EP0098514A2 - Inking device - Google Patents

Abstract

An inking unit for use in a rotary printing machine is disclosed. A plurality of endless belts are placed side by side along the surface of a driving roller. These belts transport a liquid medium such as printing ink or damping fluid along the surface of a covering of a cylinder in the direction of the longitudinal axis of the cylinder. The liquid medium is transported by the belts from a position of excess ink to a position of less ink thereby ensuring a uniform distribution of the liquid along the surface of the roller.

Description

The invention relates to a device for transporting a liquid medium according to the preamble of claim 1.

Devices for transporting a liquid medium, e.g. B. printing ink, on a jacket of a roller in the longitudinal axis direction z. B. in printing machine construction in the form of changing inking rollers. The disadvantage here, however, is that the transport path on the jacket in the longitudinal axis direction for the medium is only short, so that a large number of coordinated, alternating rollers is necessary in order to achieve a longer transverse transport of printing ink in the inking unit.

From DE-PS 23 23 025 a so-called short inking unit has become known, with which a residual ink layer thickness relief can be compensated so that the dreaded stenciling is prevented. In this inking unit, ink zone screws can be omitted. A disadvantage of this inking unit, however, is that a squeegee which is susceptible to wear and which does not wear out uniformly over its entire length is required. Due to the same directions of rotation and different peripheral speeds of the application roller and metering roller, there is a risk of mutual damage between the two rollers, in particular with dry-running inking units.

The invention has for its object to provide a device with which it is possible to use a liquid medium to be transported on rollers in the longitudinal axis direction thereof without the roller having to perform a traversing movement.

The advantages that can be achieved with the invention are, in particular, that a liquid medium, for. B. printing ink, fountain solution, coating liquid, etc. on a jacket of a roller can be transported transversely, that is in the longitudinal direction of the roller without requiring a traversing movement.

The object of the invention can, for. B. can advantageously be used in an inking unit of a rotary printing press in order to significantly reduce the degree of non-uniformity of an ink layer thickness relief over the length of an inking roller without having to use a doctor blade.

Even an extreme ink layer thickness relief can be changed over the length of an application roller with simple means so that the degree of non-uniformity becomes so small that it no longer affects the printed product. It is practically possible to produce a selectively thick ink layer on an inking roller which is practically uniformly thick over the entire length of the roller. However, this is the prerequisite for dispensing with the generally customary but very complex device for setting and presetting the ink quantity of an inking unit across the ink zone.

It is possible with the subject matter of the invention to carry out an ink layer thickness compensation over the entire length of the inking roller in the shortest possible time, even if the maxima and minima of the color relief are so far apart are that they cannot be mixed together by the traversing movement of a distribution roller. It is therefore possible to print extreme forms without being able to detect stenciling on the printed product. The device according to the invention also favors the evaporation of the dampening liquid in the printing ink after printing, so that the ink film returning to the inking unit is largely free of dampening agent. Due to the large number of splitting points, the ink returning to the inking unit is kept supple.

• Fig. 1 eine Seitenansicht eines Farbwerks ohne Seitengestell mit Darstellung einer Anordnungsweise der erfindungsgemäßen Einrichtung,
• Fig. 2 eine Farbwalze mit aufgesetzter erfindungsgemäßer Einrichtung,
• Fig. 3 eine weitere Ausführung der erfindungsgemäßen Einrichtung,
• Fig. 4 die erfindungsgemäße Einrichtung in der Anwendung zum Verhindern des "Druckfarbe-Spritzens",
• Fig. 5 eine Anordnung der erfindungsgemäßen Einrichtung nach Fig. 4 in einem herkömmlichen Farbwerk.

Another advantage is the use of the device according to the invention on ink rollers to prevent the known "printing ink spraying"; Because in inking units of offeet rotary printing presses with alcohol dampening units, when using emulsifying-friendly printing inks, which cannot be dispensed with because of other advantages, so-called "printing ink spraying" often occurs. Due to the acting centripetal force, small lumps of a printing ink / fountain solution emulsion detach from inking unit rollers and contaminate the paper web and / or printing machine parts. Such "ink spraying" is more common when printing on paper webs whose width is smaller than the maximum processable paper web width, and mainly when so-called "trimmed images" are printed, ie when up to, or almost up to, the paper web side edge is printed. In this edge zone, a relatively thin emulsion of printing ink and dampening liquid forms on the rollers of the inking unit, from which small lumps come loose at irregular intervals and, as described, contaminate paper web or printing press parts and u. U. can cause paper web breaks. Exemplary embodiments of the invention are shown in the drawing using an inking unit of a rotary printing press and are described in more detail below. Show it:

• 1 is a side view of an inking unit without a side frame showing an arrangement of the device according to the invention,
• 2 shows an ink roller with the device according to the invention attached,
• 3 shows a further embodiment of the device according to the invention,
• 4 shows the device according to the invention in use to prevent "ink splashing",
• Fig. 5 shows an arrangement of the device according to the invention according to Fig. 4 in a conventional inking unit.

An inking unit of a rotary printing machine dyes in a known manner a rubber-coated inking roller 1, which in turn a printing plate 2, for. B. an offset printing plate, which is clamped on a forme cylinder 3. The printing plate 2 transfers ink to a blanket 4 of a blanket cylinder 6. Ink application roller 1, forme cylinder 3 and blanket cylinder 6 preferably have the same diameter and are driven in a known manner at the same peripheral speed. The inking roller 1 or the printing plate 2 is moistened via a dampening unit 7.

The inking roller 1 receives its printing ink from one preferably ink fountain key-free ink fountain 8. Both a lifter and a film inking unit - as shown in the exemplary embodiment in FIG. 1 - can be used to produce a uniform ink film. The operation of film inking units is general, e.g. B. from DE-PS 901 057, known so that its detailed description can be omitted here.

In the exemplary embodiment, the printing ink passes from the ink fountain 8 via a speed-controllable duct roller 9, intermediate rollers 11, 12, 13, 14, 16, onto a first transfer roller 18 and a second transfer roller 19. Both transfer rollers 18, 19 are in contact with the ink application roller 1. Ductor roller 9, intermediate rollers 11 to 16 and transfer rollers 18, 19 have a significantly smaller diameter than the inking roller 1, the rollers 11 to 16, 18, 19 having the same peripheral speed as the inking roller 1. Rollers 14, 18, 19 are as oscillating Ink distribution rollers executed.

Distributed around a circumference of the inking roller 1 between preferably a contact point 21 of inking roller 1 with forme cylinder 3 and a contact point 22 of inking roller 1 and second (= last) transfer roller 19 are several, for. B. three rotating color relief compensation rollers 23, 24, 26 at a distance α of z. B. 30 ° (center angle) from each other. You have e.g. B. the same diameter as the transfer rollers 19, 18, are with an ink-friendly (oleophilic) hard coat, such as. ^g . Ceramic or copper, provided and run under pressure on the circumference of the inking roller 1.

On each of the color relief compensation rollers 23, 24, 26 one or more rows 30, 35, z. B. two, of driven, endless color balance belt 27 - hereinafter referred to as belt - put on. Each row 30, 35 of belts 27 consists of a plurality, for. B. 20, side by side - directly on or at a distance from each other - arranged belts 27. The belts 27 are z. B. 40 mm wide. They consist - or at least their outside 36 consists - of an ink-friendly layer 37, e.g. B. rubber.

One or more driven drive rollers 28 are mounted in the side frames (not shown). They each serve to drive the belt 27 and are either via a main drive of the machine or a separate drive, for. B. driven a speed-controlled electric motor. At a distance "a" from the drive roller 28, a carrier 29 is arranged between the side frames and screwed to them. At an angle of 90 ° to a longitudinal axis of the carrier 29, a plurality of axes 32 are welded to the carrier 29 at a distance "b" from one another, one above the other and next to one another. A deflection roller 33 and an ink transfer roller 34 are each rotatably mounted on the axes 32. Each deflection roller 33 is non-positively connected to the drive roller 28 by means of a belt 27. Rotation axes 15 and 17 of the deflection rollers 33 and ink transfer rollers 34 run parallel. The axes of rotation 20, 15, 17 of the driven rollers 28 and deflection rollers 33 or ink transfer rollers 34 are arranged on mutually parallel planes. In this case, the vertical planes passing through the axes of rotation 15, 17 of deflection rollers 32 or ink transfer rollers 34 each intersect one another the vertical axis extending the vertical plane at an angle of 90 °. An ink transfer roller 34 presses on directly adjacent belts 27. As a result, the belts 27 are pressed against the deflection rollers 33 assigned to them. The ink transfer roller 34 is with an oleophilic coat - z. B. made of rubber - and thus transfers ink from a belt 27 to the directly adjacent belt 27th

Of course, the ink transfer roller 34 can also be arranged below two deflection rollers 33. In this case, two adjacent belts 27 partially wrap around the ink transfer roller 34. This z. B. from the ink relief compensation roller 23 by means of a first belt 27 printing ink or an ink moisture emulsion onto the ink transfer roller 34 and from there to the adjacent belt 27 and from there onto the ink relief compensation roller 23 - that is to say offset in its longitudinal axis direction - and so on.

Instead of the ink transfer rollers 34, endless ink transport belts 38 - also with their own drive - can be provided in the form of a horizontal belt. This ink transport belt 38 rests on a plurality of (vertical) belts 27 arranged next to one another, specifically at points at which the belts 27 wrap around the deflection rollers 33. From these (horizontal) ink transport belts 38, printing ink is then transported from one belt 27 to the next one, etc. Pressure rollers 39 guide the ink transport belt 38. They also press it against the belt 27 at the same time. The pressure rollers 39 are rotatably mounted on axes 32.

By arranging several belts 27 side by side, e.g. B. over part of the length of the drive roller 28 or over its entire length "1" and thus over a length of the ink relief compensating roller 26, an ink thickness compensation in the longitudinal axis direction of an ink leading inking roller 23, 24, 26 can take place. The ink thickness compensation takes place from places with excess ink to places with lack of printing ink, so that an equally thick ink film forms along the length of the roller.

The belts 27 are pressed by the drive rollers 28 against the ink relief compensation rollers 23, 24, 26. Each of their jackets is in contact with one or more inking rollers.

Deflection rollers 33 arranged next to one another can be driven in the same or different sense of rotation, depending on how the belts 27 are placed on the deflection rollers 33. If the directions of rotation of two adjacent deflection rollers 33 are the same, then only one or an odd number of ink transfer rollers 34 - each of which is in contact with the adjacent one - are arranged between two adjacent deflection rollers 33, whereby if only one ink transfer roller 34 is arranged, these with both deflection rollers 33 is in contact via the belt 27. If the directions of rotation of two adjacent deflection rollers 33 are not the same, two or an even number of ink transfer rollers 34 are arranged between two adjacent deflection rollers 33.

In the case of an arrangement of a plurality of ink transfer rollers 34 between two belts 27, a first or a last one in each case has via the belts 27 with the deflection assigned to them roll 33 in touch.

If the device according to the invention for preventing ink spraying is to be used, the entire width of an inking roller 41 is not covered with belts 27, but only a few are arranged, specifically at the locations at which the ink / dampening solution mixture accumulates. It may be the case that two or three belts 27 are provided at both ends of the inking roller 41 (see FIG. 4). In order to be able to bring the belts 27 to the places on the inking roller 41 at which there is an excess of printing ink and dampening solution, a slidable and fixable slide (not shown) is provided on the carrier 29 on which the deflection rollers 33 and the ink transfer rollers 34 are attached.

As can also be seen from FIG. 1, the device according to the invention can advantageously also be used in dampening units.

Parts list

• 1 inking roller
• 2 pressure plate
• 3 forme cylinders
• 4 rubber blanket
• 5
• 6 blanket cylinders
• 7 dampening system
• 8 color boxes
• 9 duct roller
• 10th
• 11 intermediate roller
• 12 intermediate roller
• 13 intermediate roller
• 14 intermediate roller
• 15 axis of rotation (33)
• 16 intermediate roller
• 17 axis of rotation (34)
• 18 transfer roller
• 19 transfer roller
• 20 axis of rotation (28)
• 21 contact point
• 22 contact point
• 23 color relief compensation roller
• 24 color relief compensation roller
• 25th
• 26 color relief compensation roller
• 27 color balance straps (straps)
• 28 drive roller
• 29 carriers
• 30 row
• 31
• 32 axis
• 33 deflection roller
• 34 ink transfer roller
• 35 row
• 36 outside (27)
• 37 layer, oleophilic (27)
• 38 ink transport belts
• 39 pinch rollers
• 40
• 41 inking unit roller
• 42
• α distance (center angle)
• a distance
• b distance
• 1 length

Claims (3)

1. Device for transporting a liquid medium, in particular a printing ink, on a jacket of a roller in its longitudinal axis direction, in particular an inking roller of a printing press, characterized in that at least one driven roller (28) is provided that a plurality of deflection rollers (33) are rotatably attached to a support (29) fixed to the side frame, that a number of movable transmission elements (34; 38) are provided on the support (29), that the deflecting rollers (33) are each driven by an endless belt (27) with the driven roller ( 28) are non-positively connected, that the belts (27) are provided on their outside (36) with a layer (37) which can be wetted by the liquid medium, that at least two adjacent belts (27) each have the circumferential transmission element (34; 38) are in frictional engagement so that the belts (27) are in contact with their outer layer (37) with a roller (23; 24; 26) guiding the liquid medium. 2. Device according to claim 1, characterized in that the movable transmission element (34; 38) is designed as a rotatable transfer roller (34). 3. Device according to claim 1, characterized in that the movable transmission element (34; 38) is designed as an endless belt (38).

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