DE10202798B4 - Device for adjusting web guiding rolls - Google Patents

Abstract

Device for adjusting web-guiding rollers (6; 7; 13) in one plane (12), characterized in that the roller (13) is equipped with an axis designed as a hollow axis (16), that the hollow axis (16) has at least one The frame wall (20; 31) is axially fixed and movably mounted to the plane (12) that at least one drive device (23; 24) is accommodated in the hollow axis (16), which has at least one sliding element (25; 26) moves axially, this axial movement (44; 49) of the sliding element (25; 26) via a crank (27; 30) which is mounted at a fixed pivot point (29; 34) and the sliding element (25; 26) , by pivoting (45; 50) the crank (27; 30) about the pivot point (29; 34) into an in-plane (12) adjustment movement (46; 51) of the hollow axis (16) can be converted.

Description

The invention relates to a device for adjusting web guiding Rolling in one plane.

It is generally known to adjust web-guiding rollers, in particular infeed rollers or strand guide rollers, in a horizontal plane by means of adjusting devices arranged on the outside of the roller on the operating side and on the drive side of a folder. The adjustment device located on the drive side is operated exclusively from the drive side and the adjustment device located on the operator side is operated exclusively from the operator side. Such a roller with adjusting devices is in the specialist book "Atlas of newspaper and illustration printing", Polygraph Verlag GmbH, Frankfurt, 1960 on page 66, 81 disclosed.

In addition, it is known the adjustment of rollers, which on the operating side and on the Have adjustment devices arranged on the drive side, from one Side, for example from the operating side.

The control element for the adjustment device the drive side is arranged on the operating side, this Control element with the adjustment device on the drive side Transferring adjustment movement Mechanisms and fasteners are connected.

Disadvantage is that these mechanisms and connecting elements are arranged next to the rollers and thus Are exposed to pollution, such as dust or paper dust can. Another disadvantage is that the arrangement of the mechanisms and connecting elements in addition to the rollers require additional protection are, and also the accessibility for maintenance work limited becomes.

From the DE 43 35 747 C1 a control roller for guiding a belt is known, with an axis equipped as a hollow axis, which is axially fixed to a frame wall and in which a drive device is accommodated.

The invention has for its object a Device for adjusting web-guiding rolls in one plane to create, their mechanisms and fasteners protected from pollution and are arranged in a space-saving manner, the accessibility is not restricted.

This task is due to the characteristics solved in the characterizing part of claim 1.

Advantageous embodiments of the Invention are the dependent claims refer to.

A significant advantage is that the mechanisms and drive devices for performing the Adjustment movement in an axis of the hollow axis Roller are housed. These mechanisms lying in the roller and Drive devices thus have protection against mechanical damage and pollution, with accessibility for maintenance not limited is.

Furthermore, it is important that the actuation the adjustment devices either of one or both Sides, the operating side and the drive side.

In addition, the roller points with the device according to the invention to adjust a compact structure, so that such Roller also afterwards be installed in machines already delivered to the customer can. Such a roller can also in the without Presses previously unadjustable rollers are replaced, since the roller according to the invention its dimensions do not change or do not change noticeably.

The following are exemplary embodiments the invention explained with reference to the drawings. They show a highly schematic:

1 a folder with hoppers and folding means with infeed rollers arranged next to the former of the former

2 Side view of a folder after 1

3 a web-guiding roller with manually operable drive devices arranged in the hollow axis for adjusting the position in one plane in the basic position

4 Roller after 3 its position is adjusted on one side on the operator side

5 Roller after 3 in their position on both sides, ie adjusted on the operating and on the drive side

In 1 is a folder 1 shown that from a former 2 and folding means 3 exists, which one over the former 2 drawn strand 4 processed.

The strand 4 consists of one or more layers and that this strand 4 processing folder 3 are for example infeed rollers, pulling, cutting and folding devices. Next to a folding former tip 5 are two infeed rollers 6 ; 7 arranged, for example by means of these arranged and preferably operable and operable by hand from the operating side 8th ; 9 ; 10 ; 11 in one level 12 , preferably in a horizontal plane, can be adjusted (see 2 ).

The infeed rollers 6 ; 7 which is in the common plane 12 can be arranged by means of the actuating means 8th ; 9 ; 10 ; 11 parallel or extending obliquely to one another in this plane which preferably runs in the horizontal direction 12 be adjusted.

The infeed rollers 6 ; 7 be in the plane 12 adjusted parallel to each other around the infeed rollers 6 ; 7 for example, the strength or number of webs of the strand passed through them 4 adapt. The infeed rollers 6 ; 7 become oblique to each other in the plane 12 adjusted to the so-called strand run or web run of over the former 2 drawn strand 4 to optimize.

3  shows a roller 13 , especially one already in the 1  and in the 2  shown inlet roller 6 '; 7 ', which from one means bearing elements 14 ; 15  rotatable on a hollow axle 16  supported roll shell 17  consists. The hollow axis 16  is axially fixed and to the plane 12  or parallel to the plane 12  movable in a bearing element 18  stored, which in a holder 19  on a frame wall 20  is arranged. Alternatively, not shown in more detail the hollow axis 16  directly in the frame wall 20  axial fixed and to level 12  be movably mounted. The rack wall 20  is for example the frame wall of the drive side. The level 12  is for example a plane extending in the horizontal direction.

The bearing element 18 for axial fixation and for moving in the plane 12 , for example for horizontal movement, is for example one in one in the plane 12 or parallel to the plane 12 running groove 21 guided bolt 22 , the bolt 22 on the hollow axis 16 is arranged. The bearing element 18 can also be a differently designed guide means or bearing means, on the one hand an axial fixation and at the same time a movement of the hollow axis 16 in the plane 12 or parallel to the plane 12 allows.

Inside the hollow axis 16 are drive devices 23 ; 24 and sliding elements 25 ; 26 stored. The sliding elements 25 ; 26 are axially displaceable in the hollow axis 16 stored and managed. The drive devices 23 ; 24 are axially fixed. The sliding element 25 stands with the drive device 23 and the sliding element 26 stands with the drive device 24 in connection.

Between the sliding element 25 and the frame wall 20 is a crank 27 arranged. The crank 27 is on the sliding element 25 at a pivot point 28 and on the frame wall 20 or on the holder 19 in a fixed pivot point 29 stored.

A crank 30 is between the sliding element 26 and a rack wall 31 arranged. The crank 30 is on the sliding element 26 at a pivot point 32 and on the frame wall 31 or one on the rack wall 31 arranged holder 33 in a fixed pivot point 34 stored. The rack wall 31 is, for example, the frame wall on the operator side.

The drive device 23 is for example one over the ends of the hollow axis 16 protruding threaded spindle 35 , at the ends of which can be actuated by hand 36 ; 37 are arranged.

The drive device 24 is, for example, a spindle drive 39 , at whose from the hollow axis 16 protruding end a manually operable actuating means 38 is arranged. The frame walls 20 ; 31 have breakthroughs 40 ; 41 through which the actuating means 36 to 38 protrude through. The actuators 36 ; 37 ; 38 are designed for example as a handwheel, hand crank, rotary knob or rotary knob with position indicator.

The drive devices 23 ; 24 or the threaded spindle 35 and the spindle drive 39 are coaxial to each other in the hollow axis 16 arranged.

Alternatively, the drive devices 23 ; 24 , not shown in detail, also next to each other in the hollow axis 16 be arranged.

The drive device 23 that in the hollow axis 16 stored and guided sliding element 25 that with the sliding element 25 and at a fixed pivot point 29 connected crank 27 , as well as the bearing element 18 provide an adjustment device 100 the drive side.

The drive device 24 that in the hollow axis 16 stored and guided sliding element 26 that with the sliding element 26 and at a fixed pivot point 34 connected crank 30 , as well as the bearing element 18 provide an adjustment device 200 the operating side.

4 shows an adjustment of the roller 13 in the plane 12 by means of the adjustment device 200 on the operator side.

By means of the actuating means 38 becomes the spindle drive 39 twisted. The one with a thread 42 with one in the sliding element 26 arranged thread 43 engaged spindle drive 39 causes the thread to run out due to its rotation 43 on the thread 42 and thus forces a shift 44 of the sliding element 26 in the axial direction.

The axial displacement 44 of the sliding element 26 causes a pivoting 45 the crank 30 around the fixed pivot point 34 , In that the crank 30 over the sliding element 26 in the hollow axis 16 the roller 13 is stored, the hollow axis experiences 16 and thus the roller 13 due to their axially fixed and in the plane 12 or to the level 12 movable storage by means of the bearing element 18 an adjustment movement 46 in the plane 12 ,

Thus, for example, there is an adjustment movement 46 in a plane extending in the horizontal direction 12 feasible.

The Indian 4 The process described shows a roller 13 ; 6 ' that are slanted in the plane 12 is adjusted, for example as in 1 and 2 shown in cooperation with a second roller 7 ' the so-called strand run or web run of the over the former 2 drawn strand 4 to optimize.

Furthermore, such can also be used diagonally in the plane 12 adjustable roller 13 the web run one the roller 13 looping path can be optimized.

In 5 is analogous to 4 the adjustment of the roller 13 in the plane 12 both by means of the adjustment device 200 on the operating side, as well as by means of the adjustment device 100 shown on the drive side.

The adjustment of the roller 13 by means of the adjustment device 200 on the operating side is carried out analogously to in 4 described.

By means of the actuating means 36 ; 37 becomes the lead screw 35 twisted, with a thread 47 with one in the sliding element 25 arranged thread 48 engaged threaded spindle 35 due to this twisting, the thread runs off 48 on the thread 47 enforces and thus a shift 49 of the sliding element 25 is accomplished in the axial direction.

The axial displacement 49 causes a pivoting 50 the crank 27 around the fixed pivot point 29 , In that the crank 27 over the sliding element 25 in the hollow axis 16 the roller 13 is stored, the hollow axis 16 which by means of the bearing element 18 axially fixed and in the plane 12 or to the level 12 is movably mounted, due to this type of storage 18 and the pivoting 50 the crank 30 an adjustment movement 51 towards the plane 12 imposed.

Through the adjustment movement 51 the hollow axis 16 towards the plane 12 becomes the roller 13 towards the plane 12 adjusted.

The axial displacement 49 causes a pivoting 50 the crank 30 around the fixed pivot point 34 , In that the crank 30 over the sliding element 25 with the hollow axis 16 the roller 13 is indirectly connected and the hollow axis 16 by means of the bearing element 18 axially fixed, but in the plane 12 or to the level 12 is movably mounted, the orbital movement of the crank 30 , here the pivot 50 the crank 30 , in a translational movement of the roller 13 , here in the adjustment movement 51 the hollow axis 16 - and thus the roller 13 - towards the plane 12 , converted.

In the present exemplary embodiment, the axial displacement causes 49 a swivel 50 the crank 30 around the fixed pivot point 34 , In that the crank 30 over the sliding element 25 with the hollow axis 16 the roller 13 is indirectly connected and the hollow axis 16 by means of the bearing element 18 axially fixed but horizontally movable, the orbital movement of the crank 30 , here the pivot 50 the crank 30 , in a translational movement of the roller 13 , here in the adjustment movement 51 the hollow axis 16 - and thus the roller 13 - converted in the horizontal direction.

The Indian 5 The process described shows a roller on the one hand 13 ; 6 ' by means of the two adjustment devices 100 ; 200 obliquely, ie at an angle, in the plane 12 is adjusted, for example, as in 1 and 2 shown in collaboration with a second roller 13 ; 7 ' the so-called strand run or web run of the over the former 2 drawn strand 4 to optimize. Furthermore, such an incline, ie at an angle, in the plane 12 adjustable roller 13 the web run one the roller 13 looping path can be optimized.

On the other hand, in the 5 described procedure for adjusting a roller 13 ; 6 ' are executed so that the roller 13 ; 6 ' by means of the adjustment devices 100 ; 200 in the plane 12 is adjusted parallel to the roller 13 in a new position on the plane parallel to the starting position 12 bring to.

Furthermore, the in the 5 described procedure for adjusting a roller 13 ; 6 ' are executed so that the roller 13 ; 6 ' to another roller 13; 7 ' in the plane 12 is adjusted in parallel to the rollers 13 ; 6 '; 7 ' for example, as in 1 and 2 shown to the strength or number of tracks of the strand passed through this 4 adapt.

The invention is not only intended for use with infeed rollers 6 ; 7 restrict. With the device according to the invention, any roller 13 , in particular a roller guiding the web, can be adjusted horizontally or in one plane.

1

folding device

2

formers

3

folding means

4

strand

5

Falztrichterspitze

6 ; 6 '

inlet roller

7 ; 7 '

inlet roller

8th

actuating means

9

actuating means

10

actuating means

11

actuating means

12

level

13

roller

14

bearing element

15

bearing element

16

hollow shaft

17

roll shell

18

bearing element

19

holder

20

frame wall

21

groove

22

bolt

23

driving device

24

driving device

25

sliding element

26

sliding element

27

crank

28

pivot point

29

pivot point

30

crank

31

frame wall

32

pivot point

33

holder

34

pivot point

35

screw

36

actuating means

37

actuating means

38

actuating means

39

spindle drive

40

breakthrough

41

breakthrough

42

thread

43

thread

44

shift

45

pivoting

46

adjustment

47

thread

48

thread

49

shift

50

pivoting

51

adjustment

100

adjustment

200

adjustment

Claims (4)

Device for adjusting web-guiding rolls ( 6 ; 7 ; 13 ) in one level ( 12 ), characterized in that the roller ( 13 ) with a hollow axis ( 16 ) configured axis that the hollow axis ( 16 ) at least on one frame wall ( 20 ; 31 ) axially fixed and to the plane ( 12 ) is movably mounted in the hollow axis ( 16 ) at least one drive device ( 23 ; 24 ) is housed, which has at least one in the hollow axis ( 16 ) guided sliding element ( 25 ; 26 ) moves axially, this axial movement ( 44 ; 49 ) of the sliding element ( 25 ; 26 ) via a crank ( 27 ; 30 ), which at a fixed pivot point ( 29 ; 34 ) and the sliding element ( 25 ; 26 ) is stored under pivoting ( 45 ; 50 ) the crank ( 27 ; 30 ) around the pivot point ( 29 ; 34 ) in one in the plane ( 12 ) lying adjustment movement ( 46 ; 51 ) the hollow axis ( 16 ) is convertible. Device according to claim 1, characterized in that the plane ( 12 ) is a plane extending in the horizontal direction. Device according to claim 1 or 2, characterized in that the drive device ( 23 ; 24 ) a mechanically operable drive means, preferably a threaded spindle ( 35 ) or a spindle drive ( 39 ), is. Apparatus according to claim 3, characterized in that the mechanically operable drive means on both the operating side and on the drive side actuating means ( 36 ; 37 ; 38 ), preferably rotary knobs.