WO2004020204A2 - Method and device for removing packing from a cylinder of a printing press - Google Patents

Abstract

The invention relates to a method and a corresponding device for removing packing from a cylinder of a printing press, said packing having a leading end and a following end in relation to the production direction of the cylinder. A suspension limb is configured at least on the leading end, said limb being bent at a maximum angle of 90° in relation to the length of the packing and being hooked into an opening in the cylinder. The following end of the packing is detached from the cylinder and guided against a stop that is placed at a distance from the cylinder by a rotation of the latter counter to its production direction, whereby the packing hits the stop and the impact causes the suspension limb at the leading end of the packing to be detached from the opening in the cylinder.

Description

description

Method and device for removing an elevator from a cylinder of a printing press

The invention relates to a method and a device for removing an elevator from a cylinder of a printing press according to the preamble of claim 1 or 3.

DE 39 40 795 A1 discloses a method and a device for automatically feeding a printing plate to a plate cylinder or removing it from a plate cylinder of a rotary printing press. The method for automatically feeding a printing plate to a plate cylinder of a rotary printing press, the plate cylinder having, among other things, means for clamping and tensioning the printing plate, provides that the printing plate is placed in a storage chamber of a printing plate feed or removal device and the plate cylinder is rotated into a printing plate feed position and the printing plate is fed to a clamping device of the plate cylinder by means of a number of transport rollers. The method for the automatic removal of a printing plate from a plate cylinder of a rotary printing press, the plate cylinder having, among other things, means for relaxing and releasing the printing plate, is characterized in that the plate cylinder rotates forward into a printing plate release position, that a clamping flap for detecting a printing plate end opens that the plate cylinder is rotated backwards, that a clamping flap is opened to detect the start of a printing plate and that the printing plate is fed to a storage chamber of a printing plate feed or removal device by means of a number of transport rollers. The device for performing the aforementioned methods has at least one transport roller designed as a drive roller and one transport roller designed as a pressure roller, wherein the pressure roller can be adjusted to the drive roller. In addition, various Adjustment means, a pivotally mounted pressure roller for pressing the pressure plate against the plate cylinder and ejection fingers can be provided, the ejection fingers being able to have tips which can be pivoted into the periphery of the plate cylinder. The storage chamber of the printing plate feed or discharge device can also be pivoted about a joint.

DE 39 40 796 A1 describes a device for automatically changing a printing plate on a plate cylinder of a rotary printing press, the plate cylinder u. a. Has means for clamping and tensioning the printing plate, the printing plate changing device having at least two storage chambers, so that a printing plate loosened on the plate cylinder can be guided into one storage chamber by means of transport rollers, while a printing plate stored in the other storage chamber is fed to a clamping device of the plate cylinder by means of transport rollers.

EP 1 084 837 A1 describes a device for holding and conveying a printing form. The device has translatory conveying devices which convey a printing form to be mounted on a forme cylinder or a printing form to be removed from a form cylinder. While the device is tilted from a rest position into its operating position for changing a printing form about an axis of rotation, a hook swivels only because of its own weight into the space in which the printing form is stored and secures the printing form at its trailing, bent end against unintentional falling out this room.

EP 0 734 859 A1 describes a device for changing printing forms, with a printing form loading unit for changing printing forms pivoting from a vertical rest position onto a holding element designed as a gripper. For mounting, the holding element grasps a new printing form provided in the printing form loading unit and guides it with the gripped printing form by means of an actuated lifting cylinder a swivel movement. Thus, the swiveling movement of the holding element raises the printing form, which is stored in a straight line in a printing form feed compartment, in its front region, the leading end of the printing form hanging downward. The leading end of the curved printing form gripped by the holding element is pivoted against a forme cylinder by the holding element in such a way that a hanging leg formed at the leading end of the printing form can dip into a channel formed on the form cylinder with a relatively large opening width to the diameter of the form cylinder.

EP 0 734 860 A1 discloses a device for changing printing forms, wherein a receiving element, which is preferably designed as a suction plate subjected to negative pressure, brakes a printing form that has already been largely unwound from the cylinder. A holding device holding the front edge of the printing form in a channel is then released, so that the front edge extends out of the channel due to its elasticity.

JP 2001-277472 A and JP 2001-047 604 A each disclose a device for changing printing formes, with a printing form that has already largely been unwound from the cylinder and is to be removed being braked by the printing form being clamped and one in a channel of the Cylinder detaches the leading edge of the printing form from the channel during a continued rotation of the cylinder against its production direction. Brake rollers, which act on both sides of the printing form and thus in particular on a working surface of the printing form provided with a printed image, expose the working surface of the printing form to the risk of damage due to the braking process caused by frictional engagement, which could put the reusability of the printing form into question. In addition, brake rollers for their on and off control elements that cost the device cost. The use of brake rollers also leads to an undesirably large overall height for the device. The invention has for its object to provide a method and an apparatus for removing an elevator from a cylinder of a printing press.

The object is achieved by the features of claim 1 or 3.

The advantage that can be achieved with the invention is in particular that elevators on a cylinder can be changed quickly and reliably. This solution also has the advantage that brake rollers to be actuated on the elevator and actuated by a control are not required and there is no risk of damage to the working surface of the printing form.

Exemplary embodiments of the invention are shown in the drawings and are described in more detail below.

Show it:

Figure 1 is a perspective view of an elevator.

2 shows a simplified sectional illustration of a holding device for an elevator to be mounted on a cylinder;

Fig. 3 tangentially brought up to a cylinder elevators on which a radial force acts when they are installed;

4 elastically prestressed lifts when they are mounted on a cylinder;

Figure 5 is a 4-cylinder printing machine with horizontal paper guide and with Duckformmagazi NEN. 6 shows a printing form magazine with a conveying device for a used printing form;

7 shows a printing form magazine with an inclined elevator for conveying a new printing form;

8 shows a device in a printing form magazine for aligning a new printing form with respect to a forme cylinder;

9 shows a printing form with its leading end standing on a forme cylinder during its assembly;

10 shows a printing form magazine with a new printing form with its printing side resting on a support;

11 shows a printing form magazine with a conveying device for a used printing form;

12 is a partial sectional view of a printing form magazine with a friction body placed on a printing form;

13 shows a friction body guided in a channel, the channel being provided with openings.

An elevator 01 (Fig. 1) z. B. is designed as a plate-shaped printing form 01 or as a support plate carrying a printing blanket, has a substantially rectangular area with a length L and a width B, the length L z. B. Measured values between 400 mm and 1300 mm and the width B z. B. Measured values between 280 mm and Can assume 1500 mm. The surface has a support side, which is referred to below as support surface 02, with which the elevator 01 rests in the assembled state on a lateral surface 07 of a cylinder 06 (FIG. 2). The back of the support surface 02 is a work surface which, in the event that the elevator 01 is designed as a printing form 01, is provided with a printed image or at least can be provided with a printed image. The elevator 01 has two opposite ends 03; 04 preferably each with angled hanging legs 13; 14, the ends 03; 04 limit the contact surface 02 and the hanging legs 13; 14 preferably extend entirely or at least partially across the width B of the elevator 01. The bearing surface 02 of the elevator 01 is flexible at least along the length L and can be adapted to the curvature of the cylinder 06 when the elevator 01 is attached to a lateral surface 07 of a cylinder 06 of a printing press (FIG. 2). In the assembled state of the printing form, the length L of the support surface 02 thus runs in the direction of the circumference of the cylinder 06, whereas the width B of the support surface 02 extends in the axial direction of the cylinder 06. In practice, in particular the measure for the width B varies within certain, predetermined tolerance limits, since the original width B of the elevator 01 is reduced by trimming on at least one of the long sides of the elevator 01, in order, for. B. the position of a printed image on the working surface of the elevator 01 to a certain distance to at least one of the long sides of the elevator 01. The tolerance limits are z. B. in the range of fractions of a millimeter to a few millimeters. Thus, the width B of an elevator 01 can differ from other similar elevators 01 used on the same cylinder 06 within the permissible tolerance limits.

As shown in FIG. 2, the hanging legs 13; 14 of the elevator 01 is fastened by means of a holding device, the holding device being arranged in a channel 08, the channel 08 generally extending in the axial direction to the cylinder 06. An end 03 of elevator 01 which is rectified with the production direction P of cylinder 06 is referred to as its leading end 03, whereas the opposite end End 04 is the trailing end 04 of elevator 01. At least the ends 03; 04 of the elevator 01 with the hanging legs 13; 14 consist of a rigid, for. B. metallic material, e.g. B. made of an aluminum alloy. The material thickness D of the elevator 01 (FIG. 1) or the material thickness D of at least the hanging legs 13 is usually; 14 a few tenths of a millimeter, e.g. B. 0.2 mm to 0.4 mm, preferably 0.3 mm. The elevator 01 thus exists as a whole or at least at its ends 03; 04 made of a dimensionally stable material so that the ends 03; 04 are permanently deformable by bending against material-specific resistance.

At least at one end 03; 04 of the elevator 01 (Fig. 1), but preferably at both ends 03; 04 are along a bending edge 11; 12 each a folded-in hanging leg 13; 14 formed, the hanging legs 13; 14 can be inserted into a narrow, in particular slot-shaped opening 09 of the channel 08 of the cylinder 06 (FIG. 2) and can be fastened there by means of a holding device. For example, based on the length L of the non-arched, flat support surface 02 of the unassembled elevator 01, at the end 03 there is a hanging leg 13 on the bending edge 11 by an opening angle α1 or at the end 04 a hanging leg 14 on the bending edge 12 by an opening angle β1 folded (Fig. 1), the opening angle α1; ß1 are usually between 30 ° and 140 °. If the opening angle α1 is assigned to the leading end 03 of the elevator 01, it is preferably of acute angle, in particular it is 45 °. The opening angle β1 at the trailing end 04 of the elevator 01 is often preferably designed to be larger than 80 ° or obtuse angle, in particular it is 85 ° or 135 °. The folded hook leg 13 at the leading end 03 has a length 113, which, for. B. is in the range of 4 mm to 30 mm, in particular between 4 mm and 15 mm. The folded hook leg 14 at the trailing end 04 has a length 114, the z. B. 4 mm to 30 mm, in particular between 8 mm and 12 mm, the shorter length being preferred, in order to remove the hanging legs 13; 14 to ensure from the opening 09 of the channel 08. 2 shows a simplified sectional illustration of a cylinder 06 with a lateral surface 07 and a channel 08, which has a narrow, slit-shaped opening 09 with a slot width S to the lateral surface 07, the slot width S being less than 5 mm and preferably in the region from 1 mm to 3 mm. The opening 09 has a front edge 16 and a rear edge 17 in the production direction P of the cylinder 06. An acute opening angle α2 is formed between the wall 18 extending from the front edge 16 to the channel 08 and an imaginary tangent T1 resting on the lateral surface 07 of the cylinder 06 on the opening 09, which is between 30 ° and 50 °, preferably 45 ° is. The beveled suspension leg 13 at the leading end 03 of the elevator 01 can thus preferably be positively attached to this front edge 16 of the opening 09 because the opening angle 1 at the leading end 03 of the elevator 01 is preferably adapted to the opening angle α2. The same applies to the trailing end 04 of the elevator 01. Between the wall 19 extending from the rear edge 17 to the channel 08 and an imaginary tangent T1 resting on the lateral surface 07 of the cylinder 06 on the opening 09 is an opening angle ß2 formed, which is either between 80 ° and 95 °, preferably 90 °, or between 120 ° and 150 °, preferably 135 °. The beveled suspension leg 14 at the trailing end 04 of the elevator 01 can thus preferably be positively attached to this rear edge 17 of the opening 09 because the opening angle β1 at the trailing end 04 of the elevator 01 is at least approximately matched to the opening angle β2.

In channel 08 z. B. at least one preferably pivotally mounted holding means 21 and a preferably biased spring element 22, the spring element 22, the holding means 21 z. B. presses against the beveled hanging leg 14 at the trailing end 04, which is hooked into the opening 09 at its rear edge 17, whereby the hanging leg 14 at the trailing end 04 on the is held by the rear edge 17 to the channel 08 extending wall 19. To release the pressure exerted by the holding means 21, an adjusting means 23 is provided in the channel 08, which, when actuated, pivots the holding means 21 against the force of the spring element 22. The holding device accordingly essentially consists of the holding means 21, the spring element 22 and the adjusting means 23.

The cylinder 06 described by way of example can be designed such that several, preferably identical, elevators 01 can also be arranged on its lateral surface 07. If the cylinder 06 is designed as a forme cylinder, it can z. B. can be assigned with six plate-shaped printing plates 01. It can also be provided that more than one elevator 01 can be attached to the cylinder 06 in the direction of its circumference. So z. B. two axially extending to the cylinder 06 channels 08 may be provided with associated openings 09, which are arranged offset on the circumference of the cylinder 06 by 180 ° to each other. With this assignment of the cylinder 06 with two elevators 01 arranged one behind the other along its circumference, the leading end 03 of the one elevator 01 is fastened in the one channel 08, whereas the trailing end 04 of the same elevator 01 is fastened in the other channel 08. The same applies to the one or more elevators 01 arranged on this cylinder 06. The elevators 01 arranged next to one another in the axial direction of the cylinder 06 can also be arranged offset with respect to one another, for. B. individually or in groups in each case by half a length L of the elevator 01, but this means that additional channels 08 with associated openings 09 or at least with portions thereof are introduced into the cylinder 06, which along the circumference of the cylinder 06 to the two aforementioned Channels 08 and openings 09 z. B. are arranged offset by 90 °.

A method for mounting a flexible elevator 01 on a cylinder 06 of a printing press is described below, the elevator 01 relating to the production direction P of the cylinder 06 having a leading end 03 and a trailing end End 04 has (Fig. 3). At least at the leading end 03 of the elevator 01, a suspension leg 13 is formed, this suspension leg 13 being bent to the elongated length L of the elevator 01 with an opening angle α1 of at most 90 °, preferably 45 °. At least one preferably slot-shaped opening 09 is provided in the cylinder 06 with an edge 16 and a second edge 17 in the production direction P of the cylinder 06, the edges 16; 17 preferably run parallel to one another in the axial direction of the cylinder 06. The method is characterized in that the leading end 03 of the elevator 01 is preferably fed tangentially to the cylinder 06 in the direction of its production P by means of a thrust force preferably acting on the trailing end 04 of the elevator 01 and the hanging leg 13 at the leading end 03 behind the second edge 17 of the opening 09 is placed against the cylinder 06, so that when the cylinder 06 rotates in the direction of production P of the hanging leg 13 formed at the leading end 03 as a result of a radial force FR directed towards the cylinder 06 and acting at least on the leading end 03 into the opening 09 engages and hooks on the first edge 16 by a preferably positive fit there. The pushing force promoting the elevator 01 is advantageously a force acting in the plane of the elevator 01 in its assembly direction M.

In the event that the elevator 01 with its hanging leg 13 formed on the leading end 03 stands on the lateral surface 07 of the cylinder 06, the radial force FR can be the weight force FG of the elevator 01 acting on the lateral surface 07 of the cylinder 06. In this case, it is advantageous to bring the elevator 01 horizontally, preferably in its elongated length L, in a straight line or at least without a bend directed towards the cylinder 06 to the upper half of the lateral surface 07 of the cylinder 06 and the suspension leg 13 at the leading end 03 of the elevator 01 to set up a contact point 27 on the lateral surface 07 of the cylinder 06 (FIG. 3). As soon as the hanging leg 13 and the opening 09 of the cylinder 06 face each other by a distance a09 between the opening 09 and the Contact point 27 is lifted, ie reduced to zero by a relative movement in the circumferential direction of the cylinder 06 between the opening 09 and the contact point 27, the hanging leg 13 at the leading end 03 of the elevator 01 falls predominantly, ie with a share of over 70% the sum of all the forces acting on the suspension leg 13, due to its weight force FG acting on the leading end 03, reliably into the opening 09 of the cylinder 06, without being pretensioned by the elasticity of the elevator 01 of the leading end 03 of the elevator 01 or other aids such as a rolling element is required.

In addition to using the weight force FG of the elevator 01 or alternatively, the leading end 03 of the elevator 01 can be elastically pretensioned (FIG. 4), so that the hanging leg 13 formed on the leading end 03 as a result of a restoring torque MR directed towards the cylinder 06 into the opening 09 springs as soon as the opening 09 of the cylinder 06 and the line of contact 27 of the hanging leg 13 with the lateral surface 07 of the cylinder 06 as a result of a relative movement between the elevator 01 and the cylinder 06, which is caused in particular by the rotation of the cylinder 06 in the production direction P, face directly.

The restoring moment MR results from the fact that the elevator 01 consists of an elastically deformable material and thus inherently has an elastically resilient property, this property being used insofar as the leading end 03 of the elevator 01 when approaching the cylinder 06 z. B. over a preferably axially extending to the cylinder 06, spaced from the cylinder 06 arranged edge 26 of a support member 24 and is bent there such that a bending stress builds up with a spring force directed to the cylinder 06 at the leading end 03 of the elevator 01 (dashed line of elevator 01 in Fig. 4). At least until the leading end 03 of the elevator 01 guided over the edge 26 of the support element 24 stands on the lateral surface 07 of the cylinder 06, the trailing end 04 of the elevator 01 is fed from a spatial direction fixed to the cylinder 06. The Elevator 01 is thus stabilized during the assembly process by the line of contact 27 of its hanging leg 13 attached to the leading end 03 with the lateral surface 07 of the cylinder 06 and by its support on the edge 26 of the support element 24 and by a positional fixation 28 of the trailing end 04. The support element 24 may e.g. B. be a rolling element 24, the z. B. can be adjusted to the cylinder 06. In this case, the support element 24 is preferably arranged close to the cylinder 06. However, in addition to the support element 24, another roller element 47 or 62 (FIG. 6 or 9) can be provided, which will be discussed later, wherein the support element 24 can then be arranged at a different location and cannot be adjusted to the cylinder 06 needs to be. The task of the support element 24 can then z. B. limit to generate a bending stress in the elevator 01.

The leading end 03 of the elevator 01 can also be brought against the cylinder 06 in such a way that after its contact with the lateral surface 07 of the cylinder 06 this end 03 is at an acute angle γ with an imaginary point 29 on the lateral surface 07 of the Second tangent T2 lying on the cylinder 06 is turned away from the lateral surface 07 of the cylinder 06 (representation of the elevator 01 in FIG. 4 with a solid line). The bending of the leading end 03 of the elevator 01 carried out in this way should, however, only be so strong that the hanging leg 13 attached there still lies securely against the lateral surface 07 of the cylinder 06. To support the secure fit of the hanging leg 13 on the lateral surface 07 of the cylinder 06, for. B. the support element 24 are placed on the elevator 01, whereby the elevator 01 is held with its leading end 03 close to the lateral surface 07 of the cylinder 06.

During a relative movement between the cylinder 06 and the elevator 01, preferably during the rotation of the cylinder 06 in its production direction P, but also just as well during a suitable movement of the elevator 01, e.g. B. contrary to the production direction P of the cylinder 06, the hanging leg 13 hooks in at the leading end 03 of the elevator 01 on the first edge 16 of the opening 09. A rolling element 24 placed on the cylinder 06 can support the mounting of the elevator 01 on the cylinder 06 by the rolling element 24 rolling up the elevator 01 on the cylinder 06. At the trailing end 04 of the elevator 01 z. B. a hanging leg 14 is formed, this hanging leg 14 is pressed by the rolling element 24 in the course of rolling up the elevator 01 on the cylinder 06 in the opening 09 of the cylinder 06.

A device for performing the aforementioned method is now to be illustrated using the example of a commercial web offset printing press with e.g. B. a standing rubber-against-rubber printing unit in a 4-cylinder construction with horizontal guidance of a printing material 46, preferably a paper web 46 (FIG. 5). In this example, a first pair of cylinders 31; 32 consisting of a forme cylinder 31 and a blanket cylinder 32 and a second pair of cylinders 33; 34 consisting of a forme cylinder 33 and a blanket cylinder 34 is provided, the paper web 46 between the two blanket cylinders 32; 34 is passed. In the printing press, preferably several, e.g. B. five or six printing points are provided for different printing inks. For the sake of simplicity and without restricting the invention, it is assumed below that at least the forme cylinders 31; 33 are the same in size and design.

The forme cylinder 31 can be loaded with a printing form 36 and the forme cylinder 33 with a printing form 37, the printing forms 36; 37 z. B. the circumference of the forme cylinder 31; 33 corresponding length L and one of the length of the respective bale of the forme cylinder 31; 33 have a corresponding width B. The printing forms 36; 37 based on its width B z. B. four or six side by side Print pages and, based on their length L, two print pages in a row, that is to say a total of eight or twelve print pages. As already shown in FIGS. 1 and 2, the printing formes 36; 37 at their front ends with respect to the length L beveled suspension legs 13; 14 with which the printing forms 36; 37 on the respective forme cylinder 31; 33 are fastened by the hanging legs 13; 14 into a in the outer surface of the forme cylinder 31; 33 introduced in the axial direction to the forme cylinder 31; 33 extending slot-shaped opening 09 and inserted there if necessary with a in the forme cylinder 31; 33 are preferably held in a channel arranged holding device. At the leading end 03 of the printing form 36; 37 is the opening angle α1 between the beveled hanging leg 13 and the elongated length L of the printing form 36; 37 preferably 45 °. At the trailing end 04 of the printing form 36; 37 is the opening angle β1 between the beveled hanging leg 14 and the elongated length L of the printing form 36; 37 preferably 90 °. The slot width S in the forme cylinder 31; 33 introduced opening 09 is preferably 1 mm to 3 mm.

In a preferred embodiment of the printing press, it is provided that on the forme cylinders 31; 33 a change of one or more printing forms 36; 37 can be carried out remotely from a control station assigned to the printing press while the paper web 46 is running. In particular, a certain printing ink, eg. B. Black assigned printing form 36; 37 can be replaced without having to stop the printing process as a whole. To solve this problem, z. B. for the forme cylinder 31, a first, arranged below the paper web 46 printing form magazine 38 and for the forme cylinder 33, a second, above the paper web 46 arranged printing form magazine 39 are provided, each printing form magazine 38; 39 each have at least one shaft 41; 42 for receiving one of the respective forme cylinders 31; 33 used printing plate 36; 37 and at least one shaft 43; 44 for receiving a on the respective forme cylinder 31; 33 new printing plate 36; 37 has. While the respective forme cylinder 31; 33 assigned printing form magazine 38; 39 z. B. by a pivoting movement of the respective forme cylinder 31; 33 for changing a printing form 36; 37 is employed, z. B. the first forme cylinder 31 and the second forme cylinder 33 from their respective operative blanket cylinder 32; 34 parked. However, alternatively or in addition to the forme cylinders 31; 33 the blanket cylinders 32; 34 be parked by the paper web 46. In any case, when changing one or more printing forms 36; 37 the relevant forme cylinder 31; 33 decoupled from the paper web 46, while in the printing unit the other pair of cylinders 32; 34 can remain in production.

In the printing form magazines 38; 39 are the shafts 41; 43 and 42; 44 for receiving a used or new printing form 36; 37 each advantageously arranged parallel to one another, ie they are usually layered one above the other. Here, for. B. a partition 84 in the respective printing form magazine 38; 39 the shafts 41; 43 and 42; 44 separate from each other (Fig. 5). In order to have good access to the shafts 41; 43 and 42; 44 to allow z. B. to remove a used printing form 36; 37 from the shafts 41; 42 or to provide a new printing form 36; 37 in the shafts 43; 44, these shafts are 41; 43 and 42; 44 based on the running direction of the paper web 46 from a side of the printing form magazines 38; 39 accessible. The printing form magazines 38; 39 each preferably extend over the length of the bale of the forme cylinder 31; 33, but at least over the width B of the printing form 36; 37, and in their respective shafts 41; 43 and 42; 44 a printing form 36; 37 preferably completely, that is, according to their length L. The shafts 41; 43 and 42; 44 are preferably located in a housing, the housing having an opening o38; o39, which is parallel to the bale of the respective forme cylinder 31; 33 can be aligned and through which a printing form 36; 37 the forme cylinder 31; 33 can be fed or from this into the shaft 41; 43 is insertable. For this purpose, the openings o38; o39 of the printing form magazines 38; 39 based on the respective opening 09 in the Forme cylinders 31; 33 at a significantly shorter distance a38; a39 to the forme cylinder 31; 33 brought up as the length L of the printing plates 36; Is 37. Distances a38 are advantageous; a39 between 2% and a maximum of 50% of the length L of the printing forms 36; 37, in particular short distances a38; a39 to 10% of the length L. It is advantageous to arrange at least the printing form magazine 39 arranged above the paper web 46 such that it can be moved from a rest position, preferably above the printing unit, to the form cylinder 33 into a working position z. B. can be moved up or swung up. The movable arrangement of the printing form magazines 38; 39 results in better accessibility to the printing unit z. B. to carry out the work required there, for. B. Maintenance work.

A movably arranged printing form magazine 38; 39 is in its working position in front of a forme cylinder 31; 33 at a38 distance; a39 and its orientation to the forme cylinder 31; 33 can be fixed by a lock 83 (FIG. 5). The lock 83 can, for. B. done by a tapered bolt 83, the z. B. with respect to the forme cylinder 31; 33 is stationary and in an opening in the housing of the printing forme magazine 38; 39 engages and one on the forme cylinder 31; 33 z. B. swung-in printing forme magazine 38; 39 with its openings o38; o39 with respect to the barrel of the forme cylinder 31; 33 centered. The taper pin 83 is preferably designed such that during its engagement in the housing of the printing forme magazine 38; 39 does not have a self-locking effect, but only bevels to position the printing forme magazine 38; 39 is used. It is advantageous to the forme cylinder 31; 33 in terms of page registers in a predefined position relative to the printing form magazine 38; 39 to bring him z. B. zeroing the page register before replacing a printing form 36; 37 between the forme cylinder 31; 33 and the printing forme magazine 38; 39 is coming. As an alternative to setting the forme cylinder 31; 33 can also the printing form magazine 38; 39 laterally relative to the forme cylinder 31; 33 are brought into a predefined position so that the exchange of a printing form 36; 37 between the printing form magazine 38; 39 and the forme cylinder 31; 33 can be done in a targeted manner and without lateral offset. The Printing form magazine 38; 39 can e.g. B. thereby in a predefined position laterally relative to the forme cylinder 31; 33 can be brought by the printing forme magazine 38; 39 is laterally made free of play, which can be done by the printing forme magazine 38; 39 preferably with at least one to the forme cylinder 31; 33 directed front area in an axially to the forme cylinder 31; 33 extending gap is introduced, wherein the gap to the frame of the printing machine has fixed side boundaries.

Without restricting the invention to this, it is assumed below that the second printing form magazine 39, which is arranged above the paper web 46 and can be adjusted to the forme cylinder 33, has two shafts 42; 44, namely a lower shaft 42 for receiving a printing form 37 to be removed and an upper shaft 44 for providing a new printing form 37. Both shafts 42; 44 are only slightly spaced apart in the printing forme magazine 39. It is preferably provided that the printing form 37, which is located in the one shaft 42, of a printing form 37 in the other shaft 44 of the same printing form magazine 39 z. B. is spaced 30 to 40 mm, preferably less, whereby a very flat design of the printing forme magazine 39 is achieved, which is very advantageous.

To remove a used printing form 37, the printing form magazine 39 is pivoted in front of the forme cylinder 33 and fixed there in such a way that at least the input region of the shaft 42 for receiving the printing form 37 to be removed is preferably directed tangentially onto the lateral surface of the form cylinder 33. The forme cylinder 33 is rotated until an imaginary tangent T1 resting on the slot-shaped opening 09 of the forme cylinder 33 either aligns with the shaft 42 for receiving the printing form 37 to be removed or at least runs parallel to this shaft 42. As long as no means of the printing forme magazine 39 engage pushing or pulling on the printing form 37, the rotating forme cylinder 33 alone conveys the printing form 37 to be removed into the printing form magazine 39 Removal of a used printing form 37 from the form cylinder 33 can advantageously be controlled by an electrical control, preferably be remotely controlled from a control station assigned to the printing press.

Preferably at the beginning of the process for removing a used printing form 37 from the forme cylinder 33 or at least as soon as the trailing end 04 of the printing form 37 has reached the opening o39 of the printing form magazine 39, in particular when the blanket cylinder 34 is turned off from the form cylinder 33, in the direction of production P des Forme cylinder 33 spaced from its opening 09 preferably a rolling element 47 which, for. B. can consist of several rollers arranged side by side in the axial direction, placed on the forme cylinder 33, so that the printing form 37 is pressed not far from its trailing end 04 on the forme cylinder 33. The holding device in the forme cylinder 33 releases the trailing end 04 of the printing form 37 and this end 04 springs out of the opening 09 due to the elasticity of the printing form 37. At this point in time, the leading end 03 of the printing form 37 is still in a form-fitting manner against the front edge 16 of the opening 09 in the production direction P of the forme cylinder 33.

Next, the forme cylinder 33 rotates counter to its direction of production P until the trailing end 04 of the printing form 37 is inserted into the shaft 42 for receiving the printing form 37 to be removed and locked there in a form-fitting manner on a holding element 48, preferably due to the full-surface contact of the bent hanging leg 14 on Holding element 48, wherein the holding element 48 z. B. is designed as a pawl 48 (Fig. 6). The holding element 48, that is to say the pawl 48, thus hooks onto the beveled hanging leg 14 at the trailing end 04 of the printing form 37. The holding element 48 is connected to a first conveyor device 49 assigned to the chute 42 for receiving the printing form 37 to be removed, preferably a conveyor device 49 arranged parallel to the chute 42, e.g. B. pneumatic linear drive, and pulls a hooked printing form 37 into the shaft 42. In a preferred embodiment, the first conveyor device 49 has a carriage 51, on which the holding element 48, for. B. is pivotally attached by a joint (Fig. 6). The forme cylinder 33 pushes the trailing end 04 of the printing form 37 into the shaft 42 for receiving the printing form 37 to be removed during its rotation against its production direction P, the bevel leg 14 bent at this end 04 against a z. B. molded on the slide 51 or attached there stops 52. The stop 52 is positioned in the shaft 42 such that the impact of the trailing end 04 of the printing form 37 on the stop 52 pushes the leading end 03 of the printing form 37 out of the opening 09 in the forme cylinder 33. The stop 52 is therefore initially arranged at a distance from the opening 09 in the forme cylinder 33 so that a printing form 37 to be removed from the forme cylinder 33, shortly before its length L is completely removed from the forme cylinder 33, with its hanging leg 14 at the trailing end 04 abuts the stop 52 and the on the front edge 16 of the opening 09 preferably by a positive fit and not by a holding means 21 hanging leg 13 at the leading end 03 by a transmitted pulse and without using the elasticity of the leading end 03 from the. Opening 09 releases. The form-fitting contact of the hanging leg 13 is thus ended by a short jerk acting along the length L of the printing form 37.

It can be provided that the holding element 48 engages at the trailing end 04 of the printing form 37 with the impact at the stop 52. The holding element 48 can, for. B. wedge-shaped and with the wedge tip to open the shaft 42, so that the trailing end 04 of the printing forme 37 during the conveying movement through the forme cylinder 33, the holding element 48 against a force acting on the printing forme 37, for. B. first increases the weight of the holding element 48 or a spring force in operative connection with the holding element 48 until the beveled hanging leg 14 engages behind the holding element 48 at the trailing end 04, after which the holding element 48 lowers again into its starting position. It can be provided that the impact of the trailing end 04 of the printing form 37 with the stop 52 triggers a control signal with which the carriage 51 of the first conveying device 49 is set in motion in order to convey the printing form 37 completely into the shaft 42. The used printing form 37 can then be removed laterally from the shaft 42. Removal can be made easier by the fact that an ejector 86 is preferably provided in the printing form magazine 39, which ejects the used printing form 37 laterally out of the shaft 42 to such an extent that the printing form 37 can be gripped, so that no grip into the shaft 42 is required.

In the meantime, the rolling element 47 placed on the forme cylinder 33 has been turned off again by the forme cylinder 33, preferably immediately before the leading end 03 of the printing form 37 is pushed out of the opening 09 in the forme cylinder 33. The rolling element 47 was so positively attached to the forme cylinder 33 that it supported the conveyance of the printing form 37 during the rotation of the forme cylinder 33. The carriage 51 of the first conveyor 49 can e.g. B. in laterally attached rails or in ball bushings. It is advantageous to arrange an articulated, preferably pivotable guide plate 53 close to the forme cylinder 33 in front of the opening of the printing forme magazine 39 which can be directed onto the forme cylinder 33 (FIG. 5), with which a trailing end 04 of the printing forme released from the opening 09 in the forme cylinder 33 37 is directed to the shaft 42 for receiving the printing form 37 to be removed. In particular, the guide plate 53 for a printing form 37 to be removed from the forme cylinder 33 blocks an erroneous access to the shaft 44 in which a new printing form 37 can be provided.

To prepare for mounting a new printing form 37 on the forme cylinder 33, the printing form 37 to be assembled is preferably inserted into the upper shaft 44 of the printing form magazine 39 from a side that is easily accessible during the printing process. Then the assembly of the new printing form 37 on the forme cylinder 33, the for this printing form 37 must be set free, ie must be unoccupied, by an electrical control assigned to the printing press, preferably a control center. A second control device assigned to the upper shaft 44 to provide the new printing form 37, preferably triggered by a control signal sent from the control station, is set in order to advance the new printing form 37 from the shaft 44 of the printing form magazine 39 in the direction of the forme cylinder 33 (FIG. 7). The second conveyor 54 can e.g. B. be a pneumatic linear drive, which is advantageously designed as an inclined elevator, in particular for a printing form 37 which is arranged in the shaft 44, as is the case in the printing form magazine 39 arranged above the paper web 46, which means that the second conveying device 54 is one Sled 56 z. B. with a groove

57, in which the beveled hanging leg 14 at the trailing end 04 of the new printing form 37 preferably engages when this printing form 37 is inserted into the shaft 44 of the printing form magazine 39, the slide 56 not moving parallel to the shaft 44 when the printing form 37 is pushed out Printing form 37 moves, but moves ever further away from printing form 37 during feed, so that the beveled hanging leg 14 at the trailing end 04 of the new printing form 37 is released from the groove 57, while the carriage 56 conveys the printing form 37 out of the shaft 44. Thus, the second conveying device 54 with its conveying direction to the printing form 37 can form an opening angle of less than 30 °, preferably of 15 ° to 20 °. This selected opening angle is then fixed during the conveying and cannot be changed. The conveyance of the printing form 37 can be supported by a stop 58 which is integrally formed on or attached to the slide 56, the stop

58 has a pushing action against the hanging leg 14 of the trailing end 04 of the new printing form 37.

The second printing device 54 pushes the new printing form 37 with its leading end 03 preferably tangentially against the forme cylinder 33 until the hanging leg bent at this leading end 03 on the lateral surface of the Forme cylinder 33 stands up. During the conveyance of the printing form 37 out of the shaft 44 in its mounting direction M, the printing form 37 is arranged by a slide 59 or by at least one articulated, in particular pivotable lever 59 arranged laterally in the shaft 44 against a slide 59 or lever 59 lying opposite , in the shaft 44 fixed, one-part or multi-part, non-deformable, lateral stop 61, so that the printing form 37 is aligned in its mounting direction M and thus also in the axial direction to the forme cylinder 33 (FIG. 8). A plurality of slides 59 or levers 59 can also be provided in the shaft 44, which can be advantageous in particular in the case of printing plates 37 of great length L. The forme cylinder 33 is also advantageously brought into a predefined position in accordance with the side register, by z. B. is zeroed with respect to the page register before the new printing form 37 is applied to it. The pivot axis of the lever 59 is preferably arranged perpendicular to the contact surface 02 of the printing form 37. The at least one lever 59 preferably intermittently engages laterally on the printing forme 37. B. by an adjusting means, in particular by a pneumatically operated adjusting means preferably against the force of a spring. The lever 59 is advantageously deflected in a pulse-like manner when it is employed, so that it only gives the printing form 37 a momentarily acting thrust, but that the printing form 37 is otherwise, for. B. can be moved freely in its mounting direction M. Since the lever 59 acts only briefly on the printing form 37, the printing form 37 can, if necessary, also be conveyed back into the shaft 44 without the lever 59 hindering a movement of the printing form 37 against its mounting direction M. The slider 59 or lever 59 is preferably activated for the purpose of aligning the printing form 37 when the printing form 37 is conveyed out of the shaft 44. If a further stop 63 is provided in the mounting direction M of the printing form 37, the lever 59 can then press the printing form 37 laterally and align it in the axial direction to the forme cylinder 33, while the printing form 37 is in contact with the further stop 63. With a preferably by means of a pneumatically actuated actuating means laterally against a printing form 37 with a lever 59 deflected within certain tolerance limits of variable width B, regardless of the actual width dimension of the printing form 37, the force of the same amount is always applied to the printing form 37.

Even before the leading end 03 of the printing form 37 reaches the forme cylinder 33, a rolling element 62 is placed against the forme cylinder 33 and a stop 63 is brought close to the forme cylinder 33 (FIG. 9). The rolling element 62 can consist of a plurality of rollers arranged side by side in the axial direction. The stop 63, which can also consist of several segments arranged side by side in the axial direction, is arranged in the mounting direction M of the printing form 37 in front of the rolling element 62 or next to the rolling element 62. The stop 63 has a bevel 64 facing the forme cylinder 33, the fictitious rectilinear extension of which intersects the lateral surface at an intersection C. At intersection C, an imaginary third tangent T3 lies on the lateral surface of the forme cylinder 33, with which the bevel 64 or its fictitious extension forms an acute angle δ, which is open in the direction of the printing forme 37 brought up to the forme cylinder 33. The stop 63 can, for. B. be designed as a wedge, which is fixedly connected to a carrier for the rolling element 62. The leading end 03 of the new printing form 37 brought up to the forme cylinder 33 abuts the bevels 64 of the stop 63, as a result of which the printing form 37 is aligned with the forme cylinder 33. The previously described alignment of the printing form 37 with the levers 59 can likewise only take place at the end of the printing form 37 being transported out of the shaft 44, when the leading end 03 of the printing form 37 is already in contact with the stop 63.

The leading end 03 of the new printing form 37 brought up to the forme cylinder 33 is fed to the lateral surface of the forme cylinder 33 in such a way that the hooked leg 13 bent at the leading end 03 stands pressed on the outer surface of the forme cylinder 33. The opening angle α1 between the beveled hanging leg 13 and the extended length L of the printing form 37 can decrease slightly due to the pressure exerted by the stop 63 on the leading end 03 of the printing forme 37 in the direction of the forme cylinder 33. Since the hanging leg 13 with the opening angle α1 of preferably 45 ° at the leading end 03 has a length 113 in the range of z. B. 4 mm to 11 mm, in particular 4 mm to 8 mm, preferably 6 mm, the leading end 03 of the printing forme 37 is located close to the outer surface of the forme cylinder 33 or close to one on the forme cylinder 33 in the contact point of the hanging leg 13th fourth tangent T4. The distance a37 is z. B. 2.5 mm to 6 mm. The rolling element 62 placed in connection with the stop 63 on the forme cylinder 33 has a radius r62 which is selected to be somewhat larger than the dimension of the distance a37. The radius r62 is z. B. in the range of 5 mm to 15 mm, preferably at 10 mm.

To assemble the printing form 37, the forme cylinder 33 is rotated so far that the hanging leg 13 of the printing form 37, bent at the leading end 03, can be set up in the production direction P of the forme cylinder 33 at a distance a09 behind the rear edge 16 of the opening 09 on the lateral surface of the forme cylinder 33 , wherein the distance a09 is less than an arc piece the length of a quarter, in particular an eighth of the circumference of the cylinder 06. Preferably, the distance a09 is significantly smaller than the length of the circumference of the rolling element 62. A preferred embodiment provides that the leading end 03 folded-in hanging leg 13 of the printing form 37 is placed at a distance a09 from 5 mm to 10 mm behind the opening 09.

While the forme cylinder 33 continues to rotate in its production direction P, the hooking leg 13 of the printing form 37 bent at the leading end 03 hooks into the opening 09 of the forme cylinder 33, supported by a force FR directed radially to the forme cylinder 33. The force FR directed radially to the forme cylinder 33 correlates with the pressure with which the leading end 03 of the printing form 37 is pressed against the forme cylinder 33. The pressure results from that exerted by the stop 63 Contact pressure and can be increased by the dead weight FG of the printing form 37 or by the fact that the leading end 03 of the printing form 37 is elastically prestressed against the form cylinder 33 with an effective direction.

In a departure from the exemplary embodiment described for the printing form magazine 39 arranged above the paper web 46, the printing form 36 in the printing form magazine 38 arranged below the paper web 46 lies at least partially, preferably between 30% and 50% of its length L in the shaft 43 for providing the new printing form 36 , on a support 66 (FIG. 10), the printing form 36 being held on the support 66 preferably frictionally by its own weight. It is not necessary to use external energy to hold the printing form 36 on the support 66, e.g. B. by a vacuum pressurized suction device, which fixes the printing form 36 on the support 66. The support 66 can be moved by a third conveying device 67, which can be designed as a pneumatic linear drive and by means of which the new printing form 36 with its leading end 03 can be pushed against the forme cylinder 31, preferably increasing tangentially, against the force of gravity. For this purpose, the hanging leg 14 lies against the trailing end 04 of the printing form 36, preferably in turn against a stop 58, which can be attached or molded onto the support 66. If the printing form 36 is conveyed against the form cylinder 31 against the force of gravity, a means corresponding to the stop 63 can be dispensed with. The third conveying device 67, like the second conveying device 54, is therefore preferably designed as a translatory conveying device which executes a travel path.

In the printing form magazine 39 arranged above the paper web 46, the hanging legs 13; 14 of the printing form 37 upwards and the printing form 37 can be arranged hanging in the shaft 44 by holding the hanging leg 14 attached to the trailing end 04 of the printing form 37 on the carriage 56 of the second conveyor device 54 (FIG. 7), while in the underneath the paper web 46 arranged printing form magazine 38, the hanging legs 13; 14 of the printing form 36 downwards, ie point to the support 66 for the printing form 36 (FIG. 10).

In the printing form magazine 38 arranged below the paper web 46, in the shaft 41 for receiving a printing form 36 to be removed from the form cylinder 31 in accordance with the exemplary embodiment described for the printing form magazine 39 arranged above the paper web 46, a fourth conveying device 68 with an articulated, in particular pivotably mounted holding element 69, In particular, a pawl may be provided so that the holding element 69 hooks onto the hanging leg 14 of the trailing end 04 of a used printing form 36, which is unwound by the rotation of the forme cylinder 31 and pushed into the shaft 41, and preferably completely in by the movement of the fourth conveying device 68 the shaft 41 pulls (Fig. 11).

It is advantageous to use magazines 38; 39 each in the shafts 43; 44 to provide a new printing form 36; 37 at least one friction body 71; 72 to be provided, in particular during the assembly of the new printing form 36; 37 on the respective forme cylinder 31; 33 at least then the new printing form 36; 37 against a corresponding abutment 73; 74 presses (Fig. 12) as soon as that at the leading end 03 of the printing form 36; 37 folded-in suspension legs 13 on the front edge 16 of the opening 09 of the forme cylinder 31; 33 has hooked. The friction body 71; 72 and their abutments 73; 74 are in the shafts 43; 44 preferably perpendicular to the conveying direction of the printing forms 36; 37 arranged so that it on the printing plates 36; 37 applied contact pressure the respective printing form 36; 37 as with jaws in a defined manner, while the respective printing form 36; 37 from the rotating forme cylinder 31; 33 on the respective forme cylinder 31; 33 is raised. The fact that the new printing form 36; 37 against that of the friction body 71; 72 and abutment 73; 74 applied contact pressure on the respective forme cylinder 31; 33 is pulled up, the printing plate 36; 37 tighter on the forme cylinder 31; 33 on. It is also because of this ensured that the printing form 36; 37 without play at the front edge 16 of the opening 09 of the forme cylinder 31; 33 is present. Otherwise, the friction body 71; 72 can also be used to apply a bending stress in the manner to the printing form 36; 37 to apply, as previously described in connection with the support member 24. The friction body 71; 72 can thus take over the function of a brake or a holding means and, in particular, to a forme cylinder 31; 33 employed shafts 43; 44 be of importance.

In a preferred embodiment, the friction body 71; 72 in the shafts 43; 44 arranged such that the friction body 71; 72 against the side of the printing form 36; 37 acts. In order to damage the printing form 36; 37 and its printed image by the friction body 71; To avoid 72 exertable contact pressure, the friction body 71; 72 a friction surface 76; 77, which is preferably smooth and of lower hardness than the surface of the printing plates 36; 37, the friction surface 76; 77 is facing. The friction bodies 71; 72 from a reversibly deformable hollow body, for. B. from a with a pressure medium, for. B. compressed air fillable hose, the hose made of an elastomeric material, for. B. is made of a rubber. The abutment 73; 74 can e.g. B. as one or more in the shafts 43; 44 attached rails can be formed from a plastic with a preferably slidable surface. The friction body 71; 72 can also on a z. B. in the shafts 43; 44 the printing formes 36; 37 promotional funding, z. B. the sled-shaped support 66 and at least one of the printing forms 36; 37 hold if necessary. The friction bodies 71; 72 also against one in the shaft 43; 44 conveyed printing form 36; 37 can be employed.

When the friction bodies 71; 72 with the pressure medium, the hollow bodies increase their volume and exercise on a pressure plate 36; 37 a surface pressure, the printing form 36; 37 on the rear side of one of the abutments 73; 74 is supported. The intensity of the surface pressure can preferably be controlled by the pressure medium. Since the elastomer material of the friction body 71; 72 and the plastic of the abutment 73; 74 have a lower hardness than the printing forms 36; which preferably consist of a metallic material, in particular of an aluminum alloy; 37, is damage to the printing formes 36; 37 not to be feared if the printing forms 36; 37 with existing surface pressure from the shaft 43; 44 are drawn.

The friction body 71; 72 and their abutments 73; 74 are in the shafts 43; 44 preferably close to the respective openings of the shafts 43; 44 arranged d. H. near the point where one in the shafts 43; 44 for mounting on the forme cylinder 31; 33 provided new printing form 36; 37 the respective printing forme magazine 38; 39 leaves. The friction body 71; 72 and their abutments 73; 74 are e.g. B. in the shafts 43; 44 parallel to the width B of the printing form 36; 37 arranged. The friction bodies 71; 72 can e.g. B. be stored in a strip 78 with a U-profile, the U-profile preferably on the printing plate 36; 37 facing side is open. The U-profile enclosing the hollow body on the side gives the hollow body stability and specifically directs its volume increase caused by the application of a pressure medium against the printing form 36; 37th

An embodiment of the friction body 71; 72 provides (FIG. 13) that the hollow body extends over a width B of the printing form 36; 37 extending channel 79 is guided and the channel 79 spaced from each other to the printing form 36; 37 directed openings 81; 82 has, e.g. B. in particular two openings 81; 82, through which the hollow body exerts a surface pressure on the printing form 36; 37 can exercise. If the friction body 71; 72 than over the preferably entire width B of the printing form 36; 37 extending hollow bodies are formed, this ensures that when the hollow body is acted upon by a pressure medium a uniform Surface pressure over the preferably entire width B of the printing form 36; 37 results.

The surface pressure is released by venting, in particular by vacuuming the friction bodies 71; 72 released, whereby the hollow bodies reduce their volume before the at the trailing end 04 of the printing form 36; 37 attached hanging legs 14 during the conveying of the printing form 36; 37 from the shaft 43; 44 passes the point of surface pressure. The surface pressure is only effective for a short time.

Furthermore, in the shafts 41 to 44 on the sides which correspond to the surface of the printing form 36; 37 facing, further guide elements for a safe, in particular lightly braked transport and for a largely play-free hold of the printing form 36; 37 may be provided. Brush arrangements which cover the sensitive surfaces of the printing form 36; 37 do not damage.

In order for the printing form magazines 38; 39, it is also advantageous that the printing form magazines 38; 39 in such a way that on each printing forme magazine 38; 39, only a single connecting element is provided, which bundles all the necessary connection lines in order to connect the printing form magazine 38; 39 depending on the units installed in it with electrical or other energy and to exchange control signals. As an alternative to the described preferably pneumatic drives in the conveying devices 49, 54, 67 and 68 and other units, electric drives and an electrical control can also be provided for these devices and units.

LIST OF REFERENCE NUMBERS

01 elevator, printing form

02 contact surface (01)

03 end, leading (01)

04 end, trailing (01)

05 -

06 cylinder

07 lateral surface (06)

08 channel

09 opening (08)

10 -

11 bending edge (13)

12 bending edge (14)

13 hanging legs

14 hanging legs

15 -

16 edge, front, first (09)

17 edge, rear, second (09)

18 wall

19 wall

20 -

21 holding means

22 spring element

23 positioning means

24 support element; rolling

25 -

26 edge

27 contact line, contact sl Fixation of contact point

Cylinder, forme cylinder, first cylinder, blanket cylinder, first cylinder, forme cylinder, second cylinder, blanket cylinder, second

Printing form Printing form Printing form magazine Printing form magazine

Shaft Shaft Shaft Shaft

Substrate, paper web rolling element holding element; Pawl conveyor, first

Carriage stop guide plate conveyor, second

carriage groove

attack

slide; lever

-

attack

rolling

attack

Bevel of the stop (63)

-

edition

Conveyor, third

Conveyor, fourth

Holding member; pawl

-

friction body

friction body

abutment

abutment

-

Friction surface (71)

Friction surface (72)

strip

channel

-

Breakthrough (79)

Breakthrough (79)

detent; bowling pins

partition wall

_ 86 ejectors

FR radial force

FG weight

MR reset torque

B width

C intersection

D material thickness

L length

M mounting direction

P production direction

S slot width

T1 tangent, first

T2 tangent, second

T3 tangent, third

T4 tangent, fourth

113 length

114 length

a09 distance a37 distance a38 distance a39 distance

038 opening o39 opening r62 radius α1 opening angle α2 opening angle ß1 opening angle ß2 opening angle γ opening angle δ angle

Claims

Expectations

1. Method for removing an elevator (01) from a cylinder (06) of a printing press using an elevator (01) with an end (03) leading in the production direction (P) of the cylinder (06) with an end with an opening angle (α1) from a maximum of 90 ° to the elongated length (L) of the elevator (01), hooked-in legs (13) hooked into an opening (09) made in the cylinder (06) and a trailing end (04), the trailing end (04) of the elevator (01) is detached from the cylinder (06) and is removed from the cylinder (06) by rotating the cylinder (06) counter to its production direction (P), characterized in that the trailing end (04) of the elevator (01) counteracts a stop (52) which is arranged at a distance from the cylinder (06) and is pushed out of the opening (09) by an impact of the trailing end (04) against the stop (52) of the suspension legs (13) at the leading end (03) of the elevator (01) ) in the cylinder (06).

2. The method according to claim 1, characterized in that to stabilize the elevator (01) on the cylinder (06) a rolling element (47) near the opening (09) on the cylinder (06) is employed.

3. Device for removing a printing form (36; 37) from a forme cylinder (31; 33) of a printing press, the printing form (36; 37) relating to the production direction (P) of the forme cylinder (31; 33) having a leading end (03 ) and has a trailing end (04), a hanging leg (14) being formed at least at the trailing end (04), characterized in that a stop (52) is provided to which the hanging leg (14) at the trailing end (04 ) of the printing form (36; 37) abuts when removing.

4. The device according to claim 3, characterized in that the device has at least one printing form magazine (38; 39) with a shaft (41; 42) for receiving a printing form (36; 37) to be removed from the form cylinder (31; 33), the Stop (52) is arranged in the shaft (41; 42).

5. Device according to one of claims 3 or 4, characterized in that the stop (52) in the shaft (41; 42) by a conveyor (49; 68) is movable.

6. Device according to one of claims 3 to 5, characterized in that a rolling element (47) is provided that is attached to the forme cylinder (31; 33), while the forme cylinder (31; 33) the printing form (36; 37) in the shaft (41; 42) of the printing forme magazine (38; 39) promotes.

7. Device according to one of claims 3 to 6, characterized in that a guide plate (53) between an opening (o38; o39) of the printing forme magazine (38; 39) employed on the forme cylinder (31; 33) and the forme cylinder (31 ; 33) is arranged such that the forme cylinder (31; 33) specifically promotes the printing form (36; 37) into the opening (o38; o39) of the shaft (41; 42) of the printing form magazine (38; 39) which is used to hold the from the forme cylinder (31; 33) to be removed printing form (36; 37) is determined.

8. The device according to claim 7, characterized in that the guide plate (53) is articulated.