured that the Sleeve 2 remains fixed in the register position during operation.

As an alternative, it is also possible to use a positive lock for registration provide, for example by means of a on the inner wall of the metal sleeve 3rd attached ledge 3a, which in the assembly of the sleeve 2 in an axially extending Slot 17 of the transfer cylinder 1 can be inserted.

In Figure 1, all layers 3 to 6 are with a joint 7, 8, 9, 16 or a gap. It can also only apply to some or only one Layer, for example in the cover layer 6, a joint or a gap 16 to be available. Then there are no joints 7 to 9. In the case of Presence of a joint 16 or a gap in the outer Cover layer 6, the rubber cylinder sleeve 2 is absolutely in register with the Apply transfer cylinder 1, that is, such that the joint or the gap 16th in the rolling area with the plate cylinder 15 opposite its clamping channel 14 lies.

A special embodiment of the invention is only that Outer layer 6, that is to say the layer receiving the printed image, elastically make, that is, preferably only the lower area or part with z. B. Form air pockets or air ducts that may be open at the bottom. Such a thing trained layer in which also non-stretch materials, e.g. B. threads or Pieces of thread, can be arranged directly on a carrier sleeve be arranged.

It is also possible to produce the layer 3 from fiber-reinforced hard rubber or without seam or gap - the z. B. is stretchable by compressed air, and about this can be a compressible layer, then a semi-compressible layer that can be fiber-reinforced, and then a printing cover layer can be arranged, which is very beneficial.

The rubber cylinder sleeve 2.1 shown in FIG. 2 is similar in structure to the just described rubber cylinder sleeve according to Figure 1. The simplicity for the sake of repetition or similar elements retain the previous reference numerals or add ".1". First, a carrier sleeve 3 is used, the one Has joint 7. The carrier sleeve 3 is in this case made of a plate manufactured, the ends of which are welded together so that the joint 7 results. The carrier sleeve 3 is advantageously made of steel. On the carrier sleeve 3 are a compressible layer 4, an inextensible layer 5 and an outer layer Cover layer 6 arranged. These layers 4, 5, 6 are finite, so not continuously, with a gap remaining between each end. The Gaps are arranged over the joint 7 of the carrier sleeve and all of them a compressible material 18 so that each layer 4, 5, 6 one of this compressible material 18 has formed joint 8.1, 9.1, 16.1. It it is also possible that the compressible layer 4 and the non-stretchable layer 5 are continuously executed without a joint and only the joint 16.1 in the outer cover layer 16 is present. There can also be more finite ones or endless layers can be provided. The carrier sleeve 3 be carried out continuously, for example as galvanically produced Nickel sleeve.

In the exemplary embodiment, the transfer cylinder 1 to which the Rubber cylinder sleeve 2.1 can be pushed on, as well as the rubber cylinder sleeve 2.1 Tools for registration. In particular, it is one of the Inner wall of the carrier sleeve 3 fastened strip 3a, which during the assembly of the Rubber cylinder sleeve 2.1 in an axially extending slot 17 of the Transfer cylinder 1 can be inserted. The pushing and pulling of the Rubber cylinder sleeve 2.1 is after their elastic expansion by means of Compressed air supplied to nozzles 1a is possible. The width b1 of the joint 16.1 is approximately in the size of the width b of the tensioning channel 14 with the transfer cylinder 1 cooperating plate cylinder 15 dimensioned, practically about 1 to 3mm. The rubber cylinder sleeve 2.1 is ins on the transfer cylinder 1 Register brought that their joint 16.1 in the cover layer 6 at Rolling contact with the plate cylinder 15 opposite to its clamping channel 14 comes to lie. Instead, the joint 16.1 can also be used with a pressure-free one Area B (Fig. 3) of the printed image of a clamped on the plate cylinder 15 Printing form to be brought to cover. For example, at a printing machine with four standing pages in the circumferential direction (so-called double circumference) the area opposite the clamping channel. Through such Registration of the joint 16.1 in the cover layer 6 is avoided that this leads to a loss of printing area.

Figure 3 shows a rubber cylinder sleeve 2.2, in which only the outer Cover layer 6 has a joint 16.2, while the compressible layer 4 and the inextensible layer 5 without an abutment, that is to say endlessly. Here the cover layer 6 is advantageously a plate on the non-stretchable layer 5 brought, e.g. B. glued, the later joint 16.2 forming ends Contain air bubbles 10 and are vulcanized together. The carrier sleeve 3 is executed bumpless. It in turn has a strip 3a on its inner wall that cooperates with a slot 17 of the transfer cylinder 1 in such a way that the joint 16.2 when rolling contact with the plate cylinder 15 with the pressure-free area B of the printed image of the printing form 19 coincides.

Claims (10)

Rubber cylinder sleeve (2.1, 2.2) (transfer cylinder sleeve), especially for Offset printing machines, with an air expandable inner Carrier sleeve (3), at least one arranged above compressible layer (4) and an outer cover layer (6), the Cover layer (6) as a finite, having a joint (16.1, 16.2) Layer is executed and the joint (16.1, 16.2) with a compressible material (18) is filled. Rubber cylinder sleeve according to claim 1, characterized in that the compressible layer (4) is not stretchable and / or a non-stretchable layer (5) is arranged over the latter. Rubber cylinder sleeve according to claim 1 or 2, characterized in that all of the layers (4, 5, 6) arranged on the carrier sleeve (3) are finally each provided with a joint (8.1, 9.1, 16.1), the joints (8.1, 9.1, 16.1) lie one above the other and are filled with the compressible material (18). Rubber cylinder sleeve according to one of claims 1 to 3, characterized in that the material filling the joint (18) contains air bubbles (10). Rubber cylinder sleeve according to one of claims 1 to 3, characterized in that the ends of the cover layer (6) involved in the joint (16.1) contain air bubbles (10) and are vulcanized to one another. Rubber cylinder sleeve according to one of the preceding claims, characterized in that the carrier sleeve (3) is designed as a metal sleeve which has a joint (7) formed by a weld seam, the joint or joints (8.1, 9.1, 16.1) on the Carrier sleeve (3) layers (4, 5, 6) are arranged above the joint (7) of the carrier sleeve (3). Rubber cylinder sleeve according to one of the preceding claims, characterized in that the rubber cylinder sleeve (2.1) and a transfer cylinder (1) carrying the latter have auxiliary means (3a, 17) for registration. Rubber cylinder sleeve according to one of claims 1 to 7, characterized in that the abutment (16.1) in the cover layer (6) come to rest when the rubber cylinder sleeve (2.1) comes into contact with a plate cylinder (15) opposite its clamping channel (14). Rubber cylinder sleeve according to claim 8, characterized in that the joint (16.1) has approximately the width (b) of the tensioning channel (14). Rubber cylinder sleeve according to one of claims 1 to 7, characterized in that the joint (16.2) in the cover layer (6) when the rubber cylinder sleeve (2.1) comes into contact with a plate cylinder (15) opposite a pressure-free area B of the printed image on the plate cylinder ( 15) tensioned printing form (19) comes to rest.

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