EP1383701B1 - Cylinder for a folder unit - Google Patents

Abstract

A collecting cylinder for a folder unit is provided with at least one disk cam that has peripheral switching depressions. These switching depressions can be covered by using an auxiliary curved trajectory which is created by a pivoting drive. Switching levers are selectively blocked or unblocked by motor-driven rotatable switching parts.

Description

The invention relates to a cylinder of a folding apparatus according to the preamble of claim 1.

By EP 04 36 102 A1 a collecting cylinder is known, which has a side frame fixed base curve and instead of rotatable cover plates electromagnetically actuated locking bolt for controlling the cylinder fittings.

The invention has for its object to provide a cylinder of a folder.

The object is achieved by the features of claim 1.

The achievable with the present invention consist in particular that the switching means now used low switching times, z. B. of about 1/300 seconds allow. As a result, exact switching of the cylinder fittings can take place even with a high circumferential speed of the cylinder. In particular, the arrangement of a stepping motor in conjunction with very short, in particular generated by rotation switching paths and the movement of small masses is advantageous. Restrictions in the switching time, hard-to-calculate switching delays and inexact switching paths, such as those that can occur, for example, due to hysteresis properties of magnetic switching devices or due to the compressibility of printing media, are avoided.

It is Z. B. possible to collect by means of a aforementioned Schaltmittein collecting cylinder one to three times and adjust these different collecting rhythms also at short notice and without any technical effort or change.

The application of the invention is possible for all on cylinders switchable valves, such as grippers, punctures and jaws.

Fig. 1

einen Längsschnitt durch einen Zylinder analog einer Schnittlinie I - I nach Fig. 2;

Fig. 2

einen Querschnitt durch einen Zylinder analog einer Schnittlinie II-II nach Fig. 1;

Fig. 3

eine schematische Darstellung eines Antriebsmotors mit Schaltstück und Schalthebel;

Fig. 4

eine schematische Darstellung einer Ausführungsvariante eines Antriebsmotors mit Schaltstück und Schalthebel.

An embodiment of the invention is illustrated in the drawing and will be described in more detail below. Show it:

Fig. 1

a longitudinal section through a cylinder analogous to a section line I - I of Fig. 2;

Fig. 2

a cross section through a cylinder analogous to a section line II-II of Fig. 1;

Fig. 3

a schematic representation of a drive motor with contact piece and lever;

Fig. 4

a schematic representation of an embodiment of a drive motor with contact piece and shift lever.

A cylinder 01, z. B. a five-part cylinder cylinder 01 a web-fed rotary printing press consists z. B. from two possibly multi-piece side windows 02; 03, which are arranged on a shaft 04 and optionally spaced apart by traverses 06. At the periphery, the collecting cylinder 01 cylinder fittings 07; 08; 09; 10; 11; 13; 14; 15; 16; 17, z. B. five spaced gripper systems 07; 08; 09; 10; 11, between which only suggestively or symbolically represented Falzmessersysteme 13; 14; 15; 16; 17 are arranged (Fig. 2).

Each of the gripper systems 07 to 11 has a between the side windows 02; 03 rotatably mounted support spindle 19 with rotatably mounted on the support spindle 19, about the cylinder width spaced apart grippers 21, which are each movable against a gripper pad, not shown.

The support spindle 19 carries at one end a roller lever 22. This in turn receives a roller 23 at its second end.

The collecting cylinder 01 is by means of its shaft journals 24; 26 and various bearings 27, z. B. Rolling 27 in side frames 28; 29 stored. The left shaft journal 24 is connected to a gear 31, z. B. drive gear 31 is connected.

On the drive side, ie in the left side frame 28, a left side roller bearing 27 and the shaft pin 24 located therein receiving side frame fixed sleeve 32 is arranged. This bushing 32 carries between side frame 28 and side window 02 at least one side frame parallel arranged base cam 33, run on the periphery 34, the rollers 23 of the gripper systems 07 to 11.

The base cam 33 has at its periphery 34 different wells 36; 37 on, z. B. a receiving trough 36 and a discharge trough 37th

Each of the cylinder fittings 07 to 11, ie each of the gripper systems 07 to 11 has at the end of its support spindle 19 a support spindle fixed, approximately in the radial direction to the shaft 04 extending shift lever 38. The shift lever 38 may extend in the cylinder interior in the vicinity of the side window 02. The free end of the shift lever 38 can connect to a cam-like or propeller-shaped, by means of a side window fixed drive motor 41 rotatable about a rotation axis A switching piece 39. In an advantageous embodiment, the contact piece 39 is rotatably connected to the motor shaft of the drive motor 41. The drive motor 41 is preferably designed as a stepping motor 41. The contact piece 39 is z. B. as one or two-armed lever 39, wherein the free end of the free end of the shift lever 38 serve as a stop and This can block (Fig. 3, 4).

Each of the individual gripper systems 07 to 11 associated drive motor 41 is by line 42; 43 with a z. B. on the outside of the side window 03 electrical control unit 44 is connected. This control unit 44 communicates with a line 46 extending over the right-hand shaft journal with a slip ring body 47 located on the shaft journal 26 and surrounded by a housing 30. The derivatives 48 of the slip rings lead to a control unit, not shown.

It is of course also possible, instead of the slip ring body 47 to arrange a rotatable transmission unit, not shown, and to communicate via a stator, also not shown, the control signals contactlessly to the control center and to receive new control signals from there again.

Furthermore, it is possible to arrange a second basic cam disk 49 for the folding blade systems 13 to 17 on the side frame-fixed bushing 32. These include not shown rollers and roller lever. As with the gripper systems 07 to 11, switching parts and stepping motors are also provided for the folding blade systems 13 to 17, not shown here, however. The execution of the side windows 02 is advantageous; 03 as multi-piece side windows 02; 03, wherein the folding blade systems 13 to 17 and the gripper systems 07 to 11 are rotated against each other. The shaft journal 24 is advantageously carried out in this embodiment as a hollow shaft, which z. B. is connected to the side window 02 for the support spindle 19 of the gripper systems 07 to 11. In running as a hollow shaft shaft 24 z. B. the shaft journal, not shown, arranged for the side window of the folding blade systems 13 to 17, also not shown.

The systems of the cylinder 01 work as follows:

According to the control signals received via the control unit, the Drive motors 41 are acted upon by turning their motor shaft in each case so that the propeller-shaped contact piece 39 with its free end in a tangential to the cylinder cross-section - see gripper system 07 - or in a radial direction to the cylinder cross-section - see gripper system 09 - is brought. The gripper system 08 shows the switching piece 39 within a switching angle α, while the gripper system 09 shows the switching piece 39 in a rest phase within an angle β. At high speeds of the collecting cylinder 01, connected to high peripheral speeds, the switching piece 39 must reach its new position within the switching angle α very quickly, and in particular in a time less than 1/300 second, and safely.

In the tangential position of the shift lever 38 of the support spindle 19 is blocked, while the rollers 23 can not dive into the trough 36. The result is a Hilfskurvenbahn 51, which prevents the opening of the gripper systems 07 to 11 when passing through the rollers 23.

In the radial position of the switching piece 39 - see gripper system 09 - the roller 23 passes through the discharge trough 37 and the gripper 21 open. In the tangential position of this contact piece 39 an auxiliary cam track 52 would be generated for the rollers 23 and a discharge of printed products would thus prevented. In this case, the axis of rotation A of the switching element 39, which is congruent with the motor shaft of the drive motor 41 in the present example, axially parallel to the support spindle 19th

The same applies to the control of folding blade systems 13 to 17, not shown.

According to a variant, it is also possible that a free end of the rotatable lever 39 of the switching piece 39 has a nearly perpendicular to the switching piece 39 and axially parallel to the axis of rotation A of the switching piece 39 and the motor shaft extending cam 53, which in a locking position below the free end of Shift lever 38 is rotated and this blocked so that thereby the support spindle 19 is not rotated (Fig. 4).

The motor shaft of the drive motor 41 runs in a secant-like direction to the cylinder cross-section of FIG. 2.

It is also possible to switch the systems, for. B. to open and close the gripper systems 07 to 11 instead of the aforementioned drive motors 41, not shown to use solenoids.

Due to the different positions of the lifting drive the shift lever 38 can also be placed in two different positions.

The generation of the auxiliary curve 51; 52 can also be applied to cylinders for cutting or folding in the same or a similar way.

LIST OF REFERENCE NUMBERS

01

Cylinder, collection cylinder

02

Side window (01)

03

Side window (01)

04

Wave (01)

05

-

06

Traverse (02, 03)

07

Cylinder fitting, gripper system (01)

08

Cylinder fitting, gripper system (01)

09

Cylinder fitting, gripper system (01)

10

Cylinder fitting, gripper system (01)

11

Cylinder fitting, gripper system (01)

12

-

13

Cylinder fitting, folding blade system (01)

14

Cylinder fitting, folding blade system (01)

15

Cylinder fitting, folding blade system (01)

16

Cylinder fitting, folding blade system (01)

17

Cylinder fitting, folding blade system (01)

18

-

19

Support spindle (07 - 11)

20

-

21

Gripper (07 - 11)

22

Roller lever (23; 19)

23

Roller (22)

24

Shaft journal (01)

25

-

26

Shaft journal (01)

27

Bearings, Rolling Bearings

28

side frame

29

side frame

30

Housing (47)

31

Gear, drive gear (01)

32

Bushing (28)

33

Basic cam (32)

34

Periphery (33)

35

-

36

Trough, receiving trough (34)

37

Trough, discharge trough (34)

38

Shift lever (19)

39

Contact piece, lever, one-armed

40

-

41

Drive motor, stepper motor

42

Line (41; 44)

43

Line (41; 44)

44

Control unit (01)

45

-

46

management

47

Slip ring body (26)

48

derivation

49

Basic cam (32)

50

-

51

Auxiliary Curve Track (36)

52

Auxiliary Curve Track (37)

53

Cams (39)

A

Rotation axis (39)

α

switching angle

β

Angle, resting phase

Claims (9)

1. A cylinder of a folder with the use of travelling rollers (23), which rotate on at least one main cam disc (33; 49) arranged so as to be fixed with respect to the lateral stand and comprising hollows (36; 37) and which are held in roller levers (22), in order to switch cylinder armatures (07 to 11; 13 to 17), wherein an auxiliary cam track (51; 52) covering the hollows (36; 37) of the main cam disc (33; 49) is capable of being produced by means of a switch member (39) selectively blocking or freeing the roller lever (22), wherein the switch member (39) is mounted on the rotating cylinder, characterized in that the roller lever (22) is capable of being selectively blocked or freed by means of a rotational movement of the switch member (39) about an axis of rotation (A), and the switch member (39) is capable of being driven by means of a drive motor (41).
2. A cylinder according to Claim 1, characterized in that the axis of rotation (A) of the switch member (39) extends parallel to the shaft of the drive motor (41).
3. A cylinder according to Claim 1, characterized in that the drive motor (41) is constructed in the form of a stepping motor (41).
4. A cylinder according to Claim 1, characterized in that during the blocking the switch member (39) co-operates with the switch lever (38), fixed with respect to a support spindle, as a stop.
5. A cylinder according to Claim 1, characterized in that the drive motor (41) is connected by way of lines (42; 43) to a rotatable control unit (44) which is fixed with respect to the cylinder.
6. A cylinder according to Claim 5, characterized in that the rotatable control unit (44) which is fixed with respect to the cylinder is connected without contact to a stator which receives the control signals from a control centre.
7. A cylinder according to Claim 1, characterized in that the switch member (39) is constructed in the form of a lever (39) which is pivotable in a circular manner and is at least one-armed and which in a locking position blocks the free end of the switch lever (38) with a free end as a stop, and the axis of rotation (A) of the switch member (39) extends substantially axially parallel to the support spindle (19).
8. A cylinder according to Claim 1, characterized in that the switch member (39) is constructed in the form of a lever (39) which is pivotable in a circular manner and is at least one-armed and which comprises at its free end a cam (53) which extends axially parallel to the shaft of the drive motor (41) and faces in the direction of the switch lever (38) and which in a locking position engages as a stop under the free end of the switch lever (38) and blocks it, and the axis of rotation (A) of the switch member (39) extends substantially in a secant-like direction with respect to the cross-section of the cylinder (01).
9. A cylinder according to one of Claims 7 or 8, characterized in that the switch member (39) is arranged on the motor shaft or on a shaft prolonging the motor shaft, and the axis of rotation (D) of the switch member (39) is the same as the motor axis.

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