EP0983846B1 - Rotary printing machine - Google Patents

Description

The invention relates to a rotary printing press according to the Preamble of claim 1.

US-A-3143962 discloses such a rotary printing press.

When the one carried by the plate cylinder and fixed with it connected printing plate in a special illustration or Imaging device, i.e. outside of the printing unit, with the the respective printed image, it is necessary to Printing cylinder when inserted in the printing unit to the one carrying it Align the shaft so that the pressure plate on the Printing cylinder transferred print image correctly to the one to be printed Object is aligned to which the printing cylinder Transfers the printed image. In view of the fact that in many Cases the number of objects printed in the same way so the lot is very small, there is a need to change the printing plate at short intervals. If the printing plate is firmly connected to the plate cylinder, means a frequent change of the pressure plate accordingly frequent changing of the plate cylinder. The necessary one Time is particularly important if, like this Usually the case with offset printing is the object successively with several partial print images different colors are provided, which result in an overall print image complete. This requires an appropriate number of printing units and thus also of plate cylinders in the rotary printing press.

The invention has for its object a rotary printing press of the type described above so that changing the plate cylinder to simple and less time-consuming Way can be done, it is also possible should be to adjust the respective plate cylinder so precisely, that the print image quality meets today's requirements. The requirements for the accuracy of the adjustment are especially very large if the object is consecutive is printed with several partial print images that exactly match each other must be aligned.

This task is accomplished by applying the in the characterizing part of the claim 1 listed features solved.

An embodiment has proven to be particularly expedient, in which the plate cylinder is also on the Drive shaft arranged collar is associated with the Stops is provided, and those attached to the plate cylinder Positioning means inserted into recesses on the collar and in the latter are brought into contact with attacks, which the position of the plate cylinder both axially and determine in the circumferential direction.

The use of conically tapered stops, which in Are adjustable in the direction of their longitudinal axis, has the advantage that the operating position of the plate cylinder relative to the shaft by simply axially moving the conical stop can be set very precisely.

A procedure has proven to be particularly advantageous where the imaging facility is also set up is that the positioning of the plate cylinder in the Imaging device with positioning in the printing unit matches, so that it is only necessary to the illustrated Remove the plate cylinder from the imaging device and to put on the drive shaft in the printing unit and there the alignment using the agents according to the invention to perform relative to the shaft without each time the Plate cylinder an adjustment of the stops for the purpose of Adjusting the position of the plate cylinder in the axial direction and would be required in the circumferential direction. On the other hand, it allows the invention but also a fast and above all accurate Adjust the plate cylinder in a simple way Cases where the stops for determining the position of the plate cylinder on the shaft for the first time or readjusted must be so that a quick change of Plate cylinder including the exact adjustment of the same is also possible if the position of the plate cylinder in the imaging device not in relation to the position of the plate cylinder is defined in the printing unit.

Of course, it is assumed in all cases that the The exact position of the plate carried by the plate cylinder fixed and defined in relation to the plate cylinder.

Fig. 1

die Seitenansicht eines Plattenzylinders,

Fig. 2

die dazugehörige Vorderansicht,

Fig. 3

die aus Antriebswelle, Plattenzylinder und zugehörigen Teilen bestehende Einheit in Seitenansicht,

Fig. 4

einen Schnitt nach der Linie IV-IV der Fig. 3,

Fig. 5

einen Schnitt nach der Linie V-V der Fig. 3,

Fig. 6

einen Schnitt nach der Linie VI-VI der Fig. 3,

Fig. 7

eine Einzelheit aus Fig. 2 in größerem Maßstab,

Fig. 8

die zugehörige Draufsicht,

Fig. 9

der zugehörige Längsschnitt.

In the drawing, an embodiment of the invention is shown. Show it:

Fig. 1

the side view of a plate cylinder,

Fig. 2

the associated front view,

Fig. 3

the unit consisting of drive shaft, plate cylinder and associated parts in side view,

Fig. 4

a section along the line IV-IV of Fig. 3,

Fig. 5

4 shows a section along the line VV in FIG. 3,

Fig. 6

4 shows a section along the line VI-VI of FIG. 3,

Fig. 7

3 shows a detail from FIG. 2 on a larger scale,

Fig. 8

the associated top view,

Fig. 9

the associated longitudinal section.

The plate cylinder interchangeably mounted on the shaft 10 12, which is preceded by an inking roller in the printing unit the printing plate, not shown separately, with the printed image has been provided. The from the ink roller on the Printing plate applied color will correspond to the printed image on the blanket of the not shown in the drawing Printing cylinder and from the printing blanket to the object to be printed transfer. These arrangements and procedures are the same Specialist, for example, in connection with offset printing machines readily familiar, so that it is not particularly explained here need to be.

The printing plate located on the plate cylinder 12 is in a special imaging or imaging station, for example provided with the printed image by laser, whereupon the Plate cylinder pushed onto the shaft 10 and on this is attached. Because there is a need for the printed image and thus the printing plate to the one to be printed in a certain way The plate cylinder must be adjusted accordingly be aligned to the drive shaft 10.

For this purpose, the plate cylinder with positioning means 16 and 18 provided, of which the positioning means 16 for determining the Position in the circumferential direction of the shaft or plate cylinder serves. The positioning means 16 is a cylindrical pin formed in a bore 17 on one end of the Plate cylinder 12 is inserted and one opposite Forms end face 14 protruding projection.

The positioning means 18 serves to determine the position of the Plate cylinder 12 relative to the shaft 10 in the direction of Longitudinal axis of the shaft or plate cylinder. It is part a T-piece 22, the web of which opposite the end face 14 of the Plate cylinder protrudes and forms the positioning means 18. The T-piece 22 is secured by two screws 20 which are threaded holes on the face 14 of the Engage plate cylinder 12, attached to plate cylinder 12. The two screws 20 extend through holes 26 which on Flange 24 of the T-piece 22 are attached.

In addition to the plate cylinder 12 arranged on the shaft 10 at a short distance from the end face 14 on which the Positioning means 16 and 18 are attached to a collar 30 the shaft 10 arranged on the latter via a radial Pin 32 is attached, which is used for fixation suitable plastic poured into a bore 34 in the collar 30 is. The collar 30, which is annular in cross section is provided with two flats that are perpendicular to each other form extending flat surfaces 36, 37.

The shaft 10 is in the area in which the collar 30 is located, with two substantially radial bores 38, 40th provided in the direction of the axial extension of the shaft 10 are offset from each other and essentially rectangular to each other. The first bore 38 settles on everyone End in a coaxial bore section located in the collar 30 42 or 43 continued such that the bore 38 in the Shaft 10 and the bore sections 42, 43 in the collar 30 to one Complete continuous recording in which a first adjustment bolt 48 is arranged. The second sits down accordingly Bore 40 at each end in a collar 30 Bore section 44 or 45 continues in such a way that second bore 40 and bore sections 44, 45 form a receptacle in which a second adjustment bolt 50 is arranged.

Since both adjusting bolts 48 and 50 are formed in the same way are only the first adjusting bolt 48 described. At its end facing flat surface 36 it has a section 52 which is opposite the surface 36 of the Collar 30 protrudes and with a fixed adjustment knob 56 is provided, by means of which the adjusting bolt 48 um its longitudinal axis can be rotated. To the bolt section 52 of smaller diameter closes on the outside with a Threaded section 53, which has an internal thread 55 is engaged, with which one facing the adjusting knob 56 Section of the bore 38 and the bore section 43 are provided. The threaded section 53 is included Bolt section 57 without thread, in order to achieve a exact fit is guided in a socket 59, which in the Adjustment knob 56 facing away from the area within the shaft 10 located bore 38 is inserted. To the bolt section 57 is followed by a conical section 60, which is in Direction on the adjusting knob 56 tapers and as a stop serves. The conical section 60 sits larger at its end Diameter in a shorter cylindrical bolt section 61 continues, with the interposition of a socket 63 in the bore portion 42 stored in the collar 30 with a close fit is.

Due to the engagement between the external thread on the bolt section 53 with the internal thread section 55 in the bore 38 of the shaft 10 has a rotation of the Justierbolzens 48 about its longitudinal axis at the same time an axial displacement the same with its conical section 60 in the in one direction or another.

The collar 30 has one of its plate cylinders 12 provided facing end face first recess 54, which is arranged so that the conical section 60 of the Bolt 48 is located within this recess 54 in which in the assembled state of the parts of the position of the Pin cylinder protrudes in the circumferential direction determining pin 16, as particularly shown in FIGS. 1 and 4. Determined the position in which the pin 16 with its lateral surface 62 is against the conical section 60, the position of the plate cylinder 12 in the circumferential direction. Due to the taper of the Section 60 has an axial adjustment of the same corresponding change in position of the pin 16 and thus the Plate cylinder 12 in the circumferential direction, so that by corresponding adjustment of the first adjusting bolt 48 and thus of the conical section 60 via the adjusting knob 56 the position of the plate cylinder can be determined in the circumferential direction can.

The collar 30 is provided with a second recess 58 which is arranged throughout such that the conical section 65 of the second adjustment bolt 50 within this second Recess 58 is located, the radial extension also can be slightly larger than the radial extension of the associated conical section 65.

The extension of each of the two recesses 54 and 58 in one The plane transverse to the longitudinal axis of the shaft 10 is significantly larger than the largest diameter of the conical section 60 or 65.

Prerequisite for the desired alignment of the plate cylinder 12 to the shaft 10 is that the two projections 16, 18 at Sliding onto the shaft 10 in the circumferential direction of the collar 10 assume a position such that they the recess 54 or 58 lie opposite each other in the collar 30 and thus engage in them, care should be taken that the projection 16 for fixing the circumferential position on the right side of the conical section 60 is inserted into the recess 54. The axial sliding is, as already mentioned, by the Impact of the frontal boundary surface 64 on the conical Section 65 of the second adjustment bolt limited, whereby the contact between this end boundary surface 64 and the conical section 65 the correct position of the plate cylinder 12 determined. Then the plate cylinder 12 is opposite the shaft 10 rotated about the shaft 10 until the pin-shaped projection 16 with its outer surface 62 on the conical section 60 of the first adjustment device. If this contact while maintaining the Contact between the web 18 and the conical section 65 the second adjustment device is a guarantee for the correct position of the plate cylinder relative to the shaft 10 given.

The aforementioned to determine its position in the circumferential direction normally required rotation of the plate cylinder 12 the shaft 10 also has a corresponding movement of the web 18 with respect to the conical section 65, so that the end face cooperating with the conical section 65 Boundary surface 64 of the web 18 extends in the circumferential direction should not be less than the extent the maximum rotation which the plate cylinder undergoes by pin 16 with its conical section 60 in To touch.

2 and 7 in particular show that the web section 66 at the free end of the projection 18 about the axis of rotation the shaft 10 is curved, so coaxial to Rotation axis runs. It is in longitudinal section through the Projection 18 forming web or section 66 of the same frontal boundary 64 profiled such that the latter along their center circle 68 has a projection 70 and thus an essentially punctiform contact between the front Limit 64 and the conical stop 60 comes, due to the arcuate shape of the projection 70 along the center circle 68 the frontal boundary of the Web 18 or the projection 70 always, d. H. independent of Position of the web 18 in the circumferential direction, with the same point of the conical stop 65 is in contact and thus a movement of the projection 18 about the axis of rotation of the shaft 10 and of the plate cylinder 12 does not lead to an axial change of position Plate cylinder 12 on the shaft 10 leads.

Each of the two adjustment bolts 48, 50 is more or less assigned elastically deformable plastic body 67, which by a screw 69 is pressed against the threaded portion 53 to such an unwanted rotation of the adjusting bolt 48 or 50 too prevent and him in as well as the stop carried by him to secure its set position. On the other hand, there is nevertheless - if necessary after loosening screw 69 - the possibility by manually turning the adjusting knob 56 Adjusting bolts 48 or 50 to stop 60 or 65 according to the desired position of the plate cylinder adjust. The screw 69 is inside a threaded bore of the collar 30 arranged.

After the above-described alignment of the plate cylinder 12 to the shaft 10, the plate cylinder is fixed on the Wave by expanding the latter. For this purpose, the shaft 10 in the area that carries the plate cylinder 12 is hollow and filled with a hydraulic fluid. To the End of the shaft 10, the two positioning means 16, 18 on Plate cylinder 12 is turned away, the shaft has a screw plug 74 on, the external thread in a corresponding Internal thread, which is attached to the shaft, engages. Accordingly, actuation of the screw leads to a downsizing or enlarging the interior of the hollow shaft and thus to pressurize or relieve pressure within of the hollow area of the hydraulic fluid. After the plate cylinder in the above Way pushed onto the shaft and to the two stops 60, 65 had been aligned, the attachment of the Plate cylinder 12 on the shaft 10 by appropriate actuation the locking screw 74 such that by pressurization the hydraulic fluid, the hollow shaft 10 a undergoes slight radial expansion, by means of which the Plate cylinder on the hollow shaft in its aligned position is fixed. It is then only to remove the hollow shaft necessary to rotate the screw plug 74 so that pressure relief occurs and the shaft due to their Elasticity reduces their diameter and so the clamp connection with the plate cylinder.

Claims (9)

1. A rotary printing machine having at least one printing mechanism which includes a plate cylinder (12) which can be releasably mounted on the shaft (10) carrying it, wherein the plate cylinder (12) and the shaft (10) are provided with means which make it possible for the plate cylinder (12) to be oriented relative to the shaft (10) both axially and also in the peripheral direction and to be fixed in the oriented position relative to the shaft, characterised in that the plate cylinder (12) is provided with a first positioning means (16) which co-operates with a first abutment (60) associated with the shaft (10) for fixing the position of the plate cylinder (12) in the peripheral direction, and the plate cylinder (12) is provided with a second positioning means (18) which co-operates with a second abutment (65) associated with the shaft (10) in order to fix the axial position of the plate cylinder (12) relative to the shaft (10) and first and second abutments (60, 65) are arranged adjustably and on the outside at the region against which the respective positioning means (16, 18) comes to bear each extend inclinedly relative to the axis along which first and second abutments (60, 65) are adjustable for determining the position of the positioning means (16, 18) and the plate cylinder (12) carrying the positioning means.
2. A printing machine according to claim 1 characterised in that the first abutment (60) and the second abutment (65) are arranged within a collar (30) which is fixedly mounted beside the plate cylinder (12) on the shaft (10) carrying the plate cylinder (12) and at least at its side towards the plate cylinder (12) is provided with a first opening (54) and a second opening (58) into which the positioning means (16, 18) disposed on the plate cylinder (12) at the end engage in the operative position of the two components, and the first abutment means (60) is arranged within the first opening (54) and the second abutment means (65) is arranged within the second opening (58).
3. A printing machine according to one of the preceding claims characterised in that each abutment means (60, 65) is connected to an adjusting bolt (48, 50) which is arranged within a receiving means formed by a first bore portion (42, 44) in the collar (30), a radial bore (38, 40) which is coaxial with respect thereto and which passes through the shaft (10), and a second coaxial bore portion (42, 45) in the collar (30), and the adjusting bolt (48, 50) is provided with a male screwthread co-operating with a female screwthread in the bore (38) in the shaft (10) in order to make the axial position of the abutment (60, 65) adjustable.
4. A printing machine according to one of the preceding claims characterised in that the abutment (60, 65) represents a conically tapering portion of the adjusting bolt (48, 50).
5. A printing machine according to claim 1 characterised in that the first positioning means (16) is in the form of a cylindrical pin which in the oriented position of the plate cylinder bears with its peripheral surface (62) against the first abutment (60), and the second positioning means (18) is in the form of a plate-shaped limb which bears with its end (64) remote from the plate cylinder (12) against the second abutment (18) and the end (64) defines a portion of an arc which is coaxial with the shaft (10) and which can be brought into contact with the second abutment (65).
6. A printing machine according to claim 5 characterised in that the end (64) is provided with a narrow coaxial projection (70) to achieve substantially punctiform contact with the abutment (65).
7. A printing machine according to one of the preceding claims characterised in that the collar (30) is flattened at the side of the shaft (10), which is in diametrally opposite relationship to the respective abutment (60, 65), in such a way that a flat peripheral surface portion (36, 37) is provided.
8. A printing machine according to one of the preceding claims characterised in that the two abutments (60, 65) are arranged displaced through about 90° relative to each other.
9. A printing machine according to one of the preceding claims characterised in that the shaft (10) is hollow at least in the region in which it carries the plate cylinder (12), and can be hydraulically expanded to make a firm connection between the shaft (10) and the plate cylinder (12).

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