EP2116377B1 - Procédé de fonctionnement d'une unité d'impression satellite à 9 cylindres - Google Patents

Procédé de fonctionnement d'une unité d'impression satellite à 9 cylindres Download PDF

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Publication number
EP2116377B1
EP2116377B1 EP09167802A EP09167802A EP2116377B1 EP 2116377 B1 EP2116377 B1 EP 2116377B1 EP 09167802 A EP09167802 A EP 09167802A EP 09167802 A EP09167802 A EP 09167802A EP 2116377 B1 EP2116377 B1 EP 2116377B1
Authority
EP
European Patent Office
Prior art keywords
printing
plate
cylinder
roller
plate cylinder
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Not-in-force
Application number
EP09167802A
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German (de)
English (en)
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EP2116377A1 (fr
Inventor
Georg Schneider
Bernd Masuch
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Koenig and Bauer AG
Original Assignee
Koenig and Bauer AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from DE200610056830 external-priority patent/DE102006056830B4/de
Priority claimed from DE200710028955 external-priority patent/DE102007028955B3/de
Application filed by Koenig and Bauer AG filed Critical Koenig and Bauer AG
Publication of EP2116377A1 publication Critical patent/EP2116377A1/fr
Application granted granted Critical
Publication of EP2116377B1 publication Critical patent/EP2116377B1/fr
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F27/00Devices for attaching printing elements or formes to supports
    • B41F27/12Devices for attaching printing elements or formes to supports for attaching flexible printing formes
    • B41F27/1206Feeding to or removing from the forme cylinder
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41PINDEXING SCHEME RELATING TO PRINTING, LINING MACHINES, TYPEWRITERS, AND TO STAMPS
    • B41P2227/00Mounting or handling printing plates; Forming printing surfaces in situ
    • B41P2227/60Devices for transferring printing plates

Definitions

  • the invention relates to a method for operating a nine-cylinder satellite pressure unit according to the preamble of claim 1.
  • a plate changing device for the printing plates of the plate cylinder of a printing press which may have a plurality of plate cylinder known.
  • the disc changer may include a cartridge having a delivery chute and a discharge chute.
  • the respective cassette can be arranged above or below a horizontal plane passing through the axis of rotation of the associated plate cylinder.
  • the document further shows a printing tower with stacked U-printing units. All of the plate cylinders are each associated with a plate changing device comprising a cassette.
  • the respective plate changing device is always arranged in the case of all plate cylinder above a running through the axis of rotation of the associated plate cylinder horizontal.
  • this known plate changing device is always arranged on the same circumferential area of the respective associated plate cylinder. This is possible with a U-printing unit, since the opposite, operable from different sides of the side frame forth plate cylinder of a printing unit rotate in production in opposite directions of rotation.
  • the DE 10 2004 052 021 A1 and the DE 40 03 445 C2 describe printing plate gripping devices with suckers.
  • the EP 1 435 292 A1 describes disk feeders in a flexo satellite printing unit.
  • the DE 197 56 796 A1 describes a sheet-fed press, the plate cylinder carry on the circumference different printing plates.
  • the post-published DE 10 2005 046 303 A1 which subsequently published DE 10 2006 004 330 B3 and the post-published DE 10 2006 028 434 A1 describe plate changing devices in the context of satellite printing units.
  • the WO 02/07972 A1 shows a satellite printing unit with plate changing devices.
  • the DE 10 2004 052 020 A1 discloses a method for operating a printing unit having at least one printing unit with a plate cylinder and at least one alsziehbaren on the plate cylinder, carrying a printed image pressure plate, wherein the pressure plate with a first angled leading in the printing operation end in a cylinder channel of a plate cylinder is fixed and / or fixed is and with a second, angled, trailing in printing operation end in the same or another cylinder channel is fixed and / or fixed.
  • the WO 03/031180 A2 discloses a nine-cylinder satellite printing unit whose plate cylinders are driven independently of each other by means of position-controlled drive motors. The assembly of the form cylinder with printing plates by means of pressing devices.
  • the DE 198 04 106 A1 discloses a printing unit with four printing units, each two printing units are designed as double printing units for printing on both sides of a web.
  • the head-side Ein rehabilitationabkantung the printing forme and at a lower printing unit first the foot-side Ein rehabilitationabkantung the printing plate is taken in each case by a clamping channel of the associated forme cylinder at an upper printing unit.
  • the printing plates are raised by rotating the forme cylinder in the direction of rotation C or C '. It can not be seen how the direction of rotation C or C 'behave towards the production directions of rotation. Also, no information is made about the second lower printing unit.
  • the invention has for its object to provide a method for operating a nine-cylinder satellite printing unit.
  • the invention thus makes it possible, regardless of the respective direction of rotation of the
  • Plate cylinder in the production of all plate cylinders of a printing unit or a printing tower plate changing devices assign, whereby a plate change can be carried out extremely quickly and, accordingly, the productivity of the printing press can be increased. Due to the now possible identical structure of all plate changing devices also manufacturing costs can be saved and the handling can be simplified. In addition, the invention allows a particularly compact design of a nine-cylinder satellite printing unit.
  • the same bending of both ends of the printing plates in particular each about 90 ° the production and handling of the printing plates can be simplified.
  • the cylinder channels of the impression cylinder can be made symmetrical and the same for all printing cylinders.
  • FIG. 1 Reference is made, one of two superposed, each for example, one, two, three, four, five, six or eight plates in the axial direction next to each other and, for example, one, two or four plates in the circumferential direction consecutively supporting pressure units 16 and 17, z.
  • the lower, z. B. six plates wide nine-cylinder satellite printing unit 16 includes a frame 02, a frame 02 mounted on the cylinder 18, z.
  • Each printing unit 03; 04; 21; 22 each includes a cylinder 06, z. B. as a Rubber cylinder 06 trained transfer cylinder 06, a cylinder 07, z. B. a designed as a plate cylinder 07 form cylinder 07, a plate cylinder 07 associated dampening unit 08 and the plate cylinder 07 associated inking 09.
  • the dampening 08 can be, for example, brush dampenings, film dampenings or spray dampenings.
  • two plate cylinders 07 are arranged at least substantially horizontally next to each other.
  • two plate cylinders 07 are arranged one above the other at least substantially in the vertical direction. The same applies to the transfer cylinder 06, whose axes define at least approximately a square.
  • a guide roller 19 is arranged such that a guided through the nine-cylinder satellite printing unit 16 Bedruckstoff- or paper web 23 is not deducted from the transfer cylinders 06, d. H. This does not wrap around, which is essential for the possibility of using an imprinter.
  • the plate cylinders 07 of the printing units 03; 04; 21; 22 is associated with a plate changing device 11 in order to automate the laying of printing plates on the respective plate cylinder 07 and accelerate.
  • the plate changing devices 11 may be those which are explained in more detail below.
  • the arrangement is such that both the associated inking unit 09 and the associated dampening unit 08 are arranged below an upper area of the respective plate cylinder 07 in order to make room for the above the respective inking unit 09 arranged plate changing device 11th
  • the printing units 03; 04; 21; 22 of the nine-cylinder satellite printing unit 16 are arranged at least substantially symmetrically with respect to a vertical center plane M of the nine-cylinder satellite printing unit 16, including the corresponding inking units 09 and the corresponding dampening 08, and also the printing units 03; 04; 21; 22 associated plate changing devices 11 arranged symmetrically with respect to the vertical center plane M.
  • Each printing unit 03; 04; 21; 22 of the nine-cylinder satellite pressure unit 16 has at least one preferably position-controlled drive motor 12 (see. Fig. 2a ) on. It can for each printing unit 03; 04; 21; 22 exactly one position-controlled drive motor 12 may be provided; Not least because of the spatially close position of the transfer cylinder 06 (small formats), the plate cylinder 07 are expediently driven in this case, as in Fig. 2a shown.
  • the plate cylinder 07 and the transfer cylinder 06 may be drivingly connected to each other, in particular by means of gears 36; 37.
  • Each plate cylinder 07 can be positively driven independently of the other plate cylinders 07 and / or independent of the satellite cylinder 18.
  • the satellite cylinder 18 may preferably have its own position-controlled drive motor 12. In this drive concept, a plate change on a plate cylinder 07 can be carried out independently of a plate change on another plate cylinder 07th
  • the upper nine-cylinder satellite pressure unit 17 corresponds in structure to the lower nine-cylinder satellite pressure unit 16.
  • the upper nine-cylinder satellite pressure unit 17 thus again comprises a serving as a satellite cylinder 18 impression cylinder 18 and four arranged thereon printing units 28; 29; 31; 32.
  • the arrangement of the printing units 03; 04; 21; 22 or cylinder 06; 07; 18 of a printing unit 16 according to the arrangement of the printing units 28; 29; 31; 32 or cylinder 06; 07; 18 of the other printing unit 17.
  • the plate changing devices 11 of the one printing unit 16 are arranged corresponding to the plate changing devices 11 of the other printing unit 17.
  • the upper nine-cylinder satellite printing unit 17 has a frame 27.
  • a frame 27 instead of the two stacked frames 02; 27 also a single common frame for the two nine-cylinder satellite pressure units 16; 17 and the printing tower 14 may be provided.
  • the plate changing devices 11 are all at least substantially the same and all arranged at least substantially horizontally, preferably they include an angle of less than 15 ° with the horizontal. In the case of the preferred embodiment, all the plate changing devices 11 are arranged in such a position as to always feed the printing plates to the corresponding plate cylinders 07 on an upper portion of the plate cylinders 07 (basically, they could always feed the printing plates to a lower portion of the plate cylinders 07). In particular, the plate changing devices 11 each have a PlattenzuWORKebene, which extends at least approximately tangential to the respective associated plate cylinder 07.
  • the plate changing devices 11 are arranged on the plate cylinders 07 so as to always enclose an acute angle with the incoming cylinder surface of the respective plate cylinder 07, which is essential for proper operation of the plate changing device 11, as will be apparent from the later explanations hereinafter.
  • Fig. 3 shows an embodiment of a plate-shaped pressure plate 101 made of elastically flexible metal. It may, for example, have a length L between 400 mm and 1,300 mm and a width B between 280 mm and 1,500 mm. Over a Support surface 102, the pressure plate 101 is in the mounted state on the lateral surface of a plate cylinder 07.
  • the pressure plate 101 has two opposite ends 103; 104 with angled Einhotbringeln 113; 114, wherein the leading suspension leg 113 of a first, leading end 103 is angled, for example, acute angle and the trailing suspension leg 114 of a second, trailing end 104, for example, at right angles.
  • At the leading end 103 of the suspension leg 113 is preferably acute-angled, in particular in an opening angle of 35 ° to 55 and at the trailing end 104 of the Einschschenkei 114 is preferably angled in an opening angle of 80 ° to 100 °.
  • the suspension legs 113; 114 of the pressure plate 101 is attached by means of a holding device 119, wherein the holding device 119 in a channel 108, z. B. cylinder channel 108 is arranged, which extends within the plate cylinder 07 id R. in the axial direction to the plate cylinder 07.
  • the rectified with the production direction P of the plate cylinder 07 end 103 of the pressure plate 101 is referred to as the leading or first end 103, whereas the opposite end 104 is referred to as trailing or second end 104 of the pressure plate 101.
  • the suspension legs 113; 114 are inserted into a narrow, in particular slot-shaped opening 109 of the channel 108 of the cylinder 07 and there by means of the holding device 119, z. B. a clamping device fastened.
  • the acute angle beveled suspension leg 113 at the leading end 103 of the pressure plate 101 is at the front edge 116, z. B. suspension edge 116 of the opening 109 can be positively locked and the right angle beveled suspension leg 114 at the trailing end 104 of the pressure plate 101 is at the rear edge 117 of the opening 109 can be suspended in a form-fitting manner.
  • the channel 108 are z. B. at least one pivotally mounted holding means 121 and a biased spring element 122 is arranged, wherein the spring element 122, the holding means 121 z. B. presses against the folded suspension leg 114 at the trailing end 104 which is hooked to the opening 109 at its rear edge 117, whereby the suspension leg 114 is held at the trailing end 104 at the extending from the rear edge 117 to the channel 108 toward wall ,
  • an adjusting means 123 preferably a pneumatically actuable adjusting means 123 is provided in the channel 108, which pivots the holding means 121 against the force of the spring element 122 and releases the suspension leg 114 in its operation.
  • the holding device 119 described, for example, consists essentially of the holding means 121, the spring element 122 and the adjusting means 123.
  • the leading end 103 may be resiliently biased (FIG. Fig. 7 ), so that the trained at the leading end 103 suspension leg 113 as a result of a directed to the plate cylinder 07 restoring moment MR springs into the opening 109 as soon as the opening 109 of the plate cylinder 07 and the contact line 127 of Einkowels 113 with the lateral surface 107 of the plate cylinder 07 due a relative movement between the pressure plate 101 and the plate cylinder 07 are directly opposite, wherein the relative movement takes place in particular by the rotation of the plate cylinder 07 in the direction of production P.
  • the restoring moment MR results from the fact that the pressure plate 101 consists of an elastically deformable material and thus immanently has an elastically resilient property, which is used insofar as the leading end 103 when approaching the plate cylinder 07 z. B. over a preferably axially to the plate cylinder 07 extending, spaced from the plate cylinder 07 arranged edge 126 of a support member 124 and bent there such that builds on the leading end 103, a bending stress with a plate cylinder 07 directed spring force (dashed line of the printing plate 101 in Fig. 7 ).
  • the support member 124 may, for. B.
  • roller 124 in particular as a roller 124 or as one or more axially to the plate cylinder 07 juxtaposed rollers 124 may be formed, the or the z. B. in the function of a pressing member 124 to the plate cylinder 07 is adjustable or are.
  • the suspension leg 113 hooks on the leading end 103 of the elevator 101 at the first edge 116 of the opening 109.
  • a rolling element 124 attached to the plate cylinder 07 can assist in mounting the elevator 101 onto the plate cylinder 07, in that the rolling element 124 rolls up the elevator 101 onto the plate cylinder 07.
  • said suspension leg 114 is pressed by the rolling element 124 in the course of rolling up of the elevator 101 on the plate cylinder 07 in the opening 109 of the cylinder 07.
  • the printing forme magazine 138 is provided for a plate changing device 11 which feeds and discharges from above.
  • the printing form magazine 138 has a receiving device 141, z. B. a shaft 141, for receiving at least one of the respective plate cylinder 07 ab rawden, used pressure plate 101 and a receiving device 143, z. B. a shaft 143, for receiving a on the respective plate cylinder 07 to be mounted, new pressure plate 101, wherein the receiving device 141; 143 preferably has a plurality of storage positions respectively for ab Stephende, used printing plates 101 and to be mounted, new printing plates 101.
  • the shafts 141; 143 each at least substantially arranged parallel to one another, ie they are preferably arranged one above the other in a layered construction. It can be z. B. a partition 147 in the printing forme magazine 138, the shafts 141; 143 separate. Each shaft 141, 143 preferably has at least two memory positions for the printing plates 101 to be stored in them.
  • the printing forme magazine 138 preferably extends over the length of the bale of the plate cylinders 07, but at least over the width B of the printing plate 101, and is able to move in its shafts 141; 143 a printing plate 101 preferably completely, d. H. their length L after record. Through an opening o138 is in each case a pressure plate 101 to the plate cylinder 07 can be fed or inserted from this into the slot 141.
  • the shaft 143 for the new printing plates 101 to be mounted is at the top and the tray 141 for the used printing plates 101 is located below.
  • the printing form magazine 138 may be movably mounted. Due to the movable arrangement of the printing forme magazine 138 results in better accessibility to the printing unit 03; 04; 21; 22; 28; 29; 31; 32 z. B. to carry out the work required there, z. B. Maintenance work.
  • the shafts 141; 143 of the printing plate magazine 138 In the working position, the shafts 141; 143 of the printing plate magazine 138, but at least the storage positions of the printing plates 101, horizontally or slightly inclined, preferably with an opening angle ⁇ less than 25 °, preferably with an opening angle ⁇ with less than 15 ° relative to the horizontal H aligned, the opening o138 the printing form magazine 138 advantageously has one of the openings 109 in that plate cylinder 07, with which the printing plate magazine 138 cooperates.
  • the reference numeral 148 is a lock, such as a taper bolt 148th designated to hold a movably arranged printing forme magazine 138 in its working position in front of the respective plate cylinder 07.
  • a lock such as a taper bolt 148th designated to hold a movably arranged printing forme magazine 138 in its working position in front of the respective plate cylinder 07.
  • at least one pressure plate 101 between the shafts 141; 143 and the plate cylinder 07 interchangeable either by a no longer required for the execution of a print job pressure plate 101 removed from the plate cylinder 07 and inserted into the shaft 141 or one for the execution of the print job new printing plate 101 led out of the shaft 143 and mounted on the plate cylinder 07 ,
  • FIG Fig. 9 to 14 The basic structure and further details of a preferred embodiment of a plate changing device 11 will now be described with reference to FIG Fig. 9 to 14 in connection with the structure and operation of an example of a top-feeding or discharging plate changing device 11 explained, for example, in connection with the printing unit 32. It is in this context on the WO 2004/085160 A1 Reference is made and their contents referenced, which explains a corresponding plate changing device 11 based on several embodiments.
  • Fig. 9 shows a plate cylinder 07 with two circumferentially offset by 180 ° channels 108 and two circumferentially successively arranged printing plates 101. It also shows an engageable by pneumatic actuation of the plate cylinder 07 pressure element 124 in the form of a pressure roller 124 or pressure roller 124. Close to the plate cylinder 07 is also a parallel to its axial direction pivotally mounted alignment device 151 with two diametrically arranged, laterally acting on a pressure plate 101, wing-shaped stops 152; 153 provided, wherein the alignment device 151 each with one of their stops 152; 153, a printing plate 101 to be mounted temporarily fixed during its feeding on the plate cylinder 07 .
  • the suspension leg 114 at the trailing end 104 of the first pressure plate 101 is located in the shaft 143 on the side facing away from the plate cylinder 07 on a preferably vertical stop 156, the stop 156 of a conveyor 157 linear and parallel to the support 154 in the direction of opening o138 the printing forme magazine 138 is movable in order to convey this first printing plate 101 out of the shaft 143 by a translatory movement and preferably without deformation until the suspension leg 113 at the leading end 103 of this first printing plate 101 can engage in the slot-shaped opening 109 of the printing cylinder 07.
  • the stopper 156 thus serves in the shaft 143 for the first pressure plate 101 as an abutment position and at the same time has the function of a slider 156.
  • the stop 156 z. B. advantageously also as a perpendicular to the support 154 standing, connected to the conveyor 157 register pin 156 may be formed so that with the application of the first pressure plate 101 to the stop 156 for them a pre-registration with respect to their side register.
  • the conveyor 157 is z. B. as a belt drive 157 or as a linear drive 157, preferably as a pneumatic linear drive 157, in particular as a rodless, double-acting linear actuator 157 is formed.
  • a holder 158 in particular printing forme holder 158 for holding at least one second on the plate cylinder 07 to be mounted pressure plate 101.
  • the second pressure plate 101 from the printing form holder 158 above the support 154, z. B. held by the fact that the printing form holder 158, for example, on the side facing away from the plate cylinder 07 a parallel to the support 154 movable piston 159 or slide 159, at the end of a Retaining element 161, z. B.
  • L-shaped angle 161 is arranged, wherein the second pressure plate 101 above the support 154 between the angle 161 of the extended slide 159 and arranged in the region of the opening o138 of the printing forme magazine 138 further holding member 162, z. B. a rigidly arranged stop 162 is clamped.
  • the distance a154 in this case has a value which is preferably between twice and four times the length of the Einkownlegeels 114 at the trailing end 104 of the second pressure plate 101.
  • the clamping of the second pressure plate 101 takes place in that a clear distance a158 between the angle 161 of the extended slider 159 and the stop 162 is set shorter than the extended length L of the second pressure plate 101.
  • the stop 162 in the region of the opening o138 of the printing plate magazine 138 preferably has a chamfer 163, at which the suspension leg 113 can be supported on the leading end 103 of the second pressure plate 101, wherein the chamfer 163 of the stop 162 and the L-shaped angle 161 on which the suspension leg 114 is supported on the trailing end 104 of the second pressure plate 101, facing each other. Since the second pressure plate 101 is flexible, in particular along its length L, it bulges in its clamped between the angle 161 and the stop 162 state.
  • the slider 159 of the printing plate holder 158 is preferably linearly parallel to the support 154 movable and preferably has two stable operating positions, namely a stable operating position in the retracted, the second pressure plate 101 releasing state and in the extended, d. H. the second pressure plate 101 chucking state.
  • a further shaft 141 which serves to receive printing plates 101 remote from the plate cylinder 07.
  • This shaft 141 has a z. B. inclined support 172, which as well as the support 154 in the shaft 143 to provide on the plate cylinder 07 to be mounted pressure plates 101st preferably not over the entire surface, but in the form of parallel strips 172 or slide rails 172 is formed.
  • the tray 141 for receiving the plate cylinder 07 remote printing plates 101 below the shaft 143 for providing to be mounted on the plate cylinder 07 printing plates 101 which is a preferred, but not mandatory arrangement.
  • a preferred embodiment of the duct 141 provides that at least two pressure plates 101 can be stored next to one another in the shaft 141 in the axial direction of the pressure cylinder 07. This embodiment allows a particularly rapid removal of printing plates 101, in particular when at least two printing plates 101 can be arranged on the plate cylinder 07 in its axial direction 101, because a plurality of printing plates 101 can be removed simultaneously from the plate cylinder 07.
  • a roller 173 is formed and has the task of leading the trailing end 104 of the plate cylinder 07 to be removed pressure plate 101 in the well 141.
  • a distance a173 of the guide element 173 from the lateral surface 107 of the printing cylinder 07 is preferably not much greater than the length of the folded Einpatinlegeels 114 at the trailing end 104 of the pressure plate 101.
  • a sensor 191 On the guide member 173 may be mounted a sensor 191, either in contact with the of Plate cylinder 07 to be removed printing plate 101 or advantageously contactless, z. B. inductive, checks whether the suspension leg 114 has actually solved at the trailing end 104 of the plate cylinder 07 to be removed pressure plate 101 after actuation of the arranged in the channel 108 of the printing cylinder 07 holding means 121.
  • the first ramp 174 is preferably rigidly connected to the support 172.
  • a stop 179 rigidly connected to the second ramp 177 is arranged a short distance behind the summit point 178, against which the suspension leg 114 abuts the trailing end 104 of the pressure plate 101.
  • the suspension leg 114 abuts against the stop 179 at the trailing end 104 of the pressure plate 101, it preferably engages behind the second ramp 177, in that the suspension leg 114 engages in the intermediate space formed by said distance.
  • the second ramp 177 and the stop 179 connected to it are movable by a conveyor 181 linearly and parallel to the support 172 in order to move the printing plate 101 to be removed from the plate cylinder 07 completely into the shaft 141.
  • the conveyor 181, which forms in particular together with the steep flank on the second ramp 177 for the folded suspension leg 114 at the trailing end 104 of the pressure plate 101 a pressure plate 101 in the well 141 promotional entrainment is z. B. as a belt drive 181 or as a linear drive 181, preferably as a pneumatic linear drive 181, in particular as a rodless, double-acting linear drive 181 is formed.
  • a lift 182 in particular a pressure molding lifter 182 is arranged in the shaft 141, wherein the printing form lifter 182, for example, a preferably perpendicular to the support 172 movable piston 183, at the end of a z.
  • L-shaped, in particular U-shaped lifting arm 184 is arranged, wherein the bent suspension leg 114 is set at the trailing end 104 of the pressure plate 101 on the lifting arm 184 or set encompassing.
  • the printing form lifter 182 preferably has two stable operating positions, namely a stable operating position with the piston 183 retracted, in which the lifting arm 184 is below the level defined by the support 172, and another stable operating position with the piston 183 extended, in which the lifting arm 184 the printing plate 101 removed from the plate cylinder 07 lifts from the support 172.
  • the printing form lifter 182 thereby executes a stroke s182, which is greater than the length of the folded EinHonbringels 114 at the trailing end 104 of the pressure plate 101.
  • the stroke s182 has a value between the single and double the length of Einophlegeels 114.
  • the printing form lifter 182 thus lifts a printing plate 101 remote from the plate cylinder 07 from a preliminary first storage position to a final second storage position.
  • a securing element 186 which is preferably pivotable about a pivot axis extending substantially parallel to the width B of the printing plate 101, is arranged, for. B. in the form of a strip-shaped flap 186, whose or the lower edge is located at a distance a186 from the lifting arm 184, wherein the distance a186 is preferably dimensioned smaller than the length of the folded Einpatinlegeels 114 at the trailing end 104 of the pressure plate 101st
  • Fig. 9 indicates a direction arrow to the pivoting of the fuse element 186.
  • the securing element 186 secures a printing plate 101 raised by the printing form lifter 182 against unintentional slipping in the shaft 141 or removal from the shaft 141 Operator to first pivot the fuse element 186 before the raised pressure plate 101 can be removed from the shaft 141.
  • the 10 to 14 By way of example, several stages of the procedure for changing printing plates 101 on a plate cylinder 07 are assumed. It is initially assumed that two printing plates 101 are arranged in the upper shaft 143 to provide new printing plates 101 to be mounted on the plate cylinder 07, that along the plate cylinder 07 from the circumference of two printing plates 101 are placed and that the lower slot 141 for receiving the plate cylinder 07 remote printing plates 101 is empty, ie free of printing plates 101, see. Fig.
  • the plate cylinder 07 rotates the opening 109 of a channel 108, in which the suspension leg 114 is held at the trailing end 104 of the printing plate 101 to be removed by the plate cylinder 07 by a holding means 121, in a first position, which is below the guide member belonging to the lower tray 141 173 is located.
  • the pressing element 124 is set on the plate cylinder 07 ( Fig. 10 ).
  • the holding means 121 is pivoted against the force of a spring element 122, whereby the suspension leg 114 at the trailing end 104 of the pressure plate 101 due to its elastic residual stress from the opening 109 snaps and strikes the guide member 173.
  • the employed pressure element 124 secures the pressure plate 101 against further detachment from the lateral surface 107 of the plate cylinder 07.
  • the plate cylinder 07 then rotates counter to its production direction P and pushes the trailing end 104 of the pressure plate 101 into the shaft 141.
  • the suspension leg 114 first slides along the trailing end 104 of this pressure plate 101 along the guide element 173 and then positions itself on the first ramp 174 belonging to the shaft 141.
  • the suspension leg 114 slides the ramp 174 up to about the summit 176 and then reaches the support 172.
  • the pressing member 124 is still employed on the plate cylinder 07, the pressure plate 101 by rotation of the plate cylinder 07 against its production direction P in the slot 142th inserted.
  • its suspension leg 114 at the trailing end 104 also overcomes the second ramp 177 connected to the conveying device 181 and abuts against the stop 179 connected to the second ramp 177.
  • the pressing element 124 is turned off by the plate cylinder 07.
  • the pressure plate 101 is now with its leading end 103 freely on the lateral surface 107 of the printing cylinder 07 on.
  • the plate cylinder 07 has performed from the release of Einkowels 114 at the trailing end 104 until now less than half a turn.
  • the bent suspension leg 114 at the trailing end 104 has hooked between the second ramp 177 and the stop 179.
  • the conveying device 181 connected to the second ramp 177 and the stop 179 can now completely draw the pressure plate 101 into the shaft 141, cf. Fig. 11 ,
  • the pressure plate 101 is now removed from the plate cylinder 07 and is in its length L to the shaft 141.
  • Her suspension leg 114 at the trailing end 104 is located on the summit point 178 of the second ramp 177, while their leading end 103 on the summit point 176 of the first ramp 174 rests, whereby at least the suspension leg 113 at the leading end 103 preferably hangs freely.
  • the storage of the pressure plate 101 in the shaft 141 is therefore preferably carried out by a support at two points, namely on the summit points 176; 178 of the two ramps 174; 177th
  • the latter To mount a printing plate 101 to be mounted on the plate cylinder 07, the latter first further rotates counter to its production direction P into a receiving position.
  • the first pressure plate 101 to be mounted on the plate cylinder 07 rests with its suspension leg 114 at its trailing end 104 on the stop 156 connected to a conveyor 157.
  • the conveyor 157 is set in operation, so that the stop 156 in a direction preferably directed tangentially on the plate cylinder 07, the first pressure plate 101 as far from the shaft 143 moves until its leading end 103 touches the employee on the plate cylinder 07 pressing member 124 and the this leading end 103 bent suspension legs 113 between the rear in the production direction P of the printing cylinder 07 edge 117 of the opening 109 and the contact point 188 of the pressure element 124 on the plate cylinder 07, see. Fig. 13 ,
  • the plate cylinder 07 now changes its direction of rotation, and begins to rotate in its direction of production P, whereby the set up on the plate cylinder 07 Suspension leg 113 at the leading end 103 of the pressure plate 101 slips into the opening 109 and positively hooked to the front edge 116 of the opening 109. Due to the further rotation of the plate cylinder 07 in its production direction P, the printing plate 101 is completely conveyed out of the shaft 143 and mounted on the plate cylinder 07. During the winding, the pressure plate 101 is rolled on the plate cylinder 07 by the pressure element 124 placed on the plate cylinder 07.
  • the pressing member 124 presses the folded suspension leg 114 at the trailing end 104 of the pressure plate 101 in the opening 109.
  • the holding means 121 in the opening 108 belonging to this channel 108 was released and is then in that Operating position brought in which it introduced into the opening 109 suspension leg 114 at the trailing end 104 of the pressure plate 101 z. B. fixed by a clamp.
  • the conveyor 157 drives the stop 156 connected to it again into its end position on the side facing away from the printing cylinder 07 side in the shaft 143, see. Fig. 14 ,
  • the pressure element 124 is turned off by the pressure cylinder 07 and the alignment device 151 pivots with its diametrical stops 152; 153 again preferably in a horizontal position.
  • pressure plates 101 may preferably be provided in a manner not shown that in the plate changing device 11 in the axial direction of Plate cylinder 07 seen several printing plates 101 are arranged side by side.
  • each of the juxtaposed printing plates 101 is assigned at least one pressing element 124, wherein it is particularly preferred if each at least one pressure plate 07 associated pressing member 124 is independently operable by the other printing plates 101 associated pressing elements 124, so that the supply and discharge for each printing plate 101 can be performed independently of another printing plate 101.
  • this can a plurality of shaft-like areas 141; 143 and shafts 141; 143, wherein at least two shaft-like regions 141; 143 may be arranged side by side, but preferably the number of juxtaposed shaft-like areas 141; 143 corresponds to the number of on the associated plate cylinder 07 in the axial direction next to each other can be arranged pressure plates 101.
  • the plate changing device 11 comprises a number of printing plates 101 on the associated plate cylinder 07 corresponding number of adjacent feed chutes 143 and a corresponding number of arranged below the Zu manufacturedMchte 143 discharge chutes 141 ,
  • the number of juxtaposed feed chutes 143 of the plate changing device 11 can in particular be four or six.
  • each printing plate 101 is in each case a channel 108 (cf. Fig. 4 ) or a portion of a channel 108 for receiving the angled front end 113 of each pressure plate 101 assign.
  • each printing plate 101 has a correspondingly long channel 108 is formed, which may be formed continuously in particular in the axial direction of the plate cylinder 07.
  • holding means 119 for holding the suspension legs 113 of the printing plates 101 are provided in the channels 108 (see FIG. Fig. 4 ), which in particular may comprise the holding means 121, the spring elements 122 and the adjusting means 123.
  • a separate holding device 119 is provided for each printing plate 101 in the case of a plurality of axially adjacent to each other on a plate cylinder 07 printing plates 101 and each holding device 119 is independent of the other holding means 119 operable, in particular pneumatically actuated.
  • the wear the printing units 22; 04; 03; 21 associated printing plates 101a; 101b; 101c and 101d printed images 105 of the corresponding color namely, the printing plate 22 associated printing plates 101a a print image 105a for the color black, the printing unit 04 associated printing plates 101b a printed image 105b for the color cyan, the printing unit 03 associated printing plates 101c a printed image 105c for the color magenta and the printing plate 21 associated printing plates 101d a printed image 105d for the color yellow, see.
  • Fig. 5 the wear the printing units 22; 04; 03; 21 associated printing plates 101a; 101b; 101c and 101d printed images 105 of the corresponding color, namely, the printing plate 22 associated printing plates 101a a print image 105a for the color black, the printing unit 04 associated printing plates 101b a printed image 105b for the color cyan, the printing unit 03 associated printing plates 101c a printed image 105c for the color magenta and the printing plate 21 associated printing plates 101d a printed image 105d
  • Fig. 5 outlines the printing plates 101a; 101b; 101c and 101d associated with the associated print images 105a; 105b; 105c and 105d for this nine-cylinder satellite printing unit 16.
  • the production direction P or direction P of the respective printing plate 101a; 101b; 101c and 101d are shown on the corresponding plate cylinder 07 during the production operation.
  • the leading in production operation end of each print image 105a; 105b; 105c; 105d is designated by the reference numeral 106, the trailing end in the production process with the reference numeral 110.
  • the printed images 105a and 105b are applied opposite the printed images 105c and 105d in opposite orientation on the respective printing plates 101a and 101b. It can also be seen that the orientation of the printing plates 101a and 101b relative to the direction of production P is opposite to the orientation of the printing plates 101c and 101d, so that ultimately all the printed images 105a; 105b; 105c and 105d are aligned in the same orientation to the direction of production P.
  • the process of mounting the printing plates 101a; 101b takes place in the case of the printing units 22 and 04 now so that the corresponding printing plates 101a; 101 b are mounted with their first end 103 at the first front edge 16 of the plate cylinder 07 and the direction of rotation of the corresponding plate cylinder 07 for the purpose of Mounting the printing plates 101a; 101b is reversed until the second end 104 of the pressure plate 101a; 101b is suspended and attached to the second rear edge 117 of the plate cylinder 07, and that then the direction of rotation of the plate cylinder 07 is again reversed in the production direction P for a subsequent printing operation.
  • the running direction P in the printing operation so that the second end 104, which is usually the trailing end in the prior art, now represents the leading end.
  • the above embodiments are applicable to the overhead nine-cylinder satellite pressure unit 17 accordingly, in which case the printing units 31; 28 those printing units 31; 28, in which the printing plates 101c and 101d have leading ends 104 in printing operation and printed images 105c applied in opposite orientation to the prior art; 105d wear.
  • these printing units 31; 28 assigned the colors magenta or yellow.
  • Fig. 15 shows different operating phases of the plate cylinder 07, for example, the printing units 29; 28 or 32; 31, namely phase A, in which the first end 103 of the respective pressure plate 101 has been hooked into the channel 108 of the plate cylinder 07, more precisely via its first front edge 116 and the process of drawing up a pressure plate 101 begins, phase B, in FIG the plate cylinder 07 rotates to mount the printing plate 101 and the printing plate 101 is already partially wound up, phase C, in which the mounting of the printing plate 101 is finished on the plate cylinder 07 and thus also the second end 104 of the pressure plate 101 in the channel 108, more precisely has been suspended over its second rear edge 117 and possibly fixed there, and phase D, in which the plate cylinder 07 rotates for the purpose of printing in the direction of production P.
  • phase A in which the first end 103 of the respective pressure plate 101 has been hooked into the channel 108 of the plate cylinder 07, more precisely via its first front edge 116 and the process of drawing up a pressure plate 101 begins
  • phase B in FIG the plate
  • the left column shows a plate cylinder 07, for example, the printing units 29; 32 and the right one Column shows a plate cylinder 07, for example, the printing units 28; 31 of the nine-cylinder satellite printing unit 17.
  • the plate cylinder 07 rotates here during the phase of drawing up a pressure plate 101c; 101d in the direction of production P, while in the case of the right column, the direction of rotation D of the plate cylinder 07 when mounting a printing plate 101a; 101b is directed opposite to the direction of production P and is reversed again after mounting.
  • the circumference of the satellite cylinder 18 corresponds to the circumference of the plate cylinder 07 or forme cylinder 07; in the case of a circumference of the plate cylinder 07 from one side, especially newspaper page, the circumference of the satellite cylinder 18 also corresponds to one side, especially newspaper page, in the case of a circumference of the plate cylinder 07 from two sides, especially newspaper pages, the circumference of the satellite cylinder 18 also corresponds to two sides, in particular newspaper pages.
  • the circumference of the satellite cylinder 18 is thus in the case of the first alternative mentioned above equal to the section length of the plate cylinder 07 and in the case of the second alternative mentioned above equal to twice the section length of the plate cylinder 07th
  • the circumferential ratio of the satellite cylinder 18 and the plate cylinder 07 can in particular be designed such that the circumference of the satellite cylinder 18 corresponds to an integral multiple of the section length of the plate cylinder 07.
  • Fig. 16 is an example of a part of the printing unit 21 of the printing tower 14 according to Fig. 1 shown; the other printing units 03; 04; 22; 28; 29; 31; 32 are formed accordingly.
  • the rotary press operates in a wet offset printing process.
  • the transfer cylinder 06 generates with each of its revolutions on the printing substrate 23, preferably on a paper web 23, at least one printed image.
  • operating case of the printing unit 21 are at the forme cylinder 07 at least one inking unit 09 and a dampening unit 08 employed.
  • the inking unit 09 has a plurality, preferably at least three rollers 203; 204; 206, z. B. inking rollers 203; 204; 206, which are employed in an ongoing production process of the rotary printing machine to the forme cylinder 07. Between a printing ink from a color reservoir 207 receiving ink fountain roller 208 and the ink on the forme cylinder 07 applying inking rollers 203; 204; 206 are a plurality of rollers 209; 211; 212; 213 arranged. The roller 209 following the ink fountain roller 208 in the direction of conveyance of the ink is formed as a film roller 209.
  • a roller 211 formed as a paint flow separating roller 211 which divides a paint stream 2A coming from the ink fountain roller 208 into a main stream 2B and a sub stream 2C.
  • the leading to the forme cylinder 07 course of the main flow 2B is indicated by a solid line and also leading to the forme cylinder 07 course of the secondary flow 2C by a dashed line.
  • one of the ink flow separating roller 211 on at least one of the inking rollers 203; 204; 206 ink transferring roller 212; 213, said roller 212; 213 each as a rubbing roller 212; 213 is formed.
  • the two friction rollers 212; 213 perform a running in their respective axial direction traverse stroke, the traverse stroke of a friction roller 212 z. B. may be coupled by a lever assembly with the traverse stroke of the other friction roller 213.
  • the traverse stroke of the respective friction roller 212; 213 generated by independent drives. By both Drive variants, the two traversing strokes can be designed in opposite directions.
  • the traverse stroke of the respective friction roller 212; 213 can z. B. be generated by means of a gear from the rotational movement.
  • Both in the main stream 2B and in the secondary stream 2C ink taken from the ink reservoir 207 is in each case by means of a five juxtaposed rollers 208; 209; 211; 212; 213; 203; 204; 206 having applied to the plate cylinder 07, wherein the ink fountain roller 208, the film roller 209, the ink flow separation roller 211, one of the friction rollers 212; 213 and one of the inking rollers 203; 204; 206 are each part of each of the forme cylinder 07 leading compactor. Accordingly, only a single roller 209 is arranged in the roller train between the ink fountain roller 208 and the ink flow separation roller 211, this roller 209 being designed as a film roller 209
  • the main current 2B is that part of the Farbduoms 2A coming from the ink fountain roller 208, which is taken in the direction of rotation of the ink flow separation roller 211 of this Farbstromtrennwalze 211 and first passed through the arranged in this main flow 2B Reibwalze 212 in the direction of the forme cylinder 07. That part of the Farbduoms coming from the ink fountain roller 201 211 downstream of the main stream 2B is removed in the direction of rotation of the Farbstromtrennwalze 211 of this Farbstromtrennwalze 211 and forwarded in the direction of the forme cylinder 07 is referred to as the secondary stream 2C taken from the ink reservoir 207 ink.
  • the secondary stream 2C can turn into further partial streams 2D; 2E be divided if at the arranged in the secondary flow 2C friction roller 213 more, in particular two of the inking rollers 204; 206; 203 are employed. Since the main stream 2B of color ink coming from the ink fountain roller 208 2A the forme cylinder 07 in the direction of rotation first, ie at least spatially before the side stream 2C and its partial streams 2D; 2E, such an inking unit 09 is referred to as front-heavy. The in the secondary stream 2C of coming from the ink fountain roller 208 color flow 2A ink is transported z. B. applied to the pre-colored by the main stream 2B form cylinder 07.
  • the ink reservoir 207, from which the ink fountain roller 208 removes the ink to be transported to the forme cylinder 07 is z. B. as a color box 207 or as a color tray 207, wherein the color box 207 or on the ink tray 207 in the axial direction of the ink fountain roller 208 strung together several, z. B. thirty to sixty color knives (not shown) are provided, which are each preferably remotely adjustable with an adjusting means, not shown in their respective employment of the ink fountain roller 208 and actually employed, whereby a zonewise metering of the ink fountain roller 208 recorded ink is possible.
  • the dosage of the ink quantity made with the setting of the respective inking knife is expressed in a layer thickness of the printing ink proportional to this setting in the relevant zone on the jacket surface of the ink fountain roller 208.
  • the inking unit is accordingly designed as a zone inking unit in the preferred embodiment.
  • the rollers 203; 204; 206; 208; 209; 211; 212; 213 of the inking unit 09 have in their respective axial direction a length z. B. in the range of 500 mm to 2,600 mm, in particular in the range of 1,400 mm to 2,400 mm.
  • Your outer diameter is z. B. in the range between 50 mm and 300 mm, preferably between 80 mm and 250 mm.
  • the Farbstromtrennwalze 211 has a lateral surface preferably made of an elastic material, for. B. made of a rubber.
  • the dampening unit 08 is preferably as a dampening means contactless applying dampening 08, z. B. formed as a spray dampening unit, so that it has a spray bar 219, wherein preferably a plurality of arranged in the spray bar 219 spray nozzles the dampening solution to a z. B. as a dampening drive roller 221 formed roller 221 of the dampening 08 spray.
  • the dampening agent sprayed on the dampening drive roller 221 is replaced by another z. B. as a smoothing roller 222 formed roller 222 of the dampening unit 08 on the dampening roller 218 and transferred from there to the forme cylinder 07.
  • FIG. 16 is the direction of rotation of the respective rollers 203; 204; 206; 208; 209; 211; 212; 213 of the inking unit 09, the rollers 218; 221; 222 of the dampening unit 08 and the cylinder 06; 07 each indicated by an associated arrow.
  • the cylinders 06; 07 are driven as described above.
  • In the inking unit 09 is only one of the friction rollers 212; 213, namely either the friction roller 212 or the friction roller 213 by a drive 253; 254, z. B. an electric motor 253; 254 driven.
  • the friction roller 212 is driven and the friction roller 213 has no motor.
  • the other alternative is intended to be indicated by the fact that a drive 253 is shown for the friction roller 212 only in dashed representation.
  • the remaining rollers 203; 204; 206; 208; 209; 211 of the inking 09 are friction-driven and thus have no own motor drive.
  • the upper friction roller 213 is pivoted by a mechanical device in a direction that increases its axial distance a213 to the forme cylinder 07, so that the central inking roller 204 substantially by a vertically upward movement of the Region between the forme cylinder 07 and the upper friction roller 213 can be removed.
  • the uppermost inking roller 206 of the inking unit 09 is arranged such that in its employed to the forme cylinder 07 operating state at the periphery of this Ink application roller 206 applied horizontal tangent T206 of a applied to the circumference of the forme cylinder 07 horizontal tangent T07 at a vertical distance a206 of at least 50 mm. This vertical distance a206 forms, so to speak, an offset between the uppermost inking roller 206 and the forme cylinder 07.
  • Fig. 17 and 18 show in a schematic sketch again in the Fig. 16 shown part of the printing unit 21, now in particular the storage of the cylinder 06; 07 and a respective adjustment of the inking rollers 203; 204; 206, the film roller 209, the ink jet separating roller 211, the dampening roller 218 and the dampening driving roller 221 are highlighted.
  • the representations in the Fig. 17 and 18 differ in that Fig. 17 shows a first operating state with preferably each closed compactors, which means that z. B.
  • Fig. 18 shows, however, a second operating state with preferably each open, ie interrupted by a gap pulleys, which means that z. B. the inking rollers 203; 204; 206 and / or the dampening roller 218 are at least offset from the forme cylinder 07.
  • All rollers 203; 204; 206; 208; 209; 211; 212; 213 of the inking unit 09, the rollers 218; 221; 222 of the dampening unit 08 and the cylinder 06; 07 are each arranged at a distance from each other, in opposite standing frames 02 and 27 of the printing tower 14 (FIG. Fig. 1 rotatably mounted, wherein at least the inking rollers 203; 204; 206 and the dampening roller 218, but preferably also the film roller 209 and the ink flow separation roller 211 of the inking unit 09 and the dampening drive roller 221 of the dampening unit 08 are each arranged radiallyhubtext.
  • the radial stroke of these rollers 203; 204; 206; 209; 211; 218; 221 refers to that the respective axis of these rollers 203; 204; 206; 209; 211; 218; 221 or at least one of the ends of these rollers 203; 204; 206; 209; 211; 218; 221 opposite to the respective roller 203; 204; 206; 209; 211; 218; 221 belonging frame-fixed bearing point is eccentrically adjustable.
  • the eccentric displacement of each of the rollers 203; 204; 206; 209; 211; 218; 221 is carried out in each case by means of preferably several, z. B.
  • each actuated actuator 223 each with respect to the roller 203; 204; 206; 209; 211; 218; 221, to which it belongs, exerts a radial force, this force being the axis of this roller 203; 204; 206; 209; 211; 218; 221 moves radially or at least tries to move.
  • actuators 223 are actuated simultaneously, resulting from the axis of the respective roller 203; 204; 206; 209; 211; 218; 221 executed radial stroke from a vector sum of the respective radial force of actuated actuators 223.
  • the actuators 223 are z. B. subjected to a pressure medium; Preferably, they are pneumatically operated.
  • the actuators 223 are z. B. in each case one end of the respective roller 203; 204; 206; 209; 211; 218; 221 receiving roller lock arranged.
  • the from the axis of the respective roller 203; 204; 206; 209; 211; 218; 221 executable radial stroke is preferably in the range of a few millimeters, z. B. it is up to 10 mm, which is sufficient to the respective roller 203; 204; 206; 209; 211; 218; 221 of at least one adjacent cylindrical rotary body, for. B. the forme cylinder 07, turn off.
  • one of the respective roller 203; 204; 206; 209; 211; 218; 221 is set against its at least one adjacent rotating body applied contact pressure, wherein the amount of the set contact force by the controlled with this setting transport of ink or dampening influences the quality of the printed product generated in conjunction with this inking 09 and / or dampening 08.
  • the Contact force is built up when already a physical contact between the respective roller 203; 204; 206; 209; 211; 218; 221 and its adjacent body of revolution, but still by the operation of one or more actuators 223, the at least one effective radial force is increased.
  • an existing contact force in its amount changed, for. B. also be reduced.
  • one of the rollers 203; 204; 206; 209; 211; 218; 221 exerts on its adjacent body rotation, also a width of a in touch contact between this roller 203; 204; 206; 209; 211; 218; 221 and the adjacent rotary body forming roller strip set, wherein the roller strip as a flattening on the lateral surface of the roller 203; 204; 206; 209; 211; 218; 221, on the lateral surface of the with the roller 203; 204; 206; 209; 211; 218; 221 cooperating cylindrical rotating body or on the lateral surface of both represents.
  • the width of the roller strip is the chord forming by the flattening on the otherwise circular cross section of the roller 203; 204; 206; 209; 211; 218; 221 or the rotating body cooperating with it.
  • the flattening is due to an elastically deformable lateral surface of the roller 203; 204; 206; 209; 211; 218; 221 or the cooperating with her body of revolution possible.
  • a roll strip is also referred to as a nip point.
  • values may be stored for their respective pressure level, to which the respective actuators 223 are to be set, in order to apply to a specific roller 203; 204; 206; 209; 211; 218; 221 form a roller strip of a certain width to its adjacent body of revolution by the contact force resulting from the respective setting of the actuators 223.
  • the cylinders 06; 07, ie the transfer cylinder 06 and the forme cylinder 07 are, as shown in the Fig. 17 and 18 each stored in a storage unit 224, preferably both ends of the respective cylinder 06; 07 each in such a Bearing unit 224, z. B. linear bearing 224 are stored.
  • the bearing unit 224 allows the respective cylinder 06; 07 a linear displacement S. Details of the preferred bearing unit 224 are in the Fig. 19 shown.
  • the one on / Abstellmechanismus for the respective cylinder 06; 07 integrating bearing unit 224 has in addition to a bearing 226, z. B. radial bearing 226, for example, a cylindrical roller bearing 226, for rotatably supporting the respective cylinder 06; 07 storage means 227; 228 for a radial movement of the respective cylinder 06; 07 - for pressure on or pressure off - on.
  • the bearing unit 224 after its installation in or on a frame of the printing press frame-fixed, carrier-fixed bearing elements 227 and the movable against these bearing elements 228 on.
  • the carrier-fixed and movable bearing elements 227; 228 are as cooperating linear elements 227; 228 and together with corresponding sliding surfaces or rolling elements between them as a total of a linear bearing 227, 228 formed.
  • the linear elements 227; 228 take in pairs a radial bearing 226 receiving, z. B. formed as a carriage 229 bearing block 229 between them. Bearing block 229 and the movable bearing elements 228 may also be made in one piece.
  • the carrier-fixed bearing elements 227 are arranged on a support 231, which in total with one of the frames 02; 27 ( Fig. 1 ) is connected.
  • the carrier 231 is designed, for example, as a carrier plate which, for example, at least on a drive side of the respective cylinder 06; 07 a recess for the passage of a shaft, z. B. a drive shaft of an in Fig. 19 Having not shown cylinder pin.
  • the frame wall on the drive side preferably has a recess or an opening for a drive shaft.
  • On the opposite side of the drive side does not necessarily have a recess or a recess in the frame 02; 27 may be provided.
  • a length of the linear bearing 227, 228, in particular at least a length of the bearing means 227 of the linear bearing 227 that is fixed in the mounted state in the assembled state, is 228, in the direction of the travel S considered smaller than a diameter of the associated cylinder 06; 07.
  • the bearing block 229 preferably has only a single degree of freedom of movement in the direction of the travel S.
  • the storage unit 224 which is preferably designed as a unit which can be assembled as a whole, forms z. B. an optionally partially open housing from z. B. the carrier 231 and / or z. B. a frame (in Fig. 19 without reference z. B. the four storage unit 224 to all four sides outwardly bounding plates).
  • a frame within this housing or this frame are the radial bearing 226 bearing block 229, the bearing elements 227; 228, z. B. the linear guides 227; 228, z. B. linear bearing 227; 228 and in an advantageous embodiment, for. B. a bearing block 229 linearly adjusting actuator 232 or more such actuators 232 housed.
  • the frame-fixed bearing elements 227 are arranged substantially parallel to one another and define the direction of the travel S ( Fig. 19 ).
  • Pressure is applied by moving the bearing block 229 in the direction of the pressure point by means of a force F applied to the bearing block 229 by at least one actuator 232, in particular by at least one force-controlled actuator 232, by means of which a defined or definable force F in is provided for setting Pressure on direction can be brought to the bearing block 229 ( Fig. 19 ).
  • line force in the respective nip point is therefore not by a travel S, but by the force equilibrium between the force F and between the cylinders 06; 07 resulting line force F L and the resulting equilibrium defined.
  • the cylinder 06; 07 employed in pairs by the bearing block 229 is acted upon by the correspondingly set force F via the / the actuator (s) 232.
  • the respective transfer cylinder 06 of the printing unit 03; 04; 21; 22; 28; 29; 31; 32 in one by the Force equilibrium found Anstelllage fixable or at least wegbegrenzbar.
  • the bearing unit 224 has on its side facing a pressure point - at least during the setting process - a location-adjustable stop 233, which limits the travel S to the pressure point out.
  • the stop 233 is spatially variable in such a way that an effective as a stop stop surface 234, whose reference numerals in the Fig. 19 is shown in an outbreak of the bearing block 229, along the travel S at least in one area is variable. It is thus provided by adjustable stop 233 in an advantageous embodiment, an adjusting device by means of which the position of a pressure near the end position of the bearing block 229 is adjustable. For Wegbegrenzung / adjustment serves z. B. a wedge drive described below.
  • the placement of the stop 233 can basically be done manually or via an actuating means 236 designed as an actuator 236.
  • Fig. 19 holding or clamping means provided by means of which the stop 233 can be set in the desired position.
  • at least one resilient element 237, z. B. spring element 237 is provided, which applies a force F R from the stop 233 in a direction away from there on the bearing block 229.
  • the spring element 237 causes pressure-off in the event that the bearing block 229 is not prevented from moving in any other way.
  • Pressure is applied by moving the Bearing block 229 in the direction of the stop 233 by at least one actuator 232, in particular a force-controlled actuator 232, by means of which for the employment of the respective cylinder 06; 07 either a defined or definable force F in print-on direction on the bearing block 229 can be brought.
  • the applied force F, the restoring force F R and the position of the stop 233 is selected such that no substantial force ⁇ F is transmitted between the stop 233 and the abutment surface of the bearing block 229 in the set position, for example
  • the contact force between the cylinders 06; 07 substantially determined by the voltage applied by the actuator 232 force F.
  • the decisive for the color transfer and thus the print quality, among others decisive line force F L in the respective nip point is therefore not primarily by a travel S, but at quasi-free stop 233 defined by the force F and the resulting balance. In principle, after finding the basic setting with the appropriate forces F, it would be conceivable to remove the stop 233 or a corresponding fixation effective only during the basic setting.
  • the actuator 232 can in principle be designed as an arbitrary actuator 232 applying a defined force F.
  • the actuator 232 is designed as actuatable by a pressure medium adjusting means 232, in particular as a piston 232 movable by a fluid.
  • Advantageous in terms of possible tilting is the arrangement of several, here two, such actuators 232.
  • a liquid for.
  • a controllable valve 238 is provided. This is performed, for example, electronically controlled and provides a hydraulic piston 232 in a first position without pressure or at least to a lower pressure level, while in another position a force F conditional pressure 2P is applied.
  • a non-designated leakage line is provided here for safety.
  • overload protection 239 z. B can on the remote pressure side of the bearing block 229 a travel limit by a mobile, force-limited stop 239 as overload protection 239 z. B. be provided in conjunction with a spring element, which in the operative pressure-off position, d. H. the pistons 232 are unloaded and / or retracted, although serve as a stop 239 for the bearing block 229, but in the case of a web winder or other excessive forces originating from the pressure point yields and gives way to a greater distance.
  • a spring force of this overload protection 239 is therefore chosen to be greater than the sum of the forces from the spring elements 237.
  • the stop 233 is in the illustrated embodiment ( Fig. 19 ) as a transversely movable to the direction of the travel S wedge 233, wherein the same moves the position of the respective effective stop surface 234 along the travel S varies.
  • the wedge 233 is supported, for example, on a carrier-fixed stop 241.
  • a wedge 233 stop 233 is moved by an actuator 236, for example, by a pressure medium actuatable actuating means 236, z.
  • This actuator 236 can either be effective in both directions or, as shown here, designed as a one-way actuator, which when activated operates against a return spring 243.
  • the force of the return spring 243 is chosen so weak from above reasons (largely force-free stop 233) that the wedge 233 is held only in its correct position against gravity or vibration forces.
  • the abutment 233 can also be designed in another way (for example as a plunger that can be adjusted and fixed in the direction of adjustment) in such a way that it has a stop surface 234 which can be fixed in the direction of the travel S and, at least during the adjustment process, can be fixed forms for the movement of the bearing block 229 in the direction of pressure point.
  • a location of the stop 233 takes place, for example, directly parallel to the direction of the travel S by a drive means, for example, a pressure medium actuated cylinder with (double-acting) piston or an electric motor.
  • FIGS. 20 to 24 Reference is made to avoid repetition expressly to the description in connection with the embodiments Fig. 1 to 19 Reference is made, as far as relevant.
  • the embodiments according to FIGS. 20 to 24 differ from the embodiments according to Fig. 1 to 19 in particular or substantially only by a different configuration of the first end 103 of the pressure plate 101 (cf. Fig. 21 ), which brings a correspondingly different design of the printing plate holding device in the plate cylinder 07 and the cylinder channel 108 with it (see. Fig. 22 ), as well as by a different concept for a plate change (cf. Fig. 20 and 24 ).
  • Fig. 21 shows an embodiment of a plate-shaped pressure plate 101 made of elastically flexible metal.
  • You can, as in the case of the embodiment according to Fig. 3 For example, have a length L between 400 mm and 1,300 mm and a width B between 280 mm and 1,500 mm.
  • About a support surface 102 is the pressure plate 101st in the assembled state on the lateral surface of a plate cylinder 07.
  • the pressure plate 101 has two opposite ends 103; 104 with angled Einhotbringeln 113; 114, wherein the leading suspension leg 113 of a first, leading end 103 is angled at an angle ⁇ and the trailing suspension leg 114 of a second, trailing end 104 may be angled at the same angle ⁇ .
  • the two angles ⁇ can also be formed differently large.
  • the angle ⁇ is preferably at least substantially a right angle.
  • the angle ⁇ can be in a range between 80 ° and 100 °, for example at 90 °.
  • the suspension legs 113; 114 of the pressure plate 101 is secured by means of a respective holding device 119, the holding device 119 according to Fig. 4 at least substantially.
  • the two holding devices 119 are formed symmetrically with respect to a center plane of the likewise symmetrical cylinder channel 108.
  • the substantially rectangular angled suspension legs 113; 114 are insertable into a comparatively narrow, in particular slot-shaped opening 109 of the channel 108 of the cylinder 07 and there fastened by means of the holding devices 119, which may be formed as shown as clamping devices.
  • the suspension leg 113 at the leading end 103 of the pressure plate 101 which is bent at least substantially at right angles, can be suspended from the at least essentially right-angled front edge 116 or attachment edge 116 of the opening 109 and the suspension leg 114 bent at least substantially at right angles to the trailing end 104 of the pressure plate 101 is at the likewise at least substantially right-angled rear edge 117th or suspension edge 117 of the opening 109 can be suspended.
  • the channel 108 are for each holding device 119 z. B. at least one pivotally mounted holding means 121 and a biased between two holding means 121, common spring element 122 is arranged, wherein the spring element 122, the holding means 121 z. B. against the respective folded suspension legs 113; 114 at the leading end 103 and the trailing end 104 presses, which is mounted on the opening 109 at its front and rear edge 116 and 117, whereby the suspension leg 113 at the leading end 103 and the suspension leg 114 at the trailing end 104 at which is held by the front edge 116 and the rear edge 117 to the channel 108 extending wall.
  • an adjusting means 123 preferably a pneumatically actuable adjusting means 123, is provided in the channel 108, which pivots the respective holding means 121 against the force of the spring element 122 during its actuation and releases the suspension legs 113 and 114, respectively.
  • the holding device 119 described, for example, consists essentially of the two holding means 121, the tensioned between spring element 122 and the two adjusting means 123th
  • Printing images of the corresponding color namely the printing plates 22 associated printing plates 101a a print image 105a for the color black, the printing unit 04 associated printing plates 101b a printed image 105b for the color cyan, the printing unit 03 associated printing plates 101c a printed image 105c for the color magenta and the printing plates 101d associated with the printing unit 21, a printed image 105d for the color yellow.
  • Fig. 23 outlines the printing plates 101a; 101b; 101c and 101d associated with the associated print images 105a; 105b; 105c and 105d for this nine-cylinder satellite printing unit 16.
  • the production direction P or direction P of the respective printing plate 101a; 101b; 101c and 101d are shown on the corresponding plate cylinder 07 during the production operation.
  • the leading in production operation end of each print image 105a; 105b; 105c; 105d is denoted by the reference numeral 106, the trailing end in the production process with the reference numeral 110.
  • the process of mounting the printing plates 101a; 101b takes place in the case of, for example, the printing units 22 and 04 now so that the corresponding printing plates 101a; 101 b are mounted with their second end 104 at the first rear edge 117 of the plate cylinder 07 and fixed by means of the holding device 119 and the direction of rotation of the corresponding plate cylinder 07 for the purpose of mounting the printing plates 101 a; 101b is reversed until the second end 104 of the pressure plate 101a; 101 b is suspended and attached to the second front edge 116 of the plate cylinder 07, and that then for a subsequent printing operation, the direction of rotation of the plate cylinder 07 is again reversed in the direction of production P.
  • the trailing end 104 of the printing plate 101a or 101b is first mounted on the impression cylinder 07 when the plate is changed or when a printing plate 101a, 102b is mounted.
  • the above embodiments are applicable to the overhead nine-cylinder satellite pressure unit 17 accordingly, in which case the printing units 31; 28 those printing units 31; 28, in which the printing plates 101c and 101d have first ends 103 leading in the printing operation, there are applied printed images 105c; 105d wear.
  • these printing units 31; 28 assigned the colors magenta or yellow.
  • Fig. 24 illustrated printing tower 14 designed the mounting of the printing plates 101 on the respective plate cylinder 07 corresponding to the above.
  • the printing tower 14 according to Fig. 24 which is also composed of two nine-cylinder satellite printing units 16 and 17, the arrangement of the inking units 09 and the dampening unit 08 on the respective plate cylinders 07 is slightly different to the corresponding arrangements according to Fig. 20 or 1 and 2 , which among other things by the arrangement and location of the washing devices 24; 25; 26 is conditional.
  • the printing plates 101 are no longer substantially horizontal, but rather obliquely fed and beyond the printing plates 101 in the case of the printing units 21; 22; 31; 32 for the purpose of drawing to a lower position of the plate cylinder 07 introduced.
  • a reversal of rotation of the plate cylinder 07 when mounting a printing plate 101 on the plate cylinder 07 takes place in the case of the printing units 04; 21; 28 and 32.
  • At least one handling device 41 which comprises at least one gripping element 42, is provided for a printing plate change.
  • the handling device 41 may comprise a movable arm 43 which carries the gripping element 42 at its end.
  • the movable arm 43 may be multi-axially formed and remotely controllable.
  • the movable arm 43 may be formed as a robot arm 43. He can, as in Fig. 24 indicated, several, articulated members 44 include.
  • the gripping element 42 may in particular be designed as a suction element 42 and optionally comprise a plurality of absorbent elements.
  • the suction element 42 may hold a pressure plate 101 in particular centrally.
  • a handling device 41 in particular a handling device 41 with a plurality of juxtaposed gripping elements 42 for simultaneously gripping a plurality of axially juxtaposed printing plates 101.
  • the gripping elements 42 separately controllable, in particular in the sense of gripping and releasing be.
  • a robot arm 43 can carry a plurality of suction elements 42 for this purpose, which can be activated in each case via control lines (not shown).
  • the handling device 41 can on the respective printing unit 03; 04; 21; 22; 28; 29; 31; 32 may be arranged. However, the handling device 41 may also be arranged on an adjacent printing unit, for example, an adjacent printing tower 46 or an adjacent printing unit 46. The handling device 41 may alternatively be arranged between two printing units, printing units or printing towers, if necessary, be mounted centrally between them, and for example on a cross member 46. The handling device 41 can also be designed to be movable, for example, movable in the vertical direction in order to operate different printing units or printing units.
  • a handling device 41 for each printing unit 03; 04; 21; 22; 28; 29; 31; 32 may be provided.
  • a handling unit 42 may be provided for at least two printing units, for example two printing units 04 arranged one above the other; 22 or 29; 32.
  • It may be provided a handling device 41 for operating more than two printing units, for example, four or more printing units, in particular of four printing units of two adjacent adjacent printing units 16 or 17 or of two superposed printing units 16; 17th
  • Pressing elements 124 provided, for example in the form of pressure rollers 124, wherein each printing unit 03; 04; 21; 22; 28; 29; 31; 32 is associated with such a pressure roller 124.
  • the pressure rollers 124 may each be arranged on stationary trusses 125 and, for example, actuated pneumatically remotely controllable be.

Landscapes

  • Supply, Installation And Extraction Of Printed Sheets Or Plates (AREA)
  • Rotary Presses (AREA)
  • Input Circuits Of Receivers And Coupling Of Receivers And Audio Equipment (AREA)
  • Measuring Fluid Pressure (AREA)

Claims (14)

  1. Procédé de fonctionnement d'une unité d'impression satellite à neuf cylindres (16 ; 17), pour laquelle deux groupes d'impression (04 ; 22 ou 28 ; 31) sont accessibles à partir d'un premier côté de l'unité d'impression satellite à neuf cylindres (16 ; 17) et deux groupes d'impression (03 ; 21 ou 29 ; 32) sont accessibles à partir de l'autre côté de l'unité d'impression satellite à neuf cylindres (16 ; 17), les quatre cylindres porte-plaques (07) des quatre groupes d'impression (03 ; 04 ; 21 ; 22 ou 28 ; 29 ; 31 ; 32), en fonctionnement en impression, tournant dans le même sens de rotation et portant des plaques d'impression (101a ; 101b ; 101c ; 101d) présentant chacune une image d'impression (105a ; 105b ; 105c ; 105d), caractérisé en ce que, dans le cas des plaques d'impression (07) d'un premier côté, pour tendre les plaques d'impression (101c ; 101d) sur les cylindres porte-plaques (07), le sens de rotation des cylindres porte-plaque (07) est réglé pour être identique au sens de rotation que l'on a en fonctionnement en impression, en ce que, dans le cas des plaques d'impression (07) de l'autre côté, pour tendre les plaques d'impression (101a ; 101b) sur les cylindres porte-plaques (07), le sens de rotation des cylindres porte-plaque (07) est inversé.
  2. Procédé selon la revendication 1, caractérisé en ce que les plaques d'impression (101a ; 101b) sont chacune amenées et évacuées au moyen d'un dispositif de changement de plaques (11) faisant avec une horizontale un angle inférieur à 15°, présentant au moins deux zones (141 ; 143) du genre de puits, disposées les unes à côté des autres.
  3. Procédé selon la revendication 1, caractérisé en ce que les plaques d'impression (101a ; 101b) sont amenées et évacuées au moyen d'un dispositif de changement de plaques (11) présentant un magasin à formes d'impression (138), présentant des puits (141 ; 143) disposés l'un au-dessus de l'autre en un mode de construction en couches.
  4. Procédé selon la revendication 1, caractérisé en ce que les plaques d'impression (101b ; 101c) sont amenées et évacuées au moyen de dispositifs de changement de plaques (11) disposés symétriquement par rapport à un plan médian (M) vertical de l'unité d'impression satellite à neuf cylindres (16).
  5. Procédé selon la revendication 1, caractérisé en ce que, à la deuxième extrémité (104) de la plaque d'impression (101a ; 010b ; 101c; 101d), une branche d'accrochage (114) est pliée sous un angle d'ouverture dans la fourchette comprise entre 80° et 100°.
  6. Procédé selon la revendication 1, caractérisé en ce que les plaques d'impression (101a ; 101b) sont chacune amenées et évacuées au moyen d'un dispositif de changement de plaques (11) présentant un magasin à formes d'impression (138) monté de manière à être déplaçable.
  7. Procédé selon l'une ou plusieurs des revendications précédentes, caractérisé en ce que, tant la première extrémité (103) qu'également la deuxième extrémité (104) de la plaque d'impression (101 ; 101a ; 010b ; 101c ; 101d) est chaque fois pliée sous un angle (α) dans la fourchette comprise entre 80° et 100°.
  8. Procédé selon la revendication 1, caractérisé en ce que les plaques d'impression (101a ; 101b ou 101c ; 101d) sont amenées aux cylindres porte-plaques (07) des groupes d'impression (03 ; 04 ; 21 ; 22 ou 28 ; 29 ; 31 ; 32) de à partie de deux côtés opposés de l'unité d'impression satellite à neuf cylindres (16 ; 17) et ainsi en au moins des directions sensiblement opposées.
  9. Procédé selon la revendication 8, caractérisé en ce que, pour tendre les plaques d'impression (101a ; 101b) sur les cylindres porte-plaques (07), le sens de rotation (D) des cylindres porte-plaque (07) disposés sur l'un des deux côtés de l'unité d'impression satellite à neuf cylindres (16 ; 17) est inversé.
  10. Procédé selon la revendication 1, caractérisé en ce que chaque cylindre porte-plaques (07) d'une unité d'impression (16 ; 17) est respectivement entraîné au moyen d'un moteur d'entraînement (12) à régulation de position, en faisant appel à une liaison à ajustement de formes, indépendamment des autres cylindres porte-plaque (07) de l'unité d'impression (16 ; 17).
  11. Procédé selon la revendication 1, caractérisé en ce que l'image d'impression (105a ; 105b) présente une extrémité (106) située à l'avant lorsqu'on est en fonctionnement en impression et une extrémité (110) située à l'arrière lorsqu'on est en fonctionnement en impression.
  12. Procédé selon la revendication 1, caractérisé en ce que, pour les groupes d'impression (04 ; 22 ou 28 ; 31 ou 03 ; 21 ou 29 ; 32) d'un des deux côtés, l'image d'impression (105a ; 105b) est appliquée selon une orientation tournée à 180° sur les plaques d'impression (101a ; 101b) des cylindres porte-plaques (07) correspondants.
  13. Procédé selon la revendication 1, caractérisé en ce que les plaques d'impression (101a ; 101b) correspondantes sont amenées aux cylindres porte-plaques (07) d'un premier côté à partir d'un premier côté, et les plaques d'impression (101c ; 101d) correspondantes sont amenées aux cylindres porte-plaques (07) de l'autre côté, à partir de l'autre côté.
  14. Procédé selon la revendication 1, caractérisé en ce que les plaques d'impression (101a) ; 101b ; 101c ; 101d) sont chacune amenées à une zone supérieure du cylindre porte-plaques (07) associé.
EP09167802A 2006-12-01 2007-10-18 Procédé de fonctionnement d'une unité d'impression satellite à 9 cylindres Not-in-force EP2116377B1 (fr)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
DE200610056830 DE102006056830B4 (de) 2006-12-01 2006-12-01 Verfahren zum Betreiben einer Neun-Zylinder-Satellitendruckeinheit
DE200710028955 DE102007028955B3 (de) 2007-06-22 2007-06-22 Verfahren zum Betreiben einer Druckeinheit mit mindestens einem Druckwerk
EP07821525A EP2029362B1 (fr) 2006-12-01 2007-10-18 Procede pour faire fonctionner une unité d'impression satellite a neuf cylindres

Related Parent Applications (2)

Application Number Title Priority Date Filing Date
EP07821525.8 Division 2007-10-18
EP07821525A Division EP2029362B1 (fr) 2006-12-01 2007-10-18 Procede pour faire fonctionner une unité d'impression satellite a neuf cylindres

Publications (2)

Publication Number Publication Date
EP2116377A1 EP2116377A1 (fr) 2009-11-11
EP2116377B1 true EP2116377B1 (fr) 2011-09-07

Family

ID=38937710

Family Applications (3)

Application Number Title Priority Date Filing Date
EP07821525A Not-in-force EP2029362B1 (fr) 2006-12-01 2007-10-18 Procede pour faire fonctionner une unité d'impression satellite a neuf cylindres
EP09167782A Not-in-force EP2116376B1 (fr) 2006-12-01 2007-10-18 Procédé de fonctionnement d'une unité d'impression dotée d'au moins un dispositif d'impression
EP09167802A Not-in-force EP2116377B1 (fr) 2006-12-01 2007-10-18 Procédé de fonctionnement d'une unité d'impression satellite à 9 cylindres

Family Applications Before (2)

Application Number Title Priority Date Filing Date
EP07821525A Not-in-force EP2029362B1 (fr) 2006-12-01 2007-10-18 Procede pour faire fonctionner une unité d'impression satellite a neuf cylindres
EP09167782A Not-in-force EP2116376B1 (fr) 2006-12-01 2007-10-18 Procédé de fonctionnement d'une unité d'impression dotée d'au moins un dispositif d'impression

Country Status (6)

Country Link
US (1) US7963226B2 (fr)
EP (3) EP2029362B1 (fr)
AT (3) ATE442253T1 (fr)
DE (1) DE502007001508D1 (fr)
ES (1) ES2329845T3 (fr)
WO (1) WO2008064960A1 (fr)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102009047674A1 (de) * 2009-12-08 2011-06-09 Manroland Ag Druckwerk einer Druckmaschine und Verfahren zum Wechseln mindestens einer Druckplatte an einem solchen Druckwerk
US20110192297A1 (en) * 2010-02-11 2011-08-11 Mikhail Laksin Printing system having a raised image printing cylinder
US8573121B2 (en) * 2011-06-09 2013-11-05 Xerox Corporation Methods, apparatus, and systems for erasing ink history from ink transfer roll in digital offset systems
FR2989925B1 (fr) * 2012-04-27 2015-01-16 Goss Int Corp Presse rotative comprenant au moins deux tours d'impression et un elevateur
US9555614B2 (en) * 2014-04-10 2017-01-31 Goss International Americas, Inc. Method for quantifying blanket performance and printing press
JP6297399B2 (ja) * 2014-04-30 2018-03-20 株式会社ミヤコシ 印刷機の印刷胴

Family Cites Families (23)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DD261769A1 (de) 1987-07-02 1988-11-09 Polygraph Leipzig Vorrichtung zum befestigen einer biegsamen druckplatte
DE3721879A1 (de) * 1987-07-02 1989-01-12 Heidelberger Druckmasch Ag Verfahren und druckmaschine zum herstellen von mehrfarbigen abdrucken
DE4003445A1 (de) 1990-02-06 1991-08-08 Roland Man Druckmasch Automatisches plattenzufuehr- und zylinderbeschickungssystem
DE20221937U1 (de) 1991-01-23 2009-06-18 Koenig & Bauer Aktiengesellschaft Rollenrotationsdruckmaschine
DE4322027A1 (de) 1993-07-02 1995-01-19 Zirkon Druckmaschinen Gmbh Vorrichtung zum automatischen Wechseln einer Druckplatte
JP3592760B2 (ja) * 1994-10-12 2004-11-24 株式会社小森コーポレーション 輪転印刷機の自動版替方法およびその装置
DE19756796A1 (de) 1997-12-19 1999-07-22 Koenig & Bauer Ag Verfahren zum Bedrucken von Bogen im Schön- und Widerdruck sowie Schöndruck
DE19804106C2 (de) 1998-02-03 2002-10-31 Roland Man Druckmasch Transport- und Montagesystem sowie Verfahren zum Befördern von Druckformen
EP1442879A2 (fr) 1999-01-18 2004-08-04 Koenig & Bauer Aktiengesellschaft Entraínement de cylindres d'une machine rotative d'impression
DE60144403D1 (de) 2000-02-21 2011-05-26 Fujifilm Corp Befestigungselement, Verfahren und Vorrichtung zum Aufziehen flexibler Druckformen
WO2002007972A1 (fr) 2000-07-22 2002-01-31 Koenig & Bauer Aktiengesellschaft Unite d'impression d'une machine d'impression offset dotee de modules de bati separables
JP4361720B2 (ja) 2002-08-20 2009-11-11 株式会社小森コーポレーション 版交換装置
DE10261981A1 (de) * 2002-08-21 2004-03-04 Koenig & Bauer Ag Vorrichtung zum Montieren einer Druckform auf einen Formzylinder einer Druckmaschine
ATE320346T1 (de) 2003-01-02 2006-04-15 Cerutti Spa Off Mec Vorrichtung und verfahren zum automatischen zuführen und abführen von druckplatten für zylinder von einer flexographischen druckmaschine
DE10314344B3 (de) 2003-03-28 2004-08-26 Koenig & Bauer Ag Vorrichtung zum Speichern eines einem Zylinder einer Druckmaschine zuzuführenden Aufzugs
JP4413538B2 (ja) * 2003-06-26 2010-02-10 株式会社小森コーポレーション 印刷機の版交換方法及び装置
DE102004052020B8 (de) 2004-10-26 2013-07-04 Wifag Maschinenfabrik Ag Druckformmanipulator
DE102004052021A1 (de) 2004-10-26 2006-05-04 Maschinenfabrik Wifag Druckformmanipulator
DE102005029167A1 (de) 2005-06-23 2006-12-28 Maschinenfabrik Wifag Druckzylinderbelag, Kombination aus Druckzylinder und Druckzylinderbelag sowie Druckzylinder mit klemmend befestigtem Druckzylinderbelag
DE102006028434B4 (de) 2005-06-23 2014-01-30 Koenig & Bauer Aktiengesellschaft Druckeinheit einer Druckmaschine mit mindestens zwei Druckwerken
DE102005042756A1 (de) 2005-09-08 2007-03-29 Maschinenfabrik Wifag Druckformspeicher, Druckwerk mit Druckformspeicher und Verfahren zum Wechseln von Druckformen
DE102005046303A1 (de) 2005-09-27 2007-03-29 Man Roland Druckmaschinen Ag Druckeinheit
DE202006020771U1 (de) 2006-01-31 2009-12-24 Koenig & Bauer Aktiengesellschaft Druckeinheit und Druckturm mit mehreren Druckwerken

Also Published As

Publication number Publication date
WO2008064960A1 (fr) 2008-06-05
EP2029362A1 (fr) 2009-03-04
EP2029362B1 (fr) 2009-09-09
EP2116377A1 (fr) 2009-11-11
US7963226B2 (en) 2011-06-21
EP2116376B1 (fr) 2011-09-07
EP2116376A1 (fr) 2009-11-11
ATE442253T1 (de) 2009-09-15
US20100024673A1 (en) 2010-02-04
ATE523339T1 (de) 2011-09-15
ES2329845T3 (es) 2009-12-01
ATE523340T1 (de) 2011-09-15
DE502007001508D1 (de) 2009-10-22

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