Method and Apparatus for Cleaning Printing Cylinders

Abstract

A cleaning fabric wound on a roll (12) is use for cleaning printing cylinders (2, 3, 4) of a printing system (1). The cleaning fabric (13) includes a liquid absorbable material configured to be soaked with a cleaning liquid containing a polar additive configured to make the cleaning liquid polar. The roll (12) of cleaning fabric (13) is included in a cleaning cassette (10) which is movable between an idle position out of contact with the printing cylinders, and an active position in which the cleaning fabric (13) included in the cassette (10) is in contact with a printing cylinder to be cleaned.

Claims

1. A roll and bag assembly comprising: a roll of cleaning fabric, the cleaning fabric being adapted and configured for cleaning printing cylinders of a printing system, said cleaning fabric comprising a liquid absorbable material soaked with a cleaning liquid, wherein said cleaning liquid comprises a polar additive containing at least one of either a glycol ether and a long-chain alcohol, wherein said cleaning liquid comprises the polar additive in a range of 50-90 wt %, wherein said polar additive is a compound comprising 10-16 carbon atoms, wherein said polar additive is configured to make the cleaning liquid polar; and wherein said cleaning fabric is wrapped around a core to form said roll; and a removable sealing bag, the removable sealing bag being tubular and built up by a multi-layer plastic film; wherein the roll of cleaning fabric is vacuum packed in the removable sealing bag to form the assembly.

2. The roll and bag assembly according to claim 1, wherein said roll is adapted and configured to receive the cleaning fabric soaked with said cleaning liquid before the cleaning fabric is wrapped around said core to form the roll.

3. The roll and bag assembly according to claim 1, wherein said roll is adapted and configured to receive the cleaning fluid with the cleaning fabric wrapped around said core.

4.-5. (canceled)

6. A cleaning cassette comprising: a roll of cleaning fabric, the cleaning fabric being adapted and configured for cleaning printing cylinders of a printing system, said cleaning fabric comprising a liquid absorbable material soaked with a cleaning liquid, wherein said cleaning liquid comprises a polar additive containing at least one of a glycol ether and a long-chain alcohol, wherein said cleaning liquid comprises the polar additive in a range of 50-90 wt %, wherein said polar additive is a compound comprising 10-16 carbon atoms, wherein said polar additive is configured to make the cleaning liquid polar; and wherein said cleaning fabric is wrapped around a core to form said roll; a support adapted and configured to support the roll of the cleaning fabric; and a collecting roller around which used cleaning fabric is configured to be wrapped.

7. The cleaning cassette according to claim 6, wherein said support comprises a shaft which is spaced from and parallel to said collecting roller, wherein said shaft and said collecting roller are adapted and configured to rotate stepwise.

8. The cleaning cassette according to claim 7, further comprising a pad configured to press said cleaning fabric against a printing cylinder to be cleaned.

9. A printing system comprising a cleaning cassette, the cleaning cassette comprising a roll of cleaning fabric, the cleaning fabric being adapted and configured for cleaning printing cylinders of a printing system, said cleaning fabric comprising a liquid absorbable material soaked with a cleaning liquid, wherein said cleaning liquid comprises a polar additive containing at least one of a glycol ether and a long-chain alcohol, wherein said cleaning liquid comprises the polar additive in a range of 50-90 wt %, wherein said polar additive is a compound comprising 10-16 carbon atoms, wherein said polar additive is configured to make the cleaning liquid polar; and wherein said cleaning fabric is wrapped around a core to form said roll, the cassette having a support adapted and configured to support the roll of the cleaning fabric, the cassette comprising a collecting roller around which used cleaning fabric is configured to be wrapped; wherein the printing system comprises at least one of a printing cylinder, an inking roller, a damping roller, an ink source, and a damping source.

10. The printing system according to claim 9, wherein the printing system is adapted and configured to move said cleaning cassette between an idle position in which said cleaning fabric is out of contact with a printing cylinder, and an active position in which said cleaning fabric is in contact with a printing cylinder to be cleaned.

11. The printing system according to claim 9, further comprising printing cylinders, inking rollers, damping rollers, an ink source and a damping source.

12. The printing system according to claim 9, wherein said roll is adapted and configured to receive the cleaning fabric soaked with said cleaning liquid before the cleaning fabric is wrapped around said core to form the roll.

13. The printing system according to claim 9, wherein said roll is adapted and configured to receive the cleaning fluid with the cleaning fabric wrapped around said core.

14. The printing system according to claim 9, wherein the support of the cleaning cassette comprises a shaft which is spaced from and parallel to the collecting roller, wherein the shaft and the collecting roller are adapted and configured to rotate stepwise.

15. The printing system according to claim 9, wherein the cassette further comprises a pad configured to press said cleaning fabric against a printing cylinder to be cleaned.

16. The roll and bag assembly of claim 1, wherein the core of the roll has an interior adapted and configured to engage with an outer surface of a shaft of a cassette in a manner such that the core and the shaft of the cassette rotate together.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] Embodiments of the invention will be described in the following, reference being made to the appended diagrammatic drawings which illustrate non-limiting examples of how the inventive concept can be reduced into practice and in which:

[0023] FIG. 1 shows a cross section of a general printing system with a set up of cylinders and a cleaning cassette with a cleaning fabric according to an embodiment,

[0024] FIG. 2 shows on a larger scale a cross section of a roll of cleaning fabric before use in a cleaning process,

[0025] FIG. 3 illustrates the roll shown in FIG. 2 in the perspective vacuum-packed in a sealing bag,

[0026] FIG. 4 illustrates the roll shown in FIG. 3 with the sealing bag partially removed, and

[0027] FIG. 5 illustrates on a larger scale and in the perspective the cleaning cassette included in the printing system shown in FIG. 1.

DETAILED DESCRIPTION OF EMBODIMENTS

[0028] With reference to FIG. 1 there is shown a general printing unit or system 1 with a number of printing cylinders and rollers 2, 3, 4, 5, 6. The printing system 1 described herein has an impression cylinder 2 (the largest printing cylinder, down to the left in FIG. 1), a blanket cylinder 3 (the medium sized cylinder next to the impression cylinder) which has a rubber sheet (not shown) and a plate cylinder 4 (the medium sized cylinder next to the blanket cylinder). The printing system 1 further has a number of inking rollers 5 (small rollers not being damping rollers) and a number of damping rollers 6 (the five small sized rollers down to the right). The set of inking rollers 5 is associated with an ink source 8 which provides the inking rollers 5 with ink. The set of damping rollers 6 is associated with a damping source, in this case a water bath 9 which provide the damping rollers 6 with water.

[0029] When the printing system 1 is performing printing work, water is firstly transported via the damping rollers 6 from the damping source 9 towards the cylinders. The water is then present at the non-pressured surfaces occurring between the cylinders 2, 3, 4. Secondly, ink is then transported by means of the ink rollers 5 from the ink source 8 towards the cylinders 3, 4, 5. The print is then transferred to the blanket cylinder 3 and the material, e.g. paper, receiving the print is arranged between the blanket cylinder 3 and the impression cylinder 2 where the printing work is conducted and the print is transferred from the rubber sheet to the material. The set up of the cylinders and rollers shown and described herein is only an example of a set up.

[0030] More or less often the printing cylinders have to be cleaned. This is made by means of a cleaning machine or cassette 10 which houses a cleaning device or roll 12 with a cleaning fabric 13, also referred to as a cleaning cloth. Before the cleaning process begins, the cleaning roll 12 is taken out of its package or bag 15 (see FIG. 4) and placed in the cleaning cassette 10.

[0031] The cleaning roll 12 shown in FIG. 2 is pre-packed and stored until it is to be used in the cleaning process. As shown in FIGS. 1-2, the cleaning roll 12 includes a bobbin or core 14 around which the cleaning fabric 13 is wrapped or wound. The core 14 can be solid or hollow and made of any suitable material, for example plastic, paper or metal. It can also have different cross sections, and the design described herein has a circular cross section.

[0032] The cleaning fabric 13 consists of a liquid or solvent absorbable material, such as a non-woven material, which is adapted to be soaked with a cleaning liquid before starting a cleaning process. Preferably, the cleaning fabric 13 is soaked with the cleaning liquid before being packed and stored or transported, i.e. it can be soaked long before it is to be used in a cleaning process. Further, the cleaning fabric 13 can be soaked either before or after being wrapped around the core 14.

[0033] The cleaning liquid includes a polar additive or polar compound which is configured to make the cleaning liquid polar. Since liquids with similar polarity dissolve in each other, the polar additive is water soluble. By adding the polar additive to the cleaning liquid, this liquid is thus provided with a desired polar ability. This desired feature will be further explained below.

[0034] The polar additive includes glycol ether, for example butyl ether, and/or a long chain alcohol. The long chain alcohol is an alcohol with a carbon chain preferably between ten and sixteen carbon.

[0035] Further, the cleaning liquid includes the polar additive in a range of 50-90 m/m %, can also be expressed as 50-90 wt %. To clarify, the amount of polar additive in respect of the total amount of liquid is between 50-90%.

[0036] Other possible compounds of the cleaning liquid with different abilities can be aliphatic hydrocarbon for cleaning power, vegetable ester for cleaning power and reduction of evaporation, corrosion inhibitor for preventing corrosion and emulsifier for emulsification with water.

[0037] An advantage with a polar liquid is that it is water soluble, since water is also a polar liquid. A non-polar liquid is not water soluble and would instead—if brought into contact with water—gather on its surface, and form a layer on top of the water surface.

[0038] During a cleaning process of a printing system as shown in FIG. 1, the cylinders are rotated in an opposite direction with respect to the direction during a printing process. So, if a non-polar cleaning liquid is applied to the blanket cylinder 3 of FIG. 1 during a cleaning process, which is the case in known cleaning processes today, the non-polar cleaning liquid will travel from the blanket cylinder 3 to the plate cylinder 4 further onto the damping rollers 6 and down into the water bath 9. When in the water bath 9, the non-polar cleaning liquid will create a type of skin or a layer on the surface of the water. Once the printing process is restarted after the cleaning process, the cylinders and rollers will start to roll in the opposite direction compared to the direction during the cleaning process. This means that the roller/s 9′ in contact with the water will not at first only transport water to the other rollers and cylinders but also the non-polar cleaning liquid.

[0039] The residue of the non-polar cleaning liquid on the printing surfaces is the reason why toning occurs on the printed paper. In order to reduce the amount of waste due to toning after a cleaning process, different types of cleaning liquids have been tried in the past with poor results. However, tests conducted by the inventors of the present patent application have surprisingly shown that if the cleaning liquid is made polar it will dissolve in the water of the water bath 9 and thus create a situation where a reduced amount of cleaning liquid is transferred back to the cylinders. In turn, this surprisingly results in reduced waste of printed paper due to toning. In order to create a polar cleaning liquid either glycol ether or long chain alcohol is used in the described embodiment. However, there may be other suitable compositions that can be used to provide the cleaning liquid with the same desired abilities; for instance both glycol ether and long-chain alcohol.

[0040] As shown in FIGS. 2-4, the cleaning roll 12 is inserted in a removable, sealable bag 15 configured to seal around the core 14 and cleaning fabric 13 before use. Since the cleaning fabric 13 is soaked with the cleaning liquid before being stored away or transported, it is desired that the cleaning fabric 13 contains the right amount of cleaning liquid when it is about to be used in a cleaning process. The bag 15 is designed to prevent the cleaning liquid soaked in the cleaning fabric 13 from evaporating during storage or transportation of the cleaning device 12.

[0041] The cleaning roll 12 is vacuum packed until the bag 15 is broken before a cleaning process starts. Preferably, the bag 15 is tubular and built up by a multi-layer plastic film. A suitable plastic film for this purpose is a three-layer film based on a first layer of polyethylene (PE) providing a fluid barrier, a second mid layer of polyamide (PA) providing strength and a third layer of polyethylene (PE) providing a fluid barrier and a sealing layer. This three-layer plastics film has proven to be favorable in practical tests. The thickness of the sealing film is designed in such a way that it is easy to remove from the roll 12, as is shown in FIG. 4.

[0042] In FIG. 5, the cleaning cassette 10 included in the printing system of FIG. 1 is shown separately and in more detail. The cassette 10 includes two spaced side members 10a and 10b interconnected by a transverse member 10c. These members 10a-c form the frame of the cleaning cassette 10.

[0043] Furthermore, the cassette 10 includes mounting means in the shape of a transverse shaft 11 configured to support the core 14 of the roll 12 of cleaning fabric 13 (shown in bold in FIG. 5). The hollow core 14 has internal engagement means (not shown) configured to engage with matching engagement means (not shown) provided on the outside of the shaft 11. Hence, the shaft 11 and the roll 12 supported thereon are rotatable together. For simplifying reasons, the roll/core assembly 12/14 is not shown in FIG. 5.

[0044] At the free transverse end portion of the cassette 10, there is a front pad 17 configured to press the cleaning fabric 13 against a cylinder to be cleaned. At its front surface, the pad 17 has a transverse element 18 of elastic material, preferably rubber, which serves to press the cleaning fabric 13 against the cylinder to be cleaned with a suitable pressure. The elongate elastic element 18 protrudes somewhat from the surface of the pad 17 where it is fastened.

[0045] The cassette 10 also includes a transverse return roller or collecting roller 16 around which used cleaning fabric 13 is wrapped after been in cleaning contact with a cylinder. In this way, used cleaning fabric 13 can easily be collected and handled after a cleaning process. The shaft 11 and the collecting roller 16 are spaced apart and parallel. The collecting roller 16 is also referred to as a take-up roller since the free end of the cleaning fabric 13 is fastened to this roller before the cleaning process is initiated.

[0046] In operation, collecting roller 16 and the shaft 11 are rotated—preferably stepwise—so that fresh portions of the cleaning fabric 13 are applied to the rotating cylinder to be cleaned. This rotational movement of the cleaning fabric 13 is illustrated diagrammatically by arrows in FIG. 1. In the embodiment described herein, the collecting roller 16 is rotationally driven so that the cleaning cloth 13 is rolled off from the roll 12 supported by the rotatable shaft 11 which may have means for preventing rotation in the opposite direction (not shown).

[0047] As shown by a double arrow in FIG. 1, the cleaning cassette 10 is movable between two positions. In an idle position, the cleaning cassette 10 is kept at a distance from the cylinders and out of contact with the same. In an active position (see FIG. 1), the cleaning cassette 10 is in contact with a printing cylinder 3 to be cleaned. The printing system 1 includes means (not shown) for performing this reciprocating movement of the cleaning cassette 10 between the idle and active positions. In certain embodiments (not shown), the cleaning cassette 10 can be moved in different directions and between different positions in order to clean various cylinders included in the printing system.

[0048] Hence, the cleaning equipment is operated in accordance with a method for cleaning printing cylinders of a printing system 1 with a cleaning roll 12 including the steps of: [0049] unwinding at least a portion of the cleaning fabric 13, pre-soaked with the cleaning liquid, from the cleaning roll 12; and [0050] placing the at least a portion of the cleaning fabric 13 in contact with a cylinder to be cleaned.

[0051] Certain aspects and embodiments are recited in the following:

[0052] A cleaning fabric for cleaning printing cylinders of a printing system comprises a liquid absorbable material which is configured to be soaked with a cleaning liquid before starting the cleaning. The cleaning liquid has a polar additive, in order to make the cleaning liquid polar. An advantage with a polar cleaning liquid is that it easily mixes with water which is an important part during a printing process. Thus, remaining cleaning liquid from the cleaning process integrated with the water mitigate the problems with toning leading to reduced waste of prints.

[0053] In an embodiment the cleaning liquid comprises the polar additive in a range of 50-90 m/m %. Tests have shown that a cleaning liquid containing the polar additive within that range has a surprisingly positive effect on the result.

[0054] In another embodiment the polar additive comprises a glycol ether and/or a long chain alcohol. Also here, tests have shown that these two alternatives prove to have a surprisingly positive effect on the result.

[0055] A cleaning device for cleaning printing cylinders of a printing system comprises a cleaning fabric with a liquid absorbable material which is configured to be soaked with a cleaning liquid before starting the cleaning. The cleaning liquid comprises a polar additive in order to make the cleaning liquid polar. Further, the cleaning device has a core around which the cleaning fabric is wrapped. The described cleaning device provides a device which has the same benefits as described above.

[0056] The cleaning fabric may be soaked with the cleaning liquid either before being wrapped around the core or after being wrapped around the core. This facilitates already existing assembling processes without changing the cleaning result of the soaked cleaning fabric.

[0057] Further, the roll of cleaning fabric may be provided with a removable sealable bag configured to seal around the core and cleaning fabric in order to prevent the cleaning liquid from evaporating. By adding the sealable bag, the cleaning device can be stored away for a long time and still provide the same desired cleaning result during a cleaning process.

[0058] In order to even more improve the storing of the device, the cleaning device may be vacuum packed.

[0059] There is also provided a method for cleaning printing cylinders of a printing system with a cleaning device as described above. The method includes the steps of: [0060] unwinding at least a portion of a cleaning fabric, soaked with a cleaning liquid, from said cleaning device; and [0061] placing said at least a portion of said cleaning fabric in contact with a cylinder to be cleaned.

[0062] Finally, although the inventive concept has been described above with reference to specific embodiments, it is not intended to be limited to the specific form set forth herein. Rather, the invention is limited only by the accompanying claims and other embodiments than the specific above are equally possible within the scope of these appended claims.