A device for arranging a marking around a prolate object includes: a material interface for receiving a printed product provided by a printer; a printing signal interface for acquiring a control signal indicative of the provision of the printed product; a stop for limiting a longitudinal motion of the prolate object along a longitudinal axis in an end position of the prolate object relative to the device; and at least one actuator for, depending on the control signal indicative of the provision of the printed product, arranging the marking in a circumferentially closed manner on the prolate object using the printed product provided by the printer. The prolate object is arranged in the end position.

A device for arranging a marking around a prolate object includes: a material interface for receiving a printed product provided by a printer; a printing signal interface for acquiring a control signal indicative of the provision of the printed product; a stop for limiting a longitudinal motion of the prolate object along a longitudinal axis in an end position of the prolate object relative to the device; and at least one actuator for, depending on the control signal indicative of the provision of the printed product, arranging the marking in a circumferentially closed manner on the prolate object using the printed product provided by the printer. The prolate object is arranged in the end position.

There is described a printing press adapted to carry out printing on a sheet-like or web-like substrate, in particular for the production of security documents such as banknotes, comprising a substrate feeding device for feeding the substrate to be treated, at least a printing unit designed to print a first side and/or a second side of the substrate and a delivery unit for receiving the treated substrate. The printing press in the conveying path for the substrate between the feeding device and the delivery unit further comprises an in-line casting device adapted to apply a layer of material acting as an optical medium on a portion of the second side of the substrate and to replicate and form a micro-optical structure in the layer of material acting as optical medium, wherein the printing unit comprises a first printing group comprising a printing cylinder and being adapted to print at least one printed pattern on the first or second side of the substrate in register with the micro-optical structure.

There is described a printing press adapted to carry out printing on a sheet-like or web-like substrate, in particular for the production of security documents such as banknotes, comprising a substrate feeding device for feeding the substrate to be treated, at least a printing unit designed to print a first side and/or a second side of the substrate and a delivery unit for receiving the treated substrate. The printing press in the conveying path for the substrate between the feeding device and the delivery unit further comprises an in-line casting device adapted to apply a layer of material acting as an optical medium on a portion of the second side of the substrate and to replicate and form a micro-optical structure in the layer of material acting as optical medium, wherein the printing unit comprises a first printing group comprising a printing cylinder and being adapted to print at least one printed pattern on the first or second side of the substrate in register with the micro-optical structure.

A device for providing a marking arranged or arrangeable in a circumferentially closed manner around a prolate object includes: a material interface for receiving a printed product output from a printer; a data interface for communicating with the printer for a providing or arranging of the marking as a communication; at least one actuator, using the printed product output from the printer, for arranging the marking on the object in a circumferentially closed manner or to provide the marking for circumferentially closed arrangement according to the communication with the printer via the data interface; and a memory readable by the printer via the data interface, the memory storing operational data of the providing or arranging.

A device for providing a marking arranged or arrangeable in a circumferentially closed manner around a prolate object includes: a material interface for receiving a printed product output from a printer; a data interface for communicating with the printer for a providing or arranging of the marking as a communication; at least one actuator, using the printed product output from the printer, for arranging the marking on the object in a circumferentially closed manner or to provide the marking for circumferentially closed arrangement according to the communication with the printer via the data interface; and a memory readable by the printer via the data interface, the memory storing operational data of the providing or arranging.

There is described a printing press (100***; 100****) adapted to carry out printing on a sheet-like or web-like substrate (S), in particular for the production of security documents such as banknotes, comprising a printing unit (2*; 2**; 2***; 2****) designed to print a first side (I) and/or a second side (II) of the substrate (S). The printing press (100***; 100****) further comprises an in-line casting device (80; 80*; 80**; 80***) adapted to apply a layer of material acting as an optical medium on a portion of a first side (I, II) of the substrate (S) and to replicate and form a micro-optical structure (L) in the layer of material acting as optical medium. The printing unit (2*; 2**; 2***; 2****) is furthermore adapted to print at least one printed pattern on the first or second side (I, II) of the substrate (S) in register with the micro-optical structure (L), wherein the printing unit (2*; 2**; 2***; 2****) comprises at least a first printing group (93) being adapted to print at least one printed pattern on the second side (II) of the substrate (S) in register with the micro-optical structure (L) and wherein the in-line casting device (80; 80*; 80**; 80***) comprises at least one embossing cylinder (85), which embossing cylinder (85) also is acting as counter-pressure cylinder and cooperates with a printing cylinder (8) of the at least first printing group (93) and/or whereas the in-line casting device (80; 80*; 80**; 80***) and the at least a first printing group (93) being arranged at the Substrate transport path such way, that in-line casting of the micro-optical structure, on one side of the sheets S, and printing of the associated pattern, on the other side of the sheets S, are performed in a same step, without this involving any sheet transfer operation.

There is described a printing press (100***; 100****) adapted to carry out printing on a sheet-like or web-like substrate (S), in particular for the production of security documents such as banknotes, comprising a printing unit (2*; 2**; 2***; 2****) designed to print a first side (I) and/or a second side (II) of the substrate (S). The printing press (100***; 100****) further comprises an in-line casting device (80; 80*; 80**; 80***) adapted to apply a layer of material acting as an optical medium on a portion of a first side (I, II) of the substrate (S) and to replicate and form a micro-optical structure (L) in the layer of material acting as optical medium. The printing unit (2*; 2**; 2***; 2****) is furthermore adapted to print at least one printed pattern on the first or second side (I, II) of the substrate (S) in register with the micro-optical structure (L), wherein the printing unit (2*; 2**; 2***; 2****) comprises at least a first printing group (93) being adapted to print at least one printed pattern on the second side (II) of the substrate (S) in register with the micro-optical structure (L) and wherein the in-line casting device (80; 80*; 80**; 80***) comprises at least one embossing cylinder (85), which embossing cylinder (85) also is acting as counter-pressure cylinder and cooperates with a printing cylinder (8) of the at least first printing group (93) and/or whereas the in-line casting device (80; 80*; 80**; 80***) and the at least a first printing group (93) being arranged at the Substrate transport path such way, that in-line casting of the micro-optical structure, on one side of the sheets S, and printing of the associated pattern, on the other side of the sheets S, are performed in a same step, without this involving any sheet transfer operation.

A processing station for processing a substrate web supplied and led away with a substantially continuous speed includes an impression roller and two tool cylinders. Within one revolution of the tool cylinder, the transport speed of the substrate web at a contact area between tool cylinder and impression roller can periodically vary relative to the rotation speed of the tool cylinder. Of the two tool cylinders, at any time only one is in an operative state in that it is in engagement with an impression roller. The other tool cylinder is in a non-operative state in which it can be made accessible for thereon exchanging a tool plate.

A processing station for processing a substrate web supplied and led away with a substantially continuous speed includes an impression roller and two tool cylinders. Within one revolution of the tool cylinder, the transport speed of the substrate web at a contact area between tool cylinder and impression roller can periodically vary relative to the rotation speed of the tool cylinder. Of the two tool cylinders, at any time only one is in an operative state in that it is in engagement with an impression roller. The other tool cylinder is in a non-operative state in which it can be made accessible for thereon exchanging a tool plate.