EP1678066A1 - Cylinder pertaining to a folder, comprising a cylinder body and at least one gripper - Google Patents

Abstract

Cylinder (01) has axes (21, 24) arranged so that they are fixed in relation to the cylinder. Preferred Features: The first axis (21) is supported by a first arm (19) which pivots about the second axis fixed to the cylinder body to drive the radial inward movement of the first axis. The pivoting movement of a gripping device (02) and the radial movement of the first axis are coupled so that the first axis move radially inward in the end phase of the pivoting movement.

Description

description

Cylinder of a folder with a cylinder body and at least one gripper

The invention relates to a cylinder of a folder with a cylinder body and at least one gripper according to the preamble of claim 1 or 2.

Such a gripper cylinder carries on its outer surface one or more grippers which are movable between a position in which they hold a leading end of a piece of flat material to be conveyed on the gripper cylinder pressed against the outer surface, and a release position in which the flat material moves away from the Cylinder can loosen again or a new piece of flat material can be picked up and clamped. In general, the grippers pivot between these two positions. Since the time available for clamping or releasing a product is short, the swiveling movement must have a high speed, and the movement amplitude between the clamping position and the release position of the gripper should be as small as possible in order to limit material-intensive accelerations hold.

In order to avoid damage to a trailing end of a piece of flat material held by a gripper on the cylinder by the movement of a subsequent gripper in the circumferential direction on the cylinder when clamping a subsequent piece of flat material, most gripper cylinders are designed to accommodate pieces of flat material that separate the gripper cylinder from one another are supplied at a distance, so that the flat material pieces each create a gap between successive pieces against the gripper cylinder and the gripper can move in the gap without touching the previous piece. If these flat material pieces are previously produced by cutting from a continuous strand, then the cut pieces to create such a space can be accelerated to a speed higher than that of the strand before cutting. However, if a conveyor system that conveys the products cut from the strand after cutting runs faster than the supplied strand, this leads to slippage and thus to friction between the conveyor system and a leading section of the strand penetrating into it, which is prior to cutting necessarily still moved at the original speed of the strand. In the case of flat material with a sensitive surface, such as fresh printed products, this friction can impair the quality of the surface, for example due to grinding marks on the substrate or smearing of ink. Furthermore, when the pieces of flat material are composed of a stack of sheets which are not connected to one another, the problem arises that different friction on the different sides of the stack can cause the sheets to be displaced relative to one another and the stack to be pulled apart, which considerably increases the further processing of the stack difficult.

It is particularly problematic if the flat material pieces are cut off from the strand in direct contact with the gripper cylinder, for example by a rotating knife cylinder which, together with the gripper cylinder, delimits a cutting gap and, in cooperation with an abutment of the gripper cylinder, cuts the strand. So that the strand to be cut lies evenly on the surface of the gripper cylinder, the grippers must be able to dive into the interior of the gripper cylinder. After a piece of flat material has been cut off from the supplied strand, there is only a very short time available for gripping the newly formed leading edge of the strand with a gripper and pressing it against the surface of the cylinder. However, the path between the lowered position of the gripper and the extended position, which presses the flat material against the cylinder, is long and requires a high speed of the gripper movement, which can only be achieved with a high-quality, expensive drive mechanism. Moreover the higher the operating speed, the greater the wear and thus the susceptibility to failure of the drive mechanism.

From EP 09 31 748 B1 and DE 198 57 507 A1 a gripper cylinder is known which is capable of conveying printed products separated from a fed strand without leading, that is to say without a gap between the successive printed products. In this gripper cylinder, a gripper is mounted on a shaft pivotably mounted in the cylinder via a translation mechanism, which drives the gripper coupled to the pivoting movement for a parallel displacement. This translation mechanism serves to move the gripper between its retracted position and a position projecting beyond the outer surface of the cylinder, from which it can be pivoted around the shaft in order to press the leading edge of a strand of printed matter against the cylinder surface.

DE 100 60 713 A1, US 60 93 139 A and US 953 063 A each describe a folder with a gripper cylinder which has a cutting bar for a cutting knife of a cutting knife cylinder interacting with the gripper cylinder. The grippers of the gripper cylinder can be pivoted about a first movable axis for clamping the material to be transported. This first axis is in turn mounted on a lever pivotable about a cylinder-fixed second axis. This lever is controlled by means of a first cam disc in order to produce a movement of the gripper in the circumferential direction. A second cam controls the gripper's clamping movement,

DE 102 03 059 A1 discloses a transport cylinder for printing material sheets with a gripper. The gripper can be moved by means of two pivot axes which are fixed on the cylinder and a further pivot axis which is pivotable about one of the pivot axes which are fixed on the cylinder. Only one cam is provided for control. The invention has for its object to provide a cylinder of a folder with a cylinder body and at least one gripper, the two-stage movement takes place with little load on the mechanical components and high accuracy.

The object is achieved by the features of claim 1 or 2.

Like the gripper cylinder known from EP 09 31 748 B1, the present gripper cylinder uses a translational movement to shorten the movement between the retracted position and the clamped position of the gripper in addition to the pivoting movement, but with the difference that a mechanism driving the translation does not change together with the gripper whose pivot axis is pivotable and thus increases its moment of inertia, but shifts the axis of the gripper as such in the radial direction. Since the radial stroke required for clamping or releasing the flat material on the gripper cylinder is small in comparison to the required movement amplitude of the gripper in the circumferential direction, a small amplitude of the radial displacement movement, which can be generated with little energy expenditure and little load on the mechanical components, is sufficient.

If the flat material to be clamped by the gripper is a stack of sheets, it is desirable to avoid a component of movement of the gripper in the circumferential direction of the cylinder at the moment of clamping the stack so that the stack is not exposed to shear forces. While conventionally the clamping only comes about through a swiveling movement of the gripper and thus the application of a shear force on a sheet stack when clamping is unavoidable, it is preferably provided in the present gripper cylinder that in a final phase of the swiveling movement into the clamping position the first axis is radial moved inward.

A simple and robust way of moving the first axis radially inward is to be driven to mount it on a first arm which can be pivoted about a second axis which is stationary with respect to the cylinder body, so that the radial movement of the first axis corresponds to a pivoting movement of this first arm.

This pivoting movement of the first arm can, like conventionally the pivoting movement of the gripper itself, be driven in a simple manner by a cam disk which does not rotate together with the gripper cylinder and whose shape is sensed by a lever connected to the first arm.

In order to drive the pivoting movement of the gripper between the lowered position and the clamping position, a coupling rod is provided which is articulated on the one hand on the gripper and on the other hand on a second arm which can be pivoted about a third axis. As stated above, its pivoting movement can also be driven by a cam disk.

In a space-saving arrangement, the second and third axes are located on opposite sides of the gripper in relation to the circumferential direction of the cylinder.

Of the two arms, the first is oriented more circumferentially and the second more radially of the cylinder body, in other words, the orientation of the first arm is closer to the circumferential direction than that of the second, and that of the second is closer to the radial Direction than that of the first.

Each gripper is assigned an abutment on the cylinder body which, in cooperation with a knife moved together with the gripper cylinder, is used for cutting flat material supplied by the gripper cylinder and to be gripped by the gripper.

In relation to the direction of rotation of such a gripper cylinder, the gripper is arranged in front of the abutment assigned to it, and the surface section of the gripper cylinder against which the gripper presses flat material is preferably its abutment itself, the elasticity of which supports both the cutting process and the gripping.

An embodiment of the invention is shown in the drawings and is described in more detail below.

Show it:

Figure 1 is a schematic representation of a cross folder using a gripper cylinder.

2 shows an enlarged partial section through the gripper cylinder, which shows the gripper in its lowered position;

Fig. 3 is a partial section analogous to that of Figure 2, which shows the gripper during extension from the lowered position.

Fig. 4 is a partial section showing the gripper in the clamping position;

Fig. 5 is a partial section showing the gripper on the way back to the lowered position;

Fig. 6 is a schematic representation corresponding to Fig. 2;

Fig. 7 is a schematic representation corresponding to Fig. 4;

Fig. 8 is a schematic representation corresponding to Fig. 5; Fig. 9 is a schematic representation corresponding to Fig. 1;

Fig. 10 is a schematic plan view of a gripper cylinder.

Fig. 1 shows a highly schematic section through a folder, for. B. a web-fed rotary printing press according to the present invention. The folder comprises a cylinder 01, e.g. B. a gripper cylinder 01, which is equipped in the example shown here with five evenly distributed in the circumferential direction grippers 02 and folding blades 03. In the axial direction of the cylinder 01, a plurality of these grippers 02, z. B. arranged individually sprung. The gripper cylinder 01 forms, together with a knife cylinder 04, here with two knives 06, a cutting gap 09 in which a supplied flat material 07, e.g. B. a strand 07, which generally consists of a plurality of superimposed printed material webs, for. B. paper webs is assembled in individual flat material 08, z. B. individual printed products 08 is disassembled from a respective printing page of appropriate length.

During the passage through the cutting gap 09, the grippers 02 and the folding blades 03 are sunk inside the gripper cylinder 01. The peripheral speed of the gripper cylinder 01 corresponds exactly to the feed speed of the strand 07; so that the printed products 08 cut off from the strand 07 follow one another without gaps on the circumference of the gripper cylinder 01, d. H. There is no relative movement between the underlying material web and the bale of the gripper cylinder 01.

"Exactly" and "none" is to be understood in the technical sense, i. H. negligible small tolerances may occur.

After passing through the cutting gap 09, the grippers 02 are each extended below the trailing section 11 of one of the printed products 08 from the gripper cylinder 01 and pivoted against its direction of rotation, in each case by the leading one Clamp edge 12 of strand 07 on the surface of gripper cylinder 01. The trailing sections 11 of each printed product 08 are spread a little way from the surface of the gripper cylinder 01, but this does not impair the uniform winding of the strand 07 onto the gripper cylinder 01, since they are spread apart from the gripper cylinder 01 only after they have been cut off.

The gripper cylinder 01 forms a folding nip 13 with a folding jaw cylinder 14. During the passage through the folding nip 13, the folding knives 03 extend out of the gripper cylinder 01 in order to insert the printed products 08 along a center line into folding jaws of the folding jaw cylinder 14 (not shown). The printed products 08 folded transversely in this way are conveyed on the folding jaw cylinder 14 to a point where they are transferred, for example, to a paddle wheel (not shown) for laying out on a conveyor belt.

Fig. 2 shows a partial section transverse to the axis of the gripper cylinder 01 a gripper 02 and its surroundings. The gripper 02 comprises a support beam 16 which extends over the entire usable width of the gripper cylinder 01 and on a radially outward side carries a double L or Z profile 17 made of an elastic material such as spring steel, which is used to clamp the Print products 08 is extendable. The profile 17 can extend continuously in the axial direction of the gripper cylinder 01 or can be divided into a plurality of tines spaced apart in the axial direction, each of which grips through an opening in the jacket of the gripper cylinder 01.

The carrier beam 16 is articulated on the one hand to a first arm 19 which is fixedly connected to a shaft 21 which is rotatably mounted in the gripper cylinder 01, ie, shaft which is fixed to the cylinder. The first arm 19 extends approximately parallel to the lateral surface of the gripper cylinder 01. The support beam 16 is also articulated via a pivot axis 28 which can be moved relative to the gripper cylinder 01 to a coupling rod 22 which is likewise oriented approximately parallel to the lateral surface of the gripper cylinder 01 and in turn is articulated to an approximately radially oriented second arm 23 via a pivot axis 29 which can be moved relative to the gripper cylinder 01. This second arm 23 is fixedly connected to a shaft 24 which is rotatably mounted in the gripper cylinder 01. The rotational position of the two arms 19; 23, as shown in FIGS. 6, 7 and 8, via two cams 31; 32 fixed, which do not rotate together with the gripper cylinder 01 and each of which by a roller 33; 34 are scanned, each via an arm 36; 37 is connected to the shaft 21 or 24.

The rollers 33; 34 are preferably suspended on the cams 31; 32 pressed, in particular by a torsion bar spring. The cam discs 31; 32 are arranged offset in the axial direction.

It is easy to understand from FIG. 2 that a rotation of the arm 19 about the shaft 21 essentially causes a radial inward or outward movement of the gripper 02, and possibly to a lesser extent a swiveling movement of the gripper 02 about the axis 27 on which the support beam 16 and the first arm 19 are hinged together. A rotation of the shaft 24, on the other hand, would drive a pivoting movement of the gripper 2 about the axis 27 when the shaft 21 is assumed to be fixed.

About the two cams 31; 32, a two-stage movement is therefore possible. The cam discs 31; 32 have the effect that the pivoting movement and the clamping movements of the gripper 02 can each take place essentially independently of one another.

The gripper cylinder 01 shown in detail in FIG. 2 rotates counterclockwise. In a clockwise direction behind the opening 17 of the cylinder jacket receiving the profile, a hard rubber strip is embedded in the surface section 26 of the z. B. serves as an axially extending abutment 26 for the knife 06 of the knife cylinder 04 when cutting the strand 07. The gripper 02 is arranged in the direction of movement of the cylinder 01 directly in front of the abutment 26 for cutting. The distance a tip of the gripper 02 is in the recessed state and an edge of the abutment 26 is less than 30 mm, in particular less than 10 mm. In the configuration shown in FIG. 2, in which the gripper 02 is sunk into the inside of the gripper cylinder 01, the gripper 02 can pass through the cutting gap 09, the strand 07 (not shown in FIG. 2) being severed at the abutment 26 , In order to grip the resulting leading edge 12 of the strand 07 and press it against the abutment 26, the gripper 02 is moved out of the gripper cylinder 01.

Fig. 3 shows an intermediate position during extension. As can be seen, between the configurations of FIGS. 2 and 3, the shaft 21 has rotated significantly counterclockwise, as a result of which the axis 27 has been displaced radially outward and the profile 17 of the gripper has emerged from the opening of the cylinder jacket. By a slight rotation of the shaft 24 clockwise, the gripper 02 is also pivoted clockwise about the axis 27, so that the tip of the free leg 18 of the profile 17 is located radially above the abutment 26.

By rotating the shaft 21 in a clockwise direction, as shown in Fig. 4, the axis 27 of the gripper 02 is again radially displaced into the interior of the gripper cylinder 01, so that the free end of the profile 17 lowers on the abutment 26 and thereby between itself and the abutment 26 leading end of the strand 07 (not shown in the figure) is clamped.

After the passage of the gripper 02 through the folding gap 13, the gripper 02 is raised again by a rotation of the shaft 21 in the counterclockwise direction and the printed product 08 clamped between the free end and the abutment 26 is released, as shown in FIG. 5. From this stage, the shaft 24 pivots counterclockwise to pull the free leg 18 of the gripper 02 away from the abutment 26 and over the opening of the cylinder jacket. By subsequent rotation of the shaft 21 clockwise, the gripper 02 is returned to the inside of the Gripper cylinder 01, retracted into the position shown in Fig. 2. The gripper 02 is now ready for a further passage through the cutting gap 09.

As can be seen, a small swivel angle of the gripper 02 is sufficient to be able to move it between the clamped position and the lowered position, and the radial stroke is also limited to a few millimeters, depending on the thickness of the printed products 06 to be processed. Since the gripper 02 can be simply constructed, its weight and moment of inertia are low. The short strokes between the retracted position and the clamping position of the gripper 02 require low accelerations and therefore moderate, material-saving drive forces.

Fig. 9 shows a gripper cylinder 01 with three gripper systems 02, z. B. grippers 02, which is located in the area of the knife cylinder 04 gripper system 02 in the lowered position, d. H. in the cutting position the gripper system 02 located in the area between the knife cylinder 04 and the jaw cylinder 14 in the closed position, d. H. Clamping position and the gripper system 02 arranged after the jaw cylinder 14 in the open position, i. H. is in the release position.

A belt guide can additionally be arranged between knife cylinder 04 and jaw cylinder 14. These ribbons press the cut printed products 06, i. H. the signatures against the lateral surface of the gripper cylinder 02. Several bands are spaced apart in the axial direction so that the grippers 02 can run at these intervals with little interference.

The belt guide can be driven by the gripper cylinder 01 or by the jaw cylinder 14. The belt guide can also be driven frictionally or by an independent motor.

10 shows a schematic top view of a gripper system 02. LIST OF REFERENCE NUMBERS

01 cylinder, gripper cylinder

02 Gripper system, gripper

03 folding knife

04 knife cylinder

05 -

06 knives

07 Flat material, strand

08 Flat material, printed matter

09 cutting gap

10 -

11 section, lagging

12 edge, leading

13 folding gap

14 jaw cylinders

15 -

16 beams

17 profile

18 legs

19 arm

20 -

21 wave

22 coupling rod

23 arm

24 wave 5 -

26 surface section, abutment 7 axis swivel axis

swivel axis

-

cam

cam

caster

caster

-

poor

poor

distance

Claims

Expectations

1. cylinder (01) of a folder with a cylinder body, at least one gripper (02) which can be moved between a position sunk inside the cylinder body, an extended position and a clamping position, with the clamping position in which a tip of the gripper (02) Flat material (07; 08) presses against a surface section (26) of the cylinder body from the outside, and wherein an axis (21) about which the gripper (02) pivots between the lowered and the extended position is arranged, the cylinder body on the Gripper (02) is assigned an abutment (26) for cutting flat material (07; 08) to be gripped by the gripper (02), the gripper (02) in front of the abutment assigned to it (referring to the direction of rotation of the gripper cylinder (01) 26) is arranged, wherein another axis (24) about which the gripper (02) executes a movement in the circumferential direction of the cylinder (01) is arranged, characterized in that both axes (21; 24) are arranged fixed in the cylinder.

2. Cylinder (01) of a folder with a cylinder body, at least one gripper (02) which can be moved between a position sunk inside the cylinder body, an extended position and a clamping position, with the clamping position in which a tip of the gripper (02) Flat material (07; 08) presses against a surface section (26) of the cylinder body from the outside, and an axis (21) about which the gripper (02) pivots between the lowered and the extended positions is arranged, the cylinder body on the Gripper (02) is assigned an abutment (26) for cutting flat material (07; 08) to be gripped by the gripper (02), the gripper (02) in front of the abutment assigned to it (referring to the direction of rotation of the gripper cylinder (01) 26), another axis (24) about which the gripper (02) executes a movement in the circumferential direction of the cylinder (01), is arranged, characterized in that at least one band cooperating with the cylinder (01) at least partially in the area between the knife cylinder (04) and the jaw cylinder (14) is arranged.

3. Cylinder according to claim 1 or 2, characterized in that a first axis (27) is carried by a first arm (19) which is pivotable about the second axis (21) which is stationary with respect to the cylinder body, about the radial inward movement to drive the first axis (27).

4. Cylinder according to claim 3, characterized in that the pivoting movement of the gripper (02) and the radial movement of the first axis (27) are coupled such that in a final phase of the pivoting movement into the clamping position, the first axis (27) is radially inward emotional.

5. Cylinder according to claim 3, characterized in that a pivoting movement of the first arm (19) is driven by means of a cam disc (31).

6. Cylinder according to one of the preceding claims, characterized in that a coupling rod (22) is articulated on the one hand on the gripper (02) and on the other hand on a second arm (23) which can be pivoted about a third axis (24) in order to pivot the gripper (02) to drive.

7. Cylinder according to claim 6, characterized in that a pivoting movement of the second arm (23) is driven by means of a cam disc (32).

8. Cylinder according to claim 6, characterized in that of the two arms (19; 23) the first arm (19) is oriented more in the circumferential direction and the second arm (23) in the radial direction of the cylinder body.

9. Cylinder according to claim 1 or 2, characterized in that the cylinder (01) is designed as a folding knife cylinder.

10. Cylinder according to claim 1 or 2, characterized in that the gripper (02) is arranged in the direction of movement of the cylinder (01) immediately before the abutment (26) for cutting.

11. Cylinder according to claim 10, characterized in that a distance (a) from a tip of the gripper (02) in the recessed state and an edge of the abutment (26) is less than 30 mm, in particular less than 10 mm.

12. Cylinder according to claim 1, characterized in that at least one with the cylinder (01) at least partially in the area between the knife cylinder (04) and jaw cylinder (14) cooperating band is arranged.