EP0974457B1 - Print unit in a rotary offset printing press - Google Patents

Description

The present invention relates to a printing unit in a web rotary offset printing press according to the preamble of claim 1.

A device for dampening a plate cylinder is known from US Pat. No. 2,570,242, which allows an upper and a lower dampening roller, both of which Contact the plate cylinder, switch it on and off at the same time and, if necessary, the Adjust the pressing force of the dampening roller on the plate cylinder as required.

EP 0 625 423 A1 discloses a printing unit with an inclined and parking device for Plate or blanket cylinders. The described tilting device for the cylinder however, only allows individual cylinders by moving a bearing of one concerned To tilt the cylinder.

Furthermore, a dampening unit for offset printing machines is known from DE 29 50 025 A1 which includes means to determine the contact pressure and the relative position of individual rollers the dampening unit to each other or in relation to the plate cylinder to be dampened.

Damping units are used in web-fed offset printing machines of the prior art used a quantity of water, mixed with a dampening solution, on the printable Apply and regulate the web. In Fig. 1, a printing unit P is a conventional one Web offset printing press with an upper dampening unit UD and a lower one The dampening unit LD is shown schematically. The dampening units UD and LD transfer water the upper and lower pressure plates UP and LP, and from these the water is on the Transfer the top and bottom of the web W to be printed. From the top and lower printing plate UP and LP is a colored image on the upper and lower blanket UB and LB and transferred from these to the top and bottom of a web W.

For webs with different widths, different ones have to be printed Amounts of water are transferred to the surface of the web. It is known that by Inclination of an immersion roller relative to an adjacent bridge roller of a dampening unit the amount of water transferred from the dampening solution tank to the web can be regulated. This inclination of the immersion roller causes the dampening unit to be adjusted to the amount of water required to be supplied to the web of a certain width. If, when changing the width of the web, the inclined position of the Dip roller takes place, a disproportionate amount of water z. B. in the middle of the web in Compare to the edges of the web, resulting in poor print quality or too Can break the web.

2a and 2b show the upper dampening unit UD and the lower dampening unit LD Fig. 1, in which one end of the plunger roller PN relative to the bridge roller SL in a different position. In Fig. 2a there is one end of the Dip roller PN relative to bridge roller SL in a first position A, while in Fig. 2b one end of the dip roller PN relative to the bridge roller SL in a second Position B is. In the devices of FIGS. 1, 2a and 2b State of the art, one end of the plunger roller PN can be any number of positions relative to the bridge roller SL, as these positions are closer using one of the following described tilt rod RS can be set. As is known, a Dampening solution D, preferably water (with a dampening solution), by rotating the Dip roller PN is conveyed out of the dampening solution tank. The bridge roller SL transmits the dampening solution D from the dip roller PN to the dampening roller DV and this transfers the dampening solution D to the dampening roller DF, from where it then to the upper or lower pressure plate UP, LP arrives.

The steps for setting an inclined position in a lower dampening unit LD des The prior art is shown in FIGS. 3a-3d. The first step is using a wrench an adjusting nut, not shown, of the tilt mechanism loosened by turning in one direction S1. By actuating the adjusting nut, the entire tilt mechanism can be locked in a certain position. In one The second step is using a wrench R on an inclined rod the adjusting nut LN loosened by turning it in a direction S2. By pressing the adjusting nut LN can lock the tilt rod RS in a certain position become. In a third step, the wrench R is used Inclined rod rotated about its longitudinal axis in a direction S3. (The direction is S3 shown in another plane for the purpose of illustration in Fig. 3c). The revolution the inclined rod RS about its longitudinal axis moves the plunger roller PN at an angle around the bridge roller SL. As is known, the plunger roller PN can be rotated on a support arm stored so that it can perform an angular movement relative to the bridge roller SL. The inclined rod RS has a screw head BH on which the Wrench R is attached with which the tilt rod RS is rotated, and turning the tilt rod RS in Active connection adjusted with a thread on the RS tilt rod the tilting rod RS inwards and outwards, so that the plunger roller PN into the to move the corresponding inclined position. Ultimately, the wrench R used in steps S4 and S5, the lock nut LN and the tilt rod screw the lock nut of the tilt mechanism and thus the Lock the tilt mechanism in its newly set position. These setting steps are for the upper and lower dampening units UD, LD of each printing unit required.

The facilities and procedure for setting an inclined position in Damping of web rotary offset printing machines of the prior art require a number of steps to be performed manually by the machine operator need to change whenever the width of the web has changed or if it has changed other reasons, an adjustment of the inclined position in a dampening system is necessary is. Because of the time it takes to take the steps to hire one The operator is often not inclined with every change in the web width possible to make a corresponding setting. It follows that too much or not enough water is transferred to the new web, which is bad Print quality or a web break. A tilt mechanism which simultaneously has two rollers in two superimposed printing units can be skewed is described in document EP-A-0105477. It is therefore an object of the present invention to set a Oblique position required in dampening units of web-fed rotary offset printing machines Shortening time while reducing machine downtimes and in special to avoid that such an adjustment is not carried out and thus a disproportionate amount of water is transferred to the railway.

A printing unit according to the invention in a web-fed rotary offset printing press a first dampening unit assigned to a first plate cylinder, which has a first has inclined adjustable dampening roller, and with a second, one second plate cylinder assigned dampening system, which a second adjustable has mounted dampening roller which is spaced apart from the first dampening roller, is characterized by an inclination mechanism, the first and the second Dampening roller at the same time inclined by means of inclined articulated pieces in the Way that the supplied to the first and second plate cylinders The amount of dampening solution can be varied at the same time, with the inclined joint pieces are each connected to one of the first and second dampening roller.

With the present invention, the process of setting an inclined position in a printing unit of a web-fed rotary offset printing machine significantly simplified and accelerated and thus the Downtime reduced. Consequently, the operator is able to be accurate Perform regulation so that the correct amount of fountain solution on the web is transmitted.

In the present invention, one or more hinge pieces connect the Inclination rods for the upper and lower dampening units of every printing unit. The Joint pieces ensure that with a single movement of the operator Adjustment of an inclined position in the upper and lower dampening units at the same time he follows. The hinge pieces are preferably at one end of each Tilt bracket connected, which in turn with a tilt rod of each upper and lower dampening systems. The tilt rod regulates the degree the inclination of an assigned dip roller. In this way it controls Movement of the joint the inclination of the upper and lower plunger simultaneously.

The movement of the joint piece can by the movement of a spring piston arm connected to the joint piece or the joint pieces can be controlled. Which spring piston located on the arm can be spring-biased and with the help of a Locking pin borehole arrangement set in different inclined positions and in these are locked. It can be assigned to the spring piston arm Web width indicators are used to guide the operator to correct skew caused for a certain web width. The tilt mechanism can also be Include fine adjustment mechanism with which minor adjustments of the Inclined positions can be made in the dampening systems, for. B. if one determined oblique position between the through the locking pin-borehole arrangement created inclined positions. This fine adjustment mechanism allows either an individual fine adjustment of an inclined position or a simultaneous Fine adjustment of all inclined positions in the dampening units.

The features of the present invention will become apparent in the following description preferred embodiments in connection with the accompanying, below listed drawings explained in more detail.

Show it:

Fig. 1

a schematic elevation of a printing machine of the prior art with an upper and a lower dampening system;

2a and 2b

schematic elevations of the dampening units of the prior art;

3a, 3b, 3c, 3d

schematic elevations of a dampening system of the prior art, in which the steps necessary for an inclination are shown;

Fig. 4

a schematic elevation of a printing press with the Inclination device of the present invention;

Fig. 5

a detailed elevation of a first embodiment of the Inclination device of the present invention;

Fig. 5a

a detailed cross-sectional view of an embodiment of the Invention showing a fine adjustment mechanism;

Fig. 5b

a detailed elevation of the embodiment of Fig. 5a;

Fig. 5c

a detailed cross-sectional view of another embodiment of the Invention with a fine adjustment mechanism;

Fig. 5d

a detailed elevation of the embodiment of Fig. 5c;

Fig. 6

a detailed elevation of a second embodiment of the Incline device of the present invention.

4 is an overall schematic representation of the invention Inclination mechanism 1, which in a web-fed offset printing press P is used, the web W by means of an upper and lower pressure plate UP, LP and an upper and lower blanket UB, LB printed on both sides. Fig. 5 Figure 4 shows a detailed view of the tilt mechanism 1 of Figure 4. Like this is known in the art, the plunger rollers PN are mounted so that they are relative can be adjusted angularly to the bridge rollers SL. The plunge rollers are attached at one end to inclined support arms 2, which are each Rotate the inclined rotary axes 3, which indicates the inclined position of the plunger rollers PN allows. The dip rollers PN transfer a dampening solution, preferably water (with a dampening solution), on dampening rollers DV, and from these the dampening solution on dampening rollers DF and then either on the upper or on the lower Transfer printing plate UP, LP.

One end of the inclined support arms 2 located opposite the axis of rotation 3 is rotatably connected with tilt rods 4. The respective tilt rod 4 is also connected to one end of an inclined rod bracket 5, which at one Axis of rotation 6 is rotatably attached. The other end of each Inclined rod bracket 5 is with an upper and a lower joint piece 7, 8th rotatably connected. The joint pieces 7, 8 are on a common axis of rotation 9 a spring piston arm 10 rotatably connected. The spring piston arm 10 serves as a Adjustment element for the upper and lower joint piece 7, 8 and is on an axis of rotation 12 a stationary support 11 rotatably mounted. The located on the arm 10 Spring piston has a handle 13, a spring (not shown) and one Locking pin 15 on, and the operator uses the handle 13 to the To rotate the spring piston arm 10 about its axis of rotation 12.

The stationary support 11 can be a series of drill holes 14 along one of the Have rotational movement of the spring piston arm 10 certain arc. One yourself at that Spring piston locking pin 15 is received in one of the holes 14, so the position of the spring piston arm 10 and thus the inclined position of the Fix immersion rollers PN. Using a suitable spring (not shown), the Locking pin 15 of the spring piston in the direction of the fixed support 11 and corresponding borehole 14 are biased. The handle 13 is from the Operator used to release the locking pin 15 against the force of the spring from the borehole 14 to draw. A series of markings located on the fixed support 11 or characters 16 can indicate the respective widths of a web that start with the Positions of the spring piston arm 10 are in line when the locking pin 15 in one of the boreholes 14 is received. An arrow or sage 17 on the Spring piston arm 10 can be used to move the spring piston arm 10 to one of the Align characters 16 and thus the correct position of the spring piston arm 10 for one to indicate certain web width.

Sometimes it may be necessary to fine tune the keystone Make dip roller PN that goes beyond the settings by moving of the spring piston arm 10 between the positions of the boreholes 14 are possible. To for this purpose, the tilt rods 4 of the present invention can be attached to a Have a fine adjustment screw head 20 at the end. This screw head 20 can using a suitable wrench (not shown) to secure itself to the rods 4 located thread are rotated so that the position of the tilt rods 4 down and adjust it here. This movement allows the dip rollers PN to be tilted in small steps or the fine adjustment of the plunger roller positions by Movement of the spring piston arm 10 between the boreholes 14 can be adjusted. This arrangement is similar to the inclination rod RS shown in FIGS. 3a-3d State of the art.

5a and 5b show an alternative embodiment of the Fine adjustment mechanism with the eccentric bushings 21 ', 21 "on the respective upper one and lower joint piece 7, 8 are attached to the common axis of rotation 9. The Eccentric bushings 21 ', 21 "have a center 24', which is from the center 25 ' a rotationally fixed shaft 22 'on which the eccentric bushings 21', 21 '' are mounted. differs. The respective upper and lower joint pieces 7, 8 are on the Eccentric bushings 21 ', 21 "attached and rotate with them around the shaft 22. With the respective eccentric bushings 21 ', 21 "connected handles 27' 27" are from Operator used to the eccentric bushings 21 ', 21 "and thus the upper or the lower Joint piece 7, 8 to rotate. To carry out a fine adjustment in the 5a and 5b, the operator rotates the handles 27 ', 27 ", wherein the eccentric bushings 21 ', 21 "rotate and the upper or lower inclined articulation piece 7, 8 are moved. This arrangement enables a separate one Fine adjustment of the inclined position of the upper and lower plunger roller PN.

An alternative embodiment of that shown in Figures 5a and 5b Fine adjustment mechanism is shown in Figures 5c and 5d. Here the Fine adjustment mechanism a simultaneous fine adjustment of the upper and lower Inclined joint piece 7, 8. In Figs. 5c and 5d is a single Eccentric bushing 21 used on the upper and lower inclined joint piece 7, 8 is attached to a common axis of rotation 9. The eccentric bushing 21 has a center 24 which is from the center 25 of the rotationally fixed shaft on which the eccentric bushing 21 is supported, deviates. The upper and lower inclined joint pieces 7, 8 are attached to the eccentric bushing 21 and rotate at the same time with the eccentric bushing 21 around the shaft 22. A handle 27 is with the Eccentric bushing 21 connected, which the operator uses when a fine adjustment 5c and 5d to be executed. So the operator turns it Handle 27, the eccentric bushing 21 rotates and the upper and move lower tilt joint piece 7, 8 at the same time. This arrangement allows one simultaneous fine adjustment of the upper and lower plunger roller PN with a single one Adjustment process carried out by the operator.

Fig. 6 shows an alternative embodiment of the inclination mechanism 1 'of present invention. 6 is the embodiment of FIG Fig. 5 similar, except that in Fig. 6, the spring piston arm 10 'vertically and not is mounted horizontally, the upper and lower inclined joint piece 7, 8 spaced axes of rotation 9 ', 9 "are connected to the spring piston arm 10' and themselves the locking pin 15 is located at a different location on the spring piston arm 10 '. Otherwise, however, is the construction and handling shown in FIG. 5c with FIG. 6 identical.

In the setting method according to the present invention, the printing press P first stopped by the operator to move a web W with a new width through the To guide machine P. Then the operator selects the appropriate skew by pulls the spring piston and thus the locking pin 15 out of one of the drill holes 14 (against the spring force) removed and the spring piston arm 10 or 10 'around the Rotation axis 12 rotates to a position at which the arrow or pointer 17 on the Spring piston arm 10 or 10 'to a corresponding sign 16 for the one to be used Web width is aligned. The locking pin 15 is also on the appropriate Hole 14 aligned. The operator then releases the spring piston and the Locking pin 15 enters the correct borehole 14 under the action of the spring force. While the spring piston arm 10 or 10 'is being moved about the axis of rotation 12 at the same time the inclined joint pieces 7, 8 moves, which is a simultaneous corresponding rotary movement of the inclined rod bracket 5 and a simultaneous corresponding linear movement of the tilt rods 4 triggers. The simultaneous Linear movement of the tilt rods 4 causes a simultaneous adjustment of the Inclined position of the dip rollers PN.

If in the embodiments of FIGS. 5 and 6 a fine adjustment of the If the inclined position of the dip rollers PN is desired, the operator uses one Wrench or other suitable tool to adjust the fine adjustment screw head 20 of the respective tilt rod 4 to rotate, what a Linear movement of the tilt rod 4 and the adjustment of the inclined position assigned dip roller PN causes. This fine adjustment of the inclined position of the Dip rollers PN can be used for web widths in the setting process with the holes 14 are not provided, or it can with the Boreholes 14 corresponding inclined positions of the plunger rollers PN be fine-tuned.

For fine adjustment by means of the fine adjustment mechanism of FIGS. 5c and 5d, the Operator handles 27 to allow simultaneous movement of the upper and lower Trigger tilting joint piece 7, 8, which at the same time a corresponding Rotational movement of the inclined rod bracket 5 and a corresponding linear movement the tilt rods 4 causes. The linear movement of the tilt rods 4 causes at the same time an adjustment of the inclined position of the dip rollers PN. This Fine adjustment can be used for the simultaneous adjustment of the inclined position of the Dip rollers PN are used for web widths that are used in the setting process the boreholes 14 are not provided, or the ones with the boreholes 14 corresponding inclined positions of the plunger rollers PN can be adjusted.

In the embodiment of FIGS. 5a and 5b, the operator turns the handle 27 'or 27 "to rotate the eccentric bushing 21 'or 21" around the shaft 22', whichever is the Movement of the upper or lower inclined joint piece 7, 8, one corresponding rotary movement of one of the inclined rod brackets 5 and one corresponding linear movement triggers one of the inclined rods 4.

LIST OF REFERENCES

P

press

UD

upper dampening system

LD

lower dampening system

UP

upper pressure plate

LP

lower pressure plate

W

train

UB

upper blanket

LB

lower blanket

PN

dipping roller

SL

bridge roller

RS

Skew adjustment rod

D

dampening solution

DV

Moist vibrator roller

DF

Dampener roller

R

wrench

LN

adjusting nut

bra

screw head

A

first position of the dip roller PN

B

second position of the dip roller PN

S1

direction

S2

direction

S3

direction

S4

step

S5

step

1, 1 '

Tilt mechanism

2

Skew adjustment bracket

3

Tilt axis of rotation

4

Skew adjustment rod

5

hanger

6

axis of rotation

7

joint piece

8th

joint piece

9

axis of rotation

10, 10 '

Federkolbenarm

11

stationary support

12

Spring piston rotation axis

13

Spring piston Handle

14

well

15

locking pin

16

character

17

Arrow or sage

20

screw head

21, 21 ', 21 "

eccentric

22, 22 '

rotatable shaft

24, 24 '

Center of the eccentric bushing 21, 21 '

25, 25 '

Center of the rotationally fixed shaft 22, 22 '

27, 27 ', 27 "

handle

Claims (9)

1. A printing mechanism in a web-fed rotary offset printing press (P) with a first plate cylinder assigned to a first dampener (UD) having a first skew pan roll (PN) and with a second dampener (LD) being assigned to a second plate cylinder, having a second skew pan roll (PN) located at a distance to the first pan roll (PN),
   characterized in
   a skew adjustment mechanism (1, 1') which simultaneously skews the first and the second pan roll (PN) by means of adjustment linkages (7, 8) such that the amount of damping agent supplied to the first and the second plate cylinder is varied simultaneously, whereby each of the adjustment linkages (7, 8) are connected with one of the first and second pan rolls (PN)
2. The printing mechanism according to claim 1,
   characterized in that the skew adjustment mechanism (1, 1') comprises a spring plunger bracket (10, 10') as well as a first skew adjustment linkage (7) connected to the first pan roll (PN) and a second skew adjustment linkage (8), which is connected with the second pan roll (PN), whereby the spring plunger bracket (10, 10') is pivotally connected with the first and second skew adjustment linkages (7, 8) and in that the first and the second pan rolls (PN) are skewed simultaneously by moving the spring plunger brackets (10, 10').
3. The printing mechanism according to claim 2,
   characterized in that the skew adjustment element (1, 1') further comprises a first and a second skew adjustment rod (4), whereby the first skew adjustment rod (4) is connected with the first skew adjustment linkage (7) and the first pan roll (PN) and the second skew adjustment rod (4) is connected with the second skew adjustment linkage (8) and the second pan roll (PN).
4. The printing mechanism according to claim 3,
   characterized in that the skew adjustment element (1, 1') further comprises a first bolt head (20) mounted on the first skew adjustment rod (4) and a second bolt head (20) mounted on the second skew adjustment rod (4) for the purpose of fine-tuning the skew position of the respective pan roll (PN).
5. The printing mechanism according to one of claims 2 to 4,
   characterized in that the skew adjustment element (1, 1') further comprises at least one eccentric bushing (21, 21', 21") being connected to the first and/or the second skew adjustment linkage (7, 8) and the adjustment element (10, 10'), and adjusting the first and/or the second skew adjustment linkage (7, 8) relative to the adjustment element (10, 10').
6. The printing mechanism according to one of claims 2 to 5,
   characterized in that the adjustment element (10, 10') is a pivotally mounted bracket (10, 10').
7. The printing mechanism according to claim 6,
   characterizing
   that the skew adjustment mechanism (1, 1') further comprises a fixed bracket (11) having a plurality of holes and that a spring plunger (13, 15) is mounted on the bracket (10, 10') fitting into one of the holes (14) in order to fix the position of the bracket (10, 10').
8. The printing mechanism according to one of the preceding claims,
   characterized in that a first and a second pivotally positioned skew adjustment bracket (2) are provided, the first pan roll (PN) being positioned on the first skew adjustment bracket (2) and the second pan roll (PN) being positioned on the second skew adjustment bracket (2).
9. The web-fed rotary offset printing press (P),
   characterized in
   a printing mechanism according to one of the preceding claims.

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