The present invention relates to an inversion transfer module (60) for a converting machine having a printing module (16) comprising a first printing unit (17) arranged to print on a top side (S1) of the sheet (1), and a second printing unit (17) arranged to print a bottom side (S2) of the sheet. The inversion transfer module is arranged between the first printing unit and the second printing unit and comprises a first inversion vacuum transfer (62) arranged to contact the first side of the sheet and a second inversion vacuum transfer (64) configured to contact the second side of the sheet, whereby the inversion transfer module is configured to change the side of adherence and transportation of the sheet.

The control apparatus includes an acquisition unit, an air volume setting unit, and an air blow control unit. The air volume setting unit sets a volume of air to be blown toward the plurality of sheets from a separation blower based on the information on the processing job acquired by the acquisition unit or by manipulation of a user. When the air volume is changed from a first air volume to a second air volume different from the first air volume by the user, the air volume setting unit maintains the air volume as the second air volume, irrespective of the information on the processing job acquired by the acquisition unit, until the air volume is changed from the second air volume to an air volume different from the second air volume by the user.

The invention presented and described comprises an apparatus for mounting flat data carriers (1) on a continuous carrier web (2), having a data carrier supply device (3), a data carrier transfer device (4) and a carrier web positioning device (5), wherein the supply device (3) has a drive roller (6), a deflector (7) arranged substantially horizontally spaced apart from the drive roller (6) and at least one carrying belt (8) which runs around the drive roller (6) and deflector (7), wherein the carrying belt (8) has an upper run (9) which runs substantially horizontally in the feed direction of the data carriers (1), and a lower run (10) which runs in the opposite direction below said upper run, wherein the upper run (9) forms a transport path (11) for the data carrier (1) and is hydraulically connected to a suction box (12) which is arranged beneath in such a way that data carriers (1) which are located on the upper run (9) can be drawn by suction onto the carrying belt (8) by negative pressure, wherein the transfer device (4) has a transfer roller (14), which is provided with intake openings (13) on the circumference and which is hydraulically connected to a negative pressure source in such a way that data carriers (1) located on the outer casing of the transfer roller (14) can be drawn by suction onto the outer casing by negative pressure, wherein the transfer roller (14) has an entry region (15) which is adjacent to the suction box (12) of the supply device (3) and an exit region (16), which is spaced apart from the entry region (15) by a specific angle and is adjacent to the positioning device (5), and wherein at the exit region (16) of the transfer roller (14), a data carrier (1) which is located there on the outer casing of the transfer roller (14) can be transferred onto the carrier web (2).

The invention presented and described comprises an apparatus for mounting flat data carriers (1) on a continuous carrier web (2), having a data carrier supply device (3), a data carrier transfer device (4) and a carrier web positioning device (5), wherein the supply device (3) has a drive roller (6), a deflector (7) arranged substantially horizontally spaced apart from the drive roller (6) and at least one carrying belt (8) which runs around the drive roller (6) and deflector (7), wherein the carrying belt (8) has an upper run (9) which runs substantially horizontally in the feed direction of the data carriers (1), and a lower run (10) which runs in the opposite direction below said upper run, wherein the upper run (9) forms a transport path (11) for the data carrier (1) and is hydraulically connected to a suction box (12) which is arranged beneath in such a way that data carriers (1) which are located on the upper run (9) can be drawn by suction onto the carrying belt (8) by negative pressure, wherein the transfer device (4) has a transfer roller (14), which is provided with intake openings (13) on the circumference and which is hydraulically connected to a negative pressure source in such a way that data carriers (1) located on the outer casing of the transfer roller (14) can be drawn by suction onto the outer casing by negative pressure, wherein the transfer roller (14) has an entry region (15) which is adjacent to the suction box (12) of the supply device (3) and an exit region (16), which is spaced apart from the entry region (15) by a specific angle and is adjacent to the positioning device (5), and wherein at the exit region (16) of the transfer roller (14), a data carrier (1) which is located there on the outer casing of the transfer roller (14) can be transferred onto the carrier web (2).

A sheet conveying system comprising a first conveyor and a second conveyor arranged downstream of the first conveyor in a transport direction for taking-over a sheet from the first conveyor, the first conveyor having a belt that is driven to move over a stationary attraction mechanism, the attraction mechanism being arranged to exert, onto a sheet conveyed on the first conveyor, an attraction force that is proportional to an area of coverage of the sheet on the attraction mechanism, characterized in that the attraction mechanism is arranged to attract the sheet with a larger force per area in a downstream zone of the first conveyor than in an upstream zone thereof.

A sheet conveying system comprising a first conveyor and a second conveyor arranged downstream of the first conveyor in a transport direction for taking-over a sheet from the first conveyor, the first conveyor having a belt that is driven to move over a stationary attraction mechanism, the attraction mechanism being arranged to exert, onto a sheet conveyed on the first conveyor, an attraction force that is proportional to an area of coverage of the sheet on the attraction mechanism, characterized in that the attraction mechanism is arranged to attract the sheet with a larger force per area in a downstream zone of the first conveyor than in an upstream zone thereof.

A method and apparatus include directing an article to a receiving device; transferring the leading portion of the article to a folding device; transferring the leading portion of the article to an oscillating device while holding the trailing portion of the article on the receiving device; reversing the oscillating device; folding the article by overlaying the leading portion of the article on the trailing portion of the article to define a folded state while continuing to hold the trailing portion of the article on the receiving device.

A method and apparatus include directing an article to a receiving device; transferring the leading portion of the article to a folding device; transferring the leading portion of the article to an oscillating device while holding the trailing portion of the article on the receiving device; reversing the oscillating device; folding the article by overlaying the leading portion of the article on the trailing portion of the article to define a folded state while continuing to hold the trailing portion of the article on the receiving device.

A switching device (130) for transferring and ejecting a plate element (20) in a sorting unit (100), comprises: transport means (132), capable of transporting (A) the plate element (20) from upstream to downstream; a pivot (134), positioned in an upstream portion of the transport means (132), and allowing the transport means (132) to tilt relative to a horizontal transverse axis (R2); and raising means (135), secured in a downstream portion of the transport means (132), for tilting the downstream portion of the transport means (132) between a high first position and a low second position, and vice versa,
so as to switch the plate element (20), respectively upward and downward.

A switching device (130) for transferring and ejecting a plate element (20) in a sorting unit (100), comprises: transport means (132), capable of transporting (A) the plate element (20) from upstream to downstream; a pivot (134), positioned in an upstream portion of the transport means (132), and allowing the transport means (132) to tilt relative to a horizontal transverse axis (R2); and raising means (135), secured in a downstream portion of the transport means (132), for tilting the downstream portion of the transport means (132) between a high first position and a low second position, and vice versa,
so as to switch the plate element (20), respectively upward and downward.