DE19951354A1 - Sleeve-shaped surface and method for assembling it - Google Patents

Abstract

The invention relates to a sleeve for the printing industry. The inventive sleeve has a flexible surface which is provided with the printing pattern. The sleeve can be mounted on a cylindrical support body. The surface is configured in a tubular manner and is provided with two front faces. The inner diameter of the surface is smaller than the outer diameter of the support body when the surface is removed from the support body. According to the invention, the surface is designed like a flexible tube in such a way that the surface can be expanded by means of compressed air that is blown against the outside of the front face pertaining to the surface, whereby said front face has to be slid on the support body. The sleeve can thus be completely mounted on the support cylinder. The aim of the invention is to mount such a sleeve. Compressed air is blown from the outside between the flexible surface and the support body by means of an outlet valve. The compressed air is directed against the front face of the surface from the outside and against the slide-on direction of the surface, whereby said front face is slid on the support body.

Description

The invention relates to a sleeve according to the preamble of the claim 1 and a method for assembling such sleeves.

Generic sleeves are from the field of flexographic printing known. The sleeve is placed on a carrier body by placing an air cushion between the sleeve and the carrier body is generated by. The carrier body can be a so-called Air cylinders be designed with air outlet openings on surface.

From the field of flexographic printing, sleeves are known flexible surfaces do not have the print motif, but serve as a cushioning intermediate layer to comparatively hard printing plates, which have the actual printing motifs sen to record.

Surfaces made of rubber or are also used in flexographic printing their elastomers, polymers or other plastics be knows that directly serve as a motif carrier, the motifs can be burned into these soft surfaces by laser or in a light-sensitive surface material by exposure ten and then washing out.

In all of the above cases, the surfaces are solid with the actual sleeve connected. All surfaces are used through the printing process, tire or become at hand ling of the sleeves damaged, so that they must be replaced. For surfaces that have the print motif, a in contrast, premature renewal may be required if the print motif is to be replaced by another.  

Replacing the surfaces is very expensive and takes a long time associated downtimes of the sleeve for printing operations, such downtime is often out of economic green which cannot be accepted. This leads to, that worn or damaged printing sleeves often overall are disposed of and new replacement sleeves are obtained.

Two-piece sleeves, with a sleeve core that is directly on the Carrier cylinder is mounted, and with a separate outer Outer sleeve, which has the surface are also be knows. They enable the outer sleeve to be replaced with the surface, however, require laborious assembly, because both sleeve parts according to the usual flexographic printing principle mon be tiert in which pressure from an inner component air escapes, which expands and contracts the outer component Sliding on the outer component allows. So a ver equally easy, inexpensive change of print motifs ven enabled by only the comparatively inexpensive thin-walled outer sleeves with the print motifs must be changed during the wall thickness of the Entire sleeve significantly determining sleeve core on the Air cylinder can remain. The pod cores, however, are open due to the required air ducts usually min at least twice as expensive as a comparable one-piece Sleeve without air duct.

The advantages of flexographic printing are only with carrier cylinders targetable, which have such air outlet openings. Both mentioned two-part sleeves must also the inner sleeves core also have such air outlet openings in order the assembly of the outer sleeve, which the surface on points to enable.

The invention has for its object a generic To improve the sleeve so that this with as possible ge assembled little time and financial effort as well  can be renewed or repaired. The invention also lies the task of a method for assembling such a to specify the sleeve.

This object of the invention is achieved by a Sleeve with the features of claim 1 and by a Ver drive solved with the method steps of claim 4.

Advantageous embodiments of the invention are the Unteran sayings removable.

In other words, the invention proposes the surface to use yourself like your own sleeve.

In departure from the previous manufacturing process, the fle xible surface not firm with the actual, comparatively anchored rigid sleeve, but the surface itself is considered a own component to be handled separately by the user as Designed hose, airtight and with a high flexibility. In this way, the same carrier body can be very inexpensively per use for different motifs and applications, by placing surfaces with different materials on them Carrier body can be mounted. It therefore arises for the An wender, i.e. for the printing business, a considerable saving compared to the purchase of several complete Pressure sleeves to allow the same variation.

While in the known flexographic printing sleeves the inner Surface of a sleeve is designed to be as slippery as possible, for easy sliding, supported by an air cushion the carrier cylinder or - with two-part sleeves - on the sleeve To enable lowering, the invention provides that To design the inside surface of the top as smoothly as possible, to ensure a secure hold of the surface on the To allow sleeve core.  

The flexibility of the surfaces according to the invention is so great that they do not require any compressed air supply from the inside. Much more it suffices to press the end of the surface with compressed air from to blow outside, which is pushed onto the carrier body will. Therefore, the surfaces are also on support bodies usable that designed and without air duct are not intended for flexographic printing, so that too the advantages of flexographic printing have been used on older substrates can be.

However, the surfaces of the invention are also on Trä can be used for flexographic printing with air ducts are provided. Possibly. only with reduced air pressure when pushing on the surfaces to be worked on Avoid damaging the surfaces opposite the sleeves typical of flexographic printing are softer and more flexible.

Even compared to the well-known flexographic printing sleeve system the surfaces designed according to the invention offer advantages le: The disposal costs and the cost of a replacement bed creation of damaged motif surfaces are made by the only replaceable, replaceable surfaces considerably reduced compared to the usual exchange more complete Sleeves or the required milling and re-coating of the surfaces. Instead, a motif according to the invention Changes can be made to a sleeve as quickly as a change conventional sleeve change on a carrier cylinder.

It is known from two-part flexographic printing sleeves that to arrange an intermediate component on the carrier body, soft referred to as an intermediate sleeve, adapter sleeve or sleeve core is net, and another sleeve with the print motif send surface to this intermediate component. According to the invention, an intermediate component can also be between Surface and support body may be provided, the inventions  appropriate, separate surface as its own, from this Intermediate component removable component is designed.

For the present invention, this intermediate component is the outer component of a two-part carrier cylinder and not the inner part or core of the sleeve. The inside diameter of the separate surface is therefore not smaller than the outside diameter of the actual carrier cylinder, but only smaller than the outer diameter of this intermediate component. Unlike in the case of two-part sleeves, the same carrier cylinder with the same intermediate component for Different motif sizes can be used by surface surfaces with different outside diameters two-part carrier cylinder, so on the intermediate component, mon be animals.

Unless stated otherwise, the Be "Carrier body" gripped both those known from flexo printing, include one-piece air cylinders as well as the two mentioned air cylinder, which is provided with an intermediate component are not intended for flexographic printing Carrier cylinder without air duct.

If the carrier body has air ducts suitable for flexographic printing , these air ducts can still be used. At two-part carrier bodies can also the air channels continue to be used if the intermediate component derar term air channels to expand the inventive to enable the outer surface from the inside. Can be inexpensive however provided in the manufacture of new intermediate components not to pass the compressed air through the intermediate component, since this is the cost of manufacturing an intermediate component significantly influenced.

Instead, air can flow through the carrier body be completely dispensed with, because the flexi is easy to install  blen surface on a core is possible if pressure air between the core and the flexible top is brought. The compressed air can flow out of an outlet nozzle with fla exit through a large air cushion between the surface and the carrier body. Overra However, design can also be done with round or other shapes sufficient air cushion can be achieved, which enables the surface to be drawn onto the core of the sleeve, although the surface has an inside diameter that is initially smaller than the outer diameter of the core.

The compressed air can be particularly easily by means of a so-called Air guns are provided and applied as these Compressed air guns are common in print shops are wisely available. During the winding movement of the Surface can advantageously be the outlet nozzle with this winding be carried along in order to ensure that the To allow surface on the support body.

The surfaces according to the invention can be made of rubber, Ela stomer, photopolymer or compressible materials with a multi-layer structure. In contrast to a multi-layer and possibly multi-part manufacturer Sleeve enables the flexibility provided according to the invention the top that the user himself on these surfaces can mount the carrier body and correspond to the surfaces depending on their wear or for the purpose of changing the motif can replace.

Compared to the production of a complete, for the flexographic printing, one-piece or consisting of sleeve core and outer sleeve consisting of two-part pressure sleeve, there is a considerable cost advantage according to the invention, so that, in particular, prints with small quantities are also inexpensively possible. Overall, the following advantages result:

• 1. Usually the wall thickness of sleeves, the surface vulcanized at high temperatures limited to approx. 3 mm. The result is correspondingly low bare difference between the outside diameter of the Impression cylinder and the outside diameter of the motif having surface. In contrast, inventions also vulcanized or at high temperatures surfaces produced, if necessary by using a Intermediate component on a pressure cylinder, for almost belie bige sleeve diameter and wall thicknesses provided become.
• 2. The cost of sleeves with a photopolymer surface can be reduced.
• 3. Intermediate components between the actual pressure cylinder and the surface can be made cheaper since they do not have to have a built-in air duct.
• 4. All existing sleeves can be used as intermediate Component are used, on which an inventive Surface can be grown to such a large size Diversity of different overall diameters with the same To achieve carrier cylinders.
• 5. Disposal after fatigue, damage or wear surface is cheaper because less and possibly pure material can be disposed of.
• 6. The reprocessing of such pure material is simplified compared to one of several layers different material existing sleeve.
• 7. The handling and transportation of the surface upon purchase, Repair or in-house is easier and cheaper  dear.
• 8. Manufacturing and repairs are easier because the if necessary, surface consisting of a single material can be treated appropriately, e.g. B. regarding Chemicals or temperature control.

Claims (6)

1. sleeve for the printing industry,
with a flexible surface, which has the printed motif, and which can be mounted on a cylindrical support body,
the surface being tubular and having two end faces,
and wherein the inside diameter of the surface, when it is removed from the carrier body, is smaller than the outside diameter of the carrier body,
characterized in that the surface is designed in such a flexible manner that the surface can be expanded to enable complete assembly on the support cylinder by compressed air blown from the outside onto its front end to be pushed onto the support body. 2. Sleeve according to claim 1, characterized in that the High sliding resistance on the inside of the surface having. 3. Sleeve according to claim 1 or 2, characterized in that the surface is a tight fit on the support body contains improving reinforcing material. 4. Method of assembling a sleeve according to one of the before forthcoming claims, characterized in that Compressed air between the flexible using an outlet nozzle Blown in surface and the carrier body from the outside is, the compressed air from the outside, against the on sliding direction of the surface, towards the front of the Surface is directed, which on the carrier body is postponed. 5. The method according to claim 4, characterized in that the outlet nozzle during the opening movement of the top is carried along. 6. The method according to claim 4, characterized in that an outlet nozzle is used, which has a flat Airflow generated.