DE102015218146A1 - Delivery device and method for operating a delivery device - Google Patents

Delivery device and method for operating a delivery device Download PDF

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Publication number
DE102015218146A1
DE102015218146A1 DE102015218146.4A DE102015218146A DE102015218146A1 DE 102015218146 A1 DE102015218146 A1 DE 102015218146A1 DE 102015218146 A DE102015218146 A DE 102015218146A DE 102015218146 A1 DE102015218146 A1 DE 102015218146A1
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DE
Germany
Prior art keywords
sheet
delivery
station
transport
braking
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.)
Pending
Application number
DE102015218146.4A
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German (de)
Inventor
Jens Bellmann
Karsten Grossmann
Volker Taschenberger
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
Application filed by Koenig and Bauer AG filed Critical Koenig and Bauer AG
Priority to DE102015218146.4A priority Critical patent/DE102015218146A1/en
Publication of DE102015218146A1 publication Critical patent/DE102015218146A1/en
Pending legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H43/00Use of control, checking, or safety devices, e.g. automatic devices comprising an element for sensing a variable
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H29/00Delivering or advancing articles from machines; Advancing articles to or into piles
    • B65H29/02Delivering or advancing articles from machines; Advancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles
    • B65H29/04Delivering or advancing articles from machines; Advancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles the grippers being carried by endless chains or bands
    • B65H29/041Delivering or advancing articles from machines; Advancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles the grippers being carried by endless chains or bands and introducing into a pile
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H29/00Delivering or advancing articles from machines; Advancing articles to or into piles
    • B65H29/24Delivering or advancing articles from machines; Advancing articles to or into piles by air blast or suction apparatus
    • B65H29/245Air blast devices
    • B65H29/246Air blast devices acting on stacking devices
    • B65H29/247Air blast devices acting on stacking devices blowing on upperside of the sheet
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H29/00Delivering or advancing articles from machines; Advancing articles to or into piles
    • B65H29/52Stationary guides or smoothers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H29/00Delivering or advancing articles from machines; Advancing articles to or into piles
    • B65H29/58Article switches or diverters
    • B65H29/62Article switches or diverters diverting faulty articles from the main streams
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H29/00Delivering or advancing articles from machines; Advancing articles to or into piles
    • B65H29/68Reducing the speed of articles as they advance
    • B65H29/686Pneumatic brakes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H31/00Pile receivers
    • B65H31/04Pile receivers with movable end support arranged to recede as pile accumulates
    • B65H31/08Pile receivers with movable end support arranged to recede as pile accumulates the articles being piled one above another
    • B65H31/10Pile receivers with movable end support arranged to recede as pile accumulates the articles being piled one above another and applied at the top of the pile
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H31/00Pile receivers
    • B65H31/20Pile receivers adjustable for different article sizes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H31/00Pile receivers
    • B65H31/24Pile receivers multiple or compartmented, e.d. for alternate, programmed, or selective filling
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H31/00Pile receivers
    • B65H31/32Auxiliary devices for receiving articles during removal of a completed pile
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2404/00Parts for transporting or guiding the handled material
    • B65H2404/60Other elements in face contact with handled material
    • B65H2404/69Other means designated for special purpose
    • B65H2404/691Guiding means extensible in material transport direction
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2404/00Parts for transporting or guiding the handled material
    • B65H2404/60Other elements in face contact with handled material
    • B65H2404/69Other means designated for special purpose
    • B65H2404/693Retractable guiding means, i.e. between guiding and non guiding position
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2404/00Parts for transporting or guiding the handled material
    • B65H2404/70Other elements in edge contact with handled material, e.g. registering, orientating, guiding devices
    • B65H2404/72Stops, gauge pins, e.g. stationary
    • B65H2404/725Stops, gauge pins, e.g. stationary retractable
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2405/00Parts for holding the handled material
    • B65H2405/30Other features of supports for sheets
    • B65H2405/33Compartmented support
    • B65H2405/331Juxtaposed compartments
    • B65H2405/3311Juxtaposed compartments for storing articles horizontally or slightly inclined
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2405/00Parts for holding the handled material
    • B65H2405/50Gripping means
    • B65H2405/58Means for achieving gripping/releasing operation
    • B65H2405/584Associated control means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2406/00Means using fluid
    • B65H2406/10Means using fluid made only for exhausting gaseous medium
    • B65H2406/11Means using fluid made only for exhausting gaseous medium producing fluidised bed
    • B65H2406/111Means using fluid made only for exhausting gaseous medium producing fluidised bed for handling material along a curved path, e.g. fluidised turning bar
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2406/00Means using fluid
    • B65H2406/10Means using fluid made only for exhausting gaseous medium
    • B65H2406/11Means using fluid made only for exhausting gaseous medium producing fluidised bed
    • B65H2406/112Means using fluid made only for exhausting gaseous medium producing fluidised bed for handling material along preferably rectilinear path, e.g. nozzle bed for web
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2406/00Means using fluid
    • B65H2406/10Means using fluid made only for exhausting gaseous medium
    • B65H2406/11Means using fluid made only for exhausting gaseous medium producing fluidised bed
    • B65H2406/113Details of the part distributing the air cushion
    • B65H2406/1132Multiple nozzles arrangement
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2511/00Dimension; Position; Number; Identification; Occurence
    • B65H2511/10Size; Dimension
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2511/00Dimension; Position; Number; Identification; Occurence
    • B65H2511/20Location in space
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2513/00Dynamic entities; Timing aspect
    • B65H2513/10Speed
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2601/00Problem to be solved or advantage achieved
    • B65H2601/10Ensuring correct operation
    • B65H2601/11Clearing faulty handling, e.g. jams
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2601/00Problem to be solved or advantage achieved
    • B65H2601/30Facilitating or easing
    • B65H2601/32Facilitating or easing entities relating to handling machine
    • B65H2601/321Access
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2801/00Application field
    • B65H2801/03Image reproduction devices
    • B65H2801/21Industrial-size printers, e.g. rotary printing press

Abstract

In a delivery device, which comprises in the transport path of conveyed by a conveyor system in the transport direction last discharge station and at least one of the last discharge station in the transport upstream upstream discharge station, the upstream stack delivery in the transport path is a braking device upstream and / or a wirerbare-variable sheet guiding element upstream wherein the braking device itself or at least one active surface of the braking device which comes into operative contact with the printing material sheet and / or a downstream end of the wiraggerable sheet guiding element of the upstream delivery station for storing sheets of a first format length in a first position considered in the transport direction and for depositing sheets of at least one second , relative to the first format length smaller format length in a transport direction further downstream located second position is displaced. In an operating mode of the display device in which a dispensing station is deactivated, the braking device itself or at least one active surface of the braking device coming into operative contact with the printing material web and / or a downstream end of the wirerbare variable sheet guiding element of the upstream dispensing station is brought into a supporting position.

Description

  • The invention relates to a display device and method for operating a display device according to the preamble of claim 1, 5 and 7, respectively.
  • In a material and data flow section in the "Handbuch der Printmedien" by Helmut Kipphan, Springer Verlag, 2000, is described in 8.1-11 (Chapter 8.1). a double display set out as a "highly automated variant of the non-stop boom". Next double booms are also used for the separation of spoil sheets as so-called. Makulaturweichen.
  • In the JP 25 17 276 B2 a delivery device with two delivery stations is disclosed, wherein between the first and second delivery station, a guide element is provided. In the end region, a stop which can be pivoted into and out of the transport path is provided.
  • The DE 10 2008 006 528 A1 discloses a device for discharging sheets, wherein a auszuschleusender sheet can be discharged from a blown air guide level upstream of the main stack down, for this purpose, in one embodiment, a combing rake, the other continues the guide surface, pivoted in the transport path to the arc down from to derive the leadership level on an auxiliary pile. A guide piece adjoining the discharge point has blown air openings.
  • Similarly, the DE 103 29 833 A1 a sheet guiding device with a downwardly swiveling part, via which sheets to be ejected as waste paper can be fed to a so-called waste stack. The transport of the sheets is carried out by grippers, which are opened at the delivery location by contact with an opening curve. The curve provided above the waste stack can be pivoted into and out of the transport path of the gripper opening mechanism. Next, a blowing device is provided above the waste stack, which acts on the sheet top. An adjoining the pivotable part of the guide plane guide surface can be operated by a fan with positive pressure or negative pressure.
  • One on the homepage of Koenig & Bauer AG about the address http://www.kba.com/bogenoffset/bogenoffsetmaschinen/product/rapida-106/detail/ reachable brochure for "Rapida 106" is on pages 26 and 27 discloses a display in which a so-called. Venturi sheet guide is used.
  • The DE 10 2012 206 929 A1 discloses a sheet brake with a suction belt, by the deceleration of which the sheet is decelerated. The speed is reduced after gripper opening of the gripper carriage speed to a storage speed. The gripper opening curve is adjustable. The drives for the brake elements and for the placement of the gripper curve can be done via the machine control.
  • By the DE 10 2009 027 633 A1 is a blown air device with at least one extending in the transport direction Blasluftrohren and disclosed with fan elements. With the blower, the blowing effect in the central region of the falling arc is selectively influenced. An admission is preferably in time with the incoming from the printing press sheet.
  • The EP 1 958 906 A2 relates to a sheet guiding device in a stack delivery device comprising two delivery stations. The first delivery station is associated with a blower comprising a plurality of fans. For the operating state in which an arc is to be guided onto the second stack, the fans on the suction side are covered by the introduction of a shield. The delivery of the sheet at the delivery station is controlled by a gripper opening curve, which can be selectively introduced into or removed from the path of movement of the gripper opening mechanism.
  • In the DE 103 29 833 A1 a delivery device with means for forming a waste stack and a good sheet stack is disclosed, wherein for activating or deactivating the sheet release a gripper opening curve on the first-mentioned stack in the trajectory of a gripper bar on and out of this is swung out.
  • In the DE 10 2008 020 533 A1 a blast air device over a stacking shaft of a sheet delivery is disclosed. By adjustable baffles an air deflector, the blast air is selectively deflected from the sheet transport path or acting on the bow acting. In operation, the louver is adjusted by a control unit in time with the sheet sequence so that it is in the transport direction in front of the sheet leading edge in the closed position and after the sheet leading edge in the open position, that is permeable.
  • The DE 693 07 840 T2 discloses a display device with a dispensing station and a releasing switching device with a switching cam and a retaining device functionally associated cam follower. The switching cam is to adjust the opening point at a respect. The machine frame along the Moving direction arranged movably mounted base plate. For activating and deactivating the sheet release of the switching cam is pivoted about a kind of toggle mechanism about a provided on the base plate pivot axis.
  • By the DE 103 54 673 A1 For example, a display for forming only one stack is known, wherein the location of the release of an arc is determined via the location of the first contact.
  • By means of a switching cam located in a first position, sheets will be released over the stack. By located in a second position switching cams with a later initial contact sheet for the purpose of sample sheet removal are still passed over stack stops and released only to rest on a test sheet stop. A location of the location for the first contact is effected by pivoting the control cam by means of a drive means designed as a pneumatic cylinder.
  • The invention has for its object to provide a delivery device and method for operating a delivery device.
  • The object is achieved by the features of claim 1, 5 and 7 respectively.
  • The achievable with the present invention consist in particular in that for a storage device of sheet-shaped substrates a particularly low-noise operation and / or the best possible transport and / or high-quality storage is achieved.
  • In an advantageous embodiment of a delivery device comprising a conveyor system comprising at least one holding device, through which a printing material is receivable and downstream conveyed to a discharge station, where he can be selectively released from the holding device and deliverable to a stack to be formed or downstream conveyed, and with a the release effecting switching device, which comprises a release station functionally and / or spatially associated switching cam and a holding device functionally and / or spatially associated cam follower, the cam follower acts to operate on at least one holding element of the holding device, wherein the switching cam for activation and deactivation the release by an engaging on the switching cam first, a first drive means comprehensive adjusting device optionally in the undisturbed movement path of the cam follower in and out of this herausverbringbar, and where at a contact point on the switching cam for the initial contact between the switching cam and the cam follower to be moved in the transport direction by means of a different from the first actuator, a second drive means comprising second adjusting device along the transport direction is variable. In this case, the switching cam for varying the contact point with at least one of its related to the transport direction ends by the second adjusting device in its distance from the trajectory of the cam follower is variable. In addition or as an alternative, the switching cam for activating and deactivating the release by the first actuating device acting on the switching cam is pivotable about a pivot axis (A14) fixed to the frame and perpendicular to the transport direction with respect to a space-fixed frame of the delivery device.
  • In the control of a storage of printing material sheet, which are conveyed by a conveyor system downstream to a discharge station and optionally there delivered by a holding means of the conveyor system to a stack to be formed or downstream can be further promoted, wherein a delivery is effected in that one of the discharge station and functional / or spatially assigned switching cam on one of the holding device functionally and / or spatially associated cam follower, the switching cam for activating and deactivating the release in the undisturbed trajectory of the cam follower is moved out of this and out and to vary the place of delivery a contact point on the switching cam varies for the initial contact between the switching cam and the cam follower to be moved in the transport direction along the transport direction. In this case, the activation and deactivation takes place by a pivoting of the switching cam about a frame-fixed first pivot axis and / or varying the switching cam by a variation of the distance between at least one of its related to the transport direction ends and the trajectory of the cam follower.
  • On its own or in conjunction with an above-mentioned advantageous delivery device for displaying in the region of an entry side of the delivery device feedable sheet this includes at least a first dispensing station and one of the first discharge station in the transport path downstream downstream second dispensing station, wherein the dispensing stations each one or are associated with a plurality of devices which are adjustable with respect to an adjustment or correction of the sheet guiding and / or storage by drive means comprehensive drives, and wherein viewed at a height of a downstream and longitudinal direction of the dispenser behind the lateral entrance into the stacking space of the second Dispensing station at least a first user interface is provided, via which by actuation of the user interface encompassed actuation means, a drive means of one of the first delivery station associated, adjustable in terms of format or transport-relevant variable means and / or adjustable.
  • On its own or in conjunction with at least one o. G. In an advantageous embodiment, the delivery device comprises at least one first delivery station and a second delivery station arranged downstream of the first delivery station downstream in the transport path, wherein the delivery stations are each assigned at least one device which, with regard to an adjustment or correction of the sheet guide and / or storage by drive means comprehensive drives are adjustable, and wherein at least one control interface is provided with at least one first actuating means, by its actuation via a first signal connection, a drive means to be provided device of the second discharge station and at the same time a second signal connection, a drive means of a functionally corresponding to the device of the second dispensing station corresponding device of the first dispensing station adjustable o which is adjustable.
  • On its own or in conjunction with at least one o. G. In an advantageous embodiment, the delivery device comprises at least one first delivery station and a second delivery station downstream of the first delivery station downstream in the transport path, at least one camera being provided in the region of the first delivery station the stacking space of the stack to be formed in the first storage station can be directed or directed and is in signal connection with a display device provided at a distance from the first storage station.
  • On its own or in conjunction with at least one o. G. In an advantageous embodiment, the delivery device comprises at least two dispensing stations and a conveyor system, by means of which a printing material sheet is receivable and can be conveyed downstream to a first of the dispensing stations, where it can be dispensed to form a first stack or downstream to the second of the dispensing stations and can be delivered there to form a second stack, wherein each dispensing station for medium or immediate receiving a stack is associated with a vertically movable support means, and wherein the first and second dispensing station each having a non-disruptive stack change enabling stack change device each associated with a motorized lowerable auxiliary support device.
  • When operating a delivery device, in particular designed in this way, with at least two delivery stations and with a delivery system through which a printing material sheet is received and conveyed downstream to a first of the delivery stations, where it is delivered either to form a first stack or downstream to the second delivery station) is further promoted and delivered there to form a second stack, takes place both at the first stack and the second stack upon reaching a predetermined or maximum stack height or at the initiative of the operator uninterrupted stack change by temporarily at the respective storage station an auxiliary support means for forming an auxiliary stack introduced into the fall path of the arc and this is correlated to the continued by the operation conditional growth of the auxiliary stack is lowered by a motor.
  • On its own or in conjunction with at least one o. G. Advantageous embodiment comprises the delivery device in the transport path of conveyed by a conveyor system a last delivery station in the transport direction and at least one of the last discharge station upstream in the transport path, upstream discharge station, the upstream delivery station in the transport path a braking device and / or upstream a wirerbare variable sheet guide element upstream and wherein the braking device itself or at least one active surface of the braking device which comes into operative contact with the printing material sheet and / or a downstream end of the wiraggerable sheet guiding element of the upstream delivery station for storing sheets of a first format length in a first position considered in the transport direction and at least one for depositing sheets second, relative to the first format length smaller format length verlag in a transport direction further downstream located second position verlag is recoverable.
  • In the operation of a delivery device, in particular designed in this way, which comprises a delivery station in the transport path of a delivery system conveyed by a conveyor system and at least one delivery station in the transport path upstream, the upstream delivery station in the transport path to a braking device and / / or a wirerbare variable sheet guiding element is arranged upstream, wherein the braking device itself or at least one passing with the printing material in operative contact effective surface of the braking device and / or a downstream end of the wirerbare variable sheet guiding element of the front discharge station in at least one mode of operation of the delivery device in response to a current, that is to be deposited format length along the transport direction is positioned in different positions.
  • Instead of or in addition to this, in operation of a delivery device, which is provided in the transport path of a delivery system conveyed by a conveyor system, a front delivery station precedes in the transport direction last delivery station and at least one of the last delivery station in the transport path, the upstream delivery station in the transport path a Braking device upstream and / or upstream of a wirerbare variable sheet guiding element, the braking device itself or at least one effective contact surface of the printing material in effective contact surface of the braking device and / or a downstream end of wirerbare variable sheet guiding element of the front discharge station for operation of the delivery device in a mode of operation, in which the front discharge station is deactivated in view of the possibility of depositing sheets, is displaced to a supporting position, which at a location downstream of the igen position, which occupies the braking device or the effective surface or the downstream end of the wirerbare variable sheet guiding element for the format length of currently auszulegenden in the delivery device sheet in an operating mode with activated dispensing station.
  • On its own or in conjunction with an o. G. Advantageous embodiment of a delivery device of a blowing device of a delivery device, which is provided above a transport path of conveyed by a conveyor system along a transport direction arc over a storage location of a delivery station, wherein it has a plurality of transverse to the transport direction and each having at least one valve to be supplied with blowing air blowing tubes which in each case comprise a plurality of blown air openings directed in the direction of the transport path, through which a sheet to be deposited can be supplied with blown air from above, the valves are in signal connection with a control means, which in turn is in signal communication with a machine and / or printing material phase position and / or or representing information supplying signal generator is and is designed and set up, an activation of the blowing air via the valves in dependence on the machine and / or printing material phase position be effecting and / or representing information in such a way that a blowing takes place only within a gap between two successive sheets not to be deposited.
  • When operating a - in particular thus formed - blowing device, which is provided above a transport path of conveyed by a conveyor system along a transport direction arc over a storage location of a first dispensing station and a plurality of in the transport direction provided in succession, independently to be activated and directed in the direction of transport path compressed air operated Blasluftöffnungen comprises, is applied in a first mode of the blowing device in the first discharge station from the top sheet from Blasluftöffnungen the blower originating and under positive pressure blowing air, and in an operating phase of a second mode in which one or more in the first Dispensing station incoming sheet are passed over the first discharge station, which or a part of the transport direction in succession arranged Blasluftöffnungen correlated to the Bogenl to be activated and deactivated so that they only blow into the gap between successive arches.
  • On its own or in conjunction with at least one o. G. Advantageous embodiment, the delivery device comprises a conveyor system through which sheets are conveyed at a conveying speed along a transport direction via a discharge station and / or conveyed. It is possible for the brake device which is arranged upstream of the delivery station in the transport path of the conveyor-speed-conveyable and / or conveyed sheets and / or a device which supports the stack formation to be arranged above the delivery station to be preferred. In a preferred development, a conveyor line connects to a further discharge station in the transport path. For guiding the sheet, the transport path preferably comprises a sheet guiding device.
  • On its own or in conjunction with at least one advantageous embodiment of a delivery device, a preferred embodiment of a sheet guiding device comprises, for. B. for a sheet-processing machine or og, a plurality of dispensing stations comprehensive delivery device - a first conveyor section on which recorded at a pickup location of a conveyor system sheets are conveyed to a first discharge station, where they can be submitted to form a stack from the conveyor system, and a on the first conveyor section subsequent second conveyor section, on which in the first dispensing station not already dispensed and guided away over the first stack arc further conveyed to a second discharge station, where they can be optionally issued to form a second stack. To guide the sheet to be conveyed is at least in the second conveyor section a sheet guiding device with one or more Sheet guiding elements provided, wherein the sheet guiding device comprises a sheet guiding element in the second conveying section, which comprises in the region of its side facing the transport path as Venturi nozzles executed Blasluftöffnungen.
  • On its own or in conjunction with o. G. Delivery device and / or the above-mentioned preferred embodiments of a sheet guiding device comprises an advantageous sheet guiding at least one sheet guiding over which a printing material is guided by a conveyor system transported, wherein the sheet guiding element in the region of its upstream end a starting portion or upstream, which at least in an in Transport direction considered middle area a substantially flat, d. H. has a plane, or at most slightly, with a radius of at least 1,000 mm, curved, guide surface. In this case, in a region of its upstream end which adjoins the substantially planar guide surface upstream of the upstream end, the starting section has a rounded edge sloping downwards from the substantially planar guide surface.
  • On its own or in conjunction with o. G. Delivery device and / or one or more of the above-mentioned preferred embodiments of a sheet guiding device for a sheet-processing machine, this at least one dispensing station and a conveyor system, by means of which upstream processed printing sheet to the discharge station conveyed and there deliverable to a stack, wherein in the region of a downstream end of the first Delivery station a stop device is provided with a plurality of transversely to the transport direction spaced-apart stop means. These are either in an active position in which they can be moved in a movement path of the printing material and are effective as a stop, and in an inactive position in which they are arranged outside the movement path of the printing material and not effective, movable. Here, several or all of the transverse juxtaposed stop means individually or at least in several groups by a plurality of drive means, which are assigned to these individually or as groups of movable stop means movable between the active and the inactive position.
  • On its own or in conjunction with o. G. Delivery device and / or one or more of the above-mentioned preferred embodiments of a sheet guiding device for a sheet processing machine comprises an advantageous sheet guiding at least one arranged in the guide path between a first and a second delivery station sheet guiding over which a printing material is guided by a conveyor system to the second delivery station. In this case, the sheet guiding element in the guide path between the first and the second discharge station upstream another sheet guide element is provided with the printing material facing guide surface which is movably mounted in or on a frame part, so that it by a drive means with its the printing material facing guide surface at least in the area one of his in the transport direction related ends from the occupied in the operating position, the sheet in operating position leading position in a direction of the operative transport path farther position can be brought.
  • On its own or in conjunction with o. G. Delivery device and / or one or more of the mentioned preferred embodiments of a sheet guiding device for a sheet processing machine comprises a particularly advantageous sheet guiding device for a sheet processing machine, a conveyor system through which sheets are conveyed at a conveying speed along a transport direction via a discharge station and / or conveyed, and a braking device, which is provided upstream of the discharge station in the transport path of the conveyor speed can be conveyed and / or conveyed arc, wherein the braking device comprises a holding means having an active surface, which can be brought by activation in positive or frictional operative contact with an incoming sheet, and wherein the With the printing material in form or frictional operative contact to be transferred effective surface by a drive forcibly with a variable holding means speed in the transport direction move bar is. The drive is in signal communication with control means which operate the drive for successive sheets selectively on the basis of one of two by the control means simultaneously held and differing from each other regulations for generating set values for the holding means speed as a function of the conveying speed.
  • In a particularly advantageous procedure for the operation of such a braking device, which is provided in the transport path of conveyed by a conveyor system along a transport direction upstream of a delivery station, enter the entering into the braking device printing material with an effective surface of a holding device encompassed by the braking device in the form or frictional operative contact, wherein the active surface which comes into operative contact with the printing material sheet is forcibly moved in the transport direction by a drive. In a first mode of operation during a positive or frictional interaction between the Arc and the active surface, the active surface is operated at a speed which is lower in at least part of the contact phase between active surface and bow, z. B. 50% lower than the speed of the incoming bow. For a subsequently incoming sheet, the braking device is operated in a second operating mode, in which the active surface is moved for at least the entire duration of the existing positive or frictional operative contact between the relevant sheet and the active surface at a speed which is approximately, ie with a maximum deviation of ± 10%, corresponds to the current conveying speed of the conveyor system
  • In the first operating mode, during a positive or frictional interaction between the sheet and the effective surface, a speed for the movement of the effective surface is preferred from a first speed, which is approximately equal to that of FIG. H. with a maximum deviation of ± 10%, which corresponds to the speed of the incoming sheet, on the other hand reduced to a lower depositing speed. For a subsequent incoming sheet, the braking device is operated in a second operating mode, in which the active surface is moved for at least the entire duration of the existing positive or frictional operative contact between the relevant sheet and the active surface at a speed which is approximately, d. H. with a maximum deviation of ± 10%, corresponds to the current conveying speed of the conveyor system.
  • On its own or in conjunction with o. G. Delivery device and / or one or more of the above-mentioned preferred embodiments of a sheet guiding device for a sheet-processing machine is provided a blowing device of a dispenser above a transport path of conveyed by a conveyor system along a transport direction arc over a storage location of a delivery station, wherein a plurality of transverse to the transport direction and over having at least one valve with blown air to be supplied blowpipes, each comprising a plurality of directed in the direction of transport path Blasluftöffnungen through which a sheet to be deposited from above with blowing air can be acted upon. The at least one valve is in signal communication with control means configured and arranged for activating and deactivating the valve and / or selecting an operating mode for operating the blowing device depending on whether the incoming sheet is deposited in the region of the first delivery station or to be transported to another dispensing station to effect.
  • On its own or in conjunction with o. G. advantageous procedure for the operation of a braking device is when operating a blowing device, which is provided above a transport path of conveyed by a conveyor system along a transport direction arc over a storage location of a first dispensing station and a plurality of directed in the direction of transport path compressed air operated Blasluftöffnungen includes, a sheet to be deposited above acted upon from blast air openings of the blowing and originating under a positive pressure blowing air. The blown air openings are activated and deactivated via one or more valves, all or in groups, depending on whether the incoming sheet is to be stored in the area of the first delivery station or transported to a further delivery station that only the first operating mode in the Blowing associated assigned and arranged below dispensing station to be deposited arc with blowing air.
  • On its own or in conjunction with o. G. Delivery device and / or one or more of the above-mentioned preferred embodiments of a sheet guiding device for a sheet-processing machine and / or o. G. Blowing device is a blowing device of a delivery device above a transport path of conveyed by a conveyor system along a transport direction over a storage location of a delivery station and includes a plurality of directed in the direction transport path Blasluftöffnungen through which a sheet to be deposited from above with blowing air can be acted upon. The or a plurality of Blasluftöffnungen are connected via one or more switchable valves with a compressed air source in line connection, which acts on the blown air openings with the valve open on its inner side with a pressure greater than 0.6 bar above normal pressure.
  • On its own or in conjunction with o. G. advantageous procedure for the operation of a braking device and / or above-mentioned procedure for the operation of the blowing device is in an advantageous method for operating a blowing device, which is provided above a transport path of conveyed by a conveyor system along a transport direction arc over a storage location of a dispensing station and a Variety of directed in the direction of transport path Blasluftöffnungen comprises, applied to a sheet to be deposited from above with Blasluftöffnungen the blowing device derived blowing air. In this case, the blown air openings are pressurized from the inside with compressed air of a pressure of more than 0.6 bar above normal pressure.
  • The advantageous embodiments and methods mentioned so far are of particular advantage on their own or in combination with one another With regard to a particularly low-interference operation and / or a gentle transport and / or high-quality storage. The features of the aforementioned embodiments can be combined as advantageous developments with each other and with one or more further features of subsequent embodiments.
  • Embodiments of the invention are illustrated in the drawings and will be described in more detail below.
  • Show it:
  • 1 a schematic side view of an arcuate printing and / or processing machine;
  • 2 a partially open perspective view of an embracing device covered by the machine;
  • 3 open side view of the delivery device included in the machine;
  • 4 a frontal rear view of the delivery device;
  • 5 a perspective view of a sheet guiding device included in the delivery device;
  • 6 an upstream entrance area of the sheet guide;
  • 7 a storage station upstream end portion of the sheet guiding device;
  • 8th a storage station downstream, continuing start-up section of the sheet guiding device;
  • 9 a braking device arranged upstream of a first storage station;
  • 10 a stop and sheet removal device downstream of a storage station;
  • 11 a braking device arranged upstream of a second storage station;
  • 12 an enlarged view of components of a braking device;
  • 13 a schematic side view of a sheet braking device with stack and control;
  • 14 a representation for operating a braking device;
  • 15 a schematic representation of a first mode of operation of the delivery device a) with two activated dispensing stations and b) with an activated second and a deactivated first dispensing station;
  • 16 a downstream of a delivery station stop means;
  • 17 a pivotable start-up section a) in the operating position and b) in the discharge position;
  • 18 a plan view of a blowing device;
  • 19 a perspective view of the blowing device;
  • 20 a schematic representation of the supply of the blowing device;
  • 21 a schematic representation of the axial course of the force acting on the sheet blowing air pressure;
  • 22 a schematic representation for the blowing of the stack to be transferred when transferring sheets of a first formats a) to c), and a smaller second format d) to f);
  • 23 an oblique view of a guided in guide rails gripper carriage;
  • 24 an oblique view of a laterally open gripper carriage connection;
  • 25 a. An oblique view of the dispensing of sheets of sheet controlling switching device;
  • 26 a schematic representation of the functionality of a control of the delivery of printing material sheet switching device;
  • 27 an advantageous embodiment of a controlling the delivery of printing material sheet switching device a) in plan view and b) in side view;
  • 28 an open perspective view of a two storage station comprehensive delivery device, each with a non-stop stack change device;
  • 29 a schematic representation of an operation during a stack change operation a) in the region of the downstream last storage station and b) in the region of a upstream of the last storage station upstream storage station;
  • 30 a distilled oblique view of a nonstop stack change device;
  • 31 an oblique view of a Seitenanschlageinrichtung;
  • 32 a schematic side view of a delivery device with two storage stations and associated actuating means or the actuating means comprehensive operating interfaces;
  • 33 an end view of the delivery device;
  • 34 a representation of a monitor in two modes with a) several Kamerabilden and b) only one, but enlarged camera image;
  • 35 an enlarged view of the front side 33 ;
  • 36 an example of the execution of a user interface with actuating means for adjusting or adjustment of a gripper opening point;
  • 37 an example of the execution of a user interface with actuating means for setting or adjustment a filing speed;
  • 38 an example of the implementation of a control interface with a panel comprising a display for providing facilities either the first or second storage station;
  • 39 an example of the execution of a control interface with two panels each comprising a display for setting facilities of the first and the second storage station;
  • 40 a detailed view of the two panels off 39 in each a mode for setting or setting a device of the respective storage station;
  • 41 a detailed view of the two panels off 39 in each a mode for displaying facilities of the respective storage station;
  • 42 a schematic representation of an embodiment of the control with a forced "Mitstellen" or tracking the setting at the first storage station with the setting of a device of the second storage station;
  • 43 a perspective view of the arrangement of cameras and their connection to a display device;
  • 44 a schematic plan view of a part of the delivery device and its connection to a route network of a logistics system in a system comprising the machine.
  • A machine which processes and / or processes a sheet-form substrate B as substrate B. 01 comprises one or more fed a printing material B between a supply device 02 and a dispenser 03 in particular inline, ie in the same, uninterrupted material flow, processing and / or processing stages 04 ; 06 ; 07 , As at least one processing stage can basically one or more the printing material printing and / or non-contact conditioning and / or mechanically treated processing stages such. B. one or more printing units 04 ; 06 and / or one or more drying devices 07 and / or one or more unspecified cutting and / or punching units, in the printing material between feeder 02 and dispenser 03 be provided. Preferred are at least one processing stage 04 ; 06 however, at least one or preferably several printing units 04 ; 06 intended. In addition, one or more of the above aggregates, for. B. one of the printing units 04 ; 06 downstream drying device 07 , in the printing material preferred as a printing press 01 executed machine 01 can be arranged (see, for example, 1 ).
  • The term "sheet" here, for example, any type of flat substrates B understood, which as isolated material sections z. B. not like web-shaped substrate simultaneously through all processing stages 04 ; 06 ; 07 the machine 01 be guided, but have such a limited section length, so that they at least a first already completed processing stage 04 ; 06 before leaving with one last of the editing stages 04 ; 06 ; 07 come into operative contact. In particular, these are flat and preferably rectangular printed sheets B, which may be formed, for example, from paper, cardboard, cardboard, plastic, metal or a composite of a plurality of said materials. The term "flat" is to be understood, for example, that a length and a width of the printing material B in each case at least 50 times, advantageously at least 150 times, in particular at least 1,000 times or even more than 20,000 times the thickness of Arc corresponds.
  • By the input side feed 02 , which, for example, as a so-called sheet feeder 02 is designated, is or is the sheet-shaped substrate B preferably in the form of stacks 08 for its supply to the machine 01 provided. In or on the output side delivery device 03 , z. B. as a display device 03 denotes, is or will be in the machine 01 processed substrate B after passing through the processing stages provided in the printing material path 04 ; 06 ; 07 for removal, z. As a departure or onward transport, in stacks 11 ; 12 provided. The z. B. as a display device 03 or product display device 03 designated dispenser 03 is preferred here as a multi-stack delivery 03 , in particular double stack delivery 03 formed and this includes at least two in the transport path successively arranged dispensing stations I; II, here also as expenses I; II or stack delivery I; II denotes.
  • The first processing stage 04 . 06 upstream sheet feeder 02 , short investors 02 , takes as a printing stock on z. B. a stacking plate 13 patched sheet pile 08 on. It preferably comprises not shown in detail Bogenvereinzelungsorgane and sheet transport organs, which are designed for example as a vacuum cleaner and as a transport suction. To the so-called. "Change" of the sheet pile, ie the reloading of the investor 02 with a new sheet stack, stopping the machine 01 to avoid is the investor 02 preferably equipped with a non-stop device, not shown here. This non-stop facility has z. B. via a in the stack template area of the investor 02 retractable, arranged on a plug-in unit auxiliary stack carrier, which is designed in particular as a rake, roller blind or plate.
  • The investor 02 follows downstream, for example, a z. B. as a belt table, especially as Saugbändertisch trained conveyor line 14 ,
  • In the sheet feeder 02 Subordinate substrate path is the first processing stage 04 ; 06 one example as an attachment 16 or bow plant 16 designated alignment device 16 upstream. The bow plant 16 preferably comprises a feed table, wherein in the working cycle of the printing material to be supplied sheet in the same path to their orientation z. B. as so-called front lays designated attacks, in particular front stops are performed. The aligned with respect to the leading edge and optionally with respect to a side edge printing sheet B are then a z. B. as a feed drum 17 , in particular transfer drum 17 designated funding 17 supplies.
  • The feeder drum 17 hands over the from the conveyor line 14 forth coming printing material B directly or optionally via one or more other transfer drums to a transfer and / or serving as an abutment and preferably as a transfer cylinder 18 trained funding 18 the first processing stage 04 ,
  • The at least one of the printing press 01 , in particular sheet-fed printing machine 01 , included printing unit 04 ; 06 is preferred as the substrate B after a rotary printing process printing unit 04 ; 06 executed. Through the or the printing units 04 ; 06 is the printing material B in each case at least one side or more times with a through the printing unit 04 . 06 applied pressure fluid, z. As a printing ink or a paint, printable. In an advantageous embodiment of the printing machine shown here 01 this includes several printing units 04 of the same type, in particular offset printing units 04 , by which the printing substrate B can be printed with ink. In an advantageous and z. In 1 illustrated development may be at least one printing unit 06 be provided of another type. This can, for example, as at least one side paint on the passed through substrate B aufbringbares printing unit 06 , for example as a varnish printing unit 06 designated, be formed. Last mentioned printing unit 06 may be in the nature of a high-pressure printing unit 06 , z. B. as a high-pressure printing unit 06 , especially as a flexographic printing unit 06 be executed.
  • Instead of z. B. as offset printing 04 trained printing works 04 and / or the high-pressure printing unit 06 or in addition to one or more as offset printing 04 trained printing units 04 and / or the high-pressure printing unit 06 can also one or more after this different printing processes working printing units, eg. B. one or more working according to a gravure printing units and / or one or more working by a printing process printing units and / or one or more by a non-impact method, for. As a digital printing method, in particular after the inkjet printing process, working printing, in-line to be traversed Bedruckstoffweg between feeder 02 and dispenser 03 be provided.
  • In the advantageous embodiment of one or preferably several printing units 04 as an offset printing unit 04 includes the respective printing unit 04 z. B. in the area of a so-called. Print engine superstructure in particular as a forme cylinder 22 , z. B. as a plate cylinder 22 , executed printing cylinder 22 and one in particular as a transfer cylinder 23 , z. B. as a rubber cylinder 23 executed printing cylinder 23 , Furthermore, the printing unit includes 04 - z. B. in the area of a so-called. Druckwerkunterbaus - one as a printing cylinder 18 or impression cylinder 18 trained printing cylinder 18 , the same time as transfer cylinder the function of the above conveying 18 can take over. Furthermore, the printing unit 04 - z. B. in the area of the printing unit base - an og, as a transfer drum 19 designated transfer drum 19 include. The form cylinder 22 acts to pressurize it upstream with a corresponding application system 24 , z. B. a so-called 24 , and in the case of a wet offset offset printing unit 04 additionally with a dampening unit 26 together.
  • In an advantageous embodiment of the printing press 01 with a z. B. in the manner of a flexographic printing unit 06 trained paint printer 06 this includes, for example, a paint form cylinder 27 trained printing cylinder 27 on which a fastening system, for. B. a clamping and / or clamping system, a z. B. attached as a varnish cloth or paint plate trained transmission means, for. B. spanned, is. For applying the paint on the example formed in the manner of a blanket paint cloth or on the paint plate is a preferred here as a chamber doctor blade system 28 trained application system 28 , preferably comprising an inking roller comprising a cup structure on the circumferential surface, in particular an anilox roller, and a chamber doctor blade. The paint form cylinder 27 acts - with respect to the fluid flow downstream - with a pressure cylinder 29 or impression cylinder 29 trained printing cylinder 29 together, the same time as a transfer cylinder, the function of the above-mentioned funding 29 can take over.
  • After processing or printing in one or more processing stages 04 ; 07 is the edited sheet B - possibly one or more interim stored, z. B. as transfer drums 19 trained funding 19 and / or other downstream transport routes - downstream to the dispenser 03 promoted. For this purpose, the processed substrate sheet B to a sheet B to one of the dispensing stations I; II promotional support system 21 issued. This - at least up to the dispensing stations I; II reaching - conveyor system 21 should be here as part of the dispenser 03 or display device 03 understood and conceptually encompassed by this.
  • On the way between the last processing stage printed on substrate B 04 ; 06 and the single or preferred first of several dispensing stations I in the transport direction; II may be a specially provided or preferably constructed by the dispenser 03 comprehensive transport section 09 , z. B. a so-called. Display extension 09 be provided, which increases the transport path and thus also a time required for example for a drying transport time. On this one or more drying facilities can 07 , z. B. one or more, for example as a radiation dryer 07 , preferably as an IR or UV dryer, dryer 07 be provided.
  • Downstream of the last printing stage 04 ; 06 and possibly one or more further processing stages and / or conveyor lines, the delivery to the processed printing material B thus takes place in the delivery device 03 or to one of the delivery device 03 included dispensing stations I; II, z. B. display I; II, promotional and z. B. as a sheet conveying system 21 designated conveyor system 21 , This is preferred as Zugmittelfördersystem 21 with a circulating traction means 31 and several along the traction means 31 at this arranged holding devices 32 educated. By the - in particular switchable running - holding devices 32 are from the at least one processing level 04 ; 06 coming and at least simply processed, in particular printed, printing material B recordable, in the active or holding state to a dispensing station I; II transportable and there again deliverable. In principle, a switching between an active and an inactive or dissolved switching state causing switching means 141 a switching device 141 . 142 be implemented in any way by electronic or mechanical means.
  • For example, with the conveyor system 21 or the holding device 32 entrained and the holding device 32 switching actuators via corresponding control means electronically be controlled. In a preferred embodiment here, the switches themselves take place via a suitably arranged mechanism, for. B. appropriately configured mechanical switching means 141 , An adjustment and / or activation of this switching device or the switching means may optionally via electronically actuated and / or switchable drive means 146 ; 147 respectively.
  • This as a chain conveyor system 21 trained conveyor system 21 comprises as rotating traction means 31 preferably a chain 31 which about z. B. as sprockets 33 ; 34 trained drive and / or guide wheels 33 ; 34 is guided and driven. The holding devices 32 are here as so-called gripper car 32 executed and preferably on both sides of each chain 31 stored, which laterally in guide rails 38 ; 39 (see eg 2 ) are guided. From the gripper car 32 the sheets B in the sheet transport direction T to the dispensing stations I; II and / or the relevant delivery pile 11 ; 12 guided. The delivery pile 11 ; 12 may be medium or immediate on a vertically movable device 36 ; 37 , z. B. Carrying device 36 ; 37 ie directly on the carrying device 36 ; 37 or on one of the carrying device 36 ; 37 recorded charge aids 61 ; 62 be formed or be. The carrying device 36 ; 37 can one as so-called. stacking plate 36 ; 37 trained stacking table 36 ; 37 be. The optionally provided charge auxiliary may, for. B. by a pallet 61 ; 62 or a different kind of transport document be formed. The gripper carriage 32 preferably contain one or more retaining elements 56 , z. B. gripper 56 , in particular front edge clamping gripper 56 that with gripper pads 57 cooperating gripper fingers 58 which are spaced apart on a gripper shaft 59 are arranged and controllable by this (see, for example, below to 23 and 24 ).
  • The bows B are through the conveyor system 21 over a first conveyor section 41 , or short promotion section 41 , between a takeover location 43 on which the bow B through the conveyor system 21 taken from the upstream conveyor line, and a first delivery location, ie in a stacking room 44 the first dispensing station I, at which the sheet B in the region of the first dispensing station I; II is selectively deliverable, eligible. At this first conveyor section 41 closes a second conveyor section 42 on, over which a not dispensed in the first dispensing station I sheet B on to a second delivery location, ie in a stacking space 46 the second delivery station II, is promoted. If a further delivery station is provided downstream, then the second delivery station II is configured in such a way that the delivery section via the second delivery section 42 subsidized sheet B in the region of the second delivery station II is selectively deliverable. However, the sheet B is preferably forced in the area of the last - here second - discharge station II in the production operation by appropriately established means. This may be a levy to the corresponding last batch 12 or be a tax in a sampling distance, at the end of a removal of a sheet B can be made to its sampling.
  • For a gentle and / or safe transport of the conveyor system 21 subsidized or from the gripper carriage 32 held sheet B includes the delivery device 03 in an advantageous embodiment, a sheet B leading sheet guiding device 47 , This is in at least one of the conveyor line sections 41 ; 42 , preferably both in the input side and the one between the dispensing stations I; II lying conveyor section 41 ; 42 , On at least one conveyor section section a the sheet to be transported B serving as a guide sheet guide 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 intended. Preference is given in each of the two conveyor line sections 41 ; 42 one or more such sheet guiding elements 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 intended.
  • It is preferred in each of the two conveyor line sections 41 ; 42  the respective dispensing station I; II each one the printing material B braking device 48 ; 49 , z. B. delay or braking in particular 48 ; 49 , upstream. In a particularly advantageous embodiment, especially for realizing relatively high production speeds, all or at least the or each of the downstream last discharge stations I; II different, d. H. here at least the first dispensing station I, a device supporting stacking, in particular blown air operated or operable 51 ; 52  associated with which preferably blown-operated or operable means for controlled depression and / or holding down on the stack in question 11 ; 12  To be deposited or already stored printing material B includes. This can in particular as so-called. Blasrahmen 51 ; 52  executed and / or be arranged above the transport path for the printing material B to be funded and / or in their - relative to the effective means - horizontal extent at least partially, in particular for the most part, with the horizontal extent of the stack to be formed 11 ; 12  overlap. Instead or in addition to this, all or at least one of the downstream last discharge station I; II different, d. H. here at least the first dispensing station I, a device enabling an uninterrupted stack change 53 ; 54 , short non-stop stack change device 53 ; 54 be assigned. In principle, in a first alternative embodiment, two delivery stations I; II a same device 53  be assigned, which, for example, in the area between the two dispensing stations I; II arranged and can be effective on both sides. However, preference is given below in more detail set forth, in particular independently operable stack change devices 53 ; 54  provided (see eg 2 ).
  • The above facilities 36 ; 37 ; 48 ; 49 ; 51 ; 52 ; 53 ; 54 , z. B. one or more the stack 11 . 12 supporting facilities 36 ; 37 and / or one or more braking devices 48 ; 49 and / or one or more stack-supporting facilities 51 ; 52 , z. B. blowing devices 51 ; 52 and / or one or more uninterruptible stack change enabling facilities 53 ; 54 , can be used individually or in combination with one or more facilities 48 ; 49 ; 51 ; 52 ; 53 ; 54 provided other function and / or each be designed in one of the embodiments described in more detail below.
  • The in the respective dispensing station I; II formed by the respective substrate sheet B and medium or directly on the support device 36 ; 37 formed stack 11 ; 12 is - for example, after completion or otherwise initiated - removable and z. B. a further processing or a warehouse fed.
  • In the region of a front side of the dispenser 03 can at least one below explained in more detail display device 266 , z. B. a monitor 266 , in particular a flat screen monitor measuring at least 15 inches in the image diagonal, and / or at least one user interface explained in greater detail below 232 ; 253 , z. B. at least one control panel 232 ; 253 , be provided (see, for example, 2 or 4 ).
  • Possibly. alternatively, or preferably in addition to a frontal, at least one monitor 266 and / or at least one user interface 232 ; 253 comprehensive control and / or control point can each discharge stations I; II at least one user interface 66 ; 67 , z. B. Control panel 66 ; 67 be provided and set up so that this is specific to the operator, for example, a movement of the associated support means 36 ; 37 and / or basic functions relating to a non-stop change can be actuated and / or triggered. The user interface 66 ; 67 is preferably in the region of a longitudinal side of the dispensing device 03 arranged that an actuation of this while viewing the affected dispensing station I; II is possible (see eg 2 ).
  • Below are versions and variants for the advantageous embodiment of the dispenser 03 and / or their integration, advantageous embodiment of individual functional groups or advantageous embodiment of particular details set forth. The embodiments are considered individually or - unless obviously contradictory - in any combination of advantage for the execution of a dispenser 03 and / or their connection to a processing section of a printing press 01 and / or to a stack transport system 56 ,
  • In a preferred embodiment of the sheet guiding device 47 are in the first and / or in the second conveyor section 41 ; 42 one or more sheet guiding elements 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 provided, which preferably as the gripper carriage 32 facing sheet guide plates 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 are executed (see eg 5 ). In a technically complex design, these have the gripper carriage 32 side facing a friction-reducing, coated for example with chrome or plastic surface.
  • Instead or in addition to this, however, they point to the gripper carriage 32 facing, possibly coated side air passage openings 68 ; 69 on. Preferably, the sheet guide plates extend 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 transverse to the transport direction at least over one of the maximum width of the substrate corresponding width. On the from the gripper car 32 opposite side of or part of the sheet baffles 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 are one or more so-called air boxes 71.1 ; 71.2 ; 71.3 ; 71.4 ; 71.5 ; 71.6 ; 71.7 ; 71.8 provided, in which the air passage openings 68 ; 69 lead. There can be several sheet baffles 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 assigned air boxes 71.1 ; 71.2 ; 71.3 ; 71.4 ; 71.5 ; 71.6 ; 71.7 ; 71.8 and / or multiple air boxes 71.1 ; 71.2 ; 71.3 ; 71.4 ; 71.5 ; 71.6 ; 71.7 ; 71.8 associated sheet guide plates 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 and / or in a one-to-one relationship to each other Bogenleitblechen 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 and air boxes 71.1 ; 71.2 ; 71.3 ; 71.4 ; 71.5 ; 71.6 ; 71.7 ; 71.8 be provided. The sheet guide plates 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 may be all or partly tainted and formed as a pure with an additional function.
  • In a first embodiment, the air passage openings 68 one, several or all sheet baffles 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 as suction openings 52 executed or operated by the relevant air box 71.1 ; 71.2 ; 71.3 ; 71.4 ; 7 with a relation to the ambient pressure reduced pressure, so a negative pressure, is acted upon or acted upon or acted upon. By the suction air is thereby of the gripper carriage 32 transported sheet B to the sheet guide plate in question 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 sucked. This flutter-free and exactly guided transport of the sheet B is achieved.
  • In a second embodiment of one, several or all sheet guiding elements 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 are the air passage openings 69 as blowing air openings 69 executed or operated by the relevant air box 71.1 ; 71.2 ; 71.3 ; 71.4 ; 71.5 ; 71.6 ; 71.7 ; 71.8 with a relation to the ambient pressure higher pressure, so an overpressure, is acted upon or acted upon or acted upon. By the blowing air is thereby between the sheet guide plate concerned 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 and that of the gripper carriage 32 funded bow B a Tragluftpolster formed. In a particularly advantageous embodiment variant are as Blasluftöffnungen 69 operable or effective air passage openings 69 as nozzles 69 , in particular Venturi nozzles 69 , educated. The as Venturi nozzles 69 trained air passage openings 69 are configured and in possibly relevant sheet baffle 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 arranged so that by the shaping of an air flow leaving the opening with a projected into the sheet guide plate surface of zero different beam component can be generated or generated. Preferably, an air flow can be generated or generated, whose projected into the plane of the sheet guide plate surface beam component is greater than the perpendicular thereto extending component. In the case of a diverging beam as its direction z. B. to understand that direction, which results as a central jet in the geometric center of gravity of the beam cross-section at the height of the opening, ie the nozzle cross section. In the expression as Venturi nozzles 69 sucks the air flow to form an air cushion the substrate B without contact to the sheet guide plate in question 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 and thus ensures a flutter-free transport. Preferably, the flow component, which is projected into the sheet guide plate surface and averaged over all directions, has, at least with a component other than zero, the side edges of the sheet B. A further component may be directed the same with the transport direction T. That is, the openings 69 leaving air flow is considered in this case in the sheet guide plate surface of the transport direction T in at least one non-zero component - more or less strong - the same direction. At particular points in the sheet web, it may be necessary to use Venturi nozzles which also have a speed component to the side edges and another speed component is directed against the sheet travel direction or transport direction T.
  • Preferably, when conveying paper-like printing material B whose basis weight is smaller than z. B. 200 g / m 2 , in particular less than 150 g / m 2 , all air-driven Bogenleitbleche 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 in the blown air openings 69 , in particular Venturi nozzles 69 , comprehensive second embodiment. On the other hand, when conveying cardboard or cardboard-like printing material sheet B, the basis weight is greater than z. B. 150 g / m 2 , in particular greater than 200 g / m 2 , at least a portion of the sheet guide plates 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 in the first embodiment with Saugluftöffnungen 68 educated. For example, paperboard or cardboard-like printing material sheets B are in the transport path, in particular in the first conveying section 41 , both suction-air operated or operable as well as blasluftbetriebene or operable sheet baffles 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 intended.
  • For both embodiments of the air-operated sheet baffles 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 can basically be at least one distance and separated from the relevant air box 71.1 ; 71.2 ; 71.3 ; 71.4 ; 71.5 ; 71.6 ; 71.7 ; 71.8 arranged air conveyor 72 to provide the under- or overpressure, z. B. a fan 72 or a fan 72 , provided and with the relevant air box 71.5 ; 71.6 ; 71.7 ; 71.8 be connected. In a preferred embodiment shown here are the air box 71.1 ; 71.2 ; 71.3 ; 71.4 ; 71.5 ; 71.6 ; 71.7 ; 71.8 one or more fans 49 Spatially assigned locally and, for example, in the region of a wall of the air box 71.1 ; 71.2 ; 71.3 ; 71.4 ; 71.5 ; 71.6 ; 71.7 ; 71.8 arranged. For the first and the second embodiment, the device may be designed specifically for the formation of the negative pressure or for the formation of the overpressure. In an advantageous embodiment, the device is optional in both directions, ie as a negative pressure in the air box 71.1 ; 71.2 ; 71.3 ; 71.4 ; 71.5 ; 71.6 ; 71.7 ; 71.8 generating and as overpressure in the air box 71.1 ; 71.2 ; 71.3 ; 71.4 ; 71.5 ; 71.6 ; 71.7 ; 71.8 generating operable. This allows -. B. depending on the application requirement - an operation of the sheet guiding element 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 with suction air or with blown air.
  • In an advantageous embodiment, one or more of the sheet guiding elements 47.1 ; 47.2 ; 47.3 ; 47.4 the first conveyor section 41 operated as blowing or operable and at the same time one or more of the sheet guiding elements 47.1 ; 47.2 ; 47.3 ; 47.4 operated as suction or operated operable.
  • In an advantageous, for. In 5 apparent embodiment, the first conveyor section comprises 41 on the input side, ie in one at the place of takeover 43 adjoining section, at least one blowing or operable or blown air openings 69 , in particular as Venturi nozzles 69 trained blown air openings 69 , having sheet guiding element 47.1 , At this one- or multi-part section close one or more sheet guiding elements 47.2 ; 47.3 on which are operated or operable blowing or Saugluftöffnungen 68 exhibit.
  • At least one last of the first braking device is preferred 48 upstream sheet guiding element 47.4 blowing, especially via venturi nozzles 69 blowing, or with blown air openings 69 executed. This applies to the case of at least two dispensing stations I; II comprehensive dispensing device also preferred for at least one last, the second or respective braking device 49 upstream sheet guiding element 47.8 ,
  • Basically, regardless of its execution as blowing, as sucking or without the last of several of the first discharge station I upstream sheet guide air duct, but preferably in conjunction with the blowing execution 47.1 ; 47.2 ; 47.3 ; 47.4 formed in his in the transport direction as a guide effective length variable and / or arranged. It is the In the transport direction considered position of the downstream end of the sheet guiding elements 47.4 , In particular whose effective length as a guide between the downstream end and the end of the transport path directly upstream sheet guiding element ( 47.1 ; 47.2 ) 47.3 variable. With the possibility of varying the effective length in the guide in the transport direction T or the downstream position of the end, the end of the sheet guide on the first conveyor section 41 to the considered in the transport direction sheet or format length L B of the transported sheet B and thus to the measured in the transport direction length of the stack to be formed 11 ; 12 be adjusted.
  • Instead or preferably in addition to this, the last of several of the second delivery station II in the second conveyor section 42 upstream sheet guiding elements 47.5 ; 47.6 ; 47.7 be formed variable in his in the transport direction as a guide effective length and / or arranged. The in this connection in connection with the first discharge station I upstream sheet guiding elements 47.4 This is to be applied accordingly.
  • The wirerbare variable sheet guiding element 47.4 ; 47.8 is for example in the transport direction relative to the upstream leading sheet guide elements 47.3 ; 47.7 relatively movable and may be arranged above or preferably below the latter. In this case, it may preferably be carried out in at least one longitudinal section reversibly bendable and / or flexible, so that it - in accordance with lateral, z. B. at least in a section arcuately extending guides 73 guided - from a position below the upstream leading sheet guide elements 47.3 ; 47.7 out further or less far in the transport is available. In the air powered version, the air box below is below 71.4 ; 71.8 at least in the bendable or deformable longitudinal section also with respect. Its shape yielding, for example made of elastic materials such. As rubber formed. Preferably, at least one downstream end of the wirerbare-variable sheet guiding element 47.4 ; 47.8 and the directly after- or associated brake device 48 ; 49 individually or preferably together within a significant adjustment range, eg. B. within a control range of at least 10 mm, in particular at least 50 mm, in and against the transport direction T movable in or on a sheet guiding device 47 supporting frame G of the dispenser 03 arranged. Unless explicitly mentioned or discernible, there is under the frame G of the dispenser 03 also a frame part G of a possibly multi-part contiguous or non-contiguous frame G of the dispenser 03 to understand. In particular, with respect to the footprint operationally fixed frame parts G or frames G to understand.
  • Such wirklängenveränderlichen sheet guiding element 47.4 ; 47.8 can be a transition to wiringsangle variable sheet guide 47.4 ; 47.8 forming sheet guiding element 47.3 ; 47.7 , z. B. transition guide 47.3 ; 47.7 , be upstream, which z. B. with its own air box 71.3 ; 71.7 be executed or but with the upstream sheet guide 47.2 ; 47.6 an air box 71.2 : 71.6 can share. It can leak pointed in the region of its downstream end and in its shape to the course of the guided out below wirklangeveränderliche sheet guiding element 47.4 ; 47.8 be adjusted.
  • In the transport path of the sheet B, in particular in the first conveyor section 41 , can be an application facility 74 for applying the sheet B with powder (see eg 7 ), z. B. powdering device 74 , be provided. For a version with the powdering device 74 can in an advantageous embodiment of the particular suction operated air box 71.2 ( 71.3 ) of the applicator 74 over the transport path opposite sheet guiding element 47.3 in a suction box 76 open, which tapers, for example, funnel-like down and at the lowest point an outlet 77 for sucked residual powder. From the outlet, the powder is discharged via a line, not shown, for example, a filter.
  • In the embodiment of a plurality of dispensing stations I; II sequential dispenser 03 becomes the conveying distance of a not delivered at the first discharge station I sheet B along the second conveying section 42 over z. B. one or more also as, preferably air-powered, sheet baffles 41.5 ; 41.6 ; 41.7 . 47.8 Sheet guide plates and preferably a braking device 49 continued until the second delivery station II. In an advantageous embodiment, at least the first or the single, but in particular all in the second guide section 42 provided sheet guide plates 41.5 ; 41.6 ; 41.7 . 47.8 blown air operated or with blown air openings 69 , in particular Venturi nozzles 69 , executed.
  • In a particularly preferable embodiment, the first or only sheet guide plate adjoining the first discharge station I is 47.5 in the region of its upstream, ie input end, a start-up section 78 upstream or downstream, this as part of the particular blasluftbetriebenen sheet guide 47.5 or in the form of a separate component group as an upstream sheet guiding element 78 can be executed. The start-up section 78 has in the region of its upstream end a run-on slope with preferably one rounded edge 84 , in particular upper edge 84 , on.
  • As already stated, the last of several of the second discharge station II in the second conveyor section 42 upstream sheet guiding elements 47.5 ; 47.6 ; 47.7 be formed variable in his in the transport direction as a guide effective length and / or arranged (see, eg. 9 ). The above is to be applied accordingly.
  • Downstream of the second or last delivery station II is preferably also a stop means 86 comprehensive stop means provided, on which the downstream stacking edge of the stack to be formed 12 is formed. The lifting gear 86 can be moved out of the transport path from an active layer delimiting the transport path into an inactive position, in particular via a shaft 89 be swung out of the way for z. B. release a sample sheet. In addition, a sheet removal device 87 Be provided by which to initiate the sample sheet removal a diverting 88 , z. B. also called. Sample sheet finger 88 referred to, can be introduced into the transport path.
  • In a preferred embodiment, in the transport path of the first and / or second conveyor section 41 . 42 provided braking device 48 ; 49 this preferably comprises in the axial direction next to each other several, in particular at least three, advantageously at least five, in particular exactly five, spaced-apart braking devices 91 which are in operative contact or can be brought into contact with the printing substrate B in axially spaced-apart alignments (see, for example, US Pat. 11 ). Preferably, several or all of these braking devices 91 movable in the axial direction and possibly at least one outer or even both outer of the brake stations 91 from the trajectory of the bow B laterally disengaged. The respective, z. B. as a suction station 91 executed braking device 91 includes at least one positively driven, z. B. as a suction element 92 trained holding means 92 which basically as a suction roller, but preferably as a suction belt running over a suction belt 92 may be executed (see, for example, 12 and 13 ). The arch B facing active surface 112 , z. B. top 112 , the suction element 92 is powered by a drive 106 , z. B. a motor 106 , In particular an at least with respect to its speed controllable electric motor 106 , driven in the transport direction, the speed being dynamically varied for purposes of controlled deceleration of the sheets B. In an advantageous embodiment, several or all of the braking devices 91 two suction belts 92 side by side on both sides of a same, z. B. axially movable mounted bracket 93 on.
  • For the axial or lateral movement of one, several or all braking devices 91 may be a drive device with at least one drive means 95 In this case, the braking device to be set can 91 by a plurality of drives, individually or in groups, or in a less expensive version together by a drive means 95 be adjustable via corresponding drive connections. For example, symmetrically to the center of the sheet movement path with an opposite threaded portions and / or different thread pitches having spindle in operative connection and by a common, as a drive motor 95 executed drive means 95 be driven and / or driven. Together with the braking device 91 can also be a Querzugvorrichtung 96 be moved or moved.
  • In an advantageous embodiment is the suction elements 92 in the transport way a device 94 , in particular transverse tensioning device 94 , arranged to tighten the bow B in the transverse direction. This includes z. B. two Querzugvorrichtungen 96 , by which the sheet B can be acted upon in each case with a force having at least one transverse component in opposite directions. It can be one of the number of braking devices 91 corresponding number of transverse pulling devices 96 be provided. Preferably, the Querzugvorrichtungen 96 as acted upon by vacuum suction wheels 96 educated.
  • Preferably, the braking device 48 ; 49 the dispensing station I; II directly upstream in the transport path and / or is in the end of the one or more of said sheet guiding elements 47.1 ; 47.2 ; 47.3 ; 47.4 ; 47.5 ; 47.6 ; 47.7 ; 47.8 integrated formed guide section or provided directly to these subsequently in the conveyor line.
  • In a preferred embodiment, these are the holding means 92 comprehensive braking stations 91 the braking device 48 ; 49 - Together or together with the downstream end of wiringsangle variable sheet guiding element 47.4 ; 47.8 Within a significant range, e.g. B. within a control range of at least 10 mm, in particular at least 50 mm, in and against the transport direction T movable in or on which the sheet guiding device 47 supporting frame G of the dispenser 03 arranged. Moving the at least one brake station 91 along the transport direction T takes place for example by a drive means 63 , z. B. a preferred as an electric motor 63 trained drive motor 63 (see, for example, schematically in FIG 13 ).
  • In a particularly preferred embodiment, the braking device 48 ; 49 control means S106; S107 assigned by which their functional elements, eg. B. one or more drives 106 and / or one or more of the retaining means 92 relevant switching means 107 , synchronized and / or in a correlation to a machine and / or printing material phase position Φ and in dependence on the dispensing station I to be provided for the respective printing material sheet B; II are controlled or controlled or controlled. By a suitable driving one or more of these functional elements, the exact sheet deposition in the dispensing station I I; II on the one hand and a quality-preserving transfer of the downstream to be deposited printing material B supports.
  • In addition to this or instead are the at least one brake station 91 the braking device 48 ; 49 along the transport direction T moving drive means 63 Assigned control means S63, by which the position sheet brake 48 ; 49 , in particular the at least one of the sheet brake 48 ; 49 included brake station 91 , to the format length L B of the currently deposited sheet B can be adjusted. By an optimal position, the exact and undamaged sheet storage in the relevant dispensing station I; II supported.
  • The movement in the transport direction T, the movement of the holding means 92 and the the switching means 107 driving control means S63; S106; S107 may be provided in separate or all or in groups in a common control device. In this case, they can be part of a higher-level machine control or can be provided decentrally and, if necessary, be connected to one.
  • Depending on whether in the range of braking device 48 ; 49 entering sheet B n in the directly subsequent discharge station I; II are handed over or be led across these, are or are the drive 106 and / or the switching means 107 one or more holding means 92 the braking device 48 ; 49 in two different operating modes m1; m2 (see eg 14 ). The operating modes m1; m2 can be found in the speed profile for the holding means 92 and / or in a profile for the activation / deactivation of the holding means 92 differ. Operation in one of the operating modes m1; m2 takes place in each case at least for the duration of one cycle length, wherein the cycle length is based, for example, on the machine and / or printing material phase position and z. B. the length of the phase between the entrance of the leading end of an arc B i and the entrance of the leading end 109 of the subsequent sheet B i + 1 in the braking device 48 ; 49 and / or the length of the phase between the exit of the trailing end of an arc B i and the exit of the trailing end 111 of the following arc B i + 1 from the braking device 48 ; 49 can correspond.
  • The decision on whether in the range of braking device 48 ; 49 entering sheet B n in the directly subsequent discharge station I; II handed over or should be performed on these can be made by the operator manually or automatically but or be. In the case of an automated decision, this can be done on the basis of a measurement or a preset sequence of copies. For example, so-called. Waste paper copies manually or in a defined number to the respective stack 11 ; 12 be delivered. In the case of formation of several so-called good-bow stacks, the decision on the levy can be made by assigning the signatures to the individual stacks 11 ; 12 be taken or be.
  • In the event that the dispenser 03 as a double-stack delivery device 03 is formed, are or are the drive 106 and / or the switching means 107 one or more holding means 92 the braking device 48 ; 49 in the two different operating modes m1; m2 operated depending on whether the currently incoming printing material B the first batch 11 , z. B. waste stack 11 , or the other pile 12 , z. B. Gutbogenstapel 12 , or the sheet removal device 87 is to be supplied.
  • In the advantageous embodiment of the dispenser 03 with several, in particular two stacks 11 ; 12 or dispensing stations I; II is each of the dispensing stations I; II a braking device 48 ; 49 upstream. Their drive 106 is so operable or operated, so that cooperating with the arc B effective area 112 of the holding agent 92 in at least part of the contact time between holding means 92 and bow B with respect to the currently available, through the conveyor system 21 certain conveying speed v32, z. B. a speed of the holding devices 32 gripper carriage speed v32, lower, z. B. operated by at least 50% lower storage speed v ab and / or operable.
  • In a preferred embodiment of their drive 106 is so dynamically operable, so that cooperating with the arc B effective area 112 of the holding agent 92 at least between the currently available, through the support system 21 certain conveying speed v32, z. B. a speed of the holding devices 32 gripper carriage speed v32, and a lower, z. B. is at least 50% lower storage speed v from continuously variable.
  • A printing material sheet B n to be deposited is on the input side of the braking device 48 ; 49 by a holding means 92 the braking device 48 ; 49 taken, in particular pneumatically sucked, which is at or near with, ie more than 95%, the conveying speed v32, ie without or almost no relative movement between the holding device 32 of the conveyor system 21 and the holding means 92 the braking device 48 . 49 , moved in transport direction T. After opening the holding device 32 is done, ie for example after gripper opening, the speed v92 of the holding means 92 reduced by speed change to the lower deposition speed v ab , thereby braking the sheet B and finally on the stack 11 stored.
  • This - especially for the first brake device 48 and the second brake device 49 - Reduction of the speed or deceleration taking place for storage in the relevant operating mode m1 preferably takes place along a predetermined curve, the course of which may advantageously be modifiable and / or parameterizable via appropriate input.
  • The curve or its course can depend on the current production speed, that is to say on the input-side conveyor speed v32 and / or on the nature of the printing material B, and can vary automatically depending on this.
  • To correct a faulty drop and / or to adapt to a new format length L B , as z. B. may be required in a production change, the curve and / or its course by operators via variation of corresponding, the curve defining parameters can be changed. In this case, at least the height of the above-mentioned depositing speed v ab , ie the lower end speed present after the lowering, can be changed by operating personnel.
  • Instead or preferred in addition to this, the position of the braking device 48 ; 49 in the transport direction T, in particular the position of the or the holding means 92 , changeable by the operator.
  • A not to be deposited, ie to be transferred sheet B n + 1 is also the input side of the braking device 48 ; 49 by a holding means 92 the braking device 48 ; 49 recorded, in particular sucked pneumatically, which is approximately, ie a maximum deviation of z. B. at most ± 10%, or preferably at most ± 5%, in particular at most ± 3%, with conveying speed v32, ie virtually without relative movement between the holding device 32 of the conveyor system 21 and the holding means 92 the braking device 48 . 49 , moved in transport direction T. However, this state is maintained during the further transport of the relevant sheet B n + 1 until the sheet B n with its trailing end 111 the brake device 48 ; 49 has left or is just leaving. The continue through the holding device 32 of the conveyor system 21 held bow B is downstream of the braking device 48 ; 49 directly downstream dispensing stations I; II away to another dispensing station I; II or a sheet removal device 87 promoted. To avoid wave formation is the above-mentioned possibly existing deviation z. At most -10%, preferably at most -5%, in particular at most -3%.
  • The dispensing station I; II, in particular at least the first dispensing station I, is thus a braking device in the printing material path 48 ; 49 upstream or downstream, which is operable in two different operating modes and / or operated or is. This is done in dependence on the intended for the incoming bow B i transport destination.
  • In the first operating mode m1, z. B. a storage mode m1, in which one or more sheets B from the first stack 11 , z. B. waste stack 11 , are to be stored, the speed of the drive changes 106 abzulegendem each sheet at least once from a first speed v effecting a speed which z. B. as the speed of the incoming sheet substantially - ie with a maximum deviation of ± 10% - corresponds to the above-mentioned conveying speed v32, to a storage speed v from causing speed and back to substantially conveyor speed v32. If several consecutive sheets B n are to be deposited one after the other, then this first operating mode m1 is repeated correspondingly often so that the braking device 48 . 49 ie the holding means 92 , the speed v92 between conveyor speed v32 on storage speed v from and back again in time with the incoming and to be deposited sheet B n changes.
  • When changing to storage speed v from the speed v92 of the holding means 92 during the active contact with the conveyed sheet B preferably lowered to a speed v from the z. B. at most 50%, advantageously less than 20%, preferably less than 10% of the conveying speed v32. The substantially speed v92 of the holding means corresponding to the conveying speed v32 92 is in stationary operating situation about z. B. at least 4 m / s, for example in the range of 4 to 9 m / s, in particular in the range of 5 to 8 m / s. In contrast, the storage speed v from z. B. at most 2 m / s, for example in the range of 0.5 to 2 m / s, in particular in the range of 0.7 to 1.4 m / s.
  • The braking, ie the lowering of the speed v92 of the holding means 92 from the speed v92 corresponding to the conveying speed v32 to the depositing speed v ab , for example, takes place in the sheet path s only in a phase in which the front edge 109 of the sheet to be filed B n + 1 ; B P only less than half an arc length from the escape s2 to the downstream stack edge or the leading edge 111 of the sheet to be filed B n + 1 ; B P is located only less than half an arc length from the escape s1 to the upstream stack leading edge.
  • In the second operating mode m2, z. A guide mode m2, in which one or more sheets B over the first stack 11 , z. B. waste stack 11 , or the dispensing stations I are to be led away, is the drive 106 over at least the entire phase of the contact between the braking device 48 . 49 ie the holding means 92 , and that over the stack 11 or the dispensing station I wegzuführendem sheet B operated at a speed which at the holding means 92 causes a substantially the conveying speed v32 corresponding speed v92. If there is a constant conveying speed v32, this is also constant at least during the above-mentioned contact phase. This second operating mode m2 is basically independent of the presence or the specific embodiment of a first operating mode, but is of particular advantage in connection with an embodiment of a first operating mode set forth here.
  • In a preferred embodiment of the braking device 48 ; 49 are via appropriate switching means 107 clocked activatable and deactivatable holding means 92 intended. For clocking is the switching means 107 For example, with control means S107 in signal connection, which is designed and set up to activate and deactivate the holding means 92 synchronized and / or to effect a correlation to a machine and / or printing material phase position Φ. In the case of two operating modes m1; m2, these differ, for example, not only in the phase-position-related velocity profile, but also in the switching profile for the wiring, ie activation and deactivation, of the or the holding means 92 ,
  • In the first operating mode m1 becomes the holding means 92 deactivated in the entire or in at least part of the positive acceleration phase of the storage speed v down to the conveying speed v32. In the version as suction elements 92 In this phase, at least temporarily, the suction is set, ie the application of a negative pressure p - on the suction element 92 interrupted.
  • In the second operating mode m2, the activation of the holding means 92 over at least the entire phase of the contact between the braking device 48 . 49 ie the holding means 92 , and that over the stack 11 or the dispensing station I wegzuführendem bow B maintained. Preferably, the suction or the negative pressure p remains - maintained over the entire cycle. In the version as suction elements 92 remains in at least this contact phase, the suction is turned on, ie the negative pressure p - on the suction element 92 maintained. Preferably remains the suction or the negative pressure p - over the entire cycle from occurrence of the arc leading to B n in the range of the braking device 48 ; 49 , in particular in the effective range of the holding means 92 until the next sheet B n + 1 enters the area of the braking device 48 ; 49 , in particular in the effective range of the holding means 92 , switched on. Are several consecutive sheets B n + 1 ; B n + 2 can be successively transferred, the suction or the negative pressure p - remain switched on over the duration of the relevant cycles.
  • Sucking over the entire cycle, in particular over the cycles of several sheets to be transferred, ensures that the sheet in the second operating mode m2, ie the guide mode m2, acquires the sheet B n + 1 to be transferred and essentially without relative movement over the sheet to be transferred stack 11 . 12 spans. This results in a "break-in" of the sheet to be transferred B n + 1 in the storage shaft of the stack to be transferred 11 prevented or at least reduced, which allows a transfer without sacrificing quality. This is particularly relevant for high-speed productions.
  • A suction air permanently switched on in the second operating mode m2 favors the earliest possible starting and holding of the trailing edge of the sheet B.
  • For the two operating modes m1; m2 are, for example, in the control means S48; S49 two mutually different rules for the generation of setpoints for the speed v92 of the holding means 92 maintained. The regulations include, for example, a dependency on the conveying speed v32 and can also be dependent on further influencing variables and can be parameterized by operating personnel.
  • The regulations in this case in each case comprise different assignment rules between the current conveying speed v32 and a desired value or course of the desired speed for the speed v92 of the holding means 92 , For the assignment rule of the second mode of operation m2, as a relationship, at least for the duration of the contact with the sheet B, a course of the flow proportional to the conveying speed v32 is Holding means speed v92 and provided for the assignment rule of the first operating mode m1 within at least part of the duration of contact with the sheet B at least one ramp with a relative to the conveying speed v32 sloping course of the holding means speed v92.
  • During operation of the dispenser 03 For example, in a set-up several, z. B. n (n ε N), bow B i (i = 1 ... n) - in particular using the operated in the first operating mode m1 sheet brake 48 - In the area of the first discharge station I as waste on a first stack 11 stacked. At least one subsequent to the n arc bow B n + 1 is z. B. as a sample sheet or as a good sheet - especially using the operated in the second mode of operation m2 sheet brake 48 Via the first delivery station I or the first stack 11 away and downstream of another dispensing station II or a sheet removal device 87 fed. After, for example, a predefined number of setup sheets have been supplied as waste to the first delivery station I and / or, for example, a sample sheet has been found to be good, it is converted automatically or manually to a production operation in which the sheets B i are regularly in the stack of good sheets 12 be filed. During the production operation, however, for different reasons it may happen that one or more sheets B P - in particular using the sheet brake operated in the first operating mode m1 48 - the first or waste stack 11 are to be supplied. This can be, for example, when changing the pile incurred alternating sheet or faulty or damaged bow. Such, auszuschleusender during the production sheet B P can be triggered manually or by a sensor or be.
  • For controlling the at least one of the holding means 92 driving drive 106 and / or the at least one of the holding means 92 activating switching means 107 is the drive 106 and / or the switching means 107 in signal communication with control means S106; S107, in turn, for example, in signal communication with a signal generator, eg. As a sensor or a drive master is, from which they receive the machine and / or printing material phasing and / or representing information I (Φ). The control means S106; S107 comprise a control circuit and / or an algorithm arranged to be connected to the operating modes m1; m2 explained control of the drive 106 and / or switching means 107 to effect.
  • That in terms of the execution of the braking device 48 ; 49 It is also to be applied that so-called good-bow B n + 1 in the first or the second delivery station I; II and so-called waste sheet B n ; B P in the other dispensing stations II; I are to be stored or filed. In this case, under waste sheet B n ; B P Setup sheets, faulty rejects sheets or sheets to be manually selected by the staff. For example, the waste sheets are or will be on a stack 11 stored in the area of the first dispensing station I and credit in the area of the second dispensing station II. The above procedure and / or control of the braking device 41 ; 42 However, it can also be provided for the application in reverse assignment of waste paper and good sheet, as well as in connection with the formation of several, each of waste paper stock different from waste.
  • The above setting the position of the braking device 48 ; 49 in the transport direction T, in particular the position X 91, viewed in the transporting direction T, over the holding means 92 with the bow B cooperating braking devices 91 , which for example here represents the size to be set or short setting value X 91 , for example, via a the desired height or a change to be made representing control variable, the respective control means S63 are fed or are zuleitbar and, for example, in a corresponding control of the drive means 63 reflected.
  • It can be the location of the braking device 48 ; 49 or the one or more holding means 92 relevant control variable as a control command directly be predefined by operating personnel, in particular by signals σ FL one or more operable by the operator, in signal communication with the relevant drive means 63 the borrowing brake 48 ; 49 controlling means S63 of standing actuating means 196 ; 197 ; 198 ; 199 , hereinafter also as switching elements 196 ; 197 ; 198 ; 199 or z. B. as a button 196 ; 197 ; 198 ; 199 be given, given (see, for. 32 ). The signals σ FL generated by actuation may directly represent a desired position or a directional change intersection. The at least one switching element 196 ; 197 ; 198 ; 199 can from one of the dispensing station I I; II laterally assigned and furnished to operate interface 66 ; 67 includes his.
  • To manually influence the situation may be for the relevant borrowing brake 48 ; 49 one switching element each 196 ; 198 be provided by the actuation of the braking means 48 ; 49 or the one or more holding means 92 is moved to a further downstream position or can be, that is changeable for a relation to the current format smaller format length, and one switching element 197 ; 199 , by the actuation of the braking device 48 ; 49 or the one or more holding means 92 is moved to a further upstream position or can be, that is changeable for a relation to the current format smaller format length. This can be done, for example, both finer corrections and possibly made an adjustment to a new format.
  • An above setting of the storage speed v from (as the size to be set or set size v from the drive or drive means 106 ) to a desired height, for example, via a the desired height or a directional change interval representing control variable, the respective control means S106 be forwarded or are zuleitbar. These are reflected for example in a change of the parameters underlying the profile and ultimately in a corresponding control of the drive means 106 low. This setting is preferably vornehmbar by operating personnel (see below).
  • Instead of or preferably in addition to this manual influence, the desired position of the braking device 48 ; 49 or the one or more holding means 92 and / or the height of the filing speed v from relevant manipulated variable by the specification of desired values W B , z. As determined for a format to be issued and / or held parameter set W B , causes and / or be effected. The latter can be transmitted or transmitted by a product planning and / or presetting system.
  • In a preferred embodiment of the delivery device 03 which in the transport path of by a conveyor system 21 funded sheet B a in the transport direction T last, z. B. second stack delivery II and at least one of the last stack delivery II upstream in the transport path upstream, z. B. first stack delivery I includes the upstream stack delivery I in the transport path so a braking device 48 and / or a wirerbare variable edge sheet guide 47.4 upstream, wherein the braking device 48 itself or at least one active surface coming into operative contact with the printing material sheet B 112 the braking device 48 and / or a downstream end of the wirerbare-variable sheet guiding element 47.4 the upstream stack delivery I for depositing sheet B of a first format length LB in a first position P 1 (48) viewed in the transporting direction T; P 1 (47.4) and for storing sheet B 'at least a second, compared to the first format length L B smaller format length L B' in a further downstream in the transport direction T second position P 2 (48); P 2 (47.4); P S (48); P S (47.4) is displaceable.
  • In a first mode of operation, for example, all dispensing stations I; II activated, ie in principle for the file conveyed sheet B ready. The Biogen B in the respective dispensing stations I; II depending on the above control commands to the relevant stack 11 ; 12 ; 168 ; 169 be issued or transferred via this, wherein the respective braking device z. B. according to the destination in the first or second operating mode m1, m2 is operated.
  • When operating the delivery device 03 Being in the transport path by a conveyor system 21 funded sheet B a in the transport direction T last, z. B. second stack delivery II and at least one of the last stack delivery II upstream in the transport path, front, z. B. first stack delivery I includes, wherein at least the upstream stack delivery I in the transport path a braking device 48 and / or a wirerbare variable edge sheet guide 47.4 is upstream, so in a first mode of operation, the braking device 48 itself or at least one active surface coming into operative contact with the printing material sheet B 112 the braking device 48 the front stack delivery I and / or the wirerbare-variable sheet guiding element 47.4 the front stack delivery I or at least its downstream end in at least a first mode of operation of the delivery device 03 depending on a current format length L B to be stored; L B ' along the transport direction T in different positions P 1 (48); P 1 (47.4); P 2 (48); P 2 (47.4) positioned.
  • In a second embodiment provided in a preferred embodiment, the at least one first and a second dispensing station I; II comprehensive display device 03 (see eg 15 ) is this, for example, during operation or production phase operatively operated such that a - in particular different from a first dispensing station I, z. B. downstream last - dispensing station II active, ie for laying sheet B is basically ready for use, while another - in particular this active dispensing station II upstream or front - dispensing station I is deactivated, ie a deposit in this dispensing station I in this operating condition neither possible is still provided. The basic readiness of the first-mentioned dispensing station II can include both a continuous depositing as well as an operational optional deposition or transfer in the above sense. In this mode of operation, the delivery device 03 So not with all of the delivery device 03 included dispensing stations I; II, but with a reduced number of dispensing stations I; II operated. The deactivated dispensing station I; II is operationally transferred in this mode of operation by all incoming sheet B, without that there by a Automatism or a manual control command a drop would be possible.
  • First, for example, for such a production or production phase with reduced stacking number is not used for stacking dispensing station I, z. B. the first dispensing station I, disabled. Deactivating the relevant batch display I can during the machine configuration for the upcoming order, d. H. the definition and / or presetting of the aggregates involved in the upcoming order. This can be done, for example, directly at a control station or at a signal technically connected to this actuating means or automatically via read production data.
  • For shifting the braking device 48 or at least their effective area 112 or the wirerbare variable sheet guide element 47.4 or its downstream end of the deactivatable stack delivery I is an above drive means 63 provided and preferably one standing in signal communication with this control means S63, which the braking device 48 or their effective area 112 and / or at least the downstream end of the wirerbare-variable sheet guiding element 47.4 the upstream Stapelauslage I depending on the operation of the delivery device 03 optionally in a first mode of operation as a function of a current, ie to be deposited format length L B ; L B ' positioned and for operation in the second mode of operation to a fixed support position P 2 (48); P 2 (47.4); P S (48); P S (47.4), which preferably takes place at a location downstream of the position P 1 (48); P 1 (47.4) is located, which is currently in the delivery device 03 to be provided format length L B in the first mode of operation would be provided.
  • As already described above, the holding means comprises 92 the braking device 48 an effective surface 112 , which can be brought by activation in positive or frictional operative contact with an incoming sheet B, wherein the active surface to be transferred to the printing material B in positive or frictional operative contact 112 in at least one operating mode in which an incoming sheet B is to be stored in the associated stack delivery I, in an advantageous embodiment by a drive 106 forcibly with a variable holding means speed v92 in the transport direction T is movable.
  • For operation of the delivery device 03 in the second mode of operation of the delivery device 03 with a deactivated front stack delivery I, the braking device 48 itself or at least one active surface coming into operative contact with the printing material sheet B 112 the braking device 48 and / or a downstream end of the wirerbare-variable sheet guiding element 47.4 the front stack delivery I to a fixed defined support position P 2 (48); P 2 (47.4); P S (48); P S (47.4) displaced at a location downstream of the position P 1 (48); P 1 (47.4) is located, which the braking device 48 or their effective area 112 or the downstream end of the wirerbare-variable sheet guiding element 47.4 for the format length L B currently in the delivery device 03 to be interpreted sheet B in an operating mode with activated stack display I occupies. Preferably, this location is downstream of position P 1 (48); P 1 (47.4), which for the format length L B currently in the delivery device 03 to be interpreted sheet B would be provided in the first mode.
  • When the stack delivery I is deactivated, preference is given to the support position P 2 (48); P 2 (47.4); P S (48); P S (47.4) located effective area 112 for at least the duration of an existing positive or frictional operative contact between the conveyed sheet B and the active surface 112 at a speed v92 in the direction of transport T, which corresponds to the above in approximately, ie with a maximum deviation of ± 10%, the current conveying speed v32 of the conveyor system 21 equivalent.
  • The support position P 2 (48); P 2 (47.4); P S (48); P S (47.4) can be the position P 2 (48); P 2 (47.4) corresponding to the position to be set for a smallest format length L B of sheet B to be filed in the first mode. That is, the braking device 48 itself or at least one active surface coming into operative contact with the printing material sheet B 112 the braking device 48 and / or a downstream end of the wirerbare-variable sheet guiding element 47.4 , to the smallest ausklegende format, z. B. minimum format, set. In principle, the movement path can extend beyond this setting for the minimum format downstream, wherein the support position P 2 (48); P 2 (47.4); P S (48); P S (47.4) can then be given by the downstream boundary of the possible movement path.
  • In an advantageous embodiment, at least one side stop device is set for the second mode of operation also for the deactivated or to be deactivated stack delivery I. 103 , This can be done in a manner set forth above.
  • In the case of movable lifting gear 83 (see, for example, above to 8th ) at the stomaufwärtigen end of the adjoining delivery station I subsequent conveyor line these are in the second mode or they are moved out for the second mode of operation on the trajectory of the sheet B.
  • In an alternative embodiment for the operation in the above-mentioned second mode of operation with at least one deactivated, to be transferred dispensing station I can - instead or possibly in addition to the above positioning of the braking device 48 or their holding means 92 and / or the sheet guiding element 47.4 - Shortening a free length of the sheet guiding gap by other mechanical support means or be provided. This may for example be a sheet guiding element, which z. B. by the correspondingly high-carrying device 36 ; 37 even one arranged on this
  • Sheet guiding means, z. B. baffle is formed. For example, for the second operating mode in the relevant dispensing station I, the carrying device 36 ; 37 by vertically positioning in a transport path near, z. B. the highest possible, location spent. In addition to this, before, during or after reaching this position, a named sheet guiding means can be set up or inserted.
  • As already indicated, the start-up section has 78 in the region of its upstream end a run-on slope with preferably a rounded edge 84 , in particular upper edge 84 , on. This is the basis of the conveyor system 21 facing, substantially flat guide surface 79 the start-up section 78 in a bent down, z. B. rounded contact surface 81 continued. Under the substantially flat guide surface 79 should in addition to actually flat surfaces and slightly curved surfaces with a radius of curvature of z. B. throughout at least 1,000 mm, in particular at least 3,000 mm, to be understood. The rounding of the edge 84 is z. B. such that the edge 84 is rounded in the manner that a in a direction in the transport direction vertical section considered course of the top between a first, in the region of the still flat or slightly inclined guide surface 79 lying position to a second point at which an inclination of the tangent to that at the first position is 45 °, at least one radius of 50 mm and / or that a course of the edge 84 between the end of the planar or at least substantially planar guide surface 79 and a perpendicular to the course of this plane calculated by 50 mm spaced point in the contact surface 81 at each point a radius of curvature of at least 5 mm, preferably of at least 10 mm, and preferably a maximum radius of curvature of z. B. 500 mm, in particular 200 mm. The radius of curvature here must not be constant in the considered section but can vary. A possibly the aforementioned rounded contact surface 81 In principle, the comprehensive limb can be realized in the transverse direction, ie in the direction of the width of the delivery device, continuously, in regions, or in several parts (see, for example, FIG. 8th ). The expression of the "plane guide surface" is intended to include below the above case of a slightly curved surface.
  • As an "edge" 84 the start-up section 78 in the above sense, here is the upper corner of the start-up section 78 be understood, whether he z. B. by the rounded corner of a solid component or z. B. is formed by a bent down sheet metal.
  • Preference is given in or before the vertical alignment of the contact surface 79 and below through the guide surface 79 given height lifting gear 81 a stop means are provided which limit the movement in the transport direction T for the sheets B to be deposited in the first delivery stations I. At these slings 82 becomes the downstream stacking edge of the stack to be formed 11 educated. In addition to this, movable stop means 83 be provided, which in a first, z. B. active operating state over the through the guide surface 79 protrude given height and in a second, z. B. inactive operating state are arranged below this level. In a little elaborate design, several of the stop means 83 be moved or moved together, for example, a shaft. The start-up section 78 can be in the area of its guiding surface 79 and / or in the area of its contact surface 81 and / or in the area of its rounded edge 84 Air passage openings 68 ; 69 , in particular blowing air openings 69 or air-blown air passage openings 69 , exhibit.
  • In a first preferred embodiment of the starting section 78 this includes in the area of the rounded edge 84 ie, in an upstream of the planar guide surface 79 subsequent curved surface section 84 , a blowing device with one or preferably a plurality of blown air openings 97 , The blown air openings 97 can be through round or preferably slot-shaped recesses 97 in one the rounded edge 84 forming material section 84 , in particular sheet metal section 84 formed and from the interior of the start-up section 78 forth, ie from the side of the material section facing away from the printing material transport 84 be supplied with blast air. The blast air supply can be through a on the inside inside of the material section 84 be formed subsequent air box.
  • In a preferred embodiment, the blast air supply is provided by a blast air duct running transversely on the inside of the material section 98 formed, the wall in turn corresponding to the Blasluftöffnungen 97 arranged outlet openings comprises. The blast air 98 is preferably at least in the region of the material section 84 facing side formed with a corresponding to the inside of the material portion shape. For example, the blown air line 98 as a blowing tube with a circular outer peripheral cross-section and the material portion 84 at least in the area of his blast air duct 97 opposite section in cross-section circular arc. The in the material section 84 provided Blasluftöffnungen 97 have at least one in the direction of movement over the start-up section 84 guided printing material sheet extending direction opposite the outlet openings larger opening cross-section. This ensures, for example, a secure passage of air.
  • In a particularly advantageous development, the preferred tube-like blown air line 98 be mounted pivotably about a transverse axis. This can be, especially when compared to the outlet openings in the above manner larger Blasluftöffnungen 97 , At least slightly adjust the position of the Blasluftaustrittes along the sheet movement direction.
  • The so-called start-up section 78 can basically be independent of the execution of the dispenser 03 with several dispensing station I; II be provided in the region of a beginning of a sheet guiding elements comprehensive conveyor line. However, this is preferably at the beginning of a between two dispensing stations I; II arranged conveyor line provided.
  • In addition to the above-mentioned blowing device or instead, in a second advantageous embodiment of a start-up section 78 an abovementioned stop means be designed such that a plurality of transversely juxtaposed stop means 83 ; 86 individually or at least in several groups by a corresponding number of drive means 99 be movable between the active and the inactive position, in particular are pivotable.
  • For pivoting the group or preferably the single stop means 83 ; 86 can the drive means 99 basically be executed arbitrarily. However, it is preferred as acted upon with pressurized fluid cylinder-piston system 99 , in particular as a pneumatic cylinder 99 , executed.
  • The groups or individual slings 83 ; 86 moving pneumatic cylinder 99 may in principle be switched via a common switching valve and / or supplied with compressed air. Preferably, however, are for each of the groups or individually to be moved stop means 83 ; 86 each own switching means 101 , in particular switching valves 101 , short valves 101 , provided, for example, on which compressed air is applied on the input side and which via appropriate control signals the applied compressed air to the output side switched through and via a line connection to the relevant pneumatic cylinder 99 can be acted upon.
  • Basically, the groups or preferably individual stop means 83 ; 86 via the drive means 99 associated valves 101 , For example, in the manner of a valve terminal, be centrally summarized in one place. In a preferred embodiment, the valves 101 however decentralized and / or at least in groups, or preferably all spaced apart from each other, in particular in each case close to the associated pneumatic cylinder 99 arranged. Here are the valves 101 for example, each closer to the associated pneumatic cylinder 99 arranged as to the or one of the other pneumatic cylinders 99 , At least they are closer to the associated pneumatic cylinder 99 arranged as half the distance between the two furthest apart pneumatic cylinders 99 ,
  • Switching the valves 101 takes place, for example synchronized and / or in a correlation to a machine and / or printing material phase position of control means S83 (S86) of a control device forth, for example, in signal communication with a sensor or a master, of which they concern the machine and / or printing material phase position and / or representing information I (Φ). A movement of the stops in the active position can then take place, for example, exactly in a gap between two incoming printing material sheet B. In known and / or constant sheet travel, for example, a dead time compensation can be done by a pre-control.
  • The control means S83 (S86) may be part of a higher-level machine control or else provided in a decentralized manner and, if necessary, connected to such.
  • The switching of the slings 83 ; 86 takes place for. B. depending on whether a printing material B in the upstream dispensing station I; II filed, or to another Delivery station II or a sample sheet removal to be promoted.
  • In the case of the above, in the area of the edge 84 integrated blowing device, for example, activates and deactivates a blown air supply in dependence on whether a printing material B in the upstream dispensing station I; II, or should be forwarded to another dispensing station II or a sample sheet removal.
  • In an advantageous embodiment of the starting section 78 are in the guide area 79 and / or in the guide surface 79 continuing surface of the sheet guiding element 41.5 blast-air 69 , in particular in the manner of venturi nozzles 69 , intended.
  • The above movable stops 83 can be in the upstream end of the start-up section 78 be integrated. Here, the guide surface 79 z. B. recesses 102 in which the attacks 83 are retractable in the inactive state.
  • Furthermore, not shown here, mechanical holding devices in the assembly of the starting section 78 be integrated, which already hold down in the upstream dispensing station I printed material sheet B, while subsequent printing material B are transferred to another dispensing station II or a sampling point. Such a holding device is z. B. in the event of an intended re-storage of another sheet B on the stack 11 . 12 the upstream dispensing station I at least for the time required for this from the movement path of the sheet B removable. By such a holding device entrainment already filed bow B can be prevented, but at least made difficult.
  • In an advantageous development of the start-up section 78 movable in or on a space-fixed frame G or frame part G of the dispenser 03 be stored so that it can be removed from the position occupied in the operating position and thus from the present in operating position sheet transport path - preferably down - removable. Although it could also be mounted linearly movable for this purpose, it is preferably pivotable about a pivot axis A78 extending transversely to the transport direction out of the operating position (see, for example, FIG. 17a) and b). The pivoting z. B. by means of a drive means 104 , which preferably as druckfluidbetätigbares cylinder-piston system 104 is executed. Preferably, this can be the start-up section 78 moving drive means 104 be connected with respect to its activation via a signal connection with control means S78 and be controlled by this, which in turn z. B. via a signal connection 107 with a - in particular optical - sensor 108 , z. B. a photosensor 109 connect is. Through this are - for example, a corresponding signal evaluation - irregularities in sheet travel, especially a Knautschen and possibly sticking an incoming printing material B, recognizable. The control means S78 can be set up and / or executed for a signal curve of the sensor system 108 hin, which suggests a disturbance in Bedruckstofflauf, especially a Knautschen, automated moving away, in particular pivoting, the start-up section 78 Generating causing signal and the drive means 104 be forwarded.
  • Preferably, a moving out or pivoting takes place so that the downstream end of the preferred as start-up section 78 trained sheet guiding element 78 is further moved from the present in undisturbed operation transport path, in particular further down, or is as the upstream end.
  • Above lifting gear 83 are preferably structurally in the start-up section 78 or movably mounted sheet guiding element 78 integrated. In the latter case, these z. B. when moving the sheet guiding element 78 moved with this.
  • Preferably, in the region of the first and / or second delivery station I; II at least on one side, preferably on both sides of the path of movement of the sheet B is a bow B serving as a stop device 103 , short side stop device 103 , provided, which in the respective dispensing station I; II to be deposited sheet B for exact alignment of the stack edge serve as lateral path limitation (see, for example, in example 5 ). Such a side stop device preferably comprises 103 laterally, ie in the direction of the transverse to the transport direction T extending stack width, movable stop means 201 (see below), which allow fine adjustment and / or adaptation to varying format widths of the sheet B.
  • The bowing and / or controlled filing on the stack 11 ; 12 is - as already indicated above - in a preferred embodiment by an above the transport path provided blasluftbetriebene or -betreibbare device 51 ; 52 supported. This may be for an embodiment with only one dispensing station I for this dispensing station I, for an embodiment of a dispenser 03 with two or more dispensing station I; II for one of these dispensing station I; II or for several or all of this dispensing station I; II be of particular advantage and apply.
  • The above the transport path over the dispensing station I; II arranged blowing device 51 ; 52 includes in the transport direction T in a row a plurality, for. B. number o (with o ε N, o> 1) of extending in the transverse direction blowing devices 113q (q ε {2, 3, ... o}), preferably as so-called blowpipes 113q , in particular Querblasrohre 113q are executed and in one embodiment, in sections, one or more chambers can have. There are, for example, at least five (o ≥ 5) or preferably more than 7 (o> 7) here z. B. ten (o = 10) blowing devices 113q intended.
  • The transversely extending blowing devices 113q can in each case by a transversely extending - z. B. at least half the maximum substrate width continuous - be formed flat fan.
  • Preferred are the transversely extending blowing devices 113q each by a group 113q from in the transverse direction, ie transverse to the transport direction T, provided side by side blowing elements 114r educated. The group 113q includes z. B. each number p (with p ε N, p> 1), blowing air openings 114r , in particular blowing air nozzles 114r (r ε {2, 3, ... p}) and extends z. B. over at least the two middle quarters of the maximum substrate width. There are ever blowing device 113q for example at least 8 (q ≥ 8) or preferably more than 12 (q> 12) here z. B. sixteen (q = 16) blowing openings 113q intended. The group 113q of blowing air openings 114r is preferred by the blown air openings 114r having blowpipe 113q educated.
  • The number o of transversely extending blowing devices 113q can in principle be all summarized with regard to the supply of blowing air and / or wiring. For this purpose, then all blowing devices 113q for example, a common switching means 116 can be activated and deactivated.
  • Advantageously, the blowing devices 113q however, individually or in groups of several over several switching means 116 independently activate or deactivate. In the case of several upper groups, for example, each other to several adjacent groups 113q or blowing devices 113q summarized.
  • Each blowing device is preferred 113q at least one switching means 116 provided by which the respective group 113q or a subgroup thereof activatable, that is acted upon by pressurized blowing air. In particularly fast reaction execution are each extending in the transverse direction blowing device 113q several, z. B. two subgroups of Blasluftöffnungen 114r provided which, via a number of subgroups corresponding number of switching means 116 switchable, that are activated and deactivated. In a particularly responsive and preferable embodiment are for several or all of the blowing devices 113q for each of the left and the right half of the blown air openings 114r the blowing device 113q , in particular the z. B. two chambers blowing tube 113q , one independent of the other switching means 116 switchable switching means 116 intended.
  • The switching means 116 are as electronically switchable slide 116 or rotary valve 116 or Favor as electronically switchable switching valves 116 , short valves 116 , executed. For example, compressed air is applied to these on the input side, which compressed air can be switched to the output side via corresponding control signals and, via a line connection, the relevant blowing device 113q can be acted upon. Although in the following the switching means 116 acting as valves 116 However, the above is in principle also applicable to other versions.
  • To a dropping from inside to outside pressure professional, so the profile in the force K (see, for example, schematically 21 ) on the bow B, one opens the blown air from the respective switching valve 116 to the blowpipe 113q leading line preferably within a central longitudinal section, z. B. within the length of the two inner quarters, in the blasluftführenden interior of the blowpipe 113q , In the case of two switching valves 116 or feeds to the blowpipe 113q this applies to both, with the inside of the blowpipe 113q may be formed divided by a wall in the area between the two feeders.
  • A majority or all of the blown air openings 114r the blowing device 113q may be assigned an unspecified actuating means by which the Blasluftstrom and thus also the pressure profile adjustable and / or variable. This can be, for example screw plug, in a line cross-section of a Blasluftöffnung 114r protrude towards leading duct, and by the position of the opening cross section for the flow is variable. In this case, for example, it is desirable to have a pressure profile sloping outward in the force effect, wherein the concrete shape may depend on the printing substrate and / or the conveying speed v32. A desired adjustment of the pressure profile can also without further adjusting means by the position of the blown air into the blowpipe 113q , by the location and size of the blown air openings 114r and be realized by the choice of the free cross-section or a varying course or be.
  • Basically, the the individual top groups, groups 113q or subgroups 113q1 ; 113q2 of blowing air openings 114 associated valves 116 , For example, in the manner of a valve terminal, be centrally summarized in one place. In a preferred embodiment, the valves 116 however decentralized and / or at least in groups, or preferably all spatially spaced from each other, in particular each close to the associated upper group, group 113q or subgroups 113q1 ; 113q2 arranged. Here are the valves 116 For example, each closer to the inlet 121 in the associated blowpipe 113 arranged as to the inlet into the or another blowpipe 113 , At least they are closer to an inlet 121 in the associated blowpipe 113 arranged as half the distance between the two most distant blowing air nozzles 114 the associated blowpipe 113 ,
  • The supply of the blowpipes 113q , ie the upper groups, groups 113q or in particular subgroups 113q1 ; 113q2 or the upstream of these valves 116 takes place from a source 119 via a blown air path, which can be formed by serial and / or parallel conduction paths. For example, a coming from a compressed air source line in a direction transverse to the transport direction T line 117 lead, for example, by a hollow executed transversely extending traverse 117 is formed or integrated in such a cross-beam. From the transverse line from a passage in at least one parallel to the transport direction T extending longitudinal line 118 , z. B. longitudinal distributor 118 , which flow through a hollow, longitudinal support 118 may be formed or integrated in such a longitudinal member. In an advantageous embodiment, two such hollow side members 118 be provided for guiding the blown air. From this side rail 118 or these side rails 118 go branches 122 for the care of the upper groups, groups 113q or in particular subgroups 113q1 ; 113q2 or the upstream valves 116 from. Each is preferred as blowpipes 113q executed blowing devices 113q assigned a branch. The source 119 can also be used for other applications of the machine 01 provided compressed air source 119 be.
  • In an advantageous embodiment, the line path is from the source 119 to a group, a group 113q or subgroup 113q1 ; 113q2 associated valves 116 , in particular between the branch 122 from the longitudinal distributor 118 and the at least one downstream valve 116 , an input pressure applied to the input side Pe to a desired output pressure Pa out regulating actuator 124 , z. B. a pressure control valve 124 , intended. By means of this actuator 124 is - preferably remotely operable and / or automated - the downstream of the valve 116 to be switched pressure adjustable and / or variable. Are one same group 113q or a same blowpipe 113q several, z ,. B. two valves 116 and inlets 121 assigned, this can be the same group 113q associated valves 116 via a same branch and a common actuator 124 be supplied with blowing air or be.
  • Per upper group or preferably per group 113q or per blowpipe 113q can at least or exactly one such actuator 124 be provided. Thus, a profile for the blowing effect along the transport direction T can be set and / or varied.
  • For example, by the actuator 124 the pressure on a between 0.6 and 1.8 bar, in particular between 1.0 and 1.5 bar lying output side pressure adjustable. In an advantageous embodiment, the output side of the pressure regulating valve is located 124 and / or input side of the switching valve 116 an overpressure pressure of 1.2 ± 0.1 bar. In a preferred embodiment prevails when activated, ie open valve 116 in the downstream blowpipe 113q a pressure P greater than 0.6 and 1.8 bar, in particular between 1.0 and 1.5 bar, preferably 1.2 ± 0.1 bar. Upon activation of the switching means 116 or when opening the valve 116 Accordingly, at least for a short time, air under a pressure of greater than 0.6, in particular between 1.0 and 1.5 bar, flows, in particular under a pressure of approximately 1.2, ie, 1.2 ± 0.1 bar, standing air as blowing air from the blown air openings 114r out. The Querblasrohre 113q or the blown air openings 114r are thus supplied with compressed air of a pressure greater than 0.6 bar, in particular between 1.0 and 1.5 bar, preferably 1.2 ± 0.1 bar, supplied or acted upon. The pressure stated here refers to the overpressure relative to normal pressure, ie to 1.013 bar.
  • In the pipeline from the source 119 to the valves 116 , in particular to the valves 116 upstream longitudinal distributor 118 , one can the pressure of the source 119 limiting actuating means 123 , in particular, the pressure of the source 119 limiting pressure reducer 123 , be provided. For example, an output side pressure of a maximum of 2.0 bar, z. B. in the range of 1.0 to 1.5 bar, in particular 1.2 ± 0.1 bar providing pressure reducer 123 provided or is the pressure reducer 123 operated accordingly.
  • Regardless of whether pressure control valves 124 are provided, is thus a Blasluftöffnungen 114r having blowing device 51 ; 52 provided, the input side with compressed air pressure greater than 0.5 bar, z. B. a pressure between 0.6 and 1.8 bar, is supplied or is. The blowing device 51 ; 52 is on the input side so with a compressed air with a pressure greater than 0.5 bar, z. B. a pressure between 0.6 and 1.8 bar, providing compressed air source 119 in line connection. In the case of sufficiently large cable cross-sections up to the blown air openings 114r is in the activated state of the valve in the blowpipe, ie on the inner side of the blown air opening 114r , Blasluft with a pressure in about the same, ie one Pressure greater than 0.6 bar, z. B. a pressure between 0.6 and 1.8 bar, on.
  • In a preferred embodiment of the blowing device 51 ; 52 in particular in connection with an arrangement over a first of several dispensing stations I; II, are - in particular in the transport direction T arranged one behind the other and extending transversely to the transport direction - blowing devices 113q individually or in upper groups in such a way depending on the intended for the incoming in the dispensing station I sheet B i destination enabled and disabled that only be deposited in the region of this dispensing station I sheet B are acted upon from above with blowing air.
  • In principle, the transverse blowing devices 113q or blowpipes 113q depending on the transport destination, each activated and deactivated together or be. This could be via a common switching device 116 take place, which is controlled by a control means S116 comprehensive control device.
  • In a preferred embodiment, the blowing devices are to be deposited for the sheet B. 113q or blowpipes 113q synchronized with the feed of the sheet B to be filed activated and deactivated. This will be the blowing devices 113q or blowpipes 113q for example, synchronized with respect to the time and duration and / or in a correlation to a machine and / or printing material phase position Φ, ie clocked to the printing material, activated and deactivated.
  • For example, the blowing devices 113q or blowpipes 113q for a sheet B to be deposited successively starting with its leading edge. If several overlapping sheets B are to be deposited successively, the blowing devices remain 113q or blowpipes 113q activated. In the event of sheet B overlapping in the printing material flow, the blowing devices become 113q or blowpipes 113q for example, one after the other, beginning with the leading edge of a first sheet B to be transferred, is deactivated again.
  • In the case of a scaly overlapping arc current, the blowing device for a series of sheets B to be transferred remains continuously inactive.
  • For the alternative case of sheet B conveyed without overlap, the blowing devices activated for the sheet B to be deposited can be activated 113q or blowpipes 113q successively with the sweeping whose trailing edge are deactivated again. For the next sheet B, either a successive activation or a transfer with an inactive blowing device is then carried out again as a function of its transport destination 51 ; 52 carried out.
  • The blown air openings 114r the blowpipes 113q , in particular Querblasrohre 113q are or are individually, in groups or in total depending on the respective transport destination, that is, whether the incoming sheet B is to be stored or transported, so timed enabled and disabled operated that only the deposited in the underlying dispensing station I sheet B with Blasluft be charged.
  • An optimization and possibly correlated with the transport speed regulation of the pulse generated by the blown air, for example via the said pressure control valves 116 ,
  • For transport destination-dependent and / or successive wiring, ie activation and deactivation, of the one or more switching means 116 For example, these are in signal communication with the above-mentioned control means S116, which are designed and configured to activate and deactivate the switching means 116 and / or selecting an operating mode for operating the blowing device 51 ; 52 depending on the destination of the transport to the delivery station I; II incoming bow to effect B. Instead or in addition to this, the control means S116 are adapted and arranged to enable and disable the switching means 116 synchronized and / or to effect a correlation to a machine and / or printing material phase position Φ. In this case, a distinction can be made between two operating modes, wherein a first operating mode relates to a sheet B to be filed and a second operating mode relates to a sheet B to be transferred. In the first mode, the blowing devices become 113q or blowpipes 113q activated simultaneously or successively, in the second mode are or are at least the current at the time over the sheet to be transferred B blowing devices 113q or blowpipes 113q deactivated during the transfer.
  • The the switching means 116 ; 138 and / or adjusting means 124 ; 128 Controlling control means S116 may be part of a higher-level machine control or provided decentralized and possibly connected to such.
  • The control means S116 are preferably in signal communication with a signal generator, e.g. As a sensor or a drive master, of which they receive the machine and / or printing material phasing and / or representing information I (Φ).
  • In principle, the previously mentioned, in particular as blowpipes 113q executed blowing devices 113q also extend in the transport direction and be arranged side by side to several transverse to the transport direction T. It can then with appropriate arrangement of the blowpipes 113q and in these provided Blasluftöffnungen 114 if necessary, a similar pattern of blast air outlets can be realized. However, a given in the transport direction T temporal and / or in the magnitude of the effect variability is then not or not to the same extent as in the case of the transverse blowpipes 113q given.
  • However, in addition to the plurality o of blower devices extending transversely to the transporting direction T may be used 113q or blowpipes 113q at least one blower device extending in the transport direction T 126 , z. B. a so-called. Blowpipe 126 , in particular longitudinal blowpipe 126 be provided, the one or more in the transport direction extending flat-jet nozzle or a plurality of z. B. as blowing air nozzles 127 trained blown air openings 127 having. The at least one z. B. as a blowpipe 127 , in particular as a longitudinal blowpipe 127 executed blowing device 27 is, for example, in the middle of the transverse to the transport direction T extending width of the underlying and / or to be formed stack 11 ; 12 arranged. Thus, this blowing device supports 127 when activating the first central deposition. The activation or deactivation also takes place here by a controlled by the control means S116 forth and the blowpipe 126 upstream switching means 138 , which as electronically switchable slide 138 or rotary valve 138 or Favor as electronically switchable switching valve 138 , short valves 138 , is executed.
  • The supply of the at least one longitudinal blowing device 126 can be via a line connection from the same source 119 if necessary via the same or another pressure-limiting actuating means 123 ; 128 , z. B. pressure reducer 123 ; 128 , respectively. With or without upstream actuating means 128 can also be in the line path an output pressure regulating actuator 129 , z. B. a pressure control valve 129 , be provided. Preferably lies in the longitudinal blowing tube 126 Blown air with one opposite the blown air of Querblasrohren 113q higher pressure, z. B. a pressure of at least 4 bar, preferably of at least 5 bar, to. Due to the central arrangement and the high pressure bow B can be stiffened by central "breaking" for the purpose of sheet storage.
  • The at least one longitudinal blowpipe 126 becomes or is after one to the Querblasrohen 113q comparable pattern also activated in such a manner depending on the respective transport destination and deactivated operated, that only the to be deposited in the underlying dispensing station I sheet B are subjected to blowing air.
  • In addition to the plurality o of blowing devices extending transversely to the transport direction 113q or blowpipes 113q and optionally instead of or in addition to a longitudinal blowing device 126 may be a lowering of the sheet B - especially in the field of low conveyor speeds - supporting fan system 131 be provided. This includes, for example, one or more rows of over the transport path in the transverse direction juxtaposed fans 132 , in particular axial fans 132 , which are preferably adjustable individually or in groups with regard to their performance. For example, there are two rows of eight fans each 132 on a common frame as a so-called fan cassette 133 summarized. In addition to this, the blowing device 51 ; 52 or the fan system 131 one or more rows of other fans 134 , in particular axial fans 134 that z. B. on a common, in the dispensing device along the transport direction T movable support frame 136 arranged. For example, a series of seven fans 134 on the common support frame 136 as so-called 137 summarized
  • In particular in connection with the execution of the dispenser 03 as a multiple stack suit 03 , in particular double stack delivery 03 , is the blowing device 51 executed and set up to apply from a stream of a season incoming bow B targeted individual or a series of bow B with blowing air and let pass the remaining sheet B of the sheet stagger without impingement.
  • By the blowing device described 51 ; 52 can be selectively provided with a strong pulse individual, in particular to be deposited sheet B. This allows the storage even at high conveyor speeds v32 and / or a high arc frequency. By disabling the blowing devices 113q ; 126 For to be transferred sheet B these are not exposed to air and thus receive no impulse. As a result, the possibly disturbed anyway running of the sheet to be transferred B is not unnecessarily even more restless and the contact to the underlying stack can be avoided.
  • If the blown air is activated only for individual sheets B to be deposited, the energy expenditure compared to a permanent blowing can be reduced considerably.
  • In terms of stack quality of the first stack 11 advantageous embodiment are or are or part of the transport direction T successively provided, independently to be activated Blasluftöffnungen 114r , in particular in each case a plurality of blown air openings 114r comprehensive transverse blowing devices 113q or blowpipes 113q , in an operating phase of the above-mentioned second mode, in which z. B. one or more in the first delivery station I incoming sheet B according to the first mode to be transferred or transferred, so acted upon with blowing air or activated and deactivated so that they only - at least for a time interval or temporarily - in the gap between successive sheets B, in particular in the gap between the trailing end 11 an arc B and the holding device 32 the following arc B n ; B n + 1 , in particular to the following sheet B transporting gripper carriage 32 , blow.
  • In this operating situation, the blowing devices lying at the respective time are above the sheet B to be transferred and moved in the transport direction T 113q or blowpipes 113q disabled, but are or are the progress of the bow B each for a time window on a gap between each other following bow B, in particular in a gap between the trailing end 11 an arc B and the holding device 32 of the following sheet B, lying blowing devices 113q or blowpipes 113q successively activated for at least one time interval within this time window.
  • The one behind the other independently activatable Blasluftöffnungen ( 114r ) or blowing devices 113q associated valve 116 are in signal communication with a control means S116, which in turn is in signal communication with a machine and / or printing material phasing concerned and / or representing information I (Φ) supplying signal generator and is designed and set up to activate the blown air through the valves 116 as a function of the information concerning the machine and / or printing material phase position and / or representing information I (Φ) to cause so that a blowing only takes place within a gap between two successive not to be deposited sheet B.
  • For example, a sheet B n to be transferred - which in this example may be a first or any of a series of sheets B to be transferred - is transferred over the stack 11 transported away while the respective overlying blowing devices 113q or blowpipes 113q are inactive in og. One or more above the wandering with the progress of the sheet B in the direction of transport T gap between the trailing end of this sheet B n and the leading end 109 the following sheet B n + 1 or in particular a this at the leading end 109 receiving holding device 32 are activated successively and at the latest with the beginning of the leading end 109 a next succeeding sheet B n + 2 or in particular one at the leading end 109 receiving holding device 32 deactivated again.
  • For this purpose, control means S116 are provided and arranged to activate and deactivate the blowing devices 113q or blowpipes 113q associated switching means 116 synchronized or clocked and / or effect in a correlation to a machine and / or printing material phase position Φ. The control means S116 can thereby mechanically as a rotary valve or as individual valves 116 switching cam switch or as the individual switching valves 116 electronically controlled control means S116 be executed controlled.
  • A further development is advantageous, according to which a number of blowing devices blown into the same gap at the same time 113q can vary or vary with the format length of the substrate sheet B. For example, for a longer size, the same time as a first number of consecutive blast air openings 114r or blowing devices 113q blown into the gap (see eg 22a) to c) while for a shorter format with a higher number of successive blast air openings ( 114r ) or blowing devices 113q into which larger gaps are blown (see eg 22a) to c).
  • In a development, the effect of blowing devices 113q or blowpipes 113q be fitted in their transversely to the transport direction T considered width and / or location. For this purpose, z. B. outer sections permanently disabled or be deactivated, in particular turned off or be turned off. For example, individual blown air openings 114r be closed by an unspecified setting means
  • Together with one or more embodiment features for the sheet guiding device set forth above 47 and / or to the braking device 48 ; 49 and / or to the blowing device 51 ; 52 and / or the start-up section 78 or considered on its own, includes a particularly preferable device 139 to release the funded sheet B, short release device 139 , a switching device for releasing conveyed printing material B with an adjusting device 143 , by which the release in the region of the associated dispensing station I; II is optionally activated and deactivated, and with an adjusting device 144 through which, in the transport direction T, the location X 139 of the sheet release, in the case of as gripper, is considered 56 trained holding elements from gripper opening point called location X 139 , in the region of the associated dispensing station I; II can be adjusted or varied. The two adjusting devices 143 ; 144 are here by independently operable drive means 146 ; 147 adjustable. The release device 139 is thus carried out at a certain time - for example between two each other in the transport direction T following holding means 32 , in particular gripper carriage 32 - Enable or disable the switching device 141 . 142 in particular an engagement or disengagement of switching means 141 ; 142 the z. B. mechanically executed switching device 141 . 142 to effect.
  • A particularly advantageous embodiment of the delivery device in this context 03 has at least one holding device 32 comprehensive conveyor system 21 on, through which a printing material B can be received and downstream to a discharge station I; II is eligible, where it is optional from the holding means 32 released and to a stack to be formed 11 . 12 can be issued or downstream is weiterförderbar. It further comprises a switching device effecting the delivery 141 . 142 which is one of the dispensing station I; II functionally and / or spatially associated switching cam 141 and a holding means 32 functionally and / or spatially assigned cam follower 142 comprising, wherein the cam follower 142 - Middle or immediate - to its operation on at least one holding element 56 the holding device 32 acts.
  • Although the cam follower 142 basically also sliding with the switching cam 141 could work together, he is preferred as a roller lever 142 trained and acts with a cam follower 142 included roll with the switching cam 141 together.
  • The switching cam 141 is for activating and deactivating the release by a switch cam 141 attacking setting device 143 optionally in the undisturbed, ie without switching cam 141 present, trajectory 152 of the cam follower 142 in and out herausbringbar, especially -verschwenkbar. In this case, the pivoting preferably takes place about a frame G which is perpendicular to the transport direction T and with respect to a space-fixed frame G of the delivery device 03 Fixed pivot axis A141.
  • To the variation of the transport path related location of the switching cam 141 The release to be effected is a contact point 151 for the initial contact between the switching cam 141 and the cam follower to be moved in the transporting direction T. 142 on the control cam 141 - z. B. within at least one considered in the transport direction, in particular effective as a control section longitudinal section - by a switching cam 141 attacking, from the first adjusting device 143 different second adjusting device 144 variable.
  • It should under the "cam follower" 142 any kind of stop element 142 be understood when in contact with an active surface 149 a cam 141 , in particular switching cam 141 , one of the form of the cooperative active surface 149 executes the following movement and - if necessary via a transmission link 59 , z. B. the gripper shaft 59 , - on the operated member, here z. B. at least one holding element 56 , works. On the other hand, under a "switching cam" 141 generalize any kind of the effective area 149 Be understood as a stop surface providing unit. In the case of a operatively movably mounted cam 141 for example, a multi-part and jointly movable unit with a the effective area 149 comprehensive component and this component - possibly releasably - supporting holder understood.
  • The effective as release cam cam is on one of the trajectory 152 of the cam follower 142 facing side in at least one in the transport direction T considered, effective as a control section longitudinal section with a continuous in this section in the transport direction T to the movement path 152 of the cam follower 142 approximate effective area 149 , z. B. contact surface 149 , executed.
  • By the two separate adjusting devices 143 ; 144 the requirement of an exact adjustability on the one hand and the fastest possible insertion and removal on the other hand is enough. This enables operation with high precision and high delivery rate or production speed, for example with a sheet flow of more than 12,000 sheets B per hour (B / h), in particular more than 15,000 B / h.
  • To the variation of the contact point 151 the first contact is the switching cam 141 in a preferred embodiment here with at least one of its ends related to the transport direction T, in this case advantageously the upstream end, in its distance from the movement path 152 of the cam follower 142 variable, ie it is, for example, in the region of this end by a movement with at least one component of motion perpendicular to the transport direction T selectively closer to the path of movement 152 way and away away. To activate or deactivate is the switching cam 141 with at least the other of its on the transport direction T related ends in its distance from the trajectory of the cam follower 142 variable so that it in a first operating position in the undisturbed movement path 152 of the cam follower 142 dips and in a second operating position completely out of the path of movement 152 of the cam follower 141 is removed.
  • The first adjusting device 143 For this purpose, accesses a first point P143 of the release cam 141 on and the second adjusting device 144 at a second engagement point P144 spaced apart in the transport direction T.
  • Here is the switching cam 141 through the second actuator 144 z. B. at a point P143 of the first actuator 143 lying second pivot axis A144 pivoted. The second pivot axis A144 or the first point P143 is by the first actuator 143 and / or the first drive means 146 radially displaceable, in particular a respect to a space-fixed frame G of the delivery device 03 Fixed pivot axis A141 swiveling.
  • The first adjusting device 143 includes for the drive with a liquid or gaseous pressure medium F, z. B. pressurized fluid F, operated and / or operable first drive means 146 , z. B. a hydraulic or preferably pneumatic cylinder 146 , To supply the drive means 146 with pressure medium F is as a switching means 153 a switchable valve 153 and at least one the valve 153 with the drive means 143 connecting fluid line 154 ; 156 provided, wherein the conduction path of the or at least one fluid line 154 ; 156 between an outlet of the valve 153 and an input to the drive means 146 preferably at most the maximum width, in particular at most half the maximum width, in the dispensing station I; II to be stacked substrate sheet B corresponds. This can be minimized by compressibility caused dead times and variations.
  • The control of the valve 153 takes place for example via control means S146, the z. B. may be implemented as part of a machine control in this or may be provided in a different control device S141.
  • In an advantageous embodiment of the hydraulic or preferably pneumatic cylinder 146 double-acting, that is acted upon with pressure medium in both directions.
  • Due to the double-acting design and / or the drive means close arrangement of the valve a particularly fast and precise acting switching drive is created.
  • By, for example, defined in the drive train of the first actuator two fixed end positions and / or are definable, is a very fast, yet accurate switching on and off the switching cam 141 ie a quick and accurate activation and deactivation of the release device 139 possible.
  • The second adjusting device 144 For its drive preferably comprises an electric motor 147 , The control of the electric motor 147 takes place for example via control means S147. To supply the drive means 147 with electrical power, a n not shown line connection to a power unit exist.
  • In an advantageous embodiment, the electric motor acts 146 on the output side on a screw drive and together with the latter forms an electromotive linear drive.
  • In one - especially for delivery devices 03 for printing material sheet B large maximum width - advantageous embodiment of the dispensing station I; II on both sides of the sheet path, ie in the region of both side frames of the frame G, depending on a switching device described above 41 . 42 intended. Preferably, each of the two switching device 41 . 42 each own own first adjustment device 143 each with a first drive means 146 and a switching means 153 , in particular valve 153 , assigned. A synchronization of the adjusting movement takes place for example by electronic means.
  • In principle, each of the two switching devices 141 . 142 each a separate second control device 144 each with a drive means 147 be assigned. In a robust and cost effective solution are the second control devices 144 however, for example B. via a transverse to the transport direction shaft 157 , in particular synchronous shaft 157 , mechanically synchronized with each other and preferably by a common drive means 147 , in particular a common electric motor 147 driven.
  • The pivoting of the first point of application P143 or the second pivot axis A144 about the frame fixed pivot axis A141 can basically be done via any type lever which is pivotable about the frame fixed pivot axis A141 and the pivot axis to be pivoted A143 or to be pivoted starting point P144 eccentric to a lever length supports the frame-fixed pivot axis A141. In this case, this lever with a rotatably mounted in the frame G and by the drive 146 be rotatably connected to the frame-fixed pivot axis A143 pivotable shaft.
  • In a preferred embodiment is a one or two-armed lever 158 pivotable on a frame-fixed axis 159 stored, on which on the one hand the drive means 146 or a driven-side transmission member 161 , z. B. the piston rod or connected to this linkage attacks. On the other hand, there is this lever 158 about the eccentricity e offset to the frame-fixed pivot axis A141 of the first approach point P143 and the second pivot axis A144 angelect. This can be over one on the lever 158 mounted axle or stub shaft 162 respectively. The pivoting takes place here via a eccentric lever 158 trained lever 158 over a lever length e given by the eccentricity e. In an advantageous embodiment, the second pivot axis A144 to be pivoted within the axis cross section of the axis defining the frame-fixed pivot axis A141 159 runs, a particularly robust arrangement for supporting the first point P143 and the second pivot axis A144 is created.
  • In a particularly advantageous embodiment, the activation / deactivation is thus carried out by a supply or Abstellbewegung the switching cam 141 with the help of an eccentric lever 158 by a double-acting, in particular via a drive-close switching valve 153 supplied pneumatic cylinder 146 is operated or is.
  • The pivoting of the second point of application P144 or the first pivot axis A143 about the second pivot axis A144 can basically take place via any type of transmission, on which the drive side, the second drive means 147 attacks.
  • However, an embodiment of particular advantage in the drive train of the adjusting device 144 in addition to at least one pivotable about a fixed pivot axis A149 single or multi-armed lever 163 ; 164 a coupled in both ends coupling 162 includes. In an advantageous and illustrated embodiment, the drive means engages 147 on a lever 162 on, the rotationally fixed on a pivotable about the pivot shaft A149 fixed shaft 147 , z. B. above synchronous shaft 147 , is arranged. About another rotationally fixed on the shaft 157 arranged lever 164 the drive is medium or directly via a joint on the coupling 162 and via another joint medium or directly to the second point P144.
  • In an advantageous development, the first adjusting device 143 executed so that the lever 158 in an operational end position of the activation in the trajectory 152 introduced switching cam 141 in the region of a dead center close to the travel path, ie in a projection plane about the pivot axis A141 perpendicular to the pivot axis A141, at a maximum of 30 °, in particular at most 20 °, from the line of the shortest connection between the pivot axis (A141) and the movement path 52 lying line, attacks. As a result, forces are caused by the impacting cam follower 142 be introduced into the construction, at least predominantly led into the storage and act at best to a small extent on the drive back.
  • To control the switching cam 141 optionally in the movement path 152 of the cam follower 142 in or out completely moving drive means 146 and / or one of the drive means 146 switching switching means 153 this is in signal connection to a control means S146, which in turn is in signal communication with a the machine and / or printing material phasing and / or representing information I (Φ) supplying signal generator and is executed and set up, an activation and deactivation of the drive means 146 and / or one of the drive means 146 switching switching means 153 in a correlation to a transmitted from a signal generator machine and / or printing material phase position Φ.
  • To control the switching cam 141 with respect to the delivery location varying driving means 147 and / or one of the drive means 147 switching switching means is this in signal connection to a control means S147, which in turn is in signal communication with a machine or transport speed relevant and / or representing information I (Φ.) Delivering signal generator and is executed and set up, a position of the drive means 147 and thus to cause the gripper opening point in a correlation to a transmitted from a signal generator machine and / or printing material phase position Φ.
  • When entering and Abstellbewegung the achievement of the other effective switching state as quickly as possible, for. B. be completed within a maximum of 150 ms, preferably within 130 ms.
  • For this purpose, an optionally two-sided adjustment movement preferably does not take place via a mechanical synchronization, but preferably via respective drive means 146 , Instead, or in addition to delays in the end effect by the shortest possible pathways advantageous as z. B. with the short fluid lines 154 ; 156 set forth above. As an alternative or in addition to the above-mentioned advantageous limitation of the length of the line path, the length of the respective line is chosen such that the dead volume enclosed in the respective pressurized supply line is not more than 25% of the volume stored in the extended cylinder, which is determined, for example, by the piston stroke of the cylinder given extended cylinder cylinder piston diameter is given .. In a particularly advantageous embodiment, this dead volume is less than 10%. In a further development, the valve 153 directly on the cylinder 146 mounted or even in the cylinder 146 integrated, this value can be reduced to less than 5%, in particular to less than 2%.
  • In order to minimize control-based dead times, the deactivating / activating control means S146 are with a fast switching logic, ie a switching logic, wherein the machine and / or printing material phase position concerning signal of an og signal generator without delay directly, ie in particular not only via a clocked processing as occurs, for example, in PLCs and, if appropriate, clocked bus systems, to one the drive means 147 triggering or activating or deactivating triggering signal σ147 processed and transmitted. The fast switching logic switches the switching device 141 . 142 activating and deactivating actuating device 143 thus accurate to the machine angle.
  • Instead or in addition to one or more measures to minimize the dead time can be provided - preferably machine speed-dependent - dead time compensation, which the z. B. on inertias remaining dead time compensated by appropriate feedforward. In this case, for example, the machine and / or printing stock phase position correlated with the possible switching time point can be moved forward or in accordance with the dead time to be taken into account. The degree of Vorverlegens can be varied depending on transport speed in a preferred development or be, so that, for example, at a greater speed, the triggering machine and / or printing material phase position is moved forward than at a lower transport speed. This makes it possible the actual movement of the switching cam 141 for different machine speeds or speeds, however, always to start in the same or at least substantially the same machine and / or printing material phase position.
  • Although the switching device described 141 . 142 also in only one to form stacks 11 ; 12 trained dispensing station I; II comprehensive display device 03 may be provided, wherein in the region of the dispensing station I; II sheet not to be delivered B, for example, a sample sheet removal or a collecting container for receiving waste paper are zuleitbar, it is preferably in a plurality of the formation of stacks 11 ; 12 trained dispensing station I; II comprehensive dispensing facility 03 intended. One of these is the above-mentioned switching device 141 . 142 comprehensive delivery station I; II a subsequent section of funding 42 provided on which not in the region of the first dispensing station I; II delivered substrate sheet B through the conveyor system 21 in the area of a subsequent dispensing station I; II are eligible.
  • For controlling a storage of printing material B, which by a conveyor system 21 downstream to a dispensing station I; II promoted and optionally there by a holding device 32 of the conveyor system 21 to a stack to be formed 11 . 12 discharged or can be further promoted downstream, so there is a release in that one of the dispensing station I; II functionally and / or spatially associated switching cam 141 on one of the holding device 32 functionally and / or spatially assigned cam follower 142 acts. To activate and deactivate the release is the switching cam 141 in the undisturbed movement path 152 of the cam follower 142 into or out of this. To vary the place of delivery is a contact point already set out above 151 on the control cam 141 for the initial contact between the switching cam 141 and the cam follower to be moved in the transporting direction T. 142 varies along the transport direction T.
  • The activation and deactivation is preferably carried out by pivoting the switching cam 141 around a frame-fixed first pivot axis A144. A variation of the switching cam 141 5 preferably takes place by a variation of the distance between at least one of its ends, which are related to the transport direction T, and the movement path 152 of the cam follower 142 ,
  • In a particularly advantageous embodiment, the control of the switching device takes place 141 . 142 such that the switching cam 141 at least at one time in its first operating position, ie in the active position, while the above-mentioned blowing device is operated in the first operating mode and / or the abovementioned braking device 48 ; 49 m1 is operated in the first operating mode.
  • Preferably, the plurality comprises, for. B. two delivery stations I; II having dispensing device and in the second dispensing station II a release device, which in the manner of the first release device 139 with at least a second adjusting device 144 is designed to vary the release location. The first adjusting device 144 can be omitted. In this case, the pivot axis A44 or the point of application P143 with respect to the space-fixed frame G is arranged fixed to the frame.
  • Together with one or more embodiment features for the sheet guiding device set forth above 47 and / or to the braking device 48 ; 49 and / or to the blowing device 51 ; 52 and / or the start-up section 78 and / or to the release device 139 or considered on its own, the dispenser includes 03 at least for one of several dispensing stations I; II, in particular for at least one good-arc stacking dispensing station I; II, a non-stop stack change device 53 ; 54 , Preferably, the dispenser comprises 03 for several, in particular for two or all Dispensing station I; II a non-stop stack change device 53 ; 54 ,
  • The - single or respective - non-stop stack change device 53 ; 54 comprises a - preferably motorized lowered - auxiliary support device 166 ; 167 , z. B. an auxiliary stacking table 166 ; 167 , the or between the stack top edge of the already formed stack 11 ; 12 , z. B. for removal prepare main pile 11 ; 12 , And the overlying sheet transport path can be introduced. Preferably, the auxiliary stacking table is 166 ; 167 , In particular, at least its the sheet transport path facing support surface, vertically movable on the frame G or a frame part G of the dispenser 03 stored. In the active, ie introduced in the Fallweg operating state can on the auxiliary stacking table 166 ; 167 by further incoming bow B an auxiliary pile 168 ; 169 be formed.
  • A vertical downward movement is preferably correlated to the growth of the auxiliary stack 168 ; 169 and / or by a drive device, which preferably mechanically from the drive of the conveyor system 21 independent drive means 171 , preferably as a motor 171 , in particular as an electric motor 171 , includes. The drive means is for this purpose for example with a control means S171 in signal connection, which is set up and / or programmed, the drive means 171 to control in an operating situation such that the upper stack edge is held at a predetermined height or is. For this purpose, the control means S171 is connected to a sensor which detects the upper stack edge and / or to control means supplying information about the arc current.
  • The - for example, horizontal - introducing and deploying the auxiliary stacking table 166 ; 167 in or out of the fall path, ie the transfer to a working position and back to a rest position, takes place synchronized with respect to the timing and / or in a correlation to a machine and / or printing material phase Φ, ie clocked to the printing material flow. An introduction is thus preferably carried out in a specific phase position of the machine or the next approaching sheet B. Preferably, a retraction into the fall path takes place at the latest at a point in time at which the leading edge 109 the first no longer on the affected stack 11 ; 12 to be deposited sheet B in the transport direction T, the downstream end of the auxiliary stacking table 166 ; 167 reached, and at the earliest at a time at which the trailing edge 111 of the preceding sheet B in the transporting direction T, the downstream end of the auxiliary stacking table 166 ; 167 happens.
  • The insertion and removal of the auxiliary stacking table 166 ; 167 takes place by a drive device, which preferably mechanically from the drive of the conveyor system 21 independent drive means 172 , preferably as a motor 172 , in particular as an electric motor 172 , includes. The drive means 172 For this purpose, for example with a control means S172 in signal connection, which is set up and / or programmed, the drive means 172 in such a way that, in response to a corresponding command by the operating personnel or from a program routine carrying out the stack change, an introduction or discharge in correlation with the abovementioned machine and / or printing stock phase position Φ m is effected.
  • The relevant command can be carried out, for example, by the operating personnel or from a control routine or program routine which controls the stack change in a higher order, which was initiated by a triggering moment. The triggering moment can be given, for example, by a signal Σ AW initiating an automated stack change, which is or can be triggered, for example, by the personnel via an operator interface and / or automatically by reaching a predetermined or maximum stack height. The control or program routine and / or the control means S172 can be in signal communication with the input and output movement with a signal generator supplying the information relating to the machine and / or printing material and / or representing information I (Φ).
  • The control means S171; S172 may be implemented as part of a machine controller or in another central controller together with other control means, or may be provided in a different controller S53 (54).
  • In a preferred embodiment of the non-stop stack change device 53 ; 54 the introduction of the auxiliary stacking table takes place 166 ; 167 in the fall path with transport direction T. This has z. B. the advantage that despite high sheet transport rate and possibly small distances successive sheet B during insertion of the auxiliary stacking table 166 ; 167 as few copies as possible, ideally not a single copy, is damaged or must be removed. This is the auxiliary stacking table 166 ; 167 in its rest position advantage this z. B. also for the execution of the first dispensing station I, if this upstream of the associated dispensing station I; II arranged or held. For example, to use for the delivery of waste paper B use.
  • The auxiliary stacking table 166 ; 167 basically any, z. B. as a rigid plate to be introduced, in the manner of a rake to be introduced, in the manner of a membered and / or flexible roller blind or as a longitudinally extendable mechanism, be formed. In execution as a rake, it can be advantageous with charge aids 61 ; 62 cooperate, which has a structure complementary to the structure of the rake structure of depressions in the support surface.
  • In the embodiment shown here is the auxiliary stacking table 166 ; 167 viewed in the longitudinal direction flexible and / or limb, in particular as or in the manner of a roller blind 166 ; 167 , executed. The - preferably flexible and / or limb executed - auxiliary stacking table 166 ; 167 is or is on or in a one- or multi-part guide construction 173 . 174 guided, on the one hand extends to both sides of the fall path on the entire length in the transport direction T and on the other hand outside the case path up to a recording of the auxiliary stacking table 166 ; 167 continues in its rest position, the above-mentioned execution z. B. upstream is provided. In a particularly advantageous embodiment with regard to the reduced space requirement, the guide construction bends or bends 173 . 174 in which is outside the case path for receiving the auxiliary stacking table 166 ; 167 provided guide section 174 from the height of the fall path horizontally extending guide section 173 down from. Here is the auxiliary stacking table 166 ; 167 z. B. executed in the above manner flexible and / or limb. Preference is on both sides - ie viewed in horizontal projection left and right of the trajectory of the arc B - of the auxiliary stacking table 166 ; 167 in each case such a single or multi-part guide construction 173 . 174 intended.
  • The the auxiliary stacking table 166 ; 167 In and out driving device can be basically carried out arbitrarily, but preferably includes a respect to the guide structure 173 . 174 mounted frame and medium or directly by the also with respect to the guide structure 173 . 174 fixed-mounted motor 172 driven drive wheel 176 , especially sprocket 176 , which for its propulsion with a drive track 177 of the auxiliary stacking table to be moved 166 ; 167 interacts. The drive track 177 can z. B. by a friction surface of the auxiliary stacking table 166 ; 167 itself or preferably by one of the auxiliary stacking table 166 ; 167 included and in the direction of movement extending drive chain 177 be formed. Preferably, each of the two lateral guide construction 173 . 174 Pages such a drive wheel 176 with drive tracks 177 attributed, wherein the drive wheels 176 mechanically synchronized by a common drive means 172 or preferably in terms of control technology synchronized by a respective drive means 172 can be driven or driven. The blind 166 ; 167 is preferably by a plurality of successively arranged in the direction of movement members 178 , z. As rollers, tubes or rods, formed, which are each connected in pairs pivotally. Preferably, the links are 178 frontally on the two chains 177 stored and connected with each other. Especially in the design as rollers or pipes, these can rotate on the chains 177 stored.
  • The auxiliary stacking table 166 ; 167 is complete with guide construction 173 . 174 and the the auxiliary stacking table 166 ; 167 input and output drive device vertically movable in the frame G or a fixed space subframe or frame part G of the dispenser 03 stored and vertically movable by the already mentioned drive means.
  • The the auxiliary stacking table 166 ; 167 or one the auxiliary stacking table 166 ; 167 , the guiding structure 173 . 174 and the drive means comprising sink table assembly 179 Up and down moving drive device can be basically carried out arbitrarily, but is preferably designed as a lifting device and includes z. B. one or more on the auxiliary stacking table 166 ; 167 and / or the Senktischanordnung 179 attacking traction means 181 ; 182 and the at least one at least one traction means 181 ; 182 medium or direct attacking drive means 171 , The or the traction means 181 ; 182 is or are preferred as chains 181 ; 182 formed, which preferably via one or more than deflection wheels or rollers 183 ; 184 trained deflecting elements 183 ; 184 are guided and at the auxiliary stacking table 166 ; 167 and / or the Senktischanordnung 179 attack. In each of the chains 181 ; 182 accesses their propulsion z. B. as a sprocket 186 ; 187 executed drive wheel 186 ; 187 one, which medium or directly by the at least one drive means 171 is driven and / or driven.
  • Although z. B. four each in a corner at the auxiliary stacking table 166 ; 167 and / or at the Senktischanordnung 179 attacking traction means 181 ; 182 by two or even four such drive means 171 can be driven, here is a drive of the four traction means 181 ; 182 by a common drive means 171 intended. This drives - for example via a transmission 188 - A transverse to the transport direction T extending shaft 189 on, on each side of the Senktischanordnung 179 two with two traction devices 181 ; 182 co-operating drive wheels 186 ; 187 , z. B. sprockets 186 ; 187 are arranged rotationally fixed.
  • One of two traction devices 181 ; 182 a same side can use a steering wheel 193 or pulley 193 executed deflecting element 193 be guided, which for adjustment purposes within a control range in a direction perpendicular to the axis of the deflecting element 193 on the frame G is movable.
  • For the non-stop stack change, ie one without interrupting the production operation to be performed stack change, is the stack to be removed 11 ; 12 lowered from the last occupied working position in a lower removal position and the auxiliary stacking table 166 ; 167 into its working position, ie in the fall path of the sheet B to be released (see, for example, in FIG 29a) for the second or even good pile of bills 12 and in 29b) for the first or waste paper pile 12 ). The following sheets B are thus on the auxiliary stacking table 166 ; 167 to an auxiliary pile 168 ; 169 stacked, with the auxiliary stacking table 166 ; 167 is lowered accordingly with increase in the stack height. After removal of the abzutransportierenden stack 11 ; 12 becomes an empty charge aid 61 ; 62 on the (main) stacking table 36 ; 37 used, for. B. an empty pallet 61 ; 62 on the stacking plate 36 ; 37 placed. Subsequently, the (main) stacking table 36 ; 37 move it up until it has a surface of the empty charge aid 61 ; 62 the auxiliary stacking table 166 ; 167 reached. By the auxiliary stacking table 166 ; 167 is returned to its rest position, the auxiliary pile 168 ; 169 to the new charge aid 61 ; 62 passed, which in a conventional manner with increase in the stack height by lowering the (main) stacking table 36 ; 37 is lowered accordingly.
  • Lifting and lowering the stacking table 36 ; 37 can in principle be realized in any way, but preferably takes place in a vertical movement of the auxiliary stacking table 166 ; 167 comparable way through at least one z. In 2 only indicated by the reference numeral drive means 194 , z. B. at least one engine 194 , powered traction means 191 ; 192 , z. B. chains 191 ; 192 ,
  • The first and the second stack change device 53 ; 54 are independently operable. That is, it is in the production mode of the machine 01 or the delivery device 03 in each of the two delivery stations I; II a nonstop stack change regardless of introductory or feasible, whether in the other dispensing station I; II just a batch change is also performed or not.
  • Preferably, each of the dispensing stations is I; II on a longitudinal side of the delivery device 03 - Directly on the frame G or on a specially provided control column - at least one operated by operating personnel actuating means 211 ; 212 ; 213 ; 214 , In the following also as a switching element 211 ; 212 ; 213 ; 214 or z. B. as a button 211 ; 212 ; 213 ; 214 designated, assigned (see, for example, 32 ), which or which in signal connection to the drive means 172 for swinging in / out in the relevant dispensing station I; II controlling control means S172 stands. For example, per dispensing stations I; II a switching element 211 ; 213 provided, which upon actuation an introduction of the relevant auxiliary support means 166 ; 167 effected in the fall path of the bow B into a working position, and / or a switching element 212 ; 214 , which upon actuation an application of the auxiliary support device 166 ; 167 out of the fall path of the bow B out in a rest position. Instead or preferably in addition to this is at least one operating means to be operated by operating personnel 216 ; 217 , hereinafter also as a switching element 216 ; 217 or z. B. as a button 216 ; 217 designated, which is or in signal communication with the drive means 171 for lowering / lifting the auxiliary stacking table 166 ; 167 in the relevant dispensing station I; II controlling control means S171 stands. For example, per dispensing stations I; II a switching element 216 ; 217 provided, which upon actuation, a lifting of the relevant auxiliary support means 166 ; 167 in z. B. causes an upper end position.
  • One, several or all of the said switching elements 211 ; 212 ; 213 ; 214 ; 216 ; 217 can from a above, the respective dispensing station I; II associated control interface 66 ; 67 includes, with a user interface 66 ; 67 For example, as a one-part or multi-part control panel 66 ; 67 is trained. The respective dispensing stations I; II on the long side of the delivery device 03 assigned operating interfaces 66 ; 67 can be arranged directly on the frame G or on a dedicated control column.
  • Controlling the introduction and removal bringing about and / or the vertical movement causing drive means 171 ; 172 For example, this is done via said control means S171; S172, which are set up and / or programmed, an input or output or at least one lifting of the auxiliary support device 166 ; 167 effect according to a given control command. In this case, the control command can be triggered directly by operating personnel, ie by signals σ W one or more operable by operating elements switching elements 211 ; 212 ; 213 ; 214 ; 216 ; 217 , z. B. buttons 211 ; 212 ; 213 ; 214 ; 216 ; 217 be given. Instead or in addition to this, the control command can be given both by said manual influence and by an implemented program routine for automatic stack changes, which, for example, in the above manner by the staff via a not explicitly shown here actuating means, for. B. as a switching element or button, a user interface 66 ; 67 and / or automatically triggered and / or triggered by reaching a predetermined or maximum stack height.
  • Together with one or more embodiment features for the sheet guiding device set forth above 47 and / or to the braking device 48 ; 49 and / or to the blowing device 51 ; 52 and / or the start-up section 78 and / or to the release device 139 and / or nonstop stack change device 53 ; 54 or considered on its own, the dispenser comprises 03 in the region of the first and / or the second delivery station I; II above already mentioned Seitenanschlageinrichtungen 103 ,
  • Preferably, the dispensing station I comprises; II on both sides of the sheet transport path each side stop device 103 of which at least one of the two, but preferably both Seitenanschlageinrichtungen 103 in the above sense laterally displaceable or movable stop means 201 , z. B. side stops 201 , include (see for example 31 ). By sideways shifting, the side stop helpful for forming a defined stack page history is 201 to adapt to changes in the substrate width due to format changes. Also a fine lateral adjustment is possible to optimize stacking.
  • The lateral movement of the lifting gear 201 takes place by a drive device with a drive means 202 which is preferred as a motor 202 , in particular as an electric motor 202 , is executed. In a preferred embodiment, the engine moves 202 the slings 201 via a screw drive 203 , wherein the stop means 201 compression and tension stiff medium or directly with a threaded spindle 204 , in particular with its output end, connected, which by the drive means 202 rotatable and thereby laterally displaceable. For example, the sling is 201 at one with the spindle 204 pressure- and zugsteif connected bracket 206 arranged. It can also be considered in the transport direction T by the drive means 202 laterally displaceable slings 201 be provided.
  • delivery device 03 - directly on the frame G or on a specially provided preferably each of the dispensing stations I; II on a longitudinal side of the control column - at least one operating means to be actuated by actuating means 218 ; 219 ; 221 ; 222 , hereinafter also as a switching element 218 ; 219 ; 221 ; 222 or z. B. as a button 218 ; 219 ; 221 ; 222 designated, assigned (see, for example, 32 ), which in signal connection to a drive means 202 for the lateral movement of the sling 201 in the relevant dispensing station I; II controlling control means S172 stands. For example, per dispensing stations I; II a switching element 218 ; 221 provided, which upon actuation moving at least one of the stop means 201 inwardly towards the machine center, and / or a switching element 219 ; 222 which, when actuated, involves moving at least one of the stop means 201 further away from the center outwards. For both sides in the delivery station I; II present side stop devices 103 in one embodiment, only one such via switching elements 218 ; 219 ; 221 ; 222 movable stop means 201 be provided, in another embodiment, both via switching elements 218 ; 219 ; 221 ; 222 movable slings 201 each with its own switching elements 218 ; 219 ; 221 ; 222 be independently movable. However, in this preferred embodiment, both are via switching elements 218 ; 219 ; 221 ; 222 movable slings 201 via common switching elements 218 ; 219 ; 221 ; 222 simultaneously movable inwards and outwards.
  • Controlling the lateral movement or the drive means 202 for the displacement of the lateral stop means 201 Thus, for example via control means S202, which in signal communication with the drive means 202 standing and are set up and / or programmed, a lateral method of the slings 201 to effect σ SA according to a given control command. The lateral position Y 201 of the lifting gear 201 can be considered here as to be set size or set size Y 201 . In this case, the control command can be triggered directly by operating personnel and / or by signals σ SA of an operable by operating switching element 218 ; 219 ; 221 ; 222 be given. Instead or preferably in addition to this, the control command can be determined both by said manual influence and by the specification of a desired value W F , z. B. determined for a ausendendes format and / or held Vororeellwertes W F , causes and / or be effected. The latter can be transmitted or transmitted by a product planning and / or presetting system.
  • slings 201 for a dispensing station I; II can the the drive means 202 In the case of several dispensing stations I; II and / or a plurality of separately driven driving control means S202 as processes or circuit arrangements in a same control device combined or else distributed individually or distributed to several groups.
  • In an advantageous development, the side stop device comprise 103 a device 207 . 208 for shaking the bow in the region of its lateral edge, in short also as a lateral shaking device 207 . 208 designated. For this purpose, this includes a - in particular at the same time and / or together - with the slings 201 laterally moving alignment means 207 , z. B. a preferably designed in the manner of a metal strip Seitengeradstoßer 207 which or which, with a side facing the sheet B, a stop surface which can be moved in the direction of the sheet side edge and can be moved away, ie oscillated and / or oscillated in the lateral direction 209 , having. By the lateral oscillation or shaking movement of the alignment 207 becomes an alignment of the respective stack 11 ; 12 ; 168 ; 169 to be delivered bow B at the side slings 201 supported.
  • The oscillating motion can basically be achieved by any type of suitable drive means 208 , z. As an effective over a cam drive or an eccentric motor, be effected and / or effected. In a preferred embodiment, the vibrator device comprises 107 ; 208 to drive a operated with liquid or gaseous pressure medium and / or operable drive means 208 , z. B. a hydraulic or preferably pneumatic cylinder 208 ,
  • Controlling the oscillation causing drive means 208 , In particular of the pressure medium actuated drive means 208 attributable valve, for example, via control means S208, which in signal communication with the drive means 208 stand and are set up and / or programmed, an oscillating movement of the alignment 207 , In particular, a switching of the attributable valve to effect according to a predetermined cyclic movement history. Here, the movement history -. B. in the frequency and / or in the amount of movement amplitude - be variable via not shown adjusting elements.
  • In particular in connection with the execution of a dispenser 03 with two, one non-stop stack change device each 53 ; 54 having dispensing stations I; II include the two dispensing stations I; II associated lateral operating interfaces 66 ; 67 each actuating means 223 ; 224 ; 226 ; 227 (see eg 32 ), hereinafter also as switching elements 223 ; 224 ; 226 ; 227 or z. B. as a button 223 ; 224 ; 226 ; 227 referred to, which are in signal communication with control means of a machine control, by which one or more drives pressure-conveying device of the machine with respect to a target value for the machine or transport speed are controlled and / or regulated. For example, per dispensing station I; II at least one of the machine speed varying actuating means 223 ; 226 provided, in particular a switching element or button 223 ; 226 , which, when actuated, causes a reduction in the setpoint value for the transport or machine speed, and a switching element or button 224 ; 227 which, when actuated, causes the setpoint for the transport or machine speed to be reduced.
  • The on the long side of the delivery device 03 provided actuating means or switching elements 196 ; 197 ; 198 ; 199 ; 211 ; 212 ; 213 ; 214 ; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 and / or user interfaces 66 ; 67 are each closer to the assigned than to the other dispensing station I; II arranged. Here is the respective control panel 66 ; 67 a side entrance into the stacking room 44 ; 46 that dispensing station I; II closer, the drive means or control means S48; S49; S53; S53; S103 through the or the respective user interface 66 ; 67 included switching elements 196 ; 197 ; 198 ; 199 ; 211 ; 212 ; 213 ; 214 ; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 are controllable, as the lateral input of the other.
  • On the respective side panel, on the one hand, not all of the mentioned switching elements 196 ; 197 ; 198 ; 199 ; 211 ; 212 ; 213 ; 214 ; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 be provided on the other hand, however, other or additional here unspecified switching elements can be added.
  • O. g., The dispensing stations I; II on the long sides associated switching elements 196 ; 197 ; 198 ; 199 ; 211 ; 212 ; 213 ; 214 ; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 can basically be realized in any way based on mechanical or electronic action. So they can, as already indicated, for example, as a mechanical button 196 ; 197 ; 198 ; 199 ; 211 ; 212 ; 213 ; 214 ; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 be executed, but with two acting on a same drive in an opposite manner switching elements 196 ; 197 ; 198 ; 199 ; 211 ; 212 ; 213 ; 214 ; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 separated or together as a double button, z. B. rocker switch can be executed. In another embodiment, the or a part of said switching elements 196 ; 197 ; 198 ; 199 ; 211 ; 212 ; 213 ; 214 ; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 as touch-sensitive buttons or as - permanently or only temporarily generated - fields of a touch-sensitive display device as a touch-sensitive button 196 ; 197 ; 198 ; 199 ; 211 ; 212 ; 213 ; 214 ; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 be executed. It can also be provided a combination of different designs.
  • Of particular advantage is an embodiment of the multiple, especially double-stack delivery 03 trained dispenser 03 , wherein at a height downstream and in the longitudinal direction of the dispenser 03 looks behind the side entrance into the stacking room 46 the second delivery station I; II - on the frame or a dedicated control column - one or more switching elements 196 '; 197 '; 218 '; 219 ' are provided, the signal technically in operative connection to drives 203 , S203; 63 , S63 of form-relevant institutions, ie to be adapted to the respective format 103 ; 48 the first delivery station I considered in the transport direction T, in particular to the stop means 202 transversely moving drive means 203 or associated control means S203 a Seitenanschlageinrichtung 103 and / or to which the braking device 48 or their holder means 92 along the transport direction T moving drive means 63 or associated control means S63 at least the first dispensing station I are. Preferably, corresponding transport direction T second or last delivery station II are also provided on the front side. It should be understood by a "height downstream of the second delivery station II" a position, the switching elements 198 '; 199 ; ' 221 '; 222 ' for the drives in question, which is located behind one at the end of the second delivery station II perpendicular to the projected in the horizontal direction of sheet transport plane.
  • In a particularly advantageous embodiment, the switching elements 196 '; 197 '; 218 '; 219 ' and or 198 '; 199 ; ' 221 '; 222 ' in a region of one of the entry side of the sheet B opposite end face of the dispenser 03 - Provided directly on the frame G or on a dedicated front end control column.
  • Particularly advantageous for this purpose is an embodiment of the multiple, in particular double stack delivery 03 trained dispenser 03 , Wherein in the second discharge station II downstream region and / or in particular in the region of one of the inlet side of the bow B opposite end face of the dispenser 03 - directly on the frame G or on a specially provided front-end control column - one or more to be operated by operating elements switching elements 218 '; 219 '; 221 '; 222 ' , z. B. buttons 218 '; 219 '; 221 '; 222 ' , are provided (see eg 33 or 35 ), which are in signal communication with the drive means 202 for the lateral movement of the sling 201 in the first delivery station in the transport path control means S172 and / or which in signal connection to a drive means 202 for the lateral movement of the sling 201 is in the transport path second delivery station II controlling control means S172. For example, for the relevant or in particular for each dispensing station I; II a switching element 218 '; 221 ' provided, which upon actuation moving at least one of the stop means 201 effected in accordance with the control command σ SA inwardly towards the machine center, and / or a switching element 219 '; 222 ' which, when actuated, involves moving at least one of the stop means 201 in accordance with the control command σ SA further away from the center toward the outside. For both sides in the delivery station I; II present side stop devices 103 the one mentioned above in connection with the lateral arrangement applies. The frontal arrangement of the or the front-side switching elements 218 '; 219 '; 221 '; 222 ' or button 218 '; 219 '; 221 '; 222 ' may instead of the laterally arranged switching elements 218 ; 219 ; 221 ; 222 , z. B. buttons 218 ; 219 ; 221 ; 222 , but preferably be provided in addition thereto.
  • Controlling the lateral movement or the drive means 202 for the displacement of the lateral stop means 201 takes place above in connection with the lateral arrangement of the switching elements 218 ; 219 ; 221 ; 222 or button 218 ; 219 ; 221 ; 222 set way, but on the with the respective front-side switching element 218 '; 219 '; 221 '; 222 ' or button 218 '; 219 '; 221 '; 222 ' in signal communication control means S202 and / or drive means 202 ,
  • Basically independent of, but preferred in connection with the above, the Seitenanschlageinrichtung 103 relevant switching elements 218 '; 219 '; 221 '; 222 ' are in an advantageous embodiment of the multiple, especially double-stack delivery 03 trained dispenser 03 on one in the second discharge station II downstream region and / or in particular in the region of the entrance side of the bow B opposite end face - directly on the frame G or on a dedicated control column - one or more operable by operating elements switching elements 196 '; 197 '; 198 '; 199 ' , z. B. buttons 196 '; 197 '; 198 '; 199 ' , provided (see eg 33 or 35 ), which in signal connection to a the drive means 63 for moving the brake device 48 ; 49 or the holding means 92 in the control means S63 controlling in the transport path first delivery station I, and / or the drive means to one 63 for moving the brake device 48 ; 49 or the holding means 92 is in the transport path in the second delivery station II controlling control means S63. For example, for the relevant or in particular for each dispensing station I; II a switching element 196 '; 198 ' provided, which when actuated moving the braking device 48 ; 49 or the holding means 92 effected in accordance with the given control command σ FL downstream, and a switching element 197 '; 199 ' which when actuated moving the braking device 48 ; 49 or the holding means 92 effected upstream.
  • The frontal arrangement of the or the front-side switching elements 196 '; 197 '; 198 '; 199 ' , z. B. buttons 196 '; 197 '; 198 '; 199 ' may instead of the above-mentioned laterally arranged switching elements 196 ; 197 ; 198 ; 199 , z. B. buttons 196 ; 197 ; 198 ; 199 , but preferably be provided in addition thereto.
  • A location of the moving or the drive means 63 for the displacement of the braking device 48 ; 49 or the holding means 92 takes place above in connection with the lateral arrangement of the switching elements 196 ; 197 ; 198 ; 199 or button 196 ; 197 ; 198 ; 199 set way, but on the with the respective front-side switching element 218 '; 219 '; 221 '; 222 ' or button 218 '; 219 '; 221 '; 222 ' in signal communication control means S202 and / or drive means 202 ,
  • One, several or all of the side stops relevant frontal switching elements 218 '; 219 '; 221 '; 222 ' or button 218 '; 219 '; 221 '; 222 ' and / or the location of the braking device 48 ; 49 or the holding means 92 relevant end-side switching elements 196 '; 197 '; 198 '; 199 ' or button 196 '; 197 '; 198 '; 199 ' can be from a frontal operating interface 232 be included, with such a user interface 232 For example, as a one-part or multi-part control panel 232 is trained. The in the area of the front side of the delivery device 03 assigned user interface 232 can be arranged directly on the frame G or on a dedicated control column.
  • O. g., In the region of the front side associated switching elements 196 '; 197 '; 198 '; 199 '; 218 '; 219 '; 221 '; 222 ' can basically be realized in any way based on mechanical or electronic action. So they can, as already indicated, for example, as a mechanical button 196 '; 197 '; 198 '; 199 '; 218 '; 219 '; 221 '; 222 ' be executed, but with two acting on a same drive in an opposite manner switching elements 196 '; 197 '; 198 '; 199 '; 218 '; 219 '; 221 '; 222 ' separated or together as a double button, z. B. rocker switch can be executed. In another embodiment, the or a part of said switching elements 196 '; 197 '; 198 '; 199 '; 218 '; 219 '; 221 '; 222 ' as touch-sensitive buttons or as - permanently or only temporarily generated - fields of a touch-sensitive display device as a touch-sensitive button 196 '; 197 '; 198 '; 199 '; 218 '; 219 '; 221 '; 222 ' be executed. It can also be provided a combination of different designs.
  • Regardless of, but preferred in connection with the arrangement of one or more switching elements 196 '; 197 '; 198 '; 199 '; 218 '; 219 '; 221 '; 222 ' for the above mentioned setting of formally relevant institutions 103 ; 48 are in a likewise particularly advantageous embodiment of the multiple, in particular double stack delivery 03 trained dispenser 03 at a height downstream and in the longitudinal direction of the dispenser 03 looks behind the side entrance into the stacking room 46 the second delivery station (I; II) and / or in particular in the above-mentioned frontal region of the delivery device 03 - directly on the frame G or on a specially provided front-end control column - one or more actuating means 228 ; 229 ; 231 ; 234 ; 233 ; 237 ; 238 ; 241 , in the following also as switching elements 228 ; 229 ; 231 ; 233 ; 234 ; 237 ; 238 ; 241 or button 228 ; 229 ; 231 ; 233 ; 234 ; 237 ; 238 ; 241 designated, provided in permanent or at least activatable signal connection to drives transport relevant, ie the movement of the sheet B concerning facilities 139 ; 48 at least the first delivery station I considered in the transporting direction T, in particular to the drive means which varies the location of the gripper opening point X 139 as the setting variable X 139 along the transport direction T 147 or associated control means S147 of the release device 139 and / or to which the holder means 92 dynamically driving drive means 106 or the associated control means S106. Preferably, the front side are also corresponding switching elements 228 ; 229 ; 234 ; 236 ; 237 ; 238 ; 242 provided for the respective drives of the second delivery station II in the transport direction T.
  • Preferably, the location of the sheet release, ie, gripper opening point, is for the release device 139 the first and / or second delivery station I; II by the operator adjustable or variable. Preferably, for this purpose, for the dispensing station I and / or the dispensing stations II - either on a longitudinal side of the delivery device 03 and / or preferably in the region downstream of the second delivery station II, preferably on the front side - one or more operating elements to be operated by switching elements 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 , z. B. buttons 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 , provided (see eg 36 ), which in permanent or at least activatable signal connection to the drive means 147 for the variation of the transport path-related location of the release or the above contact point 151 for the first contact in the relevant dispensing station I; II controlling control means S147 stands.
  • In particular, for example, real or activatable virtual - switching elements 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 provided and permanently or at least in its active state signaling with the drive means 147 for adjusting the gripper opening point of the dispensing stations I and / or dispensing stations I; II controlling control means S147 connected by which when actuated for the relevant dispensing station I; II an opening time corresponding to a given over the actuation control command σ OP is adjustable. However, switching elements are preferred 228 ; 229 ; State signaling with the drive means 147 the dispensing stations I; II controlling control means S147 connected by which per discharge station I; II both a 231 ; 233 ; 234 ; 236 ; 237 ; 238 provided and permanently or at least in their active with respect to the transport direction T latest gripper opening point and an earliest gripper opening point are adjustable. This is especially true in connection with the above-mentioned locations of the drive means 147 or the gripper opening point in a correlation to the machine or transport speed Φ ..
  • Regardless of the above-mentioned to the gripper opening point, but preferably in conjunction herewith is as a size to be put, z. As set size, at least the storage speed v from and possibly other sizes for the braking device 48 ; 49 the first and / or second delivery station I; II by the operator adjustable or variable. Preferably, for this purpose, for the dispensing station I and / or the dispensing stations II - either on a longitudinal side of the delivery device 03 and / or preferably in the region downstream of the second delivery station II, preferably on the front side - one or more operating elements to be operated by switching elements 241 ; 242 ; 228 ; 229 ; 237 ; 238 , z. B. buttons 241 ; 242 ; 228 ; 229 ; 237 ; 238 , provided (see eg 37 ), which in permanent or at least activatable signal connection to the drive means 106 for the dynamic drive of the holding means 92 in the relevant dispensing station I; II controlling control means S106 stands.
  • In particular, switching elements 241 ; 242 ; 228 ; 229 ; 237 ; 238 provided and permanently or at least in its active state signaling with the drive means 106 the dispensing stations I and / or dispensing stations I; II controlling control means S106 connected, by which when actuated for the relevant dispensing station I; II the storage speed v from ab is corresponding to a given over the actuation control command σv from adjustable.
  • In principle, the switching elements 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 for setting the gripper opening point and / or for setting the depositing speed v ab in the manner of buttons 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 executed and permanently connected in the above sense with the drive means and / or the associated control means.
  • In this case, for the placement of the gripper opening point in an embodiment, not shown, for example, depending on the gripper opening point in the direction downstream and the gripper opening point in the direction of upstream relocating button 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 be provided. However, in a development of this variant, preference is given to each dispensing station I; II in the transport direction T earliest gripper opening point and in the transport direction T latest gripper opening point via four buttons 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 adjustable. For setting the filing speed v from can in unillustrated embodiment, for example, each one on actuation the filing speed v from increasing and the filing speed v from decreasing button 241 ; 242 ; 228 ; 229 ; 237 ; 238 provided the gripper opening point
  • In a particularly preferred embodiment, the switching elements 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 for setting the gripper opening point and / or for setting the depositing speed v from all or at least part as a touch-sensitive button 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 by - permanently or only temporarily generated - fields 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 a touch-sensitive display device 239 , z. B. a touch-sensitive display 239 , also referred to as a touch-enabled or short as a touch display executed. In principle, all or only part of the buttons can 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 through touch-sensitive fields 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 be designed as virtual buttons.
  • In the illustrated embodiment, however, at least buttons 231 ; 233 ; 234 ; 236 ; 241 ; 242 selecting one for the institution concerned 139 specific setting, by on the display 239 at least temporarily generated and active in this state fields 231 ; 233 ; 234 ; 236 ; 241 ; 242 be executed. button 228 ; 229 which act on the value of the size itself and / or on a change in value of the selected size and / or button 237 ; 238 indicating a selection of the dispensing station I to be provided; II effect, z. B. as a real, mechanically or touch-sensitive executed button 228 ; 229 ; 228 ; 229 ; 237 ; 238 be executed.
  • In one embodiment, according to which all the sites of the gripper opening point and / or the depositing speed v from respective switching elements 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 fields formed as virtual buttons 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 are formed in a control panel 243 ; 244 , z. B. Control panel 243 ; 244 , for setting the gripper opening point and / or the depositing speed v ab through the display 239 self-educated. In mixed form becomes a control panel 243 ; 244 for adjustment 243 of the gripper opening point and / or the depositing speed v from passing through the fields 231 ; 233 ; 234 ; 236 ; 241 ; 242 providing display 239 and the other associated switching elements 228 ; 229 ; 228 ; 229 ; 237 ; 238 educated.
  • Are about the same display 239 and / or a same control panel 243 ; 244 Setting variables of several, functionally different facilities 48 ; 49 ; 139 For example, both a side stop device 103 as well as a braking device 48 ; 49 , adjustable, so includes the control panel 243 preferably additionally at least one actuating means 246 , hereinafter also as switching element 246 or z. B. as a button 246 but preferably for each functionally different device 48 ; 49 ; 139 an actuating means 246 ; 247 , hereinafter also as a switching element 246 ; 247 or z. B. as a button 246 ; 247 , by its operation, the functional equipment to be provided 48 ; 49 ; 139 is selectable. This button 246 ; 247 can as a field 246 ; 247 again in the display 239 be integrated or as a real mechanical or touch-sensitive button 246 ; 247 available.
  • In a respect. Of the equipment expenses particularly advantageous embodiment includes as a multiple, especially double-stack delivery 03 trained dispenser 03 a common, z. B. single or multi-part control panel 243 , preferably as z. B. executed as a unit operating panel 243 with only one display 239 , via which or which quality-relevant facilities by operating personnel 139 ; 48 ; 49 , z. B. the gripper opening point and / or the depositing speed v from both the first and the second discharge station I; II are adjustable. The control panel 243 Although it may in principle be provided on the longitudinal side, it is advantageously located in the region downstream of the second delivery station II, preferably at the end face of the delivery device opposite the sheet entry 03 ,
  • This includes the control panel 243 on the one hand first switching elements 228 ; 229 , by the actuation of which a value of a variable to be set can be incorporated and / or changed. These can be keys of a keypad for entering the value or - such. As shown here - plus and minus buttons to gradually increase or decrease the current value. In addition, the control panel includes 243 at least one switching element 228 ; 229 , by whose or their actuation the dispensing station I; II, to which one at the first switching elements 228 ; 229 made manipulation act 246 ; 247 , by its operation for a selected dispensing station I; II one should, is selectable. Furthermore, the control panel includes 243 at least one switching element signal connection between the first switching elements 228 ; 229 with the drive of a device 48 ; 49 the relevant dispensing station I; II can be produced or activated. In the case of several, functionally different to be set facilities 48 ; 49 ; 139 per delivery station I; II, includes the control panel 243 one or in particular a plurality of such switching elements 246 ; 247 , by its or their actuation for the selected dispensing station I; II a signal connection between the first, the value of the variable to be set switching elements 228 ; 229 optionally with the drive of a first device 48 ; 49 the relevant dispensing station I; II or the drive of a second device 139 can be produced or activated.
  • The switching elements concerning the value of the respective manipulated variable 228 ; 229 are therefore by appropriate activation either in signaling connection with actuators og quality-relevant facilities 139 ; 48 the first delivery station I; II or in signal-technical connection with drives og quality-relevant facilities 139 ; 48 ; 49 the second delivery station I; II can be moved. To activate are switching elements 237 ; 238 ; 246 ; 247 provided by their actuation affected by the bodies dispensing station I; II and / or the institutions to be provided 139 ; 48 ; 49 is selectable.
  • To an assignment of the common control display 11 to the currently selected and to be delivered dispensing station I; II, are the control display 11 the delivery station I currently affected by a possible selection of the above mentioned size; II visualizing means assigned, ie means for visualization of the currently displayed on the display 11 active, ie signal-technically connected to the actuation means to be actuated dispensing station I; II or its drive means.
  • This can basically be a numerical representation in the display 239 or on another display device, the control panel 243 act. However, it is also possible to select the dispensing station I; II provided switching elements 228 ; 229 light up as a change in the choice made. Also, the two dispensing stations I; II illuminated button, which may be provided, for example, as a result of activation to the associated symbols or designations, which spatially corresponding signal elements, eg. As lights are assigned.
  • In a particularly advantageous, particularly conspicuous design are as a means of visualization of the straight on the display 239 active and / or the current with the first switching elements 228 ; 229 in signal communication with the dispensing station I; II
  • Software means provided in dependence on the selected or active dispensing station I; II in one area 248 the display or display surface, which may be formed by this total or by a defined part, the image background on the display 239 replaced. This can be a change in the brightness of the background and / or a change in the color for the two display modes. Here is a variant of particular advantage in which for the two color locations of the display background in the color space a sufficiently large distance, z. B. at least ΔE from > 10, advantageously ΔE from > 20, is present. Exemplary is this in 38 a change in the background of the picture in an area occupying almost the entire area 248 shown, with the different colors of the background through different filling is symbolized. For example, a first background (eg gray) is active - eg. B. 3a) and b) - if the operator display 11 or the display device 12 for providing a device of the first dispensing station I; II is activated and a second background is active (eg green) - eg. B. 3c) and d) - if the control display 11 or the display device 12 for providing a device of the second delivery station II; I is activated. The display device 12 is when changing the active to the points dispensing station II; I switched accordingly.
  • active, ie bow B depositing dispensing station I; II visualizing agent, z. B. means for Instead or preferably in addition to this, the control panel 11 the straight visualization of the currently active dispensing station I; Be associated with II.
  • Again, it may in principle be an alphanumeric representation, z. B. a dispensing station I; II designating digit, in the display 239 or at another display device of the control panel 243 act. Also, the two dispensing stations I; II associated symbols or designations are provided, which spatially corresponding signal elements, eg. As lights are assigned.
  • In a particularly advantageous and particularly conspicuous embodiment are as means for visualization of the currently active dispensing station I; II software means provided which, depending on the current with respect to the deposition active dispensing station I; II in one area 249 the display surface, which may be formed by this total or by a defined part, the image background on the display 239 replaced. This can be for the two display modes of the display 239 a change in the brightness of the background and / or a change in the color. Here is a variant of particular advantage in which for the two color locations of the display background in the color space a sufficiently large distance, z. B. at least ΔE from > 10, advantageously ΔE from > 20, is present. Exemplary is this in 38 a change of the image background in a here in the form of a frame in the edge region of the display area circulating area 249 represented, wherein the different coloration of the background is symbolized by different filling. For example, a first background (eg blue) - in 3a) and c) by way of example without filling - active, if the first dispensing station I; II is active, and a second background (eg red) - 3b) and d) by way of example with slash filling - active when the second delivery station II is active. The display device 12 is when changing the active dispensing station II; I switched accordingly.
  • Are both means of visualizing the straight on the display 239 active dispensing station I; II as well as means for visualization of the currently active dispensing station I; II provided, then the two means - except for identical means - any combination of the above embodiments is possible for the execution. However, preference is given to a combination of respective areas 248 ; 249 changing background image.
  • In a preferred embodiment, via the control panel 243 ; 244 or panel 243 ; 244 both drives of devices of several, in particular two discharge stations I; II adjustable, as well as information about the deposit with respect to the currently active dispensing station can be displayed.
  • That the display 239 comprehensive control panel 243 provides a - in particular frontal - operating interface 253 or is in addition to possibly existing in the immediate vicinity of further actuating means of such includes.
  • In a particularly advantageous embodiment with respect to a particularly low risk of incorrect operation, this includes a multiple, in particular double-stack delivery 03 trained dispenser 03 for each of the dispensing stations I; II own, z. B. single or multi-part control panel 243 ; 244 , preferably as z. B. executed as a unit operating panel 244 each with a display 239 , via which in each case by operating personnel quality-relevant facilities 139 ; 48 ; 49 , z. B. the associated dispensing station I; II are adjustable (see eg 39 ). The control panels gripper opening point and / or the filing speed vab, at the functional 243 ; 244 Although in principle may be provided on the longitudinal side, but are advantageously in the second discharge station II downstream region, preferably at the sheet entrance opposite end face of the dispenser 03 ,
  • This includes the respective control panel 243 ; 244 , z. B. Control panel 243 ; 244 on the one hand, first switching elements 228 ; 229 , by the actuation of which a value of a variable to be set can be incorporated and / or changed. These can be keys of a keypad for entering the value or - such. As shown here - plus and minus buttons to gradually increase or decrease the current value. In addition, the panels include 243 ; 244 in each case at least one switching element 246 ; 247 , by its operation for the control panel 243 ; 244 associated dispensing station I; II a signal connection between the first switching elements 228 ; 229 with the drive of a device 48 ; 49 the relevant dispensing station I; II can be produced or activated. In the case of several, functionally different to be set facilities 48 ; 49 ; 139 at one or all of the dispensing station I; II, includes the associated control panel 243 ; 244 one or in particular a plurality of such switching elements 246 ; 247 , by their actuation for the associated dispensing station I; II a signal connection between the first, the value of the variable to be set switching elements dispensing station I; II or the drive of a second device 139 manufacture or 228 ; 229 optionally with the drive of a first device 48 ; 49 the assigned is activatable.
  • The switching elements concerning the value of the respective manipulated variable 228 ; 229 are here thus by appropriate activation on each associated control panel 243 ; 244 by appropriate activation in signal-technical connection with drives og different quality-relevant facilities 139 ; 48 the first and second dispensing station I; II can be moved. To activate are switching elements 246 ; 247 provided, by their operation, the institution to be provided 139 ; 48 ; 49 is selectable.
  • To a clearly identifiable assignment of the panels 243 ; 244 to the dispensing station I; II, the control panels can 243 ; 244 in each case an identification relating to the assignment 251 ; 252 exhibit. This can basically downstream position in the series of the proposed dispensing station I; II executed to be executed arbitrarily, but here, for example, numerically by specifying the (see, eg. 40 ).
  • The two each have a display 239 comprehensive control panels 243 ; 244 form a - in particular frontal - operating interface 253 Off or are next to possibly in the immediate vicinity existing further actuating means of such a user interface 253 includes.
  • Such as In 41 illustrated by way of example, in a different display mode of the control panels from the above setting mode 243 ; 244 in each case schematic representations or preferably even the actual geometric relationships for the essential functional units of the two delivery stations I; II be displayed or be.
  • Basically, regardless of the specific design above control and adjustment of the delivery device 03 , but preferably in connection with the above-mentioned arrangement downstream of the second delivery station I; II or in particular the front side to the delivery device 03 wherein the dispensing stations I; II each at least one z. B. above-mentioned device 48 ; 49 ; 103 ; 139 assigned to the dispensing stations I; II at least one institution ( 48 ; 49 ; 103 ; 139 ) associated with respect to an adjustment or correction of sheet guiding and / or storage by drive means 63 ; 106 ; 147 ; 202 comprehensive drives are adjustable, is at least one user interface 232 ; 253 with at least one first actuating means 196 '; 197 '; 198 '; 199 '; 211 '; 212 '; 213 '; 214 '; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 provided by its operation via a first signal connection 257 ; 261 a drive means 63 ; 106 ; 147 ; 202 an institution to be provided 49 ; 103 ; 139 the second delivery station II; I and a second institution concerned 49 ; 103 ; 139 ) of the second delivery station II; I corresponding signal connection 258 ; 262 a drive means 63 ; 106 ; 147 ; 202 a functional of the device 48 ; 103 ; 139 the first delivery station I; II adjustable or adjustable, in particular mitgestellt or can be set.
  • When setting the at least one first dispensing station I; II and one of the first delivery station I; II in the transport path downstream downstream second discharge station II; I comprehensive display device 03 for the delivery of printing material B is to adapt or correct the bowing and / or -ablage in the second delivery station II; I at least one with regard to an adjustment or correction of the bowing and / or -ablage adjustable in the second dispensing station II facilities 48 ; 49 ; 103 ; 139 and due to and / or with the placement or setting of this facility 49 ; 139 the second dispensing station II also a setting or setting a functional of the device concerned 49 ; 103 ; 139 the second delivery station II corresponding device 48 ; 103 ; 139 the first delivery station I; II takes place.
  • When setting and / or setting a second delivery station II attributable device 48 ; 103 ; 139 a correlated setting and / or setting of the corresponding device takes place 49 ; 103 ; 139 the first delivery station II.
  • As a result, settings in the first dispensing station I; II, which is less visible than the second or last of the dispensing stations I; II, hit simultaneously with the second.
  • The pairwise affected device 48 ; 49 ; 103 ; 139 may in principle be different and / or geometrically arranged, wherein the location of the entrained size then the specific design is taken into account. Preference is given to the device to be put together 48 ; 49 ; 103 ; 139 , at least as regards the mechanism of the setting variable X 91 ; v from; ; X 139 ; Y 201 , executed in the same way. As a result, no complex relationships are to be taken into account when setting but, if desired, at most an absolute and / or an offset proportional to the height of the manipulated variable.
  • In an advantageous development, one or more of the adjustable devices is set when setting 48 ; 49 ; 103 ; 139 the rear and second delivery station I; II setting or setting the corresponding device 48 ; 49 ; 103 ; 139 the first delivery station I; II using deposited rules and / or functions, which here z. B. generally as deposited context 256 is designated. This connection 254 is for example in circuit and / or data processing means 254 deposited and can be used as a tabular or functional rule 256 be executed.
  • The relationship 256 or the rule 256 In particular, it is set up and programmed to provide a measure of the setting or setting of the device assigned to the first dispensing station I. 48 ; 103 ; 139 based on the stored context 256 from the one in the facility 49 ; 103 ; 139 to determine the second delivery station II to be set level and the drive of the first discharge station I; Institution concerned 48 ; 49 ; 103 ; 139 ie directly to the drive means 63 ; 106 ; 147 ; 202 or the control means S63 associated therewith; S106; S147; S202 (see eg 42 ).
  • Such modification of the value over a relationship other than a 1: 1 application 256 - z. B. on an absolute and / or proportional to the height of the control offset - is preferably when setting or setting formatrelevanter, ie adapted to the respective format devices 103 ; 48 ; 49 , z. B. in the lateral positions of the side stop device 103 and in setting the at least one braking device 91 in the direction of transport T. It is of particular advantage when the bodies of the institution concerned 103 ; 48 ; the first delivery station I; II is done so that the setting there is an oversize in the format compared to that setting at the first dispensing station I; II for the actual format effected. Although this may suffer from the stack quality, it reduces the risk of a disruption during storage.
  • In contrast, for predominantly transport-relevant, ie the movement of the bow B relevant institutions 48 ; 49 ; 139 , z. B. for setting the storage speed v from the brake device 48M ; 49 and / or placing the release location on the release device 139 - at least as far as the job results are concerned - in a one-to-one relationship. This can be the context 256 mimic the 1: 1 relationship directly or consider any necessary correction due to different conditions in the design.
  • It is particularly advantageous to use this procedure, which comprises a modification, when the second or rear delivery stations II; I supplied delivery stations I; II only serves to store waste paper. In this case, for example, less stringent requirements are imposed on the stack quality and the location of the single-sheet determining devices 48 ; 103 can be adjusted in a more generous way. One opposite to the actual and / or the second delivery station I; II set format larger format set for the first dispensing station I; II reduces the risk of stoppers, the bow falls with greater certainty without hanging on the pile 11 ,
  • By actuating a first actuating means 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 218 '; 219 '; 221 '; 222 '; 196 '; 197 '; 198 '; 199 ' is or will, for example, an above storage speed v from a braking device 48 ; 49 trained facility 48 ; 49 and / or an above-mentioned release location of a release device 139 trained facility 139 and / or a lateral og position of a stop means 202 one as a side stop device 103 trained facility 103 and / or an abovementioned position of a braking device 91 one as a braking device 48 ; 49 trained facility 48 ; 49 both the second and at the same time the first dispensing station I; II changed or changeable.
  • In an advantageous embodiment, at least one of the at least one first actuating means 196 '; 197 '; 198 '; 199 '; 211 '; 212 '; 213 '; 214 '; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 different second actuating means 196 '; 197 '; 198 '; 199 '; 211 '; 212 '; 213 '; 214 '; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 provided by the actuation of a drive means 63 ; 106 ; 147 ; 202 an institution to be provided 48 ; 139 the first delivery station I; II - in particular, bypassing an application of the context 256 Via a third signal connection different from the second signal connection 259 ; 263 adjustable or adjustable.
  • The purpose of this is also on delivery facilities 03 with more than two delivery stations I; II apply with the proviso that the second delivery station II z. B. a last dispensing station II forms, and the first dispensing station I is one of the last dispensing station II upstream dispensing station I represents.
  • In conjunction with the above-mentioned first and second delivery stations I; II may be the first and second dispensing station I; II the actually numerically first and second delivery station I; II, or mutatis mutandis, a former and a downstream provided second of a plurality of subordinate discharge stations I; II. The second mentioned may then simultaneously the downstream last discharge station I; Be II.
  • Basically independent of, but preferably in conjunction with one or more particularly advantageous embodiment of a two dispensing stations I; II comprising the execution of the aforementioned control features is in a dispenser 03 in the area of the first storage station I; II at least one camera 264.i provided (with i ε N), which in the stacking space 44 in the first storage station I; II stack to be formed 11 ; 168 is directive or directed. This is preferably in signal connection 269.i to an above - in particular also arranged on the front side - display device 266 , z. Eg monitor 266 , in particular TFT monitor (see, for example, inter alia 4 and 33 ). The camera 264.i can here at least as periodically snapshots and receiving as still images camera 264.i , but prefers moving pictures 267.i delivering camera 264.i be executed.
  • In an advantageous embodiment, at least one camera 264.i positioned such that its field of view on the region of at least one stack edge of a stack to be formed in the storage station I. 11 ; 168 is directed. Preferably, several, z. B. at least two cameras 264.i intended. For example, a camera 264.1 provided, with its field of vision on the area of the sheet brake 48 and / or the area of an upper trailing edge or stack leading edge of a stack to be formed is directed and / or a camera 264.2 ; 264.3 , which with its field of view, inter alia, on the area of a lateral stop for the bow B on a lateral stop means 201 is directed and / or a camera 264.4 which is aligned with its field of view at the level of the upper leading edge or stack leading edge of a stack to be formed along the transversely extending leading edge (see, eg, FIG. 43 ). Preferably, two, each one of the two-sided stops on the lateral stop means 201 capturing cameras 264.2 ; 264.3 intended.
  • In the case of several cameras 264.i these are preferably in signal connection via control means S266 269.i with the display device 266 in that several, e.g. B. all or a subset, by the cameras 264.i submitted pictures 267.i can be displayed. The control means S266 can in the control of the display device 266 integrated or specially provided and with that of the display device 266 be connected.
  • In a preferred embodiment, the control means S266 may be set up and / or programmed in response to input commands σ 266 , e.g. As signals σ 266 , on the display device 266 optionally in a first mode at the same time the images 267.i several, preferably all of the storage in the first delivery station I monitoring cameras 264.i (see eg 34a ), or in a second mode of operation the image 267.i only a selected camera 264.i (see eg 34a ).
  • The switching of the monitor 266 in his mode of operation and / or the choice of the picture to be displayed alone 267.i causing signals σ 266 can be achieved by actuating one or more actuating means 268.i , z. B. buttons 268.i , Which of a above-mentioned operating interface 232 or possibly a dedicated user interface may be included (see eg 35 and 35 ). For example, depending on the camera 264.i a button 268.i be provided by its one-time operation the enlarged picture 268.i the assigned camera 264.i on the monitor 266 is displayed or can be. Press this button again 268.i is z. B. switched back to the multiple view, when pressing another button 268.i on the enlarged picture of this button 268.i assigned camera 264.i ,
  • Of particular advantage is the arrangement of the at least one camera 264.i signal-connected monitors 266 in conjunction with the above-mentioned second or at least several or all of the above-mentioned actuating means 196 '; 197 '; 198 '; 199 '; last discharge station I downstream, in particular frontal arrangement 211 '; 212 '; 213 '; 214 '; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 for setting or setting a storage speed v from the braking device 48 ; 49 and / or a release location of a release device 139 and / or a lateral position of a stop means 202 and / or a layer of a braking device 91 both the second and the last as well as the first and an upstream dispensing station I; II or in connection with the second or last dispensing station I downstream, in particular end-side arrangement of one or more of the respective actuating means 196 '; 197 '; 198 '; 199 '; 211 '; 212 '; 213 '; 214 '; 216 ; 217 ; 218 ; 219 ; 221 ; 222 ; 223 ; 224 ; 226 ; 227 228 ; 229 ; 231 ; 233 ; 234 ; 236 ; 237 ; 238 ; 241 ; 242 comprehensive user interfaces 232 ; 243 ,
  • Together with the monitor 266 forms the at least one user interface 232 ; 243 a particular front-side operating and control point, where the operator both a way to observe the filing at the first dispensing station I by camera 264.i and at the second delivery station I; II by direct inspection, as well as the ability to place or set to be provided 48 ; 49 ; 193 ; 139 the first and second delivery stations I; II.
  • In a particularly preferred embodiment is adjacent to the control and inspection body with at least one - even on facilities 48 ; 49 ; 103 ; 139 the first delivery station I acting - control interface 232 ; 243 and the display device 266 , which display a camera image 267.i from the at least one dispensing station I in signal connection 269.i with at least one in the stacking room 44 the first storage station I directed camera 264.i stands, a helm 271 , especially as a control room 271 designated, assigned, at which by the operating personnel - for example, inter alia - the quality of processing on the at least one of the delivery device 03 upstream processing level 04 ; 06 influencing variables are adjustable and / or adjustable. For example, the helm is 271 executed in such a way and signal technically connected to corresponding actuators that at this at least one place an inking amount and / or a color profile in inking 24 of the or the printing units 04 ; 06 and / or at least one location of a longitudinal and / or transverse register is feasible.
  • The steering position 271 is advantageously in the longitudinal direction of the dispenser 03 looks behind the side entrance into the stacking room 46 the second delivery station II; I, in particular at a location front side of the delivery device 03 intended.
  • The steering position 271 preferably comprises a patterning tray 272 on which sample sheets taken for sampling are to be deposited and inspected by the operating personnel and / or by a measuring device.
  • The in the respective dispensing station I; II formed by the respective substrate sheet B and medium or directly on the support device 36 ; 37 formed stack 11 ; 12 is - for example, after completion or in other ways initiated - removed and z. B. a further processing or a warehouse fed.
  • Basically already alone for the execution as a multi-stack delivery device 03 but especially advantageous in connection with both or several dispensing stations I; II provided non-stop stack change devices 52 ; 53 (see above) and / or the downstream of the last dispensing station I; II provided, in particular frontal arrangement of one or more of the above-mentioned control interfaces 232 ; 243 and / or the above-mentioned downstream of the last discharge station I; II provided, in particular frontal arrangement of a control station 271 is an embodiment of the dispenser 03 or the dispenser 03 comprehensive machine 01 of particular advantage, wherein a removal from a respective output from the stack spaces 44 ; 46 the one or more dispensing stations I; II and / or a transport of empty transport aids 61 ; 62 to the respective entrance into the stacking rooms 44 ; 46 the or more dispensing stations I; II through automatically operated and / or operable conveyor lines 273 ; 274 ; 276 ; 277 one of an automatic or at least partially automated logistics system covered route network 281 carried out (see, for example, 44 ).
  • Preference is given to the output-side conveyor lines 273 ; 274 the multiple-stack delivery device 03 with a same conveyor line 278 as z. B. removal route 278 in transport connection and / or the output side conveyor lines 276 ; 277 the multiple-stack delivery device 03 with a same conveyor line 279 as z. B. supply route 279 , The removal route 278 For example, leads from the relevant multiple stack delivery device 03 away to z. B. on the one hand a collection and / or collection station of waste paper and on the other hand to an intermediate storage, disposal or further processing of the credit.
  • The output side and / or input side conveyor lines 273 ; 274 ; 276 ; 278 are, for example, as motor-driven and / or operable roller conveyors 273 ; 274 ; 276 ; 278 executed. The exit-side removal route 278 can also be used as a roller conveyor 278 executed, but is preferably carried out by a transport carriage comprehensive conveyor system.
  • The input side feed line 279 can basically also as a roller conveyor 279 or preferably designed as a rail-bound conveyor, which individual transport aids 61 ; 62 from a transportation tool template 282 , z. B. a pallet storage 182 , to the respective input side conveyor line 276 ; 277 promotes.
  • In a preferred embodiment, therefore, several dispensing stations I; II of the multi-stack delivery device 03 at least on the output side, but advantageously also on the input side in a route network 281 a logistics system which is operated automatically or at least semi-automatically and / or operated. In this case, a semi-automatic operation can be, for example, that a transport order selected by operating personnel with respect. A target and triggered, but the transport process itself is independently organized and adopted by a controller. In automatic operation, the entire planning and implementation can be undertaken by a controller, for safety reasons, if necessary triggering the Transportation process may be required by a confirmation by operating personnel.
  • LIST OF REFERENCE NUMBERS
  • 01
     Machine, printing machine
    02
     Feeding device, sheet feeder
    03
     Dispensing device, delivery device, multiple-stack delivery device, double-stack delivery device
    04
     Processing level, printing unit
    05
    06
     Processing stage, printing unit, varnish printing unit, flexographic printing unit
    07
     Processing stage, drying device, radiation dryer
    08
     Pile, bow pile
    09
     Transport route, delivery extension
    10
    11
     Stack, product stack
    12
     Stack, product stack
    13
     Pallet, stacking plate
    14
     conveyor line
    15
    16
     Plant, bow plant
    17
     Conveyor, feed drum, transfer drum
    18
     Conveyor, transfer cylinder
    19
     Conveyor, transfer drum
    20
    21
     Conveyor system, sheet conveying system, traction conveyor system
    22
     Printing cylinder, forme cylinder, plate cylinder
    23
     Printing cylinder, transfer cylinder, rubber cylinder
    24
     Application system, inking unit
    25
    26
     dampening
    27
     Printing cylinder, paint cylinder
    28
     Application system, chambered doctor blade system
    29
     Printing cylinder, impression cylinder
    30
    31
     Traction means, chain
    32
     Holding device, gripper carriage
    33
     Drive and / or guide wheel, sprocket
    34
     Drive and / or guide wheel, sprocket
    35
    36
     Device, carrying device, stacking table, stacking plate
    37
     Device, carrying device, stacking table, stacking plate
    38
     guide rail
    39
     guide rail
    40
    41
     Conveyor section, first
    42
     Conveyor section, second
    43
     Pickup
    44
     stacking space
    45
    46
     stacking space
    47
     sheet guide
    47.i
     Sheet guiding element, sheet guide plate (i = 1, 2, 3, 4, 5, 6, 7 or 8)
    48
     Device, bow-braking, deceleration device, braking device
    49
     Device, bow-braking, deceleration device, braking device
    50
    51
     Device, stacking support, blowing devices
    52
     Device, stacking support, blowing devices
    53
     Device, non-stop stack change device
    54
     Device, non-stop stack change device
    55
    56
     Holding element, gripper, leading edge clamping gripper
    57
     Gripper pads
    58
     gripper fingers
    59
     Shaft, gripper shaft, transmission link
    60
    61
     Cargo aids, pallet
    62
     Cargo aids, pallet
    63
     drive means
    64
    65
    66
     Operator interface, control panel
    67
     Operator interface, control panel
    68
     Air passage opening, blown air opening, nozzle, Venturi nozzle
    69
     Air passage opening, suction air opening
    70
    71.j
     Air box (j = 1, 2, 3, 4, 5, 6, 7 or 8)
    72
     Air conveyors, fans, blowers
    73
     guide
    74
     Applicator, powdering device
    75
    76
     suction
    77
     outlet
    78
     start section
    79
     guide surface
    80
    81
     approach surface
    82
     Slings (in transport direction)
    83
     Slings (in transport direction)
    84
     Edge, material section, sheet metal section
    85
    86
     slings
    87
     Sheet removal device
    88
     Detour element, sample sheet finger
    89
     wave
    90
    91
     Braking device, braking station, suction station
    92
     Holding means, suction element, suction belt
    93
     bracket
    94
     Device, cross-tension device
    95
    96
     Querzugvorrichtungen, Saugrad
    97
     Blasluftöffnung
    98
     Blown air line, blower pipe
    99
     Drive means, cylinder-piston system, pneumatic cylinder
    100
    101
     Switching means, switching valve, valve
    102
     recess
    103
     Stop device (side), side stop device
    104
     Drive means, cylinder-piston system
    105
    106
     Drive, engine
    107
     Switching means, valve
    108
     suction box
    109
     End, leading, leading edge
    110
    111
     End, trailing, trailing edge
    112
     Effective area, top
    113q
     Blowing device, group of blown air openings, blowpipe
    114r
     Blown air opening, blowing air nozzle
    115
    116
     Switching means, switching valve
    117
     Wire, traverse
    118
     Longitudinal line, longitudinal distributor, carrier
    119
     Source, compressed air source
    120
    121
     inlet
    122
     junction
    123
     Adjusting means, pressure reducer
    124
     Actuator, pressure control valve
    125
    126
     Blowing device, blowpipe, longitudinal blowpipe
    127
     Blown air opening, blowing air nozzle
    128
     Adjusting means, pressure reducer
    129
     Actuator, pressure control valve
    130
    131
     fan system
    132
     Fan, axial fan
    133
     fan cartridge
    134
     Fan, axial fan
    135
    136
     supporting frame
    137
     fan bar
    138
     Switching means, switching valve
    139
     Device, release device
    140
    141
     Switching means, switching cam, release cam, opening curve
    142
     Cam follower, lever arm, roller lever
    143
     setting device
    144
     setting device
    145
    146
     Drive means, hydraulic and pneumatic cylinders
    147
     Drive means, electric motor
    148
    149
     effective area
    150
    151
     contact point
    152
    Trajectory ( 142 )
    153
     Valve
    154
     fluid line
    155
    156
     fluid line
    157
     Shaft, synchronous shaft
    158
     Lever, eccentric lever
    159
     axis
    160
    161
     transmission member
    162
     Axle or stub shaft
    163
     lever
    164
     lever
    165
    166
     Auxiliary support device, auxiliary stacking table, roller blind
    167
     Auxiliary support device, auxiliary stacking table, roller blind
    168
     waste pile
    169
     waste pile
    170
    171
     Drive means, drive motor
    172
     Drive means, drive motor
    173
     Guide section (guide construction)
    174
     Guide section (guide construction)
    175
    176
     Drive wheel, sprocket
    177
     Drive track, drive chain
    178
     Link, roller, tube, rod
    179
     Senktischanordnung
    180
    181
     Traction means, chain
    182
     Traction means, chain
    183
     Deflection element, deflection wheel, deflection roller
    184
     Deflection element, deflection wheel, deflection roller
    185
    186
     Drive wheel, sprocket
    187
     Drive wheel, sprocket
    188
     transmission
    189
     wave
    190
    191
     Traction means, chain
    192
     Traction means, chain
    193
     Deflection element, deflection wheel, deflection roller
    194
     Drive means, drive motor
    195
    196
    Actuating means, switching element, button ( 48 ; 49 ) 'Actuating means, switching element, button ( 48 ; 49 )
    197
    Actuating means, switching element, button ( 48 ; 49 ) 'Actuating means, switching element, button ( 48 ; 49 )
    198
    Actuating means, switching element, button ( 48 ; 49 ) 'Actuating means, switching element, button ( 48 ; 49 )
    199
    Actuating means, switching element, button ( 48 ; 49 ) 'Actuating means, switching element, button ( 48 ; 49 )
    200
    201
     slings
    202
     drive means
    203
     screw
    204
     screw
    205
    206
     bracket
    207
     alignment
    208
     drive means
    209
     stop surface
    210
    211
    Actuating means, switching element, button ( 51 ; 52 )
    212
    Actuating means, switching element, button ( 51 ; 52 )
    213
    Actuating means, switching element, button ( 51 ; 52 )
    214
    Actuating means, switching element, button ( 51 ; 52 )
    215
    216
    Actuating means, switching element, button ( 51 ; 52 )
    217
    Actuating means, switching element, button ( 51 ; 52 )
    218
     Actuating means, switching element, button 'Actuating means, switching element, button
    219
     Actuating means, switching element, button 'Actuating means, switching element, button
    220
    221
     Actuating means, switching element, button 'Actuating means, switching element, button
    222
     Actuating means, switching element, button 'Actuating means, switching element, button
    223
     Actuating means, switching element, button
    224
     Actuating means, switching element, button
    225
    226
     Actuating means, switching element, button
    227
     Actuating means, switching element, button
    228
     Actuating means, switching element, button
    229
     Actuating means, switching element, button
    230
    231
     Actuating means, switching element, button, field
    232
     User interface; Control panel
    233
     Actuating means, switching element, button, field
    234
     Actuating means, switching element, button, field
    235
    236
     Actuating means, switching element, button, field
    237
     Actuating means, switching element, button
    238
     Actuating means, switching element, button
    239
     Display, display
    240
    241
     Actuating means, switching element, button, field
    242
     Actuating means, switching element, button, field
    243
     Control panel, control panel
    244
     Control panel, control panel
    245
    246
     Actuating means, switching element, button
    247
     Actuating means, switching element, button
    248
     Area (display or display area)
    249
     Area (display or display area)
    250
    251
     Labelling
    252
     Labelling
    253
     User interface; Control panel
    254
     in circuit and / or data processing means
    255
    256
     Context, regulation
    257
     signal connection
    258
     signal connection
    259
     signal connection
    260
    261
     signal connection
    262
     signal connection
    263
     signal connection
    264.i
     Camera (with i ε N)
    265
    266
     Display, monitor, TFT monitor (with i ε N)
    267.i
    Picture, camera image of the camera ( 264.i ) (with i ε N)
    268.i
     Button (with i ε N)
    269.i
     Signal connection (with i ε N)
    270
    271
     Helm, control room
    272
     sampling storage
    273
     conveyor line
    274
     conveyor line
    275
    276
     conveyor line
    277
     conveyor line
    278
     Conveyor line, discharge line
    279
     Conveyor line, feed line
    280
    281
     route network
    282
     Transportation tool template, pallet storage
    I
    Dispensing station, display, stack display, first
    II
    Dispensing station, display, stack display, second
    A78
    Pivot axis ( 78 )
    A141
     swivel axis
    A143
     swivel axis
    A144
     swivel axis
    A149
     swivel axis
    B
     Substrate, substrate sheet, sheet
    B i
     Substrate, substrate sheet, sheet, individualized (i ε N)
    e
     lever length
    F
     Pressure medium, fluid
    G
    Frame, frame part ( 03 )
    I (Φ)
     Information concerning machine and / or printing stock phasing
    L F
     Bow length, format length,
    L F '
     Bow length, format length, others
    P
     print
    P -
     vacuum
    P143
     attackpoint
    P144
     attackpoint
    P 1 (48)
     Position, first
    P 2 (48)
     Position, second, support position
    P S (48)
     support position
    P 1 (47.4)
     Position, first
    P 2 (47.4)
     Position, second, support position
    P S (47.4)
     support position
    s
     Bogenweg
    s1
     Escape (stack trailing edge)
    s2
     Escape (stack leading edge)
    S48
     control means
    S49
     control means
    S53
     control device
    S54
     control device
    S63
     control means
    S78
     control means
    S83
     control means
    S84
     control means
    S86
     control means
    S103
     control means
    S106
     control means
    S107
     control means
    S116
     control means
    S141
     control device
    S146
     control means
    S147
     control means
    S171
     control means
    S172
     control means
    S202
     control means
    S208
     control means
    S268
     control means
    T
     Sheet transport direction, transport direction
    v
     speed
    v a
     Speed, first
    v from
     Filing speed, setting size
    v32
     conveyor speed
    v92
     Speed, holding means speed
    W B
     Setpoint, parameter set (braking device)
    X 91
     Position in transport direction, adjustable size
    Y 201
     Position, lateral, adjustable size
    X 139
     Gripper opening point, setting size
    Φ
     Machine and / or printing material phase position
    σ FL
     Positioning command, signal (format length)
    σ OP
     Positioning command, signal (opening time)
    σ SA
     Position command, signal (side stop)
    σ w
     Positioning command, signal (stack change)
    σv from
     Positioning command, signal (filing speed)
    σ147
     Positioning command, signal (activation / deactivation)
    σ 266
     Position command, signal
    Σ AW
     Positioning command, signal (automatic change)
  • QUOTES INCLUDE IN THE DESCRIPTION
  • This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.
  • Cited patent literature
    • JP 2517276 B2 [0003]
    • DE 102008006528 A1 [0004]
    • DE 10329833 A1 [0005, 0010]
    • DE 102012206929 A1 [0007]
    • DE 102009027633 A1 [0008]
    • EP 1958906 A2 [0009]
    • DE 102008020533 A1 [0011]
    • DE 69307840 T2 [0012]
    • DE 10354673 A1 [0013]
  • Cited non-patent literature
    • "Handbuch der Printmedien" by Helmut Kipphan, Springer Verlag, 2000, is described in 8.1-11 (Chapter 8.1) [0002]
    • http://www.kba.com/bogenoffset/bogenoffsetmaschinen/product/rapida-106/detail/ reachable prospectus for "Rapida 106" is on pages 26 and 27 [0006]

Claims (11)

  1. Display device ( 03 ), which in the transport path of by a conveyor system ( 21 ) conveyed sheet (B) in the transport direction (T) last discharge station (II) and at least one of the last discharge station (II) upstream in the transport path, upstream discharge station (I), characterized in that the upstream discharge station (I) in the transport path a Braking device ( 48 ) and / or a wirerbare-variable sheet guiding element ( 47.4 ) and that the braking device ( 48 ) itself or at least one effective area which comes into operative contact with the printing material sheet (B) ( 112 ) of the braking device ( 48 ) and / or a downstream end of the wirerbare-variable sheet guide element ( 47.4 ) of the upstream discharge station (I) for depositing sheets (B) of a first format length (L B ) in a first position (P 1 (48); P 1 (47.4)) viewed in the transport direction (T) and for depositing sheets (B) ( B ') at least a second format length (L B' ) which is smaller than the first format length (L B ) in a second position (P 2 (48); P 2 (47.4); P S ) considered downstream in the transport direction (T) (48); P S (47.4)) is displaceable.
  2. Delivery device according to claim 1, characterized in that for the displacement of the braking device ( 48 ) or at least their effective area ( 112 ) Sheet guiding element ( 47.4 ) of the upstream dispensing station (I), a drive means and / or at least the downstream end of the wirerbare-variable ( 63 ) is provided.
  3. Delivery device according to claim 2, characterized in that the braking device ( 48 ) or at least their effective area ( 112 ) and / or at least the downstream end of the wirerbare-variable sheet guide element ( 47.4 ) shifting drive means ( 63 ) is in signal communication with a control means (S63), which the braking device ( 48 ) or its effective area ( 112 ) and / or at least the downstream end of the wirerbare-variable sheet guide element ( 47.4 ) of the upstream delivery station (I) in dependence on the mode of operation of the delivery device ( 03 ) is selectively positioned in a first mode of operation as a function of a current format length (L B , L B ' ) to be filed, and for operation in a second mode of operation at a fixedly defined support position (P 2 (48); P 2 (47.4); P S (48); P S (47.4)) which is located at a location downstream of the position (P 1 (48); P 1 (47.4)) which is currently in place in the delivery device ( 03 ) to be interpreted format length (L B ) in the first mode of operation would be provided.
  4. Delivery device according to claim 1, 2 or 3, characterized in that the holding means ( 92 ) of the braking device ( 48 ) an effective surface ( 112 ), which can be brought into contact with an incoming sheet (B) by activation in positive or frictional operative contact, and in that the effective area to be transferred to the printing material sheet (B) in positive or frictional operative contact (US Pat. 112 ) is to be stored in at least one delivery station (I), by a drive ( 106 ) with operating mode in which an incoming sheet (B) is movable in the associated variable holding means speed (v92) in the transporting direction (T).
  5. Method for operating a delivery device ( 03 ), in particular a delivery device ( 03 ) according to one of claims 1 to 4, in the transport path of by a conveyor system ( 21 ) conveyed sheet (B) in the transport direction (T) last discharge station (II) and at least one of the last discharge station (II) in the transport path upstream, front discharge station (I), wherein the upstream discharge station (I) in the transport path a braking device ( 48 ) and / or a wirerbare-variable sheet guiding element ( 47.4 ), wherein the braking device ( 48 ) itself or at least one effective area which comes into operative contact with the printing material sheet (B) ( 112 ) of the braking device ( 48 ) and / or a downstream end of the wirerbare-variable sheet guide element ( 47.4 ) of the front delivery station (I) in at least one mode of operation of the delivery device ( 03 ) as a function of a current format length (L B , L B ' ) to be filed along the transport direction (T) in different positions (P 1 (48); P 1 (47.4); P 2 (48); P 2 (47.4 )) is positioned.
  6. Method according to Claim 5, characterized in that the braking device ( 48 ) itself or at least one effective area which comes into operative contact with the printing material sheet (B) ( 112 ) of the braking device ( 48 ) and / or a downstream end of the wirerbare-variable sheet guide element ( 47.4 ) of the front delivery station (I) for operation of the delivery device ( 03 ) in another mode of operation to a fixedly defined support position (P 2 (48); P 2 (47.4); P S (48); P S (47.4)) which is located at a location downstream of the position (P 1 ( 48); P 1 (47.4)) which is currently in the display device (L B ) in the delivery device ( 03 ) to be interpreted sheet (B) would be provided in the first mode.
  7. Method for operating a delivery device ( 03 ), in particular a delivery device ( 03 ) according to one of claims 1 to 4, in the transport path of by a conveyor system ( 21 ) conveyed sheet (B) in the transport direction (T) last discharge station (II) and at least one of the last discharge station (II) in the transport path upstream, front discharge station (I), wherein the upstream discharge station (I) in the transport path a braking device ( 48 ) and / or a wirerbare variable edge sheet guiding element ( 47.4 ), characterized in that the braking device ( 48 ) itself or at least one effective area which comes into operative contact with the printing material sheet (B) ( 112 ) of the braking device ( 48 ) and / or a downstream end of the wirerbare-variable sheet guide element ( 47.4 ) of the front delivery station (I) for operation of the delivery device ( 03 ) in a mode of operation in which the front discharge station (I) is deactivated in view of the possibility of depositing sheets (B) to a support position (P 2 (48); P 2 (47.4); P S (48); P S (47.4)) located at a location downstream of the position (P 1 (48); P 1 (47.4)) which the braking device ( 48 ) or its effective area ( 112 ) or the downstream end of the wirerbare-variable sheet guide element ( 47.4 ) for Bthe format length (L B ) currently in the delivery device ( 03 ) to be interpreted ogen (B) in a mode of operation with activated dispensing station (I) occupies.
  8. Method according to claim 6 or 7, characterized in that the effective area ((2)) which is in the support position (P 2 (48); P 2 (47.4); P S (48); P S (47.4)) when the dispensing station (I) is deactivated ( 112 ) for at least the duration of an existing positive or frictional operative contact between the conveyed sheet (B) and the effective surface ( 112 ) is moved at a speed (v92) in the transport direction (T), which is approximately, ie with a maximum deviation of ± 10%, the actual conveying speed (v32) of the conveyor system ( 21 ) corresponds.
  9. Method according to claim 5, 6 or 7, characterized in that, when the dispensing station (I) is activated, the effective area ( 112 ) for at least part of the duration of an existing positive or frictional operative contact between the conveyed sheet (B) and the effective surface ( 112 ) is moved in an operating mode for depositing a sheet (B) at a speed (v92) in the transport direction (T), which is lower than the current conveying speed (v32) of the conveyor system ( 21 ) and / or at least 50% of the conveying speed (v32) in at least part of the duration of the active contact.
  10. Method according to claim 6, 7, 8 or 9, characterized in that the braking device ( 48 ) or their effective area ( 112 ) and / or a front discharge station (I) for operation with deactivated discharge station (I) downstream end of the wirerbare-variable sheet guide element ( 47.4 ) which is displaced to a fixedly defined support position (P 2 (48); P 2 (47.4); P S (48); P S (47.4)) corresponding to the position (P 2 (48); P 2 (47.4) ) corresponds to a smallest format length (L B ) of sheet (B) to be deposited in the first operating mode and / or which is given by the downstream limitation of the possible movement path.
  11. A method according to claim 6, 7, 8, 9 or 10, characterized in that for the mode of operation with deactivated dispensing station (I) deactivating the relevant dispensing station (I) takes place during the machine configuration for the pending order.
DE102015218146.4A 2015-09-22 2015-09-22 Delivery device and method for operating a delivery device Pending DE102015218146A1 (en)

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Publication Number Publication Date
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Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2517276B2 (en) 1987-05-15 1996-07-24 株式会社小森コーポレーション Sheet ejection device for sheet-fed rotary printing press
DE69307840T2 (en) 1992-11-26 1997-07-24 Komori Printing Mach Delivery for sheet printing machine
DE19631598A1 (en) * 1996-08-05 1998-02-12 Roland Man Druckmasch Pneumatic sheet guiding device in a printing press
DE19819490C1 (en) * 1998-04-30 1999-10-28 Roland Man Druckmasch Delivery for rotary sheet printing press
DE10329833A1 (en) 2003-07-02 2005-02-17 Koenig & Bauer Ag Delivery device of a sheet-processing machine
DE10354673A1 (en) 2003-11-22 2005-06-16 Koenig & Bauer Ag Sheet separator for use in rotary printers has gripper units with rollers at their upper ends which move over separate control cams
EP1958906A2 (en) 2007-02-14 2008-08-20 Komori Corporation Sheet delivery/guide apparatus
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