DE4217814A1 - Device to support the controlled transport of copies in the folder of rotary printing presses - Google Patents

Description

The invention relates to a device for Support for the controlled transport of specimens in the Folder of rotary printing presses, especially at Reversal of transport direction of specimens on specimen-leading Cylinders.

DE 88 09 285.2U1, in which there is a stationary arranged suction chamber extends over the cylinder length, discloses a belt roll in the cylinder winding of two Folding cylinder is arranged. Unfavorable with this arrangement is the fact that two for deflection and suction separate components are provided. Since at Transition of the copies from the folding knife cylinder to the The jaw cylinder is subject to high accelerations the resulting speeds of the specimens Lubricate the specimens on stationary components - here the Suction chamber - cannot be excluded.

EP 0220 644 B1 describes a vacuum device charged management of folded copies known. In the Passage of the gap between a folding knife and a Folding jaw cylinders are the copies of folding knives in Broken flaps pushed in. As the rotation of the Jaw cylinder from which the copies are taken, these are subjected to a freely rotatable suction air Roller pulled. Since this roller is not driven a joint movement of the copy to be withdrawn and the Roll reached only over a frictional connection. The frictional connection between a freshly printed copy surface and the Roller jacket can be used to lubricate the product and Lay the ink on the roller jacket. The both sides of the Freely rotatable roller arranged baffles also effect  high relative speeds between specimen to be subtracted and their surfaces, what a gentle treatment of the Copy surfaces is also unfavorable.

The further development of the state of the art Invention, the object of a device for Support the controlled transport of specimens to optimize so that even with still to be increased Processing speeds of specimen transport always remains manageable.

According to the invention, the object has several features solved, namely:

• - Copies are in support of the Reversal of transport direction itself over the length of guiding means extending to copy cylinders at;
• - The guide means can be driven by conveyor belts;
• - There is negative pressure between the specimen and the guide generated;
• - during the rotation of the guide means Circumferential areas of the guide means with negative pressure actable.

This solution has advantages in several ways reachable. Because by the drive of the guide means the circumference of which is the cylinder circumferential speed, speed differences between specimen and Avoid leadership. Lubrication is therefore avoided the color. During the rotation of the guide means is always a peripheral region of the guide means with negative pressure acted upon so that one of a copy-leading cylinder  copy to be deducted continuously over the whole Copy length can be performed. This can be a Corner turning can be excluded; uncontrolled Own movements of the specimens during their transport remain under. After the specimens reach the area of effect Have left negative pressure, they will expire between Runs of the conveyor belts and the surface of one Jaw cylinder added. Because in this Transport section also none Speed differences between specimen and Contact areas of the running run on the one hand and between the copy and the outer surface of the jaw cylinder on the other hand, is critical in this Transport section when reversing the direction of transport Copies a controlled product handling at all times guaranteed.

In further developments based on that of the invention build on the underlying idea, it is intended that Guide means is designed as a suction roll jacket. On this holes are made in an annular arrangement. Since these holes in thickened areas of the Suction roll jacket are executed, the suction roll jacket the mechanical stresses with low mass. It is also provided that between the annular Arrangements of holes treads for conveyor belts are provided. Due to the running on these treads Conveyor belts are used to drive the suction roll jacket Cylinder peripheral speed to eliminate Speed differences. Furthermore, the scope of the suction roll jacket directly from running runs of the conveyor belts are taken over.

It is also contemplated that the body as one Suction roll axis is executed which is a vacuum chamber having. The vacuum chamber can be used in a volume flow  adjustable vacuum source to be connected depending on to be processed substrate and to be moved Processing speeds for correct and safe Attach individual specimens to the circumference of the suction roll casing to care. Furthermore, the vacuum chamber is at least by webs divisible into two compartments. This allows for processing of web strands with only half the width one For example, only half of the Vacuum chamber with negative pressure. If the Can in the axial direction inside the vacuum chamber the axial effective range different requirements be adjusted.

When changing the diameter of the treads of the Suction roll shell is an advance or one Lagging of the suction roll shell relative to Circumferential speed of the copy-leading cylinders achievable. This can be done by changing the diameter Treads elastic rings can be mounted on the treads be. The setting of advance or re-adjustment of the Suction roll shell relative to the cylinder circumferential speed can be especially strong for processing, from several Railway lines of merged specimens may be of importance.

The invention is based on a drawing in Detail explained, whereby in

Fig. 1 is a side view of the Sauwalzenachse,

Fig. 2 is a front view of the Saugwalzenachse,

Fig. 3 is a section through suction roll and Saugwalzenachse, including the vacuum chamber,

Fig. 4 shows the mounting position of the suction roll cover on Saugwalzenachse with accruing and running in the nip of two Transportbändertrums Copy-guiding cylinder,

Fig. 5, 5a, the drilling pattern on the suction roll cover and

Fig. 5b is a cross sectional are represented by the vacuum chamber.

Fig. 1 shows the side view of a suction roll axis. The suction roller axis 6 contains a vacuum chamber 6 c, which is limited by the dashed lines. In the face of the suction roll axis 6 , a nozzle receiving opening 5 a is provided. Above the stub mounting opening 5 a 6 a a receiving piece is provided with which the Saugwalzenachse is received in a holder. 6

Fig. 2 shows the front view of a suction roll axis. In this view it can be seen that the socket opening 5 a extends to the vacuum chamber 6 c. The front side area broken through by the nozzle receiving opening 5 a serves in cooperation with a suction roll jacket 7 as a gap seal for sealing the vacuum chamber 6 c. It is therefore possible to dispense with wear and contamination-prone co-rotating sealing elements at the limits of the vacuum chamber 6 c.

In Fig. 3 a section through suction roll and Saugwalzenachse is shown including a vacuum chamber. In a boundary wall 1 , a bracket 2 is received via a screw 3 . In this holder a locking screw 4 is received, which engages in the thread executed in the receiving piece 6 a. The receptacle 6 a is provided with a concave recess which allows a suction air line to be placed on an air connection 5 . The air connection 5 is received in the nozzle receiving opening 5 a of the suction roller axis 6 and connects a vacuum source which can be regulated in the air volume flow to the vacuum chamber 6 c. On the suction roller axis 6 , a bearing 6 b is also received, which rotatably supports the suction roller shell 7 on the suction roller axis 6 . The bearing is axially secured via circlips 7 c. The suction roll jacket 7 is provided on its circumference both with annular treads 7 b forming depressions, as well as with annular thickenings in which the holes 7 a are made. As can be seen from Fig. 3, thickenings and depressions follow in the axial direction on the circumference of the suction roll shell 7 alternately.

In which the rolling surfaces 7 forming depressions b in the circumference of the suction roll cover 7 running conveyor belts, which move the suction roll 7 relative to the Saugwalzenachse 6 in rotation. Since the suction roll axis 6 and suction roll casing 7 have a very slim design, a rapid build-up of the negative pressure in the vacuum chamber 6 c at the individual bores 7 a of the suction roll casing 7 is ensured.

In the context of an automatic presetting of the web width to be processed it would be possible to store a web made of plastic with the vacuum chamber on a contour corresponding dimensions through the vacuum chamber 6 c extending threaded spindle. The web can now be moved in the axial direction by means of a remote-controlled servomotor, so that only a region of the vacuum chamber 6 c determined by the web position can be subjected to negative pressure. Thus, the vacuum distribution on the suction roll jacket 7 can be adapted to the printing material formats to be processed as part of the presetting on the folder.

Fig. 4 shows the installation position of the suction roll jacket on the suction roll axis with running and running conveyor belt runs in the gusset of two exemplarizing cylinders. The machine recorded the wall side holder 2 takes over the locking screw 4 to the receiving piece 6 a of Saugwalzenachse. 6 The vacuum chamber 6 c is pressurized with negative pressure via the air connection 5 . Conveyor belts 12 , which set the suction roll casing 7 in rotation, run on the depressions shown in dashed lines on the suction roll casing 7 . Through the train strand 12 b, the drive is initiated in accordance with the cylinder peripheral speed of the exemplar-carrying cylinder 9 ; the train strand 12 b of the conveyor belts lies on the surface of the cylinder 9 carrying the copy and conveys the copy 13 . The strands running onto the suction roll jacket 7 are designated by 12 a.

The specimen 13 , which is also separated from a web strand formed from several layers, is received on the specimen-guiding cylinder 8 , the folding knife cylinder, and conveyed out of the cylinder gusset 10 in the direction of the arrow. Folding knives, not shown here, have pushed the specimen - for example in the middle - into a folding flap of the specimen-carrying cylinder 9 , also not shown. The specimen 13 is withdrawn from the specimen-guiding cylinder 9 , the folding jaw cylinder, counter to its original transport direction - indicated by the directional arrow in the specimen-guiding cylinder 8 - by the rotation of the specimen-guiding cylinder 9 in the direction of the arrow during the transfer. Fluttering or cornering of the specimen 13 is avoided by the product guide 11 above the specimen 13 to be removed. By acting on the vacuum chamber 6 c in the suction roll axis 6 , the specimen 13 gripped by the specimen-guiding cylinder 9 on the fold back is sucked in. Since the suction roll jacket 7 rotates at the circumferential cylinder speed, speed differences are eliminated. Since the negative pressure is present c continuously in the vacuum chamber 6 and is carried by the rotating suction roll 7 a promotion of the specimen 13, the specimen 13 is moved in full length to the applied negative pressure vacuum chamber 6 c over and is drawn by this. After passage of the c by the contour of the vacuum chamber 6 is acted upon with vacuum circumferential segment the specimens 13 pass between the surface of the copy-carrying cylinder 9 and the specimens 13 facing surfaces of the drive span 12 b of the conveyor belts 12th Since these move at the circumferential speed of the cylinder, the specimens 13 are not exposed to any friction and shear stresses. The - as can be seen in Fig. 4 - between the traction 12 b and the cylinder surface of the copy-leading cylinder 9 copies 13 can now be processed on the jaw cylinder. In this way, when the direction of transport of specimens 13 is reversed, their surfaces are subject to continuous guidance during the transition from one to the other of the specimen-guiding cylinders 8 and 9 , which permits high and highest specimen processing speeds.

Fig. 5 and 5a show the hole pattern of the suction roll. The holes 7 a in annular thickenings on the suction roll jacket 7 have counterbores. The hole pattern shows that a staggered arrangement of the individual holes 7 a to each other, a high occupancy of the annular thickenings can be achieved. This ensures reliable suction of the specimens 13 even at high speeds.

Fig. 5b shows a cross section through the vacuum chamber 6 c again. The leg of the vacuum chamber 6 c extending to the left marks the beginning of the suction zone on the circumference of the suction roll shell 7 rotating on the suction roll axis 6 . The leg extending to the right of the boundary of the vacuum chamber 6 c marks the end of the suction zone on the circumference of the suction roll shell 7 rotating on the suction roll axis 6 . Due to the position of the boundaries of the vacuum chamber 6 c, the suction zone can be varied over the circumference of the suction roll shell 7 , so that individual requirements can be taken into account. In the present position of the vacuum chamber 6 c and the suction roll jacket 7 to each other, the lower holes 7 a in the suction roll jacket 7 a are in contact with the vacuum chamber 6 c, while the upper ones of the holes 7 a are separated from the suction air source.

A minimal gap is provided between the surface of the suction roller shaft 6 and the inner surface of the suction roller shell 7 in order to enable the suction roller shell 7 to rotate easily. This gap is designed in the axial delimitation area of the vacuum chamber 6 c as a contactless gap seal. A seal of the vacuum chamber 6 c can thus be achieved; the leakage losses remain negligible.

Reference list

1 boundary wall
2 bracket
3 screw connection
4 locking screw
5 air connection
5 a socket opening
6 suction roll axis
6 a receptacle
6 b bearings
6 c vacuum chamber
7 suction roll jacket
7 a holes
7 b tread
7 c circlip
8 exemplary cylinder
9 exemplary cylinder
10 cylinder gussets
11 Product management
12 conveyor belts
12 a running runs
12 b Zugtrum
13 copies

Claims (9)

1. Device for guiding copies in the folder of rotary printing presses between cylinders holding the specimen with the following features;
1.1 copies ( 13 ) are present to support the reversal of the direction of transport on guide means ( 7 ) extending along the length of cylinders ( 8 , 9 ) carrying the copies;
1.2 the guide means ( 7 ) can be driven by conveyor belts ( 12 );
1.3 negative pressure is generated between the specimen ( 13 ) and the guide means ( 7 );
1.4 the guide means ( 7 ) is rotatably received on a body ( 6 );
1.5 during the rotation of the guide means ( 7 ), peripheral regions of the guide means ( 7 ) are subjected to negative pressure. 2. Device for guiding copies according to claim 1, characterized in that the guide means ( 7 ) is designed as a suction roll jacket. 3. Device for guiding copies according to claim 2, characterized in that on the suction roll jacket ( 7 ) in an annular arrangement holes ( 7 a) are made. 4. Device for guiding copies according to claim 2 and 3, characterized in that between the annular arrangements of bores ( 7 a), treads ( 7 b) for conveyor belts ( 12 ) are provided. 5. Device for guiding copies according to claim 1, characterized in that the body ( 6 ) is designed as a suction roll axis and contains a vacuum chamber ( 6 c). 6. Device for guiding copies according to claim 5, characterized in that the vacuum chamber ( 6 c) is connected to a vacuum source adjustable in the suction air volume flow. 7. Device for guiding copies according to claim 5, characterized in that the vacuum chamber ( 6 c) can be subdivided by webs in at least two partial chambers. 8. Device for guiding copies according to claim 4, characterized in that by changing the diameter of the treads ( 7 b) on the suction roll shell ( 7 ) a leading or lagging of the suction roll shell 7 relative to the circumferential speed of the copy-leading cylinder ( 8 , 9 ) is achievable. 9. Device for guiding copies according to claim 8, characterized in that for changing the diameter of the treads ( 7 b) elastic rings on the treads ( 7 b) can be mounted.