EP3288764A1 - Verfahren und vorrichtung zum anordnen von bogen in einer geschuppten lage zwischen aufeinanderfolgenden bearbeitungsstationen - Google Patents
Verfahren und vorrichtung zum anordnen von bogen in einer geschuppten lage zwischen aufeinanderfolgenden bearbeitungsstationenInfo
- Publication number
- EP3288764A1 EP3288764A1 EP16719859.7A EP16719859A EP3288764A1 EP 3288764 A1 EP3288764 A1 EP 3288764A1 EP 16719859 A EP16719859 A EP 16719859A EP 3288764 A1 EP3288764 A1 EP 3288764A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- transport
- processing station
- sheet
- suction
- sheets
- 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.)
- Granted
Links
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F21/00—Devices for conveying sheets through printing apparatus or machines
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J3/00—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed
- B41J3/54—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed with two or more sets of type or printing elements
- B41J3/546—Combination of different types, e.g. using a thermal transfer head and an inkjet print head
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F13/00—Common details of rotary presses or machines
- B41F13/54—Auxiliary folding, cutting, collecting or depositing of sheets or webs
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F19/00—Apparatus or machines for carrying out printing operations combined with other operations
- B41F19/007—Apparatus or machines for carrying out printing operations combined with other operations with selective printing mechanisms, e.g. ink-jet or thermal printers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/0085—Using suction for maintaining printing material flat
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/02—Delivering or advancing articles from machines; Advancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles
- B65H29/04—Delivering or advancing articles from machines; Advancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles the grippers being carried by endless chains or bands
- B65H29/042—Intermediate conveyors, e.g. transferring devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/24—Delivering or advancing articles from machines; Advancing articles to or into piles by air blast or suction apparatus
- B65H29/241—Suction devices
- B65H29/242—Suction bands or belts
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/24—Delivering or advancing articles from machines; Advancing articles to or into piles by air blast or suction apparatus
- B65H29/245—Air blast devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/52—Stationary guides or smoothers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/66—Advancing articles in overlapping streams
- B65H29/6609—Advancing articles in overlapping streams forming an overlapping stream
- B65H29/6618—Advancing articles in overlapping streams forming an overlapping stream upon transfer from a first conveyor to a second conveyor advancing at slower speed
- B65H29/6636—Advancing articles in overlapping streams forming an overlapping stream upon transfer from a first conveyor to a second conveyor advancing at slower speed in combination with auxiliary means for underlapping articles
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/68—Reducing the speed of articles as they advance
- B65H29/686—Pneumatic brakes
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H5/00—Feeding articles separated from piles; Feeding articles to machines
- B65H5/22—Feeding articles separated from piles; Feeding articles to machines by air-blast or suction device
- B65H5/222—Feeding articles separated from piles; Feeding articles to machines by air-blast or suction device by suction devices
- B65H5/224—Feeding articles separated from piles; Feeding articles to machines by air-blast or suction device by suction devices by suction belts
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H9/00—Registering, e.g. orientating, articles; Devices therefor
- B65H9/004—Deskewing sheet by abutting against a stop, i.e. producing a buckling of the sheet
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/007—Conveyor belts or like feeding devices
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/44—Moving, forwarding, guiding material
- B65H2301/447—Moving, forwarding, guiding material transferring material between transport devices
- B65H2301/4471—Grippers, e.g. moved in paths enclosing an area
- B65H2301/44712—Grippers, e.g. moved in paths enclosing an area carried by chains or bands
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/44—Moving, forwarding, guiding material
- B65H2301/447—Moving, forwarding, guiding material transferring material between transport devices
- B65H2301/4473—Belts, endless moving elements on which the material is in surface contact
- B65H2301/44735—Belts, endless moving elements on which the material is in surface contact suction belt
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- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2404/00—Parts for transporting or guiding the handled material
- B65H2404/30—Chains
- B65H2404/34—Gripper bars bridging at least two chains running synchronously and parallely
- B65H2404/342—Details of guiding
- B65H2404/3421—Details of guiding in curved sections
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2406/00—Means using fluid
- B65H2406/10—Means using fluid made only for exhausting gaseous medium
- B65H2406/11—Means using fluid made only for exhausting gaseous medium producing fluidised bed
- B65H2406/112—Means using fluid made only for exhausting gaseous medium producing fluidised bed for handling material along preferably rectilinear path, e.g. nozzle bed for web
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2406/00—Means using fluid
- B65H2406/10—Means using fluid made only for exhausting gaseous medium
- B65H2406/11—Means using fluid made only for exhausting gaseous medium producing fluidised bed
- B65H2406/113—Details of the part distributing the air cushion
- B65H2406/1132—Multiple nozzles arrangement
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2406/00—Means using fluid
- B65H2406/10—Means using fluid made only for exhausting gaseous medium
- B65H2406/14—Means using fluid made only for exhausting gaseous medium with selectively operated air supply openings
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2406/00—Means using fluid
- B65H2406/30—Suction means
- B65H2406/32—Suction belts
- B65H2406/322—Suction distributing means
- B65H2406/3223—Suction distributing means details of the openings in the belt, e.g. shape, distribution
- B65H2406/32231—Suction distributing means details of the openings in the belt, e.g. shape, distribution belt with alternated perforated and non perforated sections in transport direction
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2406/00—Means using fluid
- B65H2406/30—Suction means
- B65H2406/36—Means for producing, distributing or controlling suction
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2511/00—Dimensions; Position; Numbers; Identification; Occurrences
- B65H2511/10—Size; Dimensions
- B65H2511/12—Width
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2511/00—Dimensions; Position; Numbers; Identification; Occurrences
- B65H2511/50—Occurence
- B65H2511/51—Presence
- B65H2511/512—Marks, e.g. invisible to the human eye; Patterns
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2513/00—Dynamic entities; Timing aspects
- B65H2513/10—Speed
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2801/00—Application field
- B65H2801/24—Post -processing devices
- B65H2801/31—Devices located downstream of industrial printers
Definitions
- the invention relates to a method for arranging sheets in a shingled layer according to claim 1 and an apparatus for arranging sheets in a shingled layer according to claim 20.
- a modular printing machine system for printing sheets consisting of a satellite in construction with a central first impression cylinder and at least four associated
- Printing devices formed first printing machine, a second printing machine and a coupling device for coupling the printing machines together for their inline operation, wherein a non-impact printer is associated with a transporting the sheets transport device of the printing press system. It is the
- Transport device for transporting the sheets z. B. along a linear
- the transport device has z. B. at least one pliers gripper, which rests on the non-impact printer to be printed side held in the pliers gripper sheet and collision-free due to its ultra-flat training in the onward transport of the sheet on non-impact printer by one of this and the bow formed Gap is feasible.
- Machining step is adapted, and wherein the speed of the arc is different in at least two of the processing stations. It can the Processing performance of the individual processing stations during a certain period of time is equal to or the processing power of a first processing station is greater than or less than the processing power of an upstream or downstream second processing station during a certain period.
- Subordinate device can be handed over.
- an alignment cylinder on the circumference of an arc at least in sections can be brought to bear, the leading edge of the sheet can be arranged by the circumference of the alignment
- leading marks are aligned fluently.
- At the periphery of the alignment cylinder at least one recess is provided, wherein the sheet by applying a
- Underpressure in the recess at least partially frictionally on the circumference of the alignment cylinder is fixed, so that in the contact region frictionally driving forces from the alignment cylinder on the sheet are transferable.
- the offset of a side edge of the sheet can be determined relative to a predetermined target orientation.
- Acceleration and / or speed and / or angle of rotation of the drive motor for the rotational drive of the alignment cylinder can be controlled or regulated according to predetermined laws of motion, in particular as a function of the rotation angle of the alignment cylinder.
- EP 2 516 168 B1 is a device for holding and carrying a
- a printing substrate for a printing press comprising a conveyor comprising an endless mat formed of a plurality of hollow boxes extending transversely and having a flat outer surface and having driving means of the mat and guide means of the boxes such that the flat outer sides abut Boxes running on a flat longitudinal path form a flat upper surface for holding the printing substrate, the boxes having a plurality of outer openings in the outer side thereof and at least one inner passage in the inner side thereof facing the outer side thereof; and a suction device adapted to cooperate with the inner passages of the boxes running on a longitudinal suction area corresponding to at least a portion of the flat longitudinal path to create a suction effect through the outer openings of the boxes resting on the longitudinal suction area to run.
- the invention has for its object to provide a method and an apparatus for arranging sheets in a shingled position, which is suitable for use in a machine assembly for the production of packaging means.
- the proposed method is suitable for use in a machine arrangement for the production of packaging means. It is preferably used in a hybrid arc machining machine arrangement, preferably in a hybrid
- Printing machine the high productivity of a conventional, z. B. in an offset printing process or in a flexographic printing process or in a screen printing process printing device or a coating device, in particular a coating unit variable in combination with at least one flexible each variable print images printing, z. B. as an ink jet printer trained non-impact printing device uses, with both the conventional printing device or the coating device and the non-impact printing device in a running Production can be used inline at the optimum working speed.
- Such a hybrid machine arrangement is in particular for the production of packaging means, for. B. from sheet for the production of cartons very beneficial because each of the strengths of each of the printing devices are used, resulting in a flexible and economical production of packaging materials.
- bending-resistant printed sheets in a non-impact printing device can advantageously be printed in a flat state and in a horizontal position.
- the length of a linear transport device can be with less effort to a different number of printing units or printing stations (color separations) and (intermediate) dryer configurations z. B. for water-based or UV-curing printing inks or inks, as would be the case with a rotary transport device via cylinder.
- Also can be with a linear transport device when using sheets of variable format lengths a constant arc gap between immediately
- Sheet offset printing machines is known, the highest possible register accuracy safely.
- linear sheet transport z. B. by Saugband redesignern this is
- Fig. 1 is a block diagram showing various production lines;
- Fig. 2 shows a first machine arrangement with several different
- Fig. 3 to 8 further machine arrangements each with several different
- FIG. 9 shows the machine arrangement of FIG. 8 in a plan view and in a
- Fig. 1 1 is an enlarged view of a first section of FIG. 10;
- FIG. 12 is an enlarged view of a second section of FIG. 10; FIG.
- Fig. 13 is a schematic representation of a transport device for sequential
- Fig. 14 is a plan view of a single blow-suction nozzle
- Fig. 15 is a plan view of a transport device according to the Fig. 1 1 or
- FIG. 16 is a side view of the transport device shown in FIG. 15;
- FIG. 17 shows a section of the representation of a chain conveyor;
- Fig. 18 is a plan view of the arrangement shown in Fig. 15;
- Fig. 19 is another perspective view of the chain conveyor shown in Figs. 15 and 16;
- Fig. 20 shows a further embodiment of the transport device based on a
- Fig. 21 is a plan view of the transport device of Fig. 20;
- FIG. 22 shows an arcuate substrate to be aligned in the diagonal register
- FIG. 23 shows a side view of a transport device with a mechanical coupling element having a rocker arm
- Fig. 24 is a plan view of the transport device shown in Fig. 23;
- Fig. 25 is a side view of a transport device with a
- FIG. 26 is a plan view of the transport device shown in FIG. 25; FIG.
- FIG. 27 shows a machine arrangement for two-sided sequential machining.
- Fig. 28 shows another machine arrangement for two-sided sequential
- FIG. 30 shows a shingling device
- FIG. 31 shows a detail enlargement from FIG. 30.
- Fig. 1 illustrates in a block diagram various production lines, each with a machine arrangement with several particular different processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 for processing at least one sheet-shaped substrate, in particular a printing material, preferably a particular rectangular printed sheet, short of a bow can be realized, this at least one substrate depending on the material, material thickness and / or grammage is rigid or limp formed. It is preferable that each of these
- Processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 each as a z. B.
- Machine arrangement arranged processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 is therefore preferably made independently and is in a preferred
- Machine arrangement each by a selection and compilation of at least three different each arc-processing, cooperating in a particular production processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 is formed, each embodies a specific production line.
- Each of the illustrated production lines, each by a specific machine arrangement with multiple processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 is embodied in each case, in particular for the production of a packaging material formed from the printing substrate, preferably from the printed sheet.
- the packaging materials to be produced are z. B. each a carton, each made of printed sheet.
- the various production lines are therefore designed in particular for the production of different packaging means.
- the respective processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 are selected during the passage of the printing material by the selected for the respective production, the respective processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 having machine arrangement in an orderly sequence successively and coordinated with each other for use, without that during the production carried out with the respective machine arrangement a
- Interim storage for the substrate, d. H. the machined bow is provided.
- production lines is common that they each cooperate with a processing station 06, the at least one non-impact printing device 06, preferably several, z. Four, five, six or seven
- each individually controlled non-impact printing devices 06 wherein these non-impact printing devices 06 are preferably arranged one behind the other in the transport direction T of the printing material and are designed such that they each directed at least almost in its full, transversely to the transport direction T the substrate Width can print.
- a non-impact printing device 06 uses a printing process without a fixed printing plate and can in principle print-to-print the substrate, for. B. print each of this printing device 06 just fed sheet with a different from the previous print image image.
- the respective non-impact printing device 06 is in each case realized in particular by at least one ink-jet printer or by at least one laser printer.
- Inkjet printers are matrix printers in which a printed image is produced by the targeted launch or the deflection of small droplets of ink, wherein the
- Ink jet printer is designed either as a device with a continuous ink jet (CIJ) or as a single drop-drop device (DOD). Laser printers generate the respective print image in an electrophotography process.
- the non-impact printing device 06 is z. B. also referred to as a digital printing machine. In the following, it is assumed by way of example that in the respective machine arrangement with several processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 as printing material in each case a sequence of particular rigid sheet z. B. from a paper, from a single-ply or multi-ply cardboard or cardboard in particular to a packaging material is processed.
- the substrates paper, cardboard and paperboard differ in their respective basis weight, ie the weight in grams for one square meter of this printing substrate.
- the abovementioned printing substrate with a weight per unit area of between 7 g / m 2 and 150 g / m 2 as paper, between 150 g / m 2 and 600 g / m 2 as cardboard and with more than 600 g / m 2 as cardboard.
- cartons in particular cartons are used which have good printability and for subsequent finishing or processing such.
- B. are suitable for painting and punching. These cartons are of their pulp z.
- multi-layered cartons have a top layer, an inlay and a backing on the back. From their surface texture are cartons z. B. uncoated, pigmented, painted or cast-coated.
- a format of the bow is z. B. in the range between 340 mm x 480 mm and 740 mm x 1060 mm, wherein in the format specifications usually the first number indicates a length in the transport direction T of the sheet and the second number indicates an orthogonal to the transport direction T width of the sheet.
- each runs with several of the processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 representable production line substantially from right to left, each of the two processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 interconnecting directional arrows each indicate one of the substrate to be traversed transport path and the associated transport direction T to order from a processing station 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 to the next selected in the machine assembly intended for the particular production arrangement processing station 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 to arrive.
- Each production begins with sheets provided in the processing station 01, the processing station 01 functioning as a feeder 01, e.g.
- a sheet feeder 01 usually takes a z. B. stacked on a pallet stack of sheets, whereas a magazine feeder 01 has a plurality of compartments, in which each sheet, in particular stack of z. B. different types of sheets or sheets of different formats are inserted or at least inserted.
- the feeder 01 z. B. by means of a suction head 41, the stacked sheets and performs them in a sequence of mutually separated sheet or in a scale flow of the next production in the specific production station 02; 03; 04; 06 too.
- the next processing station 02; 03; 04 is z. B.
- the next processing station 06 can also be directly z. B. be the at least one non-impact printing device 06.
- the offset printing device 04 is preferably designed as a sheet-fed offset printing machine, in particular as a sheet-fed printing press with a plurality of printing units 86 in FIG
- the offset printing device 04 provides the sheets with at least one static, d. H. during the printing process due to the bondage to the printing form used invariable print image, whereas the non-impact printing device 06 provides the sheets with at least one changing or at least variable printed image.
- the sheet is then from there i. d. R. transported to the processing station 04 formed as an offset printing device 04.
- Kaltfoliencultivatedeinnchtung 03 a detached from a carrier foil metallized coating layer is transferred to the substrate.
- Kaltfolien adoptedeinnchtung 03 is advantageously z.
- integrally formed by two additional printing units 87; 88 are provided in the offset printing device 04.
- transport direction T of the offset printing device 04 In the transport direction T of
- Printing material first printing unit 87 is by means of a standard printing form a special adhesive on the substrate, d. H. applied to the respective bow.
- Transport direction T of the printing material second printing unit 88 is equipped with a film transfer device having the paint layer to be transferred.
- the film carrying the lacquer layer is moved from an unwinding station into a printing gap between a transfer cylinder and one with this transfer cylinder
- paint layer coloring are an aluminum layer and a
- a z. B. particularly absorbent and / or for printing with a non-impact printing device 06 to be processed substrate is from the investor 01 a z. B. as a primer applicator 02 trained next processing station 02 is supplied to at least one surface of this printing material before printing or painting with a z. B. to coat water-based primer, in particular to seal.
- the primer provides a primer or first coat of the
- the primer applicator 02 is z. B. in conjunction with a printing unit 86 a
- Rotary printing machine designed and has z. B. a cooperating with a system pressure cylinder 1 19 printing cylinder 82 with an employee employed to this printing cylinder 82 or at least engageable application roller 83 preferably in the form an anilox roll 83 and at least one doctor blade 84 extending in the axial direction of the applicator roll 83, in particular a chamber doctor blade system 84 (FIGS. 3 to 5, 8, 27, 28).
- the primer is applied by means of the primer applicator 02 either over the entire surface or only at certain, ie predetermined locations, ie partially applied to the substrate.
- Arc is the next processing station z.
- B. a non-impact printing device 06 is supplied.
- the one of z. B. executed as a flexographic printing device 04 processing station 04 executed flexographic printing is a direct high-pressure process in which the raised areas of the printing plate are image-bearing, which is often used for printing
- Packaging means made of paper, cardboard or cardboard, of metallized foil or of a plastic such.
- PE PET, PVC, PS, PP, PC is used.
- flexographic printing low-viscosity inks and flexible printing plates are used
- Photopolymer or rubber exist.
- a flexographic printing device 04 a) an anilox roller over which the printing plate is colored, b) a printing cylinder, also called a plate cylinder, on which the printing plate is fixed, and c) a
- Impression cylinder that guides the substrate.
- Processing station 04 preferably has several, z. B. at least four printing units 86, wherein each printing unit 86 preferably prints a different ink, so that the substrate when passing through the flexographic printing device 04 or the offset printing device 04 each multicolored, z. B. is printed in a four-color print.
- the inks yellow, magenta, cyan and black are used in particular as printing inks.
- this printing substrate is z. B. fed as an intermediate dryer 07 processing station 07, this intermediate dryer 07 as a respective substrate z. B. is formed by an irradiation with infrared or ultraviolet radiation drying, the type of radiation is particularly dependent on whether the ink applied to the substrate or ink is water-based or UV-curing.
- the substrate is z. B. supplied as a painting 08 trained processing station 08.
- the coating device 08 carries on the substrate z. B. a dispersion varnish, wherein dispersion varnishes essentially consist of water and binders (resins), wherein surfactants stabilize these dispersions.
- a varnishing device 08 applying a dispersion varnish to the printing substrate comprises either an anilox roller, a chamber doctor blade and an applicator roller (comparable to a flexographic printing unit) or from a dipping and application roller.
- Dryer 09 is supplied to a ultraviolet radiation-drying substrate, ie a substrate on which a UV-curing ink or Ink or a UV-curable varnish, e.g. B. a gloss varnish is applied, this dryer 09 is equipped with an ultraviolet radiation generating radiation source.
- a UV radiation-drying substrate ie a substrate on which a UV-curing ink or Ink or a UV-curable varnish, e.g. B. a gloss varnish is applied
- this dryer 09 is equipped with an ultraviolet radiation generating radiation source.
- an ultraviolet radiation generating radiation source With dispersion varnishes, more intense gloss and matt effects can be achieved compared to the classic oil-based varnish. Special optical effects can be achieved by effect pigments in the paint.
- the primer applicator 02, the cold foil applicator 03 and the painting device 08 can be described by the term coating device 02; 03; 08 summarized.
- the substrate is z.
- a processing station 1 1 fed which performs a mechanical processing on the substrate, for. B. by punching, grooving and / or separating parts, in particular breaking benefit from their respective composite in preferably printed sheet.
- Further processing is carried out in or from a processing unit 46.
- the mechanical further processing is preferably carried out in cooperation with a cylinder transporting the respective sheet.
- the printing material passes to a display 12, which in each of the illustrated in Figure 1, each by a specific arrangement of processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 embodied production lines respectively forms the last processing station 12.
- the display 12 the previously processed sheet z. B. preferably stacked on a pallet.
- the previously mentioned order of the processing stations 01 arranged in the respective machine arrangement is 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 can be modified only by way of example and depending on the respective printed product to be produced.
- Sheet feeder 01 Primer applicator 02; Non-impact printing device 06;
- sheet feeder 01 Primer applicator 02; Non-impact printing device 06;
- sheet feeder 01 Primer applicator 02; Non-impact printing device 06;
- Dispersion varnish and UV-curing varnish Dryer 09 with IR radiation source or hot air and with UV radiation source; Display 12
- sheet feeder 01 Primer applicator 02; Non-impact printing device 06;
- sheet feeder 01 Offset printing device 04; Non-impact printing device 06;
- Sheet feeder 01 Non-impact printing device 06; Intermediate dryer 07 with UV radiation source; Dryer 09 with UV radiation source; mechanical
- Processing stations for processing of sheets wherein in the transport direction T of the sheet several processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 are arranged one after the other for inline processing of these sheets, wherein at least one of these processing stations 06 is formed as a non-impact printing device 06, wherein in the transport direction T of the sheet of non-impact printing device 06 upstream first processing station 01 as a sheet feeder 01 or is designed as a magazine feeder 01, wherein a arranged between the first processing station 01 and the non-impact printing device 06 processing station 08 is formed as a respective paint on the arc applying first Be Anlagenungsseignt 08, wherein between the first Be Anlagenungsseignt 08 and the Non Impact printing device 06 a first dryer 07 is arranged, wherein a first conveyor belt 17 is arranged to transport the sheets from the first dryer 07 to the non-impact printing device 06, wherein in the transport direction T, the sheet after the non-impact printing device 06 a second Dryer 07 is arranged, with a Device for
- Be istungsseinnchtung 08 is provided, wherein the second Be Anlagenungsseignchtung 08, a third dryer 09 is arranged downstream, wherein in the transport direction T, the sheet after the third dryer 09, a delivery 12 is arranged for the sheet.
- a mechanical further processing device 1 1 may be arranged between the third dryer 09 and the display 12 additionally a mechanical further processing device 1 1 may be arranged.
- a cold foil applying Be Mrsungsseignt 03 arranged in the transport direction T of the sheet in front of the non-impact printing device 06 z.
- the non-impact printing device 06 preferably has a plurality of individually controlled inkjet printers along the transport path of the sheets.
- the sheets are preferably each guided horizontally on a transport device 22 lying flat, wherein the transport device 22 at least in the range of non-impact printing device 06 for the sheet each have a linear transport path or a curved transport path, wherein the curved transport path is formed by lying in a vertical plane concave or convex arc line with a radius in a range between 1 m and 10 m.
- the sheet In the transport direction T, the sheet is in front of the non-impact printing device 06 z.
- the sheet is formed in particular in each case with a water-based printing ink or with a curing by ultraviolet radiation printing ink.
- This machine arrangement is in particular designed to produce different packaging means.
- the device for transferring the coming of the non-impact printing device 06 arc to the second
- Coating device 08 is z. B. as a swinging gripper 19 and one with the
- Oscillating gripper 19 cooperating transfer drum 31 is formed.
- Fig. 2 shows an example of a machine arrangement with several processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 according to the aforementioned production line no. 6.
- sheets are in a sheet feeder 01 z. B. with a suction head 41 individually picked up from a stack and successively in a cycle of z. B. 10,000 pieces per hour to an offset printing device 04 with z. B. passed four arranged in a row printing units 86.
- a rotary body in particular a cylinder, preferably a transfer drum 43, which is arranged in each case between two directly adjacent printing units 86.
- the offset printing device 04 takes over the sheet fed from the sheet feeder 01 z. B. with a first swing gripper 13 and directs the sheet to a first transfer drum 14 of the offset printing device 04, wherein the sheets are then performed in the offset printing device 04 in a gripper closure from one to the next printing unit 86.
- the sheets are printed at least on one side.
- the sheets in the offset printing device 04 can also be printed on both sides, d. H. in perfecting. After this
- the respective four-color printed sheet is passed by means of a first gripper system 16, in particular a first chain conveyor 16 and at least one first conveyor belt 17 to a non-impact printing device 06, wherein the first gripper system 16 and the first conveyor belt 17 in the transfer of Arc to the non-impact printing device 06 cooperate, in such a way that the first gripper system 16 emits the sheet respectively to the first conveyor belt 17, wherein the transfer of the sheet to the non-impact printing device 06 from the first conveyor belt 17 takes place.
- the non-impact printing device 06 preferably has a plurality, z. B. five linearly arranged in a row in particular each individually controlled inkjet printer on.
- Gripper system 16 and the first chain conveyor 16 may each along the intended transport path for the sheet a display 12, in particular a
- the sheet feeder 01 in particular in the sheet feeder 01 taken from a pile Sheets are spaced apart from each other individually by the offset printing device 04 transported at a first transport speed.
- the transferred from the offset printing device 04 to the non-impact printing device 06 sheets are transported in this non-impact printing device 06 at a second transport speed, wherein the valid in the non-impact printing device 06 second
- Transport speed i. d. R. is lower than the valid in the offset printing device 04 first transport speed.
- z. B. existing between directly successive arc gap, d. H. the distance that z. B. due to a gripper channel width for the transported in the gripper closure by the offset printing device 04 sheet, preferably reduced in the transfer of these sheets from the offset printing device 04 to the non-impact printing device 06, wherein such a reduction in distance relative to their original distance z. B. is in the range between 1% and 98%.
- directly successive sheets are transported spaced apart in the non-impact printing device 06, but with an i.
- the sheets can be transported by a feed table 18 to a mechanical processing device 1 1 further to the delivery 12.
- the sheets can be brought from their second transport speed to a third transport speed, if z. B. the mechanical processing device 1 1 requires, wherein the third transport speed i. d. R. is higher than the second
- Transport speed and z. B. corresponds again to the applicable in particular in the offset printing device 04 first transport speed.
- a second swing gripper 19th provided, which picks up the coming from the intermediate dryer 07 or dryer 09 sheet from the feed table 18 and z. B. to a arranged in the field of mechanical processing device 1 1 second transfer drum 31 passes, after which the sheet z. B. by means of a gripper closure through the area of
- mechanical processing device 1 1 are transported. Also in the field of mechanical, in series z. B. having multiple processing units 46
- Further processing device 1 1 is for a transfer of the sheet from one to the next of the arranged in a row processing units 46 each one
- Rotary body in particular a cylinder, preferably a transfer drum 44 is provided, which is arranged between each two adjacent processing units 46.
- One of the processing units 46 is z. B. as a stamping, another
- Processing unit 46 the mechanical processing of the sheet is preferably designed to perform in cooperation with a cylinder transporting the respective sheet. After their mechanical processing, the sheets and / or cut out of them benefits z. B. transported by means of a second chain conveyor 21 to the display 12 and collected there, preferably stacked.
- the sheets are from the output of the offset printing device 04 at least to the output of the intermediate dryer 07 or dryer 09, preferably to the beginning of the mechanical finishing device 1 1 each by means of a multi-part, ie from several in the transport direction T of the sheet successively arranged assemblies, in particular transport units existing Transport device 22 transports, wherein the transport device 22, the sheets with their respective directed in the transport direction T at least in the area of action between the offset printing device 04 and the intermediate dryer 07 or dryer 09 arranged non-impact printing device 06 along a linear transport path preferably horizontal plan lying transported.
- the linear transport path and the horizontal plane lying transport are preferably also during transport of the bow by the Non-impact printing device 06 downstream intermediate dryer 07 or dryer 09 continued.
- an intermediate dryer 07 or a dryer 09 can also be arranged between the offset printing device 04 and the non-impact printing device 06.
- FIGS. 3 to 8 show further machine arrangements, each with several
- 3 is a machine arrangement with the following in the transport direction T of the printing material successively arranged processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12, sheet feeder 01; Primer applicator 02 or
- 4 is a machine arrangement with the following in the transport direction T of the printing material successively arranged processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12, sheet feeder 01; Primer applicator 02;
- 5 is a machine arrangement with the following in the transport direction T of the printing material successively arranged processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12, sheet feeder 01; Primer applicator 02;
- Painting device 08; Intermediate dryer 07; Painting device 08; Dryer 09; Display 12. 6 is a machine arrangement with the following in the transport direction T of the printing material successively arranged processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12, sheet feeder 01; a first offset printing device 04; Cold foil applicator 03; four other offset printing devices 04 in
- Machine arrangement with the following in the transport direction T of the printing material successively arranged processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12, sheet feeder 01; a first offset printing device 04;
- Machine arrangement in each case in a plan view and in a side view.
- Fig. 10 shows in more detail the aforementioned multi-part transport device 22, which is preferred for use in a machine arrangement with several
- Processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 is provided for processing sheets.
- a gripper system 16 in particular a at least one rotating chain exhibiting first chain conveyor 16 is provided, which along its at least one circulating chain preferably equidistantly spaced several gripper bars or preferably more gripper carriage 23, each of the sheets to be transported preferably at its front in the transport direction T edge, ie held at its front edge of one of the gripper carriage 23 and along the predetermined by the chain track Transport path is transported.
- the gripper carriage 23 are for holding a sheet each with controlled or at least controllable holding means 79 (Fig. 15), in particular with grippers z. B. in each case in the form of a controllable with respect to the clamping exerted by her clamping device.
- successive gripper carriage 23 is z. B. in the range between 700 mm and 1 .000 mm.
- the at least one chain of the first chain conveyor 16 runs in each case at a arranged at the output of the offset printing device 04 sprocket 24 in particular semicircular.
- Chain conveyor 16 arranged first sprocket 81 is preferably formed as a at least one chain in motion staggering drive wheel, whereas at the output of the offset printing device 04, in particular arranged in the transfer region of the first chain conveyor 16 second sprocket 24 preferably as the at least one chain deflecting deflecting is.
- second sprocket 24 preferably as the at least one chain deflecting deflecting is.
- at least one suction chamber 26 for holding a with one of the gripper carriage 23 transported, ie induced bow arranged.
- several individually controlled or at least controllable suction chambers 26 are arranged there in the transport direction T of the sheet.
- the at least one arranged at the output of the offset printing device 04 sprocket 24 z. B. also arranged at least one in the transport direction T of the first arc circulating conveyor belt 17 for receiving and for further transport of a first chain conveyor 16 removed sheet, wherein the acquired from this first conveyor belt 17 sheet each further preferably in the direction of non-impact printing device 06th is transported.
- Intermediate dryer 07 or dryer 09 arranged non-impact printing device 06 is preferably a second circulating conveyor belt 27 is provided, on which the sheets are successively transported preferably horizontally plan lying along a linear transport path.
- the transfer device is arranged in particular between the first conveyor belt 17 and the second conveyor belt 27.
- a third circulating conveyor belt 28 is preferably provided, on which the sheets taken over by the non-impact printing device 06 are successively transported horizontally, preferably lying horizontally, along a linear transport path.
- the third conveyor belt 28 transfers the sheet transported by the intermediate dryer 07 or dryer 09 to the feed table 18, from where the sheets are transported successively preferably to the mechanical further processing device 11.
- the first conveyor belt 17, the second conveyor belt 27 and the third conveyor belt 28 preferably transport the sheets in a same z. Horizontal,
- Transport device 22 for transporting sheets in a machine arrangement with processing stations each having a sheet thus comprises at least three transport units, namely the first gripper system 16 and the first chain conveyor 16, the first conveyor belt 17 and the second conveyor belt 27.
- the first chain conveyor 16 and the first conveyor belt 17 are cooperatively arranged for transferring a sequence of sheets from a first processing station to a second processing station preferably immediately following in the transport direction T of the sheets of the first processing station , The sequence of sheets is transferred from the first conveyor belt 17 to the second conveyor belt 27 belonging to the next processing station.
- a third conveyor belt 28 is provided, wherein the sequence of sheets from the second conveyor belt 27 to the in to a in
- Transport direction T of the sheet of the second processing station preferably immediately following third processing station belonging third conveyor belt 28 is passed.
- Conveyor belt 28 are each non-linear and / or not aligned horizontally, transport the conveyor belts 17; 27; 28 of the transport device 22, the arc each along a curved transport path, in particular along a lying in a vertical plane concave or convex arc line with a radius of at least 1 m, preferably with a radius in the range between 2 m and 10 m, in particular with a Radius in the range between 3 m and 5 m.
- Conveyor belts 17; 27; 28 are preferably each as a Saugbandier, d. H. each formed as a conveyor belt in each case with at least one suction chamber 26 each sucking the respective sheet during its transport.
- these suction chambers 26 are preferably individually and / or preferably independently controllable with respect to an action of their respective suction air.
- Transport device 22 each consist z. B. from several parallel single bands, which are arranged orthogonal to the transport path provided for the sheet side by side, and thus each along the intended for the bow
- Deflection devices is formed endlessly circulating.
- Fig. 1 1 shows in an enlarged detail again some details of the already described with reference to FIG. 10 transport device 22.
- a particularly advantageous embodiment is in the transfer of the sheet from the first conveyor belt 17 to the second conveyor belt 27 orthogonal to the transport direction T of the bow
- Transfer device preferably arranged with a suction drum 32.
- Suction drum 32 is preferably composed of several, for. B. six mutually parallel suction rings 76 on a common shaft 89.
- their suction rings 76 individually acted upon each with suction or at least acted upon, which has the advantage that a in
- the suction drum 32 has at its periphery preferably at least one in each case in the transport plane 29 of the arc projecting stop 34, wherein a stop surface of the respective stopper 34 extends axially to the suction drum 32 and preferably vertically to the preferably horizontal transport plane 29.
- the suction drum 32 has either one in their
- at least one stop 34 is preferably arranged on each suction ring 76 in the case of a suction drum 32 having a plurality of suction rings 76.
- the suction drum 32 is mounted rotatably and axially movable.
- the suction drum 32 has a first drive for its circumferential movement and a second drive for their axial movement, wherein the circumferential movement and the axial movement are independently controlled by a control unit.
- the circumferential movement and / or the axial movement of the suction drum 32 are controlled by the control unit in response to a position signal, which is one of
- Suction drum 32 in the transport direction T of the sheet upstream first sensor 33 generated by detecting the position of the suction drum 32 as the next reaching bow and passes to the control unit.
- the suction drum 32 has the task of registering their fed sheet and feed these sheets in their respective aligned state of another processing station, in particular the non-impact printing device 06, so that the sheet can be further processed there.
- the suction drum 32 is thus directed in the preferred embodiment, the respective the range of action of the non-impact printing device 06 supplied sheet z. B. by the at least one projecting into the transport plane 29 of the respective sheet stop 34 and / or by an axial displacement of the respective sheet holding the suction drum 32 in register relative to the printing position of the non-impact printing device 06 from.
- One of the suction drum 32 preferably by means of suction, d. H. By means of a negative pressure, the arc is controlled by the axial movement controlled by the position signal generated by the first sensor 33
- Suction drum 32 in particular laterally aligned to its transport direction T.
- the suction drum 32 engages an aligned sheet in particular by pulsed suction air, d. H.
- the suction air is z. B. in certain, preferably from the
- Transport speed and / or position of the arc dependent angular positions of the suction drum 32 is quickly switched on by the control unit and switched off again.
- a in the transport plane 29 perpendicular to the transport direction T alignment of the front edge of the relevant sheet is preferably achieved by a shock of this edge against the at least one stop 34 of the suction drum 32.
- the first sensor 33 is z. B. as an optical sensor designed, in particular as a line sensor, preferably as a CCD line sensor.
- the first sensor 33 detects to generate the position signal preferably a longitudinally to the transport direction T of the sheet extending edge of the sheet in question or arranged on the sheet marks, wherein the marks are arranged in the printed image of this sheet or outside of the respective printed image.
- the second sensor 36 preferably detects a front edge of the respective sheet in the transport direction T of the sheet and is used primarily for sheet arrival control.
- the second sensor 36 is z. B. as an optical sensor, in particular as a reflex sensor or as a light sensor.
- z. B at least one in the direction of the effective range of the non-impact printing device 06, ie in the direction of the second conveyor belt 27, preferably linearly, in particular longitudinally to the transport path of the sheet extending guide member 37 is provided, wherein the relevant guide member 37 with the lateral surface of the suction drum 32 forms a gusset, in which the sheets are introduced from the first conveyor belt 17 coming.
- the relevant guide member 37 with the lateral surface of the suction drum 32 forms a gusset, in which the sheets are introduced from the first conveyor belt 17 coming.
- z. B. one or more preferably each z. B. controllable by the control unit suction chambers 26 are provided.
- the suction chambers 26 are optionally part of the transport device 22.
- Including at least one suction chamber 26 of the first conveyor belt 17 is carried out in a preferred embodiment, the lateral alignment of the sheet by axial displacement of the suction drum 32, in particular after alignment of the relevant sheet on the at least one stop 34 and a shutdown of the suction air in the in
- Transport direction T of the relevant sheet last suction chamber 26. This lateral orientation of the sheet is superimposed on the rotational movement of the suction drum 32 in time. This rests from the suction drum 32 to a next Processing stations 06; 07; 08; 09; 1 1; 12 to be handed bow in this
- the suction drum 32 aligns the sheets at least in their axial register and / or in their circumferential register in register relative to a processing position of the suction drum 32
- Aligning device upstream said first alignment the sheets at least in their axial register and / or in its circumferential register in register relative to a processing position of the first processing station 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 aligns. Also, in the transporting direction T, the sheet is between the non-impact printing device 06 and one of the non-impact printing device 06
- the arranged in particular in the transfer device suction drum 32 is z. B. also used to adjust the offset from the printing device 04 to the non-impact printing device 06 to be transferred bow in their respective transport speed. Since the applicable in the non-impact printing device 06 second
- Transport speed is usually lower than the applicable in the offset printing device 04 first transport speed
- the suction drum 32 brakes her successively in each case with the first transport speed of the offset printing device 04 supplied sheet each by a shock from the front edge of the at least one stop 34 first off, directed each
- the sheet in question z. B. is achieved by reaching the second transport speed of the suction drum 32 and the suction drum 32 is then brought into its rotationally and / or axially required operating position for gripping a next sheet.
- the suction drum 32 thus rotates z. B. in each of their revolutions preferably non-uniform.
- a position information necessary for the rotation position control of the suction drum 32 from the front edge of the sheet provides a z. B. arranged on a sprocket 24 rotary encoder 47 or alternatively a rotary encoder of the offset printing device 04, in particular the printing press.
- each of several processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 for the processing of sheets and for the transport of these sheets have at least one transport device, sheets of different format, d. H. of different length and / or width to edit. Therefore, the i. d. R. rectangular arc z. B. in their respective length, with this length each extending in the transport direction T of this arc.
- Processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 the sheets are fed sequentially, the productivity of the respective machine arrangement at comparatively shorter arc, ie in smaller format sheets compared to otherwise larger-sized machined in this machine arrangement sheets, is a method proposed with the following procedural steps:
- the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 to be fed sequentially sheets are transported by the transport device in each case at a distance, wherein the transport device imprints the sheet to be transported in each case a transport speed, wherein the existing between immediately successive sheet spacing for sheets different in each case in the transport direction T of these sheets extending length by a change the imprinted by the transport device the relevant sheet
- Transport speed is kept constant, wherein the transport speed of the following in the direction of transport T arc in relation to the
- Transport speed of the immediately preceding arc is changed.
- Transport direction T consecutive arc, d. H. between the transversely to the transport direction T extending rear edge of the previous sheet and extending transversely to the transport direction T leading edge of the immediate
- Processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 is to be processed after a larger arc length, the sheet shorter length is accelerated by the transport device by increasing its transport speed. Conversely, a bow greater length of the transport device by reducing its
- Transport speed slows down when the sheet of greater length in the respective processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 is to edit after a shorter arc length.
- a processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 is preferably a non-impact printing device 06 is used, the
- Productivity i. d. R. is greatest when you keep the sheets she prints on, regardless of their size, at a constant minimum distance
- a z. B. 04 formed as an offset printing device 04 is upstream, are fed in the offset printing device 04 printed sheet regardless of their format with a production speed of this offset printing device 04 corresponding transport speed of the transport device, which this sheet from the offset -Printing device 04 predetermined transport speed during their transport with the transport device to a processing speed of the non-impact printing device 06 corresponding transport speed is adjusted.
- the respective sheet is preferably each force-locking z. B. during its transport from the transport device. B. held by suction.
- the respective arc is its transport speed preferably each by engaging it suction rings 76 of a suction drum 32 or by at least one endless circulating suction belt 52; 78 imprinted.
- the transport speed to be imprinted on the sheet in question is preferably electronic Set control unit, wherein the control unit is the setting of
- Processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 for the processing of sheets and for the transport of these sheets have at least two transport devices, flimsy sheets are transported and processed, d. H. Bow lower
- Transport device the respective processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 supplying sheet during the pushing movement in each case holds at least one holding element, wherein the relevant of the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 sheets fed from one of these processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 associated second transport device taken and taken Condition is transported at a second transport speed, wherein the first transport speed of the first transport device is less than the second
- Transport speed of the second transport device wherein the relevant holding element of the first transport device of the respective processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 feeding sheet only then releases after the second transport device that the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 taken bow and started with the transport of this bow.
- a processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 a non-impact printing device 06 is preferably used.
- the bows are in the first one
- first transport device z. B. a first, in particular endless circulating conveyor belt 17 and / or used as a second transport device, a second, in particular endless circulating conveyor belt 27, said conveyor belts 17; 27 z. B. each as a suction belt
- these are formed.
- these are each formed as a suction ring 76 of a suction drum 32.
- Processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 supplied sheet is exercised by the relevant holding element of the first transport device, a holding force, said holding force is at least briefly greater than a simultaneously acting on this arc, exerted by the second transporting traction.
- the first transport device holds the respective processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 supplying sheet with the at least one holding element in each case preferably by a frictional connection, for. B. by suction.
- the sheets are preferably each after an examination of their respective actual position in the transport plane 29 and in the case of a deviation of the actual position of one for the relevant sheet in the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 provided desired position after a executed position correction passed in the intended target position to the second transport device.
- FIG. 12 shows in an enlarged detail from FIG. 10 the transfer of the sheets to the feed table 18, in particular from the third conveyor belt 28 in the area of action of the intermediate dryer 07 or dryer 09 to the area of action of the mechanical further processing device 11.
- the feed table 18 has z. B. at least a fourth conveyor belt 38, which is preferably arranged at an acute angle ⁇ to preferably horizontal transport plane 29 inclined. Also in
- a third sensor 39 is provided which generates a respective position signal from the transported with the fourth conveyor belt 38 sheet and passes to the control unit. It can, for. B. be provided that one of the mechanical processing device 1 1 to be fed sheet through the second swing gripper 19 and the second transfer drum 31 of the second
- Transport speed is brought to the third transport speed, which means that the relevant sheet is accelerated in particular by the controlled by the control unit rotation of the second transfer drum 31.
- the sheet z. B. to the mechanical processing device 1 1 a Unterschuppung this sheet instead.
- a sheet transported by the fourth conveyor belt 38 is raised in its rear region by means of pulsed blown air and delayed by the fourth conveyor belt 38 in connection with the suction chamber 42.
- a follower sheet is then pulled under the predecessor sheet by the faster moving front belt conveyor 48.
- Further processing device 1 1 is therefore a method for arranging sheets in a shingled position in a between a first processing station 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 and in the transport direction T, the arc of the first
- Processing station subsequent second processing station 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 arranged transfer device executed in which the
- Transfer device to be transported in each case one in the transport direction T rear edge of the first processing station 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 upcoming bow raised only by blowing air relative to the transport plane 29 and a subsequent sheet under the rear edge of each
- the blowing air acts with at least 50% of its intensity, preferably in the direction of a normal in the transport plane 29 normal against gravity.
- further blowing air counter to the transport direction T of the sheet substantially tangentially under an acute angle formed with the transport plane 29 in the range of z. B. 0 ° to 45 ° from above, that is blown onto the surface facing away from the transport plane 29 of the sheet on the transfer device to be transported to the bow.
- the direction of transport T of the arc directed opposite further blowing air from a to the transport plane 29 of the arc a converging acute angle in the range of z. B.
- the blown air acting against the gravitational force in the direction of the transport plane 29 is preferably clocked by the control unit.
- the of the first processing station 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 to the subsequent second processing station 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 to be transported sheet is held in each case by means of preferably acting in the transport direction T front half of the sheet suction air in the transport plane 29.
- the control unit is orthogonal to the Transport direction T of the arc directed impact width in the direction of
- Transport plane 29 counter to the force of gravity blowing air and / or a
- the arcuate substrates in particular preferably designed as a respective sheet sheet 51 is in the range, d. H. in the working area of the transfer device arranged in particular in one of the previously described machine arrangements (FIGS. 1 to 9), on which the sheet 51 in particular of an offset, flexo or non-impact printing device 04; 06 coming z. B. be forwarded to the mechanical processing device 1 1, a device for undershooting of sheet 51 is arranged, which in the following also briefly as
- Feed table 18 (Fig. 12) is formed, wherein the feed table 18, the sheet 51 z. B. by means of the conveyor belt 38 of Unterschuppungseinnchtung 132 successively feeds and / or wherein the Unterschuppungseinnchtung 132 underschuppten sheet 51 from the feed table 18 z. B. by means of a swing gripper 19 z. B. are transferred to a transfer drum 31.
- the feed table 134 has z. Legs
- the Unterschuppungseinnchtung 132 is shown in FIGS. 30 and 31 by way of example.
- the Unterschuppungseinnchtung 132 has above the feed table 134 a preferably over the entire width b51 of the sheet 51 extending box-shaped housing, the so-called blow box 133, wherein in the blow box 133 on the feed table 134 side facing in the transport direction T of the
- Transport direction T of the sheet 51 in succession and each transverse to the transport direction T of the sheet 51 at least two rows of several each adjacent
- a respective blowing direction of the blowing nozzles 136; 137 is directed substantially parallel to the feed table 134 against the transport direction T of the sheet 51 and indicated in FIGS. 30 and 31 in each case by directional arrows.
- the respective blowing direction of the blowing nozzles 136; 137 is z. B. by at least one respectively the flow of blown air ducting, in each case at the respective blowing nozzle 136; 137 arranged and / or molded guide surface 144 set.
- the respective guide surface 144 is at the feed table 18; 134 facing side of the blow box 133 z. B.
- One from the respective blowing nozzles 136; 137 outflowing blown air is preferably by adjustable valves 138; 139 z. B. time and / or controlled in intensity, the valves 138; 139 z. From one
- valves 138; 139 are z. B. switched by the control unit 61 in particular in one cycle, wherein a clock period and / or a clock frequency is preferably set depending on the feed of the Unterschuppungseinnchtung 132 supplied sheet 51 or are.
- the sheet 51 is in a range between the feed table 18; 134 and the feed table 18; 134 facing side of the blow box 133 before the first blowing nozzle 136 and the first tuyere series a bulkhead 141 arranged, wherein the bulkhead 141, the leading edge of a sheet 51, one of the blowing air of at least one of the blowing nozzles 136; 137 raised sheet 51 follows directly, against the arranged in the blow box 133 blowing nozzles 136; 137 shielded suction effect shields. That of at least one of the blowing nozzles 136; 137 or
- the bulkhead plate 141 has at its end located in the blowing direction preferably a concave
- one of the blowing air of at least one of the blowing nozzles 136; 137 raised sheet 51 follows directly, as long as uninfluenced until the raised sheet 51 by its own in the direction of transport T directed movement progress or feed with its rear end, the first of this sheet 51 reached tuyere 136 or Blasdüsengol exposes.
- one of the blowing air of at least one of the blowing nozzles 136; 137 lifted sheet 51 directly follows, premature due to the action of the exposed from the rear end of the preceding sheet 51 tuyere 136; 137 or blowing nozzle row is raised, the blown air of the respective
- One of the blowing nozzles 136; 137 or Blasdüsen-2n raised sheet 51 is due to the induced by the respective blowing air suction (Venturi effect) on the feed table 18; 134 in a certain, z. B.
- the flying height SH is dependent on the intensity of the respective blowing air and / or on the mass of the relevant sheet 51 and / or on the transport speed of the relevant sheet 51.
- the flying height SH is dependent on the intensity of the respective blowing air and / or on the mass of the relevant sheet 51 and / or on the transport speed of the relevant sheet 51.
- Feed table 18; 134 start to vibrate and flutter is in the area between the feed table 18; 134 and the feed table 18; 134 facing side of the blow box 133 preferably provided a raised sheet 51 supporting support plate 142, wherein the z. B. at an acute angle to the
- Feed table 18; 134 facing side of the blow box 133 arranged support plate 142 z. B. is designed in the form of an air-permeable grid.
- the raised by the suction of the blowing air and applied to the support plate 142 sheet 51 is there in a quiet movement, ie. H. without fluttering, guided in its transport direction T along this support plate 142.
- a plurality of holes 143 and openings are provided, through which flows after the pressure equalization of air under the currently raised bow 51.
- These holes 143 are z. B. circular formed with a diameter d143 in the range of a few millimeters.
- Fig. 13 shows schematically in a simplified representation and by way of example a
- Transport device for the sequential transport of individual curved substrates, wherein these substrates are each preferably formed as a sheet 51, in particular printing sheet.
- This transport device is preferably between two successive processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 of a respective sheet 51 processing machine arranged, one of these
- the transport device described with reference to FIG. 13 is as a sheet 51 transporting assembly z. B. formed within one of the production lines described above and corresponds z. B. with the previously described conveyor belt with the position number 17 or 27th
- the transport device described with reference to FIG. 13 for the sequential transport of individual sheet-shaped substrates has at least one endlessly circulating suction belt 52, wherein the at least one suction belt 52 z. B. between at least two spaced-apart guide rollers 53 is arranged.
- the at least one suction belt 52 has, in the transport direction T of the sheet 51 indicated in FIG. 13, successively two mutually differently formed surface areas, the surface 56 being closed by one of these surface areas and the surface 57 perforated by the other of these surface areas is. These two surface areas alternate alternately along the circumference of the suction belt 52, ie they are arranged alternately in the direction of rotation of the relevant suction belt 52 and thus in the transport direction T of the sheet 51.
- the sheet 51 to be transported is arranged in its transport partly on the closed surface 56 of the respective suction belt 52 and partly on the perforated surface 07 of the same suction belt 52 lying flat.
- the at least one suction belt 52 In the transport direction T of the sheet 51 to be transported with the at least one suction belt 52, at least two suction chambers 58; 59 arranged, wherein the at least one suction belt 52 relative to these at least two with respect to the transport device fixedly arranged suction chambers 58; 59 is moved.
- the at least one suction belt 52 slides z. B. over a preferably table-shaped surface 69 of at least one of these suction chambers 58; 59.
- the first suction chamber 58 in the transport direction T of the sheet 51 to be transported is arranged in the region of a load run 54 of the respective suction belt 52, whereas the transport direction T of the sheet 51 to be transported second suction chamber 59 either in the region of the load passage 54 of the respective suction belt 52 the first suction chamber 58 in the transport direction T of the sheet 51 to be transported below or in the transport direction T of the sheet 51 to be transported to the region of the Lasttrums 54 of the respective suction belt 52, ie the respective suction belt 52 in the transport direction T of the transported sheet 51 is arranged downstream ,
- a strand is a free, non-resting portion of a running, preferably endless revolving traction element, wherein the tension member z.
- the tension member is formed as a chain, rope, belt or belt, in particular toothed belt is formed. If the tension member is formed as a chain, the at least one chain z. B. guided in a chain rail.
- the Lasttrum is that side of the tension member, which is pulled and is taut, whereas an empty strand is the loose, not drawn and sagging strand.
- the first variant for the arrangement of the second suction chamber 59 is shown by way of example.
- the first suction chamber 58 i in the direction of transport T of the sheet 51 i. d. R. a much larger, especially at least twice as large
- the second suction chamber 59 in the direction of transport T of the sheet 51 is therefore designed to be comparatively small in volume in order to accommodate the transport speed of especially several thousand, z. B. 10,000 to 18,000 sheets 51 per hour build a vacuum faster and with respect to the pressure build-up and pressure reduction in the second suction chamber 59 to achieve a higher clock rate.
- this sheet 51 is then sucked to the at least one circulating suction belt 52 when the perforated surface 57 of the respective suction belt 52 with at least one of the respective negative pressure applied to the suction chambers 58; 59 is in an operative connection.
- Transport device is a timing of the negative pressure of the second suction chamber 59 in the transporting direction T of the sheet 51 with a sweeping of the zu
- a circulation speed v of the relevant suction belt 52 is set by the preferably digital program-executing control unit 61 with a drive 62 which sets this suction belt 52 in motion.
- This control unit 61 also preferably controls or regulates the aforementioned synchronization of the negative pressure in the in
- the preferably controllable valve 67 is z. B. arranged in a line which the second suction chamber 59 with a z. B. controlled by the control unit 61 pump (not shown) connects.
- the preferably designed as an electric motor drive 62 acts z. B. on at least one of the guide rollers 53.
- the circulation speed v of the relevant suction belt 52 adjusting drive 62 is preferably controlled by the control unit 61. From the control unit 61 is
- Suction belt 52 set, d. H. due to the regulation of the drive 62 is the
- a respective register mark 53 detecting sensor 54 is provided and with the
- Control unit 61 connected.
- the rotational speed v of the relevant suction belt 52 by the control unit 61 preferably in response to a z. B. determined by the control unit 61 difference between a corresponding with an actual rotational speed generated by the sensor 64 first signal s1 and a corresponding with a target rotational speed second signal s2 set.
- the second signal s2 which is the target rotational speed of the
- circumferential circulating suction belt 52 is z. B. from a (not shown) higher-level machine control tapped.
- the sensor 64 which detects the relevant register mark 63 is arranged in particular in the region of an empty run 66 of the relevant suction belt 52.
- the relevant register mark 63 detecting sensor 64 is as a respective register mark 63 z.
- optically or inductively or capacitively or electromagnetically or ultrasonically sensing sensor 64 is formed.
- Register mark 63 is corresponding to the respective design of the sensor 64 z. B. formed as an applied on the respective suction belt 52 optical signal surface or as a magnetic strip on the respective suction belt 52 or as a recess or perforation in the respective suction belt 52 or as a arranged in the respective suction belt 52 signal giving body. A time of the
- Control unit 61 running control of the rotational speed v of the respective suction belt 52 is preferably with the sweeping of the zu
- the transport device for the sequential transport of individual arcuate substrates or sheets 51 has at least one stationarily arranged suction chamber 58; 59 with a in the region of the load tunnel 54 preferably table-shaped surface 69, wherein a preferably single particular at least Sectionally perforated endless circulating suction belt 52 is during transport of the respective arcuate substrate, ie preferably a sheet 51, moving over this surface 69, in particular slidably disposed, wherein the respective suction chamber 58; 59 is covered in the region of the load tube 54 of the suction belt 52 of the table-shaped surface 69.
- This table-shaped surface 69 is z. B. realized by a tabletop.
- This holding the respective sheet 51 in its transport suction belt 52 is in particular centrally with respect to the orthogonal to the transport direction T directed width b51 of the sheet 51 and / or centered with respect to an orthogonal to the transport direction T directed width b69 of the table-shaped surface 69 ,
- an orthogonal to the transport direction T directed width b52 of the suction belt 52 is formed smaller than the orthogonal to the transport direction T directed width b51 of the respective transported sheet 51 and also less than the orthogonal to the transport direction T directed width b69 of the formally shaped surface 69th Die orthogonal to the transport direction T directed width b52 of the suction belt 52 is z. B.
- At least one blow-suction nozzle 68 are arranged in at least two of the not swept by the suction belt 52 areas of the table-shaped surface 69.
- intensity i.e., in pressure and / or in the
- Flow rate and / or duration is preferably controlled or at least controllable, wherein the respective blow-suction nozzle 68 during the transport of the respective arc 51 allows air to flow against the underside thereof, whereby an air cushion between the bottom of the relevant sheet to be transported 51 and the table-shaped surface 69 is constructed or at least can be built.
- the blow-suction nozzles 68 are each designed as Venturi nozzle, wherein the venturi sucks a side region of the relevant sheet 51 to be transported by a negative pressure in the direction of the table-shaped surface 69.
- the blow-suction nozzles 68 are preferably arranged in each case in the table-shaped surface 69.
- blow-suction nozzles 68, the Fig. 14 in a plan view with two corresponding side views, wherein the illustrated blow-suction nozzle 68 z. B. in the form of a slot nozzle, wherein an opening 49 of this slot nozzle preferably as a cross-section z. B. rectangular portion of a preferably cylindrical or conical lateral surface is formed, wherein a running in or parallel to the table-shaped surface 69 extending length I49 of this section at least three times, preferably ten times greater than its perpendicular to the table-shaped surface 69 standing height h49, wherein the length I49 of this opening 49 in the preferred embodiment extends along an arc of an inner circumferential line of a circular ring.
- the height h49 is about 1 mm and the length l49 of this opening 49 formed along a curved line is more than 10 mm.
- An emerging from the respective blow-suction nozzle 68 air flow LS is preferably in a particular by a shaping of a z. B. ramped guide surface directed certain direction, said guide surface z. B. is formed by an outwardly extending portion of the aforementioned annulus.
- a blowing direction B of the blowing suction nozzles 68 is preferably in each case in the transport direction T of the relevant sheet 51 to be transported under one of the
- Transporting direction T outgoing angle ⁇ in the range of 30 ° to 60 °, preferably at an angle ⁇ of 45 ° obliquely directed outwards, as is indicated by way of example in FIG. 15 by directional arrows.
- the at least one suction chamber 58; 59 covering table-shaped surface 69 each a plurality, in particular two z. B.
- blow-suction nozzles 68 are arranged uniformly or non-uniformly spaced from each other to produce a symmetrical or asymmetrical flow profile for the effluent from the blow-suction nozzle 68 air.
- the blow-suction nozzles 68 are z. B. in a sheet 51 each of a chain conveyor 16 receiving transport device 17 is arranged, in particular in a transfer area below the at least one sprocket 24 of the chain conveyor 16 and in front of a transport direction in the direction of transporting the sheet 51 51 further transport device, eg. B. a suction drum 32 (Fig. 1 1).
- Chain conveyor 16 moving gripper carriage 23, Figs. 15 and 16, wherein this position is in particular that at which the respective gripper carriage 23 emits a sheet 51 transported by him for further transport to the suction belt 52 and transfers.
- the central suction belt 52 and in the edge region blowing suction nozzle 68 having transport device for the sequential transport of individual sheet-shaped substrates is advantageously used when the transported sheet 51st
- blow-suction nozzles 68 that a leading edge of the sheet 51 after their respective release by the respective gripper carriage 23 from the level of a gripper impact level to a levitation level scarce, ie a few millimeters above the tabletop-shaped surface 69 is spent and that the respective released by the gripper front edge of the relevant sheet 51 remains at the level of the table-shaped surface 69.
- the blow-suction nozzles 68 is at high speed of z. B. more than 10,000 pieces per hour transported sheet 51 the risk that the respective released or transported in the case of scalloped transported bow 51 freely pushed front edge of the relevant sheet 51 is buoyed by an air wedge and takes off again.
- non-rigid sheets 51 and substrates in which only limited internal transverse forces are transmitted from the center belt to the outer edge regions of the substrate in question supports these outer edge regions caused by the air flow LS air friction in their respective conveying component.
- Fig. 17 shows a detail of a perspective view of a
- Chain conveyor 16 This chain conveyor 16 is z. B. in a machine arrangement with several processing stations 01; 02; 03; 04; 06; 07; 08; 09; 1 1; 12 each to
- Processing arcuate substrates 51 arranged, and preferably at the in the transport direction T of the guided through the machine assembly arcuate substrates 51 rear end of a formed as a primer applicator 02 or as an offset printing device 04 processing station 02; 04, where the
- the offset printing device 04 are preferably as a sheet-fed offset printing machine and / or the non-impact printing device 06 z. B. formed as at least one inkjet printing device. In such a machine arrangement, the problem is that in the previous z. B. as an offset printing device 04 trained processing station 02; 04 machined arcuate substrates 51 of z. B. trained as a non-impact printing device 06 next
- Processing station 06 are fed for a register-containing further processing with high precision position, which is not to do with a conventional chain conveyor 16 due to necessary chain games and possible variations in the elongation of at least one chain.
- This machine arrangement z. B. realized one of the production lines described with reference to FIG.
- the arcuate substrates 51 are each transported individually with a gripper carriage 23 moved along a movement path (FIGS. 10 and 11), the respective gripper carriage 23 i. d. R. along two spaced apart along its trajectory parallel to each other
- the relevant substrate 51 to be transported is in particular on a longitudinally extending to the respective gripper carriage 23 edge, d. H. at the front edge of this substrate 51, of at least one holding means 79, d arranged on this gripper carriage 23. H. held by the at least one gripper.
- the respective gripper carriage 23 is in the arranged at a certain position of its trajectory takeover area, in which the relevant
- the respective substrate to be transported 51 receives each, and / or arranged in the at a certain position of its trajectory
- Transfer area in which the respective gripper carriage 23 emits the respective transported substrate 51 in each case in particular to the other transport device, for. B. by at least one between the spaced-apart chain tracks 77 along to
- Transport device is designed in particular as a conveyor belt 17 (Fig. 1 1). To the moved along its trajectory gripper carriage 23 transversely to this
- the relevant at least one guide element 71 in the transfer area or in the transfer area respectively between the spaced-apart chain tracks 77 to be arranged in a fixed position and to fix the guided along the spaced-apart chain tracks 77 gripper carriage 23 by means of the relevant guide element 71 transversely to the movement path.
- This fixing is preferably carried out in that on the respective gripper carriage 23 each have a two each with their respective running surfaces against each other employed employees 72; 73 exhibiting pair of rollers is arranged, wherein the respective guide element 71 at least in the transfer area or in the transfer area in each case by a gap between the respective running surfaces of the two rollers 72; 73 of the respective pair of rollers is performed.
- the at least one guide element 71 is preferably designed as a rigid rail and / or has a wedge-shaped run-up 74.
- the relevant guide element 71 is z. B. integrally formed and extends z. From the
- Transfer region arranged sprocket 24; 81 of a chain track 77 and arranged at the same end of the chain conveyor 16 in the same area sprocket 24; 81 of the other chain track 77 are preferably connected by a common shaft 89 in particular rigidly together.
- the respective guide element 71 preferably fixes in cooperation with the roller pair laterally the respective along the spaced-apart chain tracks 77 guided gripper carriage 23, that blocks its transversely to the movement path directed degree of freedom.
- the lateral positioning of the substrates 51 is improved in that both in the transfer region, in which the substrates 51 are each taken over by one of the gripper carriages 23, and in the transfer region in which the substrates 51 transported by the chain conveyor 16 from the respective gripper carriage 23 to the transfer belt 17 to be passed, the respective gripper carriage 23 is aligned in each case by a guide element 71 (Fig. 10).
- These guide elements 71 are either as two separate guide elements 71 separated from each other or connected as a one-piece
- Guiding element 71 is formed.
- Carrying transport device in which by means of a cooperating with the transport device control of each substrate 51 before reaching the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 whose actual position in the
- Transport level 29 determined by machine and automatically with a for the relevant substrate 51 in this processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 provided target position is compared.
- the relevant substrate 51 is aligned by a controlled by the control device in its movement transport element of the transport device such that the respective substrate 51 before reaching the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 his in this processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 assumed desired position occupies.
- the relevant substrate 51 is in a very advantageous embodiment alone of the transport element in each case in the
- Transport plane 29 aligned both in the transport direction T and transversely thereto and about a lying in the transport plane 29 fulcrum. This means that, in particular, mechanical stops on the alignment of the relevant substrate 51 are not involved in this embodiment variant for the operation of the transport device.
- the subject substrate 51 is from
- Transport element preferably non-positively, for. B. held by suction or by a clamp and held in this by the transport element operating state with respect to the for this substrate 51 in the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 intended target position aligned.
- a transport element is in particular a suction drum 32 or a suction belt 52; 78 used.
- the transport element transports each of the substrates 51 individually.
- the control device has z. B. the control unit and at least one of its associated z. B. optical sensors 33; 36, wherein the sensors 33; 36 with regard to the detection of the actual position of the relevant substrate 51 z. B. as a page edge sensor and / or as a
- Front edge sensor are formed.
- the desired position, with respect to which the relevant substrate 51 is to be aligned, is or is stored in the control unit and / or z. B. deposited by a program preferably changeable.
- the transport element is driven by a first drive moving the relevant substrate 51 in its transport direction T and by a second drive moving the respective substrate 51 transversely to its transport direction T and by a third drive rotating about the relevant substrate 51 about the pivot point lying in the transport plane 29 , this z. B. each as a motor, in particular as a preferably electrical
- the transport element is driven by its three drives in particular at the same time.
- the relevant substrate 51 is transported by the transport device at a non-zero transport speed of the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; Supplied 12 and preferably aligned while maintaining this transport speed in the event of a deviation of the actual position of the desired position.
- the transport element as a suction belt 52; 78 corresponds to the transport speed at which the relevant substrate 51 of the respective processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 is supplied, for. B. the circulation speed v of this suction belt 52; 78th
- FIG. 20 An embodiment for carrying out the aforementioned method for operating a single arcuate substrates 51 of a processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 sequentially feeding transport device is shown in Figs. 20 and 21 represented, in which example a suction drum 32 is used as a transport element.
- Fig. 20 shows an enlarged detail of Fig. 1 1, wherein, however, in this further embodiment of the transport device in contrast to the embodiment of the transport device according to FIG. 1 1 formed on the suction drum 32 stop 34 is not provided.
- Each individually transported substrates 51, in particular sheets are passed by means of an upstream in the transport direction T of the suction drum 32 suction belt 78 of the suction drum 32 and the suction drum 32 to another conveyor belt 27, said conveyor belt 27, the substrate in question 51 in particular a non-impact -Druck worn 06 supplies.
- the suction drum 32 has a first drive 91 for its circumferential movement and a second drive 92 for its axial movement and a third drive 93 for a perpendicular to the
- Transport level 29 standing pivot axis 94 executed or at least executable pivotal movement of the rotational axis 96 of the suction drum 32, said three drives 91; 92; 93 each z. B. are formed as a preferably electric servomotor.
- the suction drum 32 is with its first drive 91 z. B. stored in a first frame 97, said first frame 97 in turn z. B. is rotatably arranged on a arranged in the center of the machine M pivot 98, wherein the pivot 98 is connected to a second frame 99.
- the rotational movement or pivoting movement of the rotational axis 96 of the suction drum 32 executed about the axis of rotation 94 perpendicular to the transport plane 29 takes place by means of the third drive 93, which acts on the first frame 97 remote from the machine center M during its actuation and in this way a diagonal orientation of the suction drum 32 held substrate 51 causes.
- the second frame 99 supporting the first frame 97 is in turn arranged in or on a third frame 101, with the second frame 99 in or on the third frame 101 upon actuation of the second drive 92 transverse to
- Transport direction T of the respective substrate 51 movable in particular
- Fig. 21 shows the transport device shown in Fig. 20 again in a plan view, with the suction drum 32 respectively executed or at least executable orientation of the substrate 51 in the transport direction T as well as transversely thereto and about a lying in the transport plane 29 rotation angle respectively indicated by a double arrow.
- Another method of operating an apparatus for transporting sheet-shaped substrates 51 also employs the substrate 51 in question
- Transport level 29 promotional transport element wherein the transport element the respective substrate 51 of the transport element in the transport direction T of the respective substrate 51 downstream processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 in register, this processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 z. B. is designed as a non-impact printing device 06.
- Transport element is preferably a suction drum 32 with a plurality of axially juxtaposed respectively formed as a holding element suction rings 76 or an array of several each longitudinal to the transport direction T of the substrate 51 rotating, transverse to the transport direction T of the respective substrate 51 juxtaposed suction belts 52; 78 used.
- the transport element for transporting the respective substrate 51 therefore always uses a plurality of transversely to the transport direction T each spaced from each other
- Holding elements in each case up to a related to the transport plane 29 output position is held in each case frictionally.
- the respective output positions of all the respective substrate 51 frictionally retaining holding elements are located on a same line 103.
- the transport element is a diagonal register of the relevant Substrate 51 is set.
- the diagonal register of the relevant substrate 51 is thereby set by setting a rotation angle ß of this line 103 about a perpendicular to the transport plane 29 axis of rotation 94, wherein the rotation angle ß of this line 103 corresponding to the adjusted diagonal register of the respective substrate 51 by an actuated by a control unit actuation a single on all the substrate in question 51 holding force-locking holding elements simultaneously acting mechanical coupling element is set, whereby the respective
- Output position of at least one of the respective substrate holding force-locking holding elements is changed by acting on the relevant holding element mechanical coupling element.
- frictionally retaining holding elements shape the respective substrate 51 in each case a different from holding element to holding element transport speed, wherein the respective holding member from the respective substrate 51 imprinted
- Transport speed in each case depends on the set for the respective holding element output position.
- a mechanical coupling element z As a mechanical coupling element z.
- arcuate substrates has the advantage that for adjusting the diagonal register in the transport device, a skewing of the relevant transport element does not occur and therefore a z.
- B. already set page register and / or axial register of the substrate in question can not be adversely affected by the setting of the diagonal register. Rather, between the at the attitude of the
- Diagonal register involved holding elements of the transport element through the
- Actuation of a single actuator each set a dependent of the respective position of the respective holding element differential speed, whereby the substrate in question aligned according to the desired diagonal register becomes.
- Diagonal register has the advantage that a vote between different, each acting on one of the holding elements drives or their adaptation to each other is not required, whereby a source of error is eliminated and a very precise adjustment of the diagonal register is possible.
- Control unit connected control device of the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 to be supplied in register substrate 51 before reaching the transport element whose actual position determined in the transport plane 29 and with a for the respective substrate 51 in the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 provided target position, wherein in the case of a deviation of the actual position of the target position, the control unit controls a mechanical coupling element drive 93 controls such that the relevant substrate 51 with a reaching the respective output positions of all the substrate in question frictionally retaining holding elements in the processing station 02; 03; 04; 06; 07; 08; 09; 1 1; 12 assumed desired position with respect to the diagonal register occupies.
- FIG. 22 shows a plan view of an arcuate substrate 51, in particular a sheet 51, with a width b 51 directed transversely to its transport direction T.
- Transverse to the transport direction T are also several, z. B. five retaining elements z. B. in the form of juxtaposed suction rings 76 of a suction drum 32, said holding elements hold the respective substrate 51 in the transport plane 29 each frictionally, in particular by a negative pressure.
- two further holding elements are respectively arranged to the right and to the left of the machine center M.
- On the in Transport direction T of the respective substrate 51 left side are arranged one of the machine center M closer to the holding elements at a distance aS1 1 and one of the machine center M further of the holding elements at a distance aS12 and on the right in the transport direction T of the respective substrate 51 are a from the machine center M closer to the holding elements at a distance aS21 and one of the machine center M further of the holding elements arranged at a distance aS22.
- the respective planes of rotation of all retaining elements holding the respective substrate 51 in a force-fitting manner are each arranged parallel to one another and in each case along the transport direction T of the relevant substrate 51.
- the relevant substrate 51 is in its transport of at least two of these holding elements each up to one on the
- Transport level 29 related output position each held frictionally, with the respective output positions of all the substrate 51 holding force-locking holding elements on the same line 103 are.
- the respective output positions of all of this substrate 51 frictionally retaining holding elements in the present example are.
- Reference P1; P12; P21; P22 denotes, whereas in the desired position of the relevant substrate 51, the respective output positions of all this substrate 51 frictionally retaining holding elements in the present example with the
- Reference character S1 1; S12; S21; S22 are designated.
- the substrate in question 51 by a rotational angle ß to a perpendicular to
- the rotation angle ß is usually in the range only a few degrees, z. B. between greater than zero and less than 30 °, in particular less than 10 °.
- the perpendicular to the transport plane 29 standing axis of rotation 94 is preferably arranged in the machine center M. In this case, the remains
- Transport speed in each case of the set for the respective holding element ie the target position of the respective substrate 51 corresponding output position S1 1; S12; S21; S22 is dependent.
- Figs. 23 and 24 show an embodiment of the mechanical coupling element z. B. in the form of a linear gear member with rocking levers.
- Figs. 25 and 26 show an embodiment of the mechanical coupling element z. B. in the form of a linear
- gear member with gear coupling gears In this case, all of the respective substrate 51 frictionally retaining holding elements in each case either according to FIGS. 23 and 24, a rocker arm or according to FIGS. 25 and 26 associated with a gear coupling.
- the suction drum 32 shown in FIGS. B. stored in a first frame 97, said first frame 97 in turn z. B. is rotatably arranged on a arranged in the center of the machine M pivot 98, wherein the pivot 98 is connected to a second frame 99.
- the second frame 99 carrying the first frame 97 is in turn arranged in or on a third frame 101.
- the first frame 97 forms the mechanical coupling element acting on the respective holding elements, wherein the drive 93, designed in particular as a preferably electric servomotor, is used to carry out the rotational movement of the mechanical drive
- Coupling element is provided about the axis of rotation perpendicular to the transport plane 29 94.
- the drive 93 acts on its operation by the control unit preferably via a hinge 104 on the mechanical coupling element forming the first frame 97.
- the second frame 99 has at least two diametrically opposed frame walls 106, in which frame walls 106 a parallel to the suction drum 32nd extending drive shaft 107 z. B. is rotatably mounted at both ends.
- On the drive shaft 107 a plurality of oscillating levers 108 are preferably arranged, wherein each of these oscillating levers 108 in each case to one of each z. B. as a suction ring 76 formed holding elements is in operative connection.
- the respective rocker arms 108 are each rotatably connected to the drive shaft 107, so that the drive shaft 107 for the respective rocker arm 108 each forms a frame-fixed hinge point.
- Each of the respective rocker arm 108 thus acts driven by the drive shaft 107 optionally via a drive pinion 1 13 with one of its ends, z. B. its upper end on one of the retaining elements.
- each of these rocker arm 108 with its other ends, z. B. its lower end in each case preferably via a both ends to further each z. B. as a ball joint formed joints 1 1 1; 1 12 mounted coupling 109 so connected to the first frame 97, that with the drive 93 each set an angular position of the drive shaft 107 connected to the rocking lever 108 or at least adjustable.
- FIGS. 25 and 26 is very similar to the embodiment according to FIGS. 23 and 24, so that identical components are identical
- FIGS. 25 and 26 differs from the embodiment variant according to FIGS. 23 and 24 in that a pair of coupling wheels 14 is provided, which is coupled to one another via a gear coupling 16, wherein a drive pinion 17 is a torque in the Pair of coupling wheels 1 14 initiates and an output pinion 1 18 introduced into the pair of coupling wheels 1 14th
- FIG. 27 shows a further machine arrangement with several i. d. R.
- Various processing stations for sequentially processing a plurality of arcuate substrates.
- the flat substrates each having a front and a back, are in a feeder 01 z.
- B. grabbed by a suction head 41 and individually passed by means of a swing gripper 13 to a transfer drum 14 and from there to a rotating system pressure cylinder 1 19, said plant pressure cylinder 1 19 on its lateral surface in each case at least one of these substrates or more, for.
- B. receives two or three in the circumferential direction one behind the other arranged substrates.
- Each of the substrates to be transported is on the lateral surface of the system pressure cylinder 1 19 by means of at least one z. B.
- pliable and / or thin substrates with a thickness of z. B. up to 0.1 mm or a maximum of 0.2 mm z. B. be held by suction air on the lateral surface of the system pressure cylinder 1 19, wherein a resting of such a substrate on the lateral surface of the system pressure cylinder 1 19, in particular at the edges of this substrate, for. B. is supported in particular by radially on the lateral surface of the system pressure cylinder 1 19 directed blowing air.
- a first primer applicator 02 for priming the front side and this first primer applicator 02 is subsequently a second primer applicator 02 in its direction of rotation, which is indicated in FIG.
- Primer applicator 126 on the lateral surface of the system pressure cylinder 1 19 applied primer from this lateral surface on the back of the substrate in question.
- the priming of the front and / or back of the substrate in question can be carried out over the entire surface or part of the surface as needed.
- the system pressure cylinder 1 19 passes a substrate primed on both sides to a first at least one traction element having, in particular endlessly circulating transport device, for. B. to a first chain conveyor 16, wherein the first chain conveyor 16 transports this substrate to a first non-impact printing device 06, said first non-impact printing device 06, the front of the substrate in question at least partially printed.
- the first non-impact printing device 06 transmits the front-side printed substrate to a second at least one tension member having, in particular endlessly circulating transport device, for. B. to a second chain conveyor 21, said second chain conveyor 21, the substrate in question z. B. in the area of its first
- Sprocket 81 receives.
- a second non-impact printing device 127 is arranged, said second non-impact printing device 127 at least partially printed on the back of the respective previously printed on the front side substrate.
- the relevant now double-sided substrate is then z. B. stored on a stack in a display 12.
- the machine arrangement which is machined on both sides by the respective substrate shown in FIG. 27 or 28 has in each case a plurality, preferably four, driers 121; 122; 123; 124, namely a first dryer 121 for drying the primer applied on the front side of the relevant substrate and a second dryer 122 for drying the primer applied on the back side of the relevant substrate. Moreover, a third dryer 123 for drying the subject substrate printed on the front side with the first non-impact printing device 06 and a fourth one Drier 124 provided for drying the relevant back printed with the second non-impact printing device 127 substrate.
- the z. B. identically constructed dryer 121; 122; 123; 124 are the substrate in question z. B. formed by an irradiation with infrared or ultraviolet radiation drying, the type of radiation is particularly dependent on whether the ink applied to the substrate in question or ink is water-based or UV-curing.
- Transport direction T of the relevant transported by the machine assembly substrate is indicated in Fig. 27 in each case by arrows.
- the first non-impact printing device 06 and the second non-impact printing device 127 are each z. B. formed as at least one inkjet printing device.
- a third transport device 128 is arranged, which takes over the substrate primed on both sides from the first transport device comprising at least one pulling element, transports it to the second transport device having at least one pulling element and delivers it to this second transport device.
- the substrate in question in the area of action of the first non-impact printing device 06 transporting third transport device 128 is z. B. as a transport cylinder (Fig. 27) or as a particular endless circulating conveyor belt (Fig.
- the conveyor belt is z. B. as a suction belt 52 with at least one suction chamber 58; 59 formed (Fig. 13).
- the third transport device 128 transporting the respective substrate in the area of action of the first non-impact printing device 06 and the second transport device having at least one traction element transporting the relevant substrate in the area of action of the second non-impact printing device 127 preferably each have one a single drive 129; 131, these individual drives 129; 131 each z. B. are designed as a regulated in its respective speed and / or angular position or at least controllable preferably electrically powered motor, by means of which the respective transport devices in their respective movement behavior
- the printing of the respective substrate on the front side by the first non-impact printing device 06 and on the back by the second non-impact printing device 127 is synchronized or at least synchronized.
- the first dryer 121 is for drying the applied on the front of the substrate in question primer z. B. in the region of the contact pressure cylinder 1 19 (Fig. 27) or in the region of a strand, in particular the load strand of the first at least one tension member having transport device (Fig. 28) are arranged.
- the second dryer 122 for drying the primer applied on the back side of the relevant substrate is preferably in the region of a run, in particular of the load run of the first at least one tension member
- the third dryer 123 for drying the relevant front side of the printed with the first non-impact printing device 06 substrate is z. B. arranged in the transport direction T of the respective substrate of the second non-impact printing device 127 strand, in particular Lasttrums the second at least one tension member having transport device or located in the region of the third transport device 128, which in turn
- the fourth dryer 124 for drying the respective back printed substrate with the second non-impact printing device 127 is z. B. arranged in the transport direction T of the respective substrate of the second non-impact printing device 127 downstream strand of the second at least one tension member having transport device. If one of the dryers 121; 122; 123; 124 is arranged in a run of one of the transport devices, determines a Length of its drying line a minimum length of the strand concerned.
- the substrates of the system pressure cylinder 1 19 receiving first at least one tension member having transport device and the substrates in the area of action of the second non-impact printing device 127 transporting second at least one traction element transporting transport the substrates each by means of gripper carriage 23, said gripper carriage 23 each in a preferably fixed , In particular, equidistant distance successive, these gripper carriages 23 are each equipped with controlled or at least controllable holding means 79 (Fig. 15) for holding a substrate, in particular with grippers. Each of these gripper carriage 23 is of the relevant at least one pulling member of the relevant
- Transport device in the transport direction T of the substrate moves.
- the gripper carriage 23 are in the transport direction T of the respective substrate z. B. each driven by a precision drive, wherein the precision drive in question z. B. is designed in the form of a linear drive system, wherein the relevant
- gripper carriage 23 having transport device are preferably arranged between immediately successive gripper carriage 23 at least along the transport direction T of the substrate in question more bands, the relevant held by the respective gripper carriage 23 substrate for its stabilization during its transport at least part of the surface rests on these preferably mutually parallel bands.
- 23 are arranged between successive gripper carriage Ribbons along the transport direction T of the respective substrate in particular sprung arranged or formed of an elastic material.
- the gripper carriages 23 are at least in the
- Gripper carriage 23 is provided, said catching mechanism z. B. at least one moving in the direction of transport T of the substrate concerned or at least movable fork, wherein the respective gripper carriage 23 z. B. at its two transversely to the transport direction T of the respective gripper carriage 23 located ends held in the respective fork and is guided by these in its trajectory in particular passerhaltig and / or registered. Furthermore, for the registration-containing and / or register-containing alignment of the relevant substrate, in particular or at least in or immediately before the effective range of the first non-impact printing device 06 and / or in or immediately before the effective range of the second non-impact printing device 127 each z. B. an adjusting device, in particular a lateral positioning provided. The substrate in question is z. More colorful
- the machine arrangement illustrated in FIGS. 27 or 28 is also each describable as a machine arrangement for sequentially processing a plurality of arcuate substrates each having a front side and a back side, wherein a first Non-impact printing device 06 and a second non-impact printing device 127 and a first Primerubbed arthritis 02 and a second Primerubbed arthritis 126 are provided, each with respect to the same arcuate substrate, the first primer applicator 02 priming the front and the second
- Primerettes With respect to this substrate, the first non-impact printing device 06 the printing of the first Primer declined arthritis 02 front side printing and the second non-impact printing device 127, the primed by the second Primer declined arthritis 126 rear printed are arranged.
- a first dryer 121 for drying the applied on the front side of the substrate in question in the transport direction T of the substrate in question in front of the first non-impact printing device 06 and a second dryer 122 for drying the applied on the back of the respective substrate primer in the transport direction T of the respective substrate in front of the second non-impact printing device 127 and a third dryer 123 for drying the relevant printed with the first non-impact printing device 06 front side substrate in the transport direction T of the respective substrate after the first non-impact printing device 06 and a fourth dryer 124 is provided for drying the respective substrate printed on the reverse side with the second non-impact printing device 127 in the transporting direction T of the relevant substrate after the second non-impact printing device 127.
- the second primer application device 126 can be arranged in the transport direction T of the respective substrate, optionally before or after the second non-impact printing device 127.
- the first dryer 121 for drying the primer applied on the front side of the respective substrate and / or the second dryer 122 for drying the primer applied on the rear side of the substrate in question and / or the third dryer 123 for drying the one with the first non-impact Printing device 06 front-side printed substrate and / or the fourth dryer 124 for drying the relevant with the second non-impact printing device 127 back printed substrate are each z. B.
- the respective primed and / or printed substrate is formed by hot air and / or by drying with infrared or ultraviolet radiation drying dryer, wherein the respective primed and / or printed substrate drying by irradiation with infrared or ultraviolet radiation drying dryer 121; 122; 123; 124 is preferably designed as an LED dryer, ie as a respective
- At least one transport device transporting the relevant substrate is provided, wherein these
- Transport device is designed as a transport cylinder or as a circulating conveyor belt or as a chain conveyor.
- the at least one transport device transporting the relevant substrate has at least one holding element, wherein the at least one holding element is formed holding the respective substrate by a frictional connection or by a positive fit.
- FIG. 29 shows yet another advantageous machine arrangement for the sequential processing of a plurality of arcuate substrates each having a front side and a rear side.
- This machine arrangement which is preferably designed as a printing machine, in particular as a sheet-fed printing press, has at least one first printing cylinder and one second printing cylinder.
- the first non-impact printing device 06 and the second non-impact printing device 127 are z. B. each as at least one inkjet printing device educated.
- the first non-impact printing device 06 and / or the second non-impact printing device 127 each print several, for.
- Printing inks in particular the printing inks yellow, magenta, cyan and black, wherein for each of these inks with respect to the respective non-impact printing device 06; 127 each preferably a particular inkjet printing device is provided.
- the first printing cylinder and the second printing cylinder are arranged forming a common nip, the first printing cylinder in this common nip transfering the respective front-side printed and dried substrate directly to the second printing cylinder.
- the first printing cylinder and the second printing cylinder are arranged forming a common nip, the first printing cylinder in this common nip transfering the respective front-side printed and dried substrate directly to the second printing cylinder.
- this machine arrangement are also a first
- Primer Apart Pain Pain Pain Pain Pain Pain Pain Pain Pain 02 and a second primer applicator 126 is provided, wherein in each case with respect to the same arcuate substrate, the first
- Primerauffeag drove 02 primed printing on the front side and the second non-impact printing device 127, the printed by the second primer applicator 126 back printed.
- the first primer applicator 02 and the second primer applicator 126 each have z.
- Plant pressure cylinder 1 19 transfers.
- Impact printing device 06 passing first impression cylinder passes.
- Plant pressure cylinder 1 19 is i. d. R. immediately after the first primer applicator 02 z. B. one of the first primer application device 02 primed front of the respective substrate drying dryer 121 and / or arranged on the circumference of the second primer applicator 126 bearing pressure cylinder 1 19 i. d. R. immediately after the second primer applicator 126 z. B. arranged one of the second primer applicator 126 primed back of the respective substrate drying dryer 122.
- the dryer 124 for drying the respective substrate printed on the reverse side with the second non-impact printing device 127 is in each case designed as a dryer priming the respective primed and / or printed substrate by hot air and / or by irradiation with infrared or ultraviolet radiation.
- the respective primed and / or printed substrate is dried by irradiation with infrared or ultraviolet radiation drying dryer 121; 122; 123; 124 formed as an LED dryer, d. H. as a dryer producing the infrared or ultraviolet radiation respectively by means of semiconductor diodes.
- the first impression cylinder and the second impression cylinder and the application pressure cylinder 1 19 having the first primer application device 02 and the application pressure cylinder 1 19 having the second primer application device 126 are each preferably in a single drive train formed from gears, ie in one Gear train connected together and in their respective rotation driven jointly by a single drive, said drive is preferably designed as a particular speed-controlled and / or position-controlled electric motor.
- Plant pressure cylinder 1 19 and the second primer applicator 126 having system pressure cylinder 1 19 are each z. B. formed multiple times, d. H. on the lateral surface are each more, z. B. two or three or four substrates arranged in the circumferential direction one behind the other or at least can be arranged.
- Each of the substrates to be transported is on the lateral surface of the first printing cylinder and / or the second printing cylinder and / or of the first primer applicator 02 bearing system pressure cylinder 1 19 and / or the second
- pliable and / or thin substrates with a thickness of z. B. up to 0.1 mm or a maximum of 0.2 mm can be frictionally z. B. be held by suction on the lateral surface of the cylinder in question, with a
- the respective substrate printed on both sides is after its transport through the second printing cylinder preferably by means of a transport device z. B. transported to a display 12 and stored there in the display 12 on a stack.
- the subsequent to the second printing cylinder transport device is z. B. formed as a chain conveyor, wherein the substrate in question during its transport through this transport device before its deposition in the display 12 is again preferably dried on both sides by at least one dryer 09.
- Pressure cylinder in each case another printing device, in particular a further non-impact printing device, or at least one painting device 08 each optionally arranged with a further dryer. All these juxtaposed printing cylinders then form a continuous transport path for the respective substrate in the relevant machine arrangement, this substrate then being transferred from one to the next impression cylinder.
- the relevant substrate can be processed on both sides, in particular can be printed, without the need for a turning device in this machine arrangement for this substrate.
- Machine arrangement is thus very compact and inexpensive.
- the machine arrangement shown in FIG. 29 is particularly advantageous i. V. m. UV-curing inks z. B. used in packaging for food or cosmetics.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Feeding Of Articles By Means Other Than Belts Or Rollers (AREA)
- Ink Jet (AREA)
- Printing Methods (AREA)
Abstract
Description
Claims
Applications Claiming Priority (6)
Application Number | Priority Date | Filing Date | Title |
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DE102015208047.1A DE102015208047B4 (de) | 2015-04-30 | 2015-04-30 | Verfahren zum Anordnen von Bogen in einer geschuppten Lage |
DE102015213431 | 2015-07-17 | ||
DE102015215003 | 2015-08-06 | ||
DE102015216874 | 2015-09-03 | ||
DE102015217229 | 2015-09-09 | ||
PCT/EP2016/059645 WO2016174223A1 (de) | 2015-04-30 | 2016-04-29 | Verfahren und vorrichtung zum anordnen von bogen in einer geschuppten lage zwischen aufeinanderfolgenden bearbeitungsstationen |
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EP3288764A1 true EP3288764A1 (de) | 2018-03-07 |
EP3288764B1 EP3288764B1 (de) | 2020-02-19 |
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EP16719859.7A Active EP3288764B1 (de) | 2015-04-30 | 2016-04-29 | Verfahren und vorrichtung zum anordnen von bogen in einer geschuppten lage zwischen aufeinanderfolgenden bearbeitungsstationen |
EP16721760.3A Active EP3288765B1 (de) | 2015-04-30 | 2016-04-29 | Transportvorrichtung zum sequentiellen transport einzelner bogenförmiger substrate mittels saugband |
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EP16721760.3A Active EP3288765B1 (de) | 2015-04-30 | 2016-04-29 | Transportvorrichtung zum sequentiellen transport einzelner bogenförmiger substrate mittels saugband |
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EP (2) | EP3288764B1 (de) |
CN (1) | CN107531043B (de) |
WO (2) | WO2016174224A1 (de) |
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FR2954214B1 (fr) | 2009-12-22 | 2012-01-20 | Eugene Jean Schaeffer | Dispositif de reception et d'entrainement d'un support a imprimer et une machine d'impression |
JP5529089B2 (ja) * | 2011-08-29 | 2014-06-25 | 富士フイルム株式会社 | 記録媒体搬送装置及び画像形成装置 |
CN104512101B (zh) * | 2013-10-04 | 2018-07-10 | 海德堡印刷机械股份公司 | 用于输送和对齐页张的方法和装置 |
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- 2016-04-29 WO PCT/EP2016/059646 patent/WO2016174224A1/de active Application Filing
- 2016-04-29 US US15/569,175 patent/US10052886B2/en active Active
- 2016-04-29 EP EP16719859.7A patent/EP3288764B1/de active Active
- 2016-04-29 EP EP16721760.3A patent/EP3288765B1/de active Active
- 2016-04-29 WO PCT/EP2016/059645 patent/WO2016174223A1/de active Application Filing
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EP3288765B1 (de) | 2020-02-19 |
CN107531043B (zh) | 2018-12-21 |
WO2016174223A1 (de) | 2016-11-03 |
EP3288764B1 (de) | 2020-02-19 |
EP3288765A1 (de) | 2018-03-07 |
CN107531043A (zh) | 2018-01-02 |
WO2016174224A1 (de) | 2016-11-03 |
US20180147860A1 (en) | 2018-05-31 |
US10052886B2 (en) | 2018-08-21 |
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