EP0941847A1 - Ink metering device and method in offset printing machines - Google Patents

Abstract

An ink feed system for an offset printing process has a constant pressure ink reservoir (5) which supplies ink to a dosing slit (8) and onto an ink roller (2). The position of the ink supply head (4) is adjusted by a cam (14) and a servo drive (16,17) to vary the spacing of the ink head from the roller. A spreader blade (9) on the ink head spreads the applied ink into an even controlled thickness layer. The spreader blade ensures that any non uniformity in the ink feed is compensated by the blade

Description

The present invention relates to a device and a method for dosing of color in an offset press.

Offset presses are well known in printing technology. In a Offset printing machine rotates an image or plate cylinder on its Outer circumference carries an image to be printed, either in contact with the printing paper or preferably in contact with a transfer or Blanket cylinder that transfers the print image from the image cylinder to the paper. It So color is applied to the image cylinder, either directly on the paper or is first transferred to the transfer cylinder and then to the paper.

There are different ways of supplying ink to an image cylinder in one Offset printing machine known. Applying color to the image cylinder from one Ink fountain is the most common method. A color box is one Device in which an ink fountain roller on a container filled with ink is stored. In the space between the bottom of the container (i.e. the paint box) and The ink fountain roller has a number of ink fountain keys. The Ink fountain keys can move towards and away from the ink fountain roller and the distance between the end of each ink fountain key and the The surface of the ink fountain roller determines the thickness of the ink by the Ink zone screw is applied to the outer surface of the ink fountain roller. The Ink fountain roller is close to a metering roller that is in an area behind the ink zone screws is arranged in the direction of rotation of the ink fountain roller.

The metering rollers used with conventional ink fountains usually have one spiral groove on their outer surfaces. This spiral groove is used to Remove impurities from the metering roller. The contaminants get into the spiral groove and are at the end of the metering roller due to the spiral Course of the groove in cooperation with the rotary movement of the metering roller eliminated. Because the impurities remain in the spiral groove, if they are not transferred to any downstream rollers, the remains Image cylinder free from contamination. However, this spiral groove caused in the metering roller has a corrugated pattern in the ink film, d. H. there are different thicknesses the ink film on the metering roller. The corrugated pattern of the ink film on the metering roller must first be smoothed before the color film is transferred to the image cylinder becomes. In the prior art there is an inking unit with a large number of them Ink film smoothing rollers (usually eleven to fifteen rollers) between the Dosing roller and the image cylinder have been used. So the color is from the Transfer metering roller to a number of smoothing rollers one by one before moving is transferred to the image cylinder. Every single step of the color transfer from one smoothing roller to the next also smoothes the corrugated pattern of the Dosing roller transferred ink film. The knowledge is therefore obvious that Requires a large number of smoothing rollers for the complexity of the Printing machine contributes and increases manufacturing costs.

Weinen", d. h. es sammeln sich Farbtropfen an der Schnittstelle zwischen Farbzonenschrauben und Farbkastenwalze an. Diese Farbtropfen können auf Druckmaschinenkomponenten und in das Farbwerk geraten und das gedruckte Bild oder das Verhältnis der auf den Bildzylinder zugeführten Farben verändern Außerdem kann sich infolge des Kontakts zwischen den starten Farbzonenschrauben und der Farbkastenwalze Wärme aufstauen, die wiederum den Zustand der Farbe oder der Walzen verändern und somit die Druckqualität beeinträchtigen kann. Letztendlich treten bei der Verwendung herkömmlicher Farbdosiersysteme zwei weitere Probleme in Erscheinung, nämlich Schablonieren" und Unterdosieren". Das Schablonieren bzw. Unterdosieren wird durch überschüssige Farbe auf dem Bild- oder Plattenzylinder verursacht, die nicht auf das Papier übertragen wird, und zwar in Bereichen, wo kein Bild zu drucken ist. Diese überschüssige Farbe, oder umgekehrt, der Mangel an Farbe aufgrund der Entnahme von Farbe für das Drucken des Bildes kann Schwankungen in der Farbfilmdicke auf dem Bildzylinder beim weiteren Drucken zur Folge haben und somit die Qualität des gedruckten Bildes nachteilig beeinflussen.Another problem with using ink fountains is that

Cry ", that is, ink drops accumulate at the interface between ink fountain key and ink fountain roller. These ink drops can get on the press components and into the inking unit and change the printed image or the ratio of the colors fed to the image cylinder Accumulate ink fountain keys and the ink fountain roller, which in turn can change the condition of the ink or rollers, which can affect print quality.There are two additional problems with using conventional ink metering systems, namely Stenciling "and Underdosing ". Stenciling or underdosing is caused by excess ink on the image or plate cylinder that is not transferred to the paper in areas where no image can be printed. This excess ink, or vice versa, the lack of Color due to the removal of color for the printing of the image can result in fluctuations in the color film thickness on the image cylinder during further printing and thus adversely affect the quality of the printed image.

A second device for distributing or rubbing color on an image cylinder is the lifting roller. This roller is not in constant contact with the Ink fountain roller held. Rather, the lifter roller moves between the Ink fountain roller and the image cylinder back and forth. When the lifter roller Ink fountain roller contacted, so it rotates at the speed of Ink fountain roller; however, when the jack roller contacts the image cylinder, it rotates yourself with the speed of the printing press. It is therefore easy to understand that the Mechanism used to drive the jack roller is necessarily complicated and is expensive.

The present invention provides a paint metering device and method with which the problems of the conventional devices for dosing the on Color cylinder to be applied can be eliminated. In the case of the invention Device is passed under pressure through an orifice. The pressure of Paint can be obtained either with a paint pump or by feeding it down a slope become. The size of the orifice can be given in the press Conditions, e.g. B. the properties of the color to be used, the temperature, etc. can be varied accordingly. The pressure with which the ink is supplied can also varies according to the conditions in the printing press become.

The ink coming from the outflow opening is fed to an inking roller. Below the outflow opening is a paint control squeegee on the outer surface of the Ink roller placed. The distance between the tip of the color control squeegee and the outer surface of the inking roller can be varied. The thickness of the on the The surface of the inking roller generated ink film is determined by the distance between the tip of the ink control blade and the outer surface of the inking roller and / or by the amount of ink fed through the orifice of the inking roller (which is due to the size of the orifice and / or the pressure of the paint upstream the opening is regulated) controlled. The ink control squeegee also smoothes the ink film that directly on the image or plate cylinder placed on the inking roller is transmitted. The ink control doctor blade is preferably flexible and can be constructed in this way be that its flexibility can be varied. The ink control squeegee can do straight be flexible enough so that it only smoothes the ink on the inking roller and not dosed and thus the thickness of the color film only by the size of the outflow opening and / or controlled by the printing of the color.

The area between the ink control blade, the surface of the inking roller and the outflow opening forms a gap in which a meniscus of color is just behind the color control squeegee. The size of this meniscus of color, the size of the gap between the ink control blade and the surface of the inking roller, the size of the Orifice, the pressure of the paint upstream of the orifice and / or the The speed of the inking roller together control the ink flow in and out of the gap. The speed of the inking roller is with the Identical or plate cylinder speed identical. The movement of the Ink control squeegees and the flow of the meniscus of ink ensure that the ink film on the inking roller is smooth and that also on the image or plate cylinder applied color film is smooth. The presence of a meniscus of color behind the Ink control doctor blade of the ink metering device of the present invention prevents one Underdosing, d. H. that no ink is transferred to the inking roller at all and the ink control squeegee prevents stenciling, i.e. H. that excess paint is transferred to the inking roller. Thus, due to the interaction between the meniscus of paint and the paint control squeegee achieved by the Ink control squeegee flowing ink film as a smooth layer on the inking roller is coming.

In the color metering device of the present invention, the color is determined by the Ink control doctor blade sheared off instead of splitting the ink by tension like this in a prior art inking unit is used to produce a color film. As a result, while the ink film is being applied to the inking roller, smoothed and it can take a long train of smoothing rollers or friction rollers to be dispensed with. Through the color control squeegee and the color meniscus The present invention also addresses the problems of stenciling or Fixed underdosing by adding the remaining color film from the image or Plate cylinder flows back, is eliminated, preventing residual ink affects a subsequently produced color film.

The features and advantages of the present invention are set out in the following Description explained in connection with the accompanying drawings.

Fig. 1 shows a schematic, partially shown in cross section elevation of a Embodiment of the present invention.

In the preferred embodiment of the present invention, a colored printing image is transferred from an image cylinder 1 either directly to paper, ie onto paper sheets or onto a paper web, or preferably onto a transfer or blanket cylinder (not shown), the latter in turn transferring the colored printing image onto paper transmits. The manner in which an image cylinder 1 transfers the inked print image to paper is well known and will not be described further here. The image cylinder 1 rotates in a direction D ₁ .

An inking roller 2 rotates with the image cylinder 1, the inking roller 2 rotating in a direction D ₂ . An ink film 3 is transferred from the inking roller 2 to the image cylinder 1. An ink film applicator 4 is preferably attached to a side frame, not shown, of the printing press and comprises an ink source with ink kept under pressure. The ink source 5 can be a bore or a reservoir in the ink film application device 4, which, for. B. is fed by a paint pump or gravity with a gradient. It should be understood that the pressure with which the color is fed into the color source 5 depends on the specific conditions of the color application, e.g. B. may vary depending on the characteristic properties of the color, temperature, etc. A paint channel 6 extends from the paint source 5 to an outflow opening through which the paint is supplied. The size of the outflow opening 7 can be adjusted. A section 8 of the ink film application device 4, which determines the ink channel 6, has a certain flexibility and is in contact with a cam disk 14. This flexibility is provided by cuts or thinned parts (not shown) between the section 8 and the main part of the ink film applicator 4. In the drawing, a mechanism for bending section 8 is shown. With the bending of the section 8, the size of the outflow opening 7 is also changed. The ink film applicator 4 comprises a bracket 12 with a bolt or shaft 13 at one end. A cam 14 is in contact with the portion 8 of the ink film applicator 4 which controls the size of the drain opening, and the cam 14 rotates about an eccentrically attached bolt or shaft 15. A linkage 16 is connected to and rotates the cam 14 around the eccentrically mounted bolt or shaft 15. A motor 17, which has a guide screw 18, which is connected to the linkage 16 by a threaded bore 19, controls the position of the linkage 16 and the cam disk 14. Thus, the section 8 by the motor 17 moved back and forth while changing the size of the outlet opening 7. The linkage 16 thus moves in a direction P ₁ and thereby moves the cam disk 14 in a direction R, as a result of which the section 8 of the ink film application device 4 moves towards or away from the main part of the ink film application device 4 and thereby the size of the Outflow opening 7 is reduced or enlarged.

The paint flows down under pressure through the paint channel and passes through the Outflow opening 7 on the outer surface of the inking roller 2. The on the surface the ink application roller 2 is thus applied by the pressure of the Color in the color source 5 and controlled by the size of the outflow opening 7.

Below the outflow opening 7, seen in the direction of rotation of the inking roller 2, there is a ink control blade 9, which can be flexible and preferably on the Color film applicator 4 is attached. The ink control blade 9 has one Tip 10, which through a gap G from the outer surface of the inking roller 2nd is spaced. The size of this gap G can be the thickness of the color film on the Control inking roller 2, which is transferred to the image cylinder 1, if that Ink control squeegee 9 has the appropriate rigidity. Color that is not between the Tip 10 of the ink control blade 9 and the outer surface of the inking roller 2 through flows and forms the ink film 3, forms a meniscus 11 behind the ink control blade 9.

The size of the gap G and thus the thickness of the color film 3 can be changed by changing the Position of the ink control blade 9 can be varied. The ink control blade 9 is in a groove 22 adjustable; thereby changing the position of the ink control blade 9 relative to Ink roller 2 allows. With an adjusting screw (not shown) this can be done Ink control squeegee 9 can be fixed in this position after adjusting its position. The stiffness of the flexible ink control blade 9 can also be varied by its position in the groove 22 is changed. Alternatively, the ink control doctor blade 9 be made sufficiently flexible so that it only smoothes the ink film 3 (i.e. not knife) and thereby the dosage of the to be applied to the inking roller 2 Color (i.e., the thickness of the color film) is not controlled. In this case, the Color only by the size of the outlet opening 7 and the pressure of the color in the Color source 5 dosed.

The process of the present invention has the following sequence:
The color is e.g. B. by means of a paint pump or by gravity on a slope (not shown) under pressure into the paint source 5. Then the paint flows down the paint channel 6 and out of the outflow opening 7. Before the paint is fed into the paint source 5, the size of the outflow opening 7 can be regulated by activating the motor 17, the linkage 16, the cam disk 14 and the section 8; and the pressure at which the paint is supplied to the paint source can be controlled by controlling the paint pump or gravity over a slope in any known manner. Likewise, before the ink is fed into the ink source 5, the position and / or the rigidity of the ink control blade 9 can be regulated by changing the position of the flexible ink control blade 9 in the groove 22 and then the ink control blade 9 by known mechanisms, such as. B. Set screws (not shown) is attached in this position. The ink flowing through the outflow opening 7 is applied to the outer surface of the inking roller 2, which moves in the direction D ₂ , the ink flowing in the direction of the flexible ink control blade 9.

The color flowing in the direction of the flexible ink control blade 9, which either from the Outflow opening 7 exits, or returns as the remaining color 20 from the image cylinder 1 transmitted, accumulates to a meniscus 11 behind the flexible Ink control blade 9 and then flows continuously through the gap G, so that a Ink film 3 forms on the inking roller 2. The existence of meniscus 11 and gap G formed by the ink control doctor blade 9 ensure a constantly smooth and even color film. Thus a stenciling - that by remaining color 20 on the inking roller is created - or an underdosing - by the non-inked Areas on the inking roller 2 arises - prevented. The color film 3 on the Ink application roller 2 is transferred directly to the image cylinder 1 because these rollers are hired together. From the color film 3 on the image cylinder 1 is a Print image generated either directly or via a transfer cylinder (not shown) on paper (not shown).

With the method of the present invention, the thickness of the color film 3 can be changed at any time by changing the size of the gap G or the amount of the color flowing out of the outflow port 7. In order to change the size of the outflow opening 7 and thus the amount of the paint flowing through the outflow opening 7, the motor 17 is activated, which rotates the guide screw 18 either clockwise or counterclockwise. The rotation of the guide screw 18 in operative connection with the threaded bore 19 causes the linkage 16 to pivot in the direction P ₁ , which in turn causes the cam disk 14 to rotate in the R direction. The rotation of the cam disk 14 in the direction R causes the section 8 of the ink film applicator 4 to move toward or away from the main part of the ink film applicator 4, which in turn changes the size of the orifice 7. In this way, the amount of ink flowing onto the inking roller 2 can be varied. The amount of ink flow can also be varied by changing the pressure of the color in the ink source 5. The size of the gap G can be varied by regulating the position of the ink control blade 9 in the groove 22.

LIST OF REFERENCES

1

Image cylinder / plate cylinder

2nd

Inking roller

3rd

Color film

4th

Color film applicator

5

Color source

6

Color channel

7

Outflow opening

8th

Section of the color film applicator 4

9

Color control squeegee

10th

Tip of the color control squeegee

11

Meniscus of color

12th

hanger

13

Bolt / shaft

14

Cam disc

15

Bolt / shaft

16

Linkage

17th

engine

18th

Guide screw

19th

Tapped hole

20th

remaining color

22

Groove

G

gap

Claims (22)

Liquid application device comprising the following features: a liquid source (5) containing liquid under a constant pressure; an outflow port (7) communicating with the liquid source (5) and flowing out of the liquid from the liquid source (5); a rotating applicator roller (2) on the outer surface of which liquid flows out of the outflow opening (7); and a control squeegee (9) which is arranged downstream of the outflow opening (7) and smoothes the liquid film (3) on the outer surface of the application roller (2). Liquid application device according to claim 1,
characterized, that the outflow opening (7) is adjustable. Liquid application device according to claim 1`
characterized, that the control squeegee (9) is movably mounted relative to the applicator roller (2). Liquid application device according to claim 1,
characterized, that it further comprises a film applicator (4), and that the control squeegee (9) is attached to the film applicator (4). Liquid application device according to claim 2,
characterized, that it further comprises a cam (14) through which the size of the outflow opening (7) is regulated. Liquid application device according to claim 5,
characterized, that it further comprises a motor (17) which controls the position of the cam disc (14). Liquid application device according to claim 5,
characterized, that it further comprises a linkage (16) which connects the motor (17) and the cam disc (14). Liquid application device according to claim 1,
characterized, that the control squeegee (9) is flexible. Ink metering device comprising the following features: an ink source (5) containing pressurized ink; an outflow opening (7) communicating with the color source (5) and flowing out of the color from the color source (5); a rotating inking roller (2) on the outer surface of which ink flows out of the orifice (7); and a control doctor (9) which is arranged downstream of the outflow opening (7) and smoothes the ink film (3) on the outer surface of the inking roller (2). Ink metering device according to claim 9,
characterized, that the outflow opening (7) is adjustable. Ink metering device according to claim 9,
characterized, that the control squeegee (9) is movably mounted relative to the inking roller (2). Ink metering device according to claim 9,
characterized, that it further comprises an ink film applicator (4), and that the control blade (9) is attached to the ink film applicator (4). Ink metering device according to claim 10,
characterized, that it further comprises a cam (14) through which the size of the outflow opening (7) is regulated. Dosing device according to claim 13,
characterized, that it further comprises a motor (17) which controls the position of the cam disc (14). Ink metering device according to claim 14,
characterized, that it further comprises a linkage (16) which connects the motor (17) and the cam disc (14). Ink metering device according to claim 9,
characterized, that the control squeegee (9) is flexible. Ink metering device according to claim 9,
characterized, that it further comprises an image cylinder (1) onto which the ink film is transferred through the inking roller (2). A method for dosing paint, comprising the following steps: Providing a source of pressurized paint; direct the paint from the paint source through a flow opening; Applying ink from the orifice to the outside of the rotating inking roller; Providing a control doctor downstream of the orifice; Control the thickness of an ink film on the outer surface of the inking roller. The method of claim 18, further comprising the step of: Regulate the size of the orifice. The method of claim 18, further comprising the step of: Adjust the position of the ink control squeegee relative to the inking roller. The method of claim 18, further comprising the step of: Generate a meniscus behind the color control squeegee. The method of claim 18, further comprising the step of: Transfer the ink film from the inking roller to an image cylinder.

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