An optical light reflectance measurement system above an imaging member surface measures fountain solution surface light reflectance interference on reflective substrate portions of the imaging member surface in real-time during a printing operation. The measured light reflectance interference corresponds to a thickness of the fountain solution layer and may be used in a feedback loop to actively control fountain solution layer thickness by adjusting the volumetric feed rate of fountain solution added onto the imaging member surface during a printing operation to reach a desired uniform thickness for the printing. This fountain solution monitoring system may be fully automated.

An image based correction system compensates for the image quality artifacts induced by thermal ghosting on evolving imaging member surfaces. With thermal ghosting directly tied to previous image content, a feed forward system determines thermal ghosting artifacts based on images previously rendered and generates an open loop gray-level correction to a current image that mitigates undesirable ghosting. For example, the correction system compensates for the thermal ghosting by making the current image “lighter” in areas that will be imaged onto warmer blanket regions, thereby cancelling out TRC differences between different temperature regions. A temperature sensor is used to measure the temperature of the imaging blanket due to the stresses induced by the image. This data is used to learn the parameters of the temperature model periodically during operation, and used in subsequent corrections to mitigate thermal ghosting in spite of changes in blanket properties over use and time.

A method for cleaning a printing fluid off a surface of at least one rotatable component of a printing press includes selecting and executing one of a plurality of predefined cleaning operations in an automated way. The selection is made on the basis of a predefined mathematical model executed on a computer and, when the model is executed, a parameter corresponding to an amount of the printing fluid present on the surface is calculated. The improved cleaning method may be applied in all modes of operation of the printing press and in particular allows detergent, cleaning cloth, and/or water to be saved.

A self-contained web cleaning apparatus is disclosed herein. The self-contained web cleaning apparatus includes a vacuum assembly, the vacuum assembly including a vacuum source, the vacuum source configured to create a vacuum for removing particulate matter from a continuous web of material; and at least one particulate extraction device fluidly coupled to the vacuum assembly, the at least one particulate extraction device defining a slot therein through which the particulate matter from the continuous web of material is extracted. The vacuum assembly and the at least one particulate extraction device are disposed within a self-contained structure without any connections to an external vacuum source located outside of the self-contained web cleaning apparatus.

The invention relates to a cleaning apparatus (10) for functionally regenerating a brush (20) which can be used for washing a flexographic plate; in particular, the apparatus is configured to regenerate a brush (20) comprising a cylindrical core (5) about which a channel (4) supporting filaments (3) is fixed according to a spiral shape. The apparatus comprises a frame defining a rotation axis (100) for the brush and a motorized assembly, which can be operatively connected to an end of said cylindrical core (5) of the brush (20) to rotate it about the rotation axis (100). The apparatus (10) further comprises a cleaning unit (30) comprising a carriage (31), movable along a rectilinear guide (32) and a tool (33) provided with an end (33A) adapted to penetrate into the spaces defined between the turns of the spiral to detach the polymer and monomer residues hardened in said spaces as a result of the use of said brush for said washing.

A cleaning device for a surface of a cylinder of a printer and/or a copier includes a cylindrical cleaning element which can be rotated by at least one drive and which includes a cleaning fitting on its outer periphery, and a suction or suctioner conducting at least one suction medium with at least one suction channel aligned towards the outer periphery of the cleaning element and extending along the longitudinal alignment of the cleaning element. In order to achieve a simple technical structure and a low maintenance effort apart from a good cleaning result and reliable dirt removal, a suction slit extending longitudinally of the suction channel is aligned towards the cleaning element opens into the suction channel tangentially to the suction channel cross section.

A system for processing water washable flexo photopolymer printing plates, the system comprises a washing line including one or more brushes and a surface essentially facing said brushes, and a guiding means adapted to guide a water washable photopolymer printing plate through the washing line by pulling it from a vicinity of a downstream edge thereof and automatically dragging such water washable photopolymer printing plate on said surface. Said brushes are adapted to contact onto a side of such water washable photopolymer printing plate in a washing direction from the downstream edge towards an upstream edge thereof. The system further comprises one or more attachments adapted to be annexed to the vicinity of the upstream edge of a water washable photopolymer printing plate, the attachments being further adapted to exert friction onto the surface, said friction being greater than that between such water washable photopolymer printing plate and said surface.

A system for processing water washable flexo photopolymer printing plates, the system comprises a washing line including one or more brushes and a surface essentially facing said brushes, and a guiding means adapted to guide a water washable photopolymer printing plate through the washing line by pulling it from a vicinity of a downstream edge thereof and automatically dragging such water washable photopolymer printing plate on said surface. Said brushes are adapted to contact onto a side of such water washable photopolymer printing plate in a washing direction from the downstream edge towards an upstream edge thereof. The system further comprises one or more attachments adapted to be annexed to the vicinity of the upstream edge of a water washable photopolymer printing plate, the attachments being further adapted to exert friction onto the surface, said friction being greater than that between such water washable photopolymer printing plate and said surface.

The invention relates to a spray pipe (1), in particular for a printing press roller cleaning device, wherein the spray pipe (1) extends at least in regions in a longitudinal direction and has a plurality of liquid discharge openings (5, 7, 11) which are formed in a wall of the spray pipe (1), wherein a first liquid discharge opening (5) extends with respect to a first direction and a second liquid discharge opening (7) adjacent to the first liquid discharge opening (5) extends in relation to a second direction, the second direction being different from the first direction in such a way that the direction vectors (6, 8) of the first and the second direction intersect in an atomizing region (10) which is spaced apart from the lateral surface (9) of the spray pipe (1).

The present invention relates to a water-based or solvent-based washing unit for washing a flexographic plate. The washing unit comprises a containment structure which defines a lower basin and at least two side basins which are supplied with the washing liquid and are arranged so that the water overflowing from the side basins is collected in the lower basin. A brush partially immersed in the liquid bath defined by the basin itself is installed at each basin.