EP0760274A1 - Means for adjusting perforating devices - Google Patents

Abstract

A mechanism (13-17) coupled to the housings (20) containing the cylinders (22,23) adjusts the centre-distance between them. The components (18) adjusting the housings can have intermeshing gear-sectors one being turned. Driving shafts for the cylinders can be designed to accommodate their relative movement, and one cylinder at least can have a knife-holder. Plates can be mounted in recesses in the cylinders, being of stiff material and allowing variation of their effective diameters.

Description

The present invention relates to a device for perforating or performing another processing step on a web of material entering a folder.

US 2,832,411 discloses a holding device for a perforating knife. A cylinder has an elongated recess which is at an angle to the cylinder axis. A knife segment is placed in the recess and longitudinally moving clamping elements in the recess abut the knife segment. The clamping elements are designed such that by a relative movement of the clamping elements they grip the knife between them. In this way, the alignment of said knife segment is maintained and its adjustment is effected. Uncomplicated removal and replacement of a knife is possible if this is necessary.

US 4,055,101 discloses an apparatus for transporting a web fed from a roll with an improved perforating device. The perforating device is integrated in a conventional perforating cylinder, which rotates during the perforating process. A variety of perforating knives are mounted in the perforating cylinder and various improvements have been shown in relation to spring loaded positioning elements of the perforating knives. The knife seats each have a support element that is deformable by pressure applied to the perforating knife.

In the technical field, which relates to section length settings in folders, the considerable problem has arisen that these settings result in an increase in speed or excessive speed of the perforating cylinders. The speed increase during perforation cannot are accepted, since cracks and longitudinal strains of the perforations form in the products, which are then separated from the material web. If e.g. B. three perforations are carried out in one revolution of the perforating knife cylinder, the exact position of each of the transverse perforations cannot be maintained due to the increase in speed, which results in a deterioration in the quality of products with a double parallel fold.

It is an object of the present invention to provide a perforating unit for different sections without driving or changing parts in the unit.

It is another object of the present invention to eliminate speed gain due to speed changes or section length settings.

It is another object of the present invention to improve the quality of the perforations by preventing cracks and elongation of the perforations.

An additional object of the present invention is to keep the perforating surfaces on the center line of the paper path to minimize fluttering of the paper strands.

• eine Verarbeitungseinheit mit zwei kooperierenden Zylindern, die in jeweiligen Gehäusen in einem Rahmen des Falzapparats gelagert sind; und
• eine Vorrichtung zum gleichzeitigen Ändern des effektiven oder Wirkdurchmessers und des Mitte-zu-Mitte-Abstandes zwischen den genannten kooperierenden Zylindern bei Änderungen in Geschwindigkeit und Abschnittlänge.

According to the invention, an apparatus for processing a web of material which enters a folder before being cut into individual products comprises the following features:

• a processing unit with two cooperating cylinders, which are mounted in respective housings in a frame of the folder; and
• a device for simultaneously changing the effective or effective diameter and the center-to-center distance between the said cooperating cylinders with changes in speed and section length.

By means of an arrangement according to the present invention, the cooperating cylinders remain at a zero increase in speed, which means accurate perforation enables and excludes a longitudinal expansion of the perforations during the contact of the perforating elements with said cooperating cylinders. Since both cooperating cylinders are movably mounted, the web of material passing between these two cylinders will always be in the middle of the cylinder gap, which promotes perforation accuracy.

The housings, in which the respective ends of the cooperating cylinders are received, are mounted in actuators which move eccentrically. Since the actuators contact each other during a rotary movement - clockwise and counter-clockwise - the movement of one actuator also causes a corresponding movement of the other actuator. Due to the eccentric movement of the cooperating cylinders, drive connections are attached to the cylinders to compensate for the relative movement of the cylinders with respect to the side frames of the folder. At least one knife holder or one cutting bar can be assigned to each of the cylinders, it depending on whether the operating mode is double parallel fold or tabloid fold. In order to set the cooperating cylinders, intermediate shims, otherwise known as shims, are attached below the knife holder and cutting bar, whereby the effective diameter and the surface speed of the cooperating cylinders are set. With each section, the perforation movement can be perfectly matched to the individual product with a zero increase in speed, avoiding tearing and elongation of the perforations and significantly increasing the quality of the products.

The present invention is explained in more detail in the following description in conjunction with the accompanying drawings explained below.

Fig. 1

eine schematische Darstellung eines Falzapparats zwischen einem Falztrichter und einem Produktübergabezylinder;

Fig. 2

einen Querschnitt einer Perforiereinheit mit einem zugeordneten Antrieb;

Fig. 3

eine detaillierte Darstellung der Mitteneinstellvorrichtung;

Fig. 4

ein Ausführungsbeispiel der Erfindung mit einer Dreifach-Querperforierung zur Anwendung bei Produkten mit Doppelparallelfalz; und

Fig. 5

eine Darstellung von Perforierzylindern für die Querperforierung von Produkten mit einem Tabloid- oder Viertelfalz.

Show it

Fig. 1

is a schematic representation of a folder between a former and a product transfer cylinder;

Fig. 2

a cross section of a perforating unit with an associated drive;

Fig. 3

a detailed view of the center adjustment device;

Fig. 4

an embodiment of the invention with a triple transverse perforation for use in products with double parallel fold; and

Fig. 5

a representation of perforating cylinders for the transverse perforation of products with a tabloid or quarter fold.

As shown in Fig. 1, a folder 1 comprises a former 2 for producing a first longitudinal fold in a web which extends in the direction of the vertical dashed center line of the former 2. A pair of lower hopper rolls 3 are arranged below the hopper 2. The longitudinally folded web of material is compressed by a pair of upper press rolls 4 before a transverse perforation is applied to the web in a perforator 5, as shown in detail in Figs. 2-5. A pair of lower press rolls 6 is arranged below the perforating device 5. With each revolution, cutting cylinders 7 cut an individual product from the material web, and the individual cut products are gripped by a respective first and second acceleration conveyor belt 8, 9 and brought to a transfer cylinder 10, which cooperates with further folding cylinders of the folding apparatus 1.

2 shows a cross section of a perforating unit with an associated drive on the drive-side wall. A spindle 14 extends across the width of the folding apparatus 1, the two ends of which are each received in a drive-side wall 12 and in an operator-side wall 11. The spindle 14 is driven by an actuator 13 attached to the operator side wall 11. The spindle 14 further comprises two gear wheels 16, each of which a threaded shaft 15 is assigned. Each of the threaded shafts 15 is connected to an arm 17, and the respective arms 17 are attached to the eccentric actuators 18. By means of the Eccentric actuators 18 eccentric housings 20 are rotated about the center lines of the perforating cylinders, ie around a knife cylinder 22 and around a cutting bar cylinder 23. The pins of the cylinders 22 and 23 are each supported via bearings 21 in the respective eccentric housings 20 on the operator side and the drive side.

As can be seen more clearly in FIG. 3, the eccentric actuators 18, 18.1 attached to the drive-side and operator-side walls 12, 11 have toothed segments 19, 19.1 which engage with one another. Consequently, due to this intermeshing, during the rotational movement of the eccentric actuator 18 caused by the rotation of the threaded shaft 15 in the arm 17, the eccentric actuator 18.1 will rotate approximately the same distance clockwise or counterclockwise. Since the eccentric housings 20 are mounted on the eccentric actuators 18, 18.1, the rotary movement causes a simultaneous center-to-center movement of the knife cylinder 22 and the cutting bar cylinder 23 by approximately the same distance. Because the eccentric actuators 18 and 18.1 on the operating side and the drive side are rotated simultaneously, a horizontal displacement of the perforating cylinders 22, 23 mentioned can be achieved. Thus, the gap between the cylinders 22, 23 is widened, not only by moving one cylinder with respect to the other, but simultaneously moving both cylinders 22, 23 an identical distance, with the web of material perforated in the perforating device 5 being held in a central position becomes.

As shown in FIG. 2, the drive of the perforating cylinders 22, 23 is located on the drive-side frame. Since the housings 20 of the cylinders 22, 23 can be moved eccentrically, the associated drive shafts 24, 25 are arranged in such a way that the eccentric movement of the cylinders 22, 23 is compensated for. The drive is transmitted to the drive shafts 24, 25 by meshing gears 26, 27. The gear 27 is driven by a drive wheel 28 mounted on a drive shaft 29.

The knife cylinder 22 has at least one knife holder 30 attached to its circumference, as shown in detail in FIGS. 3 and 4. Consequently, the corresponding cutting bar cylinder 23 has on its circumference a number of rubber cutting bars 31 corresponding to the number of knife holders 30 of the knife cylinder 22.

Fig. 3 shows a center setting device in detail with an enlarged view of the adjusting elements of the perforating device 5. The knife cylinder 22 and the cutter bar cylinder 23 are each accommodated in housings 20 which are mounted in the eccentric actuators 18 and 18.1. As can be seen in FIG. 3, the eccentric actuators 18 and 18.1 comprise respective toothed segments 19, 19.1 which mesh with one another. The spindle 14 shown in section drives the threaded shafts 15 via the intermediate toothed wheels 16, as a result of which the arms 17 attached to the eccentric actuator 18 are moved clockwise or counterclockwise. Since the two actuators 18, 18.1 mesh with one another, the rotary movement of the actuator 18 associated with the knife cylinder 22 causes a corresponding rotary movement of the actuator 18.1 associated with the cutting bar cylinder 23, which causes a center-to-center adjustment of the cylinders 22, 23 Recess of the actuator 18, a pin is provided to limit the rotational movement of the actuators 18 and 18.1.

FIG. 4 shows a perforating device which produces several transverse perforations in one revolution. In this configuration, two knife holders 30 are assigned to the knife cylinder 22, and a further knife holder 30 is attached to the cutter bar cylinder 23. This enables the cross perforations to be made in the same direction as the cross folds during the further processing of the individual products. Thus, by means of the knife holder 30 assigned to the knife cylinder 22, a transverse perforation corresponding to the first parallel fold and a transverse perforation corresponding to a flap fold can be made, whereas the knife holder 30 assigned to the cutter bar cylinder 23 produces a transverse perforation corresponding to the second parallel fold.

4, the knife holders 30 located in the recesses of the cylinder 22 and the rubber cutting bars 31 located in the recesses of the cylinder 23 are assigned respective intermediate or adapter plates 32. Since these adapter plates 32 are made of rigid material, the effective diameter 39 of the cylinders 22, 23 and their surface speed can be changed in order to allow a perfect match of the cooperating surfaces with a zero increase in speed. As can be seen in Fig. 4, the fitting plates 32 are placed under the knife holder 30 and the rubber cutting bar 31. The knife holders are fastened by means of screws 33 and 34, and screws 37 are guided through the perforating knives 38 in the knife holders 30.

Fig. 5 shows an embodiment of a perforating device for use in tabloid or quarterfold. With this embodiment, one transverse perforation is produced with one revolution of the perforating cylinders 22, 23. The knife holder 30 and the rubber cutting bar 31 were underlaid with a fitting plate 32 in order to influence the effective diameter 39 of the two cylinders 22, 23, so that the perforation cannot be elongated when the perforation is in contact. By means of the fitting plate 32, a perforation area in the nip is almost true to line - with respect to the width of the cylinders 22, 23 - instead of just a contact surface which can cause cracks in the individual products.

5 also allows air to escape from the multi-layer individual products, which creates a predetermined weak point in the material to be folded and thus leads to increased folding accuracy.

The present invention can e.g. B. in gravure printing machines, in which the product processing takes place in different section lengths, can be applied by the fitting plates 32 in the recesses of the knife holder 30 and the rubber cutting bar 31 by lifting elements such as lifting screws or eccentric Lift, to be replaced, which act under the rubber cutting bar 31 and knife holder 30. Such lifting organs favor a faster change to a new section length.

LIST OF REFERENCES

1

Folder

2nd

funnel

3rd

Hopper rollers

4th

upper press rolls

5

Perforating device

6

lower press rolls

7

Cutting cylinder

8th

Acceleration conveyor belt

9

Acceleration conveyor belt

10th

Transfer cylinder

11

operator side wall

12th

drive side wall

13

Actuator

14

spindle

15

Threaded shaft

16

Gears

17th

poor

18th

Actuator

18.1

Actuator

19th

toothed segment of the actuator 18

19.1

toothed segment of the actuator 18.1

20th

Eccentric housing

21

Bearings of cylinders 22 and 23

22

Knife cylinder

23

Cutter bar cylinder

24th

drive shaft

25th

drive shaft

26

gear

27

gear

28

drive wheel

29

Drive shaft of the drive wheel 28

30th

Knife holder

31

Rubber cutting bar

32

Fitting plates

33

screw

34

screw

37

screw

38

Perforating knife

39

effective cylinder diameter

Claims (16)

Device for processing a material web, which comprises the following features: a first cylinder (22) and a second cylinder (23) between which a web of material moves; Housing 20 in which the first cylinder 22 and the second cylinder 23 are each mounted; and a device (13, 14, 15, 16, 17) connected to the housings (20) for adjusting the center-to-center distance between the first cylinder (22) and the second cylinder (23). Device according to claim 1,
characterized by
that the device comprises actuators (18, 18.1) for moving the housing (20). Device according to claim 2,
characterized by
that the actuators are eccentric actuators (18, 18.1). Device according to claim 2,
characterized by
that the actuators (18, 18.1) interlock. Device according to claim 2,
characterized by
that the actuators (18, 18.1) have toothed segments (19, 19.1) with which the actuators (18, 18.1) engage in one another. Device according to claim 2,
characterized by
that the device comprises an actuator (13) for at least one of the actuators (18, 18.1). Device according to claim 2,
characterized by
that the actuators (18, 18.1) are moved by rotation. Device according to claim 6,
characterized by
that with a movement of the driven actuator (18) there is a simultaneous corresponding movement of the non-driven actuator (18.1). Device according to claim 1,
characterized by
that the device comprises drive shafts (24, 25) which drive the first and second cylinders (22, 23) and compensate for the movement of the cylinders (22, 23). Device according to claim 1,
characterized by
that at least one of the first and second cylinders (22, 23) has at least one knife holder (30). Device according to claim 1,
characterized by
that at least one of the first and second cylinders (22, 23) on its surface has at least one cutting bar (31). Device according to claim 1,
characterized by
that at least one of the first and second cylinders (22, 23) has recesses, which are associated with fitting plates (32). Device according to claim 12,
characterized by
that the fitting plates (32) consist of rigid material. Device according to claim 1,
characterized by
that the effective diameter of the cylinders (22, 23) can be changed by the fitting plates (32). Device for processing a material web, which comprises the following features: a processing unit with a first cylinder (22) and a second cylinder (23), between which a web of material moves; Side walls (11, 12) in which the processing unit is accommodated; and toothed segments (19, 19.1) connected to the processing unit for moving the first and second cylinders (22, 23) so that when moving, the first cylinder (22) moves at the same distance from the path as the second cylinder (23 ). Device according to claim 16,
characterized by
that the toothed segments (19, 19.1) are located on the eccentric actuators (18, 18.1).

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