EP1036658B1 - Damping unit of a planographic printing press - Google Patents

Abstract

The method of damping a rotary flatbed printing form (1) involves a damping unit (7) belonging to a flatbed printing machine. A first damping applicator roller (4) is displaced by an adjustment in the form of an eccentric bearing from a position apart (4.1) to a position in contact with a connecting roller (3). The first damping roller (5) is driven by a rotary drive mechanism. A second damping roller (6) is solely in contact with the damp-application roller.

Description

The invention relates to a dampening system of a planographic printing machine, according to the preamble of claim 1.

There are two basic ways to moisturize Known planographic printing forms, on the one hand this is the direct application of the pure Fountain solution over a dampening roller and on the other hand the indirect one Apply the dampening solution in the form of a printing ink / dampening solution emulsion a dampening roller or an ink roller.

Modern offset printing presses have inking and dampening units, in their coupled operation of the dampening solution partially indirectly via a Moist application roller and partly indirectly via one of the dampening application rollers immediately following in the cylinder rotation direction of the printing form cylinder Ink roller is applied to the printing form and the Dampening roller applies a fountain solution ink emulsion to the printing form applying. The indirect dampening solution application is carried out by a Ink application roller with the connecting roller coupling with the dampening application roller allows.

For example, a wet inking unit of such an offset printing machine is shown in described the DE 87 16 847 U1, the closest state of the Technology represented and what the preamble of claim 1 is related to. The dampening inking unit has an inking roller for indirect moistening and an axially changeable dampening roller. An inking roller forms one of the inking roller and the dampening roller intermediate connecting roller. The type of rotary drive one that is, only on the dampening roller resting on the dampening roller whether this z. B. driven by friction from the dampening roller, and to the peripheral speed of the dampening roller is in the Utility model made no statement. A disadvantage of this dampening inking unit is that the dampened printing form, especially when Printing fuzzy substrates, washed relatively often must, because of a lack of rolling slip between the Dampening roller and the printing form so-called slugs in the print image Place the free paper fibers causing them on the printing form. The common one Washing leads to print interruptions when printing high-volume jobs, which are associated with restarting waste every time.

A dampening and inking unit described in DE 31 46 223 C2 is a Another example of the formation of such offset printing machines. With this dampening and inking unit cannot solve the problem described above solve because they are here unusually as an inking roller designated dampening roller with plate cylinder peripheral speed must rotate, as is expressly emphasized in the patent specification.

In DE 296 01 067 U1 and DE 39 23 636 A1 there are dampening units described, each a dampening roller and other rollers comprise, wherein each roller abutting the dampening roller still abuts a roller.

EP 0 722 829 A2 describes a dampening unit which has a Dampening roller and only on the dampening roller adjacent distribution roller includes that of the dampening roller fricative is driven.

DE 36 44 982 A1 describes a dampening system, which a Damp applicator roller, one lying only against the dampener applicator roller Includes dampening roller and a connecting roller.

In DE 93 05 742 U1 there is also a dampening unit for offset printing machines described, the applicator roller at a differential speed a plate cylinder can be driven, but not on a connecting roller is present, so that this dampening unit is only for direct dampening over the Application roller and can not be used for indirect dampening. On the The application roller is formed by ink removal from the printing form Printing ink-water emulsion.

To achieve good print quality is not just a stencil-free one Coloring but also stencil-free moistening of the printing form desirable. Especially when indirectly dampening the printing form In this regard, dampening systems have to meet the highest requirements. By a can only roll on the dampening roller these requirements when designing dampening systems correspond.

A dampening unit described in DE-U-91 10 345 meets the requirements with regard to a template-free dampening solution application only with pure Direktfeuchtung. There is one in this dampening system Damp applicator roller on one over its steering knuckle over gears and thus positively driven dampening roller and is one closest inking unit roller separately. Unfavorable on this dampening system is that a dampening system for indirect dampening a Plate cylinder is not provided. The employment of the dampening roller to the closest inking unit roller either serves to use the Damp applicator roller as the only printing ink on the plate cylinder applying application roller or as a washing circuit. In addition, one Adjustment of the dampening roller to the nearest inking roller due to the design, the dampening roller is switched off from the dampening roller mounted in a side frame connected so that a stencil-free indirect dampening with this Dampening is also not possible for this reason.

DE 29 02 228 C2 also includes an inking unit and a dampening unit described in which an inking roller with indirect dampening about the surface speed of the plate cylinder corresponding surface speed and the Dictates the surface speed of an adjacent dampening roller, which thus rolls on the plate cylinder without slippage. Only from the The dampening roller runs on ink supply of separate pure direct dampening at a peripheral speed which is about 10% above or below the Circumferential speed of the plate cylinder is. Very disadvantageous about this Dampening is that this does not have the dampening film on the Moist application roller smoothing and only on this Dampening roller is provided adjacent dampening roller. One that Dampening solution from a water box roller onto the dampening roller transmitting dampening roller is missing to effectively prevent a Stenciling required constructive requirement, which the concern is only on the dampening roller.

It is the object of the invention to make the planographic printing plate practical to create a dampening dampening system without stenciling.

The task is a dampening system with the features of the claim 1 solved.

The dampening system according to the invention is particularly good for carrying out a suitable method briefly explained here.

The process for moistening a rotating planographic printing plate via a the flat printing form indirectly dampening inking roller and one on the latter connecting roller, on which the planographic printing plate Moisturizing dampening roller is present, characterized in that the Moist application roller during moistening with the peripheral speed the circumferential speed of the planographic printing plate rotates.

By the speed difference between the peripheral speeds the planographic printing form and the dampening roller are slugs in the print image causing free paper fibers and the like by the Removed dampening roller from the planographic printing plate, so that the Planographic printing plate rarely needs to be washed and therefore restarting waste is advantageously avoided. The The cleaning effect is the simultaneous application of a printing ink / dampening solution emulsion through the inking roller onto the planographic printing form given. For this purpose, the connecting roller with both the inking roller and also with the dampening roller in peripheral rolling contact, so that the dampening solution from the dampening roller over the connecting roller the inking roller is conveyed and with on the inking roller printing ink to an optimal ink-dampening solution mixture for printing mixed. You can also use the Dampening roller an indirect dampening of the planographic printing form, by part of the ink on the inking roller over the Connection roller reaches the dampening roller and together with the dampening solution on the dampening roller also a Ink fountain solution emulsion forms. As a rule, such Case of the ink content of the emulsion on the inking roller be greater than the proportion of printing ink on the dampening roller located emulsion.

A process design is characterized in that a first Dampening roller during moistening only on the dampening roller and is not in contact with any other roller and therefore unlike one two rollers adjacent to the transfer roller is particularly well able the dampening solution into the ink that has reached the dampening roller incorporate and smooth the dampening solution film in the circumferential direction.

Another process design is characterized in that a lateral oscillation of the first dampening roller to smooth the Dampening solution film takes place in their axial direction. In this way, a so-called axial stenciling is very safely avoided and occurs particularly thorough mixing of those that got onto the dampening roller Printing ink with the fountain solution on it to a printable Emulsion.

Another process design is characterized in that in addition to the already mentioned first dampening roller still another Dampening roller to equalize that on the dampening roller existing dampening solution film rolls on the dampening roller. This is an additional second dampening roller, just like the first Dampening roller, not a transfer roller, but only one single roller, namely the dampening roller. It has been shown that when using the inking unit to which the inking roller belongs, as a so-called short inking unit, increased requirements for incorporation the dampening solution into the ink on the dampening roller consist. In the so-called short inking unit operation, the Planographic printing form not all of the inking rollers of the total Inking unit used. For example, only one inking roller or only two inking rollers out of a total of four available Ink application rollers used. Opposite a so-called Normal inking unit operation of the inking unit, in which all existing Ink application rollers are used for coloring, thus shift the percentage of ink applied by the applicator rollers. With in other words, in the short inking unit operation of the Dampening roller a higher proportion, based on the total applied printing ink, as applied in normal inking unit operation. The thus also increased requirements with regard to the dampening solution application by the dampening roller in the short inking unit operation can by two only dampening rollers that roll on the dampening roller be met particularly well. It has also been shown that the Use of two rollers that roll exclusively on the dampening roller Dampening roller not only in short inking unit operation but also in Normal inking unit operation and not only with indirect moistening of the Planographic printing form over the inking roller but also with pure Direct dampening of the planographic printing form via the dampening roller is appropriate. Therefore, it is favorable that when the Dampening unit from the inking unit, for example by setting the distance Damping roller to the connecting roller, during the direct Moistening of the planographic printing form exclusively via the dampening roller, both the first dampening roller and the second dampening roller in System on the dampening roller remains.

Another process design is characterized in that axial smoothing of that on the dampening roller Dampening film the second dampening roller laterally oscillates, preferably Both the first dampening roller and the second one change Dampening roller at the same time in the axial direction. The so-called In this way, axial stenciling is avoided with absolute certainty.

Another process design is characterized in that the The dampening roller does not change in its axial direction. In some The dampening application roller can change axially in applications, whereby this oscillation via axial friction driving from the axially oscillating first dampening roller and / or the axially oscillating second Dampening roller can be driven. However, it has been shown that at in the axial direction of the stationary dampening roller and at least one this rolling and oscillating dampening roller a cheaper The dampening solution is applied to the planographic printing form. The use of two rolling on the dampening roller that is stationary in the axial direction and oscillating dampening rollers cause a high stability of the Dampening solution application on the planographic printing plate also in case of disturbances such as. B. Print interruptions in the meantime changed printing conditions.

In addition to its suitability for the previously explained method, this shows dampening system according to the invention also has the following advantages:

With indirect moistening of a planographic printing plate, this only works on the Dampening roller and otherwise not rolling on any other roller Dampening roller an equalization of the dampening solution film, so that a Stenciling is largely avoided. The dampening roller is located this indirect moistening is in rolling contact with the connecting roller, so that the dampening solution from the dampening roller over the Connection roller gets into the inking unit. Is on the connecting roller besides the dampening roller also an inking roller, which preferably the one used for indirect moistening of the planographic printing form Ink roller is. Should the dampening system be used exclusively for direct Moisturizing the planographic printing form can be used, it is possible to Moist application roller by means of the adjusting device from the connecting roller turn off so that no more dampening solution from the dampening Connection roller flows into the inking unit.

By driving the dampening roller with the rotary drive there are advantageous structural embodiments of the dampening unit.

For example, in addition to the dampening roller, the Dampening roller are driven by the rotary drive. To the rotary drive can rotate the dampening roller via a gear drive, the dampening roller only the dampening roller drives rotationally via friction. This can be done with the peripheral surface the dampening roller should be roughened and with, for example well-shaped depressions and / or dome-shaped elevations be provided. The dampening roller in this case has a soft and for example, circumferential surface made of rubber. A second Variant of the common drive of the dampening roller and the Dampening roller by the rotary drive is that not only the dampening roller via a gearbox but also the dampening roller is driven by a rotary drive gear. Preferably is a non-rotatably connected and coaxial with the dampening roller arranged gear in meshing engagement with a rotationally fixed with the Dampening roller connected and arranged coaxially to the latter Another gear, which is driven by a rotary drive Axis is seated or in meshing engagement with one of the rotary drive driven third gear is located.

The rotary drive that drives the dampening roller in rotation can be used by everyone mentioned drive variants of the dampening roller, d. H. about Friction driving or by means of a gear, the planographic printing form rotatively driving electromotive rotary drive of the planographic printing machine or one to this additional electromotive single drive of the dampening system his. In the former case, the rotary drive is an electric motor, which via a gearbox rotates the printing form cylinder, which is connected to the Dampening dampening flat printing form carries. This electric motor can for example one of the printing units of the planographic printing press at the same time be the rotary driving main drive of the planographic printing machine. in the the latter case has the planographic printing machine next to the electric motor another one to drive the printing form cylinder with the planographic printing form further electric motor, by means of which the dampening roller is positively driven and the dampening roller can also be driven. By means of an electronic control device, the individual drive in Coordination for the rotary drive driving the printing form cylinder controllable and, for example, when the Print speed of the direction of change, d. H. an increase or Lowering, be adjusted accordingly. In addition to this at Rotation drive of the planographic printing plate coordinated control of the Individual drive of the dampening roller can this by means of the electronic Control device independent of the rotary drive of the planographic printing form be controllable. For example, on the electronic Control device adjustable or programmable percentage values that are related to the peripheral speed of the planographic printing form and which the speed difference of the peripheral speed of the Dampening roller and the dampening roller to the peripheral speed describe the planographic printing form.

An advantageous further developing the dampening system according to the invention Embodiment is characterized in that the adjusting device is such is formed that when the dampening roller to the Connection roller simultaneous displacement of the dampening roller is guaranteed so that their peripheral contact to The dampening roller is not lost. The dampening roller is also at the removal of the dampening roller from the connecting roller in permanent system on the dampening roller can be carried with the latter. It but also include dampening systems in the scope of the invention, their Adjustment device is designed such that first a shift of Damp applicator roller from its distance to the connecting roller in their contact position on the connecting roller and subsequently one Adjustment of the dampening roller to the dampening roller takes place, whereby the dampening roller when moving from the distance position the position on the connecting roller temporarily from the Dampening roller releases. The dampening roller is in this case Relocation of the dampening roller following the dampening roller trackable. However, it has been shown that it is cheaper to use the To move dampening roller and the dampening roller as a unit. This can advantageously be done while dampening the rotating Planographic printing form by means of the dampening system, so that while running Dampening a conversion of the planographic printing machine from a purely direct one Moistening via the dampening roller when the dampening unit is decoupled Inking unit in indirect dampening via the inking roller at over the Connection roller with inking unit connected to the dampening unit is possible. at permanently in contact with the dampening roller during the relocation held dampening roller are thus avoided stencil strips, which in some cases can be achieved by placing the Dampening roller on the one already in the system position Moist roller should be feared.

Another embodiment of the dampening system is characterized by that in addition to the already mentioned first dampening roller of the dampening unit this still includes a second dampening roller, which like the first dampening roller only on the dampening roller and no other other roller. A dampening unit designed in this way is in particular to carry out a process design of the previously briefly explained Process suitable.

Another embodiment of the dampening system is characterized by that to hire the dampening roller on the connecting roller Dampening roller, the first dampening roller and the second Dampening roller can be displaced simultaneously by means of the adjusting device, without the peripheral contact of the first dampening roller Dampening roller and the second dampening roller The dampening roller is lost during the relocation. This variant is especially when the dampening unit is connected to the inking unit while it is running Moisturizing the planographic printing plate by the dampening system advantageous because with such a trained dampening system both by the first Dampening roller caused any touchdown strips as well as that second dampening roller caused any contact strips on the Moist application roller can be safely avoided. The dampening roller, the first dampening roller and the second dampening roller can be in one common, e.g. B. bearing plate-shaped roller carrier each rotatable be stored, by adjusting the roller support, for example by swiveling the roller carrier, the dampening roller from the Parking position in the contact position on the connecting roller is adjustable and the roller carrier the first dampening roller in permanent contact with Dampening roller and the second dampening roller also in Permanent contact with the dampening roller is maintained. In some use cases also a relocation of the dampening roller from the parking position to the Position on the connecting roller, then starting the first one Dampening roller and / or the second dampening roller to the already in the Adjusted dampening roller position possible.

Another embodiment is characterized in that the Adjustment device consists of an eccentric bearing. In addition, the Adjustment device comprise a remotely controllable actuator, by means of which the eccentric bearing for moving the dampening roller to the Connection roller and for parking the dampening roller from the Connection roller is rotatable. The eccentric bearing requires little Construction space and is for example in the structurally simple version as Eccentric bushing can be manufactured inexpensively.

Another embodiment is characterized in that the on the Planographic printing form and dampening roller rolling on the connecting roller when moistening the planographic printing plate with the peripheral speed the planographic printing form deviating peripheral speed from Rotational drive is drivable. A between the planographic form and the Damp application roller effective rolling slip causes cleaning of the Planographic printing form, by fluffy paper fibers through the dampening roller can be removed from the planographic printing form. This is at about the Connection roller possible with dampening unit connected to the inking unit, see above that this printing plate cleaning during the indirect moistening of the Planographic printing form on the inking roller, which for this purpose on the Connection roller is supplied with dampening solution from the dampening system. The slip preferably results from the fact that the rotational drive Dampening roller with a relative to the peripheral speed of the Flat printing form drives lower peripheral speed. As already in In connection with the previously briefly explained method, the Damping roller from the rotary drive via a positive gear be drivable. As already mentioned, the dampening roller can be drivable by the first dampening roller by means of friction entrainment, which in turn from the rotary drive via positive gear is drivable.

The method briefly explained above is preferably for moistening one suitable and can also be used in the offset printing process for dampening a print using direct flat printing (dilitho) Planographic printing form can be used. The dampening system according to the invention Planographic printing press containing can be a dilitho rotary printing press and is preferably an offset rotary printing press, by means of which a printing material web or printing material sheets can be printed.

The invention is described below based on a preferred one Embodiment explained with reference to the drawing.

Fig. 1

Eine Offset-Rotationsdruckmaschine mit mehreren gleichartig aufgebauten Druckwerken, denen jeweils ein Farbwerk und ein Feuchtwerk zugeordnet ist,

Fig. 2

das eine Flachdruckform direkt einfeuchtende Feuchtwerk,

Fig. 3

das die Flachdruckform sowohl über die Feuchtauftragswalze als auch über eine Farbauftragswalze mit einer Druckfarbe-Feuchtmittel-Emulsion indirekt einfeuchtende Feuchtwerk und

Fig. 4

eine mit der Fig. 2 korrespondierende Seitenansicht des Feuchtwerkes, in welcher eine Verstelleinrichtung zur gemeinsamen Verlagerung einer Feuchtauftragswalze und einer Feuchtwerkswalze detailliert dargestellt ist.

The drawing shows:

Fig. 1

An offset rotary printing press with several printing units of the same design, each of which is assigned an inking unit and a dampening unit,

Fig. 2

a dampening unit that directly dampens a planographic printing form,

Fig. 3

the dampening unit which indirectly dampens the planographic printing plate both via the dampening roller and via an inking roller with a printing ink / dampening solution emulsion and

Fig. 4

a side view of the dampening unit corresponding to FIG. 2, in which an adjusting device for the joint displacement of a dampening application roller and a dampening unit roller is shown in detail.

In Fig. 1 is designed as a sheet-fed rotary printing press Flat printing machine 8 shown with at least one printing unit 13. The Printing unit 13 consists of a printing form cylinder 14 with thereon clamped planographic printing form 1, a substrate carrying Impression cylinder 16 and a printing ink image from the planographic printing form 1 blanket cylinder 15 transferred to the printing material. For inking the planographic printing form 1, this is an inking unit designed as a lifter inking unit 42 with the planographic printing form 1 first with each printing form rotation inking roller 2 and three more, the roller in Cylinder rotation direction assigned downstream inking rollers. to Moistening of the planographic printing plate 1, a dampening unit 7 is assigned to it, which either connect to or from the inking unit 42 can be separated. When the dampening unit 7 is connected to the inking unit 42, this flows Dampening solution from the dampening unit 7 on the inking roller 2 on the Planographic printing form 1. The rotary drive 11 is an electric motor and drives over a gear 17 consisting of meshing gears the cylinders 14, 15 and 16 for printing and during the moistening.

As can be seen in FIGS. 2 and 4, the dampening unit 7 consists of a trough-shaped fountain solution container 23, in which an immersion roller 22nd immersed, which draws the fountain solution from the fountain solution tank 23 and to a transfer roller 21 in rolling contact with it. The Transfer roller 21 is rotatable in a around the axis of rotation Dip roller 22 pivoted roller carrier 45 mounted. The rollers 21 and 22 are via a gear transmission 20 with each other and with that as a Electric motor trained rotary drive 12 connected in terms of drive. The Transfer roller 21 transfers the fountain solution film on it a dampening roller 4. The dampening roller 4 is in on a planographic printing form 1 adjacent position and carries that of the Transfer roller 21 dampening solution transferred to the planographic printing plate 1 on. Seen in the direction of rotation of the dampening roller 4 are in constant contact at the contact point of the dampening roller following the transfer roller 21 and the contact point of the Dampening roller 4 with the planographic printing plate 1, a first Dampening roller 5 and the contact point of the dampening roller 4 with the Planographic printing form 1 below and the contact point of the dampening roller 4 with the transfer roller 21 preceded by a second dampening roller 6 on.

A rotary drive 10 designed as an electric motor drives via Gear transmission 18.1, 18.2 the first dampening roller 5. The Rotary drive 10 also drives the dampening roller 4. In this regard, 4 shows two drive variants in one picture. On positive drive of the dampening roller 4 by the rotary drive 10 can be caused in that the rotary drive 10 Dampening roller 4 drives via a gear transmission 18.3, 18.4. The Gear 18.3, 18.4 can for example consist of one with the first Dampening roller 5 connected in a rotationally fixed manner and arranged coaxially therewith Gear 18.3 consist, which meshes with a gear 18.4 Engagement is arranged coaxially with the dampening roller 4 and with this is rotatably connected. The drive of the dampening roller 4 by the Rotary drive 10 can also be effected in that the rotary drive 10 drives the first dampening roller 5 via the gear mechanism 18.1, 18.2 and the latter by means of the frictional application of the dampening roller 4 drives frictionally. In this case, the gear transmission 18.3, 18.4 omitted.

In Fig. 2 three symbolize the planographic printing form 1 and are dense Arrows lying together that the planographic printing form 1 with a comparatively high peripheral speed rotates. By means of two rollers 4 and 5 assigned arrows indicates that the rollers 4 and 5 with the same Rotate peripheral speed to each other, which only slightly is slower than the peripheral speed of the planographic printing form 1. Each an arrow assigned to the rollers 21 and 22 indicates that the rollers 21 and 22 rotate at the same peripheral speed as each other however much lower than the peripheral speed of the Moist application roller 4 is. The existing between the rollers 4 and 21 Speed difference is by means of the rotating drive 12 electronic control device 40 for precise dosing in the Contact point transferred from the roller 21 to the roller 4 Adjustable amount of dampening solution.

The control device 40 controls the rotary drives 10 and 12 to one another matched and depending on the rotary drive 11, so that the Rotary drives 10 and 12 in the event of a change in printing speed corresponding increase or decrease in the peripheral speed of the Planographic printing form 1 the drive 11 in the corresponding Speed adjustment direction can be readjusted following.

In a further embodiment, not shown, the Rotary drives 10 and 11 not two different electric motors but one and the same electric motor.

In the embodiment shown, the control device 40 also controls an actuator 24 belonging to an adjusting device 9, which a Reciprocating cylinder which can be pressurized with fluid and for example a Pneumatic cylinder is. The adjustment device 9 enables an adjustment of the Dampening roller 4 from that shown in Fig. 2, from a Connection roller 3 to the inking unit 42 in the position 4.1 in a Fig. 3 shown on the connecting roller 3 position 4.2 and from position 4.2 back to position 4.1. The connecting roller 3 does not need to be moved to couple the dampening unit 7 to the inking unit 42 be and can be stored in a fixed or frame fixed pivot bearing.

In order to carry out these displacements, an adjustment device 9 associated and designed as a first eccentric bushing 27 Eccentric bearing by means of the actuator 24 about its central axis 36 rotatable. The eccentric bearing 27 carries one as an adjustable bearing plate trained roller carrier 25, in which a roll neck 31 of the The dampening roller 4 is rotatably supported and through which an axle 32 the first dampening roller 5 is passed. The first eccentric bearing 27 carries a second eccentric bearing 28, which is also designed as an eccentric bushing, which can be rotated manually about its central axis 37.

A worm wheel 29, which meshes with a worm 30 rotatably mounted in the roller carrier 25, is fastened coaxially to the eccentric bearing 28. The latter and thus the eccentric bearing 28 can be rotated by means of a tool which can be inserted or plugged into the screw 30. The eccentric bearing 27 can be rotatably mounted in a side wall 41 by means of a rolling element or sliding bearing about its central axis 36. By means of such rotary bearings, the rollers 4 and 5 and the eccentric bearing 28 can also be rotatably mounted. The eccentricity e ₂₇ describes the amount by which the central axis 35 of the first dampening roller 5 is offset from the central axis 36 of the eccentric bearing 27. The eccentricity e _{27 of} the eccentric bearing 27 related to its central axis 36 is so great that a rotation of the eccentric bearing 27 by a certain angle of rotation causes a common displacement of the rollers 4 and 5 by the amount of the roller distance W depending on the direction of rotation of the rotation of the eccentric bearing 27 to the connecting roller 3 either way or away. For example, the eccentricity e _{27 can be} approximately 15 mm. A bore which rotatably receives the roll neck 32 penetrates the eccentric bearing 27 and its bush-shaped shoulder 33, which is thus also offset from the central axis 36 by the eccentricity e ₂₇ . The eccentric bearing 28 has a bore offset from the central axis 37 about the eccentricity e ₂₈ , into which the bushing shoulder 33 is rotatably inserted.

In other, not shown embodiments, a Eccentric bearing 28 attached or molded socket paragraph 33 rotatable be inserted into the eccentric bearing 27. Also, the eccentric bearing 27 and 28 pivotally connecting socket instead of the Socket paragraph 33 both in the eccentric bearing 27 and in the Eccentric bearing 28 can be inserted.

In the embodiment shown, the measure of eccentricity e _{28 is} significantly less than the measure of eccentricity e ₂₇ and can be, for example, approximately 2 mm. A rotation of the eccentric bearing 28 by means of the worm gear 29, 30 about the central axis 37 causes an increase or decrease in the axial spacing A of the rollers 4 and 5 relative to one another, depending on the direction of rotation, so that the strength of the pressing of the rollers 4 and 5 against one another can be set. Depending on the direction of rotation of the eccentric bearing 28, the variation of the center distance A is brought about by a displacement of the dampening application roller 4 towards or away from the first dampening unit roller 5 or by a displacement of the roller carrier 25 relative to the central axis 35. The setting of the center distance A takes place within an adjustment range in which the contact pressure between the rollers 4 and 5 is sufficiently large for the rotational friction of the roller 4 by the roller 5 or in which the gears 18.3 and 18.4 remain in effective engagement with one another.

The same applies to that arranged coaxially with the first dampening roller 5 with this non-rotatably connected gear 18.2. The gear 18.2 remains each common roller gap W producing or canceling Relocation of the first dampening roller 5 with the dampening roller 4 in constant effective engagement with the driving the gear 18.2 Gear 18.1.

The actuator 24 is preferably a pressurized fluid Extendable piston front surface and by pressurized fluid Retractable double-acting reciprocating piston cylinder, the piston rear surface Piston rod on the eccentric bearing 27 is articulated eccentrically. The the rotation the first dampening roller 5 driving rotary drive 10, which, like already described, one of the rotary drive 11 of the planographic printing form 1 separate electric motor or the rotary drive 11 itself can be over another gear transmission 19 with a traversing drive 39 for axial Oscillation of the first dampening roller 5 coupled in terms of drive. For example, the traversing drive 39 shown schematically in FIG. 4 a driven by the rotary drive 10 crank gear, which over one engaging a roll neck of the first dampening roll 5 vibrating driving roller of the rotating first dampening roller 5 a forces axial friction stroke movement.

In between the contact point of the dampening roller 4 to Connection roller 3 and the contact point of the dampening roller 4 for Transfer roller 21 lying peripheral region is a second Dampening roller 6 in constant contact with the dampening roller 4. The second dampening roller 6 is a so-called rider roller, which is also designed as an axially oscillating friction roller. The second Dampening roller 6 is rotatable in a roller support 26 fixed to the frame stored. The second dampening roller 6 is the relocations of Moist application roller 4 in its positions 4.1 and 4.2 trackable by the Roller axis of the second dampening roller 6 in a compensating movement the second dampening unit roller 6 enables guidance in the roller carrier 26 is led. A linear guide preferred for this purpose can, for example, consist of a round slot nut, which is a roll neck of the second Dampening roller 6, as shown at least partially encloses as a bushing or which can be attached as a roller coaxially to the roll neck. The Sliding block 37 is guided in a groove or a slot in the roller carrier 26 and attached to a coupling 44. Such a schematic in FIGS. 2 and 3 indicated and unspecified guidance is the second on both sides Dampening roller 6 arranged.

The dampening roller 4 and the second dampening roller 6 are rotatable in Coupling 44 stored. By an adjusting device, not shown, for. B. a screw, is the center distance and thus the width of the press strip Rollers 4 and 6 adjustable by adjusting the second dampening roller 6.

As an alternative to the embodiment shown, the second dampening roller 6 the displacement of the dampening roller 4 pivotally following Roller carrier 26 are held.

In Fig. 4 it is shown that the second dampening roller 26 one in the Roller body integrated so-called inner traversing drive 38, which additionally the rotary movement of the second dampening roller 6 into a positive-locking gearbox in an axial oscillation. The Traversing drive 38 can be, for example, a cam mechanism. The axial Oscillation of the second dampening roller 6 is over by the rotary drive 10 the rotationally driving the second dampening roller 6 Dampening roller 4 causes.

4 is the storage of the rollers 4 and 5 on the so-called drive side of the printing press shown. On this one opposite, so-called operating side of the, not shown Printing machine 8, the rollers 4 and 5 in a substantially that Roller carrier 25 corresponding further roller carrier and in the Eccentric bearings 27 and 28 essentially corresponding others Eccentric bearings. The drive-side adjustment device 9 shown can via a synchronization gear with the operator side, not shown Adjustment device be coupled so that both adjustment devices are simultaneously rotatable by the actuator 24. In the simplest case it can the eccentric bearing 27 with respect to this, based on a vertical axis, Operator-side eccentric bearing designed in mirror image by a for Central axis 36 of the eccentric bearings and eccentric on both eccentric bearings fastened connecting rod to be connected, so that tilting of the Rollers 4 and 5 are excluded when moving.

An advantage of the device shown in FIGS. 1 to 4 is not only that the dampening roller 4 with the moistening of the planographic printing plate 1 with deviating from the peripheral speed of the planographic printing plate 1 Circumferential speed rotates and thus located on the planographic printing plate 1 Contamination from this decreases. It is also contemplated that the first Dampening roller 5 from the rotary drive 10 during the moistening positively driven and the first dampening roller 5 on the Moist application roller 4 rests when the latter on the connecting roller 3 is applied. This opens up the possibility of also using the inking unit 42 coupled operation of the dampening unit 7 on the dampening roller 4 even dampening solution. There is also a rotary drive the dampening roller 4 both in their position 4.1 and in their Position 4.2 on the friction taking through the first dampening roller 5 possible.

In the dampening unit 7 shown, it is no longer absolutely necessary that the dampening roller 4 in the dampening of the planographic printing plate 1 in oscillates in the axial direction. It has been shown that in many cases an axially non-moving dampening roller 4 a more uniform Moisture can be achieved than with an axially oscillating Dampening roller is the case. The fact that the rollers 4 and 5 by the Roller carrier 25 are kept in constant circumferential contact with one another and the adjusting device 9 a shift with permanent retention of the means consisting essentially of the eccentric bearing 28 Adjustment device set axis distance A is the so-called press strips of the rollers 4 and 5 absolutely stable. The press strip is one along the line of contact between rollers 4 and 5 extending circumferential flattening of the comparatively soft and For example, dampening roller 4 rubberized on the outside.

The first dampening roller 5 is comparatively hard and, for example metals and preferably has a rough or one with rough elevations and / or depressions structured peripheral surface, which is chrome-plated. In contrast to known dampening systems (DE-U-91 10 345) can on the first Do not dry the ink on the dampening roller 5, for example, when the dampening unit 7 of that shown in FIG. 2 "Direct moistening" mode in the "indirect mode" shown in FIG. 3 Moisture "is switched or coupled to the inking unit 42. This Switching is not only at a standstill in the dampening unit 7 shown but also possible with the printing press 8 running. The actuating device 9, the displaceable roller carrier 25 and the roller carrier 26 ensure that the dampening rollers 5 and 6 both at the planographic printing forme 1 employed dampening roller 4 as well as from the planographic printing form 1 parked dampening roller 4 and thus in permanent contact with the Apply dampening roller 4.

Another advantage over that known from the prior art and The above-mentioned dampening system consists in the fact that in the illustrated dampening system 7 the first lying exclusively on the dampening roller 4 Dampening roller 5 by means of an inking unit 42 assigned Cleaning device 43 can be washed. The Cleaning device 43 comprises a z. B. trained as a spray tube Cleaning liquid supply to a roller of the inking unit 42 and one a roller of the inking unit 42 adjustable squeegee with one of the roller scraped ink collecting squeegee tray. To clean the Dampening unit 7 is the peripheral contact between rollers 4 and 21 can be canceled and the dampening roller 4 in its position 4.2 to the The connecting roller 3 is turned on so that the cleaning device 43 cleaning fluid introduced into the inking unit 42 via the rotating one Connection roller 3 reaches the rotating dampening roller 4 and from the latter thus on the dampening rollers 5 and 6, which is thus of the Cleaning device 43 are cleaned and not manually by the printer need to be cleaned.

LIST OF REFERENCE NUMBERS

1

Lithographic printing plate

2

Inking roller

3

connecting roller

4

Dampener roller

4.1

distance position

4.2

contact position

5, 6

Pan roll

7

dampening

8th

Lithographic printing press

9

adjustment

10, 11, 12

rotary drive

13

printing unit

14

Plate cylinder

15

Blanket cylinder

16

Impression cylinder

17

gear transmission

18.1, 18.2, 18.3, 18.4

gear

19, 20

gear transmission

21

transfer roller

22

dipping roller

23

Dampening solution container

24

actuator

25, 26

roll carriers

27, 28

eccentric

29

worm

30

slug

31, 32

roll neck

33

jack paragraph

34 to 37

central axis

38, 39

Traversing drive

40

control device

41

Side wall

42

inking

43

cleaning device

44

paddock

45

roll carriers

A

wheelbase

W

Platen Gap

e ₂₇ , e ₂₈

eccentricity

Claims (7)

1. Dampening unit (7) of a planographic printing press (8), the dampening unit (7) comprising a first dampening unit roller (5) in exclusive engagement with a dampening form roller (4), which, in an engaged position (4.2), is in engagement with a connecting roller (3) connecting the dampening unit (7) with an inking unit (42) and which is displaceable from a disengaged position (4.1) spaced apart from the connecting roller (3) into the engaged position (4.2), and the first dampening unit roller (5) being drivable by a rotary drive (10),
   characterized in that the first dampening unit roller (5) is drivable by the rotary drive (10) in a form-locking manner and, as a distributor roller, is supported so as to traverse axially.
2. Dampening unit according to claim 1,
   characterized in that the dampening form roller (4) and the first dampening unit roller (5) are jointly displaceable by means of the adjusting device (9), so that the dampening form roller (4) is displaceable from the disengaged position (4.1) into the engaged position (4.2) with respect to the connecting roller (3) and the first dampening unit roller (5) is entrainable in the process while remaining in continuous engagement with the dampening form roller (4).
3. Dampening unit according to claim 1 or 2,
   characterized in that a second dampening unit roller (6) is in exclusive engagement with the dampening unit roller (4).
4. Dampening unit according to claim 3,
   characterized in that the dampening form roller (4), the first dampening unit roller (5), and the second dampening unit roller (6) are jointly displaceable by the adjusting device (9) so that the dampening form roller (4) is displaceable from the disengaged position (4.1) into the engaged position (4.2) with respect to the connecting roller (3) and both the first dampening unit roller (5) and the second dampening unit roller (6) are entrainable in the process while remaining in continuous engagement with the dampening form roller (4).
5. Dampening unit roller according to one of claims 1 to 4,
   characterized in that the adjusting device (9) comprises an eccentric bearing.
6. Dampening unit according to one of claims 1 to 5,
   characterized in that the dampening form roller (4), which is, in the engaged position (4.2), is in engagement with the connecting roller (3) is drivable by the rotary drive (10) so as to roll on a planographic printing form (1) with slippage with respect to the planographic printing form (1).
7. Planographic printing press (8), in particular offset rotary printing press, with at least one dampening unit (7) constructed in accordance with one of claims 1 to 6.

Images