EP0634271A1 - Method and device for adjusting the temperature of an ink in the inking unit of a printing machine - Google Patents

Abstract

The invention relates to a method and a device for adjusting the temperature of an ink in the inking unit of a printing machine, in which the ink is taken up by a ductor roller (2) from an ink fountain (4), which rests against said ductor roller and forms an inlet wedge therewith, and is passed into the inking unit. Provision is made for the temperature of the ink to be conditioned, i.e. heated or cooled as required, directly by special temperature-conditioning devices (20) ahead of and/or in the inlet wedge (13) of the ink fountain (4). This allows the temperature to be kept precisely constant, for example, even under variable operating conditions, but also allows intentional control of the temperature for the purpose of influencing the rheological properties of the ink. <IMAGE>

Description

The present invention relates to a method of the type mentioned in the preamble of claim 1 and a device of the type mentioned in the preamble of claim 9.

It is known that the rheological properties of an ink, i.e. For example, their flow and adhesion (tack) have a significant influence on the behavior of the ink in the inking unit (e.g. ink mist), the so-called throw-away behavior and the transmission quality of screen tones and areas.

Printing ink manufacturers offer printing inks with different rheological properties that are adapted to the respective printing task. In printing plants, for example, depending on the quality of the printing material, a printing ink is selected that is matched to the printing material with regard to viscosity and speed. One speaks, for example, of newspaper color, color for B-fabrics (fabrics of a lower B-quality), further of certain printing ink consistencies for matt or glossy coated paper etc. is complex and expensive.

In addition to the color formulation, the rheological properties are also influenced by the respective color temperature. Studies have shown that for all printing inks there is always a clear linear relationship between the logarithm of the plastic viscosity U or the tack values on the one hand and the reciprocal of the absolute temperature on the other hand (K.-H. Schirmer, S. Yoshijima: "Rheological properties of printing inks at different temperatures ", Munich 1973).

A specific, predetermined starting temperature of the ink is important, for example, for the correct, repeatably accurate metering of the ink in the area of the ductor roller serving as the metering roller. The printer generally solves this problem by placing the ink in the printing room for a long time before it is used, so that it takes on the temperature of this printing room. The metering devices, i.e. for example, the ink wipers of the duct roller set.

During the printing process, there are sometimes considerable increases in temperature, especially in the inking unit and in the area of the cylinders, so that the flow and adhesion of the ink change and the print image is adversely affected. To avoid this effect, it is already known to temper one or more rollers of the inking unit and in this way to prevent changes in the color temperature during the course of a printing process. Coolant flows preferably through the inking rollers. However, it is also known to temper the duct roller; this is intended in particular to influence the color temperature in the area of the metering duct roller.

However, it has been shown that the influence on the color temperature that can be achieved with the conventional measures, which is essential for the tonal value adjustment and thus for the image quality, is insufficient. This is particularly a consequence the usually large heat capacity of the inking units, which depends on the number, arrangement and nature of the inking rollers.

In this context, one also speaks of the inertia of the inking unit; this is the time that passes until an adjustment step that has been made arrives at the print carrier (this time is also very much dependent on the area coverage of the print subject). In known sheet-fed offset printing machines, the time between the execution of an adjustment process and the effect on the printed image is up to 90 seconds; with a realistic printing performance of about 10,000 sheets / hour, this time corresponds to about 250 sheets that are rejected. In modern web offset printing machines, in which 50,000 copies / hour are not a special case, the time for the control step equalized in tone value and area is approximately 13 seconds, which corresponds to a reject of approximately 180 copies.

In contrast, the time in which an adjustment process, for example carried out via the ink fountain keys, has an effect on the printed image, is already considerably shorter today. In a sheet-fed offset printing machine of the type described above, for example, it is only about 2 1/4 seconds, which corresponds to about 7 sheets. In the case of the web offset printing press of the type described above, the adjustment time is only about 0.5 seconds, which also corresponds to about 7 sheets.

It is obvious that the control of the image quality by tempering the inking unit is inadequate.

It is the object of the present invention to provide a method and a device which allow the color temperature to be set quickly and repeatably with accuracy.

According to the invention, this object is achieved, on the one hand, by a method of the type defined in claim 1 and, on the other hand, by a device of the type specified in claim 9.

The known linear relationship between the rheological properties of certain printing inks and their temperature makes it possible to determine the rheological properties of printing inks over a wide range if at least two points on the curve are known, for example by measurement. The regulation or control of the color temperature therefore enables the rheological properties of the printing ink to be influenced in a targeted manner.

The method according to the invention essentially boils down to tempering the smallest possible ink supply immediately before it is taken up by the duct roller by means of separate temperature control devices. It has been shown that it is always possible to temper the ink in the inlet wedge of the ink fountain with an extremely short response time so that it has the desired temperature in the area of the print, for example. In this way, regardless of the inertia of the inking unit against temperature changes, the time required for a color temperature adjustment step to be carried out completely can be shortened considerably.

The method according to the invention not only allows the color temperature to be kept constant, as is mainly sought by the previously known methods and devices, but also to consciously control the temperature and thus the rheological properties of the color. This makes it possible to significantly reduce the previously required stock of colors of different rheological properties, since these rheological properties can now be set in a targeted manner via the color temperature control. In this way, inventory costs can be significantly reduced.

In one embodiment of the invention it is provided that the color is tempered in a separate temperature control container arranged upstream of the ink fountain and is fed from this to the inlet wedge. This solution enables the temperature control container to optimally adapt to the task assigned to it and to provide it with the necessary heating and cooling devices.

The temperature control container preferably contains such a small amount of paint that it can be adjusted to the desired temperature in the shortest possible time.

In another embodiment of the invention it is provided that the color is tempered by means of temperature control elements immersed in the inlet wedge of the ink fountain. In this technical solution, a separate temperature control container can be omitted, so that the device for carrying out this method can be structurally simple.

The temperature control devices are preferably controlled by a closed control loop as a function of color and / or print image properties detected by suitable sensors; The color properties include, for example, the surface temperatures or voltages of the color which can be detected by suitable sensors known per se, while the print image properties are given above all by the color density which can be determined by means of a so-called densitometer.

In a preferred embodiment of the invention, only a sufficient supply of ink, which can be adjusted very quickly to the desired temperature, is maintained in the inlet wedge for a few duct circulations.

In a further embodiment of the method according to the invention it is provided that a basic temperature control to an average temperature is carried out by tempering the ductor roller and / or the inking unit, while by means of the temperature control devices according to the invention only a final temperature control superimposed on the basic temperature control is brought to the desired final temperature. This measure serves to keep the performance of the temperature control devices according to the invention low.

A device of the type defined in claim 9 is provided for carrying out the method according to the invention. The ink fountain is either preceded by a tempering tank with heating or cooling elements, the tempered ink being fed through outlet openings onto the duct roller or into the inlet wedge. According to another embodiment, temperature-regulating elements are provided in the ink fountain in the area of the inlet wedge.

Modern inking units are often equipped with color stirring devices which are immersed in the inlet wedge of the ink fountain. In such a case, it is provided according to the invention that the temperature control elements are simultaneously designed as color stirring devices. By assigning several tasks to each component, the number of components required overall can be kept low.

Fig. 1

in einer schematischen, perspektivischen Darstellung eine Duktorwalze sowie einen dieser vorgeordneten Temperierbehälter mit einem mit mehreren Tropfdüsen versehenen Farbführungsrohr;

Fig. 2

in einem schematischen Querschnitt eine Duktorwalze, einen Temperierbehälter und ein Farbführungsrohr gemäß Fig. 1 sowie einen einen Einlaufkeil bildenden Farbkasten;

Fig. 3

in einer Querschnittsdarstellung eine Duktorwalze und einen dieser zugeordneten Farbkasten mit in den Einlaufkeil eingetauchten Temperier- und Rührelementen.

Further details, advantages and features result from the following description and the drawing, to which express reference is made to the disclosure of all details not described in the text. In the drawing, an embodiment of the invention is shown, which is described in more detail below. Show it:

Fig. 1

in a schematic, perspective view of a duct roller and one of these upstream temperature control containers with a paint guide tube provided with several drip nozzles;

Fig. 2

in a schematic cross section a duct roller, a temperature control container and an ink guide tube according to FIG. 1 and an ink box forming an inlet wedge;

Fig. 3

in a cross-sectional view a duct roller and an ink fountain assigned to it with tempering and stirring elements immersed in the inlet wedge.

The devices shown in FIGS. 1 and 2 comprise a duct roller 2, to which an ink fountain 4 is assigned in a manner known per se. The ink fountain 4 essentially comprises two side walls (of which only the side wall 6 facing the viewer is visible) and a floor (not shown in more detail). The side walls are sealed off from the end faces of the duct roller 2. In the present exemplary embodiment, the ink fountain 4 is divided by a partition 10 parallel to the duct roller axis 8 into a region 12 remote from the duct and a region 12 close to the duct and forming the inlet wedge. In this way, only an ink supply sufficient for a few duct circulations is maintained in the inlet wedge, the temperature of which can be quickly adapted to the respectively required temperature.

The bottom of the area 12 close to the doctor is formed in a manner known per se by a wiping device 14 which can be adjusted more or less close to the roller 2. Any component that is capable of dosing the ink application on the duct roller in a suitable manner can serve as the wiping device. In the exemplary embodiment shown, the stripping device 14 is preferably formed by a plurality of tongues 14 ′ which are arranged next to one another without gaps and which can each be adjusted relative to the surface of the duct roller 2 by a suitable assigned mechanical, hydraulic, pneumatic or electrical feed device. In the exemplary embodiment shown, the delivery devices are formed by, for example, manually operable ink zone screws 16.

A tempering tank 18 is arranged above the roller 2, which contains a relatively small ink supply. The temperature control tank 18 is equipped with schematically illustrated heating and / or cooling devices 20, by means of which the color supply present in the temperature control tank 18 can be quickly adjusted to the desired temperature.

The temperature control container 18 is connected to an ink guide tube 22 which is arranged above the inking roller 2 and which applies the temperature-controlled ink to the inking roller via a series of drip nozzles 24 directed directly onto the inking roller 2. The total ink supply contained in the temperature control container 18 on the one hand and on the duct roller 2 or in the inlet wedge 12 is so small that it is only sufficient for a few duct circulations, so that a change in color temperature in the temperature control box 18 very quickly affects the color temperature in the inlet wedge. In this way, the inertia related to the color temperature, i.e. the time between an adjustment step made and the effect in the printing area is extremely short.

FIG. 3 again shows a duct roller 32 and an ink fountain 34 assigned to it, which forms an ink wedge 36 with the duct roller 32. The ink supply in the inlet wedge, not shown in FIG. 3, is preferably kept so small that it is only ever sufficient for a few duct circulations.

A color stirring device 38 is assigned to the ink fountain 34. In the exemplary embodiment shown, this consists of a conical stirring element 42 which can be rotated about an axis 40 and which can be moved parallel to the axis of rotation 44 of the duct roller 32 along the ink fountain 34. By rotating the stirring element 42 about its axis 40 and by simultaneously moving parallel to the duct roller axis 44, the color in the ink fountain 34 Color is always stirred so that heavier color components can not settle down.

As shown schematically, the color element 42 is equipped with a heating and / or cooling device 46. This device makes it possible to quickly set the ink supply in the ink fountain 34 to a desired temperature.

The heating and / or cooling device 46 is connected to a control device 48 which detects certain color properties and / or certain print image properties via sensors 50. Toughness or temperature are suitable as color properties; the color density on the printed image is particularly suitable as print image properties. In this way, a closed control loop is created, by means of which the color temperature in the run-in wedge 36 is always adjusted to a value which ensures compliance with the color and / or print image properties specified as target values. The control device can be part of a higher-level machine control system, through which, among other things, the ink feed to the ink fountain and, if appropriate, also the infeed of stripping elements 52 which can be set against the inking roller 32 by means of ink zone screws 54 are controlled.

The method according to the invention and the device according to the invention not only make it possible to keep the color temperature at an optimum value during a long-lasting printing process, even under changing environmental conditions; Rather, they also enable the color temperature to be quickly and specifically adapted to special requirements, for example to different qualities of the printing material.

As already mentioned above, the temperature control can be superimposed on the basic temperature control by means 20 or 46, which is carried out, for example, by temperature control of one or more rollers of the inking unit or one or more cylinders.

Claims (17)

Method for setting the temperature of a printing ink in the inking unit of a printing press, in which the ink is taken over by a inking roller from an ink fountain adjacent to it and transferred to the inking unit, characterized in that the ink is in front of and / or in the ink fountain (4, 34) is tempered directly by separate temperature control devices (20; 42, 46). A method according to claim 1, characterized in that the paint is tempered in a separate tempering container (18) arranged upstream of the paint box and is fed from this to the inlet wedge (13). Method according to claim 1 or 2, characterized in that the color is tempered by means of temperature control elements (42, 46) immersed in the inlet wedge (36). A method according to claim 3, characterized in that the color is simultaneously stirred by the temperature control elements (42, 46). Method according to one of claims 1 to 4, characterized in that the color is tempered differently according to different printing tasks. Method according to one of claims 1 to 5, characterized in that the temperature control devices (46) are controlled by a closed control loop as a function of color and / or print image properties detected by suitable sensors (50). Method according to one of claims 1 to 6, characterized in that only an ink supply sufficient for a few duct circulations, preferably less than ten duct circulations, is maintained in the inlet wedge (13). Method according to one of claims 1 to 7, characterized in that a basic temperature control is carried out by tempering the ductor (2) and / or the inking unit and the final temperature control to the desired final temperature by means of the temperature control devices (20). Device for setting the temperature of a printing ink in the inking unit of a printing press, comprising a ductor unit with a ductor roller and an ink box attached to it, characterized in that the ducting unit (2, 32) has separate ink in front of or in the ink box (4, 34) directly tempering temperature control devices (20; 42, 46) are assigned. Device according to claim 9, characterized in that a temperature control container (18) with heating or cooling elements (20) is arranged upstream of the ink fountain (4), and in that the temperature control container (18) to the duct roller (2) or to an ink inlet wedge (13 ) has directed outlet openings. Device according to claim 9, characterized in that tempering elements (42, 46) are provided in the ink fountain (34) in the area of an ink inlet wedge (36). Device according to claim 11, characterized in that the temperature control elements (42, 46) are simultaneously designed as color stirring devices (42). Device according to claim 12, characterized in that the color stirring devices are designed as rotatable stirring elements (42) which can be moved in the direction of the duct roller axis (44) and that the stirring elements are equipped with heating or cooling devices (46). Device according to one of claims 9 to 13, characterized in that an ink guide tube (22), which is arranged in the direction of rotation of the duct roller (2) in front of the ink duct and is oriented approximately parallel to the duct roller axis (8), is provided for feeding the ink to the ink duct (4), on which one or more drip nozzles (24), which are distributed uniformly over the tube length and are directed onto the duct roller (2), are arranged. Device according to one of claims 10 to 14, characterized in that the ink fountain (4) is divided by a partition (10) arranged parallel to the duct roller into a region remote from the duct and a region (12) forming the inlet wedge (13) near the duct. Device according to one of claims 1 to 15, characterized in that it comprises a control device with sensors (50) for recording color and / or print image properties and with means (48) for controlling the temperature of the temperature control devices (46). Device according to claim 16, characterized in that the control device is part of a machine control (48), by means of which the ink supply to the ink fountain (34) and, if appropriate, also scraper elements (52) which can be set against the duct roller (32) can be controlled.

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