Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
  • B41F—PRINTING MACHINES OR PRESSES
  • B41F35/00—Cleaning arrangements or devices
  • B41F35/02—Cleaning arrangements or devices for forme cylinders
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
  • B41P—INDEXING SCHEME RELATING TO PRINTING, LINING MACHINES, TYPEWRITERS, AND TO STAMPS
  • B41P2235/00—Cleaning
  • B41P2235/10—Cleaning characterised by the methods or devices
  • B41P2235/26—Spraying devices

Definitions

• This invention relates to a printing press, and in particular, but not exclusively, to a flexographic printing press, of the sort that comprises a drum around which the web to be printed travels, and at least one plate cylinder to which the ink is applied for printing, and from which the ink is transferred to the web which is to be printed.
• Machines of this kind are often used for printing on paper, plastic films and the like in many areas of industry. They are also used for printing on tissue paper for making kitchen rolls, toilet rolls, serviettes, paper tissues and the like.
• the substrate to be printed is not such as to cause soiling of the plate cylinder. This is the case, for example, with machines for printing on plastic films or glossy paper.
• the web to be printed is a material that quickly leads to soiling of the plate cylinder.
• the problem occurs particularly * with tissue paper for making kitchen rolls, toilet rolls and suchlike products.
• the plate cylinder or plate cylinders have to be cleaned periodically to avoid a build-up of dust which would degrade the quality of the printing.
• the plate cylinder is cleaned in two ways.
• the machine is stopped, the web is removed and the plate cylinder or cylinders are moved back from the impression cylinder or drum around which the substrate travels and are cleaned and dried by hand. After this the material to be printed is reintroduced into the press, the plate cylinders are moved back against the drum around which the substrate travels and production recommences.
• drawbacks to this method involving as it does stopping the entire production line or as long as it takes to clean the plate cylinders. There may be as many as four or six of the latter around the same drum, and this means the machine may be out of action for as long as an hour and a half.
• a different cleaning method is to stop the machine, open the plate cylinders, remove the outer sleeves of the cylinders, clean and dry them and then put them back on the machine.
• each washing operation interrupts the print run for around an hour or more. Cleaning operations are relatively frequent and may be repeated several times in each shift. The loss in terms of output can therefore be large, because the paper processing lines that use these printing presses can have outputs of up to 1000 metres per minute. Disclosure of the invention
• the object of the invention is to overcome the shortcomings of conventional printing presses and in particular to eliminate machine stoppage during the cleaning of the plate cylinders or other cylinders where ink and/or residues of paper can build up, by providing each of the printing presses's cylinders that is to be cleaned with a cleaning device that removes the impurities deposited during printing (including paper dust and ink which may be partially dried) from said cylinder, without the need to remove the cylinder or its sleeve from said machine or to move it away from the adjacent drums or rollers.
• the cleaning device comprises a nozzle for spraying the plate cylinder with a cleaning liquid, typically water, and a suction member for sucking up the cleaning liquid and carrying it away from the surface of the plate cylinder together with any dirt removed from the surface of the cylinder, which is thus dried immediately after being cleaned.
• a cleaning liquid typically water
• a suction member for sucking up the cleaning liquid and carrying it away from the surface of the plate cylinder together with any dirt removed from the surface of the cylinder, which is thus dried immediately after being cleaned.
• the nozzle for spraying the cleaning liquid can be located inside the suction member, which may consist of, for example, a suction tube having a larger diameter than the outer diameter of the nozzle. In this way the liquid, sprayed at a comparatively high pressure from the nozzle onto the surface of the plate cylinder, is immediately evacuated, after having acted on the surface that is to be cleaned.
• the cleaning device is advantageously mounted on a carriage that can move transversely relative to the direction of advance of the web and parallel to the plate cylinder. It is thus possible to clean the entire plate cylinder beginning at one end and moving the carriage towards the other end.
• the cleaning device can also be kept on one side of the press and brought into action when required by traversing the carriage from one end to the other of the plate cylinder. As it moves along, the device cleans and dries consecutive sections of the cylindrical surface of the plate cylinder. Cleaning and drying can be carried out without stopping the machine. This is because the cleaning device is advantageously located adjacent to its plate cylinder downstream of the area of contact between the web being printed and the plate cylinder, with respect to the direction of rotation of the latter.
• each portion of the plate cylinder is cleaned and dried before the ink is re-applied to the same area by the screened cylinder. It is therefore possible to clean the plate cylinder without interrupting the print run.
• This is particularly advantageous in view of the fact that both the flexographic printing press and the parts positioned upstream and downstream of the press have high inertias and it is therefore always best to avoid situations in which the line has to be stopped and then restarted.
• the cleaning device can also operate with the plate cylinder in the open position, i.e. moved away from the main drum, as the relative positions of the plate cylinder and the cleaning device are not affected.
• the invention also relates to a device for cleaning the plate cylinders of a flexographic printing press or the like, comprising a nozzle for spraying said cylinder with a cleaning liquid and a suction member that sucks up the cleaning liquid and dries said cylinder.
• Fig. 1 shows a schematic side view of a flexographic printing press to which the device according to the invention is applied;
• Fig. 2 shows an enlargement of one of the printing units of the machine of Fig. 1; and Fig. 3 shows an enlargement of the device for cleaning the plate cylinder.
• FIG. 1 schematically shows an example of a flexographic press to which this invention is being applied.
• the press given the general reference numeral 1, comprises a drum 3 around the periphery of which a web N travels in the direction indicated by the arrow fN.
• the numerals 5, 7 and 9 denote guide rollers on the web N feed side and the numerals 11 and 13 indicate the deflection rollers on the delivery side after the web has been printed.
• the four printing units 15A, 15B, 15C and 15D are basically identical or symmetrical.
• Each has an ink distributor 17, of a type known per se, which distributes the ink on a transfer cylinder 19, which is normally screened.
• the cylinder 19 then transfers the ink to the plate cylinder 21. From here the ink is applied to the web N as it travels around the main drum 3.
• the directions of rotation of the cylinders 19 and 21 are shown in Fig. 1 for each printing unit 15.
• the structure of the flexographic press illustrated generally and schematically in Fig. 1 is typical of a central impression flexographic press.
• the present invention can nonetheless be applied to flexographic printing presses with a different structure and with a different number of printing units. It can be applied in general to any type of printing press that has similar problems of dirt getting onto the plate cylinder.
• Each printing unit 15A, 15B, 15C and 15D is provided with a cleaning device, having the general references 23A, 23B, 23C and 23D for each printing unit 15A-15D.
• Fig. 1 shows clearly that the cleaning device 23 of each printing unit 15 is positioned, with respect to the direction of rotation of the plate cylinder, upstream of the area of contact between the cylinders 19, 21 and downstream of the area of contact between the cylinder 21 and the drum 3.
• the cleaning devices 23A-23D are basically identical or symmetrical and only device 23C will be described below with reference to the enlargements shown in Figs. 2 and 3.
• the cleaning device 23 comprises a nozzle 31 whose axis is approximately normal to the surface of the corresponding plate cylinder 21.
• the nozzle 31 is connected to a line 33 supplying water at pressure connected to a pump of sufficient flowrate and head.
• the water is typically supplied at a pressure of around 20-40 atmospheres and preferably between 30 and 35 atmospheres at a flowrate of from 1 to 10 1/min, preferably between 2 and 5 1/min.
• the nozzle 31 is housed coaxially inside a suction pipe 35 connected, via a flexible hose, to a vacuum source, not shown.
• the end 35A of the suction pipe 35 is cylindrically shaped with a radius slightly greater than the radius of the corresponding plate cylinder 21, in order that the suction pipe 35 can be positioned close to the surface of the cylinder 21, while leaving a gap F of a few millimetres between the mouth of the suction pipe 35 and the surface of the plate cylinder 21, for the purposes explained below.
• the suction pipe 35 and the nozzle 31 which it houses are attached by means of rods 41 to a carriage 43.
• This carriage is guided by V-grooved wheels 45 along a guide 47 extending transversely relative to the machine 1, that is to say parallel to the axis of the corresponding plate cylinder 21.
• the guide 47 is at least as long as the cylinder 21 in order to enable the carriage 43, and hence the suction pipe 35 and nozzle 31, to execute a stroke that is as long as the entire plate cylinder 21.
• the numeral 49 denotes generally a supporting structure for the guide 47 and for a casing 51 that extends the entire length of the guide 47 to protect this guide from drips of ink or cleaning water.
• the structure 49 is advantageously integral with a supporting unit 50 for the plate cylinder 21.
• the supporting unit 50 can move in the direction shown by the arrow fso to move the cylinder 21 away from the drum 3, that is to open the printing unit.
• the supporting unit 50 moves together with a supporting unit 52 for the screened cylinder 19. A movement of mutual separation is provided between the two supporting units 50, 52 in order to separate the screened cylinder 19 from the plate cylinder 21.
• the cleaning device 15 When this system of assembly is adopted the cleaning device 15 always maintains the same position relative to its plate cylinder 21, which can therefore be cleaned either while the machine is running (at production speed or reduced speed) , or with the plate cylinder in an open position.
• the carriage 43 is moved along the guide 47 by means of a belt 53 fastened to the carriage 43 by a clamp 55 and passed around two pulleys (not shown) located at the sides of the press.
• One of the pulleys is motorized and thus transmits the drive to the carriage 43.
• the plate cylinder 21 is cleaned by maintaining said cylinder in rotation and moving the carriage 43 at a suitable speed along the axis of the cylinder 21, while the nozzle 31 sprays water under pressure onto the cylindrical surface of the plate cylinder 21.
• the vacuum generated inside the suction pipe 35 causes the cleaning liquid sprayed by the nozzle 31 and the dirt and ink residues detached from the surface of the cylinder 21 by the jet of liquid to be sucked into the pipe 35 and collected in a tank (not shown) .
• the air aspirated by the pipe 35 passes through the gap F between the mouth of the pipe 35 and the surface of the plate cylinder 21.
• the gap F is small, so that the velocity of the air in this through passage is extremely high. This means on the one hand that the water or other cleaning liquid does not escape to the outside, and on the other that the portion of the plate cylinder cleaned by the nozzle 31 is dried instantaneously. Consequently, the area of the plate cylinder 21 over which the cleaning device 23 has passed emerges clean and dry. As a result, the cleaning device can be used while the press is running, without having to stop production.
• the carriage 43 can be arranged to remain on one side of the press and be brought into action during a cleaning phase while the flexographic press is not printing, in which case there is still the advantage that the machine does not have to be opened and the web N withdrawn from the press. The time taken up in cleaning is consequently reduced very greatly.

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• Inking, Control Or Cleaning Of Printing Machines (AREA)

Priority Applications (1)

Applications Claiming Priority (2)

Publications (1)

Family

ID=11351318

Family Applications (1)

Country Status (4)

Cited By (8)

Families Citing this family (1)

Citations (2)

• 1995
  • 1995-06-19 IT IT95FI000137A patent/IT1278704B1/it active IP Right Grant
• 1996
  • 1996-05-31 ZA ZA964460A patent/ZA964460B/xx unknown
  • 1996-06-13 WO PCT/IT1996/000120 patent/WO1997000173A1/en active Application Filing
  • 1996-06-13 AU AU62403/96A patent/AU6240396A/en not_active Abandoned

Patent Citations (2)

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