EP0069388A1 - Bearing for a printing cylinder or the like with adjustable lateral register - Google Patents

Abstract

The invention relates to a bearing for printing unit cylinders or the like with an adjustable side register, in which the cylinder provided with inner cones at the end is clamped between correspondingly complementary outer cones of a shaft mounted in the machine frame. In order to create such a bearing, which allows the cylinders to be changed quickly and easily and which, in particular after a cylinder change, allows the side register to be set in a simple manner with a high clamping force of the cylinder, the outer cones (4, 5) face each other Ends of shaft journals (6, 7) mounted in the frame (12). One of these is axially immovable in the sleeve (18), which is guided relative to the machine frame (12) in the axial direction but non-rotatably. The sleeve (18) is screwed to a sleeve (19) which is rotatably but axially immovably mounted in the machine frame (12) and which is provided with a rotary drive (23, 24) for the axial adjustment of the cylinder (1). The piston rods of hydraulic piston-cylinder units (13, 26) can be clamped against each other, their chambers can be connected to each other.

Description

The invention relates to a bearing for printing unit cylinders or the like with adjustable side register, in which the cylinder provided with inner cones is clamped between corresponding complementary outer cones of a shaft mounted in the machine frame, which is axially immovably mounted in a sleeve which is provided with a thread and by a Screw connection is displaceable in the axial direction with a sleeve which is immovable relative to the frame in the axial direction.

In a bearing of this type known from DE-PS 897 107, the cylinder is mounted on a continuous shaft, with which an outer cone is firmly connected, while the other outer cone is arranged on a sleeve which can be pushed onto the shaft and which can be tensioned by a screw connection for tightening the cylinder in the direction of the other outer cone. The shaft can be rotated on one side, but is axially immovable in a sleeve provided with a handwheel, which is screwed into a sleeve that is axially immovable in the frame. Since the shaft is axially displaceable on the opposite side, the side register can be adjusted by turning the sleeve using the handwheel.

In the known device, not only the replacement of the cylinder is cumbersome, because the entire shaft must be removed and the new cylinder must be fixed on the shaft by the tensionable sleeve after changing the cylinder, but an adjustment of the side register by turning the handwheel is only after the solution of a jamming of the sleeves with each other, which are to be jammed together again after setting the side register.

The object of the invention is to provide a mounting of the type specified at the outset, which allows the cylinders to be changed quickly and easily and which, in particular after a cylinder change, enables the side register to be set in a simple manner with a high clamping force of the cylinder.

According to the invention, this object is achieved in that the outer cones are arranged at the mutually facing ends of shaft journals mounted in the frame, one of which is axially non-displaceably, mounted in the sleeve, which is displaceable relative to the machine frame in the axial direction, but guided non-rotatably, in that the sleeve but axially non-displaceably mounted sleeve is screwed with a aschi- in _M nengestell rotatable, that of a rotary drive for axial Cylinder is provided, and that the shaft journals can be clamped against each other by the piston rods of hydraulic piston-cylinder units, the cylinder sides of which change in volume when the side register is set in opposite directions. The storage according to the invention allows a quick and easy change of the cylinder simply by pulling a shaft journal out of the inner cone immediately after or when the piston rod loading it back and the other shaft journal by actuating the rotary drive by the spindle drive created by the screwed sleeves Retracting the corresponding piston rod is retracted. The cylinder released in this way can be exchanged for another, in the inner cones of which the outer cones of the shaft journals are retracted in a correspondingly reverse manner.

To set the side register, it is only necessary to actuate the rotary drive of the outer sleeve, so that the desired axial displacement of the cylinder takes place due to the spindle drive. This setting of the side register can take place with a full clamping force generated by the piston-cylinder units if the cylinder chambers which change in volume in opposite directions during an axial adjustment are connected to one another. Because the spindle drive only needs the friction between the parts moving relative to each other and to overcome the resistances caused by the displacement of the hydraulic fluid between the cylinder chambers. An immovable clamping of the cylinder is effected in that the connection between the cylinder chambers is broken or the outer cylinder chambers are connected to the pressure medium source.

Advantageously, the shaft journal located in the sleeve opposite the shaft is rotatably connected to the axially aligned piston rod so that this shaft journal can be retracted at the same time as the piston rod is retracted.

The sleeve supporting the shaft journal can be provided with a radial lever, the end of which is guided in an axially extending guide groove fixed to the frame.

In a further embodiment of the invention it is provided that the sleeve screwed to the sleeve supporting the shaft journal can be rotated via a geared motor. The side register can then be adjusted in a simple manner only by actuating the geared motor, for example by pressing a button, the corresponding cylinder sides of the piston-cylinder units then being connected to one another in a manner which enables axial displacement by means of a control valve.

For setting the side register, the shaft journal mounted in the sleeve is expediently provided with markings which indicate the side register at an axial distance and can be scanned by sensors.

In a further embodiment of the invention it is provided that the sleeve bearing the shaft journal is screwed directly or via a peg-shaped extension into the bottom of the sleeve mounted in the frame and that the piston rod of the piston-cylinder unit on the sleeve or the extension connected thereto supports.

• Fig. 1 einen Längsschnitt durch die Lagerung eines Druckwerkszylinders,
• Fig. 2 eine vergrößerte Darstellung der linken Seite der Lagerung nach Fig. 1, ,
• Fig. 3 eine vergrößerte Darstellung der rechten Seite der Lagerung nach Fig. 1 und
• Fig. 4 den hydraulischen Schaltplan der Lagerung.

An embodiment of the invention is explained below with reference to the drawing. In this shows

• 1 shows a longitudinal section through the mounting of a printing couple cylinder,
• 2 is an enlarged view of the left side of the bearing of FIG. 1,
• Fig. 3 is an enlarged view of the right side of the storage of Fig. 1 and
• Fig. 4 shows the hydraulic circuit diagram of the storage.

A cylinder 1, for example a printing unit cylinder, has on both sides concentric to its central axis inner cones 2, 3, in which the outer cones 4, 5 of centering and rotatably mounted shaft journals (quills) 6, 7 engage, which hold the cylinder 1 in the working position. The outer cone 4 is positively connected to the cylinder 1 with a spring 8 which engages in a groove milled into the inner cone 2. The shaft journals 6, 7 are rotatably mounted in bearing bushes 10, 11 which are firmly connected to the frame 12. The bearing bushes 10, 11 are designed such that the Shaft journals 6, 7 via which these roller bearings are displaceable in the axial direction.

The shaft journal 7 is rotatable with the piston rod of a hydraulic cylinder 13 which is fixed to the frame, but is axially immovably connected.

The shaft journal 6 is rotatable in a bearing bush 14 fixed to the frame and is also axially immovable. A gearwheel 16, which meshes with a gearwheel 17, is wedged on the shaft journal 6. The gear 17 sits on a shaft, not shown, which is in drive connection with the main drive.

The shaft journal 6 is rotatable in the sleeve 18, but is axially immovable. The sleeve 18 is axially displaceable • in the sleeve 19 which surrounds it. With the sleeve 18, the radial lever 20 is connected, the end of which is guided in the groove of a guide track 21 fixed to the frame, so that the sleeve 18 cannot carry out any rotation, but rather only a movement in the axial direction. The length 22 of the guideway 21 is dimensioned such that the lever 20 remains in engagement with the guideway 21 during its entire axial displacement. The gear 17 is so wide that it always remains in engagement with the gear 16. With the guide bush 19, a ring gear 23 is firmly connected, which meshes with a bevel gear 24, the shaft of which is fixed to the frame and is connected to a geared motor (not shown). The sleeve 18 is connected at the end to a pin 18.1, the outer surface of which is provided with a thread which is screwed into a threaded bore in the bottom of the guide sleeve 19. By turning the bevel gear 24 and thus the guide sleeve 19 screwed the sleeve 18 in or out so that the shaft journal 6 connected to it is pushed back and forth.

The shaft journal 6 can be withdrawn entirely from the cylinder 1 or tensioned against the latter by the geared motor. The cylinder 1 is tensioned from the right via the shaft journal 7 by the hydraulic cylinder 13.

So that the cylinder 13 does not act with full force on the thread of the pin 18.1, a further hydraulic cylinder 26 is provided, the piston rod of which is supported on the end face of the pin 18.1.

In Fig. 4, the hydraulic circuit diagram for the two hydraulic cylinders 13, 26 is shown schematically, which can be controlled by a four-way valve 27 together towards and away from each other and separated from the pressure medium source.

The connection of the cylinder chambers shown completely relieves the thread on the pin 18.1 or in the sleeve 19 and the work to be performed by the gear motor via the bevel gear 24 is limited only to overcoming the friction in the guides and the resistance as a result of the displacement the hydraulic fluid.

To remove the cylinder 1, the hydraulic cylinders 13, 26 are actuated and the piston rods are retracted, as a result of which the shaft journal 7 is shifted to the right. The shaft journal 6 is shifted to the left by turning the bevel gear 24 until the cylinder is released.

On the shaft journal 6, a sleeve 28 is fastened with three protruding switching rings 29, 30, 31, which can be scanned by sensors (initiators) 32, 33. These serve to ensure that the correct side register position of the cylinder is achieved. The middle position is reported by the initiator 32 when the shaft journal 6 is shifted to the right. The maximum permissible displacements to the right and left are reported by the initiator 33 when the switching rings 30 and 31 come into their effective range.

Claims (6)

1. Storage for printing unit cylinders or the like with adjustable side register, in which the cylinder provided with inner cones is clamped between corresponding complementary outer cones of a shaft mounted in the machine frame, which is axially immovably mounted in a sleeve, which is provided with a thread and a screw connection with a sleeve which is non-displaceable in the axial direction relative to the frame, is displaceable in the axial direction, characterized in that the outer cones (4, 5) are arranged on the mutually facing ends of shaft journals (6, 7) mounted in the frame (12), one of which axially immovable in the sleeve (18), which is displaceable but non-rotatably in the axial direction relative to the machine frame (12), that the sleeve (18) is screwed to a sleeve (19) which is rotatably but axially immovably mounted in the machine frame, which is provided with a rotary drive (23, 24) for the axial adjustment of the cylinder (1), and that the shaft journals (6, 7) can be tensioned against one another by the piston rods of hydraulic piston-cylinder units (13, 26), the one of which Setting the side register are mutually connectable in their volume-changing cylinder chambers. 2. Storage according to claim 1, characterized in that the in the sleeve (18) mounted shaft journal (6) opposite shaft journal (7) with the axially aligned piston rod of the piston-cylinder unit (13) is rotatably connected. 3. Bearing according to claim 1 or 2, characterized in that the shaft journal (6) bearing sleeve (18) is provided with a radial lever (20), which is guided in an axially extending guide groove (21) fixed to the frame. 4. Bearing according to one of claims 1 to 3, characterized in that the sleeve (19) screwed to the shaft journal (6) supporting sleeve (18) can be rotated via a geared motor. 5. Bearing according to one of claims 1 to 4, characterized in that the shaft journal (6) mounted in the sleeve (18) is provided at an axial distance with the markings (29, 30, 31) indicating the side register, which are provided by sensors (32 , 33) can be scanned. 6. Storage according to one of the preceding claims, characterized in that the shaft journal (6) bearing sleeve (18) is screwed directly or via a peg-shaped extension (18.1) into the bottom of the sleeve (19) mounted in the frame (12) and that the piston rod of the piston-cylinder unit (26) is supported on the sleeve or the pin (18.1) connected to it. f

Images