EP3658378A1 - Bogendruckmaschine mit gestell für ein bogentransportband - Google Patents
Bogendruckmaschine mit gestell für ein bogentransportbandInfo
- Publication number
- EP3658378A1 EP3658378A1 EP18743004.6A EP18743004A EP3658378A1 EP 3658378 A1 EP3658378 A1 EP 3658378A1 EP 18743004 A EP18743004 A EP 18743004A EP 3658378 A1 EP3658378 A1 EP 3658378A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- sheet
- frame
- transport
- conveyor belt
- fed printing
- 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
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F13/00—Common details of rotary presses or machines
- B41F13/0024—Frames
-
- 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
- B41F19/001—Apparatus or machines for carrying out printing operations combined with other operations with means for coating or laminating
-
- 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
- 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
- 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
- B41J11/0015—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 for treating before, during or after printing or for uniform coating or laminating the copy material before or after printing
- B41J11/002—Curing or drying the ink on the copy materials, e.g. by heating or irradiating
-
- 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
-
- 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
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J29/00—Details of, or accessories for, typewriters or selective printing mechanisms not otherwise provided for
- B41J29/02—Framework
-
- 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
- B41J11/0015—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 for treating before, during or after printing or for uniform coating or laminating the copy material before or after printing
- B41J11/002—Curing or drying the ink on the copy materials, e.g. by heating or irradiating
- B41J11/0021—Curing or drying the ink on the copy materials, e.g. by heating or irradiating using irradiation
- B41J11/00214—Curing or drying the ink on the copy materials, e.g. by heating or irradiating using irradiation using UV radiation
-
- 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
- B41J11/0015—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 for treating before, during or after printing or for uniform coating or laminating the copy material before or after printing
- B41J11/002—Curing or drying the ink on the copy materials, e.g. by heating or irradiating
- B41J11/0021—Curing or drying the ink on the copy materials, e.g. by heating or irradiating using irradiation
- B41J11/00216—Curing or drying the ink on the copy materials, e.g. by heating or irradiating using irradiation using infrared [IR] radiation or microwaves
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41P—INDEXING SCHEME RELATING TO PRINTING, LINING MACHINES, TYPEWRITERS, AND TO STAMPS
- B41P2217/00—Printing machines of special types or for particular purposes
- B41P2217/10—Printing machines of special types or for particular purposes characterised by their constructional features
- B41P2217/11—Machines with modular units, i.e. with units exchangeable as a whole
-
- 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
- B65H2801/03—Image reproduction devices
- B65H2801/21—Industrial-size printers, e.g. rotary printing press
Definitions
- the invention relates to a sheet-fed printing machine.
- Non-impact printing processes are understood to mean printing processes which do not require a fixed, that is physically immutable, printing form. Such printing methods can produce different print images in each printing process. Examples of non-impact printing processes are ionographic processes, magnetographic processes, thermographic processes, electrophotography, laser printing and in particular inkjet printing processes or ink-jet printing processes. Such printing methods usually have at least one image-forming device, for example at least one print head.
- such a printhead is designed, for example, as an inkjet printhead and has at least one and preferably several nozzles, by means of which specifically at least one printing fluid, for example in the form of ink drops, can be transferred to a printing material.
- Alternative printing methods have fixed printing forms, for example
- Gravure printing method planographic printing method, offset printing method and high-pressure method, in particular Flexod jerk method.
- Flexod jerk method Depending on the number of copies and / or others
- Requirements such as print quality may be a non-impact printing process or a printing process with a solid printing form to be preferred.
- Multi-color printing is referred to as the Passer (DIN 16500-2), when individual print images of different colors are combined exactly to a picture. Also in the context of inkjet printing, appropriate measures must be taken to Passer and / or register. In particular, it is important that a relative position between the print head and printing material is known and / or kept constant.
- the register is also called color register.
- the term register mark should therefore also be understood below to mean a registration mark, that is to say a mark for checking the passport or color register.
- Sheetfed presses are known. However, conventional transport systems are not always applicable to particularly thick sheets.
- a sheet-fed printing machine which operates on the offset printing principle and has additional inkjet printing units, which have printheads and dryers, which are optionally arranged to be movable. Drives for transporting sheets are not described.
- Inkjet printheads and dryers A transport of substrate and intended drives is described only in connection with a web-fed printing press.
- EP 0 669 208A1 discloses a sheet-fed printing machine with drive motors for cylinders and the possibility of their axial positioning.
- EP 0 615 941 A1 discloses a sheet-fed printing machine with individually driven acceleration means.
- Acceleration means are driven by a common drive.
- Motor control device controls this drive as well as a drive that the
- the mailpieces transported past the print head module.
- the mailpieces are decelerated as needed by the secondary accelerator to increase a gap to the previous mailpiece.
- this secondary acceleration means forcibly also the first acceleration means is decelerated because of the common drive.
- US 2001/0022422 A1 and US 2013/0216291 A1 each disclose a method and a copying machine, wherein paper sheets are removed from a stack from above, separated and fed to a printing location.
- US 2002/0180138 A1 discloses a method and a device in which checks are separated and marked.
- a primary accelerator operates slower than a secondary accelerator.
- the checks are decelerated or accelerated as needed by the secondary accelerator to adjust a gap to the previous check.
- the primary accelerator is decelerated or accelerated in the same ratio.
- DE 10 2016 202 124 A1 discloses a sheet-fed printing press with a modular construction, ink-jet printheads and conveyor belts.
- the invention has for its object to provide a sheet-fed press.
- a sheet processing machine is preferably designed as a sheet-fed press.
- the sheet processing machine is preferably designed as a sheet processing machine for processing corrugated cardboard sheet, ie as
- Sheet processing machine designed as a sheet-fed printing machine for coating and in particular for printing corrugated cardboard sheet, ie as
- the preferably designed as a sheet-fed press processing machine preferably has at least one and more preferably at least two modules designed as modules.
- the at least one module and more preferably the at least two modules preferably each have at least one own drive. At least one of the at least two modules is preferred as
- Sheet-fed printing machine preferably additionally characterized in that the at least one coating module is designed as a printing module and / or as a non-impact coating module.
- the sheet-fed printing press is preferably characterized in that at least one further of the at least two modules has at least one coating module arranged thereon, which is designed as a primer module and / or as a coating module.
- the sheet-fed printing machine is preferably characterized in that at least one further of the at least two at least one
- the sheet-fed printing machine is preferably characterized in that it Drying device or drying device or at least one
- Drying module at least one designed as a hot air source
- Sheet-fed printing machine preferably in that the sheet-fed printing machine has a transport path for sheet transport and that at least the section of the transport path provided by the non-impact coating module is at least substantially flat and / or in the flat
- the sheet-fed printing press is preferably characterized in that, with regard to a transport path provided for sheets, at least one inspection device is arranged after at least one coating device and / or after at least one drying device or drying device.
- Sheet-fed printing machine preferably characterized in that at least one of the at least two modules is designed as a flexo coating module.
- the sheet-fed printing press is preferably characterized in that at least one diagonal register setting device is arranged as part of the respective flexo coating module.
- the sheet-fed printing press is preferably characterized in that the at least one flexo coating module is designed as a primer module and / or as a printing module and / or as a coating module.
- Coating module is arranged, which has its own drying device or Has drying device and at least one designed as a paint module coating module is arranged, which has its own drying device or drying device.
- the sheet-fed printing machine is preferably characterized in that one for the
- the processing machine preferably designed as a sheet-fed printing machine is preferably characterized in that an area of action of the drying device or drying device of the at least one further of the at least two modules with respect to the transport path provided for sheets according to an application point of this at least one further of the at least two modules is arranged.
- the preferably designed as a sheet-fed press processing machine is preferably characterized in that the at least one non-impact coating module has at least two arranged along a transport path provided for sheet, with respect to at least one coupling device consistently constructed receiving devices, each for selective recording one each as at least one
- Printhead assembly or designed as at least one dryer assembly
- Sheet-fed printing machine preferably characterized in that the Non Impact coating module has its own, especially integrated drying device or drying device.
- the preferred formed as a sheet-fed printing machine preferably characterized in that along the provided for sheet transport path at least a first intended for colored coating agent application point of at least one non-impact coating module and then an area of action of at least one of the first
- a module is preferably to be understood as meaning a respective aggregate or a structure of a plurality of aggregates, which has at least one own controllable and / or controllable drive and / or at least one transfer means for sheets and / or at least one without deviation or with a deviation of at most 5 cm on a for several modules same first standard height beginning and / or ending portion of a provided for a transport of sheets transport path and / or formed as a self-standing functional module and / or each made for themselves and / or each assembled for themselves machine unit or functional assembly is.
- the preferably designed as a sheet-fed printing machine preferably characterized by having at least two modules designed as modules and that the at least two modules each have at least its own drive and that at least one of the at least two modules as non-impact Coating module is formed and that at least one of the at least two modules is designed as a drying module.
- the preferably designed as a sheet-fed press processing machine is preferably characterized in that it has provided for a transport of sheets transport path and that for a plurality, more preferably at least three and even more preferably all of the modules preferably as a sheet-fed press trained processing machine is that a specified by the respective module portion of the provided for sheet transport path has a minimum radius of curvature which is at least 2 meters and / or in the entire region of the respective module has a direction which is at most 30 ° of at least one horizontal Direction deviates.
- a specified by the respective module portion of the provided for sheet transport path has a minimum radius of curvature which is at least 2 meters and / or in the entire region of the respective module has a direction which is at most 30 ° of at least one horizontal Direction deviates.
- a particularly great thickness which are only slightly bendable.
- corrugated cardboard sheets with thicknesses of, for example, 10 mm or more can be processed.
- modules can be easily connected to each other, in particular, in turn, without the
- the preferably designed as a sheet-fed printing machine preferably characterized by the fact that the at least two modules each have at least one own drive, each serving to a transport of sheets through this module and / or by at least one Einwirk Scheme to effect this particular module and / or which serves in each case to directly or indirectly drive at least one provided for contact with sheet component of the respective module and / or that each of its own drives is designed as a position-controlled electric motor.
- Flexibility in assembling individual modules and the drive performance can be optimized independently of the overall size of the processing machine.
- the processing machine which is preferably designed as a sheet-fed printing machine, is preferably characterized in that it has at least three modules and that at least one of the at least three modules as a sheet feeder module and / or as a preparation module and / or as an investment module and / or as a primer module and / or transport module and / or as
- Paint module and / or as aftertreatment module and / or as a shaping module and / or as a punching module and / or as a display module is formed and that for a plurality, more preferably at least three and even more preferably all of the modules of the sheet-fed press that the respective module in each case at least has its own drive.
- the preferably designed as a sheet-fed press processing machine is preferably characterized in that each module of preferably designed as a sheet-fed press machine each having at least its own drive and / or and that with the exception of an optionally arranged investor module and / or with the exception of
- Sheet-fed printing machine trained machine applies that a specified by the respective module respective section of the intended for bow
- Transport path has a minimum radius of curvature which is at least 2 meters and / or in the entire region of the respective module has a direction which deviates at most by 30 ° from at least one horizontal direction.
- the preferably designed as a sheet-fed press machine is preferably characterized in that drive controls and / or drive controller of the individual modules are individually and independently operable and / or that the individual modules of
- Machining machine with respect to their drives are matched to each other operable and / or operated and / or that the individual modules of the processing machine by means of at least one electronic master axis at least with respect to their drives are mutually coordinated operable and / or operated. This can be done despite modular construction high precision machining can be achieved.
- the preferably designed as a sheet-fed printing machine processing machine is preferably characterized in that the sheet processing machine has at least one unit, the at least one suction conveyor designed as a suction conveyor for transporting sheets in one
- the at least one unit for aligning sheets with respect to the transverse direction at least one arranged in particular during operation of the sheet processing machine stationary
- the preferably designed as a sheet-fed printing machine preferably characterized by having at least two modules and at least two modules each have at least one transfer means, which serves to transport a sheet between this respective module on the one hand and at least one On the other hand, to support or perform another module and / or that a specified by the respective module section of a provided for sheet transport path on a respective input level of the respective module begins and / or on a respective
- Output height of each module ends and for several modules of Processing machine applies that the respective entrance height of the respective module deviates from a same first standard height by at most 5 cm and / or the respective starting height of the respective module deviates from the same first standard height by at most 5 cm and / or the respective entrance height of the respective module of the respective output height of the respective module deviates by more than 5 cm.
- the processing machine which is preferably designed as a sheet-fed printing machine, is preferably characterized in that at least the non-impact coating module and the drying module each have at least one suction transport means and / or that the non-impact
- Coating module is designed as an inkjet coating module. This enables a particularly precise printing, especially for flexible printed images.
- the processing machine which is preferably designed as a sheet-fed printing machine, is preferably characterized in that the non-impact coating module has at least one and preferably exactly one
- Suction belt has trained transport.
- the preferably designed as a sheet-fed printing machine preferably characterized in that the conveyor belt of the at least one suction belt of the coating device, in particular non-impact coating device measured in the transverse direction width of at least 30 cm, preferably at least 50 cm, more preferred at least 100 cm and even more preferably at least 150 cm.
- the preferred as Sheet-fed press machine designed preferred machine that the at least one coating module, in particular non-impact coating module has at least one footing for at least one operator who is at least temporarily vertically above the suction belt, in particular above the conveyor belt of the suction belt arranged and / or can be arranged.
- the preferably designed as a sheet-fed printing machine preferably characterized by the fact that at least one clamping means for adjusting and / or maintaining a particular mechanical tension of the conveyor belt of the suction belt is arranged, in particular standing with the conveyor belt in contact.
- the at least one tensioning means is displaceable in and / or against at least one tensioning direction and / or all components of the at least one tensioning means that are in contact with the at least one conveyor belt are arranged to be linearly movable together.
- the preferably designed as a sheet-fed printing machine preferably characterized by the fact that at least one after-drying device is arranged, at least one aligned at least partially on the at least one and preferably exactly designed as a suction conveyor transport of the non-impact coating module
- Heat exchanger with at least one air discharge line at least one with respect to the transport direction of the suction belt upstream drying device or
- Drying device is connected.
- the preferred as Sheet-fed printing machine trained processing machine preferably characterized in that the drying device or drying device at least one as
- Infrared radiation source trained energy delivery device and / or that the drying device or drying device has at least one formed as a UV radiation source energy delivery device and / or that the drying device or drying device at least one as
- the preferably designed as a sheet-fed press processing machine is preferably characterized in that at least one of the at least two modules is designed as Substratzufufhrehre and that at least one of the at least two modules is designed as a print module and that the Substratatzuschreib responded at least a primary accelerating means primary drive or primary acceleration drive of the substrate supply device and at least one arranged along a provided for sheet transport path to the at least one primary acceleration means secondary
- Acceleration means with secondary drive or secondary acceleration drive of the Substratatzucht pain and that the at least one primary
- Acceleration means is arranged below a storage area provided for storing a stack of sheets and that the at least one
- Pressure module is associated with a different drive from the primary drive of the Substratatzucht pain and the secondary drive of the Substratatzuschreib adopted for transporting sheets. This has the particular advantage that, regardless of printing processes, a particularly effective acceleration of the sheet can take place.
- the processing machine which is preferably designed as a sheet-fed printing machine, is preferably characterized in that the processing machine, which is preferably designed as a sheet-fed printing press, at least has three units designed as modules and that the at least three modules each have at least one own drive and / or that the
- Sheet-fed printing machine has several units designed as pressure modules aggregates, each having at least its own drive.
- the preferably designed as a sheet-fed press machine is preferably characterized in that the at least one primary acceleration means is formed as at least one acting on a respective lowest sheet of a stack acceleration means and / or that the at least one printing module as coating means from above applying pressure module is formed and / or the at least one printing module is designed as a non-impact coating unit and / or as an ink jet printing unit. If a plurality of printing modules are arranged, this preferably applies to several and more preferably all of the printing modules.
- the processing machine which is preferably designed as a sheet-fed printing machine, is preferably characterized in that the drying device or drying device is capable of acting and / or acting from above
- Drying device or drying device is formed.
- the preferably designed as a sheet-fed printing machine preferably characterized by the fact that by means of the at least one primary accelerating means sheets are accelerated to a first speed and / or accelerated and that by means of at least one secondary accelerating means bow in particular from the first Speed can be accelerated and / or accelerated to a second speed, which is greater than the first speed and / or that the second speed is intended for a transport of the sheet by the at least one printing unit printing speed.
- the preferably designed as a sheet-fed printing machine preferably characterized by having at least two modules designed as modules and that preferably the at least two modules each have at least one own drive and that preferably at least one of the at least two modules sheet feeder module designed as a substrate feeding device and that preferably the substrate feeding device has at least one primary accelerating means with primary drive
- the preferably designed as a sheet-fed press processing machine is preferably characterized in that the primary drive and the secondary drive and the at least one further drive each as
- Position-controlled electric motor are formed and that a drive control of the primary drive is different from a drive control of the secondary drive and that further preferably a drive control of the at least one further drive from the drive control of the primary drive and the drive control of the secondary drive is different and that preferably the drive control the primary drive and the drive control of the secondary drive and more preferably also the drive control of the at least one further drive are connected in circuit technology with a machine control of the sheet-processing machine.
- the preferably designed as a sheet-fed press machine preferably characterized by the fact that at least one sheet sensor of Substratatzucht Rheinwald detecting a respective leading edge and / or a respective trailing edge of respective sheet on the arranged transport path is arranged aligned.
- a detection range of this overlap at least one sheet sensor and provided for the transport of sheets transport path.
- the preferably designed as a sheet-fed press processing machine is preferably characterized in that a drive control of the primary drive is different from a drive control of the secondary drive and that a drive control of the drive of the pressure module of the drive control of the primary drive and the drive control the secondary drive is different and / or that a drive control of the primary drive and one of them different drive control of the secondary drive and a different drive control of the drive of the pressure module with a machine control of the particular designed as a sheet-fed press
- Sheet processing machine are connected by circuitry.
- the preferably designed as a sheet-fed press processing machine is preferably characterized in that as the at least one primary accelerating means a plurality of subsets of primary acceleration means are arranged, which are at least temporarily operable from subset to subset of different bow speeds and / or each at least one respective primary drive assigned only to this respective subset of acceleration means and / or the at least one primary acceleration means as at least one transport roller and / or at least one conveyor belt and / or at least one suction transport means and / or at least one suction belt and / or as at least one Saugkastenband and / or as at least one Rollensaugsystem and / or as at least one suction pad and / or as at least one suction roller is formed.
- Each subset may have a primary accelerator or a plurality of primary accelerators.
- the preferably designed as a sheet-fed press machine is preferably characterized in that the at least one secondary acceleration means as at least one outgoing transport of the Substratatzuschreib streets and / or at least one
- Transport roller and / or as at least one transport gap forming a pair of transport rollers and / or as at least one suction transport means and / or at least one transport gap forming a pair of conveyor belts is formed.
- the preferably designed as a sheet-fed printing machine preferably characterized by the fact that the at least one primary acceleration means is also designed as Bogenausrichtstoff for alignment with the transverse direction and / or a pivotal position and / or that at least one secondary acceleration means at the same time is designed as Bogenausrichtstoff for alignment with respect to the transverse direction and / or a pivotal position.
- the preferably designed as a sheet-fed printing machine processing machine is preferably characterized in that it has at least one designed as a suction suction conveyor and that this at least one suction transport at least one particular flexible
- Circulation path extending parallel to a transport direction along a portion of a provided for sheet transport path, in particular over a transport length.
- the at least one conveyor belt has a plurality of suction openings.
- at least two, more preferably at least three, even more preferably at least five, and even more preferably at least ten, in particular with respect to the transport direction separated and / or separable vacuum chambers are arranged one behind the other, each having at least one suction opening.
- the at least one covers Conveyor belt in its transport section of its circulation path in each case at least one suction opening of several and / or all of these arranged one behind the other
- Vacuum chambers at least partially.
- those sheets can be transported very accurately and flat and secure, for example, are relatively thick or relatively little bendable for other reasons, in particular corrugated board, even if these sheets are braced in and / or curved and / or a flat-oriented position counteract and / or tend, for example, in edge or middle areas of a conveyor belt stand out. This is especially possible even if with small bow 02 and / or large
- the preferably designed as a sheet-fed printing machine preferably characterized by having at least one conveyor belt, which preferably extends with at least one transport section of its circulation path parallel to a transport direction along a portion of a provided for sheet transport path.
- At least one coating unit of at least one coating unit of the sheet-fed printing press is preferably arranged along the transport section of the at least one conveyor belt, more preferably several coating stations.
- at least one strip alignment means of the at least one conveyor belt is arranged in contact with the at least one conveyor belt.
- the processing machine which is preferably designed as a sheet-fed printing machine, is preferably characterized in that the at least one belt alignment means has at least one, for example, an electric motor and / or as a pneumatic cylinder and / or as a hydraulic cylinder and / or as a linear drive trained alignment drive and / or that at least one
- the preferably designed as a sheet-fed press machine is preferably characterized in that the at least one Bandausrichtstoff is designed as at least one Bandausrichtwalze whose rotational axis is variable in orientation and / or that the at least one Bandausrichtstoff has at least one radial bearing, whose
- Rotation axis is displaceable at least with respect to a compensation direction at least relative to at least one particular stationary frame of preferably designed as a sheet-fed press processing machine and / or that the at least one Bandausrichtstoff arranged at least two spaced in the transverse direction
- Radial bearing having its axes of rotation at least with respect to a compensation direction at least relative to each other and / or independently and / or relative to at least one particular stationary frame of the preferably designed as a sheet-fed press processing machine are arranged displaceable.
- the at least one radial bearing is linearly displaceable at least in and / or counter to the compensation direction and / or the at least two radial bearings are linearly displaceable at least in and / or counter to the compensation direction.
- the preferably designed as a sheet-fed printing machine preferably characterized by the sheet-fed press having at least one non-impact coating unit designed as a coating unit and that the sheet-fed printing machine has at least one conveyor belt with at least one transport section of its circulation path parallel to a Transport direction along a portion of a provided for sheet transport path extends. It is preferred along the Transport section of the at least one conveyor belt arranged at least one coating station at least one coating unit of the sheet-fed press, more preferably several coating sites.
- the at least one coating unit has at least one print head, and wherein the at least one print head is further preferably connected to at least one first frame of the at least one coating unit.
- the at least one conveyor belt is arranged connected to at least one second frame via at least one deflecting means and at least one radial bearing.
- the at least one first frame apart from at least one of the at least one first frame and the at least one second frame different, in particular below the at least one coating unit and / or below the sheet-fed press and / or below the at least one first frame and / or arranged below the at least one second frame mounting surface at most over particularly mechanically flexible connections to the second frame connected, so standing in contact, arranged. Under such a connection is therefore not necessarily a cohesive and / or frictional and / or positive connection to understand, but a direct or other components indirectly mediated contact.
- a respective such flexible, in particular mechanically flexible, connection is formed, for example, by at least one or more in particular mechanically flexible components and / or by at least one or more in particular mechanically flexible assemblies.
- such flexible, in particular mechanically flexible, connections mean an intermediate arrangement of at least one in particular mechanically flexible component and / or an intermediate arrangement of at least one in particular mechanically flexible assembly.
- Such in particular mechanically flexible connections are, for example, supply lines for power and / or data and / or gas and / or gas mixtures and / or liquids and / or, for example, reversibly deformable bodies or assemblies, the deformable bodies respectively.
- Deformable bodies are, for example, also elastic buffers and / or rubber buffers and / or joint connections. In this way, the at least one print head can be decoupled particularly effectively from any vibrations which could be caused by the at least one conveyor belt and / or its deflection means and / or its drive.
- the processing machine which is preferably designed as a sheet-fed printing press, is preferably characterized in that at least one overhang sensor for detecting at least one spatial extent of sheets is arranged along a transport path provided for transporting sheets and / or at least one compression device is arranged at least one first compression body and at least one second
- the at least one force element is biased and / or that the at least one
- Compressing device has at least one retaining device which is switchable at least between a retaining state and a release state and in the retaining state, a movement of the at least one first
- Compression body is arranged preventing from its passage layer in its compression position.
- a method is preferred for operating a machine tool designed in particular as a sheet-fed printing machine, wherein at least one sheet is transported by means of a suction conveyor designed as a suction belt, which has at least one, in particular flexible, conveyor belt which is connected to at least one
- At least two, more preferably at least three, even more preferably at least five and even more preferably at least ten, in particular with respect to the transport direction separated and / or separable vacuum chambers in a row along the transport path provided for sheet moves in particular over a transport length are arranged, each having at least one suction opening.
- the at least one conveyor belt in its transport section of its circulation path preferably at least partially covers at least one suction opening of several and / or all of these vacuum chambers arranged one behind the other.
- Vacuum chambers preferably each individually and temporally varying depending on at least influenced by such data, which characterize a position of the at least one sheet along the transport portion of the circulation path of the at least one conveyor belt.
- the method is preferably characterized in that sheets originating from a stack are separated.
- the method is preferably characterized in that the sheets are in each case directed to a first by means of at least one primary accelerating means of a substrate supply device driven by a primary drive
- the at least one primary drive is designed as a position-controlled electric motor.
- the method is preferably distinguished by the fact that the sheets are each accelerated to a second speed by means of at least one secondary accelerating means of the substrate supply device driven by a secondary drive, wherein the at least one further preferably secondary drive is designed as a position-controlled electric motor and / or the second speed is greater than the first speed.
- the method is preferably characterized in that the sheets are then each accelerated by means of this at least one secondary accelerating means to a third speed, which is greater than the second
- the method is characterized by the fact that the sheets along a transport path from the Substratzufufhr worn to at least one further module of the sheet processing machine, in particular at least one
- Printing module are transported and wherein the sheets are each transported thereafter by means of at least one drive of the at least one further module, in particular the at least one printing module with a processing speed, in particular printing speed through the respective further module, in particular printing module and thereby processed in this respective further module, in particular printing module will be printed in particular.
- the first speed is preferably less than the processing speed, in particular printing speed.
- Processing speed in particular the printing speed is preferably equal to the second speed.
- Printing speed always refer to the transport speed of the sheet and / or the surface speed or peripheral speed of the respective component or accelerator.
- the method is characterized alternatively or additionally by the fact that the printing speed is equal to the second speed and / or that the second speed is greater than the first speed and / or the first
- Speed by at least 10%, more preferably by at least 20% and still more preferably is at least 30% smaller than the processing speed, in particular printing speed and / or that the first speed is at least 20%, more preferably at least 30% and even more preferably at least 40% of the second speed and / or that the first speed at most 80% and more preferably at most 70% and even more preferably at most 60% of the second rate and / or that the third rate is at least 10% and more preferably at least 20% and more preferably at least 30% and even more preferably at least at least 50% greater than the second speed.
- the method is preferably characterized in that at least one sheet sensor detects a trailing edge of a preceding sheet and generates a trailing edge signal and that at least one sheet sensor detects and traps a leading edge of a trailing sheet
- the method is preferably characterized in that the at least one primary drive and the at least one secondary drive are operated in particular coordinated with one another taking into account the background signal and / or the leading edge signal such that a gap between a preceding arc and a trailing arc is reduced and / or set to a value within a predetermined tolerance around a target value.
- the method is preferably characterized in that a primary acceleration profile for the at least one primary acceleration means and / or its primary drive is deposited and / or that a secondary acceleration profile for the at least one secondary
- Acceleration means and / or its secondary drive is deposited and / or that in response to signals of the at least one sheet sensor, the primary
- Acceleration profile and / or preferably the secondary acceleration profile is modified.
- the method is characterized alternatively or additionally by the fact that the sheets in each case at least one time with both the primary
- the method is characterized alternatively or additionally by the fact that a deceleration of the at least one primary accelerating agent in each case no
- Braking the respective accelerated immediately before with this primary accelerating means causes bow and / or that braking of the at least one secondary accelerating means does not cause any slowing down of the respective immediately previously accelerated with this secondary accelerating means bow. This is due, for example, to the fact that the respective acceleration means only slows down when the sheet has already come out of contact therewith.
- the method is alternatively or additionally characterized in that the sheets are printed in the at least one printing module from above and / or that the sheets are printed in the at least one printing module by means of a non-impact printing process and / or by means of an ink jet printing process from above.
- the method is characterized alternatively or additionally by the fact that the at least one primary accelerating agent is brought into contact with the sheets on a respective underside of the sheet, in particular exclusively the respective one Bottom, and / or that the at least one secondary acceleration means comprises at least one transport nip in which the sheets are at least partially arranged, while the at least one secondary accelerating means accelerates them to the second speed.
- the method is characterized alternatively or additionally by the fact that during acceleration by means of the at least one primary
- Acceleration means a displacement of the respective arc with respect to a transverse direction and / or a pivoting movement of the respective arc about an orthogonal to the transverse direction pivot axis and / or a setting of a phase angle of the respective arc to at least a subsequent, the sheet-transporting component of the preferably formed as a sheet-fed press
- Processing machine takes place and / or that during acceleration by means of the at least one secondary accelerating means a displacement of the respective arc with respect to the transverse direction and / or a pivoting movement of the respective arc about an orthogonal to the transverse direction pivot axis and / or adjustment of a phase angle of the respective arc at least one
- the sheet-transporting component of preferably as
- Sheet-fed machine trained processing machine is done.
- the method is characterized alternatively or additionally by the fact that the substrate feeding device is designed as a module of the preferably designed as a sheet-fed printing machine processing machine.
- Fig. 1 is a schematic representation of a sheet feeder unit
- Fig. 2a is a first portion of a schematic representation of an exemplary
- Fig. 2b is a second portion of the schematic representation of the exemplary
- Fig. 2c is a third section of the schematic representation of the exemplary
- Fig. 3 is a schematic representation of a conditioning aggregate
- Fig. 4 is a schematic representation of a plant unit
- FIG. 5a is a schematic representation of a coating unit designed as a flexo coating unit and coated from above with incoming transport means and outgoing transport means;
- FIG. 5b is a schematic representation of a coating unit designed as a flexo coating unit and coated from above;
- 5c shows a schematic representation of a coating unit, which is designed as a flexo coating unit and coated from below, with incoming transport means and outgoing transport means;
- FIG. 5d is a schematic representation of a coating unit which is designed as a flexo coating unit and coated from below;
- FIG. 6 shows a schematic illustration of a coating unit designed as a non-impact coating unit and coated from above;
- FIG. 5d is a schematic representation of a coating unit which is designed as a flexo coating unit and coated from below;
- FIG. 6 shows a schematic illustration of a coating unit designed as a non-impact coating unit and coated from above;
- Fig. 7 is a schematic representation of a drying unit
- Fig. 8a is a schematic representation of a trained as a suction belt
- Fig. 8b is a schematic representation of a trained as Rollenensaugsystem
- FIG. 8c a schematic representation of a longitudinal section of a suction transporting means designed as a suction box belt
- FIG. 8d a schematic representation of a cross section of a suction transporting means designed as a suction box belt
- Fig. 9 is a schematic representation of a transport unit
- FIG. 10 is a schematic representation of a shaping unit
- Fig. 1 1 is a schematic representation of a delivery unit
- Fig. 12a is a schematic representation of an exemplary processing machines with four pressure points
- FIG. 12b shows a schematic illustration of an exemplary processing machine with four pressure points, primer module and painting module
- FIG. 12c is a schematic representation of an example of an eight-point printing machine, primer module, and painting module;
- FIG. 12b shows a schematic illustration of an exemplary processing machine with four pressure points, primer module and painting module
- FIG. 12c is a schematic representation of an example of an eight-point printing machine, primer module, and painting module
- FIG. 12b shows a schematic illustration of an exemplary processing machine with four pressure points, primer module and painting module
- FIG. 12c is a schematic representation of an example of an eight-point printing machine, primer module, and painting module
- Fig. 13 is a schematic representation of primary and secondary
- Fig. 14a is a schematic representation of primary and secondary
- Acceleration means wherein a plurality of primary drives are arranged;
- Fig. 14b is a schematic representation of primary and secondary
- Acceleration means wherein a plurality of different spacers are arranged
- Fig. 15 is a schematic representation of primary and secondary
- Acceleration means wherein an auxiliary device for detecting erroneously transported and / or faulty sheet arranged for sorting out sheets and / or for holding and / or pushing back of sheet;
- Fig. 16a is a schematic representation of primary and secondary
- Acceleration means wherein as a secondary acceleration means a transport gap forming a pair of conveyor belts is arranged;
- Fig. 16b is a schematic representation of primary and secondary
- Acceleration means being arranged as a primary acceleration means at least one conveyor belt and / or at least one designed as a suction conveyor transport;
- Fig. 16c is a schematic representation of primary and secondary
- Acceleration means which are each formed as at least one conveyor belt and / or at least one designed as a suction conveyor transport;
- 17a is a schematic representation of a trained as a module Non Impact
- Fig. 17b is a schematic representation of a trained as a module Non Impact
- Coating unit four receptacles, two of which are populated by printhead assemblies and one occupied by a dryer assembly and one unoccupied;
- Fig. 17c is a schematic representation of a trained as a module Non Impact
- Coating unit four receptacles, two of which are occupied by printhead assemblies and two are occupied by a dryer assembly;
- Fig. 17d is a schematic representation of a trained as a module Non Impact
- Coating unit four receiving devices two of which are occupied by printhead assemblies and two are unoccupied;
- 18a is a schematic representation of an exemplary processing machine with a print module with dryer assembly between printhead assemblies;
- 18b is a schematic representation of an exemplary processing machine with two printing modules, wherein in the first printing module printhead assemblies and a dryer assembly are arranged and in the second printing module only printhead assemblies are arranged;
- 18 c is a schematic representation of an exemplary processing machine with a printing module, the dryer assembly between
- Printhead assemblies and a drying device in front of each application point of the printing module and a continuous transport of the printing module has;
- Fig. 18d is a schematic representation of an exemplary processing machine with a transport means, on the Druckköpre and
- Drying devices are arranged aligned
- Fig. 19a is a schematic representation of a trained as a suction belt
- Fig. 19b is a schematic representation of a trained as a suction belt
- Saugtransortschs with several in the transport direction successively arranged vacuum chambers and a plurality of vacuum sources;
- Fig. 19c is a schematic representation of a trained as a suction belt
- Saugtransortstoffs with several in the transport direction successively arranged vacuum chambers, several vacuum sources and valves;
- Figure 20 is a schematic representation of a conveyor belt with Bandausrichtstoff and clamping means.
- Fig. 21 a is a schematic representation of a transport means with conveyor belt
- FIG. 21 b is a schematic representation of FIG. 21 a, wherein a
- Compression body is arranged in a compression layer
- Fig. 22a is a schematic representation of a first and a second frame of a
- Fig. 22b is a schematic representation of a first and a second frame of a
- Fig. 22c is a schematic representation of a first and a second frame of a
- Fig. 23 is a schematic representation of a sheet feeder unit in the transverse direction
- FIG. 24 is a schematic perspective view of a sheet feeder unit according to FIG. 23; FIG.
- Fig. 25a is a schematic perspective view of a sheet feeder unit according to FIG 23 from above.
- Fig. 25b is a schematic perspective view of a sheet feeder unit according to FIG 25a from above with respect to the transverse direction displaced conveyor belts ..;
- 26a is a schematic representation of a first exemplary course of a
- Fig. 26b is a schematic representation of a second exemplary course of a
- inks and inks but also primers, paints and pasty materials are summarized. Preference is given to pressure-fluid materials passing through a processing machine 01, in particular printing machine 01, or at least one
- Coating unit 400; 600; 800 of the processing machine 01, in particular at least one printing unit 600 of the printing press 01, on a substrate 02, in particular a substrate 02, are transmitted and / or transferable, preferably in finely structured form and / or not only a large area preferably a visible and / or due to sensory perceptible and / or machine detectable texture on the substrate 02, in particular substrate 02, justify.
- Inks and printing inks are preferably solutions or dispersions of at least one colorant in at least one solvent. Suitable solvents include, for example, water and / or organic solvents.
- the pressure fluid may be formed as under UV light crosslinking pressure fluid.
- Inks are relatively low viscosity printing fluids and inks are relatively high viscosity printing fluids. Inks preferably have no binder or relatively little binder, while printing inks preferably contain a relatively large amount of binder and more preferably further auxiliaries. Colorants may be pigments and / or dyes, pigments being insoluble in the application medium, while dyes are used in the art
- Application medium are soluble.
- printing ink is to be understood in the preceding and in the following - if not explicitly distinguished and named accordingly - in the sense of an in The printing machine to be printed liquid or at least flowable color fluid be understood, not only in the colloquial rather associated with the term “ink” in conjunction higher-viscosity dyeing fluids for use in rotary printing machines, but in addition to these higher-viscosity color fluids in the
- low-viscosity color fluids such as "inks", in particular inkjet inks
- powdered color fluids such as toners
- colorless coatings meant when of printing fluids and / or inks and / or Preference is given in the preceding and below to means in particular also for a pretreatment (so-called priming or precoating) of the printing substrate 02, when mention is made of printing fluids and / or inks and / or printing inks
- Pressure fluid is the term of the coating agent synonymous to understand.
- a processing machine 01 is preferably designed as a printing press 01.
- the processing machine 01 is preferably designed as a sheet processing machine 01, that is, as a processing machine 01 for processing sheet-shaped substrate 02 or sheet 02, in particular sheet-shaped printing material 02. Die
- Processing machine 01 is further preferably designed as a corrugated board processing machine 01, ie as a processing machine 01 for processing
- the processing machine 01 is designed as a sheet-fed printing press 01, in particular as a corrugated cardboard printing machine 01, that is to say as a printing press 01 for coating and / or printing on
- the printing press 01 is designed as a non-impact printing press 01 and / or as a printing press 01 operating according to a printing-form-linked printing method.
- the printing machine 01 as a non-impact printing machine 01, in particular ink jet printing machine 01 and / or formed as a flexographic printing machine 01.
- the printing press has at least one flexo coating unit 400; 600; 800 on.
- the coating machine 01 preferably has at least one non-impact coating unit 400; 600; 800, in particular
- Substrates 02 in particular a printing material 02, especially of the sheet 02
- each substrate 02 which is present in two sections and in sections, that is to say also tabular or plate-shaped substrates 02, ie also sheets or plates, may be comprised.
- the arc-shaped substrate 02 or sheet 02 defined in this way is made of paper or cardboard, for example. H. formed as a sheet of paper or cardboard, or by sheet 02, panels or possibly plates made of plastic, cardboard, glass or metal.
- the substrate 02 is corrugated board 02, in particular corrugated board sheet 02.
- a thickness of a sheet 02 is preferably understood to mean a dimension orthogonal to a largest area of the sheet 02. This largest area is also called the main area.
- the thickness of the sheet 02 is, for example, at least 0.1 mm, more preferably at least 0.3 mm, and even more preferably at least 0.5 mm. Especially with corrugated board sheet 02 also significantly larger thicknesses are common, for example at least 4 mm or even 10 mm and more. Corrugated sheets 02 are comparatively stable and therefore not very flexible. Corresponding adjustments of the processing machine 01 therefore facilitate the processing of sheets 02 of great thickness.
- the processing machine 01 preferably has a plurality of units 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 on.
- Under an aggregate 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 is preferably to be understood in each case as meaning a group of devices which interact functionally, in particular in order to be able to carry out a preferably self-contained machining operation of sheet 02.
- module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 is in particular a respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or an assembly of several aggregates 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000, which preferably at least one transport means 1 1 1; 1 17; 1 19; 136; 21 1; 31 1; 41 1; 417; 51 1; 561; 61 1; 617; 71 1; 81 1; 817; 91 1; 101 1 and / or at least one own controllable and / or controllable drive M100; M200; M300; M400; M401; M500; M550; M600;
- M100; M200; M300; M400; M401; M500; M550; M600; M601; M700; M800; M801; M900; M1000 of an aggregate or module is in particular a drive M100; M200; M300; M400; M401; M500; M550; M600; M601; M700; M800; M801; M900; To understand M1000, which serves
- the drive controls and / or drive controllers of the individual units 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 are preferably individually and independently operable. Further preferred are the drive controls and / or
- circuit-technically interconnected and / or linkable such that a coordinated control and / or regulation of the drives M100; M200; M300; M400; M401; M500; M550; M600; M601; M700; M800; M801; M900; M1000 of several or all aggregates 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 and / or in particular modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the processing machine 01 is made and / or can be.
- the coordinated control and / or regulation of the drives M100; M200; M300; M400; M401; M500; M550; M600; M601; M700; M800; M801; M900; M1000 of several or all aggregates 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 and / or in particular modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the processing machine 01 is preferred by a machine control of
- Processing machine 01 made and / or monitored.
- Processing machine 01 is preferably carried out using at least one BUS system.
- the individual units 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 and / or in particular modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the processing machine 01 are therefore at least with respect to their drives M100; M200; M300; M400; M401; M500; M550; M600; M601; M700; M800; M801; M900; M1000 preferably operated in an electronically coordinated manner and / or operated, in particular by means of at least one electronic master axis.
- an electronic master axis is preferably specified, for example by a superordinate one
- Machine control uses, for example, components of a specific controller and / or a specific controller of a specific unit 100 for generating the electronic master axis; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 back.
- aggregates 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 and / or modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 designed so that it as a leading aggregate 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 and / or as a leading module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 are used, the remaining units 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 and / or modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 follow the operation of the processing machine 01 and / or are able to follow.
- the individual units 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 and / or in particular modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the processing machine 01 at least with respect to their drives M100; M200; M300; M400; M401; M500; M550; M600; M601; M700; M800; M801; M900; M1000, for example, mechanically synchronized with each other and / or synchronized.
- the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 has this respective aggregate 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 preferably at least one transfer means 03, which preferably serves to transport the sheet 02 between this respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 on the one hand and at least one other unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 and / or at least one other module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 on the other hand to support or perform.
- a sheet feeder unit 100 Under a transfer means 03 is preferably a means to understand that supports a transfer and / or performs. This also includes such means that accept sheet 02 and / or pass.
- the at least one transfer means 03 is designed as a front transfer means 03 and / or a processing area of the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 with respect to a transport direction T and / or in relation to the transport path provided for sheet 02 upstream.
- the at least one transfer means is as a rear one
- the at least one transfer means 03 is designed, for example, as a passive transfer means 03, for example as at least one support surface 03 and / or at least one support roller.
- the at least one transfer means 03 is designed as an active, in particular controlled and / or regulated, transfer means 03.
- the units are 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the processing machine 01 is preferably in each case characterized in that the by the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 fixed portion of the provided for sheet 02 transport path is at least substantially flat and more preferably completely flat.
- a substantially flat section of a transport path provided for sheet 02 is to be understood as meaning a section having a minimum radius of curvature which is at least 2 meters, more preferably at least 5 meters and even more preferably at least 10 meters and even more preferably at least 50 meters ,
- a completely flat section has an infinitely large radius of curvature and is therefore also substantially flat and thus also has a minimum radius of curvature which is at least 2 meters.
- the units are 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the processing machine 01 is preferably in each case characterized in that the by the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 fixed portion of the provided for sheet 02 transport path at least substantially horizontally and more preferably exclusively horizontally. This transport path preferably extends in the transport direction T.
- a substantially horizontally extending transport path provided for sheet 02 means, in particular, that the intended transport path in the entire area of the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 has one or more and / or exclusively directions which deviates at most by 30 °, preferably at most by 15 ° and more preferably by at most 5 ° from at least one horizontal direction.
- the direction of the transport path is in particular that direction in which the sheets 02 are transported at the point at which the direction is measured.
- the intended for bow 02 is
- Transport path preferably begins at a point of removal of the sheet 02 from an investor stack 104th
- the units are 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the processing machine 01 is preferably in each case characterized in that the by the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 fixed portion of a provided for sheet 02 transport path on a respective input height of the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 begins and / or at a respective initial height of the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100
- the input height and / or the output height is preferably one of Stand surface provided lower support surface of the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000, in particular in the vertical direction V.
- Standard height deviates by at most 5 cm, more preferably at most 1 cm and even more preferably by at most 2 mm and / or that the respective starting height of the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the same first
- Standard height deviates by at most 5 cm, more preferably at most 1 cm and even more preferably by at most 2 mm and / or that the respective input height of the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 from the respective initial height of the respective unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 at most 5 cm, more preferably at most 1 cm and even more preferably deviates by more than 2 mm.
- the processing machine 01 is characterized alternatively or additionally by having at least one coating unit 400; 600; 800 and / or non-impact coating unit 400; 600; 800 and / or printing unit 600 formed unit 400; 600; 800 and / or that it has the transport path for sheet 02 provided for transport and that at least for the at least one coating unit 400; 600; 800 and / or non-impact coating unit 400; 600; 800 and / or printing unit 600 is valid that a predetermined by this respective section of the provided for sheet 02 transport path a minimum Has a radius of curvature which is at least 2 meters and / or in the entire area of this coating unit 400; 600; 800 and / or Non Impact
- Coating unit 400; 600; 800 and / or printing unit 600 has a direction which deviates at most by 30 ° from at least one horizontal direction.
- the processing machine 01 is characterized alternatively or additionally by having a transport path for sheet 02 provided for transport and that for a plurality of the modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the sheet-fed printing machine 01, that a through the respective module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 specified respective portion of the transport path provided for sheet 02 has a minimum radius of curvature which is at least 2 meters and / or in the entire area of the respective module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 has a direction which deviates at most by 30 ° from at least one horizontal direction.
- the processing machine 01 preferably has at least one
- Aggregate 100 in particular sheet feeder unit 100, which is further preferably designed as a module 100, in particular as a sheet feeder module 100.
- the processing machine 01 preferably has at least one
- Conditioning device 200; 550 formed aggregate 200; 550, in particular conditioning unit 200; 550, which is further preferred as module 200; 550, in particular as a conditioning module 200; 550 is formed.
- Conditioning device 200; 550 is designed, for example, as a preparation device 200 or as an after-treatment device 550.
- the processing machine 01 preferably has at least one unit 200 designed as a preparation device 200, in particular a preparation unit 200, which is further preferably designed as a module 200, in particular as a preparation module 200, and a Conditioning device 200 represents.
- the processing machine 01 preferably has at least one aggregate 550, in particular aftertreatment unit 550, which is designed as a post-treatment device 550, which is further preferably designed as a module 550, in particular as a post-treatment module 550, and a
- Conditioning device 550 represents.
- the processing machine 01 preferably has at least one unit 300 embodied as an abutment device 300, in particular an abutment unit 300, which is further preferably designed as a module 300, in particular as an abutment module 300.
- the at least one contact device 300 is alternatively formed as part of the substrate supply device 100.
- the processing machine 01 preferably has at least one
- the at least one coating unit 400; 600; 800 is arranged and / or constructed depending on the function and / or coating method. That at least one
- Coating unit 400; 600; 800 is preferably used to apply at least one respective coating agent over the entire surface and / or part of the area to the sheets 02.
- An example of a coating unit 400; 600; 800 is a primer 400, which in particular serves to apply primer to sheet 02.
- Another example of a coating unit 400; 600; 800 is a printing unit 600, which in particular serves to apply printing ink and / or ink to sheet 02.
- Another example of a coating unit 400; 600; 800 is a
- Paint unit 800 which in particular serves to apply paint to sheet 02.
- An example of a coating unit 400; 600; 800 is a shape-based coating aggregate 400; 600; 800, which in particular has at least one fixed and preferably replaceable printing form. Mold-based coating units 400; 600; 800 work preferably after one
- the coating unit 400; 600; 800 is then correspondingly, for example, a flexo coating unit 400; 600; 800, in particular flexo coating module 400; 600; 800.
- a coating unit 400; 600; 800 is a pressure-formless or non-impact
- Coating unit 400; 600; 800 which works in particular without a fixed printing plate.
- Die-casting or non-impact coating units 400; 600; 800 operate, for example, according to an ionographic method and / or a magnetographic method and / or a thermographic method and / or electrophotography and / or laser printing and / or particularly preferably according to one
- the coating unit 400; 600; 800 is then correspondingly, for example, an ink jet coating unit 400; 600; 800, in particular ink-jet coating module 400; 600; 800th
- the processing machine 01 preferably has at least one unit 400, in particular a primer unit 400, which is also designed as a primer 400, also called primer unit 400, which is further preferably designed as a module 400, in particular as a primer module 400.
- the processing machine 01 preferably has at least one unit 500 designed as a drying device 500, in particular a drying unit 500, which is further preferably designed as a module 500, in particular as a drying module 500.
- At least one drying device 506 Component of at least one preferred as a module 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 trained aggregate 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000th
- the processing machine 01 preferably has at least one unit 600 designed as a printing unit 600, which is further preferably designed as a module 600, in particular as a printing module 600.
- the processing machine 01 preferably has at least one unit 700 which is designed as a transport device 700 or transport means 700, in particular
- Transporting unit 700 which is further preferably designed as a module 700, in particular as a transport module 700.
- the processing machine 01 points
- Transport devices 700 for example, or alternatively as components of other units 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 and / or modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 on.
- the processing machine 01 preferably has at least one unit 800 designed as a coating device 800, also called a coating unit 800, in particular
- Paint unit 800 which is further preferably designed as a module 800, in particular as a painting module 800.
- the processing machine 01 preferably has at least one unit 900 designed as a shaping device 900, in particular a shaping unit 900, which is further preferably designed as a module 900, in particular as a shaping module 900.
- the processing machine 01 preferably has at least one
- the processing machine 01 has, for example, at least one
- Further processing unit which is further preferably designed as a module, in particular as a further processing module.
- the transport direction T provided in particular for a transport of sheets 02 is a direction T, which is preferably at least substantially and more preferably oriented completely horizontally and / or which is preferably from a first aggregate 100; 200; 300; 400; 500; 550; 600; 700; 800; 900 of the processing machine 01 to a last unit 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the
- Processing machine 01 has, in particular from a sheet feeder unit 100 or a Substratzufufhr responded 100 on the one hand to a delivery unit 1000 or a Substratabgabe listening 1000 on the other hand, and / or preferably in a direction points, in which the sheet 02 apart from vertical movements or vertical components of movements is transported, in particular by a first contact with a sub-assembly 200 downstream subunit 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the processing machine 01 or first contact with the processing machine 01 up to a last contact with the processing machine 01.
- the investment device 300 is a separate aggregate 300 or module 300 or part of the
- Substrate feed device 100 the transport direction T is preferably the one
- Investment device 300 is oriented to the substrate delivery device 1000.
- Coating unit 400; 600; 800 is preferably a dimension which is preferably orthogonal to the intended transport path of the sheet 02 through the at least one Coating unit 400; 600; 800 extends, more preferably in a transverse direction A.
- the transverse direction A is preferably a horizontal direction A. Die
- Transverse direction A is orthogonal to the intended transport direction T, the sheet 02 and / or orthogonal to the intended transport path of the sheet 02 by the at least one coating unit 400; 600; 800 oriented.
- the working width of the processing machine 01 preferably corresponds to a maximum width, which may have a sheet 02 in order to be processed with the processing machine 01 can, so in particular a maximum processable with the printing press 01
- the working width of the processing machine 01 preferably corresponds to the working width of the at least one coating unit 400; 600; 800, in particular printing unit 600.
- the transverse direction A is preferably parallel to an axis of rotation of at least part of a transport means 411; 417; 611; 617; 811; 817 a coating unit 400; 600; 800 oriented.
- the working width of the sheet processing machine 01 is preferably at least 100 cm, more preferably at least 150 cm, even more preferably at least 160 cm, even more preferably at least 200 cm and even more preferably at least 250 cm.
- the processing machine 01 preferably has one or more locations
- Transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 preferably as suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 are formed, in particular as a suction belt 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 and / or as Saugkastenband 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 and / or as a roller suction system 111; 117; 119; 136; 211; 311
- Such suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 are preferably used to move bow 02 controlled forward.
- a relative negative pressure is preferably used in order to pull and / or press the sheets 02 against at least one transport surface 718 and a transport movement of the sheets 02 is preferably generated by a corresponding, in particular circumferential, movement of the at least one transport surface 718.
- the negative pressure is in particular a negative pressure relative to an ambient pressure, in particular relative to an atmospheric pressure.
- a suction transporting means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is therefore preferably a device to understand, which has at least one movable transport surface 718, in particular as
- Counter-pressure surface 718 is used and, for example, at least partially at least in the transport direction T is movable.
- the suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 at least one vacuum chamber 719, which is connected by means of a suction line 721 with at least one vacuum source 733.
- the vacuum source 733 has, for example, a fan 733.
- the at least one vacuum chamber 719 has at least one suction opening 722, which serves to suck in the sheets 02.
- the sheets 02 are sucked into a closing position which closes at least one suction opening 722 or merely sucked against a counterpressure surface 718 in such a way that ambient air can pass the sheet 02 into the suction opening 722.
- a closing position which closes at least one suction opening 722 or merely sucked against a counterpressure surface 718 in such a way that ambient air can pass the sheet 02 into the suction opening 722.
- Transport surface 718 one or more suction ports 723 on.
- the suction openings 723 serve preferably to a negative pressure from the suction port 722 of
- acts the suction opening 722 on the sheet 02, that it is sucked against the transport surface 718, without the transport surface 718 would have intake ports 723.
- at least one deflection 724 is arranged, which provides directly or indirectly for a circumferential movement of the at least one transport surface 718. This is preferably at least one deflecting means 724 and / or the transporting surface 718 itself
- a first embodiment of a suction transport means 1 1 1; 1 17; 1 19; 136; 21 1; 31 1; 41 1; 417; 51 1; 561; 61 1; 617; 71 1; 81 1; 817; 91 1; 101 1 is a suction belt 1 1 1; 1 17; 1 19; 136; 21 1; 31 1; 41 1; 417; 51 1; 561; 61 1; 617; 71 1; 81 1; 817; 91 1; 101 1.
- Conveyor belt 718; 726 which serves as a transport surface 718.
- the at least one conveyor belt 718; 726 is preferred by as pulleys 724 and / or
- Conveyor belt 718; 726 preferably has a plurality of suction openings 723.
- the at least one conveyor belt 718; 726 preferably covers in at least a portion of its circulation path the at least one suction port 722 of the at least one
- Vacuum chamber 719 More preferably, the vacuum chamber 719 is then only through the intake ports 723 of the at least one conveyor belt 718; 726 connected to an environment and / or arc 02.
- support means are arranged, which prevent the at least one conveyor belt 718; 726 is pulled too far or even into the vacuum chamber 719 and / or ensure that the
- Transporting surface 718 assumes a desired shape, for example, such that it forms a flat surface at least in the region in which their suction ports 723 are connected to the vacuum chamber 719.
- a circumferential movement of the at least one conveyor belt 718 then results in a forward movement of the Transport surface 718, said sheet 02 are held securely in the area on the transport surface 718, in which they by the at least one
- a second embodiment of a suction transport 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is a suction box belt 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011.
- Under a suction box belt 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is to be understood as a device which has a plurality of
- the suction boxes 718; 727 preferably each have at least one suction chamber 728.
- the respective suction chamber 728 is preferably open in one direction through at least one flow opening 729 to the outside. This at least one flow opening 729 preferably serves to forward a negative pressure from the vacuum chamber 719 into the respective suction chamber 728.
- the at least one flow opening 729 is, for example, arranged laterally or arranged such that it points at least temporarily in or against a vertical direction V.
- the suction boxes 718; 727 preferably each have a plurality of suction openings 723.
- the suction boxes 718; 727 are preferably formed relatively stiff in itself.
- Suction boxes 718; 723 are preferably flexibly connected to one another, in particular via at least one connecting means 731.
- the at least one connecting means 731 is designed for example as a traction means 731, in particular belt 731 or belt 731, more preferably as a completely circulating and / or endless connecting means 731.
- all suction boxes 718 ; 727 at least one same
- the at least one suction box belt 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is preferably deflected by deflecting means 724 formed as deflecting rollers 724 and / or deflecting rollers 724 and is preferably self-contained so that an endless circulation is possible.
- the deflecting means 724 interact directly with the traction means 731 and / or drive it.
- the suction boxes 718; 727 each have a flat transport surface 718, so that several suction boxes in a row corresponding to a larger plane
- a third embodiment of a suction conveyor 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is a roller suction system 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011.
- a roller suction system 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is a device in which the at least one transport surface 718 is formed from at least parts of lateral surfaces 718 of a multiplicity of transport rollers 724 and / or transport rollers 724.
- the transport rollers 724 and / or transport rollers 724 thus each form closed and rotating parts of the transport surface 718.
- the roller suction system 1 1 1; 1 17; 1 19; 136; 21 1; 31 1; 41 1; 417; 51 1; 561; 61 1; 617; 71 1; 81 1; 817; 91 1; 101 1 preferably has a plurality of suction openings 722. These suction openings 722 are preferably arranged at least between adjacent transport rollers 724 and / or transport rollers 724.
- At least one cover mask 734 is arranged, which preferably represents a boundary of the vacuum chamber 719.
- the mask 734 preferably has the plurality of suction ports 722.
- the mask 734 preferably forms a substantially flat surface.
- Transport rollers 724 arranged such that they are cut from this flat surface and further preferably only to a small extent, for example, only a few millimeters protrude above this flat surface, in particular in one of the
- the suction openings 722 are then preferably in the shape of a frame and each surround at least one of the
- Transport rollers 724 and / or transport rollers 724 are then, for example, in addition to separate the transport rollers 724 and / or transport rollers 724.
- some or all of the transport rollers 724 and / or transport rollers 724 extend through openings of the mask 734 that are not connected to the vacuum chamber 719. Such openings are then, for example, in addition to separate
- Transport surface 718 are held, in which they the suction port 722
- roller suction systems 1 1 1; 1 17; 1 19; 136; 21 1; 31 1; 41 1; 417; 51 1; 561; 61 1; 617; 71 1; 81 1; 817; 91 1; 101 1 is for example a high one
- a fourth embodiment of a suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is at least one suction roller 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011.
- a suction roller 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is to be understood a role whose lateral surface serves as a transport surface 718 and a plurality of suction ports 723 and which has in its interior at least one vacuum chamber 719, for example by means of a
- Suction line 721 is connected to at least one negative pressure source 733.
- At least one cleaning device is arranged, which is a cleaning of the respective transport surface 718 of the respective suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 serves.
- this cleaning device is designed as a suction device and / or blowing device and / or as a stripping device and / or preferably serves for a removal of
- the cleaning device is, for example, on a side facing away from the sheet 02 for transport path of the
- the sheet processing machine 01 is characterized in that at least one cleaning device for cleaning at least one transport means 111; 117; 119 of the substrate supply device 100 is arranged and / or that at least one cleaning device for cleaning at least one transport means 411; 417; 611; 617; 811; 817 a coating unit 400; 600; 800, in particular one Non Impact Coating Unit 400; 600; 800 is arranged and / or that at least one cleaning device for cleaning at least one transport means 211 of the preparation device 200 is arranged and / or that at least one cleaning device for cleaning at least one transport means 561 of
- Aftertreatment device 550 is arranged and / or that at least one
- Transport device 700 is arranged and / or that at least one
- Shaping 900 is arranged and / or that at least one
- Substrate discharging device 1000 is arranged.
- respective suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 are at least two arrangements of the respective suction transport means 111 described below; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 possible.
- a first arrangement is one of the respective suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 fixed portion of the provided for sheet 02 transport path below the particular movable transport surface 718, which serves in particular as counter-pressure surface 718 and, for example, at least partially at least in the transport direction T is movable.
- the respective suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 then as upper suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011, whose suction openings 722 or suction openings 723, at least during their connection to the at least one vacuum chamber 719, preferably have at least or only downwards and / or whose suction effect is preferably directed at least or only upwards.
- the bows 02 are then from the suction transporting means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 transported hanging.
- a second arrangement is one of the respective suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 defined portion of the provided for sheet 02 transport path above the particular movable transport surface 718, which serves in particular as a counter-pressure surface 718 and, for example, at least partially at least in the transport direction T is movable.
- the respective suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 then as lower suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 whose suction openings 722 or suction openings 723, at least during their connection to the at least one vacuum chamber 719, preferably have at least or only upwards and / or whose suction effect is preferably directed at least or only downwards.
- the sheets 02 are then from the suction conveyor 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 lying transported.
- suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 as upper or lower suction transporting means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 depends, for example, whether in a preceding and / or in a following unit 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 an upper or a lower main surface of the sheet 02 has been processed and / or should be.
- Suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 or from a lower suction conveyor 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 on an upper one Suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 can be formed, for example, by the fact that the transport path provided for sheet 02 is at least in a partial area both from a lower
- Suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 as well as an upper suction conveyor 111; 117 is limited. That suction transporting means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011, the Einwirk Scheme seen in the transport direction T ends later then decides whether the sheet 02 are transported hanging or lying after the transfer point.
- the suction openings 722 and / or the suction openings 723 are preferably chosen to be so small that a volume passing through them will be very small, even if they are not covered by a sheet 02. Then can be dispensed with an adaptation to the width of the sheet 02.
- suction transport means 111 follow; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011.
- These embodiments are particularly advantageous and preferred in accordance with the first embodiment as the respective suction belt 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 formed suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011.
- suction transport means 111 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011.
- the sheet-fed printing machine 01 preferably has at least one suction belt 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 formed suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 on.
- This at least one suction transport 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 preferably has at least one in particular flexible conveyor belt 718; 726, with at least one transport section of its circulation path parallel to the
- Transport path extends, in particular over a transport length extends.
- the at least one conveyor belt 718; 726 preferably has a plurality of
- a separation is to be understood in particular a fluidic separation. This separation is preferably complete, in particular such that a connection only at most via lines connected to a vacuum source 733 and / or through the suction openings 723 of the conveyor belt 718; 726 and an ambient atmosphere is present.
- a respective conveyor belt 718; 726 a plurality of vacuum chambers 719 are assigned, which in the transport direction T successively influence different areas. In particular, this is to be distinguished from an arrangement of a plurality of at least partially successively arranged conveyor belts.
- the negative pressure is transmitted substantially only through those intake openings 723, which are in communication with the respective vacuum chamber 719.
- Unlike a large vacuum chamber 719 may be several small
- vacuum chambers 719 act individually and in particular individually closed to an environment at least partially closed. This closure takes place on the one hand by the conveyor belt 718; 726 itself and on the other hand by those components of sheet 02, the corresponding intake openings 723 cover. If too small a proportion of the intake ports 723 is covered, the negative pressure is reduced by inflowing ambient air. This could lead to the sheets 02 no longer being held adequately. This danger is small bow 02 and / or large distances between sheet 02 and / or a first sheet 02 and / or a last sheet 02. By dividing into a plurality of vacuum chambers 719 along the transport section is taken to ensure that not in all areas of At the same time can greatly reduce negative pressure.
- each intake opening 723 has a larger proportion of a total number of the intake openings 723 just assigned to the respective vacuum chamber 719. Therefore, a relatively small number of sealed suction ports 723 is sufficient to reduce the negative pressure in the respective one
- Suction of the suction transport 1 1 1; 1 17; 1 19; 136; 21 1; 31 1; 41 1; 417; 51 1; 561; 61 1; 617; 71 1; 81 1; 817; 91 1; 101 1 vary along the transport direction T.
- pump power and thus energy can be saved.
- the individual vacuum chambers 719 are individually with negative pressure
- the processing machine 01 which is preferably designed as a sheet-fed printing press 01, is therefore preferably characterized in that at least a first of these at least two vacuum chambers 719 arranged one behind the other via at least one in particular first
- Suction line 721 is connected to at least one first vacuum source 733 and / or arranged connectable. Furthermore, at least one other, in particular second, of these at least two vacuum chambers 719 arranged one behind the other is preferably connected and / or connectable via at least one suction line 721, in particular another and / or second suction line 721 to at least or exactly one other, in particular second vacuum source 733. More preferably, this at least one other of these at least two successively arranged vacuum chambers 719 connected via the at least one suction line 721 exclusively with the at least one other, in particular second vacuum source 733 and / or arranged connectable.
- Suction line or first or second vacuum source 733 etc. here serves only the Distinctness and does not affect an order or arrangement of these components.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least one first of these, arranged at least two in succession
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least a second of these at least two vacuum chambers 719 arranged one behind the other via at least one in particular second suction line 721 and at least one second controllable and / or controllable valve 737 with the at least one first
- Vacuum source 733 connected and / or arranged connectable. Then, a vacuum source 733 can be used for a plurality of vacuum chambers 719 and an expenditure on equipment can be kept as low as possible.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least one other and / or second thereof arrange at least two consecutively
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized by that along the transport section of the at least one conveyor belt 718; 726 at least one coating station 409; 609; 809 at least one
- Coating unit 400; 600; 800 of the sheet printing machine 01 is arranged.
- For a particularly high print quality is possible because a particularly secure position of the sheet 02 even at small bow 02 and / or large distances between sheet 02 and / or a first sheet 02 and / or a last sheet 02 can be reached.
- Further preferred are along the transport section of the at least one conveyor belt 718; 726 at least two, even more preferably at least three and even more preferably at least four coating sites 409; 609; 809 at least one
- Conveyor belts 718; 726 arranged at least one drying device 500 and / or at least one drying device 506 of the sheet printing machine 01.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least two, preferably at least three, more preferably at least five, and even more preferably at least seven vacuum chambers 719 which are separate from one another and / or separable with respect to the transverse direction A. are arranged side by side, each having at least one suction opening 722, each of at least one conveyor belt 718; 726 of the suction transport means 1 1 1; 1 17; 1 19; 136; 21 1; 31 1; 41 1; 417; 51 1; 561; 61 1; 617; 71 1; 81 1; 817; 91 1; 101 1 are arranged at least partially covered.
- These are for example a plurality of conveyor belts 781; 726 or preferably a common conveyor belt 718; 726.
- the sheet-fed printing machine 01 is characterized in that at least one of these at least two side by side
- vacuum chambers 719 via at least one suction line 721 connected to at least one vacuum source 733 and / or is arranged connectable and at least one other arranged at least two of these side by side Vacuum chambers 719 connected via at least one other suction line 721 in particular exclusively with another vacuum source 733 and / or arranged connectable.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least one first of these, arranged at least two side by side
- the preferably designed as a sheet-fed press 01 processing machine 01 is preferably characterized in that at least one of these at least two juxtaposed vacuum chambers 719 via at least one suction line 721 and at least one other controllable and / or controllable valve 737 with this at least one
- Vacuum source 733 connected and / or arranged connectable.
- the sheet-fed printing press 01 is preferably characterized in that at least one other of these at least two arranged side by side
- the processing machine 01 which is preferably in the form of a sheet-fed printing machine 01, is preferably characterized in that at least two, more preferably at least three, even more preferably at least five and even more preferably at least seven are separated and / or separable with respect to the transverse direction A.
- Vacuum chambers 719 are arranged side by side, their pairwise relative to the transport direction T relative position to partially overlap and partially differ. Vacuum chambers 719 arranged in this way are also called negative pressure chambers 719 arranged offset in the transporting direction T.
- By in the transport direction T offset from each other arranged vacuum chambers 719 bow 02 can still better relative to the conveyor belt 718; 726 are held.
- an arc 02 may at the same time remain in the effective range of another vacuum chamber 719 during an inlet into an effective region of a next vacuum chamber 719 or in the case of an outlet from an effective region of a previous vacuum chamber 719.
- sheet-fed printing machine 01 is additionally distinguished by the fact that at least one of these at least two vacuum chambers 719 arranged offset from one another in the transport direction T has at least one
- Suction line 721 is connected to at least one negative pressure source 733 and / or arranged connectable and at least one other of these at least two in
- Transport direction T mutually offset vacuum chambers 719 connected via at least one other suction line 721 in particular exclusively with another vacuum source 733 connected and / or arranged connectable.
- the preferably designed as a sheet-fed press 01 processing machine 01 is preferably characterized in that at least a first of these at least two mutually offset in the transport direction T vacuum chambers 719 via at least one suction line 721 and at least one controllable and / or controllable valve 737th is connected to at least one vacuum source 733 and / or arranged connectable.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least one other of these at least two vacuum chambers 719 arranged offset from one another in the transport direction T via at least one suction line 721 and at least one another controllable and / or controllable valve 737 with this at least one
- Vacuum source 733 connected and / or arranged connectable is preferably connected and / or arranged connectable.
- the preferably designed as a sheet-fed press 01 processing machine 01 is preferably characterized in that at least one of these at least two mutually offset in the transport direction T vacuum chambers 719 via at least one suction line 721 and at least one other controllable and / or controllable valve 737 insbesondre exclusively connected to another vacuum source 733 and / or is arranged connectable.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least one of a vacuum chamber 719 or a suction line 721
- Sheet press 01 trained sheet processing machine 01 is in communication, which also has access to data on a position of at least one sheet 02 and / or data to a rotational position of at least one participating in the transport of at least one arc 02 drive.
- the preferably designed as a sheet-fed press 01 processing machine 01 is preferably characterized in that at least one of a vacuum chamber 719 or a suction line 721 associated vacuum source 733 with a machine control of particular designed as a sheet-fed press 01 sheet processing machine
- At least two, more preferably at least three, even more preferably at least five, and even more preferably at least ten vacuum chambers 719, each separated and / or separable with respect to the transport direction T, are arranged one behind the other along the transport path provided for sheet 02, each having at least one suction opening 722 have.
- the at least one conveyor belt 718 covers; 726 in his
- Transport section of its circulation path in each case at least one suction opening 722 more and more preferably all of these successively arranged vacuum chambers 719 at least partially.
- the method is characterized in particular by the fact that a respective underpressure of the at least two vacuum chambers 719 arranged one behind the other is individually and temporally varied depending on at least such data which characterize a position of the at least one sheet 02 along the transport section, in particular along the Transport portion of the circulation path of the at least one conveyor belt 718; 726th
- the method is characterized in that the at least one sheet 02 is characterized by negative pressure against a transport surface of a particularly flexible conveyor belt 718 provided with suction openings 723; 726 of the suction transport 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is pulled.
- the negative pressure is preferably determined by a difference between an ambient pressure on the one hand and a pressure within a respective one
- Vacuum chamber 719, the suction port 722 of the conveyor belt 718; 726 is at least partially covered, on the other hand.
- the method is characterized in that the at least one arc 02 in at least one
- Coating unit 400; 600; 800 of the sheet printing machine 01 is coated while using this as a suction belt 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 formed suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is transported.
- the method is characterized in that the at least one sheet 02 is printed in at least one printing unit 600 of the sheet printing machine 01, while using this as the suction belt 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 formed suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 is transported.
- the processing machine 01 which is designed in particular as a sheet-fed printing machine 01, preferably has the at least one transport belt 718; 726, which further preferably extends with at least one transport section of its circulation path parallel to the transport direction T along a partial region of the transport path provided for sheet 02.
- the transverse direction A only exactly one conveyor belt 718 is preferred; 726 arranged. Seen in the transport direction T, several conveyor belts can be arranged one behind the other and form different regions of the transport path provided for sheet 02.
- the at least one conveyor belt 718; 726 is not necessarily, but preferably as a conveyor belt 718; 726 one as a suction belt 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 formed suction transport means 111; 117; 119; 136; 211; 311; 411; 417; 511; 561; 611; 617; 711; 811; 817; 911; 1011 formed the sheet-fed press 01, wherein in particular this at least one suction transport means 1 1 1; 1 17; 1 19; 136; 21 1; 31 1; 41 1; 417; 51 1; 561; 61 1; 617; 71 1; 81 1; 817; 91 1; 101 1 that at least one
- Conveyor belt 718; 726 has.
- the at least one conveyor belt 718; 726 as described a plurality of suction ports 723 on.
- the preferred trained as a sheet-fed press 01 is characterized
- Processing machine 01 preferably characterized in that along the transport section of the at least one conveyor belt 718; 726 at least one coating station 409; 609; 809 at least one coating unit 400; 600; 800 of the
- Sheetfed press 01 is arranged. Further preferred are along the
- Transport portion of the at least one conveyor belt 718; 726 at least two, even more preferably at least three and even more preferably at least four
- Coating sites 409; 609; 809 at least one coating unit 400; 600; 800 of the sheet printing machine 01 arranged. For example, along the
- the processing machine 01 which is preferably in the form of a sheet-fed printing machine 01, is preferably characterized in that at least one belt alignment means 738 of the at least one conveyor belt 718; 726 with the at least one conveyor belt 718; 726 is arranged in contact and further preferred that by adjusting a position of the at least one
- Bandausrichtstoffs 738 relative to at least one particular stationary frame 427; 431; 508; 627; 631; 827; 831; 744 of the sheet-fed printing press 01 a position of the at least one conveyor belt 718; 7126 with respect to the transverse direction A can be influenced.
- a long-term drift of the at least one conveyor belt 718; 726 with respect to the transverse direction A at least partially and preferably completely compensated, in particular during this at least conveyor belt 718; 726 is moved to transport sheet 02.
- the at least one tape alignment means 738 is at least one
- Bandausrichtwalze 738 formed, more preferably as at least one
- Bandausrichtwalze 738 whose axis of rotation 742 is changeable in their orientation.
- an angle between the axis of rotation 742 of this band alignment roller 738 on the one hand and the axial direction A on the other hand changes, in particular with regard to its magnitude and / or its position in space.
- the at least one band-alignment means 738 is pivotable about an alignment axis whose direction has at least one component oriented orthogonally to the transverse direction A.
- the example of such a Bandausrichtwalze 738 shows the operation of the Bandausrichtstoffs 738.
- Belt alignment roller 738 must have different parts of the conveyor belt 718; 726 depending on their on the transverse direction A related position different lengths cover distances for a total circulation of the at least one conveyor belt 728.
- the at least one conveyor belt 738 experiences a force acting with respect to the transverse direction A and is moved in the course of its circulating movement correspondingly with respect to the transverse direction A.
- This controlled movement is preferably generated only to previously and / or otherwise occurring unwanted movements with respect to
- the preferably designed as a sheet-fed press 01 processing machine 01 is preferably characterized in that the at least one Bandausrichtstoff 738 at least one radial bearing 739, the axis of rotation 742 at least with respect to a compensation direction W at least relative to at least one particular stationary frame 427; 431; 508; 627; 631; 827; 831; 744 of the sheet printing machine 01 is displaced.
- the at least one radial bearing 739 is linearly displaceable at least in and / or counter to the compensation direction W.
- at least one such radial bearing 739 is at least one rotation of the at least one belt alignment roller 738 about its axis of rotation 742 enabling radial bearing 739. More preferably, the at least one
- Bandausrichtstoff 738 at least two spaced in the transverse direction A radial bearings 739, whose axes of rotation 742 at least with respect to a
- Balancing direction W at least relative to each other and / or independently of each other and / or relative to at least one particular stationary frame 427; 431; 508; 627; 631; 827; 831; 744 of the sheet printing machine 01 are arranged displaceably.
- the at least two radial bearings 739 at least in and / or against the balancing direction W linearly displaceable.
- Balancing direction W are movable.
- exactly one strip alignment means 738 designed in particular as a band-alignment roller 738, is arranged, and the at least two radial bearings 739 are both the same
- the processing machine 01 which is preferably designed as a sheet-fed printing press 01, is preferably characterized in that a reference plane has a normal vector which is parallel to the
- Transverse direction A is oriented and a Ausretetangente 743 a tangent 743 to a Bermmabrough a section line of the at least one conveyor belt 718; 726 with the reference plane and the contact portion is such a portion in which contact between the at least one conveyor belt 718; 726 on the one hand and the at least one band alignment means 738 on the other hand and the compensation direction W is oriented parallel to the Ausretetangente 743. Then, the position of the at least one conveyor belt 718; 726 are particularly precisely influenced, in particular without a tension of the at least one
- Conveyor belts 718; 726 unnecessarily strong influence. More preferably, the runs Balancing direction W parallel to an angle bisector between an inlet direction on the one hand, in the components of at least one conveyor belt 718; 726 move when they reach the at least one band alignment means 738 and / or in which an incoming part of the at least one conveyor belt 718; 726 extends, and a discharge direction on the other hand, in the components of at least one
- Conveyor belts 718; 726 move when they leave the at least one Bandausrichtstoff 738 and / or in which an expiring part of the at least one
- Conveyor belts 718; 726 extends.
- a deflection angle is preferably the angle by which the conveyor belt 718; 726 is deflected between a first and a last contact with the at least one Bandausrichtstoff 738.
- the deflection angle is at most 180 °, more preferably at most 120 °, even more preferably at most 90 ° and even more preferably at most 60 °.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one belt alignment means 738 has at least one alignment drive 741.
- the at least one band-alignment means 738 is designed to be controllable and / or regulatable by means of a computing device, wherein these
- the at least one alignment drive 741 is designed as an electric motor 741 and / or as a pneumatic cylinder 741 and / or as a hydraulic cylinder 741 and / or as a linear drive 741.
- at least one sensor is arranged so as to have a position of the at least one conveyor belt 716; 726 to capture. Signals of this at least one sensor can then, for example, provided to an operator and / or used to control and / or control the at least one alignment drive 741.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one belt alignment means 738 exclusively with a lower side of the at least one conveyor belt 718; 726 is arranged in contact and this underside of a provided for a contact with sheet 02 transport surface 718 of the at least one conveyor belt 718; 726 opposite surface of the at least one conveyor belt 718; 726 is. This ensures that only the forces caused by different lengths of travel act and preferably abrasion on a lateral edge of the at least one conveyor belt 718; 726 is largely avoided.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least one tensioning means 736 is provided for setting and / or maintaining a particular mechanical tension of the conveyor belt 718; 726, in particular of the suction belt 718; 726 is arranged and in particular with this conveyor belt 718; 726 is arranged in contact.
- a clamping means 736 for example, at least one guide roller 736 is arranged, whose axis of rotation is arranged to be displaceable.
- the at least one tensioning means 736 is displaceable in and / or counter to at least one tensioning direction. For example, all with the at least one conveyor belt 718; 726 arranged in contact components of at least one clamping means 736 arranged to be linearly movable together.
- the at least one tensioning means 736 has at least two bearings, in particular radial bearings, which are arranged to be movable parallel to one another orthogonal to the transverse direction A.
- at least one tensioning drive is arranged, by means of which the at least one tensioning means 736 can be displaced.
- the at least one Clamping drive is, for example, as at least electric motor and / or as at least one hydraulic cylinder and / or as at least one pneumatic cylinder and / or as
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the sheet-fed printing machine 01 has at least one non-impact coating unit 400; 600; 800 trained coating unit 400; 600; 800 and the sheet-fed press 01 at least one conveyor belt 718; 726, with at least one transport section of its circulation path parallel to a
- Transport path extends and along the transport portion of the at least one conveyor belt 718; 726 at least one in particular by at least one printhead 416; 616; 816 fixed coating site 409; 609; 809 at least one
- Coating unit 400; 600; 800 of the sheet printing machine 01 is arranged.
- the at least one coating unit 400; 600; 800 thus preferably has at least one print head 416; 616; 816 on.
- This compound is for example direct, but preferably indirect.
- the at least one printhead 416; 616; 816 via at least one positioning device 426; 626; 826 and / or at least one other component with the at least one first frame 427; 627; 827 connected.
- the first frame 427; 627; 827 is preferably the frame 427; 627; 827 of the Coating unit 400; 600; 800 or coating module 400; 600; 800.
- the first rack 427; 627; 827 preferably has at least two side walls 428 spaced from one another, in particular with respect to the transverse direction A; 628; 828 on. More preferably, the at least one printhead 416; 616; 816, in the transverse direction A, between the at least two side walls 428; 628; 828 of the first frame 427; 627; 827 arranged.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one conveyor belt 718; 726 via at least one deflection means 724 and at least one radial bearing with at least one second frame 431; 508; 631; 831; 744 is connected, more preferably with at least one side support 432; 632; 832 of the second frame 431; 508; 631; 831; 744 and even more preferably with at least two side supports 432; 632; 832 of the second frame 431; 508; 631; 831; 744.
- the second frame 431; 508; 631; 831; 744 is, for example, a frame 431; 508; 631; 831; 744 of another unit 500; 700 or module 500; 700, for example, a drying unit 500 or a drying module 500 or a
- Transport Aggregate 700 or transport module 700 The second frame 431; 508; 631; 831; 744 is alternatively, for example, a second frame 431; 631; 831 and / or
- the second frame 431; 508; 631; 831; 744 preferably has at least two side supports 432, which are spaced apart from one another, in particular with respect to the transverse direction A; 632; 832 on. More preferably, this is at least one conveyor belt 718; 726 relative to the transverse direction A at least partially between the at least two side supports 432; 632; 832 of the second frame 431; 508; 631; 831; 744 arranged.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one first frame 427; 627; 827 apart from at least one of the at least one first frame 427; 627; 827 and the at least one second frame 431; 508; 631; 831; 744 different footprint at most flexible connections to the second frame 431; 508; 631; 831; 744 in contact, that is connected, is arranged.
- this at least one footprint is preferably a footprint below the at least one coating unit 400; 600; 800 and / or below the sheet-fed printing machine 01 and / or below the at least one first frame 427; 627; 827 and / or below the at least one second frame 431; 508; 631; 831; 744. That means in particular that this is at least one
- Conveyor belt 718; 726 although the coating module 400; 600; 800 or
- Coating unit 400; 600; 800 is assignable, but still preferred by the second frame 431; 508; 631; 831; 744 and from the first frame 427; 627; 827 is so far arranged mechanically decoupled.
- the at least one set-up surface is preferably at least one surface, which acts as a bottom-up support surface and / or the at least one coating unit 400; 600; 800 and / or the sheet-fed printing machine 01 and / or the at least one first frame 427; 627; 827 and / or the at least one second frame 431; 508; 631; 831; 744 carries.
- the at least one footprint is, for example, a floor of a building or a component of a sufficiently stable and low-vibration substructure.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the second frame 431; 508; 631; 831; 744 at least two, in particular with respect to the transverse direction A spaced from each other side supports 432; 632; 832 and that the at least one conveyor belt 718; 726 relative to the transverse direction A at least partially between the at least two side supports 432; 632; 832 of the second frame 431; 508; 631; 831; 744 is arranged and / or at least one of at least two side supports 432; 632; 832 via at least one cross member 746 of the second frame 431; 508; 631; 831; 744 with at least one other of the at least two side supports 432; 632; 832 of the second frame 431; 508; 631; 831; 744 is arranged connected.
- Such trusses 746 of the second frame 431; 508; 631; 831; 744 serve in particular the second frame 431; 508; 631; 831; Stabilize 744. Preferably, they are designed for optimized stability and therefore in different relations to the at least one conveyor belt 718; 726 arranged.
- at least one such traverse 746 of the second frame 431; 508; 631; 831; 744 at least partially vertically below at least one section of the at least one conveyor belt 718, in particular designed as a transport section; 726 arranged.
- At least one such traverse 746 of the second frame 431; 508; 631; 831; 744 at least partially vertically below at least a portion of the at least one conveyor belt 718; 726, which is at least partially vertically below a further section, in particular formed as a transport section, of this at least one conveyor belt 718; 726 is arranged.
- at least one such traverse 746 of the second frame 431; 508; 631; 831; 744 at least partially vertically above at least a portion of the at least one conveyor belt 718; 726 arranged.
- At least one such traverse 746 of the second frame 431; 508; 631; 831; 744 at least partially vertically above at least one section of the at least one conveyor belt 718, in particular formed as a transport section; 726 disposed at least partially vertically above a further portion of this at least one
- Conveyor belts 718; 726 is arranged.
- at least one such traverse 746 of the second frame 431; 508; 631; 831; 744 at least partially vertically above at least a portion of the at least one conveyor belt 718; 726 disposed and at least partially vertically below a particular designed as a transport section further portion of this at least one Conveyor belts 718; 726 arranged.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the first frame 427; 627; 827 at least two, in particular with respect to the transverse direction A spaced side walls 428; 628; 828 and that the at least one printhead 416; 616; 816 related to the transverse direction A at least partially between the at least two side walls 428; 628; 828 of the first frame 427; 627; 827 is arranged and / or at least one of the at least two side walls 428; 628; 828 of the first frame 427; 627; 827 via at least one traverse 433; 633; 833 of the first frame 427; 627; 827 with at least one other of the at least two sidewalls 428; 628; 828 of the first frame 427; 627; 827 is arranged connected.
- Such trusses 433; 633; 833 of the first frame 427; 627; 827 serve in particular the first frame 427; 627; To stabilize 827.
- they are designed for optimized stability and therefore in different relations to the at least one conveyor belt 718; 726 arranged.
- at least one such traverse 433; 633; 833 of the first frame 427; 627; 827 at least partially vertically below at least one section of the at least one conveyor belt 718 designed in particular as a transport section; 726 arranged.
- At least one such traverse 433; 633; 833 of the first frame 427; 627; 827 at least partially vertically below at least a portion of the at least one conveyor belt 718; 726, which is at least partially vertically below a further section, in particular designed as a transport section, of this at least one conveyor belt 718; 726 is arranged.
- at least one such traverse 433; 633; 833 of the first frame 427; 627; 827 at least partially vertically above at least one
- Conveyor belts 718; 726 is arranged. Alternatively or additionally, at least one such traverse 433; 633; 833 of the first frame 427; 627; 827 at least partially vertically above at least a portion of the at least one conveyor belt 718; 726 arranged and at least partially vertically below a further formed in particular as a transport section further portion of this at least one conveyor belt 718; 726 arranged.
- the processing machine 01 which is preferably designed as a sheet-fed printing press 01, is preferably characterized in that one directly or indirectly with the side walls 428; 628; 828 of the first frame 427; 627; 827 connected printhead assembly 424; 624; 824 at least partially vertically above at least one section of the at least one conveyor belt 718, in particular formed as a transport section; 726 is arranged.
- Sheet-fed press 01 formed processing machine 01 preferably characterized in that at least one in particular designed as a transport section of the at least one conveyor belt 718; 726 passes through an aperture at least partially formed by at least one printhead assembly 424; 624; 824 and at least partially of at least one traverse 433; 633; 833 of the first frame 427; 627; 827 and at least partially from the side walls 428; 628; 828 of the first frame 427; 627; 827 is limited.
- the boundaries of this opening are preferably in one
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least one drive M100; M200; M300; M400; M401; M500; M550; M600; M601; M700; M800; M801; M900; M1000 of the conveyor belt 718; 726 at least partially directly or indirectly rigidly with the second frame 431; 508; 631; 831; 744 is arranged connected.
- this is at least one drive M100; M200; M300; M400; M401; M500; M550; M600; M601; M700; M800; M801; M900; M1000 by the separation of the racks 427; 627; 827; 431; 508; 631; 831; 744 preferably from the first frame 427; 627; 827 decoupled that movements of this drive M100; M200; M300; M400; M401; M500; M550; M600; M601; M700; M800; M801; M900; M1000 and / or
- Movements of the at least one conveyor belt 718; 726 have no or very little influence on a print quality, in particular in the case of a non-impact printing unit 400; 600; 800th
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least one energy-emitting device 501; 502; 503 at least one
- Drying device 500 and / or at least one drying device 506 on a portion of the at least one conveyor belt 718; 726 is arranged aligned and that this at least one energy delivery device 501; 502; 503 rigid or via a positioning device 424; 624; 824 with the first frame 427; 627; 827 or with the second frame 431; 508; 631; 831; 744 or with one of the first frame 427; 627; 827 and the second frame 431; 508; 631; 831; 744 different third frame is arranged connected.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that along the transport path provided for sheet 02 in front of the at least one primer module 400 and / or before the at least one non-impact
- Printing module 600 at least one module formed as Substratatzuschreibe 100 100 is arranged.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that at least one cleaning device 201 for sheet 02 is arranged along the transport path provided for sheet 02 in front of the at least one primer module 400 and / or before the at least one non-impact printing module 600.
- the substrate supply device 100 is preferably independent of further units 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 trained, provided that there are no contradictions.
- stacks 104 are supplied manually and / or by means of an automated system to the substrate feed device 100, in particular in the form of stacks 104 preferably arranged on carrier units 13.
- carrier units 13 are, for example, pallets 1, 13 stacks 104 fed as such to the substrate feed device 100 are or have been, for example, referred to as investor stack 104.
- the carrier units 1 13 or pallets 1 13 preferably have correspondingly oriented grooves, for example for an intervention of stack carriers, in particular sheets 02 and / or stack 104 of the
- the at least one substrate feed device 100 preferably serves to separate sheets 02 of a stack 104 or partial stack 106 and more preferably singly to one or more subsequent aggregates 200; 300; 400; 500; 550; 600; 700; 800; 900 feed.
- the at least one substrate feed device 100 has, for example, at least one stack turning device 101 or sheet turning device.
- the stack turning device 101 preferably serves to turn over a stack 104 or partial stack 106 comprising at least a plurality of sheets 02 as a whole.
- a turning of the bow 02 is useful, for example, if two opposite Main surfaces of the bow 02 differ from each other and one subsequent
- a stack holding region 102 is a region 102, in particular a space region 102, in which, at least during an operation of the processing machine 01, at least one stack 104 is arranged, which is divided for the subsequent processing of its sheets 02.
- the stack holding area 102 preferably comprises the entire space area which is provided for arranging such a stack 104,
- the stack holding area 102 is the space area 102 which is provided at least during operation of the processing machine 01 for arranging at least one stack 104 formed as feeder stack 104 for its division.
- the at least one stack turning device 101 is, with respect to an intended transport path, the sheet 02, for example, the pile holding region
- the stack 104 can be turned as a whole before it is fed to a further processing by the processing machine 01 and in particular split.
- at least one stack turning device 101 is arranged downstream of the sheet holding region 102 with respect to the intended transport path. Then the stack turning device 101 is preferred as
- Part stack turning device 101 is formed.
- a partial stack separator For example, a partial stack separator
- a partial stack 103 arranged to serve a particular upper part stack 106 of the in the stack holding portion 102 arranged stack 104 to separate.
- a partial stack 103 preferably has more than one sheet 02.
- the partial stack separator 103 is
- the stack 104 is a multiple arc 02 having Operastapel 106 removed as follows. First, the stack 104 is brought to a height in which a top sheet 02 of the stack 104 is at a removal height. Then, a partial stack thrust device 103 is moved toward the stack 104, in particular in the transport direction T, until it comes into contact with at least one sheet 02 of the stack 104. This is at least one sheet 02, for example, the bottom sheet 02 of the sub-stack 106. Thereafter, the partial stack thruster 103 is moved further and thereby moves the at least one standing in contact with her bow 02 and preferably arranged over sheet 02. This moving sheet 02 are thus common as a partial stack 106 preferably in the transport direction T moves, in particular pushed.
- the partial stack turning device 101 has, for example, at least one transport 107, which is preferably designed as at least one conveyor belt 107, more preferably at least two conveyor belts 107.
- the transport means 107 is preferably at least partially pivotable about a pivot axis 108, which is further preferably oriented horizontally and / or orthogonal to the intended transport direction T and / or parallel to the transverse direction A.
- the at least two conveyor belts 107 can be moved toward one another, in particular with respect to the vertical direction V.
- the partial stack 106 can be held, in particular clamped, between the two conveyor belts 107 and pivot together with them about the pivot axis 108, in particular substantially °.
- at least one of the at least two conveyor belts 107 is preferably activated.
- these can each be operated in two directions in order to be able to use the transport of the partial stack 107 independently of the current pivot position of the transport means 107.
- Stack turning device 101 or a partial stack turning device 101 is arranged or not preferred at least one singulator 109 or
- a separating device 109 then serves for at least partial separation of sheets 02 and another separating device for subsequent complete separation of the sheets 02.
- Sheet separating device 109 is arranged, for example, with respect to the transport path provided for sheet 02 after the partial stack turning device 101. If no partial stack turning device 101 is arranged, the partial stack 106 after its generation is preferably equal to the separating device 109 or
- the at least one separating device 109 or sheet separating device 109 preferably at least separates the sheets 02 of the stack 104 or partial stack 106 partially.
- a partial or complete separation of the sheets 02 of the stack 104 or sub-stack 106 from below takes place in a first embodiment of a
- Bogenunterzelungs acquired 109 for example by the stack 104 or sub-stack 106 on at least one lower translation element 1 1 1, in particular a lower transport means 1 1 1 lying in particular continuously, for example in
- Transporting direction T is transported while running at least partially against an obstacle 1 12, which can pass only a lower portion of the stack 104 or sub-stack 106, for example, only a sheet 02 or two sheets 02 or a few sheets 02.
- the height of the obstacle 1 12 is preferably adapted to the thickness of the sheet 02 and / or to a desired type of singulation.
- a weir 1 12 is used, which is preferably formed as a plate 1 12. If the sheets 02 are to be completely separated, a height below the obstacle is preferably greater than the thickness of the sheets 02 and smaller than twice the thickness of the sheets 02. Suffices an incomplete one
- the height under the obstacle is preferably correspondingly greater than twice the thickness of the sheet 02 and for example less than four times the thickness of the sheet 02.
- the entire stack 104 is isolated or incomplete isolated, so scaly, especially if no Operastapelabtrenner 103 is arranged.
- the lower translation element 1 1 for example, as a suction transport means 1 1 1, in particular as a suction belt 1 1 1 and / or Saugkastenband 1 1 1 and / or
- Roll suction 1 1 1 formed Preferably comes as a lower translation element 1 1 1 in this case, however, at least a relatively simple conveyor belt 1 1 1 to
- the lower translation element 1 1 1 is preferably supplied from the part stack turning device 101, a respective sub-stack 106, which is at least partially isolated by means of the obstacle 1 12 and arranged to a stream of on the at least one lower translation element 1 1 1, isolated or maruppt lying bow 02nd is converted.
- a respective sub-stack 106 which is at least partially isolated by means of the obstacle 1 12 and arranged to a stream of on the at least one lower translation element 1 1 1, isolated or maruppt lying bow 02nd is converted.
- an exact position of the sheet 02 is preferably not yet necessary, since this exact position is preferably produced only in a subsequent treatment by means of at least one further separating device 109 and / or by means of a contact device 300.
- the at least one investment device 300 is part of the
- Substrate supply device 100 or independently formed.
- a separation of the sheets 02 of the stack 104 or partial stack 106 or in particular of a storage stack or plant stack from below takes place in a second
- Embodiment of a sheet separating device 109 for example, by the stack 104 or part stack 106 or storage stack or investment stack in one
- Storage device 134 is stored and at least one particular primary
- Acceleration means 136 is brought to preferably controlled and / or regulated selected times with a respective lowest sheet 02 of the stack 104 or sub-stack 106 or storage stack or plant stack in contact and / or controlled and / or regulated acts on this lowest sheet 02.
- a storage stack formed as an investment stack if singulation from below by means of this sheet separating device 109
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that a respective section of the transport path provided by the at least one primary acceleration means 136 has a minimum radius of curvature which is at least 2 meters and / or or in the entire region of the respective primary acceleration means 136 has a direction which deviates at most by 30 ° from at least one horizontal direction and / or from the transport direction T.
- the preferably designed as a sheet-fed press 01 processing machine 01 and in particular the Substratzufufhrehre 100 preferably has at least one
- the storage device 134 is preferably provided with respect to that provided for sheet 02
- two memory stacks are provided, one of which is designed as an investment stack and one as a buffer stack.
- sheets 02 of the storage device 134 originating from a first stack 104 which is designed, for example, as an feeder stack 104, and in particular the at least one sheet, are preferably
- the at least one storage device 134 preferably has the at least one separating device 109, which acts from below and which is designed to remove a respective lowermost sheet 02 of a storage stack and in particular of a system stack individually. It is this one each lowermost sheet 02, the lowermost sheet 02 of a plurality of sheets 02 preferred
- Singling device 109 is therefore preferably a storage stack and in particular a plant stack from below singulating and / or singulated capable.
- the storage device 134 preferably has at least one front stop 137, which is preferably designed as a front wall 137 and / or serves as an anterior mark 127. Alternatively or additionally, a separate front brand 127 is arranged.
- Front stop 137 preferably prevents unwanted movement of sheet 02 in the transport direction T before they have become the lowest sheet 02 of the investment stack.
- the front stop 137 preferably prevents tilting or other disintegration of the at least one arranged in the storage device 134
- Memory stack in particular of the investment stack and / or the buffer stack.
- the storage device 134 preferably has at least one side stop 139, which is preferably designed as a side wall 139. More preferably, with respect to the transverse direction A on both sides of the memory device 134 side stops 139 are arranged. Alternatively or additionally, at least one separate side mark 128 is arranged.
- the at least one side stop preferably prevents unwanted movement of sheet 02 in and / or against the transverse direction A, before they have become the lowest sheet 02 of the investment stack.
- the at least one side stop 139 preferably prevents a tilting or other disintegration of the at least one storage stack arranged in the storage device 134, in particular of the plant stack and / or of the buffer stack.
- the storage device 134 preferably has at least one backstop 141, which is preferably designed as a rear wall 141.
- the at least one backstop 141 is arranged with respect to the transport direction T in front of the at least one storage stack and preferably prevents unwanted movement of the sheet 02 opposite to the transport direction T, before this for each bottom sheet 02 of the investment pile have become.
- the back stop 141 preferably prevents a tilting or other disintegration of the at least one storage stack arranged in the storage device 134, in particular the plant stack and / or the buffer stack.
- the separating device 109 preferably has at least one in particular primary acceleration means 136, in particular for accelerating a respectively lower arc 02 of the at least one storage stack or plant stack, more preferably in the transport direction T.
- the at least one primary acceleration means 136 is preferably arranged below the at least one storage stack. More preferably below the at least one investment stack and even more preferably also below the at least one buffer stack.
- the at least one primary acceleration means 136 is preferably arranged below the at least one storage stack. more preferably below the at least one investment stack and even more preferably also below the at least one buffer stack.
- Acceleration means 136 is, for example, as at least one transport roller 136 and / or as at least one conveyor belt 136 and / or at least one
- Suction conveyor 136 in particular suction belt 136 and / or Saugkastenband 136 and / or roller suction 136 and / or suction pads 136 and / or suction roller 136 is formed and / or preferably has at least one conveyor belt 718; 726 on.
- a plurality of primary acceleration means 136 are arranged, in particular in the form of a plurality of transport rollers 136 and / or a plurality of conveyor belts 136; 718; 726 and / or a plurality of suction transport means 136th
- a plurality of primary accelerators 136 with respect to
- the at least one primary acceleration means 136 has at least two, more preferably at least three, even more preferably at least five, and even more preferably at least seven transport surfaces 718 separated from each other with respect to the transverse direction A and in particular conveyor belts 718; 726 on.
- Acceleration means 136 can be driven by means of a common primary drive M101.
- At least one spacer 144 is preferred; 144.1; 144.2 arranged.
- the at least one spacer 144; 144.1; 144.2 preferably serves to be able to keep the at least one primary acceleration means 136 at least temporarily and / or controlled and / or regulated from any sheet 02.
- a sheet 02 or a plurality of sheets 02 or a stack of sheets 02 are at least temporarily on the at least one spacer 144; 144.1; 144.2 on.
- the at least one primary acceleration means 136 at least temporarily and / or controlled and / or regulated from any sheet 02.
- a sheet 02 or a plurality of sheets 02 or a stack of sheets 02 are at least temporarily on the at least one spacer 144; 144.1; 144.2 on.
- the at least one primary primary acceleration means 136 are at least temporarily and / or controlled and / or regulated from any sheet 02.
- a sheet 02 or a plurality of sheets 02 or a stack of sheets 02 are at least temporarily on the at least one spacer 144; 144.1
- Accelerator 136 and the at least one spacer 144; 144.1; 144.2 are preferably arranged movable relative to one another at least with respect to the vertical direction V, in particular by vertical mobility of the at least one
- Spacer 144; 144.1; 144.2 and / or by vertical mobility of the at least one primary acceleration means 136 the at least one spacer 144; 144.1; 144.2 formed as at least one provided with recesses support surface for sheet 02 and / or protrude the primary
- Acceleration means 136 at least partially and / or at least temporarily through the recesses up out.
- the sum of the respective contact surface can be smaller than the total area of the recesses.
- the respective lowermost sheet 02 of the plant stack lies on the spacer 144; 144.1; 144.2, without touching the primary accelerator 136.
- the at least one spacer 144; 144.1; 144.2 lowered and / or raised at least one primary acceleration means 136 the respective lowermost sheet 02 of the plant stack comes into contact with the corresponding at least one primary acceleration means 136.
- this arc 02 becomes Transport direction T moved forward.
- the at least one primary accelerating means 136 at the moment in which it comes into contact with the lowermost sheet 02 of the plant stack, quiet and then accelerated to accelerate this arc 02 at the same time. It is preferred that the at least one primary
- Acceleration means 136 itself is at least temporarily accelerated, while a respective sheet 02 in particular from a standstill on the first
- Speed vi is accelerated. This is preferably at least one primary
- Accelerator 136 eliminates the at least one spacer 144; 144.1; 144.2. Preferably, only the respective at least one primary acceleration means 136 is driven, which is in contact with the currently lowest sheet 02 of the plant stack. Primary acceleration means 136, which are not in contact with any sheet 02 or already with the next sheet 02, are then preferably first stopped. Primary acceleration means 136, which are already out of contact with the currently lowest sheet 02 of the plant stack, are preferably first stopped and / or kept out of contact with the next sheet 02 or brought. For example, in the case of a Saugtransportffens 136 targeted sections of a suction device can be switched off.
- the at least one primary acceleration means 136 preferably serves, alone or in cooperation with at least one further, in particular secondary, acceleration means 19 always exactly one arc 02, which has preferably already been aligned with respect to the transport direction T and / or the transverse direction A.
- This acceleration takes place for example from a temporary standstill and / or to a processing speed and / or
- the at least one non-impact coating unit 400; 600; 800 is transported and further preferably coated there.
- This acceleration is optionally combined with other, especially secondary
- Accelerators 1 19 made.
- the at least one primary acceleration means 136 and / or the at least one secondary acceleration means 136 By means of the at least one primary acceleration means 136 and / or the at least one secondary acceleration means 136 and / or the at least one secondary acceleration means 136 and / or the at least one secondary acceleration means 136 and / or the at least one secondary acceleration means 136 and / or the at least one secondary acceleration means 136 and / or the at least one secondary
- Acceleration means 1 19 is thus a respective arc 02 from a standstill and / or accelerated from a first speed vi to a second speed v2, while at least one other sheet 02 at the same time with a
- the first speed vi is preferably a speed different from the processing speed and / or coating speed and / or printing speed.
- the second speed v2 is preferably equal to
- Acceleration means 136 with respect to the transport direction T at least one outgoing transport means 1 19 of Substrate feed 100 downstream.
- This is formed, for example, as at least one transport roller 1 19 or at least a pair of transport rollers 1 19 or as at least one suction transport means 1 19.
- this at least one outgoing transport means 1 19 also an acceleration means 1 19, in particular the at least one secondary
- the at least one secondary Accelerating means 1 19 is preferably at least one secondary Accelerating means 1 19 formed as a suction transport means 1 19 and / or has the at least one secondary accelerating means 1 19 at least one conveyor belt 718; 726 on.
- the at least one secondary acceleration means 1 19 has at least two, preferably at least three, more preferably at least five, and even more preferably at least seven transport surfaces 718 separated from each other with respect to the transverse direction A and in particular conveyor belts 718; 726 on. It is preferred that the at least two, preferably at least three, even more preferably at least five and even more preferably at least seven with respect to the transverse direction A from each other by intermediate spaces separated transport surfaces 718 and / or conveyor belts 718; 726 of at least one secondary
- Acceleration means 1 19 are driven by means of a common secondary drive M102.
- the preferably designed as a sheet-fed press 01 processing machine 01 is preferably characterized in that a predetermined by the at least one secondary acceleration means 1 19 respective portion of the provided for sheet 02 transport path has a minimum radius of curvature, which is at least 2 meters and / or in the entire region of the respective primary acceleration means 1 19 has a direction which deviates at most by 30 ° from at least one horizontal direction and / or from the transport direction T.
- the at least one front stop 137 and / or the at least one front mark 127 preferably serves to align the sheets 02 of the plant stack.
- the at least one front stop 137 and / or the at least one leading edge 127 at least temporarily arranged such that it at least on the second sheet 02 from the bottom of the investment stack influence and / or out of contact with the respective bottom sheet 02 of the investment stack. An alignment then takes place
- a surface provided for contact with sheet 02 of the at least one front stop 137 is oriented counter to the transport direction T.
- at least one front stop 137 is oriented counter to the transport direction T.
- Anpresselement and / or deflector arranged, which causes a system of the sheet 02 to the front stop 137 and / or the front end 127 and, for example, is designed as at least one brush.
- the sheets 02 are always in a defined position with the at least one accelerator 136 in contact and are transported through this in exactly known position on.
- the at least one front stop 137 is arranged changeable in its relation to the vertical direction V position.
- the at least one front stop 137 and / or the at least one leading edge 127 is adjustable in height to be adapted to different thicknesses of sheet 02.
- Sheet processing machine 02 is larger than a thickness of each of the sheets to be processed 02 and smaller than twice the thickness of each of the sheets to be processed 02.
- the sheet feeder unit 100 preferably has at least one front stop 137, which extends along the transport path provided for sheet 02 between the at least one primary acceleration means 136 on the one hand and the at least one secondary acceleration means 19 on the other hand is arranged.
- the abutment device 300 is preferably a component of the substrate feed device 100 and more preferably a component of the singulation device 109.
- the sheet processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is characterized in that the sheet feeder module 100 carries at least one sheet 02 in particular in a transport direction T and / or as a suction belt 1 19; 136; 31 1
- the at least one side stop and / or the at least one side mark 128 is preferably given by the fact that the side stops 139, in particular side walls 139, are movable with respect to the transverse direction A and can be arranged in particular adapted to a width of the sheets 02. As a result, the sheets 02 can slide along their side walls 139 at their conditional upon removal of the respective lowest sheet 02 and preferably downwardly directed movement and brought into an aligned position and / or held in this.
- At least one protective cover is for example at least one
- Telescopic sheet formed formed.
- at least one active in particular driven by a drive movement of the sheet 02 against at least one side stop 139 is provided, for example, at a substantially and / or at least with respect to the transport direction T resting sheet 02.
- a lateral alignment for example, before and / or during and or after the acceleration of the sheet 02 with respect to the transport direction T.
- mechanical means for example, before and / or during and or after the acceleration of the sheet 02 with respect to the transport direction T.
- Front stops 137 and / or side stops 139 are corresponding
- Position sensors arranged to move with a correspondingly precise drive the respective sheet 02 in the respective direction and / or stop and / or move superimposed during its transport movement to align it.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the sheet-processing machine 01 has at least two modules 100; 600 trained units 100; 600 and that more preferably the at least two modules 100; 600 each have at least one own drive M100; M101; M102; M103; M600; M601, and that at least one of the at least two modules 100 is a sheet feeder module 100 configured as a substrate feeder 100, and that the substrate feeder 100 has at least one primary drive means M101 with primary drive M101; M103 of the substrate supply device 100 and at least one along a path provided for a transport of sheet 02 transport path in
- the primary drive M101; M103 and the secondary drive M102 and the at least one further drive M200; M300; M400; M500; M550; M600; M700; M800; M900; M1000 each as position-controlled electric motor M100; M200; M300; M400; M500; M550; M600; M700; M800; M900; M1000 trained.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the drive control of the primary drive M101; M103 and the drive control of the secondary drive M102 are circuit-connected to a machine controller of the sheet processing machine 01, and more preferably that the drive control of the primary drive M101; M103 and the
- Sheet processing machine 01 are connected by circuitry.
- the at least one further module 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 is preferred as a coating module 400; 600; 800 and / or pressure module 600 formed and / or non-impact coating module 400; 600; 800 and / or non-impact printing module 600 and / or preferably has at least one print head 416; 616; 816 and / or ink jet printhead 416; 616; 816 on.
- the processing machine 01 which is preferably designed as a sheet-fed printing press 01, is preferably characterized in that at least one sheet sensor 164 of the substrate supply device 100 is designed to detect a respective front edge and / or a respective rear edge of respective sheet 02 is arranged aligned with the intended transport path.
- the preferably designed as a sheet-fed press 01 processing machine 01 is preferably characterized in that the at least one sheet sensor 164 related to the transport direction T after the at least one primary acceleration means 136 and / or after the at least one front stop 137 and / or before the at least one secondary acceleration means 1 19 is arranged.
- the preferred is as
- Sheet-fed printing machine 01 trained processing machine 01 preferably characterized in that the at least one sheet sensor 164 in the transport direction T in the region of the at least one secondary accelerating means 1 19 and / or after the at least one secondary accelerating means 1 19 is arranged.
- the processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one secondary acceleration means 1 19 is designed as a suction transport means 1 19 and exclusively below that intended for sheet 02
- Transport path is arranged and / or that the at least one primary
- Acceleration means 136 is formed as a suction transport means 136 and is arranged exclusively below the transport path provided for sheet 02 and / or that the at least one primary acceleration means 136 below one for a
- Storage of a stack of sheet 02 provided storage area 134 is arranged and / or that the at least one primary acceleration means 136 is arranged in particular as a whole by means of at least one vertical drive with respect to a vertical direction V movable.
- the adaptation preferably takes place in that the at least one front stop 137 and / or further preferably the at least one rear stop 141 is movable and / or moved relative to the transport direction T and can be arranged and / or arranged in particular adapted to the length of the sheets 02.
- the position of the backstop 141 results, for example, in relation to the transport direction T, a different position of an initial storage device 134. In particular, to compensate for this is preferably with respect to the transport direction T before the
- Storage device 134 arranged transport 1 1 1 in his on the
- this transport means 1 1 for example, a first number of respect to their effective range immutable transport elements or conveyor belts. These are for example designed as conveyor belts. Preferably, this has
- Transport means 1 1 1 in addition, for example, a second number of variable with respect to their range of action transport elements. These are formed, for example, as a total of at least with respect to the transport direction T displaceable transport elements and / or conveyor belts. By corresponding displacement of the displaceable transport elements in and / or opposite to the transport direction T, an altered effective length of the entirety results with respect to their effective range unchangeable transport elements and with respect to their range of action variable transport elements.
- the substrate feed device 100 is characterized in that the substrate feed device 100 has at least one transport means 1 19 arranged downstream of the storage device 134 with respect to the transport direction T, which is designed to be variable in its effective length related to the transport direction T.
- the at least one buffer stack is used in particular to a continuous Replenishment of sheet 02 to secure.
- corrugated board sheets 02 have relatively large thicknesses, that is, dimensions in the vertical direction V.
- stacks 104 of corrugated cardboard sheets 02 are processed very quickly by singling.
- a buffering of sheet 02 is advantageous, which can be at least partially processed while the feeder stack 104 is exchanged or renewed.
- sheets 02 are preferably conveyed at least partially faster from the feeder stack 104 to the buffer stack than these later and / or other sheets 02 at the same time in the processing machine 01 and in particular in their coating unit 400; 600; 800 promoted and / or coated.
- the buffer stack then decreases during the renewal of the feeder stack 104 and is then replenished, while it is preferably taken in particular by means of at least one metering preferably at a steady pace in particular from below sheet 02 and fed to the investment pile.
- this is arranged at least one with respect to the transport direction T in front of the storage device 134 and in particular after the feeder stack 104 and / or after a provided for the feeder stack 104 main stack carrier
- Transport means 1 1 1 operable at a time at a speed which is different and more preferably at least temporarily higher than one
- a drive M 100 of the substrate supply device 100 assigned to this means of transport 1 1 1 is preferably independent of one
- sheets 02 of the storage device 134 are supplied from above. More preferably, these sheets 02 of the memory device 134 are completely isolated or at least partially supplied separately. Preferably, the bow 02 of the
- Storage device 134 supplied by first a feeder stack 104th be removed.
- the sheets 02 are completely or partially separated.
- This separation before feeding into the storage device 134 takes place, for example, as already described from below, in particular by means of a lower transport means 1 1 1, lying on the bow 02 as stack 104 or preferably as a partial stack 106 at least partially against the obstacle 1 12 run and thereby depending on the setting of the obstacle 1 12 sporadically or incompletely isolated, so be maruppt. For example, this results in an overlapping, in which therefore a respective subsequent sheet 02 is partially arranged on a respective sheet 02 preceding it.
- the sheets 02 are then conveyed by the transport means 1 1 1 until they enter the storage device 134 at the end thereof. This is preferably done by the sheets 02 fall into a slot of the storage device 134.
- This shaft is formed, for example, by the at least one front stop 137 and / or the at least one rear stop 141 and / or the at least one side stop.
- at least one pressure roller 146 and / or pressure roller 146 is arranged, the sheet 02 presses against that transport means 1 1 1, which is directly upstream of the shaft.
- the shaft preferably has a downwardly decreasing cross-sectional area. As a result, an alignment of the sheet 02 can be achieved even when the sheet 02 is lowered, in particular with respect to the transport direction T and / or with respect to the transverse direction A.
- the sinking sheets 02 are then in turn to the uppermost sheet 02 of the following storage stack, preferably the Buffer stack is.
- An alternative at least partial separation of the sheets 02 of the stack 104 formed in particular as a feeder stack 104 or a sub-stack 106 from above preferably takes place by each removal of a sheet 02, a main part of the stack 104 with respect to the transport direction T at least substantially unchanged and only optionally continuously or gradually raised.
- the main part of the Stack 104 preferably consists of all the sheets 02 of the stack 104, which have not yet been removed.
- the substrate supply device 100 preferably has at least one removal device 14 that acts from above on the sheet 02 of the stack 104 and / or that can act on it.
- the at least one removal device 1 14 is preferably a respective uppermost sheet 02 of the stack 104 individually detectable and / or further transportable.
- the at least one removal device 1 14 has, for example, at least one handling element 1 16 preferably designed as a lifting element 16 and / or holding element 16, preferably as at least one lifting sucker 16 and / or at least one separating sucker 16 and / or at least one Transport suction 1 16 is formed.
- the at least one lifting element 1 16 is preferably with at least one component in particular in the vertical direction V upwards and against the vertical direction V downwardly movable.
- at least one blowing device is arranged, in particular with respect to the transport direction T in front of the removal device 14. This serves, for example, to facilitate the separation of the uppermost sheet 02 from the underlying sheet 02
- Removal device 1 14 further preferably has at least one upper
- the at least one upper translational element 1 17 preferably serves at least one movement of the sheet 02 in the space provided
- Transport direction T for example, up to another, in particular expiring transport 1 19 of the substrate supply device 100 or up to another unit 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or up to one
- Transport means 1 1 which leads to the storage device 134.
- Transport means 1 19 of the substrate feed device 100 preferably ensures further transport of the sheets 02, in particular in the transport direction T and / or up to an exit 121 of the substrate feed device 100.
- the at least one handling element 1 16 in particular, the at least one handling element 1 16, in particular
- Translational element 1 17 arranged and movable together with this in particular in and against the vertical direction V and / or in and against the transport direction T.
- the removal device 1 14 is then in this regard, for example, as a known sheet separator 1 14 constructed.
- an uppermost sheet 02 is detected, in particular sucked, then preferably at least slightly raised and at least moved in the intended direction of transport T until it enters an area of influence of another device that continues its transport.
- Such a sheet separator 1 14 is characterized for example by the fact that its upper translational element 1 17 performs an oscillating movement and / or moves at least and preferably once per sheet 02 exactly in the transport direction T and then reversed and per sheet 02 at least and preferably exactly once moved against the transport direction T.
- the at least one upper translational element 1 17 can be operated and / or moved separately from the at least one handling element 1 16, in particular lifting element 16 and / or holding element 16.
- this is at least one upper translation element 1 17 as a transport means 1 17, in particular suction transport means 1 17 and preferably as a suction belt 1 17 and / or Saugkastenband 1 17 and / or
- Suction is preferably at least or only directed upwards.
- the removal device 1 14 is characterized in that the upper
- Translationselement 1 17 performs a circumferential movement.
- the at least one lifting element 16 is then preferably movable so far upward that a sheet 02 held by it comes into contact with the at least one upper translational element 17 or at least reaches such an extent that upon deactivation of the at least one lifting element 1 16 the sheet of the at least one upper translation element 1 17 is durable.
- the at least one lifting element 1 16 so far upwardly movable that each as
- the at least one lifting element 16 is movable so far upward that a sheet 02 held by it comes into contact with the at least one upper translation element 11, in particular with its transport surface 718 or counterpressure surface 718, and of the at least one upper one Translation element 1 17 at least in the transport direction T is transportable while still the at least one lifting element 1 16 at least also ensures that the sheet 02 is pulled against the at least one upper transport element 1 17.
- the at least one lifting element 1 16 then acts, for example, at least in its raised position as part of the at least one upper translational element 1 17, more preferably without itself being movable in the transport direction T. In particular, this is preferably the case when the at least one upper translational element 1 17 is designed as a roller suction system 1 17. Alternatively, however, this is also the case if the at least one upper translational element 17 is designed as a suction band 17 and / or as a suction box band 17.
- Substrate feed device 100 preferably has at least one outflowing device Transport means 1 19, which is further preferably formed as a suction transport means 1 19 and / or at least one transport roller 1 19 or at least one transport gap forming a pair of transport rollers 1 19 and / or at least one transport gap forming a pair of conveyor belts 1 19.
- the outgoing transport means 19 serves, for example, to discharge sheet 02 from the substrate supply device 100, in particular to an exit 121 of the substrate supply device 100.
- At least one in particular with the outgoing transport means 1 19 cooperating pressure roller 122 and / or pressure roller 122 is arranged.
- the substrate supply device 100 has in particular independently of the separation from above and / or from below preferably at least one drive M100 or motor M100, in particular electric motor M100 or position-controlled electric motor M100, which more preferably at least one transport means 1 1 1; 1 17; 1 19 of the
- Substrate feed device 100 is driving and / or driven arranged capable.
- the Substratzufufhrehre 100 preferably at least a first particular further drive M101; M103 or motor M101; M103, in particular electric motor M101; M103 or position-controlled electric motor M101; M103, which further preferably at least one accelerating means 1 19; 136 of the Substratzufufhrehre 100 driving and / or driven is arranged capable.
- the substrate supply device 100 preferably has at least one primary acceleration drive M101, which is further preferably designed as a position-controlled electric motor M101 and / or which is capable of driving and / or driving at least one first acceleration means 136.
- the at least one first, in particular further drive M101; M103 also becomes primary drive M101; M103 or primary accelerator drive M101; M103 of the substrate feeder 100 called.
- the substrate supply device 100 preferably has at least one primary acceleration drive M101, which is further preferably designed as a position-controlled electric motor M101 and
- Substrate feed device 100 preferably has at least one second further own drive M102 or motor M102, in particular electric motor M102 or position-controlled electric motor M102, which more preferably has at least one outgoing transport means 1 19 and / or at least one of the at least one in particular primary
- Substrate feed device 100 is driving and / or driven arranged capable.
- at least the first further drive M101; M103 and / or at least the second further drive M102 independent of further drives M100; M101; M102; M103 of the Substratzucht sensible drivable.
- Substrate feed device 100 is preferably additionally or alternatively characterized in that the section defined by the substrate feed device 100 of the transport path provided for sheet 02 at an initial height of the
- Substrate feed device 100 ends. This section of the transport path provided for sheet 02 and preferably the entire transport path provided for sheet 02 preferably begins with the separation of the sheets 02. The starting height of the
- Substrate feed device 100 preferably deviates from the first standard height by at most 5 cm, more preferably at most 1 cm, and even more preferably by at most 2 mm.
- the sheet processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that it comprises at least one unit 100; 300, the at least one as a suction belt 1 19; 136; 31 1 formed suction transport means 1 19; 136; 31 1 for transporting sheets 02 in a transport direction T has. Alternatively or additionally, this has at least one suction belt 1 19; 136; 31 1 at least three with respect to one
- Transverse direction A spaced juxtaposed conveyor belts 1 19; 136; 718; 726, wherein at least one displacement means 158; 159 is arranged, by means of which at least one of the at least three conveyor belts 1 19; 136; 718; 726 in and / or against the transverse direction A is laterally displaceable, in particular adjustable sideways displaceable and / or relative to at least one particular stationary frame 162 of this at least one unit 100; 300.
- the at least three juxtaposed conveyor belts 1 19; 136; 718; 726 are thus preferably arranged not only offset with respect to the transverse direction A, but of a respective one of these at least three conveyor belts 1 19; 136; 718; 726 starting in and / or opposite to the transverse direction A is at least another of the at least three conveyor belts 1 19; 136; 718; 726 arranged.
- the transverse direction A between conveyor belts 1 19; 136; 718; 726 each interspaces and in particular
- Suction openings 722 are arranged, there are various risks.
- an end of a respective sheet 02 which is related to the transverse direction A can lie, for example, over a suction opening 722 and then be pulled at least partially into the suction opening 722 by the negative pressure. This would possibly result in a bending of the respective sheet 02, which in turn leads to problems and / or
- Transverse direction A related end only to a very limited extent on a conveyor belt 1 19; 136; 718; 726 is located, for example, two millimeters or less, with this end is pulled into a suction port 722, thereby laterally in contact with the
- Conveyor belt 1 19; 136; 718; 726 device and thereby with respect to the transverse direction A is moved. Due to the displaceability of at least one conveyor belt 1 19; 136; 718; 726, such situations can be avoided or at least mitigated, for example by at least one conveyor belt 1 19; 136; 718; 726 or preferably several or more preferably all juxtaposed conveyor belts 1 19; 136; 718; 726 are displaced with respect to the transverse direction A and thereby advantageous conditions are created in the region of the ends of the sheet 02 relative to the transverse direction A. In this way, differently wide sheets 02 can be handled optimally.
- the conveyor belts 1 19; 136; 718; 726 then at least temporarily asymmetric relative to a center of the respective unit 100; 300 are arranged and thereby the sheets 02 are transported centrally regardless of their width.
- An adaptation of the position of the at least one conveyor belt 1 19; 136; 718; 726 preferably takes place before a start of a machining operation and, for example, once per machining job or only when machining sheet 02 whose width differs from the width of previously processed sheet 02. (In Figs. 25a and 25b, there are exemplified a set of conveyor belts 1 19, 136, 718, 726 in Figs
- the sheet processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one unit 100; 300 at least one in particular during operation of the sheet processing machine 01 arranged stationary
- Side stop 139 and / or these at least one side mark 128 is preferably adjustable in its or on the transverse direction A related position and / or is preferably used for aligning sheet 02 with respect to the transverse direction A. Therefore, he or she is particularly preferred during operation the sheet processing machine 01 stationary.
- the at least one in particular during operation of the Sheet processing machine 01 fixedly arranged side stop 139 to
- the at least one aggregate 100; 300 at least two side stops 139 designed as described and / or at least two side markers 128 designed as described for aligning sheets 02 with respect to the transverse direction A.
- the at least one side stop 139 and / or the at least one side mark 128 are preferably relative to a frame 162 of the at least one aggregate 100; 300 arranged movable and / or adjustable, which is further preferably arranged stationary.
- the at least three juxtaposed conveyor belts 1 19; 136; 718; 726 are preferably at least partially in the
- the at least one aggregate 100; 300 is preferably designed as at least one sheet feeder unit 100 and / or as at least one plant unit 300. Alternatively, this is at least one aggregate 100; 300 as
- the sheet processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one unit 100; 300 at least one
- Front stop 137 for sheet 02 which preferably less than a maximum length to be processed, the sheet 02 of the at least three conveyor belts 1 19; 136; 718; 726 is located away.
- the at least one front stop is more preferably at least one stationary during the operation of the sheet processing machine 01 arranged and / or height adjustable front stop 137 for bow 02.
- the at least three conveyor belts 1 19; 136; 718; 726 relative to the transport direction T at least partially arranged in front of the at least one front stop 137.
- the sheet processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one unit 100; 300 at least one with respect to the transverse direction A movable transport assembly 136; 161; 163; 718; 726 and that these at least one transport assembly 136; 161; 163; 718; 726 at least one of the at least three conveyor belts 1 19; 136; 718; 726 and at least two of these at least one of the at least three conveyor belts 1 19; 136; 718; 726 associated deflection 163 and at least one support frame 161, which are preferably arranged to be movable together with respect to the transverse direction A and that these at least one transport assembly 136; 161; 163; 718; 726 by means of the at least one displacement means 158; 159 in and / or against the transverse direction A is arranged displaceable.
- this transport assembly 136; 161; 163; 718; 726 several and even more preferred all conveyor belts 1 19; 136; 718; 726 of the at least one suction belt 1 19; 136; 31 1 of this unit 100; 300 on.
- the at least one displacement means 158 preferably has at least one manual drive 159 and / or at least one electric drive 159 and / or at least one pneumatic drive 159 and / or at least one hydraulic drive 159.
- a manual drive 159 for example, at least one handwheel is provided.
- the sheet-forming machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least three conveyor belts 1 19; 136; 718; 726 arranged invariably relative to each other in their relation to the transverse direction A relative position are and / or have a constant distance.
- the at least three conveyor belts 1 19; 136; 718; 726 arranged invariably relative to each other in their relation to the transverse direction A relative position are and / or have a constant distance.
- the preferably designed as a sheet-fed press 01 sheet processing machine 01 preferably characterized by the fact that with respect to the transverse direction A movable transport assembly 136; 161; 163; 718; 726 at least one motor M101; M102 for driving the at least three conveyor belts 1 19; 136; 718; 726 with respect to the transport direction T and / or that with respect to the transverse direction A movable transport assembly 136; 161; 163; 718; 726 at least one motor M101; M102 for driving the at least three conveyor belts 1 19; 136; 718; 726 of the at least one first suction belt 1 19; 136; 31 1 with respect to the transport direction T and at least one further motor M101; M102 for driving the at least three conveyor belts 1 19; 136; 718; 726 of the at least one further, with respect to the transport direction T behind the first suction belt 1 19; 136; 31 1 arranged suction bands 1 19; 136; 31 1 with respect to the transport direction T and
- the transverse direction A is a horizontal direction A and / or orthogonal to the intended transport direction T of the sheet 02 by the at least one unit 100; 300 and preferably by the at least one coating unit 400; 600; 800 oriented.
- the sheet processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one unit 100; 300 at least two as
- Suction belts 1 19; 136; 31 1 formed suction transport 1 19; 136; 31 1 for transporting sheets 02 in a transport direction T, which are arranged one behind the other with respect to the transport direction T and which, for example, as the first suction belt 1 19; 136; 31 1 and as another suction belt 1 19; 136; 31 1 are designated.
- the sheet processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that it has at least two suction belts 1 19; 136; 31 1 in each case at least three with respect to
- Conveyor belts 1 19; 136; 718; 726 are thus preferred not only with respect to
- Transverse direction A arranged offset, but of a respective one of these at least three conveyor belts 1 19; 136; 718; 726 starting in and / or opposite to the transverse direction A is at least another of the at least three conveyor belts 1 19; 136; 718; 726 arranged.
- the sheet-processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least one
- respective displacement means 158; 159 is arranged, by means of which at least one of the at least three at least one of these suction belts 1 19; 136; 31 1 associated conveyor belts 1 19; 136; 718; 726 in and / or against the transverse direction A is laterally displaceable, in particular adjustable sideways displaced.
- These at least two suction belts 1 19; 136; 31 1 are formed in an alternative or additional development of preferably as a sheet-fed press 01
- Sheet processing machine 01 preferred with respect to transport movements in the transport direction T independently operable and / or accelerated.
- the sheet-processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that from the quantity of the at least one suction belt 1 19; 136; 31 1 at least one, for example, the at least one first suction belt 1 19; 136; 31 1, as a primary acceleration means 136 of the singulator 109 of the at least an aggregate 100; 300 is formed and / or that at least one, more preferably at least one other or further suction belt 1 19; 136; 31 1 from the amount of at least one suction belt 1 19; 136; 31 1 as a secondary acceleration means 1 19 a singulator 109 of the at least one unit 100; 300 is formed.
- the sheets 02 are fed by the Substratzufufhr worn 100 directly to an investment device 300, which, for example, also part of
- Substrate feed device 100 may be.
- the sheets 02 are initially fed to at least one preparation device 200.
- At least one preparation device 200 is based on the intended transport path for a substrate supply device 100 and / or at least one coating unit 400; 600; 800 arranged.
- Preparation device 200 preferably has at least one activation device 201.
- the at least one intervention device 201 is configured, for example, as a calender 201 and / or as a moistening device 201 and / or as a discharge device 201 and / or as an inerting device 201 and / or as a cleaning device 201 and / or as a deburring device 201 and / or as an inspection device 201.
- a cleaning device 201 is designed, for example, as a suction device 201 and / or as a blowing device 201 and / or as a stripping device 201 and / or preferably serves to remove pieces of paper and / or dust.
- Inspection device 201 has, for example, at least one and preferably a plurality of, in particular at least two, in particular optical sensors, which are designed for example as a camera and / or are preferably arranged to be mechanically movable, in particular in the transverse direction A.
- optical sensors which are designed for example as a camera and / or are preferably arranged to be mechanically movable, in particular in the transverse direction A.
- the Einwirk gear 201 is, for example, within another unit 100; 300; 400; 500; 550; 600; 700; 800; 900; 1000 or module 100; 300; 400; 500; 550; 600; 700; 800; 900; 1000 arranged, in particular aligned on the intended transport and / or acting and / or act capable.
- the preparation device 200 is preferably designed as an independent unit 200 and more preferably module 200.
- the preparation device 200 preferably has at least one transport means 21 1, which is further preferably designed as a suction transport means 21 1.
- the above in the preceding and hereinafter described on suction transport means preferably applies accordingly.
- the preparation device 200 preferably has at least one own drive M200 or motor M200, in particular electric motor M200 or position-controlled electric motor M200, which is more preferably arranged capable of driving and / or driving at least one transport means 21 1.
- the preparation device 200 preferably has at least one own drive M200 or motor M200, in particular electric motor M200 or position-controlled electric motor M200, which is more preferably arranged capable of driving and / or driving at least one transport means 21 1.
- Preparation device 200 at least one pressure roller 202 or pressure roller 202, by means of the sheet 02 against the at least one transport means 21 1 can be acted upon by a force.
- the preparation device 200 preferably has at least one transfer means 03 for sheet 02.
- the portion of the sheet 02 provided by the preparation device 200 is preferably substantially flat, and more preferably completely flat, and is preferably in the
- the preferably designed as an aggregate 200 and / or 200 module preparation device 200 is alternatively or additionally characterized in that the specified by the preparation device 200 portion of the provided for sheet 02 transport path starts at an input level of the preparation device 200 and / or at an initial height of Preparation device 200 ends.
- the preparation device 200 is characterized in that this input height of the preparation device 200 from the first standard height by at most 5 cm, more preferably at most 1 cm and even more preferably deviates by at most 2 mm and / or that the starting height of the preparation device 200 from the first standard height by more than 5 cm, more preferably at most 1 cm and even more preferably deviates by at most 2 mm and / or the respective entrance height of the preparation device 200 deviates from the initial height of the preparation device 200 by at most 5 cm, more preferably at most 1 cm and even more preferably by at most 2 mm.
- sheets 02 are stepwise accelerated by means of the substrate feed device 100 and / or at least one abutment device 300. For that are
- At least one primary acceleration means 136 and at least one secondary acceleration means 19 are arranged.
- the primary acceleration means 136 preferably accelerates the sheets 02 to a first speed vi and the secondary acceleration means 19 accelerates the sheets 02 preferably later to a second speed v2, for example the second
- the second accelerator 1 19 is in one embodiment to the second
- This minimum speed is preferably equal to the first speed vi.
- this minimum speed is greater than the first speed vi.
- the sheets 02 are then at a transfer between the primary accelerator 136 and the secondary accelerator 1 19 by a relative speed between secondary accelerating means 1 19 on the one hand and bow 02 on the other hand and accelerated by appropriate friction, at least until they are moved at the second speed v2.
- the sheets 02 are thus pulled along and thereby accelerated.
- the secondary accelerating means 1 19 is operated constantly at the second speed v 2 and the acceleration of the arc 02 to the second speed v 2 is completely as described via the relative speed and corresponding friction.
- further acceleration means are arranged.
- a processing machine 01 designed in particular as a sheet-fed printing machine 01 is characterized in that the sheet-fed printing machine 01 has at least two modules 100; 600 trained units 100; 600 and that more preferably the at least two modules 100; 600 each have at least one own drive M100; M101; M102; M103; M600; M601 have.
- the sheet-fed printing machine 01 has at least two modules 100; 600 trained units 100; 600 and that more preferably the at least two modules 100; 600 each have at least one own drive M100; M101; M102; M103; M600; M601 have.
- the sheet-fed printing machine 01 has at least two modules 100; 600 trained units 100; 600 and that more preferably the at least two modules 100; 600 each have at least one own drive M100; M101; M102; M103; M600; M601 have.
- the sheet-fed printing machine 01 has at least two modules 100; 600 trained units 100; 600 and that more preferably the at least two modules 100; 600 each have at least one own drive M100; M101;
- Sheet-fed printing machine 01 alternatively or additionally characterized in that at least one of the at least two modules 600 as non-impact coating module 400; 600; 800 is formed.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that at least one of the at least two modules 500 is designed as a drying module 500.
- the processing machine 01 which is designed in particular as a sheet-fed printing press 01, is characterized alternatively or additionally in that at least one and in particular at least one further of the at least two modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 has at least one drying device 500 or drying device 506.
- Drying device 506 preferably has at least one energy delivery device 501 designed as hot air source 502; 502; 503 on.
- the processing machine 01 which is designed in particular as a sheet-fed printing press 01, is characterized alternatively or additionally by the fact that at least one of the at least one of the two modules 400; 600; 800 at least one coating module 400; 800, which is designed as a primer module 400 and / or as a painting module 800 and which has its own drying device 500 or drying device 506.
- the processing machine 01 which is designed in particular as a sheet-fed printing press 01, is characterized alternatively or additionally by the fact that at least one further module 400 is formed as a primer module 400
- Coating module 400 is arranged, which has its own drying device 500 or drying device 506 and this drying device 500 or drying device 506 at least one formed as a hot air source 502
- At least one further module 800 at least one designed as a paint module 800
- Coating module 800 is arranged, which has its own drying device 500 or drying device 506 and this drying device 500 or drying device 506 at least one formed as a hot air source 502
- Energy delivery device 501; 502; 503 has.
- the at least one further of the at least two modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000, for example, the primer module 400 preferably has a frame 427; 627; 827 on.
- this frame 427; 627; 827 directly or indirectly whose drying device 500 or drying device 506 is rigidly connected.
- this frame 427; 627; 827 at least one
- An area of action of the drying device 500 or drying device 506 of the at least one further of the at least two modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000, for example of the primer module 400, with respect to the transport path provided for sheet 02, is preferably after an application point 418 of the at least one further of the at least two modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000, for example, the primer 400 is arranged.
- a for the transport of the sheet 02 through an area of action of the drying device 500 or drying device 506 of the at least one further of the at least two modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 for example, the priming module 400 provided transport 417, in particular Saugtransportstoff 417, with respect to the provided for sheet 02 transport path after a counter-pressure means 408 this at least one further of the at least two modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000, for example, this primer 400 arranged.
- Suction conveyor 417 is preferably by means of a drive M400; M401; M600; M601; M800; M801 of the at least one further of the at least two modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000, for example, the primer 400 drivable.
- a coating module 400 designed as a primer module 400 and / or as a printing module 600 and / or as a coating module 800; 600; 800
- the coating module 400 which is designed as a primer module 400 and / or as a printing module 600 and / or as a coating module 800, is preferred.
- 600; 800 preferably a frame 427; 627; 827, with which directly or indirectly Drying device 500 or drying device 506 is rigidly connected and with the further preferred at least one counter-pressure means 408; 608; 808 of the as
- Primer module 400 and / or coating module 400 designed as a printing module 600 and / or as a coating module 800; 600; 800 is arranged directly or indirectly connected.
- Coating module 800 formed coating module 400; 600; 800 only via the frame 427 of this coating module 400 designed as a primer module 400 and / or as a printing module 600 and / or as a coating module 800; 600; 800 and / or mechanically flexible connections to a floor or a footprint below the sheet-fed press 01 connected.
- An area of action of the drying device 500 or drying device 506 of the coating module 400 designed as a primer module 400 and / or as a printing module 600 and / or as a coating module 800; 600; 800 is preferred to an order point 418 with respect to the transport path provided for sheet 02; 618; 818 of the coating module 400 designed as a primer module 400 and / or as a printing module 600 and / or as a coating module 800; 600; 800 arranged.
- Drying device 500 or drying device 506 of the coating module 400 designed as a primer module 400 and / or as a printing module 600 and / or as a coating module 800; 600; 800 provided transport means 417; 617; 817, in particular suction transport means 417; 617; 817, is preferably by means of a drive M400; M401; M600; M601; M800; M801 of the coating module 400 formed as a primer module 400 and / or as a printing module 600 and / or as a coating module 800; 600; 800 Primer 400 drivable.
- connection Under a rigid connection is a connection to understand that prevents uncontrolled relative movements. It is nevertheless provided, for example, that by means of at least one mechanism and / or at least one drive, a targeted relative movement can be achieved, for example, around the
- Drying device 500 or drying device 506 to be able to turn off the transport path provided for sheet 02.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that at least one of the at least two modules 100 is designed as a substrate supply device 100 and / or that at least one of the at least two modules 600 is designed as a printing module 600.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that the substrate-feeding device 100 has at least one primary acceleration means 136 with primary drive M101; M103 or primary acceleration drive M101; M103 of the substrate supply device 100 and at least one provided along a provided for sheet 02 transport path to the at least one primary acceleration means 136 secondary acceleration means 1 19 with secondary drive M102 or secondary acceleration drive M102 of Substratatzucht wisdom 100 and that the at least one primary
- Acceleration means 136 is arranged below a storage area 134 provided for storing a stack of sheets 02. Such a stack comprises more than one sheet 02.
- the primary drive M101; M103 of the at least one primary accelerator 134 of the substrate feeder 100 is also called primary accelerator drive M101; M103 of the substrate feeder 100 called.
- the secondary drive M102 of the at least one secondary accelerator means 19 of the substrate feeder 100 also becomes the secondary accelerator drive M102 the Substrate feeder 100 called.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that the at least one printing module 600 is one of the primary drive M101; M103 of the substrate feeder 100 and the secondary drive M102 of
- Substrate feeder 100 different drive M600 associated with a transport of sheet 02.
- primary drive M101; M103 and secondary drive M102 is the independent movement of the accelerator 1 19; 136 and thus a graded acceleration as described above possible.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that the sheet-fed printing machine 01 at least three as modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 trained units 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 and that the at least three modules 100; 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 each at least one own drive M100; M101; M102; M103; M200; M300; M400; M401; M500; M550; M600; M601; M700; M800; M801; M900; Have M1000.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that the sheet-fed printing press 01 has a plurality of aggregates 600 formed as printing modules 600, which each have at least one own drive M600.
- the sheet-fed printing machine 01 is characterized alternatively or additionally by the fact that the at least one printing module 600 is formed as a coating agent from above applying pressure module 600.
- the at least one printing module 600 is formed as a coating agent from above applying pressure module 600.
- Sheet-fed printing machine 01 alternatively or additionally characterized in that the at least one printing module 600 as non-impact coating unit 600 and / or as
- Ink jet printing unit 600 is formed.
- the nozzles are arranged.
- Sheet-fed printing machine 01 alternatively or additionally characterized in that by means of the at least one primary accelerating means 136 arc 02 to a first Velocity vi are accelerated and / or accelerated and that by means of the at least one secondary accelerator 1 19 sheets 02 are accelerated and / or accelerated, in particular from the first speed vi to a second speed v2, which is greater than the firstvolvl or even to to a third speed v3, which is even greater than the second
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that a drive control of the primary drive M101; M103 from one
- the sheet printing machine 01 is characterized alternatively or additionally by the fact that the second speed v2 a
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that a drive control of the primary drive M101; M103 and one of them different drive control of the secondary drive M102 and a different drive control of the drive M600 of the pressure module 600 are connected in circuit technology with a machine control of the sheet printing machine 01.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that the at least one primary acceleration means 136 acts as at least one on a respective lowermost sheet 02 of a stack
- Acceleration means 136 is formed.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that as the at least one primary acceleration means 136 more
- Subsets of primary acceleration means 136 are arranged, which at least temporarily with different from subset to subset sheet velocities are operable and / or the respective at least one only this respective subset of accelerators 136 associated with each primary drive M101; M103 have.
- Each subset may have a primary acceleration means 136 or a plurality of primary acceleration means 136. (Examples can be seen in FIGS. 14a and 16b.)
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that a plurality of spacers 144.1; 144.2 are arranged independently of one another, at least with regard to the vertical direction V, for example at least one first spacer 144.1 and at least one second spacer 144.2.
- the at least one first spacer 144.1 and / or the at least one second spacer 144.2 is designed as at least one support surface provided with recesses and / or the primary acceleration means 136 protrude at least partially and / or at least temporarily through the recesses upwards. (An example of this can be seen in Figure 14b.)
- the sheet-fed printing machine 01 is characterized alternatively or additionally by the fact that the drives M101; M102; M103, the acceleration means 1 19 provided for the movement of the sheets 02 along their intended transport path; 136 of the substrate supply device 100 are operable independently of such drives, which at least on the vertical relative movement of the primary acceleration means 136 on the one hand and the at least one spacer 144; 144.1; 144.2 or the
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that the at least one primary acceleration means 136 as at least one transport roller 136 and / or at least one conveyor belt 136 and / or as at least a suction transport means 136 and / or as at least one suction belt 136 and / or at least one Saugkastenband 136 and / or as at least one Rollensaugsystem 136 and / or as at least one suction pad 136 and / or at least one suction roller 136 is formed.
- the at least one primary acceleration means 136 as at least one transport roller 136 and / or at least one conveyor belt 136 and / or as at least a suction transport means 136 and / or as at least one suction belt 136 and / or at least one Saugkastenband 136 and / or as at least one Rollensaugsystem 136 and / or as at least one suction pad 136 and / or at least one suction roller 136 is formed.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that the at least one secondary acceleration means 1 19 as at least one outgoing transport means 1 19 of the Substratzufufhr grounded 100 and / or at least one transport roller 1 19 and / or at least one transport gap forming pair of Transport rollers 1 19 and / or at least one suction transport means 1 19 and / or as at least one transport gap forming a pair of conveyor belts 1 19 is formed.
- the at least one pair of conveyor belts 19 forming a transport gap a risk can be reduced that the sheets 02 are pressed together too much and / or deformed. (Examples are shown in Fig. 16a and Fig. 16b.) This causes in particular in
- At least one interchangeable assembly is arranged, which has the at least one secondary acceleration means 1 19 Then, in a simple manner and depending on the requirements, for example, as a pair of transport rollers 1 19 forming at least one transport gap may be exchanged for at least one pair of conveyor belts 19 forming a transport gap.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that at least one additional device 147 for detecting erroneously transported and / or faulty sheets 02 and / or at least one additional device 147 for sorting out bow 02 and / or at least one
- Additional device 147 is arranged for holding and / or pushing back of sheet 02. (This is illustrated by way of example in FIG. 15.) These at least one
- Auxiliary device 147 is preferred with respect to the transport path provided for arc 02 between the at least one primary acceleration means 136 on the one hand and the at least one secondary acceleration means 19 on the other hand arranged. If the auxiliary device 147 is designed as an additional device 147 for detecting erroneously transported and / or faulty sheet 02, it serves, for example, to identify double sheets and / or to determine sheet 02, which have protruding components. Such protruding components could, for example, come into contact with a printhead 416; 616; 816 damage to this printhead 416; 616; Cause 816.
- An additional device 147 for sorting out sheets 02 has, for example, a suction device and / or a transport switch.
- a sorting device 147 has at least one compression means 148 for sorting out; 149, by means of the sheet 02 are compressible in particular with respect to their height and / or is formed as a compression device 147.
- the sheet-processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that it is provided along the path for the transport of sheets 02
- Transport path is arranged at least one designed in particular as a supernatant sensor 153 sensor 153 for detecting at least one spatial extent of sheet 02.
- the at least one overhang sensor 153 is designed, for example, as an optical sensor and / or as a light barrier and / or as an ultrasonic sensor and / or as a capacitive sensor and / or as an inductive sensor and / or as a magnetic sensor.
- the at least one overhang sensor 153 preferably detects a height of the sheet 02 transported horizontally beneath it. If a part of the sheet 02, in particular a part of the front end of the sheet 02, is too far up, this is detected by the at least one overhang sensor 153.
- the sheet processing machine 01 preferably has at least one non-impact coating unit 400; 600; 800 and / or at least one printhead 416; 616; 816 or ink jet printhead 416; 616; 816 on. Therefore, a compression device 147 is preferably arranged, in particular an additional device 147 designed as a compression device 147
- Compressor 147 is for example in the range of
- Coating unit 400; 600; 800 arranged to avoid that _between the compression device 147 and the printheads 416; 616; 816 areas lie where the sheet 02 is negatively changed in shape.
- At least one compression device 147 is arranged in particular along the transport path provided for the transport of sheets 02 according to a detection region of this at least one projection sensor 153, which further preferably has at least one first compression element 148 and at least one second compression element 148
- Compression body 149 and even more preferably at least one force element 151 has.
- the at least one first compression body 148 is preferably movable, in particular at least with respect to the vertical direction V and / or to the at least one second compression body 149.
- the at least one second compression body 149 is preferably movable, in particular at least with respect to the vertical direction V and / or to the at least one second compression body 149.
- Compression body 149 is preferably formed as a counterpressure body 149 and more preferably fixed to any rotational movements.
- the at least one first compression body 148 is designed as a roller 148 arranged in particular rotatable and / or the at least one second compression body 149 is designed as a roller 149 arranged in particular rotatable.
- Rotation direction of this respective roller 148; 149 is preferably oriented such that a the sheet 02 next area moves parallel to the sheet 02, in particular not antiparallel.
- the at least one second compression body 149 can also serve a component that carries other functions, for example at least one conveyor belt 718; 726 and / or at least one vacuum chamber 719.
- An axis of rotation of the at least one first compression body 148 is preferably displaceable.
- the sheet processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one first compression body 148 is movably arranged by means of the at least one force element 151 from a passage layer onto the at least one second compression body 149 into a compression position , wherein more preferably arranged in the passage layer first
- Compression element 148 the at least one force element 151 is biased.
- Compressive arc 02 can be achieved.
- Compressing means 147 at least one retainer 152, which is switchable at least between a retaining state and a release state and in the retaining state, a movement of the at least one first
- Compression body 148 is arranged preventing from its passage position in its compression position. As a result, the bias is maintained.
- a bias is to be understood in particular as a state in which the corresponding body endeavors to change its shape automatically in order to reach a state of lower energy.
- the at least one force element 151 has at least one spring and / or at least one magnet and / or at least one electromagnet and / or at least one spring plate.
- the at least one retaining device 152 has at least one trigger drive 157, which is further preferred as a pneumatic cylinder and / or as a hydraulic cylinder and / or as
- the at least one retaining device 152 has at least one stop body 156 which continues
- the at least one trigger drive 157 is movable. Then, by activating the trigger drive 157, the stopper body 156 can be moved and the path of the at least one first compression body 148 out of its
- the sheet-processing machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the sheet-processing machine 01 has at least one transport belt 718; 726 having at least a transport portion of its circulation path parallel to a transport direction T along a portion of the arc 02
- the at least one conveyor belt 718; 726 is at least partially disposed between the at least one first compression body 148 on the one hand and the at least one second compression body 149 on the other hand.
- the first compression body 148 on the one hand is at least partially disposed between the at least one first compression body 148 on the one hand and the at least one second compression body 149 on the other hand.
- Compression element 748 and simultaneously between the first
- Compression element 748 on the one hand and the second compression element 749 arranged sheet 02 is preferably a contact between the at least one conveyor belt 718; 726 on the one hand and the at least one second
- Compression body 149 on the other hand.
- at least one coating station 409; 609; 809 at least one coating unit 400; 600; 800 of the
- the detection range of this at least one projection sensor 153 is preferably along the transport section of the at least one conveyor belt 718; 726 arranged.
- a compression region 154 is preferably that region which is separated from the at least one first and the at least one second compression body 148; 149 is fixed, in particular that space area in which a smallest distance between the at least one first compression body 148 on the one hand and the second compression body 149 and / or the at least one conveyor belt 718; 726, on the other hand, is smaller than the thickness of the sheets 02 to be transported.
- a distance measured along the transport path provided for sheet 02 between that of the at least one first and the at least one second compression bodies 148; 149 specified compression region 154 on the one hand and the at least one coating station 409; 609; 809, on the other hand, is preferably at most 200 cm, more preferably at most 100 cm, even more preferably at most 50 cm, even more preferably at most 20 cm, and still more preferably at most 10 cm.
- the sheet-forming machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that at least one biasing drive is provided by means of which the at least one first compression body 148 moves away from the compression position, in particular away from the at least one second compression body 149, into the passageway is movable. Then, the sheet processing machine 01 need not necessarily be stopped when a sheet 02 has been compressed, but may continue to run after re-tensioning the compression means 147,
- the sheet processing machine 01 preferably has at least one transfer switch and / or discharge device and / or
- Makulaturweiche for sheet 02 which is arranged with respect to the intended for the transport of the sheet 02 transport path to the at least one compression device 147. Then, a compressed sheet 02 disposed of in a simple manner become.
- the sheet-forming machine 01 which is preferably designed as a sheet-fed printing press 01, is preferably characterized in that the at least one overhang sensor 153 is connected directly or indirectly to the at least one retaining device 152 and / or that the at least one overhang sensor 153 is associated with the circuit a machine control of the sheet processing machine 01 is connected, with which also the at least one retaining device 152 is connected in terms of circuitry.
- This allows an automated backup by means of the compression device 147.
- FIG. 21a schematically shows a compression device 147 with compression body 148 in a passageway
- FIG. 21b a compression device 147 with
- Compression body 148 shown in compression position.
- An auxiliary device 147 for holding and / or pushing back of sheet 02 has, for example, a suction device and / or a pushing means.
- a suction device for example, holds a corresponding sheet 02 and thereby prevents it from being transported further and causing damage.
- a pushing device is designed, for example, as a roller and / or roller and / or brush and arranged in a rotating and / or rotatable manner. The direction of rotation is chosen so that one of the thrust device, for example, mediated by friction force against the transport direction of the sheet 02 and / or against his intended transport path is oriented.
- the thrust device for example, mediated by friction force against the transport direction of the sheet 02 and / or against his intended transport path is oriented.
- Processing machine 01 stopped when a faulty transported sheet 02 was detected and / or held and / or restrained by the attachment 147 for holding and / or pushing back of sheet 02.
- the sheet-forming machine 01 which is preferably designed as a sheet-fed printing machine 01, is preferably characterized in that the at least one primary acceleration means 136 is at the same time designed as a sheet alignment means for alignment with respect to the transverse direction A and / or a pivot position and / or at least a secondary one
- Acceleration means 1 19 at the same time as Bogenausrichtstoff for alignment with respect to the transverse direction A and / or a pivotal position is formed.
- the respective acceleration means 1 19; 134 for a change in the pivot position, the respective acceleration means 1 19; 134
- the respective acceleration means is 1 19; 134, for example, at least partially movable in and / or against the transverse direction A, in particular while it is in contact with a sheet 02.
- the sheet-fed printing machine 01 is characterized alternatively or additionally by the fact that under a module 100; 600 a respective unit 100; 600 or an assembly of several aggregates 100; 600 is understood, the at least one separate controllable and / or controllable drive M100; M101; M102; M103; M600 and / or at least one transfer means 03 for sheet 02 and / or at least one without deviation or with a deviation of at most 5 cm on one for several modules 100; 600 has the same first standard height beginning and / or ending portion of a transport path for sheet 02 provided for transport path and / or as independently functional module 100; 600 and / or individually produced and / or each assembled machine unit or functional assembly is formed.
- the sheets 02 are each thereafter by means of at least one driven by a secondary drive M102 secondary acceleration means 1 19 of the substrate supply device 100 to a second
- Speeds speed v2 wherein the secondary drive M102 is further preferably designed as a position-controlled electric motor M102.
- the second speed v2 is, for example, at least as great as the first speed vi and more preferably greater than the first speed vi.
- the method is characterized by the fact that the sheets 02 are accelerated thereafter by means of this at least one secondary accelerating means 1 19 to a third speed v3 which is greater than the second speed v2 and that the sheets 02 respectively thereafter at least one secondary accelerator 1 19 back to the second
- Speed v2 be slowed down. It is not necessary that the sheets 02 be kept at the second speed v2 before being accelerated to the third speed v3. For example, a steady monotonous increase in the bow speed from the first speed vi to the third speed v3 is possible.
- the sheets 02 along a transport path from the Substratzufufhr adopted 100 to at least one further module 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000 of the sheet processing machine 01 transports, in particular to a printing module 600.
- the sheets 02 are respectively thereafter by means of at least one drive M100; M200; 300; M400; M500; M550; M600; M700; M800; M900; 1000 of the at least one further module 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000, in particular printing module 600 with a
- Processing speed in particular printing speed through the respective further module 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000, in particular
- Print module 600 transports and thereby in this respective other module 200; 300; 400; 500; 550; 600; 700; 800; 900; 1000, in particular printing module 600 processed, in particular printed.
- the processing speed in particular
- Print speed is preferably equal to the second speed v2.
- a method is preferred in which the sheets 02 are transported along a transport path from the substrate feeding device 100 to at least one printing module 600 and wherein the sheets 02 are each thereafter by means of at least one drive M600 of the at least one printing module 600 at a printing speed through the respective printing module Transported 600 while doing in this particular
- Printing module 600 are printed and wherein the first speed vi is smaller than the printing speed.
- the method is characterized alternatively or additionally in that the printing speed is equal to the second speed v2 and / or that the second speed v2 is greater than the first speed vi.
- the method is characterized alternatively or additionally by the fact that the sheets 02 in each case at least one time in contact with both the primary accelerator 136 and the secondary accelerator 1 19.
- the method is characterized alternatively or additionally by the fact that braking the at least one primary acceleration means 136 does not cause a deceleration of the respective arc 02 accelerated directly with this primary acceleration means 136.
- the method is alternatively or additionally characterized in that a braking of the at least one secondary accelerating means 1 19 causes no braking of the respective arc 02 accelerated directly with this secondary accelerating means 1 19.
- an acceleration and subsequently a deceleration of a respective trailing arc 02 by means of the at least one secondary acceleration means 1 19 are preferably carried out.
- the method is alternatively or additionally characterized in that the at least one secondary acceleration means 1 19
- the method is preferably characterized in that at least one sheet sensor 164 detects a trailing edge of a preceding sheet 02 and generates a trailing edge signal and that at least one sheet sensor 164 detects a leading edge of a trailing sheet 02 and generates a leading edge signal and that Acceleration and / or deceleration of the respective particular trailing arc 02 by means of the at least one secondary acceleration means 1 19, taking into account the
- the method is characterized alternatively or additionally in that the at least one primary drive M101; M103 and the at least one secondary drive M102, in particular taking into account the background edge signal and / or the leading edge signal and / or in particular by means of the machine control of
- Sheet processing machine 02 are operated so coordinated that a gap between a preceding sheet 02 and a trailing sheet 02 is reduced and / or to a value within a predetermined tolerance range a target value is set.
- a primary acceleration profile for the at least one primary accelerator 136 and / or its primary drive M101; M103 deposited and / or is a secondary acceleration profile for the at least one secondary acceleration means 1 19 and / or its secondary drive M102 deposited.
- the primary acceleration profile and / or more preferably the secondary acceleration profile is modified depending on signals of the at least one sheet sensor 164.
- FIG. 26 a shows an exemplary schematic progression of a transport speed of a sheet 02, which first of all extends over a section a136 by means of the at least one primary acceleration means to a first speed vi and then via a section a1 19 by means of the at least one secondary
- FIG. 26b shows an exemplary schematic progression of a transport speed of a sheet 02, which first of all passes over a section a136 by means of the at least one primary acceleration means to a first speed vi and then via a section a1 19 by means of the at least one secondary
- Acceleration means 1 19 accelerated to a third speed v3 and then braked to a second speed v2.
- Accelerator 1 19; 136 preferably decelerated again.
- the method is characterized in that at least temporarily, the at least one primary acceleration means 136 is braked while the at least one secondary accelerator 1 19 and in particular at least one arc 02 is accelerated and / or that at least temporarily, the at least one secondary accelerator 1 19 and in particular at least one arc 02 is accelerated and / or that at least temporarily, the at least one secondary accelerator 1 19 and in particular at least one arc 02 is accelerated and / or that at least temporarily, the at least one secondary
- Accelerator 1 19 is braked while the at least one primary acceleration means 136 and in particular at least one arc 02 is accelerated.
- the method is characterized in that the at least one secondary accelerator 1 19 always with a non-zero
- Speed vi; v2; v3 is operated as long as it is in contact with a sheet 02 and / or that during a portion of a machining operation of
- Sheet processing machine 01 in which at least three sheets 02 are separated and accelerated, the at least one secondary acceleration means 1 19 always with a non-zero speed vi; v2; v3 is operated.
- the method is characterized alternatively or additionally by the fact that the first speed vi is at least 10%, more preferably at least 20%, and even more preferably at least 30% smaller than the printing speed and / or that the first speed vi at least 20%, preferably at least 30% and more preferably at least 40% of the second speed v2 and / or that the first speed vi is at most 80%, preferably at most 70% and more preferably at most 60% of the second speed v2 and / or that the third Speed v3 is at least 10%, more preferably at least 20%, even more preferably at least 30% and even more preferably at least 50% greater than the second speed v2.
- the method is characterized alternatively or additionally by the fact that the sheets 02 are printed in the at least one printing module 600 from above.
- the method is characterized alternatively or additionally by the fact that the sheets 02 in the at least one printing module 600 by means of a Non Impact
- the method is alternatively or additionally characterized in that the substrate feed device 100 is designed as a module 100 of the sheet-fed printing machine 01.
- the method is alternatively or additionally characterized in that the at least one primary acceleration means 136 is brought into contact with the sheet 02 on a respective underside of the sheet 02, in particular exclusively on the respective underside, and / or that the at least one secondary acceleration means 136 is brought into contact with the sheet 02 on a respective underside of the sheet 02, in particular exclusively on the respective underside, and / or that the at least one secondary acceleration means 136 is brought into contact with the sheet 02 on a respective underside of the sheet 02, in particular exclusively on the respective underside, and / or that the at least one secondary acceleration means 136 is brought into contact with the sheet 02 on a respective underside of the sheet 02, in particular exclusively on the respective underside, and / or that the at least one secondary acceleration means 136 is brought into contact with the sheet 02 on a respective underside of the sheet 02, in particular exclusively on the respective underside, and / or
- Acceleration means 1 19 has at least one transport gap in which the sheets 02 are at least partially disposed, while the at least one secondary
- the method is characterized alternatively or additionally by the fact that during acceleration by means of the at least one primary
- Acceleration means 136 a displacement of the respective sheet 02 with respect to the transverse direction A and / or a pivoting movement of the respective sheet 02 about an orthogonal to the transverse direction A pivot axis and / or a setting of a phase angle of the respective sheet 02 to at least one subsequent, the sheet 02 transporting Component of the sheet printing machine 01 takes place.
- the method is characterized alternatively or additionally by the fact that during acceleration by means of the at least one secondary acceleration means 1 19 a displacement of the respective sheet 02 with respect to the transverse direction A and / or a pivoting movement of the respective arc 02 to an orthogonal to the transverse direction A extending Pivot axis and / or a setting of a phase angle of the respective sheet 02 to at least one subsequent, the sheet 02 transporting component of the sheet printing machine 01 takes place.
- a setting of a phase position is to be understood in particular that the movement of the sheet 02 along its
- the sheet 02 transporting component of the sheet printing machine 01 is coordinated so that a predetermined position of the sheet 02, for example, its leading end, with a predetermined position of the sheet 02 transporting device in contact.
- this is a movement of the sheet 02 along its transport path positively and / or negatively accelerated and / or the component 02 transporting the component is accelerated positive and / or negative, in particular before its contact with this sheet 02.
- the method is alternatively or additionally characterized in that the respective sheet 02 is aligned by means of the at least one secondary accelerating means 1 19 with respect to its position along the transport path, for example relative to a preceding sheet 02 and / or relative to a phase position of a
- a transport with a temporarily increased speed and / or a transport with a temporarily reduced speed influence this relative position. For example, then accelerates the at least one primary accelerator 136 on the bow already
- Processing speed and / or printing speed and the at least one secondary acceleration means 1 19 only takes over the fine alignment.
- Acceleration means 136 are arranged a plurality of subsets of primary acceleration means 136, the method is preferably alternatively or additionally characterized in that the subsets of primary acceleration means 136 perform mutually different motion sequences. For example, first a bottom bow 02 of a stack with acceleration means 136 of several of the
- Subsets in contact are preferably first accelerated synchronously and thereby drive this sheet 02.
- this sheet 02 comes out of contact with the first primary acceleration means 136 related to the transport path of the sheet 02, and subsequently with further primary acceleration means 136.
- the primary acceleration elements 136 Preferably, in a relative to a sheet 02 movement cycle of the primary acceleration elements 136, at least on the transport path of the sheet 02 relative to the first primary
- Accelerator 136 is always stopped when a first sheet 02 just gets out of contact with it and all of the primary accelerators 136 are then accelerated together again in a cycle of movement related to a subsequent sheet 02.
- a plurality of spacers 144.1; 144.2 are arranged independently movable at least with respect to the vertical direction V, the method is preferably alternatively or additionally characterized in that first the respective bottom sheet 02 of the corresponding stack on a reference to the intended transport path of the sheet 02 first spacer 144.1 and on a related to the intended transport path of the sheet 02 second
- Spacer 144.2 rests without touching the primary accelerator 136. These spacers 144.1; 144.2 are then in their respective stop position. The first spacer 144.1 and the second spacer 144.2 are then preferably lowered, whereby a contact between the bottom sheet 02 and the primary acceleration means 136 is formed. The primary accelerators 136 accelerate the arc along its transport path. Then first the first spacer 144.1 along the intended transport path is raised, so that the first lowermost sheet 02 comes out of contact with at least one of the primary acceleration means 136. In this way it is prevented that a subsequent sheet 02 with a moving at all or too fast primary
- Acceleration means 136 comes into contact, although this subsequent sheet 02 is not yet to move along the transport path. For example, in this way several or all spacers 144; 144.1; 144.2 always raised when a first sheet 02 is about to become out of contact or out of contact, and all the spacers 144; 144.1; 144.2 then lowered together in a related to a subsequent arc 02 cycle of movement again.
- At least one abutment device 300 is related to the intended transport path after a substrate supply device 100 and / or at least one
- the at least one contact device 300 preferably serves as exact as possible alignment of sheet 02. In this way it can be ensured that a subsequent processing of the sheet 02 as accurately as possible relative to the sheet 02 and thus also relative to previously performed on the sheet 02 edits.
- the sheets 02 are preferred depending on
- the sheets 02 leave the investment device 300 completely isolated.
- the abutment device 300 preferably has at least one alignment device 301.
- the alignment device 301 has, for example, at least one in particular drivable and / or driven alignment roller 302 and / or alignment roller 302, which is rotatable, for example, about a horizontal axis of rotation and about a
- Swivel axis is pivotable, which is oriented in particular parallel to a vertical direction.
- the alignment roller 302 and / or alignment roller 302 is designed to be movable, for example, partially or as a whole in the transverse direction A, in particular to be able to move sheet 02 in the transverse direction A and to move back again.
- the abutment device 300 has at least one pressure roller or pressure roller, by means of which the sheet 02 can be acted upon by a force against this alignment roller 302 and / or alignment roller 302.
- Alignment roll 302 and / or movement of the alignment roller 302 and / or alignment roller 302 in the transverse direction A a position of the respective sheet 02 are influenced.
- the Aligning device 301 has, alternatively or additionally, for example, a plurality of drivable and / or driven alignment rollers 302 and / or alignment rollers 302, which are arranged offset to one another, for example, in the transverse direction A. In particular by different driving of these alignment rollers 302 and / or
- Alignment rollers 302 allow sheet 02 to pivot about an axis oriented, for example, parallel to a vertical direction and / or to a direction orthogonal to the major surfaces of at least one arc 02. Such pivotable and / or with respect to the transverse direction A movable alignment rollers 302 and / or
- Alignment rollers 302, for example, a contact device 300 can be realized, which manages without contact between sheet 02 on the one hand and front marks 127 and / or page marks on the other hand.
- the alignment device 301 has, alternatively or additionally, for example, at least one stop, which is also referred to as a mark 127.
- the alignment device 301 has at least one front mark 127 and / or at least one side mark. By moving the sheet against this leading edge 127 and / or against this side mark the respective sheet 02 is forced into a defined and known position, from which he can then be transported on.
- the at least one contact device 300 has, for example, at least one
- This at least one inspection device 303 serves, for example, to detect a position of the respective sheet 02, for example, in order to be able to make a targeted change in the position and / or the information about the position of the respective sheet 02 in subsequent units 200; 400; 500; 550; 600; 700; 800; 900; 1000 to use. For example, information obtained in this way is used to align the sheets 02 without stops and / or during further transport.
- Inspection device 303 has, for example, at least one and preferably a plurality of, in particular, optical sensors which are designed, for example, as a camera and / or in particular in the transverse direction A are preferably arranged mechanically movable.
- the abutment device 300 preferably has at least one transport means 31 1, which is further preferably designed as a suction transport means 31 1.
- the above in the preceding and hereinafter described on suction transport means preferably applies accordingly.
- the abutment device 300 preferably has at least one own drive M300 or motor 300, in particular electric motor M300 or position-controlled electric motor M300, which is more preferably arranged capable of driving and / or driving at least one transport means 31 1.
- the contact device 300 has at least one pressure roller or pressure roller, by means of the sheet 02 against the at least one transport means 31 1 can be acted upon by a force.
- the abutment device 300 preferably has at least one transfer means 03 for sheet 02. The one by the
- Transport path is preferably substantially flat and more preferably completely flat and is preferably formed substantially and more preferably exclusively horizontally extending.
- the preferably designed as an aggregate 300 and / or module 300 conditioning device 300 is characterized alternatively or additionally characterized in that by
- Transport path on an entrance level of the investment device 300 begins and / or ends at an initial height of the investment device 300.
- the abutment device 300 is characterized in that this input height of the abutment device 300 deviates from the first standard height by at most 5 cm, more preferably at most 1 cm and even more preferably at most 2 mm, and / or the starting height of the abutment device 300 from the first Standard height by more than 5 cm, more preferably at most 1 cm and even more preferably deviated by at most 2 mm and / or that the input height of the contactor 300 from the initial height of Investment device 300 deviates by at most 5 cm, more preferably at most 1 cm and even more preferably by at most 2 mm.
- Embodiments of the coating unit 400; 600; 800 in particular printing units 600 and coating units 800.
- At least one coating unit 400 designed as a primer 400 or a primer 400 is arranged.
- the at least one primer 400 preferably serves as a
- the primer facilitates, for example, a subsequent processing of the sheet 02, for example a
- At least one further coating agent which is in particular formed as an ink and / or at least one further coating agent, which is in particular formed as an ink and / or at least one further
- Coating agent which is designed in particular as a lacquer.
- the flexo coating unit 400; 600; 800 preferably has at least one coating agent supply 401; 601; 801 on.
- the coating agent supply 401; 601; 801 is more preferably in the case of a primer 400
- the Flexobe harshungsaggregat 400; 600; 800 preferably has at least one application cylinder 402; 602; 802, which serves to apply coating agent on sheet 02 and is provided in particular for contact with sheet 02.
- the application cylinder 402; 602; 802 is for example as a forme cylinder 402; 602; 802 formed, in particular in the case of a primer 400 as
- On the forme cylinder 402; 602; 802 is preferably at least one removable elevator in the form of at least one removable coating form, in particular primer or printing form or
- This elevator serves to determine in which areas coating agent is to be transferred and optionally in which not.
- the respective elevator is preferably by means of at least one corresponding holding device, in particular clamping device and / or clamping device on a lateral surface of the application cylinder 402, 602; 802 can be arranged and / or arranged and preferably fixable and / or fixed.
- supply roller 403; 603; 803 and application cylinder 402; 602; 802 too at least one further transfer roller for coating agent may be arranged.
- the supply roller 403; 603; For example, 803 is in the case of
- the supply roller 403; 603; 803 is preferably at least one buffer 404; 604; 804 for coating agents in contact and / or in
- This is preferably as a chambered doctor blade 404; 604; 804 trained.
- an anilox roller 403; 603; 803 formed supply roller 403; 603; 803 is therefore preferably at least one chambered doctor blade 404; 604; 804 in contact and / or in operative connection.
- Latch 404; 604; 804 preferably has at least one feed line 406; 606; 806, and more preferably also via at least one derivative 407; 607; 807 with the at least one coating agent supply 401; 601; 801 in connection.
- the supply line 406; 606; 806 and / or the derivative 407; 607; 807 is preferably in operative connection with at least one pumping device.
- Preferred is an apparatus for assisted and / or automated and / or semi-automated installation and / or removal of the supply roller 403; 603; 803 arranged.
- At least one counter-pressure means 408 is preferred; 608; 808 arranged as
- the at least one counter-pressure means 408; 608; For example, 808 is called
- Counterpressure 408; 608; 808 formed as a counter-pressure belt.
- the intended for sheet 02 transport path preferably extends between the forme cylinder 402; 602; 802, on the one hand, and the counter-pressure means 408; 608; 808, in particular impression cylinder 408; 608; 808 on the other hand.
- Form cylinder 402; 602; 802, on the one hand, and counter-pressure means 408; 608; On the other hand, 808 preferably together form at least one
- Coating site 409; 609; 809 especially in the case of a Primer 400 as primer 409 and / or in the case of
- Compressor 600 is designed as a pressure point 609 and / or in the case of a coating unit 800 as Lackierstelle 809.
- an axis of rotation of the impression cylinder 408 extends; 608; 808 at least partially parallel to the transverse direction A, more preferably always.
- the coating unit 400; 600; 800 is for example as from above
- the selection preferably takes place depending on how further units of the processing machine 01 are constructed and / or arranged and / or which side of the sheet 02 is to be processed.
- coating unit 400; 600; 800 coating unit 400 which can be coated from above and / or coated from above; 600; 800 and at the same time as Flexobe harshungsaggregat 400; 600; 800 is formed, is the preferred
- Flexo coating unit 400; 600; 800 is formed, is the preferred
- the supply roller 403; 603; 803 from the application cylinder 402; 602; 802 ab suit and / or arranged to be movable on this.
- a corresponding first displacement device, in particular lifting device is preferably arranged.
- Rotation axis of the application cylinder 402; 602; 802 remains unchanged.
- preference is also the order cylinder 402; 602; 802 from the back pressure means 408; 608; 808, in particular impression cylinder 408; 608; 808 ab suitably together with the supply roller 403; 603; 803.
- a corresponding second displacement device is preferred,
- both the application cylinder 402; 602; 802 also the
- Displacement device has.
- At least one diagonal register adjustment device is preferably arranged,
- the at least one diagonal register adjustment device has, for example, at least one and more preferably two rotational bearings, in particular radial bearings, which are displaceable relative to the transport direction T provided for sheet 02, and which support a rotatable mounting of the application cylinder 402; 602; 802 serve. If this at least one rotation bearing at least with a component in or against the
- Moving direction T moves or these two rotary bearings are moved at least with different components in or against the transport direction T, so results in an inclination of the axis of rotation of the application cylinder 402; 602; 802. In this way results in comparison to previously oblique transmission of
- Diagonal register adjustment device preferably at least one on the application cylinder 402; 602; 802 arranged positioning means, by means of which a position of the elevator relative to the lateral surface of the application cylinder 402, 602; 802 is fixed and / or fixed.
- the at least one diagonal register adjustment device has at least one pivotable suspension rail for elevators, into which the at least one elevator is suspended, for example, by means of a particular leading-in suspension element and / or can be suspended.
- the coating unit 400; 600; 800 preferably has at least one incoming transport means 41 1; 61 1; 81 1 on.
- the at least one incoming transport means 41 1; 61 1; 81 1 is preferably along the transport path provided for sheet 02 and / or with respect to the transport direction T in front of a first coating station 409; 609; 809 of the respective coating unit 400; 600; 800 arranged.
- the at least one incoming transport means 41 1; 61 1; 81 1 serves, for example, sheet 02 at least the first coating station 409; 609; 809, in particular from an input 412; 612; 812 of the coating unit 400; 600; 800 off.
- the at least one incoming transport means 41 1; 61 1; 81 1 thus serves, for example, to feed sheet 02 to the primer 409, in particular from an entrance 412 of the primer 400 and / or to feed sheet 02 to the printing location 609, in particular from an entrance 612 of the printing unit 600 and / or to the sheet 02 the Lackierstelle 809 supply, in particular from an input 812 of the coating unit 800 from.
- the at least one incoming transport means 41 1; 61 1; 81 1 is preferred as a suction transport 41 1; 61 1; 81 1 formed, in particular as a suction belt 41 1; 61 1; 81 1 and / or as Saugkastenband 41 1; 61 1; 81 1 and / or as Roller suction system 41 1; 61 1; 81 1.
- the above in the preceding and hereinafter described on suction transport means preferably applies accordingly.
- the at least one incoming transport means 41 1; 61 1; 81 1 is, for example, as the upper suction transport means 41 1; 61 1; 81 1 formed whose suction or suction preferably at least substantially point down and / or its suction is preferably directed at least substantially upwards.
- the selection is for example of upstream aggregates and / or of the
- the coating unit 400; 600; 800 formed, for example, without incoming transport.
- a previously arranged unit is designed so that a transfer of the sheet 02 directly to the coating site 409; 609; 809 can be done. This is possible, for example, if the previously arranged unit as
- Transport device 700 in particular transport unit 700 or transport module 700 is formed.
- the coating unit 400; 600; 800 preferably has at least one outgoing means of transport 417; 617; 817 on.
- the at least one outgoing transport means 417; 617; 817 is along the transport path provided for sheet 02 and / or with respect to the transport direction T preferably after the coating station 409; 609; 809
- the at least one outgoing transport means 417; 617; 817 serves, for example, sheet 02 from the coating station 409; 609; Discharge 809, in particular to an output 413; 613; 813 of the coating unit 400; 600; 800 back and / or after a processing of the respective sheet 02 in the
- the at least one outgoing means of transport 417; 617; 817 thus serves, for example, to discharge sheet 02 from the priming point 409, in particular to an outlet 413 of the priming unit 400 and / or to discharge sheet 02 from the printing location 609, in particular to an exit 613 of the printing unit 600 and / or to Extract sheet 02 from the Lackierstelle 809, in particular to an output 812 of the coating unit 800 out.
- the at least one outgoing transport means 417; 617; 817 is preferred as
- Suction transport means 417; 617; 817 formed, in particular as a suction belt 417; 617; 817 and / or as Saugquetband 417; 617; 817 and / or as a roller suction system 417; 617; 817. What has been described in the foregoing and hereinafter by means of suction transport means preferably applies correspondingly.
- the at least one outgoing transport means 417; 617; 817 is, for example, as upper suction transport means 417; 617; 817 whose suction openings or suction openings preferably at least substantially point downwards and / or whose suction effect is preferably directed at least substantially upwards.
- this is at least one outgoing means of transport 417; 617; 817 as lower suction conveying means 417; 617; 817 whose suction openings or suction openings preferably have at least substantially upwards and / or whose suction effect is preferably directed at least substantially downwards.
- the selection depends, for example, on whether the coating unit 400; 600; 800 as top coatable and / or top coatable
- Coating unit 400; 600; 800 or coating machine 400 capable of coating from below and / or coated from below; 600; 800 is formed.
- a coating unit 400 which is capable of being coated from above and / or coated from above, preferably has a coating unit 400; 600; 800 as a lower suction transport 417; 617; 817 trained outgoing transport 417; 617; 817 and / or has a coatable as from below and / or bottom coat able
- Transport means 417; 617; 817 could be damaged. Alternatively, that is
- Coating unit 400; 600; 800 formed, for example, without leaking transport.
- an aggregate arranged thereafter is preferably designed such that a transfer of the sheets 02 directly from the coating station 409; 609; 809 can be made.
- the unit arranged thereafter is designed as a transport device 700 or transport means 700, in particular a transport unit 700 or a transport module 700.
- this has at least one as Flexobe Anlagenngsaggregat 400; 600; 800 trained coating unit 400; 600; 800 in each case at least one own, in particular integrated drying device 500 or assigned to it
- a coating unit 400; 600; 800 made as non-impact coating unit 400; 600; 800, in particular non-impact coating module 400; 600; 800, so for example as
- Ink jet coating unit 400; 600; 800 and / or jet coating module 400; 600; 800, in particular ink-jet coating module 400; 600; 800 trained is. Insofar as this does not give rise to contradictions, what has been described is analogous to other embodiments of the coating unit 400; 600; 800 transferable, in particular to other Non Impact printing unit 600.
- the coating unit 400; 600; 800 transferable, in particular to other Non Impact printing unit 600.
- Jet coating unit 400; 600; 800 preferably has at least one printhead 416; 616; 816 on.
- the at least one printhead 416; 616; 816 is used, for example, as an ink jet printhead 416; 616; 816 trained.
- the jet coating unit 400; 600; 800 is the example of a
- Beam printing unit 600 in particular ink jet printing unit 600 and / or jet printing module 600 described. But the same applies to one
- Jet priming unit 400 in particular jet primer module 400, and / or a jet-coating unit 800, in particular jet-painting module 800.
- the at least one jet coating aggregate 400; 600; 800 in particular
- the processing machine 01 preferably again has at least one coating station 409; 609; 809, in particular pressure point 609 on.
- a coating station 409; 609; 809, in particular pressure point 609 is also in the case of a non-impact coating unit 400; 600; 800 a preferred complete range to understand, in the contact between a respective same coating agent, in particular ink, on the one hand and a respective sheet 02 on the other hand is produced or can be produced.
- the term coating site 409; 609; 809, in particular pressure point 609 should also be used when the coating agent without contact between sheet 02 on the one hand and one
- coating component-transmitting component is applied to the sheet 02, for example by impinging freely movable coating agent on the sheet 02, for example flying drops of the coating composition.
- a coating site 409; 609; 809, in particular pressure point 609 all areas which are responsible for an impact of a particular, in particular this
- Coating site 409; 609; 809, in particular pressure point 609 assigned Coating agent are provided on the sheet 02. In the case of one after the
- a printing location 609 includes all areas that are provided for impinging, for example, a black ink on a first side of the sheet 02.
- the at least one coating unit 400; 600; 800, in particular printing unit 600 preferably has a plurality of coating locations 409; 609; 809, in particular
- Pressure points 609 each associated with a respective coating agent, for example, at least four coating sites 409; 609; 809, in particular
- Pressure points 609 preferably at least five coating sites 409; 609; 809, in particular pressure points 609, more preferably at least six coating sites 409; 609; 809, in particular pressure points 609 and even more preferably at least seven coating sites 409; 609; 809, in particular pressure points 609.
- non-impact coating units 400; 600; 800 in particular
- Inkjet coating units 400; 600; 800 trained coating units 400; 600; 800 thus preferably each have at least several, in particular at least four, preferably at least five, more preferably at least six and even more preferably at least seven coating sites 409; 609; 809 on.
- a plurality of non-impact coating units 400 are accordingly; 600; 800, in particular Non Impact
- Printing units 600 arranged.
- non-impact coating units 400; 600; 800 in particular in jet coating units 400; 600; 800 such as
- Ink jet printing units 600 are, for example, water-based
- Coating compositions and / or wax-based coating compositions and / or UV-curing coating compositions are used.
- Optionally arranged dryer units 500 are preferably formed matched to the corresponding coating agent, ie, for example, energy sources in the form of infrared radiation sources and / or UV radiation sources and / or hot air sources and / or
- Each coating site 409; 609; 809, in particular pressure point 609 preferably has at least one application point 418; 618; 818 on.
- Each job site 418; 618; 818 is preferably at least one image-forming device 416; 616; 816 associated, in particular at least one printhead 416; 616; 816 and more preferably at least one print head row.
- Each job site 418; 618 818 preferably extends in the transverse direction A, more preferably over the entire working width of the
- the at least one image forming device 416; 616; 816 is preferred as at least one printhead 416; 616; 816, in particular inkjet printhead 416; 616; 816 trained.
- the at least one coating unit 400; 600; 800 preferably has at least two printheads 416; 616; 816 on. For example, this is at least one
- Coating unit 400; 600; 800 characterized in that the at least two printheads 416; 616; 816 as printheads 416 designed for a non-impact printing process; 616; 816 are formed, and more preferably characterized in that the at least two print heads 416; 616; 816 as ink jet printhead 416; 616; 816 are formed.
- Image forming devices 416; 616; 816 such as printheads 416; 616; 816 usually have a limited dimension, especially in the transverse direction A.
- Such with respect to the transverse direction A successively arranged printheads 416; 616; 816 are called print head series.
- At least one coating agent has a plurality of application sites 418; 618; 818, for example, in the form that two continuous rows or two double rows of printheads 416; 616; 816 are capable of ejecting or expelling the same coating agent. This is useful, for example
- a resolution with respect to the transverse direction A is preferably 1200 dpi (1200 pixels per inch).
- the resolution with respect to the transport direction T is determined by the number of print heads 416; 616; 816 and / or influenced by the transport speed of the sheet 02.
- a coating unit 400; 600; For example, 800 includes only one
- Coating site 409; 609; 809, in particular pressure point 609 for example for the color black.
- Coating sites 409; 609; 809, in particular pressure points 609 may connect directly to one another spatially or be spaced apart from each other, for example, separated by color. Under the term one
- Coating site 409; 609; 809, in particular pressure point 609 should also fall a section that -. B. without interruption by another color - several successive order locations 418; 618; 818 of the same color. However, if one or more jobs are 418; 618; 818 of a color along the for bow 02
- a coating station 409; 609; 809, in particular pressure point 609 a contact area between a transfer body and the respective sheet 02.
- the jet coating assembly 400; 600; 800 at least one counter-pressure means 408; 608; 808, but preferably does not serve to pinch the sheet 02, but only to hold in position. At least one
- Counterpressure 408; 608; 808 is for example as a counter-pressure belt 408; 608; 808 and / or as a means of transport 41 1; 417; 61 1; 617; 81 1; 817, in particular
- Suction transport means 41 1; 417; 61 1; 617; 81 1; 817 trained.
- the jet coating unit 400; 600; 800 seen in the transport direction T only one means of transport 41 1; 417; 61 1; 617; 81 1; 817, which is more preferred than
- Suction transport means 41 1; 417; 61 1; 617; 81 1; 817 is formed and at the same time as incoming transport means 41 1; 61 1; 81 1 and / or as a counter-pressure means 408; 608; 808 and / or as outgoing means of transport 417; 617; 817 is formed.
- the coating unit 400; 600; 800 as a jet coating unit 400; 600; 800 is formed, it is preferably also as from above coated and / or coated from the top capable coating unit 400; 600; 800 formed, in particular because of the commonly used designs of printheads 416; 616; 816. Then, the printheads 416; 616; 816 above the transport path provided for sheet 02 and / or above, for example, as a means of transport 41 1; 417; 61 1; 617; 81 1; 817 formed counter pressure means 408; 608; 808 arranged. Using suitable printheads 416; 616; 816 can do that
- Jet coating unit 400; 600; 800 but in principle also as from below coating and / or coatable from below coating unit 400; 600; 800 be formed.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that at least one non-impact coating unit 400; 600, 800 or non-impact coating module 400; 600, 800 at least two, more preferably at least three, and even more preferably at least four along a provided for sheet 02 transport path one behind the other, with respect to at least one coupling device 422; 622; 822 matching receptacles 421; 621; 821, each for selectively receiving one each as at least one
- Preference is given to a system comprising at least one sheet-fed printing machine as described above and / or below and at least one as
- At least one of the receiving devices 421 is preferred; 621; 821 having at least one and more preferably exactly one as a printhead assembly 424; 624; 824
- Receiving devices 421; 621; 821 having at least one, and more preferably, just one standard assembly 424 configured as a dryer assembly 504; 504; 624; 824 occupied.
- a dryer assembly 504 claims the space of a receiving device 421; 621; 821 or the location of a plurality of receptacles 421; 621; 821.
- the sheet-fed printing press 01 is thus characterized as an alternative or additionally characterized in that at least two of the receptacles 421; 621; 821 with each other over at least a part of these at least two
- Receiving devices 421; 621; 821 extending drying device 506 are occupied. Alternatively or additionally, at least one, in particular at least one other of the receiving devices 421; 621; 821 blank, so is free.
- the standard assemblies 424; 504; 624; 824 are preferably alternative to each other in the receiving devices 421; 621; 821 can be arranged.
- Printhead assembly 424; 624; 824 or a dryer assembly 504 can be arranged.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that all standard assemblies 424; 504; 624; 824 are constructed identically with respect to at least one geometric parameter.
- This at least one geometric parameter is, for example, a width of an available installation space and / or an arrangement of elements which are suitable for fastening the respective one
- Standard assembly 424; 504; 624; 824 serve.
- the sheet-fed printing machine 01 is characterized alternatively or additionally in that each of the receiving devices 421; 621; 821 each at least one
- Standard assembly 424; 504; 624; 824 is available or serves.
- 821 is made standardized arranged and executed threaded holes in side walls 428; 628; 828 of a rack 427; 627; 827 of at least one non-impact
- the sheet-fed printing machine 01 is characterized alternatively or additionally by the fact that the at least one coupling device 422; 622; 822 at least three and more preferably at least four of the frame 427; 627; 827 of the at least one non-impact coating unit 400; 600; 800 or non-impact coating module 400; 600; 800 associated coupling receptacles 423; 623; 823, which are each arranged in pairs relative standard distances defining and that each of the particular arranged standard assemblies 424; 504; 624; 824 has at least three and more preferably at least four coupling elements which, in particular with respect to respective contact points in pairs in the by the coupling receptacles 423; 623; 823 fixed relative standard distances are arranged to each other and further preferred as respective counterparts to these
- Coupling receptacles 423; 623; 823 are formed.
- the coupling receptacles 423; 623; 823 are designed, for example, as bores and / or recesses and / or bolts and / or screws and / or supports and / or stops.
- the coupling receptacles 423; 623; 823 are arranged, for example, by respective intended contact points in pairs relative standard distances.
- the sheet-fed printing press 01 is alternatively or additionally characterized in that the at least one print head assembly 424; 624; 824 trained standard assembly 424; 504; 624; 824 at least one in the transverse direction A, in particular over an entire working width of the at least one non-impact
- Coating unit 400; 600, 800 or non-impact coating module 400; 600; 800 extending row of printheads 416; 616; 816 has.
- the sheet-fed printing press 01 is alternatively or additionally characterized in that the at least one print head assembly 424; 624; 824 trained standard assembly 424; 504; 624; 824 at least two in the transverse direction A, in particular over an entire working width of the at least one Non Impact coating unit 400; 600, 800 or non-impact coating module 400; 600; 800 extending rows of
- Printheads 416; 616; 816 and that areas of action of these at least two rows of printheads 416; 616; 816 are arranged one behind the other with respect to the transport path provided for sheet 02.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that a total of at least four and more preferably exactly four in the
- Transverse direction A extending rows of printheads 416; 616; 816 are arranged and that Einwirk Schemee these at least four rows of printheads 416; 616; 816 are arranged one behind the other with respect to the transport path provided for sheet 02.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that a total of at least eight and more preferably exactly eight rows of print heads 416; 616; 816 are arranged and that Einwirk Schemee these at least eight rows of printheads 416; 616; 816 are arranged one behind the other with respect to the transport path provided for sheet 02.
- the sheet-fed printing machine 01 is alternatively or additionally characterized in that at least one of the non-impact coating modules 600 is designed as a printing module 600 and / or is designed as an inkjet coating module 600 and / or at least one inkjet printhead 416; 616; 816 has.
- printhead assemblies 424; 624; 824 are also assemblies 424; 624; 824, which are not formed as standard assemblies, but a plurality of print heads 416; 616; 816, which are arranged movably together and / or together a print head row or a double row of print heads 416; 616; Make 816.
- dryer assemblies 504 and assemblies 504 are referred to, not as
- Standard modules are formed, but energy delivery devices 501; 502; 503 or include further elements which are arranged to be movable together and / or together form a drying device 506.
- At least one printhead 416 is preferred; 616; 816 with at least one
- Positioning device 426; 626; 826 connected and / or connectable, in particular with at least one positioning device 426; 626; 826 for positioning the at least one printhead 416; 616; 816 and / or at least one printhead assembly 424; 624; 824. More preferably, the at least one printhead 416; 616; 816 permanently with the at least one positioning device 426; 626; 826 connected and only too
- the sheet-fed printing machine 01 is characterized alternatively or additionally by the fact that at least one print head assembly 424; 624; 824 trained
- Positioning device 426; 626; 826 by means of the at least all the printheads 416; 616; 816 of this respective printhead assembly 424; 624; 824 in particular together relative to a frame 427; 627; 827 of the at least one non-impact coating unit 400; 600, 800 or non-impact coating module 400; 600; 800 are arranged movable, in particular at least with respect to a vertical direction V and / or at least 0.5 cm, more preferably at least 2 cm and even more preferably at least 10 cm are arranged movable.
- all printheads 416; 616; 816 of a respective printhead assembly 424; 624; 824 by means of the positioning device 426; 626; 826 of this respective printhead assembly 424; 624; 824 optionally at least either in a respective associated printing position can be arranged or arranged in at least one respective associated rest position.
- the at least one printhead 416; 616; 816 in particular by means of at least one positioning device 426; 626; 826 in at least one rest position and more preferably in at least two different rest positions can be arranged.
- the at least one rest position is formed, for example, as at least one maintenance position and / or as at least one mounting position.
- a maintenance position is preferably a position in which the at least one print head 416; 616; 816 can be maintained, for example, cleaned and / or aligned and / or stored in a particular secured against contamination and / or drying out state, in particular without the at least one printhead 416; 616; 816 from the sheet-fed printing machine 01 and / or the respective non-impact
- a mounting position is preferably a position in which the at least one print head 416; 616; 816 from the sheet-fed printing machine 01 and / or the respective non-impact coating unit 400; 600, 800 or Non Impact
- Coating module 400; 600; Taken 800 and / or in the sheetfed press 01 and / or the respective non-impact coating unit 400; 600, 800 or non-impact coating module 400; 600; 800 can be used.
- more space is preferably available to connect to the at least one print head 416; 616; 816, while preferably only enough space is available in the maintenance position to be able to carry out internal processes, in particular automatically, within the sheet-fed printing press 01, for example a cleaning of a nozzle surface of at least one print head 416; 616; 816th
- a distance between a respective print head 416 is preferred; 616; 816 on the one hand and a respective conveyor belt 718; 726, on the other hand, with respective print heads 416 arranged in respective printing positions; 616; 816 smaller than in each case
- the at least one positioning device 426; 626; 826 at least one positioning guide and more preferably a plurality of positioning guides and even more preferably one positioning guide per movable
- standard assemblies 504 designed as a dryer assembly 504 and / or dryer assembly 504 not configured as a standard assembly 504 also have a positioning device, for example.
- a positioning device for example.
- Embodiment of the at least one positioning device 426; 626; 826 has the at least one positioning device 426; 626; 826 at least one linear positioning guide, preferably in the form of a rail, and more preferably a plurality of positioning guides, preferably four rails, and even more preferably at least one positioning guide per movable printhead assembly 424; 624; 824 and / or per movable
- Standard assembly 424; 504; 624; 824 Preferably, and in particular when the at least one positioning guide is formed as at least one rail, the travel of the respective printhead assembly 424; 624; 824 and / or dryer assembly 504 and / or standard assembly 424; 504; 624; 824 formed linear.
- the respective positioning device 426; 626; 826 and / or the respective positioning guide for example, in contact with the respective side wall 428; 628; 828 of the frame 427; 627; 827 and / or with at least one respective coupling receptacle 423; 623; 823.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Ink Jet (AREA)
- Handling Of Sheets (AREA)
- Delivering By Means Of Belts And Rollers (AREA)
- Supply, Installation And Extraction Of Printed Sheets Or Plates (AREA)
- Rotary Presses (AREA)
Abstract
Description
Claims
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DE102017212987.5A DE102017212987B4 (de) | 2017-07-27 | 2017-07-27 | Bogendruckmaschine |
PCT/EP2018/069390 WO2019020434A1 (de) | 2017-07-27 | 2018-07-17 | Bogendruckmaschine mit gestell für ein bogentransportband |
Publications (2)
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EP3658378A1 true EP3658378A1 (de) | 2020-06-03 |
EP3658378B1 EP3658378B1 (de) | 2021-06-16 |
Family
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EP18743004.6A Active EP3658378B1 (de) | 2017-07-27 | 2018-07-17 | Bogendruckmaschine mit gestell für ein bogentransportband |
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EP (1) | EP3658378B1 (de) |
JP (1) | JP6844040B2 (de) |
CN (1) | CN111372780B (de) |
DE (1) | DE102017212987B4 (de) |
IL (1) | IL270968B (de) |
WO (1) | WO2019020434A1 (de) |
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DE102019114983B3 (de) * | 2019-06-04 | 2020-08-20 | Koenig & Bauer Ag | Vorrichtung und Verfahren zum Transport in einer Bogenbearbeitungsmaschine mit einem Transportband |
DE102019114982B3 (de) * | 2019-06-04 | 2020-08-20 | Koenig & Bauer Ag | Vorrichtung zum Transport in einer Bogenbearbeitungsmaschine mit einem Transportband |
KR102172301B1 (ko) * | 2019-06-10 | 2020-10-30 | 신명하이텍 주식회사 | 입체 디지털 프린팅 장치 |
DE102019119372A1 (de) | 2019-07-17 | 2021-01-21 | Koenig & Bauer Ag | Bearbeitungsmaschine zur Bearbeitung von Bogen und Verfahren zur Bearbeitung von Bogen |
DE102020125389A1 (de) | 2020-09-29 | 2022-03-31 | Koenig & Bauer Ag | Bogendruckmaschine mit einer Vorrichtung zur Reduzierung von Verwirbelungen auf einem Bogen |
CN112304039B (zh) * | 2020-10-10 | 2022-03-22 | 湖北太升包装有限公司 | 一种堆垛瓦楞纸干燥装置和方法 |
US20220144573A1 (en) * | 2020-11-09 | 2022-05-12 | Prototype And Production Systems, Inc. | Segmented conveyor for high resolution color inkjet printing with reduced print defects |
DE102022102706A1 (de) * | 2022-02-04 | 2023-08-10 | Koenig & Bauer Ag | Bearbeitungsmaschine sowie Verfahren zur relativen Ausrichtung eines Substrates zu einem Bearbeitungsaggregat in einer Bearbeitungsmaschine |
DE102022102707A1 (de) * | 2022-02-04 | 2023-08-10 | Koenig & Bauer Ag | Bearbeitungsmaschine sowie Verfahren zur Ausrichtung eines Substrates in einer Bearbeitungsmaschine |
CN114801437A (zh) * | 2022-06-09 | 2022-07-29 | 华玻视讯(珠海)科技有限公司 | 旋转式玻璃丝印烘烤生产线 |
NL2032610B1 (en) * | 2022-07-27 | 2024-02-05 | Canon Kk | A transport device with quadrual drive for a scanning inkjet printer |
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DE10227241A1 (de) | 2002-06-19 | 2004-01-15 | Koenig & Bauer Ag | Steuerung für Rotationsdruckmaschinen |
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CN101111386B (zh) * | 2004-12-03 | 2010-06-16 | 富士胶卷迪马蒂克斯股份有限公司 | 打印装置 |
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CA2628601C (en) * | 2008-04-07 | 2011-09-27 | Carmine Franco | System and method for producing a window shade with a natural material printed image coating |
JP4979648B2 (ja) * | 2008-07-22 | 2012-07-18 | 株式会社リコー | 画像形成装置 |
JP5825762B2 (ja) * | 2010-05-13 | 2015-12-02 | キヤノン株式会社 | プリント装置およびプリント装置の制御方法 |
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DE102011088776B3 (de) * | 2011-12-16 | 2013-01-17 | Koenig & Bauer Aktiengesellschaft | Rotationsdruckmaschine |
JP5939829B2 (ja) * | 2012-02-17 | 2016-06-22 | キヤノン株式会社 | シート給送装置及び画像形成装置 |
ES1108831Y (es) * | 2012-09-21 | 2014-08-04 | Pedro Benito | Sistemas de recirculacion de tinta y estructuras asociadas mejorados |
DE102015111525A1 (de) * | 2014-08-08 | 2016-02-11 | manroland sheetfed GmbH | Modulare Inkjet-Druckeinrichtung |
EP3020558B1 (de) * | 2014-11-13 | 2017-06-28 | OCE-Technologies B.V. | Transportmechanismus und -verfahren zum transportieren eines druckmediums in einem drucksystem |
DE102016202124A1 (de) * | 2015-03-19 | 2016-09-22 | Heidelberger Druckmaschinen Ag | Duplexdigitaldruckmaschine |
-
2017
- 2017-07-27 DE DE102017212987.5A patent/DE102017212987B4/de active Active
-
2018
- 2018-07-17 JP JP2019569912A patent/JP6844040B2/ja active Active
- 2018-07-17 US US16/621,285 patent/US10967630B2/en active Active
- 2018-07-17 EP EP18743004.6A patent/EP3658378B1/de active Active
- 2018-07-17 CN CN201880040430.2A patent/CN111372780B/zh active Active
- 2018-07-17 WO PCT/EP2018/069390 patent/WO2019020434A1/de active Application Filing
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Also Published As
Publication number | Publication date |
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CN111372780A (zh) | 2020-07-03 |
US10967630B2 (en) | 2021-04-06 |
IL270968A (en) | 2020-01-30 |
JP2020524120A (ja) | 2020-08-13 |
WO2019020434A1 (de) | 2019-01-31 |
DE102017212987B4 (de) | 2020-09-03 |
JP6844040B2 (ja) | 2021-03-17 |
EP3658378B1 (de) | 2021-06-16 |
CN111372780B (zh) | 2021-04-02 |
IL270968B (en) | 2021-01-31 |
DE102017212987A1 (de) | 2019-01-31 |
US20200156365A1 (en) | 2020-05-21 |
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