EP3908466B1 - Auftragaggregat mit positioniervorrichtung und speichereinrichtung - Google Patents

Auftragaggregat mit positioniervorrichtung und speichereinrichtung Download PDF

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Publication number
EP3908466B1
EP3908466B1 EP19758396.6A EP19758396A EP3908466B1 EP 3908466 B1 EP3908466 B1 EP 3908466B1 EP 19758396 A EP19758396 A EP 19758396A EP 3908466 B1 EP3908466 B1 EP 3908466B1
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EP
European Patent Office
Prior art keywords
storage
support body
unit
application
transfer
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.)
Active
Application number
EP19758396.6A
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German (de)
English (en)
French (fr)
Other versions
EP3908466A1 (de
Inventor
Volker Rauh
Andreas Bernard
Kristina Freisinger
Rudolf Geldhauser
Lars Keil
Michael Koblinger
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Koenig and Bauer AG
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Koenig and Bauer AG
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Filing date
Publication date
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Publication of EP3908466A1 publication Critical patent/EP3908466A1/de
Application granted granted Critical
Publication of EP3908466B1 publication Critical patent/EP3908466B1/de
Active legal-status Critical Current
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F31/00Inking arrangements or devices
    • B41F31/30Arrangements for tripping, lifting, adjusting, or removing inking rollers; Supports, bearings, or forks therefor
    • B41F31/304Arrangements for inking roller bearings, forks or supports
    • B41F31/307Sliding bearings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F13/00Common details of rotary presses or machines
    • B41F13/08Cylinders
    • B41F13/24Cylinder-tripping devices; Cylinder-impression adjustments
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F31/00Inking arrangements or devices
    • B41F31/30Arrangements for tripping, lifting, adjusting, or removing inking rollers; Supports, bearings, or forks therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F5/00Rotary letterpress machines
    • B41F5/24Rotary letterpress machines for flexographic printing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F13/00Common details of rotary presses or machines
    • B41F13/0016Storage devices for printing cylinders
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41PINDEXING SCHEME RELATING TO PRINTING, LINING MACHINES, TYPEWRITERS, AND TO STAMPS
    • B41P2200/00Printing processes
    • B41P2200/10Relief printing
    • B41P2200/12Flexographic printing

Definitions

  • the invention relates to an application unit with a positioning device and storage device according to the preamble of claim 1.
  • Anilox rollers and forme cylinders with exchangeable covers are usually used in flexographic printing units.
  • the properties of the outer surface of the anilox roller have a significant influence on the amount of coating agent or application fluid that is transferred. It is therefore common to use a suitable anilox roller depending on the print job.
  • Various devices are known for installing, removing or replacing anilox rollers.
  • an application unit with a storage device for supply rollers is known.
  • Supply rollers are removed laterally from a storage device, lowered by means of a transport lift and then stored laterally in the storage device.
  • an application unit in which a stationary threaded spindle is arranged, on which respective cylinders can be supported via their own drives and respective drive wheels.
  • an application unit which has a storage device for supply rollers arranged above a printing unit.
  • an application unit with a printing unit is known, a magazine with four storage receptacles being able to be arranged above the printing unit and rollers being interchangeable between the printing unit and the storage locations by means of a crane.
  • a flexographic printing unit with replaceable anilox rollers is known.
  • One embodiment has a positioning device with a linear guide.
  • Another exemplary embodiment has a storage device with a movable relocating device and a plurality of storage receptacles that can be arranged in different storage positions.
  • a flexographic printing unit which has a roller storage area and a positioning device with pivotable and telescopically extendable actuating devices, by means of which anilox rollers can be removed upwards from the printing unit and fed to the roller storage area.
  • a flexographic printing unit in which anilox rollers can be raised by means of a linearly movable component of a handling device. In order to bring the roller to a storage position, a further linear movement in a direction orthogonal thereto or an additional pivoting movement must be carried out.
  • a flexographic printing unit in which three anilox rollers are arranged in a pivotable frame and can thus be alternately brought into contact with a forme cylinder.
  • the DE 198 48 773 A1 shows a flexographic printing machine with a plurality of printing units, with a guide track being arranged in each of the printing units, on which both the printing roller bearing blocks and the anilox roller bearing blocks can be moved.
  • Levers are pivotally connected to the anilox roller bearing blocks, which are used to fix removable chamber doctor blades. With respect to the guideway, these levers can only be moved together with the anilox roller bearing blocks.
  • a flexographic printing unit which has a magazine for anilox rollers, the magazine having a holding means for each storage receptacle, which is fastened to the magazine and arranged so as to be rotatable with it.
  • the object of the invention is to create an application unit with a positioning device and storage device.
  • An application unit is preferred, the application unit having at least one application unit with at least one impression cylinder, at least one forme cylinder and at least one supply roller and preferably at least one positioning device.
  • the application unit preferably has at least one flexo application unit.
  • the positioning device preferably has at least one linear guide.
  • the application unit is preferably characterized in that the positioning device has at least one main supporting body and more preferably that the at least one main supporting body is preferably guided through the at least one linear guide and/or along the at least one linear guide and/or is arranged so as to be particularly linearly movable counter to an adjustment direction and/or that the forme cylinder is more preferably arranged rotatably on the at least one main supporting body by means of at least one roller bearing.
  • the application unit is preferably characterized in that the positioning device has at least one transfer support body and more preferably that the at least one transfer support body is preferably guided by the at least one linear guide and/or guided along the at least one linear guide and is arranged in particular so that it can be moved linearly, specifically in and/or counter to the direction of adjustment and in particular relative to the at least one main supporting body and/or relative to a frame of the flexographic application unit.
  • the application unit is preferably characterized in that at least one component of a bearing mount is more preferably arranged on the at least one transfer support body, which is designed to accommodate a roller bearing arranged on the at least one supply roller.
  • the application unit is preferably characterized in that the adjusting direction deviates from at least one vertical direction by a maximum of 45° and/or a maximum of 30° and/or a maximum of 10° and/or a maximum of 5° and/or that the adjustment direction is oriented parallel to the vertical direction.
  • the application unit is preferably characterized in that at least one bearing mount is arranged, which is provided for mounting at least one roller bearing of the supply roller and that at least one component of the bearing mount, which has at least one storage location or storage surface for the at least one respective roller bearing, is permanently arranged on the respective transfer support body and that at least one further component of the bearing mount, which has at least one fixing point or fixing surface for fixing the respective roller bearing in contact with the respective storage point or storage surface, is permanently arranged on a respective main support body.
  • this means that supply rollers can preferably be arranged and/or particularly easily and securely be removed.
  • the application unit is preferably characterized in that this at least one component of the bearing mount is arranged in the supply position, starting from a position in which the supply roller is supported by the bearing mount, over a straight line, in particular, along the at least one linear guide and/or guided by the at least one linear guide is movably arranged, which is longer than the roller adjustment path.
  • the bearing receptacle can then store the corresponding supply roller in a storage device and allow the supply roller to be moved by means of the storage device.
  • the application unit is preferably characterized in that the positioning device has at least one storage support body and that the at least one storage support body is guided by the at least one linear guide and/or guided along the at least one linear guide and can be moved, in particular linearly, in and/or counter to it the adjustment direction and in particular both relative to the at least one main supporting body and relative to the at least one transfer supporting body.
  • the application unit is preferably characterized in that an intermediate reservoir for application fluid is arranged on the at least one storage support body.
  • the application unit is preferably characterized in that the supply support body is arranged at least partially between the at least one main support body and the at least one transfer support body, viewed in the adjustment direction.
  • the corresponding supply of application fluid can be moved relative to the forme cylinder at least without great additional effort, in particular together with the supply roller, and the supply roller can still be turned off along the same guide over a greater distance if necessary and can also be spaced from the supply of application fluid.
  • this allows a particularly easy change supply roller.
  • the application unit is preferably characterized in that the at least one forme cylinder is designed as a flexo forme cylinder and/or that the at least one supply roller is designed as an anilox roller and/or that the at least one intermediate store is designed as a chamber doctor blade and/or that the at least one forme cylinder is arranged below the at least one impression cylinder and/or that a storage receptacle is understood to mean a defined spatial area that is provided for receiving a supply roller.
  • the application unit is preferably characterized in that the at least one main supporting body is arranged to be guided by the same at least one linear guide as the at least one transfer supporting body and/or that the at least one main supporting body is arranged to be guided by the same at least one linear guide as the at least a supply support body and/or that the at least one supply support body is arranged guided by the same at least one linear guide as the at least one supply support body and/or that the at least one main support body and the at least one transfer support body and the at least one supply support body are arranged guided by the same at least one linear guide are. Then all relevant movements are possible with the simplest possible configuration of the device.
  • the application unit is preferably characterized in that the application unit has at least one main position adjustment device, by which a relative position of the at least one main support body is fixed relative to a frame of the application unit, and that the main position adjustment device comprises at least one main shut-off drive.
  • the application unit is preferably characterized in that the application unit has at least one transfer position setting device, by which a relative position of the at least one Transfer support body is fixed relative to the at least one main support body of the application unit and that the transfer position setting device comprises at least one transfer drive.
  • the application unit is preferably characterized in that the at least one supply support body is arranged to be linearly movable relative to the main support body closest to it and that the at least one supply support body is connected to this main support body via a suspension.
  • This suspension preferably allows a limited relative movement between the main supporting body on the one hand and the supply supporting body on the other hand, oriented in and/or counter to the adjustment direction.
  • the application unit is preferably characterized in that the positioning device has at least one push stop, in particular an adjustable one, which is provided as a contact element for contact between the at least one transfer support body on the one hand and the at least one storage support body on the other. Then no additional drive for movements of the storage support body must be provided.
  • the positioning device has at least one push stop, in particular an adjustable one, which is provided as a contact element for contact between the at least one transfer support body on the one hand and the at least one storage support body on the other. Then no additional drive for movements of the storage support body must be provided.
  • the application unit is preferably characterized in that the application unit has at least one storage device for storing supply rollers.
  • the at least one storage device is preferably arranged below the application unit. More preferably, the storage device has at least two and/or at least three and/or at least four storage receptacles for receiving one supply roller each and/or a storage receptacle is a defined spatial area that is provided for receiving a supply roller.
  • the application unit is preferably characterized in that the storage device has at least one movable relocating device, by means of which the at least two storage receptacles can be moved and arranged in different storage positions.
  • the application unit is preferably characterized in that the at least one supply roller can be moved by means of the at least one transfer support body along an in particular exclusively linear roller adjustment path.
  • the application unit is preferably characterized in that the at least one supply roller can be moved by means of the at least one positioning device along the linear, in particular exclusively linear, roller adjustment path, one end of which is identical to a supply position and the other end of which is identical to one of the storage positions is.
  • this particular first storage position is a change position.
  • the roller adjustment path preferably runs in and/or counter to the adjustment direction.
  • the application unit is preferably characterized in that, when the storage receptacle is arranged in the changing position, a supply roller can be transferred in or counter to an adjustment direction between this storage receptacle on the one hand and a region of a roller adjustment path connecting the storage device to the application unit on the other hand that is remote from this storage device.
  • this preferably results in a particularly simple and/or quick roller adjustment path and/or a particularly simple device that is less prone to errors.
  • the application unit is preferably characterized in that at least one, in particular the second, of the storage positions is a loading position and that when the storage receptacle is arranged in the loading position, a supply roller along a particularly linear loading path in and/or counter to a loading direction between this storage receptacle on the one hand and a loading area , In particular the application unit, on the other hand is transferable.
  • the application unit is preferably characterized in that the loading direction deviates from at least one horizontal direction by no more than 30° and/or no more than 20° and/or no more than 10° and/or no more than 5° or is aligned horizontally. Then a simple supply and removal of supply rollers to the application unit is made possible.
  • the application unit is preferably characterized in that storage receptacles, in particular those storage receptacles that are operatively connected to the transfer device, at least also by at least one respective movable, in particular relative to a frame of the application unit, for contact with a roll neck or a roll body inner boundary surface provided on a respective supply roller.
  • the at least one inner boundary surface is preferably a surface of the transfer device.
  • the application unit is preferably characterized in that such storage receptacles, which are arranged in a storage position of a first subset of all possible storage positions, are additionally at least also provided with at least one respective stationarily arranged, in particular relative to a frame of the application unit, for contact with a Roll neck or a roll barrel of a respective supply roll designed outer boundary surface are fixed.
  • the relocating device and the inner boundary surface are preferably arranged such that they can be moved relative to the outer boundary surface. Safe handling of the supply rollers in the storage device can then be achieved with as little device outlay as possible.
  • the application unit is preferably characterized in that the storage device has at least one outer boundary body that is arranged in a stationary manner, in particular relative to the frame of the application unit, and that the at least one outer boundary surface is a surface of the at least one outer boundary body.
  • the application unit is preferably characterized in that the at least one relocation device is arranged such that it can pivot and/or rotate about an in particular stationary storage axis and/or that the at least one relocation device has at least two recesses that form storage receptacles.
  • the application unit is preferably characterized in that the at least two recesses are each open in a radial direction relative to the storage axis and/or that the at least one outer boundary surface is shaped in such a way that its projection in the transverse direction corresponds to an arc of a circle.
  • a central angle of this circular arc is preferably at least 180°.
  • the application unit is preferably characterized in that a radius of this circular arc is greater than the greatest distance between the relocating device and the storage axis and/or that the radius of this circular arc is at most 20% and/or at most 10% and/or at most is 5% greater than the greatest distance between the transfer facility and the storage axis.
  • Pressure fluids are preferably materials that are produced by a processing machine 01, in particular a printing machine 01, or at least one application unit 414; 614; 814 or application unit 400; 600; 800 of processing machine 01, in particular at least one printing unit 614 or printing unit 600 of printing machine 01, onto a substrate 02, in particular one printing substrate 02, are and/or can be transferred and thereby give rise to a texture on substrate 02, in particular printing substrate 02, that is preferably visible and/or perceptible by sensory impressions and/or detectable by machine, preferably in a finely structured form and/or not just over a large area.
  • Inks and printing inks are preferably solutions or dispersions of at least one colorant in at least one solvent.
  • suitable solvents are water and/or organic solvents.
  • the printing fluid can be designed as a printing fluid that crosslinks under UV light.
  • 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 other auxiliaries.
  • Colorants can be pigments and/or dyes, pigments being insoluble in the application medium while dyes being soluble in the application medium.
  • printing ink should be understood in the sense of a liquid or at least flowable coloring fluid to be printed in the printing machine, which does not only refer to the colloquial expression "Printing ink” associated higher-viscosity coloring fluids for use in rotary printing machines, but in addition to these higher-viscosity coloring fluids in particular also low-viscosity coloring fluids such as "inks", especially inkjet inks, but also powder coloring fluids such.
  • B. toner includes.
  • colorless lacquers are also meant in particular when printing fluids and/or inks and/or printing inks are mentioned.
  • An application fluid is preferably non-gaseous.
  • An application fluid is preferably liquid and/or powdery.
  • a processing machine 01 is preferably embodied as a printing machine 01 and/or as a shaping machine 01, in particular a punching machine 01.
  • Printing press 01 is embodied as a flexographic printing press 01, for example.
  • Processing machine 01 is preferably referred to as printing machine 01 if it has at least one printing unit 614 and/or at least one printing unit 600, in particular regardless of whether it has other units for processing substrate 02.
  • a processing machine 01 embodied as a printing machine 01 also has at least one further such unit 400; 800; 900, for example at least one shaping unit 900, which is preferably designed as a punching unit 900.
  • Processing machine 01 is preferably referred to as a shaping machine 01 if it has at least one shaping mechanism 914 and/or at least one shaping unit 900, in particular regardless of whether it has further units 400; 600; 800 for processing substrate 02.
  • Processing machine 01 is preferably referred to as a punching machine 01 if it has at least one punching unit 914 and/or at least one punching unit 900, in particular regardless of whether it has further units 400; 600; 800 for processing substrate 02.
  • a processing machine 01 configured as a shaping machine 01 or punching machine 01 also has at least one additional unit 400; 600; 800 for processing substrate 02, for example at least one printing unit 600 and/or at least one printing unit 614. If processing machine 01 has at least one printing unit 614 and/or at least one printing unit 600 on the one hand and at least one shaping unit 914 and/or at least one shaping unit 900 on the other accordingly, it is designed both as a printing machine 01 and as a shaping machine 01.
  • processing machine 01 has at least one printing unit 614 and/or at least one printing unit 600 on the one hand and at least one punching unit 614 and/or at least one punching unit 900 on the other hand, it is therefore embodied both as a printing press 01 and as a shaping machine 01, in particular a punching machine 01.
  • the processing machine 01 is preferably embodied as a sheet-fed processing machine 01, i.e. as a processing machine 01 for processing sheet-type substrate 02 or sheets 02, in particular sheet-type printing material 02.
  • the sheet-fed processing machine 01 is configured as a sheet-fed printing machine 01 and/or as a sheet-forming machine 01 and/or as a sheet-fed punching machine 01 educated.
  • the processing machine 01 is further preferably embodied as a corrugated cardboard sheet processing machine 01, i.e. as a processing machine 01 for processing sheet-shaped substrate 02 or sheets 02 made of corrugated cardboard, in particular sheet-shaped printing material 02 made of corrugated cardboard.
  • Processing machine 01 is also preferably configured as a sheet-fed printing machine 01, in particular as a sheet-fed corrugated board printing machine 01, i.e. as a printing machine 01 for coating and/or printing on sheet-type substrate 02 or sheets 02 made of corrugated board, in particular sheet-type printing material 02 made of corrugated board.
  • printing press 01 is embodied as a printing press 01 that operates according to a non-impact printing process and/or as a printing press 01 that operates according to a printing forme-based printing process.
  • Printing press 01 is preferably embodied as a non-impact printing press 01, in particular an inkjet printing press 01, and/or as a flexographic printing press 01. Unless there are any contradictions, the processing machine 01 is alternatively or additionally designed as a web processing machine 01, in particular a web-fed printing press 01.
  • the term sheet-shaped substrate 02 in particular a printing material 02, specifically sheet 02, is used here to mean any flat substrate 02 or any substrate 02 that is present in sections, i.e. also substrates 02 that are in the form of panels or plates, i.e. also panels or plates, be included.
  • the sheet-like substrate 02 or sheet 02 defined in this way is formed, for example, from paper or cardboard, ie as a sheet of paper or cardboard, or from sheets 02, panels or possibly panels made of plastic, cardboard, glass or metal.
  • the substrate 02 is more preferably corrugated cardboard 02, in particular corrugated cardboard sheets 02.
  • the thickness of a sheet 02 is preferably understood to mean a dimension orthogonal to a largest area of the sheet 02.
  • the thickness of the sheets 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. In the case of sheets of corrugated cardboard 02 in particular, significantly greater thicknesses are also common, for example at least 4 mm or even 10 mm and more. Corrugated cardboard sheets 02 are comparatively stable and therefore not very flexible. Corresponding adjustments to the processing machine 01 therefore make it easier to process thick sheets 02.
  • the processing machine 01 preferably has a plurality of units 100; 200; 300; 400; 600; 700; 800; 900; 1000 on.
  • Under an aggregate 100; 200; 300; 400; 600; 700; 800; 900; 1000 is preferably understood to mean a group of devices that interact functionally, in particular to be able to carry out a preferably self-contained processing operation on sheets 02.
  • module 100; 200; 300; 400; 600; 700; 800; 900; 1000 is to be understood in particular as a respective unit or a structure made up of several units, which preferably has at least one means of transport and/or at least one controllable and/or regulatable drive of its own and/or as an independently functioning module and/or individually manufactured and/or or is formed as a machine unit or functional assembly mounted on its own.
  • a separate controllable and/or regulatable drive of a unit or module means in particular a drive that serves to drive the movements of components of this unit or module and/or that serves to transport substrate 02, in particular sheets 02, through this particular unit or module and/or through at least one effective area of this particular unit or module and/or which is used to directly or indirectly drive at least one component of the unit or module in question that is intended to come into contact with sheets 02.
  • These drives of the assemblies of processing machine 01 are preferably designed as position-controlled electric motors in particular.
  • Each unit preferably has 100; 200; 300; 400; 600; 700; 800; 900; 1000 at least one drive controller and/or at least one drive controller, which is assigned to the respective at least one drive of the respective unit.
  • the drive controls and/or drive controllers of the individual units 100; 200; 300; 400; 600; 700; 800; 900; 1000 can preferably be operated individually and independently of one another.
  • the drive controls and/or drive controllers of the individual units 100; 200; 300; 400; 600; 700; 800; 900; 1000 are and/or can be linked to one another and/or to a machine controller of processing machine 01 in terms of circuitry, in particular by means of at least one BUS system, in such a way that coordinated control and/or regulation of the drives of several or all units 100; 200; 300; 400; 600; 700; 800; 900; 1000 of processing machine 01 is and/or can be carried out.
  • the individual units and/or in particular modules of processing machine 01 can therefore be operated and/or operated in a manner that is preferably electronically coordinated with one another, at least with regard to their drives, in particular by means of at least one electronic master axis.
  • An electronic master axis is preferably specified for this purpose, for example by a higher-level machine controller of processing machine 01.
  • the higher-level machine controller uses components of a specific controller and/or a specific regulator of a specific unit, for example. More or more are preferred all units are preferably designed in such a way that they can be used as a leading unit, which the remaining units follow and/or are able to follow when processing machine 01 is in operation.
  • the individual assemblies of processing machine 01 are and/or can be mechanically synchronized with one another, at least with regard to their drives.
  • the individual units of processing machine 01 are preferably mechanically decoupled from one another, at least with regard to their drives.
  • the units of processing machine 01 are preferably characterized in that the section of the transport path provided for sheets 02 defined by the respective unit is at least essentially flat and more preferably completely flat.
  • a substantially flat section of a transport path provided for sheets 02 is to be understood as meaning a section that has a minimum radius of curvature of 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 thus is also substantially flat and thus also has a minimum radius of curvature that is at least 2 meters.
  • the units of processing machine 01 are preferably characterized in that the section of the transport path provided for sheets 02 defined by the respective unit runs at least essentially horizontally and more preferably exclusively horizontally.
  • This transport path preferably extends in a transport direction T.
  • a transport path provided for sheets 02 that runs essentially horizontally means, in particular, that the transport path provided in the entire area of the respective unit has exclusively one or more directions that are at most 30°, preferably at most 15° ° and more preferably deviates by at most 5° from at least one horizontal direction.
  • the direction of the transport path is in particular the direction in which the sheets 02 are transported at the point at which the direction is measured.
  • the transport path provided for sheets 02 preferably begins at a point where sheets 02 are removed from a feeder pile 104.
  • Processing machine 01 preferably has at least one substrate feed system 100, which is more preferably embodied as unit 100, in particular substrate feed unit 100, and/or as module 100, in particular substrate feed module 100.
  • the at least one substrate feed system 100 is preferably embodied as sheet feeder 100 and/or sheet feeder unit 100 and/or sheet feeder module 100.
  • Processing machine 01 has, for example, at least one unit 200 configured as a conditioning device 200, in particular a conditioning unit 200, which is more preferably configured as a module 200, in particular a conditioning module 200.
  • a conditioning device 200 is designed, for example, as a preparation device 200 or as an after-treatment device.
  • Processing machine 01 preferably has at least one unit 200, in particular a preparation unit 200, embodied as a preparation unit 200, which is more preferably embodied as a module 200, in particular a preparation module 200, and represents a conditioning unit 200.
  • Processing machine 01 preferably has at least one post-processing device.
  • Processing machine 01 preferably has at least one system system 300.
  • the at least one system device 300 is, for example, at least one unit 300 embodied as a system device 300, in particular a system unit 300, which is more preferably embodied as a module 300, in particular as a system module 300.
  • the at least one contact device 300 is alternatively embodied as a component of the substrate feed device 100 or another unit.
  • Processing machine 01 preferably has at least one application unit 400; 600; 800, more preferably module 400; 600; 800, in particular application module 400; 600; 800 is trained.
  • the at least one application unit 400; 600; 800 is arranged and/or constructed depending on the function and/or application method.
  • the at least one application unit 400; 600; 800 preferably serves to apply at least one respective application fluid or coating medium to the entire surface and/or part of the surface of sheets 02.
  • An example of an application aggregate 400; 600; 800 is a priming unit 400, which serves in particular to apply priming agent to substrate 02, in particular sheet 02.
  • Another example of an application unit 400; 600; 800 is a printing assembly 600, which is used in particular to apply printing ink and/or ink to the substrate, in particular sheets 02.
  • Another example of an application unit 400; 600; 800 is a varnishing unit 800, which is used in particular to apply varnish to substrate 02, in particular sheet 02.
  • Application units 400; 600; 800 preferably differ in terms of their application process.
  • An example of an application aggregate 400; 600; 800 is a shape-based job aggregate 400; 600; 800, which in particular has at least one fixed, physical and preferably exchangeable printing form.
  • shape-based application aggregates 400; 600; 800 preferably work according to a planographic printing process, in particular an offset planographic printing process and/or a gravure printing process and/or a relief printing process, particularly preferably a flexographic printing process.
  • the corresponding application unit 400; 600; 800 is then, for example, a flexographic application unit 400; 600; 800, in particular flexo application module 400; 600; 800.
  • an application unit 400; 600; 800 is a non-impact applicator assembly 400; 600; 800, in particular formless or non-impact application module 400; 600; 800, which works in particular without a fixed printing form.
  • Formless or non-impact printing aggregates 400; 600; 800 work, for example, according to an ionographic method and/or a magnetographic method and/or a thermographic process and/or electrophotography and/or laser printing and/or particularly preferably by an inkjet printing process or inkjet printing process.
  • the application unit 400; 600; 800 is then correspondingly, for example, an inkjet application unit 400; 600; 800, in particular inkjet application module 400; 600; 800
  • Each application unit 400; 600; 800 preferably has at least one respective application unit 414; 614; 814 on.
  • a respective application unit 400; 600; 800 additionally at least one drive M1; M2; M3; M4; M6; M7 and/or at least one frame 427; 627; 827 and/or at least one further component.
  • an application unit 400; 600; 800 should in particular also such a unit 400; 600; 800 to be understood, which is at least also suitable for applying primer. If such an application unit 400 is provided for applying primer, it is also referred to as a priming unit 400 . Under a commissioned work 414; 614; 814 should in particular also be such a commissioned work 414; 614; 814, which is at least also suitable for applying primer. If such an application unit 414 is provided for applying primer, it is also referred to as a priming unit 414. Each priming unit 400 preferably has at least one respective priming unit 414. Processing machine 01 preferably has at least one unit 400 embodied as a priming device 400, in particular priming unit 400, which is further preferably embodied as a module 400, in particular as a priming module 400.
  • each printing assembly 600 preferably has at least one respective printing unit 614.
  • Processing machine 01 preferably has at least one unit 600 embodied as a printing unit 600, which is more preferably embodied as a module 600, in particular as a printing module 600.
  • each coating unit 800 preferably has at least one respective coating unit 814.
  • Processing machine 01 preferably has at least one unit 800 configured as a coating system 800, in particular a coating unit 800, which is more preferably configured as a module 800, in particular a coating module 800.
  • At least one application unit 400; 600; 800 of the processing machine 01 as a flexo application unit 400; 600; 800 trained.
  • at least one application unit 400; 600; 800 of the processing machine 01 as a non-impact application unit 400; 600; 800, in particular inkjet application unit 400; 600; 800 trained.
  • at least one printing unit 600 of printing press 01 is embodied as a flexographic printing unit 600.
  • at least one printing unit 600 of printing press 01 is embodied as a non-impact printing unit 600, in particular an inkjet printing unit 600.
  • At least one priming unit 400 of printing press 01 is embodied as a non-impact priming unit 400, in particular an inkjet priming unit 400.
  • at least one coating unit 800 of processing machine 01 is configured as a flexo coating unit 800, for example.
  • at least one coating unit 800 of printing press 01 is embodied as a non-impact coating unit 800, in particular an inkjet coating unit 800.
  • At least one application unit 414; 614; 814 of processing machine 01 as flexo application unit 414; 614; 814 trained.
  • at least one applicator unit 414; 614; 814 of processing machine 01 as non-impact application unit 414; 614; 814, in particular inkjet application unit 414; 614; 814 trained.
  • At least one printing unit 614 of printing press 01 is designed as a flexographic printing unit 614, for example.
  • at least one printing unit 614 of printing press 01 is embodied as a non-impact printing unit 614, in particular an inkjet printing unit 614.
  • At least one priming unit 414 of printing press 01 is designed as a flexo priming unit 414.
  • at least one priming unit 414 of printing press 01 is embodied as a non-impact priming unit 414, in particular an inkjet priming unit 414.
  • at least one coating unit 814 of printing press 01 is designed as a flexo coating unit 814.
  • at least one coating unit 814 of printing press 01 is embodied as a non-impact coating unit 814, in particular an inkjet coating unit 814.
  • Processing machine 01 has, for example, at least one unit designed as a drying device, in particular a drying unit, which is more preferably designed as a module, in particular as a drying module.
  • at least one drying device 506 and/or at least one post-drying device 507 is a component of at least one, preferably as a module 100; 200; 300; 400; 600; 700; 800; 900; 1000 trained unit 100; 200; 300; 400; 600; 700; 800; 900; 1000.
  • At least one application unit 400; 600; 800 has at least one drying device 506 and/or at least one post-drying device 507 and/or at least one transport device 700 and/or at least one transport unit 700 has at least one drying device 506 and/or at least one post-drying device 507.
  • Processing machine 01 preferably has at least one unit 700, in particular transport unit 700, embodied as transport device 700 or transport means 700, which is more preferably embodied as module 700, in particular as transport module 700.
  • the processing machine 01 preferably has transport devices 700, for example as components of other units and/or modules.
  • Processing machine 01 preferably has at least one unit 900 configured as a shaping device 900, in particular a shaping unit 900, which is more preferably configured as a module 900, in particular a shaping module 900.
  • Processing machine 01 preferably has at least one shaping unit 900 embodied as a punching unit 900.
  • the at least one shaping device 900 is preferably embodied as a rotary punch 900.
  • Processing machine 01 preferably has at least one unit 1000 embodied as substrate delivery system 1000, in particular embodied as sheet delivery unit 1000, in particular delivery unit 1000, which is more preferably embodied as module 1000, in particular as delivery module 1000.
  • the processing machine 01 has, for example, at least one as Further processing device trained unit, in particular 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 transporting sheets 02 is a direction T which is preferably oriented at least essentially and more preferably completely horizontally and/or which preferably points from a first unit of processing machine 01 to a last unit of processing machine 01, in particular from a sheet feeder unit 100 or a substrate feed system 100, on the one hand, to a delivery unit 1000 or a substrate delivery unit 1000, on the other hand, and/or which preferably points in a direction in which the sheets 02 are transported apart from vertical movements or vertical components of movements, in particular from a first contact with one of the substrate supply device 100 downstream unit of the processing machine 01 or first contact with the processing machine 01 to a last contact with the processing machine 01.
  • the transport direction T is preferably the direction T in which a horizontal component of a direction points, which is oriented from the system device 300 to the substrate delivery device 1000.
  • a transverse direction A is preferably orthogonal to the transport direction T of the sheets 02 and/or orthogonal to the intended transport path of the sheets 02 through the at least one application unit 400; 600; 800 oriented direction.
  • Transverse direction A is preferably a horizontally oriented direction A.
  • a working width of processing machine 01 and/or of the at least one application unit 400; 600; 800 is preferably a dimension that is preferably orthogonal to the intended transport path for sheets 02 through the at least one application unit 400; 600; 800 extends, more preferably in a transverse direction A.
  • the working width of Processing machine 01 preferably corresponds to a maximum width that a sheet 02 may have in order to still be able to be processed with processing machine 01, i.e.
  • the width of a sheet 02 is to be understood in particular as its dimension in the transverse direction A. This is preferably independent of whether this width of the sheet 02 is greater or smaller than a horizontal dimension of the sheet 02 that is orthogonal thereto, which more preferably represents the length of this sheet 02.
  • the working width of processing machine 01 preferably corresponds to the working width of the at least one application unit 400; 600; 800.
  • the transverse direction A is preferably parallel to an axis of rotation 39 of a forme cylinder 402; 602; 802 of an application unit 400; 600; 800 oriented.
  • the working width of processing machine 01, in particular 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.
  • Processing machine 01 preferably has at least one flexo application unit 414; 614; 814 on. At least one application unit 400; 600; 800 as flexo application unit 400; 600; 800 trained. More preferably, at least one printing unit 600 is embodied as a flexo printing unit 600 and/or at least one priming unit 400 is embodied as a flexo priming unit 400 and/or at least one coating unit 800 is embodied as a flexo coating unit 800.
  • the at least one flexo application unit 400; 600; 800 preferably has at least one flexo applicator unit 414; 614; 814, which is further preferably embodied as a flexo priming unit 414 and/or as a flexo printing unit 614 and/or as a flexo coating unit 814.
  • the at least one flexo application unit 414; 614; 814 preferably has at least one applicator cylinder 402; 602; 802, which serves to apply application fluid to substrate 02, in particular sheet 02, and is intended in particular for contact with substrate 02, in particular sheet 02.
  • the application cylinder 402; 602; 802 is preferred as forme cylinder 402; 602; 802 formed, for example as a so-called plate cylinder 402; 602; 802.
  • the forme cylinder 402; 602; 802 has a cylinder barrel 12 and two cylinder pins 13 arranged at both axial ends thereof.
  • roller bearings 26 are preferably arranged, in particular in order to mount them in a rotatable manner.
  • This dressing 04 preferably serves to determine the areas in which application fluid is to be transferred and, if necessary, in which areas it is not.
  • the respective dressing 04 can be used in particular to apply application fluid to the entire surface of the substrate 02, in particular sheets 02.
  • the respective dressing 04 is preferably secured by means of at least one corresponding holding device, in particular a clamping device and/or tensioning device, on a lateral surface of the application cylinder 402; 602; 802 can be arranged and/or arranged and preferably fixed and/or fixed.
  • At least one drive M2, referred to as the forme cylinder drive M2 is preferably provided, by means of which the at least one forme cylinder 402; 602; 802 is rotatable and/or rotatable about its axis of rotation 39.
  • the at least one forme cylinder drive M2 is preferably designed as a motor M2, more preferably as a position-controlled electric motor M2 in particular.
  • the at least one flexo application unit 414; 614; 814 preferably has at least one impression cylinder 408; 608; 808 on.
  • the impression cylinder 408; 608; 808 has a cylinder barrel 14 and two cylinder pins 16 arranged at both axial ends thereof.
  • roller bearings are preferably arranged, in particular in order to store them in a rotatable manner.
  • the impression cylinder 408; 608; 808 is preferably intended to be connected to the applicator cylinder 402; 602; 802 to work together and/or an order center 409; 609; 809 to form.
  • the respective job location 409; 609; 809 in particular is the one Area in which the cylinder body 12 of the forme cylinder 402; 602; 802 and the cylinder body 14 of the impression cylinder 408; 608; 808 are closest to each other and/or touching.
  • a respective such order point 409; 609; 809 is referred to, for example, as a priming point 409 or as a pressure point 609 or as a painting point 809.
  • substrate 02 preferably pass through the at least one application point 409; 609; 809 and are at least temporarily on one side with the application cylinder 402; 602; 802, in particular the dressing 04 arranged thereon, and on its other side with the impression cylinder 408; 608; 808 in touch.
  • At least one drive M1 referred to as an impression cylinder drive M1 is preferably provided, by means of which the at least one impression cylinder 408; 608; 808 is rotatable and/or rotatable about its axis of rotation 42.
  • the at least one impression cylinder drive M1 is preferably designed as a motor M1, more preferably as a position-controlled electric motor M1 in particular.
  • the at least one flexo application unit 414; 614; 814 preferably has at least one supply roller 403; 603; 803, which more preferably as anilox roller 403; 603; 803 is formed and/or has a cup structure on its lateral surface, in particular on the lateral surface of its roll barrel 17.
  • the supply roller 403; 603; 803 has a roll barrel 17 and two roll necks 18 arranged at its two axial ends. At the roll neck 18 of the supply roll 403; 603; 803, roller bearings 27 are preferably arranged, in particular around this supply roller 403; 603; 803 to be stored rotatably.
  • the at least one supply roller 403; 603; 803 is preferred with the forme cylinder 402; 602; 802 in contact and/or arranged so that they can be brought into contact.
  • At least one drive M3 referred to as supply roller drive M3 or anilox roller drive M3 is preferably provided, by means of which the at least one supply roller 403; 603; 803 can be turned and/or rotated about its axis of rotation 41.
  • the at least one supply roller drive M3 or anilox roller drive M3 is preferably embodied as a motor M3, more preferably as a position-controlled electric motor M3 in particular.
  • Supply roller drive M3 is preferably via a detachable connection to supply roller 403; 603; 803 connected and/or connectable, for example by means of a clutch. This connection is preferably broken when the supply roller 403; 603; 803 is to be stored in the memory device 21.
  • the at least one flexo application unit 414; 614; 814 preferably has at least one application fluid reservoir 401; 601; 801, which is designed and/or can be used, for example, as a supply of primer 401 and/or as a supply of paint 601 or supply of ink 601 and/or as a supply of paint 801.
  • At least one buffer 404; 604; 804 for application fluid with the at least one supply roller 403; 603; 803 are arranged and/or can be arranged in contact and/or in operative connection.
  • This at least one buffer 404; 604; 804 is preferred as chamber doctor blade 404; 604; 804 trained.
  • the anilox roller 403; 603; 803 formed supply roller 403; 603; 803 is therefore preferably at least one chamber doctor blade 404; 604; 804 in contact and/or in operative connection.
  • the preferred chamber doctor blade 404; 604; 804 formed latches 404; 604; 804 is preferably above at least one supply line 406; 606; 806 and more preferably also via at least one derivation 407; 607; 807 with the at least one application fluid reservoir 401; 601; 801 in connection.
  • the lead 406; 606; 806 and/or the derivative 407; 607; 807 is preferably in operative connection with at least one pumping device.
  • a preferred first embodiment of the flexo applicator 414; 614; 814 is provided for applying application fluid to substrate 02, in particular sheets 02 and/or printing substrate 02, from below, for example to print it.
  • the flexo applicator unit 414; 614; 814 is the forme cylinder 402; 602; 802 preferably below the impression cylinder 408; 608; 808, more preferably in such a way that the axis of rotation 39 of the forme cylinder 402; 602; 802 in the vertical direction V below the cylinder barrel 14 of the impression cylinder 408; 608; 808 is arranged, even more preferably in such a way that the axis of rotation 39 of the forme cylinder 402; 602; 802 in the vertical direction V below the axis of rotation 42 of the impression cylinder 408; 608; 808 is arranged.
  • the supply roller 403; 603; 803 preferably below the forme cylinder 402; 602; 802 arranged, more preferably such that the axis of rotation 41 of the supply roller 403; 603; 803 in the vertical direction V below the cylinder body 12 of the forme cylinder 402; 602; 802 is arranged, even more preferably in such a way that the axis of rotation 41 of the supply roller 403; 603; 803 in the vertical direction V below the axis of rotation 39 of the forme cylinder 402; 602; 802 is arranged.
  • An alternative second embodiment of the flexo applicator 414; 614; 814 is provided for applying application fluid to substrate 02, in particular sheets 02 and/or printing substrate 02, from above, for example to print it.
  • this second embodiment of the flexo applicator 414; 614; 814 is the forme cylinder 402; 602; 802 preferably above the impression cylinder 408; 608; 808, more preferably in such a way that the axis of rotation 39 of the forme cylinder 402; 602; 802 in the vertical direction V above the cylinder barrel 14 of the impression cylinder 408; 608; 808 is arranged, even more preferably in such a way that the axis of rotation 39 of the forme cylinder 402; 602; 802 in the vertical direction V above the axis of rotation 42 of the impression cylinder 408; 608; 808 is arranged.
  • the supply roller 403; 603; 803 preferably above the forme cylinder 402; 602; 802 arranged, more preferably such that the axis of rotation 41 of the supply roller 403; 603; 803 in the vertical direction V above the cylinder body 12 of the forme cylinder 402; 602; 802 is arranged, even more preferably in such a way that the axis of rotation 41 of the supply roller 403; 603; 803 in the vertical direction V above an axis of rotation 39 of the forme cylinder 402; 602; 802 is arranged.
  • a flexo applicator 414; 614; 814 according to the first Embodiment of the flexographic applicator 414; 614; 814, which is intended to apply application fluid to substrate 02 from below. Unless there are any contradictions, this is on a flexo application unit 414; 614; 814 according to the second embodiment of the flexo applicator unit 414; 614; 814 transferrable, especially analog.
  • the respective forme cylinder 402; 602; 802 constructed in the same way, regardless of whether it is in a flexo application unit 414; 614; 814 according to the first embodiment of the flexo applicator unit 414; 614; 814 or in a flexo applicator unit 414; 614; 814 according to the second embodiment of the flexo applicator unit 414; 614; 814 is arranged and/or used.
  • the application unit 400; 600; 800 at least one positioning device 43.
  • the at least one positioning device 43 is preferably used to position at least the forme cylinder 402; 602; 802, in particular its axis of rotation 39, and/or the at least one supply roller 403; 603; 803, in particular its axis of rotation 41, and/or the at least one application fluid reservoir 401; 601; 801 relative to each other and/or relative to a frame 427; 627; 827 of the application unit 400; 600; 800 and/or relative to the impression cylinder 408; 608; 808, in particular to change and/or adjust its axis of rotation 42 in a targeted manner.
  • the application unit 400; 600; 800 has two positioning devices 43, with a first positioning device 43 preferably having at least one first cylinder pin 13 of the forme cylinder 402; 602; 802 and/or a first cylinder pin 16 of the impression cylinder 408; 608; 808 and/or a first roll neck 18 of the supply roll 403; 603; 803 and/or a first side wall of the frame 427; 627; 827 of the application unit 400; 600; 800 is assigned and preferably a second positioning device 43 at least one second cylinder pin 13 of the forme cylinder 402; 602; 802 and/or a second cylinder journal 16 of the impression cylinder 408; 608; 808 and/or a second roll neck 18 of the supply roll 403; 603; 803 and/or a second side wall of the frame 427; 627; 827 of the application unit 400; 600; 800 allocated is.
  • the first and the second positioning device 43 are preferably part of a positioning system and preferably share at least one component, for example
  • the forme cylinder 402; 602; 802 on the one hand and the impression cylinder 408; 608; 808, on the other hand are arranged such that they can be moved relative to one another, in particular by means of the at least one positioning device 43.
  • a corresponding application point 409; 609; 809 are preferably adapted to different thicknesses of substrate 02 to be processed. This also makes maintenance work easier, for example changing an elevator 04.
  • the axis of rotation 39 of the forme cylinder 402; 602; 802 on the one hand and the axis of rotation 42 of the impression cylinder 408; 608; 808 on the other hand arranged to be movable relative to one another.
  • the axis of rotation 42 of the impression cylinder 408; 608; 808 arranged stationary, in particular stationary to the frame 427; 627; 827 of the flexo applicator 414; 614; 814 and/or the flexo application unit 400; 600; 800.
  • the axis of rotation 39 of the forme cylinder 402; 602; 802 in particular relative to the frame 427; 627; 827 of the flexo applicator 414; 614; 814 and/or the flexo application unit 400; 600; 800 arranged to be movable, in particular linearly movable, more preferably in and/or counter to an adjustment direction B or main adjustment direction B.
  • the adjustment direction B is preferably oriented orthogonally to the transverse direction A.
  • the setting direction B deviates from a vertical direction V by preferably no more than 45°, more preferably no more than 30°, even more preferably no more than 20°, even more preferably no more than 10°, even more preferably no more than 5° and is even further preferably oriented parallel to the vertical direction V.
  • the flexographic applicator unit 414; 614; 814 at least one to the forme cylinder 402; 602; 802 associated supporting body 06, which is also referred to as forme cylinder supporting body 06 and/or main supporting body 06 and/or storage supporting body 06.
  • This Supporting body 06 is designed in one piece, for example. However, this supporting body 06 is preferably designed as a multi-part assembly 06. More preferably, the flexo applicator unit 414; 614; 814 at least two such to the forme cylinder 402; 602; 802 associated supporting body 06, of which each of the two cylinder pins 13 of the forme cylinder 402; 602; 802 is assigned to one each.
  • the forme cylinder is preferably 402; 602; 802 on each of its cylinder pins 13 via at least one, preferably the forme cylinder 402; 602; 802 rotatably mounted roller bearing 26 connected to the respective main supporting body 06.
  • at least one bearing mount is preferably provided, which is more preferably at least partially and even more preferably completely connected to the respective main supporting body 06 and the respective roller bearing 26 of the forme cylinder 402; 602; 802 receives or is capable of receiving.
  • the at least one main supporting body 06 is preferably positioned relative to the frame 427; 627; 827 of the application unit 400; 600; 800 or the flexo applicator unit 414; 614; 814 arranged to be movable, in particular linearly movable.
  • At least one main guide 07 is preferably provided, which is more preferably embodied as a linear guide 07.
  • the at least one main supporting body 06 is preferably arranged such that it can be moved, guided by the at least one main guide 07.
  • the at least one main guide 07 preferably comprises at least one first guide rail 07, more preferably at least one first guide rail 07 per main supporting body 06 and even more preferably two first guide rails 07 per main supporting body 06.
  • the at least one first guide rail 07 is preferably embodied as a first linear guide rail 07.
  • the at least one main tag body 06 is preferably a component of the at least one positioning device 43.
  • the at least one first Main guide 07 is part of the at least one positioning device 43.
  • the respective positioning device 43 preferably has a main support body 06 and/or at least one first guide rail 07, in particular two first guide rails 07.
  • the forme cylinder 402; 602; 802 is therefore preferably mounted on its two cylinder journals 13 via roller bearings 26 in a respective main supporting body 06, which is arranged such that it can be moved and/or arranged along at least one, in particular at least two, guide rails 07.
  • At least one drive M4 referred to as the shut-off drive M4 or main shut-off drive M4 is preferably provided.
  • the at least one shut-off drive M4 is preferably used to determine a position of the at least one and preferably the two main supporting bodies 06 relative to the frame 427; 627; 827 of the flexo applicator 414; 614; 814 and/or along the at least one main guide 07 and/or to change and/or to hold it if necessary.
  • the at least one main supporting body 06 is preferably arranged such that it can move in and/or counter to the setting direction B, in particular by means of the first shut-off drive M4 and/or relative to the frame 427; 627; 827 of the flexo applicator 414; 614; 814.
  • the at least one forme cylinder 402; 602; 802 so as to be movable in and/or counter to the setting direction B, in particular by means of the first shut-off drive M4 and/or relative to the frame 427; 627; 827 of the flexo applicator 414; 614; 814.
  • the at least one first shutoff drive M4 is preferably a component of the at least one positioning device 43 and more preferably a component of both positioning devices 43.
  • the at least one shut-off drive M4 is preferably designed as a motor M4, more preferably as an electric motor M4 and even more preferably as a position-controlled electric motor M4.
  • the at least one main gear 08 preferably serves to convert a respective movement of the shut-off drive M4 into a movement of the main supporting body 06, in particular in and/or counter to the adjustment direction B.
  • At least that a main gear 08 is preferably part of the at least one positioning device 43.
  • the at least one main gear 08 preferably has at least one main threaded rod 09.
  • the main threaded rod 09 is preferably rotatably mounted, in particular rotatable by means of the shut-off drive M4.
  • At least one main counter-thread that interacts with a thread of the main threaded rod 09 is preferably arranged on the at least one main supporting body 06, in particular immovably relative to the main supporting body 06, at least in an actuating mode. By rotating the at least one main threaded rod 09, this main counter-thread is then moved along the main threaded rod 09 and becomes thereby moving the at least one main supporting body 06 along the main threaded rod 09.
  • a thread axis of the main threaded rod 09 is preferably oriented parallel to the adjustment direction B.
  • At least two such main threaded rods 09 are preferably provided. As described, two main supporting bodies 06 are preferably arranged. At least one of the two main threaded rods 09 preferably interacts with each of the two main supporting bodies 06 as described, more preferably exactly one. At least one torque transmitter 11 is preferably provided, in particular as part of the at least one main transmission 08. The at least one torque transmitter 11 is preferably arranged so that it can be driven directly or indirectly by the shut-off drive M4 and/or is embodied as a shaft 11.
  • the at least one first torque transmitter 11 is preferably connected to the at least two main threaded rods 09 in a manner that transmits or is capable of transmitting torque, in particular in such a way that when the torque transmitter 11 rotates, both main threaded rods 09 are rotated synchronously about their thread axes.
  • both main supporting body 06 and/or both cylinder pins 13 of the forme cylinder 402; 602; 802 can be moved simultaneously and evenly in and/or counter to the actuating direction B by means of the shut-off drive M4.
  • the application unit 400; 600; 800 preferred characterized in that the application unit 400; 600; 800 has at least one main position adjustment device, through which a relative position of the at least one main supporting body 06 relative to a frame 427; 627; 827 of the application unit 400; 600; 800 and that the main position adjustment device comprises at least one main shut-off drive M4.
  • the main position adjustment device preferably comprises the at least one main gear 08 and/or the at least one main threaded rod 09 and/or the at least one main counter-thread and/or the at least one main shut-off drive M4.
  • the at least one main position adjustment device alternatively has at least one other drive concept, for example at least one pneumatic and/or hydraulic linear drive with or without stops for specific positions.
  • a corresponding application point 409; 609; 809 are preferably adapted to different thicknesses of substrate 02 to be processed. This also makes maintenance work easier, for example changing a dressing 04 and/or cleaning a supply roller 403, 603, 803 and/or installing and/or replacing and/or removing a supply roller 403, 603, 803.
  • the axis of rotation 41 of the supply roller 403, 603, 803 on the one hand and the axis of rotation 39 of the forme cylinder 402; 602; 802, on the other hand are arranged to be movable relative to one another, more preferably arranged to be movable relative to one another at least linearly, even more preferably in and/or counter to the adjustment direction B.
  • the axis of rotation 41 of the supply roller 403, 603, 803 is preferably in particular relative to the frame 427; 627; 827 of the flexo applicator 414; 614; 814 and/or the flexo application unit 400; 600; 800 arranged to be movable, in particular linearly movable, more preferably in and/or counter to the adjustment direction B.
  • the flexographic applicator unit 414; 614; 814 at least one of the supply roller 403; 603; 803 associated supporting body 19, which is also referred to as supply roller supporting body 19 and/or anilox roller supporting body 19 and/or transfer supporting body 19.
  • the at least one transfer support body 19 is preferably part of the at least one positioning device 43. This transfer support body 19 is designed in one piece, for example. However, this transfer support body 19 is preferably designed as a multi-part assembly 19 . More preferably, the flexo applicator unit 414; 614; 814 at least two such of the supply roller 403; 603; 803 associated transfer support body 19, of which each of the two roll necks 18 of the supply roll 403; 603; 803 is assigned to one each.
  • the supply roller is 403; 603; 803 on each of its roll necks 18 via at least one preferably the supply roll 403; 603; 803 rotatably supported roller bearing 27 connected and / or connectable to the respective transfer support body 19.
  • the supply roller 403; 603; 803 in particular with regard to their roll necks 18 and/or with regard to their roller bearings 27 and/or with regard to the assigned transfer support body 19 and/or with regard to a main support body 06 and/or with regard to a bearing and/or with regard to an interaction with a chamber doctor blade 401; 601; 801, these aspects are preferably at the opposite axial end of the supply roller 403; 603; 803 also designed in this way, unless otherwise described and no contradictions arise from this.
  • At least one bearing mount 44 is preferably arranged, which is used to mount at least one roller bearing 27 of the supply roller 403; 603; 803 serves and/or is provided. At least one component 46; 47 of this bearing mount 44 arranged in particular permanently. This bearing mount 44 preferably has at least one first component 47, which is more preferably designed as a lower component 47 and/or which preferably has at least one storage location 48 or storage area 48 for at least one respective roller bearing 27 of the respective supply roller 403; 603; 803 has.
  • This bearing mount 44 preferably has at least one second component 46, which is preferably embodied as an upper component 46 and/or which preferably has at least one fixing point 49 or fixing surface 49 for fixing a respective roller bearing 27 of the respective supply roller 403; 603; 803 in contact with the respective storage location 48 or storage surface 48.
  • at least one respective roller bearing 27 is preferably fixed, in particular clamped, between the first component 47, in particular its storage location 48 or storage surface 48, on the one hand, and the second component 46, in particular its fixing point 49 or fixing surface 49, on the other hand.
  • the bearing mount 44 is completely connected to the transfer support body 19 and/or is formed completely as a component part of the transfer support body 19 .
  • the bearing receptacle 44 can then preferably be opened by moving its second, in particular upper component 46 relative to its other, in particular lower component 47 and to the transfer support body 19, in particular upwards, for example manually and/or automatically.
  • Such a movement can be or include a pivoting movement, for example.
  • a corresponding drive is preferably provided for automation.
  • the bearing receptacle 44 is closed by the upper component 46 being pressed against at least one receiving stop during a movement of the transfer support body 19 and this at least one receiving stop then forces the upper component 46 into a path during a further movement of the transfer support body 19 in a path which causes a relative movement of the upper component 46 to the lower component 47 which closes the bearing seat 44.
  • At least one component 47 of the bearing mount 44 is in particular permanently arranged on the respective transfer support body 19, in particular rigidly, and is at least one other component Part 46 of the bearing mount 44 is in particular permanently arranged on a respective main supporting body 06.
  • the components 46; 47 moves the bearing mounts 44 relative to one another and opens or closes them.
  • the upper component 46 of the bearing mount 44 is arranged prestressed against the main supporting body 06 via at least one guide element 52 via at least one spring element 51 .
  • the corresponding roller bearing 27 is then still held securely in the bearing mount 44 even if there is a slight relative movement between the transfer support body 19 on the one hand and the main support body 06 on the other.
  • FIGS Figures 9a and 9b shown.
  • the at least one transfer support body 19 is preferably relative to the frame 427; 627; 827 of the application unit 400; 600; 800 or the flexo applicator unit 414; 614; 814 arranged to be movable, in particular linearly movable and/or along the at least one of the at least one linear guide 07.
  • the at least one transfer support body 19 preferably completes every movement of the main support body 06 of the flexo application unit 414; 614; 814 with.
  • the at least one transfer support body 19 is preferably connected via a mechanical coupling 53 to the main support body 06 of the flexo application unit 414; 614; 814 coupled. This coupling 53 is preferably adjustable.
  • the at least one transfer support body 19 is preferably positioned relative to the main support body 06 of the flexographic application unit 414; 614; 814 arranged to be movable, in particular linearly movable.
  • the at least one transfer support body 19 is preferably arranged so that it can be moved, guided by at least one guide 07, in particular linearly and/or in and/or counter to the adjustment direction B.
  • the at least one transfer support body 19 is preferably arranged so that it can be moved, guided by the at least one main guide 07, in particular linearly and /or in and/or counter to the adjustment direction B.
  • the at least one transfer support body 19 is preferably arranged such that it can be guided by the same at least one main guide 07 as the one on it next main supporting body 06 of the flexographic application unit 414; 614; 814
  • the at least positioning device 43 preferably has at least one drive M6 referred to as a transfer drive M6. More preferably, each of the preferably two positioning devices 43 preferably has at least one and more preferably exactly one transfer drive M6. Overall, the flexo applicator 414; 614; 814 accordingly preferably has at least two and more preferably exactly two such transfer drives M6.
  • the at least one transfer drive M6 is preferably used to position a respective transfer support body 19 relative to the main support body 06 of the flexo application unit 414; 614; 814 and/or along the at least one main guide 07 and/or to change and/or to hold it if necessary.
  • the at least one transfer drive M6 is preferably part of the coupling 53 between the transfer support body 19 on the one hand and the main support body 06 of the flexo application unit 414 that is closest to it; 614; 814 on the other hand.
  • the at least one transfer support body 19 is guided in particular along the at least one linear guide 07 and/or is arranged to be movable in and/or counter to the adjustment direction B, in particular by means of the respective transfer drive M6 and/or relative to the frame 427; 627; 827 of the flexo applicator 414; 614; 814 and/or relative to the main supporting body 06 of the flexographic application unit 414; 614; 814.
  • the at least one supply roller 403; 603; 803 arranged to be movable in and/or counter to the adjustment direction B, in particular by means of the at least one transfer drive M6 and/or relative to the frame 427; 627; 827 of the flexo applicator 414; 614; 814 and/or relative to the at least one main supporting body 06 of the flexographic application unit 414; 614; 814 and/or relative to the forme cylinder 402; 602; 802
  • the at least one transfer drive M6 is preferably designed as a motor M6, more preferably as an electric motor M6 and even more preferably as a position-controlled electric motor M6.
  • the at least one transfer gear 54 is preferably used to a to convert the respective movement of the respective transfer drive M6 into a movement of the transfer support body 19, in particular in and/or counter to the actuating direction B.
  • the at least one transfer gear 54 is preferably part of the at least one positioning device 43.
  • the at least transfer gear 54 preferably has at least one transfer threaded rod 56.
  • the threaded transfer rod 56 is preferably rotatably mounted, in particular rotatable by means of the respective transfer drive M6.
  • At least one counter-threaded transfer cooperating with a thread of threaded transfer rod 56 is preferably arranged on the at least one transfer-bearing body 19, in particular immobile relative to the transfer-bearing body 19 at least in an actuating mode.
  • this counter-threaded transfer is then moved along the threaded transfer rod 56 and is thereby moving the at least one transfer support body 19 along the threaded transfer rod 56 .
  • a thread axis of the threaded transfer rod 56 is preferably oriented parallel to the adjustment direction B.
  • the respective threaded transfer rod 56 is preferably part of the coupling 53 between the transfer support body 19 on the one hand and the main support body 06 of the flexographic applicator unit 414 that is closest to it; 614; 814 on the other hand.
  • At least two such threaded transfer rods 56 are preferably arranged.
  • two transfer support bodies 19 are preferably arranged.
  • At least one of the two threaded transfer rods 56 preferably interacts with each of the two transfer support bodies 19 as described, more preferably exactly one.
  • the two transfer drives M6 can be driven synchronously.
  • the two transfer drives M6 can be controlled individually, in particular to prevent the supply roller 403; 603; 803, in particular relative to the at least one forme cylinder 402; 602; 802, create or increase or decrease or cancel.
  • the application unit 400; 600; 800 preferred characterized in that the application unit 400; 600; 800 has at least one transfer position adjustment device, by which a relative position of the at least one transfer support body 19 relative to the at least one main support body 06 of the application unit 400; 600; 800 is fixed, in particular independently of a relative position of the respective main supporting body 06 relative to the frame 427; 627; 827 of the application unit 400; 600; 800, and that the transfer position adjustment device comprises at least one transfer drive M6.
  • the transfer position setting device preferably comprises the at least one transfer gear 54 and/or the at least one threaded transfer rod 56 and/or the at least one counter-threaded transfer and/or the at least one transfer drive M6.
  • the at least one transfer adjustment device alternatively has at least one other drive concept, for example at least one pneumatic and/or hydraulic linear drive with or without stops for specific positions.
  • the at least one preferred as chamber doctor blade 401; 601; 801 formed application fluid reservoir 401; 601; 801 is preferably movably arranged. Such mobility is particularly advantageous when the supply roller 403; 603; 803 is to be moved and/or replaced and/or installed and/or removed.
  • the at least one application fluid reservoir 401; 601; 801 on the one hand together with the forme cylinder 402; 602; 802, in particular its axis of rotation 39, is movable and, on the other hand, also relative to the forme cylinder 402; 602; 802, in particular its axis of rotation 39, movably arranged.
  • the at least one application fluid reservoir 401; 601; 801 in particular relative to the frame 427; 627; 827 of the flexo applicator 414; 614; 814 and/or the flexo application unit 400; 600; 800 arranged to be movable, in particular linearly movable, more preferably in and/or counter to an adjustment direction B.
  • the flexographic applicator unit 414; 614; 814 at least one of the at least one application fluid reservoir 401; 601; 801 associated support body 57, which is also referred to as supply support body 57 and / or blade support body 57 and serves.
  • the at least one application fluid supply 401; 601; 801 is preferably arranged connected directly or indirectly to the at least one storage support body 57 and/or arranged to be movable together with the at least one storage support body 57.
  • the at least one storage support body 57 is preferably part of the at least one positioning device 43. This storage support body 57 is designed in one piece, for example. However, this storage support body 57 is preferably designed as a multi-part assembly 57 .
  • At least one connecting device 58 preferably embodied as a swivel joint 58, is arranged on the at least one supply support body 57, in particular as part of the at least one supply support body 57.
  • the at least one application fluid supply 401; 601; 801 is connected to at least part of the at least one storage support body 57 via the at least one connecting device 58.
  • the flexo applicator unit 414; 614; 814 at least two such the at least one application fluid reservoir 401; 601; 801 associated supply support bodies 57, each of which has an axial end of the at least one application fluid supply 401; 601; 801 is assigned.
  • the at least one application fluid reservoir 401; 601; 801 at each of its axial ends via at least one connecting device 58 with the respective storage support body 57 connected and/or connectable. If, above and/or below, aspects relating to an axial end of the at least one application fluid reservoir 401; 601; 801, in particular with regard to the associated supply support body 57 and/or with regard to a main support body 06 and/or with regard to a transfer support body 19 and/or with regard to an interaction with a supply roller 403; 603; 803, these aspects are preferably at the opposite axial end of the at least one application fluid reservoir 401; 601; 801 also designed in this way, unless otherwise described and no contradictions arise from this.
  • the at least one storage support body 57 is preferably relative to the frame 427; 627; 827 of the application unit 400; 600; 800 or the flexo applicator unit 414; 614; 814 arranged to be movable, in particular linearly movable.
  • the at least one supply support body 57 is preferably positioned relative to the main support body 06 of the flexo application unit 414; 614; 814 arranged to be movable, in particular linearly movable.
  • the at least one supply support body 57 is preferably connected via a suspension 59 to the main support body 06 of the flexo coating unit 414; 614; 814 connected.
  • the suspension 59 preferably permits a limited, in particular passive, relative movement, in particular oriented in and/or counter to the adjustment direction B, between the main supporting body 06 on the one hand and the storage supporting body 57 on the other.
  • This relative movement is preferably limited to a maximum of 15 cm, more preferably to a maximum of 10 cm and even more preferably to a maximum of 5 cm.
  • Such a relative movement is preferably possible over a length of at least 5 mm, more preferably over a length of at least 10 mm, even more preferably over a length of at least 15 mm.
  • At least one tension stop body 61 of the suspension 59 is preferably arranged to be movable, in particular displaceable, relative to the main supporting body 06 and/or the storage supporting body 57.
  • the at least one cable stop body 61 is fixed to the storage support body 57 so that it can be adjusted in its relative position.
  • the at least one cable stop body 61 is preferably at least linear relative to the main supporting body 06 movably arranged.
  • the at least one cable stop body 61 preferably has at least one cable stop surface 62, which defines a maximum distance between the main supporting body 06 on the one hand and the reservoir supporting body 57 on the other. Smaller distances are preferably possible.
  • At least one spring element 64 is preferably provided, which pushes the supply support body 57 away from the main support body 06, preferably supported by the force of gravity acting on the supply support body 57.
  • the at least one storage support body 57 is preferably arranged such that it can be moved, guided by at least one guide 07, in particular linearly and/or in and/or counter to the adjustment direction B.
  • the at least one storage support body 57 is preferably arranged so that it is guided by the at least one main guide 07 and can be moved, in particular linearly and /or in and/or counter to the adjustment direction B.
  • the at least one supply support body 57 is preferably arranged such that it can be moved, guided by the same at least one main guide 07 as the main support body 06 of the flexo coating unit 414 that is closest to it; 614; 814 and/or like the next transfer support body 19.
  • the at least one storage support body 57 can preferably only be moved passively.
  • the at least one supply support body 57 is held in its position by the transfer support body 19 closest to it pressing it against the main support body 06 closest to it, in particular from below and/or in particular via at least one push stop 63, which is more preferably adjustable. If this transfer support body 19 is set down from the main support body 06, for example by the transfer support body 19 being lowered, the supply support body 57 held by it is also set down from the main support body 06, in particular lowered.
  • this parking movement, in particular a lowering movement, of the storage support body 57 is preferably limited, in particular because after a certain distance the at least one cable stop body 61 comes into contact with the main support body 06 with its at least one cable stop surface 62. If the transfer support body 19 is further parked, in particular lowered, the supply support body 57 is then removed from the Main support body 06 held. Preferably, therefore, no drive is provided with which the supply support body 57 could be moved independently of the transfer support body 19 and independently of the main support body 06.
  • the application unit 400; 600; 800 preferably characterized in that the positioning device 43 has at least one, in particular adjustable, thrust stop 63, which is provided as a contact element 63 for contact between the at least one transfer support body 19 on the one hand and the at least one supply support body 57 on the other.
  • At least one supply control element 66 is preferably arranged on the at least one supply support body 57, by means of which a supply shutting-off movement of the application fluid supply 401; 601; 801 from the supply roller 403; 603; 803 is enabled.
  • This storage placement movement preferably runs along a storage placement path, which is more preferably at least partially oriented at least in at least one direction that is oriented orthogonally to the placement direction B.
  • the storage depositing movement is a pivoting movement, in particular about the at least one connecting device 58, preferably embodied as a swivel joint 58.
  • the at least one storage actuating element 66 is embodied, for example, as a pneumatic cylinder 66 or as a hydraulic cylinder 66 or as an electric drive 66.
  • the at least one supply control element 66 is preferably part of the at least one positioning device 43.
  • the at least one receiving element 67 is preferably a component of the at least one storage support body 57 and/or is connected to a remaining part of the at least one storage support body 57 via the at least one connecting device 58, preferably embodied as a swivel joint 58.
  • the at least one supply control element 66 is preferably arranged so that it is supported both on the at least one receiving element 67 and on the remaining part of the at least one supply support body 57.
  • the application unit 400; 600; 800 is preferably characterized in that at least one main supporting body 06 is arranged, on which the forme cylinder 402; 602; 802 is rotatably arranged by means of at least one roller bearing 26.
  • the application unit 400; 600; 800 preferably characterized in that the positioning device 43 has at least one main support body 06, which is guided along the at least one linear guide 07 and is arranged so that it can move in and/or counter to an adjustment direction B, on which the forme cylinder 402; 602; 802 is rotatably arranged by means of at least one roller bearing 26.
  • the application unit 400; 600; 800 preferably in that the positioning device 43 has at least one transfer support body 19, which is guided along the at least one linear guide 07 in and/or counter to the adjustment direction B and is arranged so that it can move relative to the at least one main support body 06, on which at least one component 47 of the bearing mount 44 is preferably arranged is for receiving a at the at least one supply roller 403; 603; 803 arranged roller bearing 27 is designed, in particular for receiving at least one outer ring of the at least one roller bearing 27 and/or at least one component fixedly connected to such an outer ring.
  • the application unit 400; 600; 800 preferably characterized in that the positioning device 43 is guided along the at least one linear guide 07 in and/or counter to the adjustment direction B, both relative to the at least one main supporting body 06 and relative to the at least one transfer supporting body 19, which is arranged to be movable, so that the supply supporting body 57 or doctor blade supporting body 57 has on the one in particular as a chamber doctor blade 404; 604; 804 trained latch 404; 604; 804 is arranged for application fluid.
  • the application unit 400; 600; 800 preferably characterized in that the supply support body 57 is arranged at least partially between the at least one main support body 06 and the at least one transfer support body 19, viewed in the adjustment direction B, and/or that the supply support body 57 is along the at least one linear guide 07 and more preferably along at least exactly one Linear guide 07 is arranged at least partially between the at least one main supporting body 06 and the at least one transfer supporting body 19.
  • the application unit 400; 600; 800 preferably characterized in that the at least one main supporting body 06 is arranged to be guided by the same at least one linear guide 07 as the at least one transfer supporting body 19 and/or that the at least one main supporting body 06 is arranged to be guided by the same at least one linear guide 07 as the at least one Supply support body 57 and/or that the at least one supply support body 57 is guided by the same at least one linear guide 07 as the at least one supply support body 57 and/or that the at least one main support body 06 and the at least one transfer support body 19 and the at least one supply support body 57 are guided by the same at least one linear guide 07 are arranged guided.
  • the application unit 400; 600; 800 is preferably characterized in that the at least one storage support body 57 is arranged so that it can move linearly relative to the main support body 06 closest to it and that the at least one storage support body 57 is connected to this main support body 06 via a suspension 59 is.
  • the application unit 400; 600; 800 preferably characterized in that this suspension 59 allows a limited relative movement between the main support body 06 on the one hand and the storage support body 57 on the other hand, oriented in and/or counter to the adjustment direction B.
  • the application unit 400; 600; 800 preferably characterized in that at least one bearing seat 44 is arranged, which is used to support at least one roller bearing 27 of the supply roller 403; 603; 803 is provided and that at least one component 47 of the bearing mount 44, which has at least one storage location 48 or storage surface 48 for the at least one respective roller bearing 27, is permanently arranged on the respective transfer support body 19 and that at least one further component 46 of the bearing mount 44 is which has at least one fixing point 49 or fixing surface 49 for fixing the respective rolling bearing 27 in contact with the respective storage point 48 or storage surface 48, is permanently arranged on a respective main supporting body 06.
  • the application unit 400; 600; 800 preferably characterized in that the application unit 400; 600; 800 at least one storage device 21 for storing supply rollers 403; 603; 803 and that the storage device 21 has at least two storage receptacles 22 for each receiving a supply roller 403; 603; 803 and that the storage device 21 has at least one movable relocating device 23, by means of which the at least two storage receptacles 22 can be moved and arranged in different storage positions 28.
  • the storage receptacles 22 can preferably perform at least one, in particular closed, revolving movement. In particular, the storage receptacles 22 can occupy any desired storage positions 28 along a circulation path.
  • each storage position 28 can preferably be occupied by a plurality of, in particular all, storage receptacles 22, but by a maximum of one storage receptacle 22 at any time preferably a pivoting movement and/or rotational movement about a storage axis 24, the storage axis 24 preferably being stationary, in particular stationary in relation to the frame 427; 627; 827 of the flexo applicator 414; 614; 814 and/or the flexo application unit 400; 600; 800
  • the application unit 400; 600; 800 preferably characterized in that at least one supply roller 403; 603; 803 can be moved along an in particular exclusively linear roller adjustment path 33. More preferably, one end is identical to a supply position 29 and the other end to one of the storage positions 28; 34 are identical, which more preferably is a storage position 28; 34 of storage positions 28; 34 of the memory device 21 is formed.
  • a supply position 29 is preferably a position and/or a spatial area that is used at least in one application process of application unit 414; 614; 814 from that in the commissioned work 414; 614; 814 arranged at least one supply roller 403; 603; 803 is occupied, in particular by that supply roller 403; 603; 803, which during this application process with the forme cylinder 402; 602; 802 of applicator 414; 614; 814 and/or the elevator 04 is in contact.
  • the application unit 400; 600; 800 preferably characterized in that the at least one component 47 of the bearing mount 44 that has at least one storage location 48 or storage surface 48 for the at least one respective roller bearing 27 can be moved in or against the adjustment direction B to such an extent that at least one supply roller 403; 603; 803 is in contact with this storage location 48 or storage surface 48 of the bearing receptacle 44 and with an inner boundary surface 31 of a storage receptacle 22 of the storage device 21 at the same time. More preferably, this component 47 can be moved even further in or counter to the adjustment direction B, in particular around the corresponding supply roller 403; 603; 803 in the Store recording 22.
  • the application unit 400; 600; 800 is preferably characterized in that this at least one component 47 of the bearing mount 44 is based on a position in which the supply roller 403; 603; 803, supported by the bearing mount 44, is arranged in the supply position 29, is arranged to be movable along the at least one linear guide 07, in particular over a straight line, which is longer than the roller adjustment path 33.
  • At least one roller bearing 27 of a supply roller 403; 603; 803 is arranged in a bearing receptacle 44 that can be moved, in particular by means of the at least one transfer support body 19, and the supply roller 403; 603; 803 with a forme cylinder 402; 602; 802 and/or its elevator 04.
  • this at least one roller bearing 27 of this supply roller 403; 603; 803 is arranged in this bearing receptacle 44, which can be moved in particular by means of the at least one transfer support body 19, and this supply roller 403; 603; 803 arranged in a storage receptacle 22 of the storage device 21 .
  • the application unit 400; 600; 800 preferably characterized in that each bearing contact area of a supply roller 403; 603; 803 with which the supply roller 403; 603; 803 with this bearing mount 44 of the application unit 400; 600; 800 is in contact with respect to a transverse direction A spaced from each memory contact area with which the supply roller 403; 603; 803 is in contact with the storage device 21 in a storage receptacle 22 .
  • the bearing contact area is preferably an outer ring of the at least one roller bearing 27 and/or at least one component fixedly connected to such an outer ring.
  • the storage contact area is, for example, part of a roll body 17 of the supply roll 403; 603; 803, but preferably part of a roll neck 18 of the supply roll 403; 603; 803
  • the at least one positioning device 43 preferably has the at least one linear guide 07 and/or the at least one main supporting body 06 and/or the at least one main transmission 08 and/or the at least one transfer supporting body 19 and/or the at least one transfer drive M6 and/or the at least one Shutoff drive M4 and/or the at least one transfer gear 54 and/or the at least one supply support body 57 and/or the at least one thrust stop 63 and/or the at least one supply actuating element 66.
  • a first such case is given when the flexo applicator unit 414; 614; 814 is to be adapted to a different thickness of a substrate 02. Then the forme cylinder 402; 602; 802 relative to the impression cylinder 408; 608; 808 moves to set a corresponding distance. Furthermore, the supply roller 403; 603; 803 moves to a corresponding contact with the forme cylinder 402; 602; 802 to maintain or restore.
  • the chamber doctor blade 401; 601; 801 together with the supply roller 403; 603; 803 is moved to prevent application fluid from escaping unintentionally and/or damage to the supply roller 403; 603; 803 and/or the chamber doctor blade 401; 601; 801 to avoid.
  • a second such case is when a new dressing 04 is on the forme cylinder 402; 602; 802 is to be arranged and/or an old packing 04 from forme cylinder 402; 602; 802 should be removed. Then the forme cylinder 402; 602; 802 relative to the impression cylinder 408; 608; 808 moves to create enough space, for example by at least 15 cm and/or by at most 40 cm. Furthermore, the supply roller 403; 603; 803 relative to the forme cylinder 402; 602; 802 moves to create enough space, for example by at least 10 mm and/or by at most 30 mm.
  • the chamber doctor blade 401; 601; 801 is preferably used together with the supply roller 403; 603; 803 moves so that no application fluid can escape unintentionally. (Such positioning is also exemplified in Figures 5a to 5d shown.)
  • the application unit 400; 600; 800 has at least one protective device 73, which more preferably can be opened to place and/or remove a corresponding elevator 04 and otherwise protect operators from the risk of injury.
  • a third such case is when a supply roller 403; 603; 803 is to be installed, changed or removed. Then the chamber doctor blade 401; 601; 801 initially from the supply roller 403; 603; 803 turned off. Furthermore, for example, the forme cylinder 402; 602; 802 from the impression cylinder 408; 608; 808 turned off, for example by at least 10 cm and at most 40 cm. This movement guides the supply roller 403; 603; 803 because of the structure of the positioning device 43 is also preferred. Preferably thereafter, the supply roller 403; 603; 803 moves further, for example in a storage device 21 of the application unit 400; 600; 800 or to a loading position.
  • the supply roller 403; 603; 803, for example, by at least 400 mm and/or at most 600 mm downwards.
  • the application unit 400; 600; 800 has at least one covering device 69, which is further preferably used for transferring a supply roller 403; 603; 803 between the applicator 414; 614; 814 and the memory device 21 can be opened and otherwise the storage device 21 and/or supply rollers 403 arranged therein; 603; 803 protects against dirt.
  • the application unit 400; 600; 800 the at least one storage device 21 for storing supply rollers 403; 603; 803 on.
  • the at least one storage device 21 is preferably below the application unit 414; 614; 814 arranged. more preferably such that the axis of rotation 39 of the forme cylinder 402; 602; 802 is arranged in the vertical direction V above the storage device 21, even more preferably in such a way that the axis of rotation 39 of the forme cylinder 402; 602; 802 is arranged in the vertical direction V above the storage axis 24 of the storage device 23.
  • the at least one storage device 21 preferably has at least two, more preferably at least three, even more preferably at least four and even more preferably exactly four storage receptacles 22 for receiving one supply roller 403; 603; 803 on. In this way, at least one supply roller 403; 603; 803 are kept ready in the vicinity of their intended place of use if a supply roller 403; 603; 803 is to be replaced. Typically, such replacement occurs, for example, when a subsequent application requires a lesser or greater amount of application fluid per area.
  • a storage receptacle 22 is to be understood in particular as a defined spatial area which is used to accommodate a supply roller 403; 603; 803 is provided and preferably has the same dimensions.
  • the respective storage receptacle 22 is preferably fixed by at least one boundary and/or at least one component and/or at least one surface and is preferably movable. In this case, this boundary or this component or this area does not have to completely enclose the corresponding spatial area. It is sufficient if, for example, contact areas for roll necks 18 are defined, from which the position of the entire supply roll 403; 603; 803 results.
  • the storage device 21 preferably has at least one movable relocating device 23, by means of which the at least two storage receptacles 22 can be moved and arranged in different storage positions 28.
  • a storage position 28 is to be understood in particular as a defined spatial area which is used to accommodate a supply roller 403; 603; 803 is provided. While a storage receptacle 22 is fixed at all times by the position of physical components of the storage device 21 and is therefore preferably movable, a respective storage position 28 designates a very specific position of a corresponding storage receptacle 22, in particular regardless of whether there is actually a storage receptacle 22 there or even a supply roller 403; 603; 803 is arranged or not.
  • a respective storage position 28 is thus defined in space and is preferably stationary, in particular stationary with respect to the frame 427; 627; 827 of the flexo applicator 414; 614; 814 and/or the flexo application unit 400; 600; 800
  • the at least one movable transfer device 23 is preferably arranged such that it can pivot and/or rotate about the storage axis 24 .
  • two relocating devices 23 are arranged, in particular spaced apart from one another in the transverse direction A, which are arranged such that they can pivot and/or rotate about a common storage axis 24 .
  • These two transfer devices 23 are preferably connected to one another via a storage shaft.
  • the at least one relocating device 23 is preferably arranged such that it can be moved by means of at least one drive M7, also referred to as storage drive M7, in particular in that the storage drive M7 causes a pivoting movement or rotational movement about the storage axis 24.
  • the at least one storage drive M7 is preferably designed as a motor M7, more preferably as a position-controlled electric motor in particular.
  • a respective example of such boundaries and/or components and/or surfaces that define the storage receptacle 22 is at least one inner boundary surface 31 and/or at least one outer boundary surface 32.
  • the application unit 400; 600; 800 preferably characterized in that storage receptacles 22, in particular at least all such storage receptacles 22 that are connected to the relocating device 23, at least also by at least one respective movable, in particular relative to the frame 427; 627; 827 of the application unit 400; 600; 800 movable for contact with a roll neck 18 or a roll barrel 17 of a respective supply roll 403; 603; 803 provided inner boundary surface 31 are fixed, wherein this at least one inner boundary surface 31 is preferably formed as part of the transfer device 23.
  • the respective inner boundary surface 31 is preferably concave and, with a corresponding orientation, preferably forms a kind of shell in which the roll neck 18 can be held, in particular against the force of gravity.
  • the at least one inner boundary surface 31 is preferably a surface 31 of the transfer device 23.
  • the storage receptacles 22 can preferably perform a revolving movement, as described above, there are also situations in which the inner boundary surface 31 is not sufficient for the supply roller 403; 603; 803 against gravity in the storage receptacle 22 to hold.
  • the storage receptacles 22 are therefore designed to be lockable. This is possible by means of a closure that runs around together with the storage receptacle 22 .
  • the application unit 400; 600; 800 characterized in that such storage receptacles 22, which are arranged in a storage position 28 of a first subset of all possible storage positions 28, in addition to the at least one inner boundary surface 31, at least also have at least one respective stationary arranged for contact with a roll neck 18 or a roll body 17 of a respective supply roll 403; 603; 803 designed outer interface 32 are set.
  • the respective Outer interface 32 is preferred relative to frame 427; 627; 827 of the application unit 400; 600; 800 arranged stationary, in particular relative to the frame 427; 627; 827, to which the relocating device 23 and the inner boundary surface 31 are movably arranged.
  • the storage device 21 preferably has at least one outer boundary body 68 .
  • the at least one outer limit body 68 is preferably arranged in a stationary manner, in particular in a stationary manner relative to the frame 427; 627; 827 of the application unit 400; 600; 800.
  • the at least one outer boundary surface 32 is preferably a surface 32 of the at least one outer boundary body 68.
  • the shape of the at least one outer boundary body 68 and/or the at least one outer boundary surface 32 is preferably adapted to a movement path of the at least one relocation device 23. This can preferably ensure that the storage receptacles 22 are always sufficiently closed in the relevant areas to prevent unwanted movements or even falling out of supply rollers 403; 603; 803 to prevent.
  • the at least one repositioning device 23 preferably has a rotationally symmetrical envelope.
  • the at least one relocating device 23 is designed as a cylindrical disk, the outer surface of which has indentations.
  • the boundary surfaces of these depressions are preferably the inner boundary surfaces 31.
  • Such a shifting device 23 is preferably arranged such that it can rotate.
  • the storage axis 24 preferably forms the central axis of this flat cylindrical disc.
  • the cylinder disk can have recesses to reduce weight and can even be reduced to such an extent that it consists only of shells having the inner boundary surfaces 31 and supports connecting these shells to a central support body.
  • the at least one outer boundary body 68 preferably has at least one concave shape.
  • the outer boundary body 68 has a part-circular or part-cylindrical concave surface 32 which is formed as the outer boundary surface 32 .
  • the storage axis 24 preferably forms the central axis of this part-circular or part-cylindrical outer boundary surface 32.
  • corresponding storage receptacles 22 are then preferably closed by the outer boundary surface 32, the associated storage positions 28 being defined by their position relative to the outer boundary body 68.
  • the at least one relocating device 23 can be pivoted and/or rotated about the storage axis 24 .
  • the at least one transfer device 23 preferably has at least two recesses that form storage receptacles 22. These recesses are preferably constructed identically.
  • the at least two recesses are preferably each open in a radial direction relative to storage axis 24 .
  • the at least two recesses preferably each have at least one inner boundary surface 31, which has a minimum distance between a supply roller 403; 603; 803 to the storage axis 24.
  • the respective dimensions of the at least two recesses, based on their respective radial direction, are preferably larger than a diameter of the roll neck 27 at a respective point that is provided for receiving in the respective storage receptacle 22 . These respective dimensions of the at least two recesses, based on their respective radial direction, are preferably smaller than twice the diameter of the roll necks 27 at this respective point.
  • the respective dimensions of the at least two recesses, based on their respective circumferential direction are preferably greater than a diameter of the roll neck 27 at the respective location that is intended for receiving in the respective storage receptacle 22 .
  • These respective dimensions of the at least two recesses, based on their respective circumferential direction are preferably smaller than twice the diameter of the roll necks 27 at this particular point, more preferably smaller than 110% of this diameter.
  • the at least one outer boundary surface 32 is preferably shaped in such a way that its projection in the transverse direction A corresponds to an arc of a circle.
  • a radius of this The arc of a circle is preferably greater than the greatest distance between the relocating device 23 and the storage axis 24.
  • the radius of this arc of a circle is preferably no more than 20%, more preferably no more than 10% and even more preferably no more than 5% greater than the greatest distance of the relocating device 23 from of the storage axis 24.
  • a central angle of this circular arc is preferably at least 180°, more preferably at least 190° and even more preferably at least 200°.
  • the at least one outer interface 32 is preferably lined with a material having a relatively high coefficient of friction, such as rubber.
  • a roll neck 27 of a supply roll 403; 603; 803 is in contact with this outer boundary surface 32 while the transfer device 23 is rotated, the corresponding supply roller 403; 603; 803 is set in a rolling motion along the outer boundary surface 32 in addition to the orbital motion in the circumferential direction.
  • This rolling movement can be used, for example, by using a cleaning device, for example a brush, with a roller jacket surface of the supply roller 403; 603; 803 is contacted.
  • the supply roller 403; 603; 803 cleaned at the same time during their rearrangement.
  • a contact between supply roller 403; 603; 803 and the cleaning device provided in the contact area over an angular range of at least 45°, more preferably at least 90° and even more preferably at least 110° around the storage axis 24.
  • the application unit 400; 600; 800 preferably characterized in that by means of the at least one positioning device 43 at least one supply roller 403; 603; 803 can be moved along an in particular exclusively linear roller adjustment path 33, one end of which is identical to the supply position 29 and the other end to one of the storage positions 28; 34 is identical, in particular with a change position 34.
  • the change position 34 is preferably that storage position 28; 34, in which a storage receptacle 22 must be arranged so that a direct change of a supply roller 403; 603; 803 between the storage device 21 on the one hand and the application unit 414; 614; 814 on the other hand is feasible.
  • the roller adjustment path 33 preferably serves to move a supply roller 403; 603; 803 for positioning against a forme cylinder 402; 602; 802 and/or for stopping a forme cylinder 402; 602; 802.
  • the roller adjustment path 33 preferably runs in and/or opposite to the adjustment direction B.
  • the changeover position 34 is preferably a highest storage position 28 that can occupy a storage receptacle 22 of the storage device 21 and/or the storage device 21 is below the application unit 414; 614; 814 arranged.
  • the application unit 400; 600; 800 preferably characterized in that at least one, in particular a first, of the storage positions 28 is the changing position 34.
  • the changing position 34 preferably serves as the starting point for feeding a supply roller 403; 603; 803 to applicator 414; 614; 814 and/or as an end point and/or intermediate point when a supply roller 403; 603; 803 from the commissioned work 414; 614; 814.
  • the application unit 400; 600; 800 is preferably characterized in that when the storage receptacle 22 is arranged in the changing position 34, a supply roller 403; 603; 803 in or counter to the adjustment direction B between this storage receptacle 22 on the one hand and an area remote from this storage device 21 of the storage device 21 with the application unit 414; 614; 814 connecting roll adjustment path 33 is transferable on the other hand.
  • Preferred is for movements of supply rollers 403; 603; 803 the at least one positioning device 43 is arranged between the changing position 34 and the supply position 29, in particular the at least one transfer support body 19. It is preferred for movements of supply rollers 403; 603; 803 between the changing position 34 and other storage positions 28 the at least one transfer device 23 is arranged.
  • the application unit 400; 600; 800 preferably characterized in that at least one, in particular second, of the storage positions 28 is a loading position 36.
  • the loading position 36 preferably serves as the starting point for transporting away a supply roller 403; 603; 803 from the application unit 400; 600; 800 and therefore preferably acts as an unloading position.
  • the application unit 400; 600; 800 is preferably characterized in that when the storage receptacle 22 is arranged in the loading position 36, a supply roller 403; 603; 803 can be transferred along a particularly linear loading path 37 in or counter to a loading direction L between this storage receptacle 22 on the one hand and a loading area 38 on the other.
  • the loading area 38 is preferably a loading area 38 of the application unit 400; 600; 800.
  • the application unit 400; 600; 800 preferably characterized in that the loading path 37 is designed as a linear loading path 37 and/or that the loading direction L deviates from at least one horizontal direction C by at most 30°, more preferably at most 20°, even more preferably at most 10° and even further preferably deviates by at most 5° or is oriented horizontally.
  • This horizontal direction C is preferably orthogonal to the transverse direction A and/or to the axis of rotation 39 of the forme cylinder 402; 602; 802 oriented.
  • the loading position 36 preferably also serves as an entry point for a supply roller 403 feed; 603; 803 to the application unit 400; 600; 800 and therefore acts primarily as a loading position.
  • supply rollers 403; 603; 803 are preferably moved along the loading path 37, in particular rolled, for example manually or automatically.
  • supply rollers 403; 603; 803 are preferably moved between the loading position 36 and other storage positions 28, preferably by means of the at least one transfer device 23 moves.
  • at least one delivery device 71 can be arranged in the loading area 38 to supply supply rollers 403; 603; 803 between the storage device 21 and an area outside the application aggregate 400; 600; 800 exchange.
  • a transport vehicle 71 is used as such a delivery device 71 .
  • the application unit 400; 600; 800 at least one closure element 72, which separates the loading area 38 from the loading position 36 when no exchange of supply rollers 403; 603; 803 between loading area 38 and loading position 36 is provided. More preferably, the at least one closure element 72 then serves at least partially as an outer boundary surface 32.
  • the at least one closure element 72 can preferably be opened in order to exchange supply rollers 403; 603; 803 between loading area 38 and loading position 36 to allow. More preferably, the at least one closure element 72 then serves at least partially as a support surface and/or to define the loading path 37 Figures 4a to 4c an open and a closed closure element 72 are arranged in each case. However, these closure elements 72 are preferably always either both open or both closed.)
  • processing machine 01 has a substrate feed device 100, an infeed device 300, a plurality of flexo application units 600, preferably embodied as flexo printing units 600, a punching device, and a substrate delivery device 1000.
  • Transport devices 700 are preferably arranged.
  • the flexo application units 600 are preferably used to apply application fluid from below.
  • the transport devices 700 are preferably embodied as suction transport devices 700 for suspended transport of the substrate 02.
  • the punching device 900 preferably has a forme cylinder which is arranged above an impression cylinder. (Such a processing machine 01 according to the first exemplary embodiment is also shown in FIG 1 shown.)
  • processing machine 01 has a substrate feed system 100, a feed system 300, for example a preparation system, a flexo application unit 400 embodied as a priming unit 400, a non-impact printing unit 600, a flexo application unit 800 embodied as a coating unit 800, and a Substrate dispenser 1000 on.
  • Transport devices are preferably integrated in respective units.
  • the flexo coaters 400; 800 and the non-impact pressure device 600 preferably serve to apply application fluid from above.
  • the transport devices are preferably embodied as suction transport devices and/or for horizontal transport of substrate 02. (Such a processing machine 01 according to the second exemplary embodiment is also shown in FIG 2 shown.)

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Coating Apparatus (AREA)
  • Inking, Control Or Cleaning Of Printing Machines (AREA)
  • Rotary Presses (AREA)
EP19758396.6A 2019-01-08 2019-08-22 Auftragaggregat mit positioniervorrichtung und speichereinrichtung Active EP3908466B1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102019100310.5A DE102019100310A1 (de) 2019-01-08 2019-01-08 Auftragaggregat mit Positioniervorrichtung und Speichereinrichtung
PCT/EP2019/072465 WO2020143932A1 (de) 2019-01-08 2019-08-22 Auftragaggregat mit positioniervorrichtung und speichereinrichtung

Publications (2)

Publication Number Publication Date
EP3908466A1 EP3908466A1 (de) 2021-11-17
EP3908466B1 true EP3908466B1 (de) 2022-09-07

Family

ID=67734667

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Application Number Title Priority Date Filing Date
EP19758396.6A Active EP3908466B1 (de) 2019-01-08 2019-08-22 Auftragaggregat mit positioniervorrichtung und speichereinrichtung

Country Status (6)

Country Link
US (1) US11318731B2 (zh)
EP (1) EP3908466B1 (zh)
JP (1) JP7021399B2 (zh)
CN (1) CN114126876B (zh)
DE (1) DE102019100310A1 (zh)
WO (1) WO2020143932A1 (zh)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102019100309A1 (de) * 2019-01-08 2020-07-09 Koenig & Bauer Ag Auftragaggregat mit Positioniervorrichtung und Speichereinrichtung

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4309945A (en) 1978-04-03 1982-01-12 Maryland Cup Corporation Flexographic printing unit
CH649035A5 (fr) * 1982-05-06 1985-04-30 Bobst Sa Procede pour echanger les organes d'impression des groupes imprimeurs d'une presse a imprimer et dispositif pour sa mise en oeuvre.
DE3222717A1 (de) * 1982-06-18 1983-12-22 Windmöller & Hölscher, 4540 Lengerich Vorrichtung zum wechseln der formzylinder in einer tiefdruckrotationsmaschine
DE4413807C1 (de) * 1994-04-20 1995-09-14 Windmoeller & Hoelscher Vorrichtung zum Wechseln der Zylinder an einer Druckmaschine
IT1292083B1 (it) 1997-06-04 1999-01-25 Aurelia Offset S P A Apparecchiatura per la stampa flessografica applicabile a gruppi di stampa offset
DE19819389B4 (de) 1997-07-30 2008-11-13 Heidelberger Druckmaschinen Ag Lackierwerk für Rotationsdruckmaschinen
DE19805898C2 (de) * 1998-02-13 2003-09-18 Roland Man Druckmasch Druckwerk für eine Rollenrotationsdruckmaschine
DE19806898A1 (de) 1998-02-19 1999-08-26 Thomson Brandt Gmbh Gerät zum Lesen und/oder Beschreiben scheibenförmiger Aufzeichnungsträger
DE19848773C2 (de) 1998-10-22 2002-11-28 Windmoeller & Hoelscher Vorrichtung zum Anstellen und Entfernen einer Farbkammerrakel an die Rasterwalze einer Druckmaschine
SE514057C2 (sv) 1999-03-30 2000-12-18 Tetra Laval Holdings & Finance Sätt och anordning för låsning av valsar i ett tryckverk
DE19937796B4 (de) 1999-08-10 2007-03-22 Man Roland Druckmaschinen Ag Druckwerk
US6142073A (en) * 1999-08-20 2000-11-07 Paper Converting Maching Company Method and apparatus for exchanging a roll of a printing press
DE19962425B4 (de) 1999-12-22 2004-01-29 Man Roland Druckmaschinen Ag Vorrichtung zum Wechseln eines rotationssymetrischen Bauteiles
DE10111068B4 (de) * 2000-04-07 2018-01-18 Heidelberger Druckmaschinen Ag Walzenschloss zum lösbaren Befestigen einer Walze in einer Druckmaschine
DE10304109A1 (de) 2003-01-31 2004-08-19 Windmöller & Hölscher Kg Druckwerk einer Druckmaschine
DE202005006367U1 (de) 2005-04-20 2005-06-16 Göpfert Maschinen GmbH Druckmaschine mit Walzenwechseleinrichtung
DE102005024502B4 (de) 2005-05-27 2016-07-21 manroland sheetfed GmbH Druckmaschine, insbesondere Bogendruckmaschine
DE102005046088A1 (de) * 2005-09-27 2007-04-05 Man Roland Druckmaschinen Ag Vorrichtung zur Bewerktstlligung eines Walzenwechsels, sowie hiermit ausgestattete Druckmaschine an sich
US8001895B2 (en) * 2006-05-23 2011-08-23 Koenig & Bauer Aktiengesellschaft Inking unit of a rotary press, comprising a film roller
DE102007003975B4 (de) * 2007-01-26 2021-08-12 Koenig & Bauer Ag Druckmaschine in Aggregatbauweise mit in Reihe angeordneten Werken
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DE102013217942B4 (de) * 2013-09-09 2017-04-27 Koenig & Bauer Ag Verfahren und Vorrichtung zum Stellen von Rotationskörpern einer Druckmaschine

Also Published As

Publication number Publication date
US11318731B2 (en) 2022-05-03
WO2020143932A1 (de) 2020-07-16
JP7021399B2 (ja) 2022-02-16
DE102019100310A1 (de) 2020-07-09
EP3908466A1 (de) 2021-11-17
CN114126876A (zh) 2022-03-01
CN114126876B (zh) 2022-11-25
US20210354441A1 (en) 2021-11-18
JP2021534024A (ja) 2021-12-09

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