EP1742798A1 - Method for dosing the quantity of ink in the inking system of a printing machine - Google Patents

Abstract

A quantity of ink is dosed in an inking system of a printing machine, which inking system is provided with at least one dosing device that can be used to modify the quantity of ink which is transferred by the inking system. The dosing device can be adjusted by the use of an adjusting element to modify the quantity of ink that is to be transferred. A modification of the quantity of ink is defined by an adjustment of the adjusting element. The dosing device is adjusted in accordance with a pre-determined correlation between the amount of the adjustment of the adjusting device and the current state of the dosing device. The adjustment of the dosing device is carried out in accordance with the correlation in such a way that a relation between the modification of the quantity of ink caused by the adjustment of the dosing device, and the ink quantity transferred by the dosing device remains essentially constant.

Description

2005-04-26

description

Method for color quantity metering in the inking unit of a printing press

The invention relates to methods for color quantity metering in the inking unit of a printing press according to the preamble of claim 1 or 4.

In known printing machines, for example, colorimeters are used in order to be able to change the quantity of ink transferred from the inking unit to the printing press in a metering manner. To enable the adjustment of these dosing by the operator, adjusting elements, such as a thumbwheel or a setting keyboard in the control room of the printing press, are provided. By operating these control elements, the operator can change the dosage of the ink quantity transferred by the inking unit. When using a colorimeter, for example, by entering a specific control value, the opening between the front edge of the colorimeter and the outer circumference of a color ink accepting the ink can be changed.

A disadvantage of the known metering devices is that upon adjustment of the actuating element by a certain amount in each case an equally large change in the transferred amount of ink is effected. When using a colorimeter as a metering device, this means that the opening between the front edge of the colorimeter and the outer circumference of the Farbduktors is always changed by the same amount regardless of the current position of the colorimeter. If the adjustment path of the colorimeter is subdivided, for example, into a certain number of steps, for example a hundred sub-steps, an adjustment by one sub-step always causes an equally large change in the opening at the front edge of the colorimeter.

This type of Farbmengendosierung is disadvantageous because in cases where only small amounts of ink are transmitted, caused by adjustment of the control element 2005-04-26

Color amount change is relatively very large. If, however, a large amount of ink is transferred from the metering device in the current setting, an adjustment of the actuating element by a corresponding amount only causes a relatively small relative change in color quantity in comparison to the current amount of ink. In other words, this means that only very coarse dosing can be carried out in the area of low color quantity transfer in which a particularly sensitive adjustment is necessary, whereas in the region of large amounts of paint an unnecessarily fine color dosing takes place.

DE 100 55 827 A1, DE 100 32 765 A1 and DE 37 43 646 A1 disclose devices for adjusting an amount of ink in inking units of printing presses. In this case, the amount of ink is changed by means of actuator actuated dosing systems depending on various parameters.

The invention has for its object to provide methods for Farbmengendosierung in the inking unit of a printing machine with good dosage setting.

The object is achieved by the features of claim 1 or 4.

The advantages achieved by the invention are, in particular, that a certain degree of adjustment of the actuating element does not lead to the same degree of adjustment to the metering device. Rather, the current setting of the metering device is determined before or after setting a color change by adjusting the control element and then made the adjustment of the metering device in response to a predetermined correlation between the degree of adjustment of the control element and the current position of the metering device. The determination of the setting of the metering device can be done before or after setting a color change by adjusting the control element. 2005-04-26

The predetermined correlation between the degree of adjustment of the control element and the current position of the metering device can be formulated as a mathematical function. As a result, it is possible by the method in particular to take into account in each case the current position of the metering device such that in the cases in which small amounts of ink are transferred from the inking unit, an adjustment of the actuating element only lead to very sensitive adjustments of the metering devices. If, on the other hand, very large quantities of paint are already being transferred in the current state of the inking unit, the metering can be made much coarser, so that even smaller adjustments of the actuating element lead to larger changes in the metering of the ink quantity.

According to a preferred embodiment, the correlation between the degree of adjustment of the control element and the current adjustment of the metering device such that the relation between the caused by the adjustment of the metering ink quantity change relative to the currently transmitted from the metering ink quantity remains substantially constant or each differs by less than 2%, in particular by less than 1%.

The constancy of the relative color quantity change should preferably be present over the entire metering range of the metering device and / or over the entire setting range of the actuating element.

If a color meter is used as the metering device, which cooperates with a color ductor in the inking unit for color metering, then it is particularly advantageous if the relative layer thickness change of the ink layer transferred to the ink ductor remains constant in each case. In other words, this means that the ratio of the layer thickness change caused by the adjustment of the metering device to the current layer thickness is constant in each case. 2005-04-26

An embodiment of the invention is illustrated in the drawings and will be described in more detail below.

Show it:

Figure 1 is an inking unit with colorimeter and Farbduktor in cross section.

2 shows a diagram of the relative color quantity change over the ink zone opening of the inking unit according to FIG. 1.

In Fig. 1, an inking unit 01 for a printing press for metering the ink 02 is shown in cross section. A Farbduktor 03 is driven in rotation, so that its outer circumference past the reservoir of the ink 02, whereby a color layer of certain layer thickness forms on the ink fountain roller 03. From the ink fountain roller 03, the ink 02 is then removed by means of a film roller 04 and further conveyed in the direction of the print zone of the printing press.

For metering the amount of ink transferred from the inking unit 01 is a metering device 06, z. B. a color meter 06. The color meter 06 is adjustably mounted, so that the ink fountain opening S1; S3 (see Figure 2) between the front edge of the ink blade 06 and the outer periphery of the ink fountain roller 03 can be changed. With large color zone opening S1; S3 will transfer much ink 02, whereas at small ink zone opening S1; S3 only a small amount of color is transferred.

The explanations refer to a colorimeter. In the axial direction of the ink fountain roller 03, the metering device 06 has a plurality of these independently adjustable ink knobs 06, for which all the embodiments of this invention apply.

For remotely controllable adjustment of the ink knife 06 is an actuating element, in particular 2005-04-26

a servomotor 07, by its drive the ink fountain opening S1; S3 on the front edge of the color meter 06 can be increased or decreased. In the servomotor 07, a sensor system may be present, with which the current position of the ink meter 06 can be measured or deduced. Alternatively, any change in the position of the ink meter 06 starting from a basic position can also be stored in the control in order to be able to derive the current position of the ink meter 06 from it.

If in the control station of the printing press an adjustment of the control element for changing the ink delivered by the ink fountain 01 set color, for example by entering a specific set value E1; E2; E3; E4 on a keyboard in the control room of the printing press, the current setting of the color meter 06 is queried by the controller and set in correlation with the adjustment of the control element input in the control room. The subsequent adjustment of the ink meter 06 then takes place as a function of this correlation. The operation of this type of method will be explained below with reference to the diagram in Fig. 2.

In Fig. 2, the relative change of the ink layer thickness on the ink fountain roller 03 via the ink fountain opening S1; S3 entered between the front edge of the colorimeter 06 and the outer periphery of the ink fountain roller 03. The function graph A represents the relationship as it results after a setting process. Namely, according to this adjustment method, the setting range of the input for the positioning motor 07 is in a plurality, e.g. B. divided into a hundred steps, each of which is assigned a specific point on the function graph A. The distance between these points in the direction of the axis of input E1; E2; E3; E4 for the ink zone opening S1; S3 is equidistant in size. The input value is proportional to the setting range of the servomotor. This means that all setting steps cause an equally large change in the layer thickness on the ink fountain roller 03. As a result, the function graph A upon application of the relative layer thickness change over the ink zone opening S1; S3 assumes a hyperbolic course. 2005-04-26

Furthermore, in FIG. 2, the functional graph B is also plotted, which results in the method according to the invention for color quantity metering. The setting range of the servomotor 07 is divided into a hundred steps, which are indicated on the function graph B as points. The distance of these points on the function graph B in the direction of the axis of the ink fountain opening S1; S3 is not equidistantly large, but increases with increasing color zone opening S1; S3. This is because the correlation between the respective change of the ink fountain opening ΔS12; ΔS34 always as a function of the current ink zone opening S1; S3 occurs, so that the relative layer thickness change

(relative change = change of color zone opening / current color zone opening)

remains constant at about 7%.

Again, the input for the control range is divided into equidistant steps. However, an equal change in the input causes a small ink zone opening ΔE12; ΔE34 also a smaller change of the ink fountain opening ΔS12; ΔS34 as a corresponding change of the input at large color zone openings ΔE34; ΔE34. As a result, it makes it possible to meter the method according to the invention very sensitively in the area of low ink layer thicknesses, whereas with large ink layer thicknesses, ie. H. at wide ink zone opening S1; S3, a relatively coarse color metering takes place.

In Fig. 2, the values for the input E1, E2, E3, E4 for adjusting the control element in z. B. equidistant, preferably discrete steps applied. In a first position at low ink zone opening S1, the display is E1 and z. B. in the display on E2, ie by ΔE21, changed, causing a change in the ink fountain area of S1 to S2, ie by ΔS21: 2005-04-26

E2 - E1 = ΔE21; S2 - S1 = ΔS21

In a second position at high color zone opening S3, the display is E3 and z. B. in the display on E4, ie by ΔE43, which causes a change in the ink fountain area of S3 to S4, ie by ΔS43.

E4 - E3 = ΔE43; S4 - S3 = ΔS43

In this case, ΔE21 = ΔE43 is preferably the same or different by at most 10%, in particular by at most 5%.

On the other hand, the color zone openings S1 which have occurred thereby differ; S3 by ΔS21 and ΔS43, preferably by at least 5% or at least by 10%.

2005-04-26

LIST OF REFERENCE NUMBERS

01 inking unit

02 printing ink

03 ink ductor

04 film roller

05 -

06 Metering device, Farbme

07 servomotor

A functional graph

B Function graph

E1 input

E2 input

E3 input

E4 input

S1 color zone opening, first

S3 color zone opening, second

ΔE21 Change of a first input

ΔE34 Change of a second input

ΔS21 Change of a first color zone opening

ΔS34 Change of second color zone opening

Claims

2005-04-26Ansprüche

1. A method for color metering in the inking unit (01) of a printing machine, wherein in the inking unit (01) at least one metering device (06) is provided, with which of the inking unit (01) transferred color amount is changed, and wherein the metering device (06) for changing the quantity of ink to be transferred is adjusted with an adjusting element, with the following method steps: specification of a color quantity change by adjustment of the adjusting element adjustment of the metering device as a function of a predetermined correlation between the degree of adjustment of the adjusting element and the current position of the metering device 06), wherein the adjustment of the metering device (06) as a function of the correlation between the degree of adjustment of the actuating element and the current position of the metering device (06) is such that the relation between the by the adjustment of the metering device (06) caused color quantity change relative to the currently of the Dosing (06) transmitted amount of ink remains substantially constant.

2. The method according to claim 1, characterized in that the relation between the by the adjustment of the metering device (06) caused color quantity change relative to the current of the metering device (06) over the entire metering range of the metering device (06) and / or over the entire adjustment range of the actuating element remains constant.

3. The method according to claim 1, characterized in that at a first ink fountain opening (S1) a change of a first input (.DELTA.E21) for changing this ink fountain opening (S1) causes a first change of the ink fountain opening (.DELTA.S21), at a second ink fountain opening (S3) a change of a second input (ΔE43) to change a color zone opening 2005-04-26

10

(S3) a second change of the ink fountain opening (ΔS43) causes the change of the first input (ΔE21) and the change of the second input (ΔE43) to be substantially equal and the first change of the ink fountain openings (ΔS21) and the second changes of the Color zone openings (.DELTA.S43) are different sizes

4. A method for Farbmengendosierung in the inking unit (01) of a printing machine, wherein in the inking unit (01) at least one metering device (06) is provided, with which by the inking unit (01) transferred color amount can be changed, and wherein the metering device (06) Changing the amount of ink to be transferred can be adjusted with an adjusting element, with the following process steps - Specification of a Farbmengenanderung by adjusting the actuator, - Adjustment of the metering device (06) in response to a predetermined correlation between the degree of adjustment of the control element and the current position of the metering device (06), wherein at a first ink fountain opening (S1) a change of a first input (.DELTA.E21) for changing this ink fountain opening (S1) causes a first change of the ink fountain opening (.DELTA.S21), characterized in that at a second ink fountain opening (S3) a change a second input (ΔE43) for changing di a second change of the ink fountain opening (ΔS43) causes the change of the first input (ΔE21) and the change of the second input (ΔE43) to be substantially equal and the first change of the ink fountain openings (ΔS21) and the second Change in the ink zone openings (.DELTA.S43) are different sizes.

5. The method according to claim 3 or 4, characterized in that the first change of the ink zone openings (.DELTA.E21) and the second change of the ink zone openings (.DELTA.E43) differ by at least 5%. 2005-04-26

1 1

6. The method according to claim 5, characterized in that the first change of the ink zone openings (.DELTA.E21) and the second change of the ink zone openings (.DELTA.E43) differ by at least 10%.

7. The method according to claim 1 or 4, characterized in that the input (E1, E2, E3, E4) for the adjustment of the actuating element takes place in discrete steps.

8. The method according to claim 7, characterized in that the input (E1, E2, E3, E4) takes place at least partially over the entire adjustment in equidistant steps.

9. The method according to claim 8, characterized in that the input (E1, E2, E3, E4) takes place over the entire adjustment range in equidistant steps.

10. The method according to claim 7, characterized in that the input (E1, E2, E3, E4) takes place by means of a push-button.

11. The method according to claim 1 or 4, characterized in that the input (E1, E2, E3, E4) for the adjustment of the actuating element is displayed on a screen.

12. The method according to claim 11, characterized in that the input (E1, E2, E3, E4) by specifying values on the screen.

13. The method according to claim 1 or 4, characterized in that the input (E1, E2, E3, E4) for the adjustment of the actuating element takes place at a control room.

14. The method according to claim 3 or 4, characterized in that the change of the first input (.DELTA.E21) and the change of the second input (.DELTA.E43) equal 2005-04-26

12

are big.

15. The method according to claim 1 or 4, characterized in that the adjustment of the actuating element takes place within its control range for specifying a color change quantity in the same size Stelischritten.

16. The method according to claim 4, characterized in that the adjustment of the metering device (06) in dependence on the correlation between the degree of adjustment of the actuating element and the current position of the metering device (06) is such that the relation between the by the adjustment the amount of color change caused by the metering device (06) remains substantially constant relative to the quantity of ink currently being transferred by the metering device (06).

17. The method according to any one of claims 1 or 4, characterized in that in the inking unit (01) a Farbduktor (03) is present, with the metering device (06), the layer thickness of the ink ductor (03) transferred color layer is changed.

18. The method according to claim 17, characterized in that a color meter (06) is used as a metering device (06), with which the layer thickness of the ink layer transferred to the ink fountain by changing the ink fountain opening between the front edge of the ink blade (06) and the outer periphery of Farbduktors (03) is changed.

19. The method according to claim 17, characterized in that the adjustment of the metering device (06) as a function of the set element predetermined color quantity change and in dependence on the current position of the metering device (06) takes place such that the relative layer thickness change of 2005-04-26

13

on the ink fountain roller (03) transferred color layer over the entire metering of the metering device and / or over the entire control range of the control element, remains constant.

20. The method according to claim 1 or 16, characterized in that the relation differs by less than 2%.

21. The method according to claim 20, characterized in that the relation differs by less than 1%.

22. The method according to claim 20, characterized in that the relation is constant.

23. The method according to claim 1 or 16, characterized in that the relative change of the metering device (06) transmitted color amount is substantially constant.

24. The method according to claim 1 or 4, characterized in that a determination of the current setting of the metering device (06) takes place.