EP1110722A1 - Offset printing machine - Google Patents

Abstract

The drive system for the printing, folding, cutting and other processes is simplified by using a single drive motor (7) and coupling gear trains (8,10,19,20) with bearings in side panels (5,6).

Description

The invention relates to drives and drive methods for cylinders and Functional groups of offset printing machines.

Offset printing machines usually have a longitudinal shaft, which by a or several electric motors is driven (DE 42 19 969 A1). of this The longitudinal shaft branches off the drive shafts via gearboxes and clutches on the printing units, unwinds, folding units and functional groups, such as for example pull and transfer rollers, hopper rollers, cutting rollers, Cooling plants, is driven. The gears usually contain additional clutches and Gears. The drive is therefore technically very complex and expensive.

The object of the invention is a cylinder in an offset printing machine and drive functional groups with little technical effort and for this To create methods and devices.

The object is solved by the features of the independent claims. With The single motor drive can use shafts, gears, clutches and gears omitted. In addition, the electrical components are not required for the above-mentioned components Monitoring equipment.

Further advantages and features emerge from the subclaims in Link with the description.

This divisional application differs from that originally submitted application (parent application) only in that in the this divisional application for features that relate to the default setting of Printing units regarding adaptation to different web paths and / or Production configurations, the turning of the clamping pits in one position for the plate change and the setting of the cutting register of a turning strand by means of length adjustment device and adjustment of the cutting register of the web no protection is claimed. Not the subject of the divisional application are the subject of claims 1 to 11 of parent application 95 113 017.8 as amended in accordance with Rule 51 (4) EPC of 27.09.2000.

Fig. 1 bis 4

verschiedene Druckeinheiten mit Antrieben in der Seitenansicht,

Fig. 5

die Draufsicht der Druckeinheit nach Fig. 1,

Fig. 6 bis 9

verschiedene Druckwerksbrücken mit Antrieben,

Fig. 10

die Draufsicht der Druckwerksbrücke nach Fig. 6,

Fig. 11 bis 14 und 16 bis 19

weitere Varianten von Antrieben,

Fig. 15

die Draufsicht der Druckeinheit nach Fig. 11,

Fig. 20

die Draufsicht der Druckeinheit nach Fig. 16,

Fig. 21 und 21.1

eine Druckmaschine mit Funktionsgruppen,

Fig. 22 und 22.1

jeweils eine Falzeinheit mit Funktionsgruppen,

Fig. 23

eine Vorrichtung zur Farbregisterverstellung der Druckformen eines Formzylinders,

Fig. 24

eine Vorrichtung zur Farbregisterverstellung von Druckstelle zu Druckstelle,

Fig. 25

eine Vorrichtung zur Schnittregisterverstellung,

Fig. 26

eine Vorichtung zur Einstellung der Plattenwechselposition,

Fig. 27

den Antrieb eines Farb- und Feuchtwerkes in der Seitenansicht,

Fig. 28

eine weitere Variante des Antriebs eines Farb- und Feuchtwerkes,

Fig. 30

die Ansicht der Reibzylinder aus Fig. 29,

Fig. 31

die Anordnung eines Elektromotors an einem Formzylinder,

Fig. 32

eine weitere Variante der Anordnung eines Elektromotors,

Fig. 33

eine dritte Variante der Anordung eines Elektromotors,

Fig. 34

die Ansicht Y aus Fig. 33.

The invention will be explained in more detail below using a few exemplary embodiments. The accompanying drawings show schematically:

1 to 4

different printing units with drives in side view,

Fig. 5

the top view of the printing unit of FIG. 1,

6 to 9

various printing unit bridges with drives,

Fig. 10

the top view of the printing unit bridge according to FIG. 6,

11 to 14 and 16 to 19

further variants of drives,

Fig. 15

11 shows the top view of the printing unit according to FIG. 11,

Fig. 20

16 shows the top view of the printing unit according to FIG. 16,

21 and 21.1

a printing press with functional groups,

22 and 22.1

one folding unit each with functional groups,

Fig. 23

a device for color register adjustment of the printing forms of a forme cylinder,

Fig. 24

a device for adjusting the color register from printing point to printing point,

Fig. 25

a device for cutting register adjustment,

Fig. 26

a device for setting the plate changing position,

Fig. 27

the drive of an inking and dampening unit in side view,

Fig. 28

another variant of the drive of an inking and dampening unit,

Fig. 30

the view of the distribution cylinder of Fig. 29,

Fig. 31

the arrangement of an electric motor on a forme cylinder,

Fig. 32

another variant of the arrangement of an electric motor,

Fig. 33

a third variant of the arrangement of an electric motor,

Fig. 34

the view Y from FIG. 33.

In the figures 1 to 4 printing units are shown that of each driven by a separate, angle-controlled electric motor become. In Fig. 1, the printing unit contains two of one each Forme cylinder 1.1, 1.2 and a transfer cylinder 2.1, 2.2 Formed printing units 3, 4. Each form and transfer cylinder 1.1, 1.2, 2.1, 2.2 is mounted with its pegs in side walls 5, 6 (Fig. 5). On the operator side wall 5 is a arranged angle-controlled electric motor 7, the forme cylinder 1.1 drives. about the formation of this drive connection statements made later. The pins stored in the side wall 6 each have a spur gear 8 to 11 with which the cylinders 1.1, 1.2, 2.1, 2.2 with the adjacent cylinder in drive connection stand. Thus, the electric motor 7 (following in Fig. 1 symbolically represented by hatching) all four cylinders driven.

In Fig. 2, the printing unit shown in Fig. 1 is about Printing unit 12 with the forme cylinder 1.3 and the transfer cylinder 2.3 added. The printing unit 12 is attached to the printing unit 4, whereby, not shown, the drive-side pins also Wear spur gears and the spur gear of the transfer cylinder 2.3 is in engagement with the spur gear 11 of the transfer cylinder 2.2.

About these spur gears 8 to 11 are all cylinders with the Forme cylinder 1.1 in drive connection and are from the electric motor 7 driven.

In Fig. 3 are to the printing units 3, 4 of FIG. 1 cooperating printing units 13, 14 with the forme cylinders 1.4, 1.5 and the transfer cylinders 2.4, 2.5 have been added. Not each pin on the drive side of cylinders 1.4 is shown, 1.5, 2.4, 2.5 a spur gear, with which the cylinders in one another Stand by. Furthermore, the spur gear 11 of the transfer cylinder 2.2. via a gear chain 15 with the spur gear of the transfer cylinder 2.5 in drive connection, so that all cylinders are driven by the electric motor 7.

The printing unit according to FIG. 4 is still one compared to FIG. 3 Satellite cylinder 16 added. This carries on the drive side Pin, not shown, a spur gear. On the latter as well as on that The spur gear of the forme cylinder 1.4 drives one of the spur gear 8 Forme cylinder 1.1 outgoing chain 17, so that all the cylinders Printing unit are driven by the electric motor 7.

In the following figures 6 to 20 are recurring spatial arrangements of cylinders and printing units from the Figures 1 to 5 described for the sake of simplicity Item numbers reused, regardless of any structural Differences. Figures 6, 7 and 10 show bridges, i. H. Parts of printing units which correspond to those in FIGS. 1, 2 and 5 described printing units match and therefore not are explained again in more detail.

In FIG. 8, the wheel chain 15 has been omitted compared to FIG. 3. The resulting lower printing unit bridge (double printing unit) with the Forme cylinders 1.1 and 1.2 and the transfer cylinders 2.1 and 2.2 is driven in the same way as in Figures 6 and 7. The resulting upper printing unit bridge with the form cylinders 1.4, 1.5 and The transfer cylinders 2.4, 2.5 is controlled by an angle Electric motor 7 driven, which engages the forme cylinder 1.4. The latter drives on the pin via spur gears, not shown the cylinder 1.4, 2.4, 2.5, 1.5 on this.

In Fig. 9 the situation is similar to Fig. 8. It will only from the forme cylinder 1.1 a satellite cylinder 16 by means of Gear chain 18 driven. Same or different types Printing unit bridges of Figures 6 to 9 can be different Printing units can be combined. You can also use the following drive cases described above are used.

In the exemplary embodiments described so far, anyone can other form, transfer or satellite cylinders from Electric motor are driven.

The double printing unit shown in FIG. 11 contains the printing units 3, 4 each with a forme cylinder 1.1, 1.2 and one transfer cylinder 2.1, 2.2. These cylinders are equally in Side walls 5, 6 are mounted (FIG. 15), as in FIGS. 1 and 6. However, each printing unit 3, 4 has its own angle-controlled electric motor 7, namely each the forme cylinder 1.1 or 1.2 driven. The drive side Pins of the forme cylinders 1.1, 1.2 each have a spur gear 8, 19, with which they each with a spur gear 10, 20 on the pin of Comb transfer cylinder 2.1, 2.2. The spur gears 8, 10 and 19, 20 are in two different levels because the transfer cylinder 2.1, 2.2 must not be in drive connection with each other. On the operator-side pin of the forme cylinder 1.1, 1.2 engages in each case an angle-controlled electric motor 7 and drives the printing units 3, 4 on.

In the previous and following embodiments the electric motors each on the forme cylinders. Instead it is also possible to drive the transfer cylinders. As such Example drive in the printing unit according to FIG Electric motors 7 each transfer cylinder 2.1, 2.2, 2.3 of the Printing units 3, 4, 12. These are then made using spur gears the drive of the associated forme cylinder 1.1, 1.2, 1.3. Analogously to Fig. 15, the spur gears of the printing unit 4 and Printing unit 3 are not in one plane, nor is that Spur gears of printing units 4 and 12.

13, the forme cylinders 1.1, 1.2, 1.4, 1.5 of the printing units 3, 4, 13, 14 of one each angle-controlled electric motor 7 driven. Of these, by means of Spur gears of the respective associated transfer cylinders 2.1, 2.2, 2.4, 2.5 driven. The spur gear drives working together Printing units are each on two different levels.

Analogously to FIG. 13, the printing units 3 are driven in FIG. 14, 4, 13, 14. In addition, the satellite cylinder 16 is one separate, angle-controlled electric motor 7 driven.

In the printing units according to FIGS. 16 to 19, everyone Forme cylinders 1.1 to 1.5 and each transfer cylinder 2.1 to 2.5 and, if available, the satellite cylinder 16 of one each separate, angle-controlled electric motor 7 driven. Warehousing the cylinder takes place in the same way as in the previous exemplary embodiments the side walls 5, 6. Deviating from the previous ones However, the electric motors 7 are each exemplary embodiments on Pins of the so-called drive side S 2 arranged (Fig. 20). Likewise, the electric motors could also be on the operator-side pins to be appropriate. Also in the previous ones Embodiments of the electric motors 7 on the drive side Be attached. When equipping everyone Printing unit with its own drive motor (Fig. 11 to 14) can the individual printing units work well together are driven in a coordinated manner. With each drive separately Cylinder (Figures 16 to 19) is the unwindable drive even between the form and transfer cylinders 1, 2 of a printing unit possible. In addition, all gear drives and the otherwise necessary lubrication, gearbox encapsulation etc., resulting in huge cost savings. In addition, there is no need for desired printing unit controls mechanical (and electrical) devices as a result of this Reversal of the direction of rotation of the driving motors is accomplished.

In the exemplary embodiments, a printing group always contains a form and a transfer cylinder and works with one Printing mechanism based on the rubber-rubber principle or with a satellite cylinder together. Such a printing unit can also be used with a Impression cylinders are added to a three-cylinder printing unit, each cylinder powered by a separate electric motor or only one cylinder is driven by an electric motor and the three cylinders are in drive connection via gearwheels.

The angle control of the electric motors is carried out by means of Computer engine controls as part of machine control. The motors are accordingly connected to these systems. The Regulations are not the subject of the invention, so that There are no representations or explanations.

With separate electric motors, others can also be advantageously used Drive functional groups of printing machines. 21 is one Printing machine in side view and in Fig. 22 a folding unit shown in the view with such functional groups. The 21 includes four printing units 21 to 24 and a folding unit 25. The printing units 23 and 24 are similar driving the printing unit shown in Fig. 17, the Printing units 21 and 22 are similar to that shown in Fig. 18. The Drive motors of the cylinders as well as the one below Function groups described are symbolic with an "M" or Hatching marked. The folding unit shown in Fig. 22 contains the folding units 26 and 27. In FIG. 21 are the feed units 28, the cooling rolls 29, the cutting rolls 30 and the hopper rolls 31 of a separate, angle-controlled electric motor 33.1 to 33.5 driven. The electric motors overdrive indirectly Belt the cylinders of these functional groups. Fig. 21.1 shows the same printing press, with each cylinder of these functional groups is driven directly by a motor.

22, the hopper rollers 31 and the pull and Over rolls 32 each of a separate, angle-controlled Electric motor driven directly. Also the two folding units 26 and 27 each have a separate, angle-controlled motor, the one folding cylinder each, here the knife cylinder 143, 144, directly drives. The other folding cylinders protrude with this cylinder spur gears arranged on their journals.

22.1, the former rolls 31 and the pull and transfer rollers 32 each have a common motor indirectly driven by a toothed belt. The only one Folding unit 27.1 is controlled by a separate, angle-controlled Electric motor driven. The drive takes place indirectly by means of Belt drive on the puncture folding knife cylinder, for example 145. With this the other folding cylinders stand with theirs Cylinder wheels in drive connection. With these electric motors a sensitive adjustment of the speed of the driven cylinders possible. For groups with advance regulation then is also the web tension can be adjusted accordingly. Surrender too great cost advantages from the elimination of such Drives previously common PIV transmissions.

The separate electric motor driving directly onto a forme cylinder is also advantageous as an actuator for color register adjustment usable. 23 shows a device for color register adjustment in a double printing unit with the printing units 34 and 35, each a forme cylinder 36, 38 and a transfer cylinder 37, 39 contain. The device is based on the forme cylinder 38 described, which carries two printing forms on the circumference. The the Form cylinder 38 driving electric motor 40 is powered by a Computer engine control 41 angle-controlled. Furthermore, a Position transmitter 42 of the printing unit 35 and the register marks of the web 43 leaving the printing unit 35 scanning the transducer 44 connected to a comparison device 45, the output of which the input of the computer engine control 41 is performed. The Transducer 44 scans from printing unit 35 onto web 43 printed register marks and thus determines the position of the two images printed per revolution of the forme cylinder. With the signal of the position transmitter 42 is in the Comparison device 45 the reference to the rotation of the forme cylinder 38 manufactured. With a staggered arrangement of a print image in Circumferential direction to half the circumference of the forme cylinder, d. H. at a arrangement of the printed image deviating from half the circumference, the Forme cylinder 38 before printing in this area with a balancing pre or post retracement. This is done using the Computer engine control according to the output signal of the Comparator 45 accomplished. With this you can for example copying errors or assembly errors of the printing form be balanced. Accepting certain cuts to the Registration quality at the start of printing can be the acceleration or Delay phase can also be extended into this area, whereby the electric motor is dimensioned with lower power can be.

The device shown in Fig. 24 is used to control the Circumferential register between two printing points, here between the printing unit 46 and 47. The from these printing units 46, 47 on the web 48 Printed registration marks are scanned by sensors 49, 50. The signals from the sensors 49, 50 are in the Comparator 51 passed. This gives the comparison result to the computer engine control 52. This controls the speed of the Forme cylinder 53 of the printing unit 47 driving electric motor 54. Each after changing the register to the printed image of the printing unit 46 the electric motor 54 is operated with advance or lag. If also the transfer cylinder 55 from a separate electric motor is driven, this is also with a registration correction corrected advantageously with regard to its speed. The device is according to the number of registers to be checked to be used accordingly in many ways or in a fully expanded manner. With the device, the traditional can be expensive mechanical gear z. B. sliding wheels Circumferential register adjustment of the forme cylinders can be saved.

Thanks to the individual drive of the printing units, different ones can also be used Paper paths between different printing units without that Requires additional length adjustment facilities be driven. In the printing machine shown in Fig. 21 for example, web 55 can either be from printing unit 23 to Printing unit 21 or on the path shown in dashed lines to Printing unit 22 are performed. According to the different The printing units of the printing units 21 and 22 are removed by means of their Drive motors moved into the required position. This is the computer motor control 56 of the electric motors on the input side a computing and storage unit 57 in which the required cylinder positions are stored. These will depending on the web run the computer engine control 56, which the Form and transfer cylinders by controlling their Electric motors moves into the required positions.

In addition, the computing and storage unit 57 for the possible web runs the cylinder positions of the printing units for the Cutting register saved. For cutting register setting according to the selected production configuration of the Computer engine control 56 the required cylinder positions specified. Adjusted according to the specification Computer motor control 56, the drive motors of all the web 55 printing units. The cutting register for cutting in the folder is about the cylinder positions of everyone involved in the printing Printing units set. The usual, costly linear register devices. Only for that Such a length adjustment is still necessary for the turning strand. The one containing the cylinder positions for the cutting register The computing and storage unit can also be used for computer engine control 66 of the device shown in FIG. 25, described below be guided, this device then both the Cutting register regulation as well as adjustment serves.

Thanks to the separate drives of the printing units can also under Elimination of previously common connecting elements, such as synchronous shafts, Couplings, gears and positioning devices, Printing press associations can be put together variably. about a corresponding control program can, for. B. that according to FIG. 21 the folding unit 25 connected printing units 21, 22, 23 or some of these printing units also another not shown Folding unit can be assigned.

25 shows a device for cutting register control. It for example, the printing units 58 to 61 print a web 62. a Transmitter 63 scans a printed register mark. The Sensor 63 and the position sensor 64 of an electric motor a traversed printing unit, advantageously the first traversed printing unit 59, are on the inputs of a Comparator 65 connected, the output side with the Input of the computer motor control of the electric motors of the printing units 58 to 61 is connected. One in the comparison device 65 Register errors are determined by leading or lagging Drive of the printing units 58 to 61 printing the web 62 through appropriate control of their electric motors by means of Computer engine control 66 adjusted.

Fig. 26 shows a device by means of which the forme cylinders in a position suitable for changing the shape. The Printing unit of the exemplary embodiment contains two printing units 67, 68 each with a forme cylinder 69, 70 and a transfer cylinder 71, 72. The drive motors of the printing units 67, 68, which are here For example, the transfer cylinders 71, 72 drive are also available a computer engine control unit 73, which is operated by a computer and Storage unit 74 is fed. In the arithmetic and Storage unit 74 are the cylinder positions of the forme cylinders 69, 70 stored for the printing form change. These positions will be the computer engine control 73 specified that the electric motors Controls printing units 67, 68 such that the clamping pits 75, 76 of the Forme cylinder 69, 70 in the shortest possible way into the plate changing position be driven. It is the same as the previous ones Embodiments regardless of whether in a printing unit Transmission or the forme cylinder or both cylinders driven become. With the help of this device, the previously customary is eliminated time-consuming individual disengagement of the printing units, the subsequent one Position the printing units and their engagement after the Change printing form.

The distribution cylinders of inking and dampening units are also advantageous driven with separate drives. Fig. 27 shows a printing unit with a transfer cylinder 77.1 and a forme cylinder 78.1, wherein an inking unit 79.1 and a dampening unit 80.1 are arranged on the latter are. The inking unit 79.1 contains u. a. the ink rubbing cylinders 81.1 and 82.1, and the dampening unit 80.1 the dampening cylinder 83.1. Everyone Distribution cylinder 81.1, 82.1, 83.1 carries a spur gear 84.1, 85.1, 86.1, which are all in engagement with a central wheel 87. The Central wheel 87 is driven by an angle-controlled electric motor 88 driven. In the exemplary embodiment, the central wheel 87 is not shown, on the rotor journal of the electric motor 88. Likewise the electric motor could also be arranged next to the central wheel 87 be and engage it with a pinion. The electric motor 88 drives both ink rubbing cylinders 81.1, 82.1 and the Wet friction cylinder 83.1.

28, the ink rubbing cylinders 81.2 and 82.2 are replaced by one angle-controlled electric motor 89 driven. The dampening cylinder 83.2 of the dampening unit 80.2 is controlled by an angle Electric motor 90 driven. The electric motor 89 drives directly the ink rubbing cylinder 82.2. This carries a spur gear 85.2 with which it via an intermediate gear 91 to a spur gear 84.2 of the ink distribution cylinder 81.2 drives.

Fig. 29 shows a drive variant, according to which each ink rubbing cylinder 81.3, 82.3 of the inking unit 79.3 and the dampening cylinder 83.3 of the Dampening unit 80.3 from a separate, angle-controlled electric motor 92, 93, 94 is driven. With this drive the color and Dampening units no longer have any conventional gears.

In addition to the advantageous controllability of the speed of the Ink rubbing cylinder for the drive using a separate, angle-controlled Lateral rubbing is also favorable for electric motors customizable. Fig. 30 shows the side view of the color and Wet friction cylinders 81.3, 82.3, 83.3, in side walls 95, 96 are stored. On each pin 97 to 99 of these cylinders 81.3 to 83.3, which is advantageous as the rotor of the driving Electric motors 92 to 94 are formed, z. B. a Linear motor 100 to 102. The angle-controlled electric motors 92 to 94 are controlled by a computer engine control 103. The Motor controller 103 advantageously controls linear motors 100 to 102 with the same sequence of movements. This is advantageous sinusoidal course of the traversing movement, the friction strokes are mutually offset by 120 ° in phase. It will A mass balance is achieved, which stimulates vibrations is switched off across the machine axis. The setpoint of the axial Hubes is advantageously selectable. The current position the color driver 81.3, 82.3, 83.3 becomes the motor control of sensors 140 to 142 reported. The interpretation of the Traversing speed is linearly proportional to the speed of the Printing press.

Short inking units are also advantageous with separate, for example angle-controlled electric motors. So they can Anilox roller and the inking roller together by one or are individually driven by one electric motor each.

The cylinders are as rigid as possible for an exact drive Coupling with the electric motor important. Below will be brought constructive embodiments for this. 31 shows a forme cylinder 105, the pin 106, 107 in Side walls 108, 109 of the printing press is supported. Pins 106, 107 wear flanges 110, 111, with which they on the front sides of the Cylinder body are screwed. The pin 106 is a rotor 112 of the electric motor 113 driving the forme cylinder, d. H. it carries the elements of the rotor at its elongated end. The stator 114 is attached to the side wall 108. On pin 106 continues to engage a device for lateral displacement of the Forme cylinder 105 for the side register adjustment. For example, a linear motor 115 is used for this. It could e.g. B. also an engine in connection with one of its Rotary motion in a linear motion forming gear be used. The shift amount Z of the page register is dimension so that when the pins 106, 107 move away from both sides by Z / 2 from the forme cylinder body this is released and can be removed from the printing press. Then it is one sleeve-shaped printing form of the forme cylinder 105 changeable. In A similar type of distribution cylinder can also be designed, the Friction stroke to expose the cylinder body of the distribution cylinder can be used.

32 shows the drive-side part of a forme cylinder 116 the pin 117 of the rotor 118 of an electric motor 119 on the end face is screwed on. The stator 120 of the electric motor 119 is put together with a bush 121 attached to it, which the bearing 122 of the Forme cylinder 116 contains, recorded in end shields 123, 124.

The end shields 123, 124 can be moved apart and give in apart, an opening 125 of the side wall 126 the press free. Then through the exposed opening 125 a sleeve-shaped printing form 139 through to or from the Forme cylinder 116 feasible. The contour of the printing form passed through 139 is indicated by dash-dotted lines. Solutions for execution and Actuation of the end shields 123, 124 and holding the Forme cylinder 116 suspended at its other end exposed opening 125 offers the prior art, so that on it is not discussed in more detail. Likewise, a Transfer cylinders are exposed, and the engine design is equally with transfer cylinders and other cylinders from Printing machines applicable. It is advantageous in the shown Design options also that an independent pre-assembly of The rotor and stator of the electric motor can be carried out.

Fig. 33 shows the attachment of the stator 127 of an electric motor 128 on the eccentric ring 129 of a three-ring bearing 130 one in the Side wall 131 mounted cylinder. It can be this for example, a transfer cylinder, of which only pin 132 is shown. By twisting the eccentric Bearing ring 129 can, for example, turn the pressure on and off respectively. This attachment of the stator 127 takes place advantageous to carry it with the on and off movement of the Pin together with the rotor 133 attached to it the stator 127 is attached to a flange 134 which is attached to the bearing ring 129 is screwed on. The flange 134 is held down by 135 Sidewall 131 axially fixed and takes the tilting moment from the Weight of the stator. The actuation of the bearing ring 129 is shown in Fig. 34. The bearing ring 129 carries a hub 136 the pressure on and off mechanism, for example a lever 137, attacks. In the pressure adjustment, the bearing ring 129 strikes advantageous on a frame-fixed, conveniently adjustable Stop 138 and thus takes the corresponding direction of rotation of the Provided the counter torque of the stator 127 on. at the strong dimension takes another direction of rotation of the cylinder Pressure on and off mechanism the counter torque. It is advantageous the cylinder bearing has no play.

In the exemplary embodiments, angle-controlled electric motors are used for driving the cylinders and functional groups. Under Use of the invention in drive cases with not too high Requirements for synchronism, such as driving train elements and distribution cylinders, also speed or torque controlled Electric motors are used. Even the applied ones Computer engine controls may vary from case to case Motor controls can be realized.

Claims (36)

Offset printing machine with at least one printing unit with at least one forme and one transfer cylinder as well as with at least one folding unit and one drive, thereby characterized in that at least one of these per printing unit Cylinder with a separate electric motor (7) in Drive connection is established and this cylinder (1.1 to 1.5; 2.1 to 2.5) with an optional further one, from a separate one Electric motor directly or indirectly driven cylinder (1.1 up to 1.5; 2.1 to 2.5) not in mechanical drive connection stands. Offset printing machine according to claim 1, characterized in that in a printing unit with several interacting Printing units (3, 4, 12, 13, 14) a form or transfer cylinder (1.1 to 1.5; 2.1 to 2.5) of one Electric motor (7) is driven and this cylinder over Spur gears (8 to 11, 15, 17) with the other shape and transfer cylinders (1.1 to 1.5; 2.1 to 2.5) and optional a satellite cylinder (16) is in drive connection. Offset printing machine according to claim 1, characterized in that in a printing unit bridge of a printing unit a form or transfer cylinder (1.1 to 1.5; 2.1 to 2.5) of one Electric motor (7) is driven and this cylinder (1.1 to 1.5; 2.1 to 2.5) via spur gears (8 to 11) with the others Form and transfer cylinders (1.1 to 1.5; 2.1 to 2.5) this printing unit bridge and optionally a satellite cylinder (16) is in drive connection. Offset printing machine according to claim 1, characterized in that in a printing unit the forme cylinders (1.1 to 1.5) are each driven by a separate electric motor (7) and with spur gears (8, 10, 19, 20) with the respective associated transfer cylinder (2.1 to 2.5) in Drive connection. Offset printing machine according to claim 1, characterized in that in a printing unit, the transfer cylinder (2.1 to 2.5) each driven by a separate electric motor (7) be and with spur gears (8, 10, 19, 20) with the respective associated forme cylinder (1.1 to 1.5) in drive connection stand. Offset printing machine according to claim 1, characterized in that all form and transfer cylinders (1.1 to 1.5; 2.1 to 2.5) and possibly the satellite cylinder (16) from each be driven by a separate electric motor (7). Offset printing machine, in particular according to one of the previous ones Claims, characterized in that functional groups, in particular infeed units (28), cooling rollers (29), cylinders in Folding unit (26, 27), as well as groups with advance control, such as Cutting rollers (30) in front of the turning bars, funnel rollers (31) in Folder, pulling and transfer rollers (32), one each separate electric motor (33) driven directly or indirectly become. Offset printing machine, in particular according to one of claims 4 to 6, characterized in that for adjusting the Color register of the forme cylinder to be adjusted (1.1 to 1.5) driving electric motor (7) acts as an actuator. Offset printing machine, in particular according to one of claims 4 to 6 or 8, characterized in that for adjusting the Size register of several printed images on the size of one Forme cylinder (38) of a printing unit (35) to one another Position transmitter (42) of the printing unit (35) and a Register marks on the web leaving the printing unit (35) (43) scanning sensor (44) on a Comparison device (45) are connected, the output of which the input of the motor control (41) of the electric motor (s) (40) of the printing unit (35) is guided to their periodic Driving with the required lead or lag per Revolution. Offset printing machine, in particular according to one of claims 4 to 6 or 8, characterized in that for adjusting the Color register between two the web (48) in succession printing units (46, 47) two on the register marks the web (4) scanning the printing units Sensor (49, 50) on a comparison device (51) are switched, the output of which is connected to the input of the Motor control (52) of the electric motor (54) of to be adjusted printing unit (47). Offset printing machine, in particular according to one of the previous ones Claims, characterized in that for regulating the Cutting register one of at least one printing unit printed web (62) a transducer (63) for the Cutting register and a position transmitter (64) of an electric motor one of the printing units (58 to 61) printing on the web (62) a comparison device (65) is connected, the output of which to the input of the engine control (66) of the Electric motors of the printing units (58 to 61) is led to their leading or lagging drive to their required position. Offset printing machine, in particular according to one of the previous ones Claims, characterized in that all color and Wet friction cylinder (81.1, 82.1, 83.1) one color and one Dampening unit (79.1, 80.1) together by an electric motor (88) are driven. Offset printing machine, in particular according to one of claims 1 to 11, characterized in that all ink rubbing cylinders (81.2, 82.2) of an inking unit (79.2) from a common one Electric motor (89) are driven and the dampening cylinder (83.2) is driven by a separate electric motor (90). Offset printing machine, in particular according to one of claims 1 to 11, characterized in that all color and Wet friction cylinder (81.3, 82.3, 83.3) of a printing unit from each driven by a separate electric motor (92, 93, 94) become. Offset printing machine in particular according to one of claims 1 to 11, with an anilox roller and an inking roller containing short inking unit, characterized in that the Anilox roller and the inking roller from a common Electric motor are driven. Offset printing machine, in particular according to one of claims 1 to 11, with an anilox roller and an inking roller containing short inking unit, characterized in that the Anilox roller and the inking roller of one each separate electric motor can be driven. Offset printing machine according to one of the preceding claims a cylinder, especially forme cylinder, transfer cylinder or distribution cylinder, characterized in that the rotor (112, 118) of the electric motor (113, 119) with the cylinder (105, 116) is rigidly connected. Offset printing machine according to claim 17, characterized in that that the rotor (118) on the end face of a pin (117) of the Cylinder (116) is screwed. Offset printing machine according to claim 17, characterized in that that the pin (106, 107) of the cylinder (105) on the end face Cylinder body are screwed and the end of a pin (106) is designed as a rotor (112). Offset printing machine, in particular according to one of claims 17 to 19 with a forme cylinder, characterized in that a pin (106) a motor (115) for the Side register adjustment attacks. Offset printing machine, in particular according to one of claims 14, 17 to 19 with a distribution cylinder, characterized in that on a pin a motor (100, 101, 102) for the lateral Rubbing attacks. Offset printing machine with an inking unit and a dampening unit with three distribution cylinders, in particular according to one of claims 14, 17 to 21, characterized in that on each distribution cylinder (81.3, 82.3, 83.3) there is a motor (100, 101, 102) for the axial displacement thereof. attacks and the motors (100, 101, 102) are controlled by a motor controller (103) with the following parameters same sequence of movements of the three distribution cylinders sinusoidal course of the traversing movement Traversing movement linearly proportional to the speed of the offset printing press Offset of the friction strokes to each other by 120 ° phase Offset printing machine according to one of the preceding claims, characterized in that the stator (114) of the electric motor (113) firmly arranged on the side wall (108) of the printing press is. Offset printing machine according to one of claims 1 to 22, characterized characterized in that the stator (127) of the electric motor (128) an eccentric bearing ring (129) of the cylinder attached is. Offset printing machine according to claim 24, characterized in that that the eccentric bearing ring (129) carries a flange (134), with which he can take up tilting moments by means of hold-down devices (135) is held on the side wall (131), and the bearing ring (129) cooperates with a frame-fixed stop (138). Offset printing machine according to one of claims 1 to 22, 24 or 25, characterized in that the cylinder (116) with a Pins (117) in separable end shields (123, 124) stores an opening (125) in the Release the side wall (126) of the printing press through which one sleeve-shaped printing or transfer form (139) is feasible. Offset printing machine according to one of the preceding claims, characterized in that the electric motor (7) on the Operating side (S1) of the printing press is arranged. Offset printing machine according to one of claims 1 to 25, characterized characterized in that the electric motor (7) on the drive side (S2) of the printing press is arranged. Offset printing machine or cylinder of an offset printing machine according to one of the preceding claims, characterized in that the electric motor (7) is angularly controlled. Offset printing machine according to claim 20 or 21, characterized characterized in that the displacement amount (Z) of the forme cylinder (105) for the side register or the friction stroke of the Distribution cylinder (81, 82, 83) is dimensioned so that when moving away the pin unscrewed from the cylinder body of these cylinders (106, 107) the cylinder body can be removed from the printing press is. Procedure for adjusting the circumferential register of several Print images on the circumference of a forme cylinder of a printing unit, in particular according to one of claims 4 to 6, wherein the Printing unit prints register marks on the web that Register marks can be scanned with a transmitter whose Signals are compared with setpoint signals and based on the Comparison signal of the one driving the forme cylinder Electric motor periodically per revolution with the required Pre- or post-war is operated. Process for regulating the cutting register of one of at least one printing unit of an offset printing press printed web, in particular according to one of claims 1 to 6, wherein a printing unit prints a register mark on the web Sensor scans the register mark, the signal of the Is compared with a setpoint signal and based on the comparison signal all those printing the web Printing units with advance or retardation are driven until they take the required positions. Process for reversing a separately driven printing unit an offset printing machine, in particular according to one of the Claims 1 to 29, wherein the or the printing unit driving electric motors reversed in their direction of rotation become. Offset printing machine according to one of the Claims 7 to 30 characterized in that for presetting Printing units (21 to 24) to adapt to different Railway routes the motor control (56) of the electric motors of the printing units to be adjusted on the input side with a Computing and storage unit (57) are connected in the the cylinder positions to be set are stored. Offset printing machine according to one of claims 7 to 30, characterized in that for twisting the Forme cylinder (75, 76) in a position for changing the die Motor controls (73) of the forme cylinders (75, 76) driving electric motors on the input side with a computing and Storage unit (74) are connected, in which the cylinder positions to be set are stored. Offset printing machine, according to one of the Claims 7 to 30, characterized in that for adjusting the Cutting register of a printed web (55) the motor control (56) of the electric motors of the web (55) printing Printing units on the input side with a computing and storage unit (57) into which the cylinder positions for the cut registers are stored for the position of the Cylinders of all printing units printing on the web in the given positions.

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