DE102005036786B3 - Device for driving of machine which processes sheet material has individual drive which has a rotor detachably installed on cylinder carrying printing block, and stator detachably fixed on side frame and concentric to rotor - Google Patents

Device for driving of machine which processes sheet material has individual drive which has a rotor detachably installed on cylinder carrying printing block, and stator detachably fixed on side frame and concentric to rotor

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Publication number
DE102005036786B3
DE102005036786B3 DE200510036786 DE102005036786A DE102005036786B3 DE 102005036786 B3 DE102005036786 B3 DE 102005036786B3 DE 200510036786 DE200510036786 DE 200510036786 DE 102005036786 A DE102005036786 A DE 102005036786A DE 102005036786 B3 DE102005036786 B3 DE 102005036786B3
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DE
Germany
Prior art keywords
gear
clutch
cylinder
printing
drive
Prior art date
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Active
Application number
DE200510036786
Other languages
German (de)
Inventor
Helmut Schild
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.)
Manroland Sheetfed GmbH
Original Assignee
Manroland Druckmaschinen AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Manroland Druckmaschinen AG filed Critical Manroland Druckmaschinen AG
Priority to DE200510036786 priority Critical patent/DE102005036786B3/en
Application granted granted Critical
Publication of DE102005036786B3 publication Critical patent/DE102005036786B3/en
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F13/00Common details of rotary presses or machines
    • B41F13/008Mechanical features of drives, e.g. gears, clutches
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F13/00Common details of rotary presses or machines
    • B41F13/004Electric or hydraulic features of drives
    • B41F13/0045Electric driving devices

Abstract

The device for the driving of a machine which processes sheet material with at least one printing unit (1) and/or lacquering unit (2), has an individual drive which has a rotor detachably installed on the cylinder (10) carrying the printing block, and a stator detachably fixed on a side frame and concentric to the rotor. A coupling gearwheel, with a first gearwheel in a first plane and a second gearwheel in a second plane, is rotatably mounted on the cylinder. The coupling gearwheel meshes with a driving gearwheel fixed on a rubber blanket cylinder (8).

Description

  • The The invention relates to a device for driving a processing machine for sheet material with at least one printing and / or coating unit according to the preamble the independent one Claims.
  • Such a processing machine is according to EP 0 812 683 A1 with a controllable direct drive for a single driven cylinder known. From a provided at least for the transport of the sheet material by means of sheet guiding cylinders gear train of a sheetfed offset printing machine decoupled a plate cylinder or a blanket cylinder at least one printing unit by means of individual drive in a predeterminable manner directly. Due to the individual and independent of other cylinders directly driven plate cylinder plate pressure correction options and other operations such as plate replacement or cleaning of cylinders can be realized. The inking unit associated with the plate cylinder has at least one roller which can be driven by a direct motor drive. Alternatively, certain inking rollers are coupled on the drive side with the gear train for the sheet transport via the main drive.
  • Out DE 196 40 649 A1 is a drive for a sheet-fed printing machine, in which the individual cylinders and / or drums and arranged in the individual printing units plate / forme cylinder via a common gear train by means of the main drive and upstream machine control can be driven. The plate / forme cylinders are each assigned a remotely operable clutch and a controllable drive. The rollers of the inking / dampening units can be driven by the plate / forming cylinders which each have their own drive, and the individual drives and shift clutches are associated with a drive control associated with the main drive and the machine control. In the drive control programs for driving the plate / forme cylinder with dissolved clutches and the associated color / dampening rollers for pre-inking / pre-moistening are stored. In the machine control programs for driving the remaining cylinders / drums are stored on the main drive with gear train with disengaged clutches for washing at least one of the cylinder or a drum.
  • According to US 2,545,836 is a Farbwerks- and preferably a dampening unit drive for an offset printing machine known. The printing press has a main drive with a gear train, which includes the impression cylinder, the blanket cylinder and the plate cylinder. From the plate cylinder, the inking unit in a first mode of operation by means of the main drive and gear train is driven coupled driven. In a second mode of operation, the inking unit is driven by means of a self-propelled individual drive. On a shaft while standing with the plate cylinder gear engaged gear and a displaceable on the shaft pinion are arranged, which has at each end a first and a second clutch. The couplings can be operated under positive locking. In the first switching position, the pinion is coupled by means of the first clutch via the gear to the plate cylinder gear and thus to the main drive with gear train and the pinion is a drive in the inking unit. The second clutch is released. In the second switching position, the pinion is decoupled via the first clutch from the main drive and is coupled to the second clutch. The second clutch is connected to a further gear, which is in engagement with the pinion of the single drive.
  • Out DE 102 32 111 A1 For example, a printing machine is known which has a secondary drive motor coupled to the forme cylinder / plate cylinder. The auxiliary drive motor drives exclusively for imaging of the forme cylinder in a direction of rotation. Otherwise, in the printing operation of the forme cylinder is driven via the main drive and gear train and the auxiliary drive motor is stopped. For this purpose, a one-way overrunning clutch is arranged between the forme cylinder and the drive wheel of the transfer cylinder.
  • Of the Invention is the object of a device of the initially to create said type, which for at least one printing / coating unit novel drive concept of high flexibility.
  • Is solved the task by the training features of the respective claims 1 and 2. Further developments emerge from the dependent claims.
  • The invention has the following advantages:
    First, a compact drive solution for an individual motor driven by a single drive, a printing plate-bearing cylinder, in particular the plate cylinder in an offset printing unit or the forme cylinder in a paint or flexographic printing, and their periphery, in particular inking / dampening or dosing, realized. To reduce the number of gears in the drive is on the printing plate bearing cylinder only a two-piece clutch gear on the sen cylinder axis freely rotatably arranged in the printing / painting. The clutch gear consists of two gears, which are arranged in two wheel levels. Furthermore, this drive with a non-positively acting clutch system, especially a two-piece, individually switchable dual clutch executed, which is inexpensive and relatively wear-free.
  • Secondly can the cylinder carrying the printing form, in particular the plate cylinder or the form cylinder - related on its cylinder axis - radial be arranged movable and the drive together with clutch system (two-piece double clutch) follows this pivoting movement. For this is preferably one of the gears the clutch gear on the pin (alternatively the cylinder shoulder) and / or in the eccentric bearing of the printing plate-bearing cylinder freely rotatable to ordered and the other gear is on this gear rotatably mounted.
  • thirdly can the inking unit of a printing unit or the metering of a Lackwerkes - including one Flexographic printing unit - in a first mode over the main drive with gear train (preferably for the Printing / painting operation), in a second operating mode via the Single drive of the printing plate carrying cylinder (preferably for Wash inking unit or varnishing unit, let color / varnish run in (colorize)) in each case driven and in a third mode - separate from the main drive and single drive - shut down become. In the presence of a dampening unit can with appropriate getriebetechni shear coupling these modes to the dampening system become.
  • Fourth is to be mentioned that immediately in the presence of a security relevant Event, for example, an open protection device or a possible Failure of a single drive for the cylinder carrying the printing form (plate cylinder or forme cylinder), a control device an actuating device a synchronous operation pretends by the respective arranged in the printing / coating unit clutch system (two-piece double clutch) for the purpose of synchronization of the normal operation driven by a single drive self-propelled, the printing plate carrying cylinder to the other by means of the main drive driven cylinders / drums closes under traction. simultaneously is the single drive of the printing plate bearing cylinder (plate / form cylinder) non-powered, i. switched without torque.
  • Fifth is a significant set-up shortening by the already mentioned universal operating conditions in the respective printing / coating unit realizable. In particular, so far are single or sequential conducted procedures controlled and preferably simultaneously realized. The processing machine or their printing / coating plants thus have a noticeably greater flexibility.
  • The Invention is intended to an embodiment be explained in more detail. Here are shown schematically:
  • 1 a sheet-fed rotary printing machine with several printing units and a coating unit,
  • 2 a drive device for a cylinder carrying a printing plate (plate / forme cylinder).
  • A sheet-fed rotary printing machine is, for example, with a feeder 4 , five offset printing units 1 , a coating plant 2 and a boom 5 shown. Every offset printing unit 1 has in a known manner an inking unit 12 with inking rollers, a cylinder carrying a printing plate 10 , here as a plate cylinder 10 , and a blanket cylinder 8th on. If necessary, each plate cylinder 10 assigned to a dampening unit.
  • The coating plant 2 has a metering device in a known manner 11 for the medium to be processed (lacquer, paint), preferably a chambered doctor blade with assigned, screened applicator roller, and a cylinder carrying a printing plate 9 , here as a form cylinder 9 , on.
  • plate cylinder 10 and form cylinder 9 each carry at least one printing plate (including paint form, flexographic printing plate) and the inking rollers of the inking unit 12 or the applicator roll of the metering device 11 are to the cylinders 10 . 9 arranged on / off. For sheet transport in conveying direction 3 are several sheet guiding cylinders 6 intended. In every printing or coating unit 1 . 2 is designed as a pressure cylinder sheet guiding cylinder 6 with the respective blanket cylinder 8th or form cylinder 9 in functional connection, wherein in the first printing unit 1 designed as a pressure cylinder sheet guiding cylinder 6 an investment drum as a sheet guiding cylinder 6 is upstream. For the sheet transport are between the trained as a pressure cylinder sheet guiding cylinders 6 the printing or coating works 1 . 2 further sheet guiding cylinder 6 arranged as a transfer cylinder.
  • Each blanket cylinder 8th , every form cylinder 9 and each preferably formed as a printing cylinder sheet guiding cylinder 6 is a cleaning device 7 (Cloth or brush washing device or a non-contact plate cleaning device assigned). each inking 12 has a Farbwerkschwascheinrichtung, for example, directed to the compactor Waschmittelsprühsystem and a engageable doctor device on a in the direction of rotation of the plate cylinder 10 last inking roller on.
  • At least all sheet guiding cylinders 6 are coupled via an unspecified main drive (at least one feeding drive motor) and a gear train on the drive side (closed gear train). In the offset printing works 1 is additionally preferred each blanket cylinder 8th in the closed gear train of the sheet guiding cylinder 6 integrated and driven by main drive.
  • Preferably every plate cylinder 10 and preferably each form cylinder 9 is - mechanically decoupled from the main drive and gear train - each driven by a single drive M, ie a separate drive motor. These individual drives M are via a control device 26 coupled with a machine control and in a predeterminable manner with respect to the main drive and gear train (sheet guiding cylinder 6 , Blanket cylinder 8th ) individually, ie self-propelled, drivable. Such a single drive M has a detachable end to the cylinder carrying the printing form (including paint form, flexographic printing) 10 . 9 , especially the plate cylinder 10 or form cylinder 9 , Arranged rotor and a concentrically arranged on the side frame releasably fixed stator.
  • At an offset printing unit 1 is on the cylinder carrying the printing form 10 (Plate cylinder 10 ) A two-part, formed from a first gear 15 in a first wheel plane and a second gear 16 in a second gear plane, clutch gear 14 rotatably mounted. The clutch gear 14 is with a on the upstream blanket cylinder 8th fixed input gear 13 engaged. The blanket cylinder 8th is the plate cylinder 10 immediately adjacent. On the input gear 13 becomes a drive by main drive and gear train 17 fed. The clutch gear 14 is gear technology, for example, with a gear or traction mechanism, with a downstream inking unit roller of the inking unit 12 coupled, on which an output 18 (from the main drive) is transferable.
  • Preference is given to the second gear 16 of the clutch gear 14 the first gear 15 rotatably mounted and between two gears 16 . 15 is a first clutch 19 arranged. Preferably, between the second gear 16 of the clutch gear 14 and the cylinder carrying the printing form 10 a second clutch 20 arranged. Both clutches 19 . 20 form the clutch system and are preferably on the second gear 16 fixed.
  • The individual switching positions of the clutches 19 . 20 are under adhesion, preferably by means of one spring unit 27 . 28 , as well as by means of one on the clutches 19 . 20 acting actuator 21 . 22 realizable. The actuating devices are preferred 21 . 22 pneumatically activated. The actuators 21 . 22 are circuit technology with the control device 26 coupled and receive from this the corresponding drive signals.
  • The first clutch 19 is in a first shift position under adhesion by means of the first, concentric with the axis of the cylinder 10 ( 9 ) arranged spring unit 27 engaged, ie the two gears 15 . 16 are coupled. In a second switching position, the first clutch 19 by means of a clutch on this 19 acting, from the control device 26 activatable first actuator 21 disengaged, ie the two gears 15 . 16 are decoupled. Here is a ring 23 concentric to the axis of the cylinder 10 . 9 arranged and preferably on the second gear 16 stored, taking on this ring 23 the first actuating device 21 can act.
  • The second clutch 20 is in a first switching position by means of the second, to this clutch 20 acting, from the control device 26 activatable actuator 22 disengaged, ie the second gear 16 is to the cylinder 10 ( 9 ) decoupled. In a second switching position, the second clutch is 20 under adhesion by means of the second, concentric with the axis of the cylinder 10 ( 9 ) arranged spring unit 28 engaged, ie the gear 16 is with the cylinder 10 ( 9 ) coupled. Here are concentric to the axis of the cylinder 10 . 9 several transmission elements 29 provided, which preferably on the second gear 16 are stored. The transmission elements 29 is the second spring unit 28 operatively associated with the second actuator 22 on the transmission elements 29 can act.
  • At a coating plant 2 , Alternatively, a flexographic printing, has the predeterminable manner at least opposite the sheet guiding cylinders drivable own motor, the printing plate bearing cylinder 9 , here the form cylinder 9 , a single drive M on, by a detachable end to the cylinder 9 arranged rotor and a concentrically arranged, releasably fixed to the side frame stator is formed.
  • At the cylinder carrying the printing form 9 is a two-piece, formed from a first gear 15 in a first wheel plane and a second gear 16 in a second gear plane, clutch gear 14 rotatably mounted.
  • The clutch gear 14 is with a on an upstream sheet guiding cylinder 6 fixed input gear 13 in engagement, on the means of main drive and gear train a drive 17 is fed. Preferably carries the the form cylinder 9 associated sheet guiding cylinder 6 (Impression cylinder) the input gear 13 , Furthermore, the clutch gear 14 transmission technology, for example with a gear or traction mechanism, with a downstream applicator roll a metering device 11 coupled, on which an output 18 (from the main drive) is transferable.
  • Preference is given to the second gear 16 of the clutch gear 14 the first gear 15 rotatably mounted and between two gears 16 . 15 is a first clutch 19 arranged. Preferably, between the second gear 16 of the clutch gear 14 and the cylinder 9 (Form cylinder 9 ) a second clutch 20 arranged. Both clutches 19 . 20 form the clutch system and are preferably on the second gear 16 fixed.
  • The individual switching positions of the clutches 19 . 20 are under adhesion, preferably by means of one spring unit 27 . 28 , as well as by means of one on the clutches 19 . 20 acting actuator 21 . 22 realizable. The actuating devices are preferred 21 . 22 pneumatically activated. The actuators 21 . 22 are circuit technology with the control device 26 coupled and receive from this the corresponding control signals.
  • The first clutch 19 is in a first shift position under adhesion by means of the first, concentric with the axis of the cylinder 9 ( 10 ) arranged spring unit 27 Engaged (gears 15 . 16 are coupled) and in a second switching position by means of a clutch on this 19 acting, from the control device 26 activatable first actuator 21 disengaged (gears 15 . 16 are decoupled). Here is a ring 23 concentric to the axis of the cylinder 9 ( 10 ) and preferably on the second gear 16 stored, taking on this ring 23 the first actuating device 21 can act.
  • The second clutch 20 is in a first switching position by means of the second, to this clutch 20 acting, from the control device 26 activatable actuator 22 disengaged (gear 16 is to the cylinder 9 decoupled) and in a second switching position under adhesion by means of the second, concentric with the axis of the cylinder 9 ( 10 ) arranged spring unit 28 Engaged (gear 16 is with the cylinder 9 ) Coupled. Here are concentric to the axis of the cylinder 9 ( 10 ) several transmission elements 29 provided, which preferably on the second gear 16 are stored. The transmission elements 29 is the second spring unit 28 operatively associated with the second actuator 22 on the transmission elements 29 can act.
  • According to 2 is the ring 23 with a thrust bearing 24 for deriving the from the actuator 21 supported forces. Furthermore, between the first gear 15 and the second gear 16 another thrust bearing 24 intended. The clutch gear 14 , especially the second gear 16 , is the middle of a radial bearing 25 on the respective cylinder 10 . 9 supported. The first gear 15 is also on the second gear 16 with another radial bearing 25 supported.
  • The preferred mode of operation of the drive device and the clutches 19 . 20 is characterized in printing / Lackierbetrieb characterized in that in a first switching position of the first clutch 19 the first and second gears 15 . 16 under adhesion (by means of spring unit 27 ) are coupled and in a first switching position of the second clutch 20 the second gear 16 by means of the second clutch 20 acting second actuator 22 from the cylinder 10 . 9 is decoupled. Because the second gear 16 the first gear 15 wears that of both gears 16 . 15 formed clutch gear 14 freely rotatable in this embodiment on the axis of the respective cylinder 9 respectively. 10 arranged.
  • From the main drive (with gear train) is the input drive 17 from the input gear 13 (at the offset printing unit on the blanket cylinder 8th ; at the coating unit on the sheet guiding cylinder 6 fixed) on the first, on the second gear 16 rotatably mounted gear 15 (Clutch gear 14 ), of this on the frictionally engaged first clutch 19 on the second gear 16 , The second clutch 20 on the gear 16 is open, so this gear 16 freely rotating on the cylinder axis of the respective, the printing plate-bearing cylinder 9 . 10 is arranged. The opening of the second clutch 20 is activated by the activation of the second actuator 22 causes which on the transmission elements 29 a force against the second spring unit 28 on the second clutch 20 initiates. From the second gear 16 the downforce takes place 18 in offset printing 1 to the inking unit 12 , if necessary to the dampening unit, and in the coating plant 2 to the metering device 11 , The cylinder carrying the printing form 10 . 9 is driven by an individual motor M by means of a single drive.
  • The preferred mode of operation of the drive device and the clutches 19 . 20 for washing the inking unit or the metering device 11 or running in to paint / varnish is by characterized in that in a second switching position of the first clutch 19 the first gear 15 from the second gear 16 by means of the on the first clutch 19 acting Betätigungsein direction 21 is decoupled and in a second switching position of the second clutch 20 the second gear 16 under adhesion by means of the second spring unit 28 with the cylinder 10 is coupled. In the process, the drive input from the main drive is used 17 on the first gear 15 fed, but from the gear 15 which - as described above - rotatably on the second gear 16 stored, not transferred. The gear 15 thus rotates synchronously with the drive 17 free with. The printing plate carrying, driven by single drive M cylinder 10 . 9 feeds a drive torque via the under force with the second gear 16 coupled, second clutch 20 on the second gear 16 one and from this the downforce takes place 18 to the inking unit 12 or to the metering device 11 ,
  • The preferred mode of operation of the drive device and the clutches 19 . 20 to stop the inking unit 12 or the metering device 11 is characterized in that in a second switching position of the first clutch 19 the first gear 15 from the second gear 16 by means of the on the first clutch 19 acting actuator 21 is decoupled and in a first switching position of the second clutch 20 the second gear 16 by means of the second clutch 20 acting actuator 22 from the cylinder 10 is decoupled. The controls 21 . 22 are each by a drive signal of the control device 26 activated. The drive input from the main drive 17 gets on the first gear 15 fed, but from the gear 15 which - as described above - rotatably on the second gear 16 stored, not transferred. The gear 15 thus rotates synchronously with the drive 17 free with. The second clutch 20 is from the cylinder 10 . 9 decoupled, leaving the second gear 16 no drive torque from the single drive M is transferable. The single drive M feeds a drive torque to the printing plate bearing, self-powered cylinder 10 . 9 so that it is rotatable independently of the main drive. Preferably, in this mode of operation, a printing plate change in corresponding angular positions can be realized.
  • The preferred mode of operation of the drive device and the clutches 19 . 20 is in the presence of a safety-relevant event, for example in case of failure of the individual drive M on the cylinder 10 . 9 , characterized in that in a first switching position of the first clutch 19 the first and second gears 15 . 16 under adhesion (by means of first spring unit 27 ) are coupled and in a second switching position of the second clutch 20 the second gear 16 under adhesion (by means of second spring unit 28 ) with the cylinder 10 respectively. 9 is coupled. The controls 21 . 22 are immediately upon occurrence of a security-related event by means of control device 26 switched without drive or without torque.
  • From the main drive (with gear train) is the input drive 17 from the input gear 13 (at the offset printing unit on the blanket cylinder 8th ; at the coating unit on the sheet guiding cylinder 6 fixed) on the first, on the second gear 16 rotatably mounted gear 15 (Clutch gear 14 ), of this on the frictionally engaged first clutch 19 on the second gear 16 , The second clutch 20 on the gear 16 is closed under traction, so that the gear 16 with the cylinder carrying the printing form 10 . 9 connected is. From the second gear 16 the downforce takes place 18 in offset printing 1 to the inking unit 12 , if necessary to the dampening unit, and in the coating plant 2 to the metering device 11 , The cylinder carrying the printing form 10 . 9 is thus integrated in this mode in the main drive with gear train and synchronous to the Bogenführungszylindern 6 as well as blanket cylinders 8th driven.
  • 1
    Offset printing
    2
    coating unit
    3
    conveying direction
    4
    investor
    5
    boom
    6
    Sheet guiding cylinder
    7
    cleaning device
    8th
    Blanket cylinder
    9
    printing form carrying cylinder / forme cylinder
    10
    printing form carrying cylinder / plate cylinder
    11
    metering
    12
    inking
    13
    Input drive gear
    14
    clutch gear
    15
    first gear
    16
    second gear
    17
    input drive
    18
    output
    19
    first clutch
    20
    second clutch
    21
    first actuator
    22
    second actuator
    23
    ring
    24
    thrust
    25
    radial bearings
    26
    control device
    27
    first spring unit
    28
    second spring unit
    29
    transmission element
    M
    individual drive

Claims (9)

  1. Device for driving a processing machine for sheet material with at least one printing and / or coating unit, each printing / coating unit each having a printing plate bearing, coupled with a single drive cylinder, this cylinder carrying the printing form of a on a gear train of cylinders and drums (Sheet guiding cylinder) for the sheet transport and printing in addition to the blanket cylinder acting main drive mechanically decoupled and self-propelled in a predetermined manner to the sheet guiding cylinders and blanket cylinders, the self-powered, the printing plate bearing cylinder an inking unit with at least one drivable by main drive and gear train inking unit is assigned, characterized in that the individual drive (M) has a releasably end on the cylinder carrying the printing form ( 10 ) arranged rotor and a concentrically arranged on the side frame releasably fixed stator, that on which the printing plate-carrying cylinder ( 10 ) a two-part, formed from a first gear ( 15 ) in a first wheel plane and a second gear ( 16 ) in a second gear plane, clutch gear ( 14 ) is rotatably mounted, that the clutch gear ( 14 ) with one on a preceding blanket cylinder ( 8th ) fixed input gear ( 13 ) is engaged, on the means of the main drive and gear train a drive ( 17 ) is fed and the clutch gear ( 14 ) transmission technology with a downstream inking unit roller of the inking unit ( 12 ), to which an output ( 18 ) is transferable, that at the second gear ( 16 ) of the clutch gear ( 14 ) the first gear ( 15 ) is rotatably mounted and between the two gears ( 16 . 15 ) a foreign switched first clutch ( 19 ), and that between the second gear ( 16 ) of the clutch gear ( 14 ) and the cylinder ( 10 ) a foreign switched second clutch ( 20 ) is arranged.
  2. Device for driving a processing machine for sheet material with at least one printing and / or coating unit, each printing / coating unit each having a printing plate bearing, coupled with a single drive cylinder, this cylinder carrying the printing form of a on a gear train of cylinders and drums (Sheet guiding cylinder) acting mechanically for the sheet transport acting main drive and is drivable in a predeterminable manner at least relative to the sheet guiding cylinders, characterized in that the single drive (M) has a releasably end on the cylinder carrying the printing form ( 9 ) arranged rotor and a concentrically arranged on the side frame releasably fixed stator, that on which the printing plate-carrying cylinder ( 9 ) a two-part, formed from a first gear ( 15 ) in a first wheel plane and a second gear ( 16 ) in a second gear plane, clutch gear ( 14 ) is rotatably mounted, that the clutch gear ( 14 ) with an on an upstream sheet guiding cylinder ( 6 ) fixed input gear ( 13 ) is engaged, on the means of the main drive and gear train a drive ( 17 ) is fed and the clutch gear ( 14 ) transmission technology with a downstream applicator roll of a metering device ( 11 ), to which an output ( 18 ) is transferable, that at the second gear ( 16 ) of the clutch gear ( 14 ) the first gear ( 15 ) is rotatably mounted and between the two gears ( 16 . 15 ) a foreign switched first clutch ( 19 ) is arranged that between the second gear ( 16 ) of the clutch gear ( 14 ) and the cylinder ( 9 ) a foreign switched second clutch ( 20 ) is arranged.
  3. Apparatus according to claim 1 or 2, characterized in that the first clutch ( 19 ) by means of a first actuating device ( 21 ) switchable and the second clutch ( 20 ) by means of a second actuating device ( 22 ) is switchable, wherein both actuating devices ( 21 . 22 ) in terms of circuitry with a control device ( 26 ) are coupled.
  4. Device according to claim 1 or 2, characterized in that the first and second gears ( 15 . 16 ) of the clutch gear ( 14 ) in a first switching position of the first clutch ( 19 ) coupled under frictional engagement and in a second switching position by means of a on the clutch ( 19 ) acting first actuator ( 21 ) are disengaged.
  5. Apparatus according to claim 1 or 2, characterized in that the second gear ( 16 ) of the clutch gear ( 14 ) and the cylinder carrying the printing form ( 10 . 9 ) in a first switching position of the second clutch ( 20 ) by means of a on the clutch ( 20 ) acting second actuator ( 22 ) are disengaged and engaged in a second switching position under adhesion.
  6. Apparatus according to claim 1 or 2, characterized in that in a first switching position of the first clutch ( 19 ) the first and second gears ( 15 . 16 ) are coupled under frictional connection and in a first switching position of the second clutch ( 21 ) the second gear ( 16 ) by means of one of the on the second clutch ( 20 ) acting actuator ( 21 ) from the cylinder ( 10 . 9 ) is decoupled.
  7. Apparatus according to claim 1 or 2, characterized in that in a second switching position of the first clutch ( 19 ) the first gear ( 15 ) from the second gear ( 16 ) by means of the on the first clutch ( 19 ) acting actuator ( 21 ) is decoupled and in a second switching position of the second clutch ( 20 ) the second gear ( 16 ) under frictional connection with the cylinder ( 10 ) is coupled.
  8. Apparatus according to claim 1 or 2, characterized in that in a second switching position of the first clutch ( 19 ) the first gear ( 15 ) from the second gear ( 16 ) by means of the on the first clutch ( 19 ) acting actuator ( 21 ) is decoupled and in a first switching position of the second clutch ( 20 ) the second gear ( 16 ) by means of the on the second clutch ( 20 ) acting actuator ( 21 ) from the cylinder ( 10 ) is decoupled.
  9. Apparatus according to claim 1 or 2, characterized in that in a first switching position of the first clutch ( 19 ) the first and second gears ( 15 . 16 ) are coupled under adhesion and in a second switching position of the second clutch ( 21 ) the second gear ( 16 ) under frictional connection with the cylinder ( 10 ) is coupled.
DE200510036786 2005-08-02 2005-08-02 Device for driving of machine which processes sheet material has individual drive which has a rotor detachably installed on cylinder carrying printing block, and stator detachably fixed on side frame and concentric to rotor Active DE102005036786B3 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
DE200510036786 DE102005036786B3 (en) 2005-08-02 2005-08-02 Device for driving of machine which processes sheet material has individual drive which has a rotor detachably installed on cylinder carrying printing block, and stator detachably fixed on side frame and concentric to rotor

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Application Number Priority Date Filing Date Title
DE200510036786 DE102005036786B3 (en) 2005-08-02 2005-08-02 Device for driving of machine which processes sheet material has individual drive which has a rotor detachably installed on cylinder carrying printing block, and stator detachably fixed on side frame and concentric to rotor

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Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1832418A2 (en) * 2006-03-11 2007-09-12 MAN Roland Druckmaschinen AG Method for operating a printing press
DE102006011802A1 (en) * 2006-03-15 2007-09-20 Zf Friedrichshafen Ag Coupling unit for use in printing machine, has spring-loaded bearing axially supporting drive shaft and front wheel and supported at indexed plat using cylinder housing of cylinder, and drive shaft centered at plate cylinder shaft
EP1743770A3 (en) * 2005-07-16 2007-10-10 MAN Roland Druckmaschinen AG Printing press and method for operating a printing press
EP1743766A3 (en) * 2005-07-16 2007-12-26 MAN Roland Druckmaschinen AG Processing machine and method for operating this machine
DE102007039222A1 (en) 2007-05-22 2008-11-27 Koenig & Bauer Aktiengesellschaft Arrangement for driving rotation sheet printing machine has shifting clutches between first and second gear wheels and intermediate shaft, with which gear wheels can be selectively isolated from or connected to intermediate shaft
DE102007039220A1 (en) * 2007-06-02 2008-12-04 Koenig & Bauer Aktiengesellschaft Drive for sheet-fed printing press, has plate cylinder, rubber cylinder, impression cylinder, inking system and dampening system
DE102007039235A1 (en) 2007-08-20 2009-02-26 Koenig & Bauer Aktiengesellschaft Multi-color sheet fed printing machine driving method, involves driving plate cylinder self-motivatedly using driven wheel train, integrating individual drive of plate cylinder, and subjecting individual drive to brake torque
EP2036725A2 (en) * 2007-09-14 2009-03-18 manroland AG Method for operating a sheet fed printing press
DE102007051948A1 (en) 2007-10-31 2009-05-07 Koenig & Bauer Aktiengesellschaft Offset printing group driving method for e.g. sheet-fed rotary printing press, involves removing connection of blanket cylinder with drive, and producing connection of cylinder with string for pressurized operation of printing groups
EP2067621A1 (en) * 2007-12-04 2009-06-10 manroland AG Method of operating a sheet printing press with lacquering unit
DE102009001509A1 (en) 2009-03-12 2010-10-07 Manroland Ag Method for controlling processing machine for sheet material, involves driving inking unit and ink application roller with speed, and cleaning inking unit and application roller by activated inking cleaning devices
EP2067619A3 (en) * 2007-12-04 2011-08-10 manroland AG Method and drive for driving a sheet material processing machine
DE102014203086B4 (en) 2013-02-27 2018-10-31 Koenig & Bauer Ag Method using a drive for a sheet-fed printing press
DE102014203087B4 (en) 2013-02-27 2018-10-31 Koenig & Bauer Ag Method for driving a sheet-fed printing machine

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2545836A (en) * 1946-08-12 1951-03-20 Hoe & Co R Ink and water motion trip for offset printing machines
EP0812683A1 (en) * 1996-06-11 1997-12-17 MAN Roland Druckmaschinen AG Drive for a printing press
DE19640649A1 (en) * 1996-10-02 1998-04-16 Roland Man Druckmasch Drive for a sheet printing machine
DE10232111A1 (en) * 2001-08-29 2003-03-20 Heidelberger Druckmasch Ag Rotary printing press has freewheeling clutch disposed between form cylinder and transmission gear for driving form cylinder during printing operation, and separate motor used to drive cylinder during image setting operation

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2545836A (en) * 1946-08-12 1951-03-20 Hoe & Co R Ink and water motion trip for offset printing machines
EP0812683A1 (en) * 1996-06-11 1997-12-17 MAN Roland Druckmaschinen AG Drive for a printing press
DE19640649A1 (en) * 1996-10-02 1998-04-16 Roland Man Druckmasch Drive for a sheet printing machine
DE10232111A1 (en) * 2001-08-29 2003-03-20 Heidelberger Druckmasch Ag Rotary printing press has freewheeling clutch disposed between form cylinder and transmission gear for driving form cylinder during printing operation, and separate motor used to drive cylinder during image setting operation

Cited By (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1743770A3 (en) * 2005-07-16 2007-10-10 MAN Roland Druckmaschinen AG Printing press and method for operating a printing press
EP1743766A3 (en) * 2005-07-16 2007-12-26 MAN Roland Druckmaschinen AG Processing machine and method for operating this machine
EP1832418A2 (en) * 2006-03-11 2007-09-12 MAN Roland Druckmaschinen AG Method for operating a printing press
DE102006011298A1 (en) * 2006-03-11 2007-09-13 Man Roland Druckmaschinen Ag Method for operating a printing machine
DE102006011298B4 (en) * 2006-03-11 2009-05-20 Manroland Ag Method for operating a printing machine
EP1832418A3 (en) * 2006-03-11 2012-02-29 manroland AG Method for operating a printing press
DE102006011802B4 (en) * 2006-03-15 2014-06-12 Zf Friedrichshafen Ag Coupling unit for a printing machine
DE102006011802A1 (en) * 2006-03-15 2007-09-20 Zf Friedrichshafen Ag Coupling unit for use in printing machine, has spring-loaded bearing axially supporting drive shaft and front wheel and supported at indexed plat using cylinder housing of cylinder, and drive shaft centered at plate cylinder shaft
DE102007039222A1 (en) 2007-05-22 2008-11-27 Koenig & Bauer Aktiengesellschaft Arrangement for driving rotation sheet printing machine has shifting clutches between first and second gear wheels and intermediate shaft, with which gear wheels can be selectively isolated from or connected to intermediate shaft
DE102007039220A1 (en) * 2007-06-02 2008-12-04 Koenig & Bauer Aktiengesellschaft Drive for sheet-fed printing press, has plate cylinder, rubber cylinder, impression cylinder, inking system and dampening system
DE102007039235A1 (en) 2007-08-20 2009-02-26 Koenig & Bauer Aktiengesellschaft Multi-color sheet fed printing machine driving method, involves driving plate cylinder self-motivatedly using driven wheel train, integrating individual drive of plate cylinder, and subjecting individual drive to brake torque
EP2036725A2 (en) * 2007-09-14 2009-03-18 manroland AG Method for operating a sheet fed printing press
EP2036725A3 (en) * 2007-09-14 2013-01-09 manroland AG Method for operating a sheet fed printing press
DE102007051948A1 (en) 2007-10-31 2009-05-07 Koenig & Bauer Aktiengesellschaft Offset printing group driving method for e.g. sheet-fed rotary printing press, involves removing connection of blanket cylinder with drive, and producing connection of cylinder with string for pressurized operation of printing groups
EP2067619A3 (en) * 2007-12-04 2011-08-10 manroland AG Method and drive for driving a sheet material processing machine
EP2067621A1 (en) * 2007-12-04 2009-06-10 manroland AG Method of operating a sheet printing press with lacquering unit
DE102009001509A1 (en) 2009-03-12 2010-10-07 Manroland Ag Method for controlling processing machine for sheet material, involves driving inking unit and ink application roller with speed, and cleaning inking unit and application roller by activated inking cleaning devices
DE102014203086B4 (en) 2013-02-27 2018-10-31 Koenig & Bauer Ag Method using a drive for a sheet-fed printing press
DE102014203087B4 (en) 2013-02-27 2018-10-31 Koenig & Bauer Ag Method for driving a sheet-fed printing machine

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