EP0441019B1

EP0441019B1 - Spray blanket cleaning system

Info

Publication number: EP0441019B1
Application number: EP19900304588
Authority: EP
Inventors: Charles R C/O Baldwin Techn.Center Gasparrini; Carl Arnolds
Original assignee: Baldwin Technology Corp
Current assignee: Baldwin Technology Corp
Priority date: 1990-02-06
Filing date: 1990-04-27
Publication date: 1995-07-12
Anticipated expiration: 2010-04-27
Also published as: JPH03239548A; CN1053904A; DE69020882D1; CN1025169C; JP3043380B2; EP0441019A1; DE69020882T2

Description

BACKGROUND OF THE INVENTION

This invention relates to cleaning apparatus for printing presses and, in particular, to systems for automatically washing blanket cylinders in offset printing presses.
The need to wash blanket cylinders during an offset web printing process is well established. As printed copy is produced, debris from ink, paper and fountain solution cause the blanket cylinder to become contaminated. After a period of time, the blanket cylinders must be washed with either solvent or a combination of solvent and water to remove this debris. If washing does not occur, print quality will be reduced and the probability that a web will break increases. Several methods are known in the art to wash blanket cylinders.
The hand wash method utilizes manual application of wash fluid by the press crew when the press is stopped. In this method, hand towels are soaked and the blankets physically scrubbed clean of debris. Manual washing of the blanket while the press is operating is also utilized. A member of the press crew will clean a specific area of a blanket that is causing print quality to deteriorate. While this technique extends productivity, it is very unsafe because of the high peripheral speed of the blanket cylinder.
It is far safer, more productive and predictable to use automatic blanket cleaners to clean the blanket cylinder at regular intervals while printing. Several automatic methods have been employed to accomplish this. Cloth type systems, described in U.S. Patents Nos. 4,344,361 and 4,757,763, utilize a disposable cloth that passes over an inflatable pressure pad. The cloth is wetted with wash fluid pressed against the blanket and the cloth is advanced in increments to affect cleaning.
Brush type systems utilize a rotating brush that is pressed against the blanket. The brush may be wetted with solvent prior to coming in contact with the blanket. Debris that is removed from the blanket to the brush is gathered in a used solvent collection system. Typically the solvent undergoes separation and treatment to remove the debris and collect the solvent.
Spray type systems utilize a spray bar positioned near the blankets. The spray bar sprays wash fluid onto the blanket cylinders. Previously known spray bars, as in U.S. Patent No. 4,686,902, premix solvent and water in a tank to form an effective emulsified solution. This is undesirable because once the wash solvent is mixed, the ratio of solvent to water in the solution cannot be changed unless the system is drained and flushed and a new ratio established. Additionally, the mixture must be continually circulated or agitated to maintain the emulsification. The present invention avoids the need for mixing water and solvent in a tank or premixer and avoids the need for recirculation or agitation of the wash solvent, thus allowing continual change in the emulsified solution as desired without requiring that the system be drained and flushed.
In other known spray systems, for example German Patent No. 2,826,135, the amount of wash fluid sprayed by the spray bar is controlled and limited to the volume of the internal cavity of the spray bar. In particular, the system works in cycles, where one cycle consists of completely filling the internal cavity of the spray bar with wash fluid followed by activating the air for spraying. The present invention avoids this cyclic action by providing a means for the wash fluid to be continuously ejected from the spray bar as it enters the spray bar. The present invention also provides for individually settable water and solvent amounts which are not limited to the volume of the internal cavity of the spray bar.
Other problems encountered in conventional cleaning system include the risk of dryer damage or even explosion caused by the ignition of excessive solvents. Typically when the press is shut down for maintenance or repair the ink roller train becomes tacky from ink residue and debris. If the press is restarted in this condition there is a high risk of web breakage. In order to avoid this breakage, the blanket is prewet manually by a pressman applying solvent to the blanket or adding oil to the roller train to soften the tacky ink. This practice is both hazardous and wasteful because uncontrolled amounts of solvent entering the dryer can result in explosion. Also, the added oil has a deleterious effect on the ink colour resulting in paper waste while the oil is dissipated. The present invention avoids this problem by providing a means to automatically prewet the blanket, reducing the risk of explosion from uncontrolled solvent application.
Broadly stated, in according with the invention there is provided spray blanket wash system, for applying a mixture of solvent and water to a blanket cylinder of a printing press unit, characterised by a mixing tube in which water and solvent dispensed by water control means and solvent control means are continually mixed during their passage to the nozzles of the spray bar, and also characterised by central control means coupled to the solvent, water and an air control means, operative to select specific ratios of solvent and water to be delivered to the mixing tube, the dispensed solvent and water being continually mixed in the duct and delivered to the nozzles of the spray bar means by the dispensed air, for a duration determined by the central control means.
Thus as compared with the system described in German Patent 2 826 135, the washing fluid is continually mixed in the mixing tube and can be supplied on a continuous basis, for a time determined by the central control means, rather than being limited by the volume of the internal cavity of the spray bar.
Further features and advantages of the present invention will be apparent to those skilled in the art in the light of the following description of embodiments thereof in connection with the accompanying drawings, wherein

FIGURE 1 is a schematic showing the basic fluid flow and control element in accordance with an embodiment of the invention;
FIGURE 2 is a side view of a center feed spray system.
FIGURE 3 is a side view of an end feed spray system.

Referring now to the drawings, and, in particular, to Figure 1, there is shown a fluid control system consisting of two main components; an air box 2 and fluid boxes 4. Each press unit is equipped with one air box 2 and two fluid boxes 4 which control the necessary fluids and air to the spray systems. A center feed spray system is shown in Figure 2 and an end feed spray system is shown is Figure 3. The fluid control system regulates solvent, water and air to the spray systems in specific quantities and at specific pressures as directed by a control element 28.
The air box 2 provides regulated air pressure as required for system function. Compressed air enters the air box 2 through line 6 and is supplied to an air valve manifold 5. The air then flows through air filters 11, fluid spray regulators 10 and fluid spray valves 12. When the fluid spray valves are actuated by the control element 28, the regulated air flows out of the air box 2 to the corresponding fluid box 4. It then flows past an air check valve 50, enters a fluid manifold 14 and flows into a mixing tube 21. The air then ejects the mixed solvent and water from the mixing tube 21 into a spray bar 30 (Figures 2 and 3).
Pressurized solvent is delivered from a solvent supply 16 through line 8, past a solvent regulator 15, to a solvent manifold inlet 18. The solvent then passes through a solvent filter 23 to a solvent valve 20. When the solvent valve 20 is actuated by the control element 28, the solvent enters the fluid manifold 14 and then flows into the mixing tube 21. Flow control means, such as a solvent orifice 40 and a solvent check valve 51, are interposed between the solvent valve 20 and the fluid manifold 14.
Pressurized water is delivered from a water supply 22 through line 9, past a water regulator 42, to a water manifold 24. Water then passes through a water filter 44 to a water valve 26. When the water valve 26 is actuated by the control element 28, water enters the fluid manifold 14 and then flows into the mixing tube 21. Flow control means, such as a water orifice 48 and a water check valve 52, are interposed between the water valve 26 and the fluid manifold 14. The water and solvent valves can be actuated either simultaneously or sequentially by the control element 28. The mixing tube 21 can center feed the spray bar 30 as in Figure 2 or end feed the spray bar 30 as in Figure 3.
In Figures 2 and 3, the water and solvent mixture is ejected by air pressure through the mixing tube 21 into the spray bar 30. The mixed wash fluid is then ejected as sprayed fluid through nozzles 32 in the spray bar 30. This point of use mixing eliminates the need to keep the two fluids constantly moving. The point of use mixing also eliminates prefilling the spray bar, since the wash fluid flows through the spray bar and is ejected from the spray bar simultaneously. The nozzles 32 on the spray bar 30 are purged after use by the air pressure to prevent blockage.
The spray bar 30 is normally positioned adjacent the blanket cylinder 36 on the infeed side of the press unit. The spray bar 30 has a plurality of nozzles 32, preferably eight or more and most preferably fifteen or more. By positioning the nozzles 32 at a relatively short distance, preferably about 2.54 cm - 10.16 cm (1-4 inches), from the blanket cylinder 36, spray fans 34 from the nozzles 32 overlap on the blanket 36. The plurality of nozzles 32 permits the positioning of the spray bar 30 close to the blanket cylinder while maintaining spray fan overlap. Placing the spray bar 30 close to the blanket diminishes the amount of solvent lost to mist in the atmosphere in the press room and reduces the amount of solvent required.
The spray bar 30 includes an internal cavity 38 connected to the plurality of nozzles 32. The internal cavity is dimensioned such that the pressurised wash mixture is dispenses approximately equally from the plurality of nozzles. For example, the internal cavity 38 would have a diameter of about 0.32-0.47 cm (one-eight to about three-sixteenths of an inch) when using 1.72 - 3.10 bar (25 to 45 pounds per square inch) supply pressure.
The control element 28 may control the wash cycle for one or more press units. The control element can be operated in an automatic or manual mode. The automatic mode is used for automatic washing of the press blankets. The programs employed by the control element regulate at least the ratio of solvent water used, the pressure of the spray and the duration of the spray. The control element also provides for prewetting of blankets during start-up. With more than one press unit, the control system provides for simultaneous or sequential washing of the blankets.
From the foregoing, it will be seen that the described embodiment of the present invention provides an improved spray system for cleaning blanket cylinders during the course of a press run without interrupting press operation or causing excessive waste during the run. This permits a sharper reproduction for a printed product and incurs less down-time. It also permits the use of grades of paper stock having higher lint contents.
Furthermore, it is possible to utilise only a minimal amount of solvent to insure dryer safety.
By utilising a point of use mixing system for water and solvent the need for recirculation or agitation of the cleaning fluid is eliminated. The amount of water and solvent can be individually set and the system can wash all press units simultaneously or sequentially as selected by suitable control programs. The prewetting feature precludes web breaks during start-up. The balanced wetting of the web avoids the problem that if the right side of the cylinder is wet before the left side of the cylinder, the web could wander laterally or be subject to uneven tension and break.
The frequency of the automatic actuation and operation of the spray system is adjustable by a press operator in response to various anticipated or observed operating parameters such as the length of the press run and the lint content of the paper stock.

Claims

A spray blanket wash system, for applying a mixture of solvent and water to a blanket cylinder of a printing press unit, the system comprising:
(a) solvent supply means (16,8);

(b) water supply means (22,42,9);

(c) air supply means (6,2);

(d) spray bar means (30,32,38) for receiving and distributing solvent and water from said supply means, said spray bar including a plurality of nozzles (32) for spraying the solvent and water onto the blanket cylinders;

(e) solvent control means connected to said solvent supply means, including valve means (20) for controlled dispensing of the solvent from the supply means (16,8) to be sprayed by the spray bar means;

(f) water control means connected to said water supply means, including valve means (26) for controlled dispensing of water from the water supply means (22,42,9) to be sprayed by the spray bar means; and

(g) air control means connected to said air supply means, including valve means (12) for controlled dispensing of air to pass through the spray bar means;
characterised by
(h) a mixing tube (21) in which water and solvent dispensed by the water control means (26) and the solvent control means (20) are continually mixed during their passage to the nozzles (32) of the spray bar means ; and by

(i) central control means (28) coupled to the solvent, water and air control means (20,26,12) and operative to open said valve means to select specific ratios of solvent and water to be delivered to the mixing tube, the dispensed solvent and water being continually mixed in the tube and delivered to the nozzles of the spray bar means by the dispensed air, for a duration determined by the opening of the valve means by the central control means.
A system as defined in claim 1 wherein said mixing tube (21) feeds centrally into said spray bar (30, 38).
A system as defined in claim 1 wherein the mixing tube (21) end feeds into said spray bar (30, 38).
A system as defined in any preceding claim herein said plurality of nozzles (32) consists of eight or more nozzles on said spray bar (30).
A system according to any preceding claim, installed in a printing press, wherein said spray bar is located 2.54 cm to 10.16 cm (1-4 inches) from said cylinder blanket.
A system as defined in any preceding claim installed in a press, wherein said central control means (28) is operative to activate the water, solvent and air control means during start-up of said blanket cylinder to prewet said blanket cylinder.
A system as defined in any preceding claim, installed in a press with a plurality of blanket cylinders, central control means (28) is operative to activate the water, solvent and air control means (20, 26, 12) to wash said blanket cylinders simultaneously or sequentially.
A system as defined in any preceding claim installed in a press, wherein central control means (28) activates said air control means to dispense said air through said nozzles (32) for a duration immediately after the or each said blanket cylinder is washed.
A system defined in any preceding claim wherein said spray bar means (30) includes an internal cavity (48) dimensioned such that the pressurised wash mixture of said solvent and water is dispensed approximately equally from said plurality of nozzles.