JPH0331580B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an ink supply amount setting processing device that adjusts and sets the ink supply amount in the width direction of an inking device according to the pattern area ratio for each predetermined width of the printing plate used.

Conventionally, this type of ink supply amount setting processing device inputs data (hereinafter referred to as initial preset data) output from a pattern area ratio meter that measures the area ratio of the ink-applied portion of the printed matter, that is, the pattern area ratio of the printing plate. The initial preset data is converted into a numerical value indicating the position of the doctor blade at each position using a predetermined function, and only the position of the ink key for displacing the doctor blade is automatically set based on the same numerical value.

However, this does not take into account the rotation amount of the ink source roller, which is another factor that determines the ink supply amount, so even if you set the ink key position and print, you cannot adjust the ink density particularly well.
Manual adjustment was required to achieve the target ink density, and this manual adjustment took time, making it impossible to fully achieve the function of the ink supply amount setting processing device. Additionally, paper was wasted before the settings were completed.

The present invention comprises an ink source roller and a doctor blade whose rotation amount is variable, and the doctor blade is displaced by a plurality of adjustment mechanisms arranged in the width direction, thereby changing the gap between the ink source roller and the doctor blade in the width direction. The device converts data obtained by measuring the pattern area ratio for each predetermined width of the printing plate to be used into adjustment amounts for each of the adjustment mechanisms using a predetermined function, and drives each of the adjustment mechanisms accordingly to adjust the area ratio in the width direction. An ink supply amount setting processing device for setting an ink supply amount, comprising a rotation amount adjustment mechanism for adjusting the rotation amount of the ink source roller, and holding a plurality of functions for varying ink density as the functions, and It is characterized by having a function of inputting the required ink density, selecting the required rotation amount of the ink source roller, and selecting the optimal function from the plurality of functions according to the rotation amount, and driving the adjustment mechanism and rotation amount adjustment mechanism. The purpose is to provide an ink supply amount setting processing device that can adjust the rotation amount of the ink source roller and the position of the doctor blade so that the target ink density can be obtained by eliminating the above-mentioned conventional drawbacks. That is.

The present invention is configured as described above, and when the data measuring the pattern area ratio for each predetermined width of the printing plate to be used and the target ink density are input, the required rotation amount of the ink source roller and the plurality of functions are first calculated. The optimal function is selected from among them, and then the data is converted into a drive amount for each adjustment mechanism using the selected function, and each adjustment mechanism is driven accordingly to displace the doctor blade in the axial direction. In addition to adjusting the gap between the doctor blade and the ink source roller, the rotation amount adjustment mechanism is driven in accordance with the required rotation amount of the selected ink source roller, and the rotation amount of the ink source roller is also optimally adjusted.

In this way, both the position of the doctor blade and the amount of rotation of the ink source roller can be automatically and optimally set according to the present invention, eliminating the need for manual adjustment, which was required in the past, reducing the time required for setting, and reducing the loss of time required to complete the setting. Paper generation is almost eliminated.

The present invention will now be described in detail with reference to the most preferred embodiment shown in FIGS. 1-5. The printing plate pattern area ratio meter 1 is equipped with, for example, a magnetic card reader as a data output device, measures the pattern area ratio of the printing plate 4 for each ink supply area of each ink key, and outputs the measured data from the magnetic card reader 2, i.e. A magnetic card 3 on which preset data is recorded is output. 5 is an ink supply amount setting processing device according to the present invention. 6 is a data reading device, such as a magnetic card reader. 8 is an ink remote control desk. 9 is an inking device of the printing press, a part of which is shown in FIG. 14 is an ink source roller, and an ink source motor 12 is connected to the shaft end of the ink source roller via an ink source roller rotation amount adjustment mechanism 16. The ink source roller rotation amount adjustment mechanism 16 rotates the ink source roller 14 intermittently by a fixed amount per constant rotation of the printing press.This one rotation amount is called the ink source roller rotation amount, and the ink source motor It is adjusted by driving 12. A doctor blade 13 is disposed adjacent to the ink source roller 14. The doctor blade 13 is composed of a plurality of divided blades 22 groups provided in the width direction. Ink source roller 14
Ink 19 is accumulated in the space formed by the split blade 22 and the ink source roller 14, and as the ink source roller 14 rotates (in the direction of the arrow in FIG. 1), the gap between the tip of the split blade 22 and the ink source roller 14 increases. 15 is supplied to the surface of the ink source roller 14. An ink key 10 is disposed on the back side of each divided blade 22, and the tip of each ink key 10 is in contact with the divided blade 22. One motor 11 is disposed for each ink key 10, and the rotation of the motor 11 is transmitted to the ink key 10 by a gear train.
The tip of 0 appears and disappears, which causes the doctor blade 1 to
3 is displaced to open and close the gap 15. The ink on the ink source roller 14 is transferred to the ink mixing roller group 18 by the calling roller 17, and then transferred from an ink forming roller (not shown) to the pattern area of the printing plate on the printing cylinder and printed on printing paper. Ink source motor 1
2 and each motor 11 are connected to an ink remote control desk 8 and an ink supply amount setting processing device 5 by electric wires. The ink density of printed matter is determined by the amount of ink supplied; increasing the amount of ink supplied increases the ink density, and decreasing the amount of ink supplied causes the ink density to become lighter. This ink supply amount will be explained with reference to FIG. The amount of ink supplied from each divided blade 22 per constant rotation of the printing press is determined by the functional relationship between the gap 15, the ink source roller rotation amount 20, and the width 21 of the divided blade 22. Since the width 21 of the divided blade 22 is constant for a certain printing machine, the ink supply amount Z is expressed as a function of the gap X and the ink source roller rotation amount Y as shown in the following equation.

Z=f(X,Y)...(1) As shown in FIG. 3, the conversion function 31 held in the ink supply amount setting processing device 5 inputs the horizontal axis, that is, the pattern area ratio, and outputs the vertical axis. In other words, it is a function that expresses the relationship between the two in terms of the ink key adjustment position. In this example, as shown in FIG. 4, the ink concentrations are _H1 , _H2 , _H3 , _H4 ( _H1 is the darkest, _H2 , _H3 ,
The ink density becomes lighter as it goes to _H4 . ), the respective conversion functions E, F, G, and I are held. Figure 5 shows the conversion function E, based on Figure 4.
The relationship between the set value 33 of the rotation amount of the ink source roller and the ink density (solid portion) 35 is shown using F, G, and I as parameters.

The present embodiment is constructed as described above, and its operation will be explained next. An operator 7 inputs into a magnetic card reader 6 a magnetic card 3 showing pattern area ratio data 30 for each ink supply area of each ink key 10 measured by a printing plate pattern area ratio meter 1. Also, input the required ink density H. To obtain the ink density H, the rotation amount of the ink source roller is set to L according to Figure 5.
It can be seen that if the ink source roller rotation amount is set to M, then the conversion function is set to F. Select one of these to determine the ink source roller rotation amount 33 and the conversion function 31 to be used. A necessary ink key adjustment position 32 for each pattern area ratio is calculated using a conversion function 31 from the pattern area ratio data 30 for each ink key. For example, if the picture area ratio is C, the ink key adjustment position is D.

(Refer to Fig. 3) The ink source motor 12 is driven so that the ink source roller rotation amount reaches the set value 33, and the ink source roller rotation amount adjusting mechanism 16 is adjusted.
2 each ink key motor 11
Set the ink supply amount by driving.

Note that the target ink concentrations are H ₁ , H ₂ , H ₃ ,
It is clear that the work shown in FIG. 5 is not necessary if _H4 is the case.

In this way, according to this embodiment, the adjustment position of each ink key and the rotation amount of the ink source roller can be automatically set to be optimal, so the ink supply amount including the ink density can be automatically set, which is different from conventional methods. There is no need for manual adjustment, so the time required to set the ink supply amount can be shortened, and there is almost no paper waste until the setting is completed. Further, the software and hardware of this device are relatively easy to manufacture, and this has a large economical effect.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram showing a schematic configuration of an ink supply amount setting system to which an ink supply amount setting processing device according to an embodiment of the present invention is applied, and FIG. 2 is an enlarged view of a part of the ink supply section in FIG. 3 is a block diagram illustrating the operation of FIG. 1, FIG. 4 is a drawing showing a plurality of conversion functions with different ink densities, and FIG. 5 is an ink source roller for a plurality of conversion functions. It is a drawing showing the relationship between rotation amount and ink density. 4...Printing plate, 5...Ink supply amount setting processing device, 1
0... Ink key, 11... Ink key motor, 12
... Ink source motor, 13 ... Doctor blade, 14
... Ink source roller, 16... Ink source roller rotation amount adjustment mechanism, 30... Image area ratio data, 31... Conversion function, 32... Ink key adjustment position, 33... Set value of ink source roller rotation amount, H... Ink density.

Claims (1)

[Claims] 1. An inking device consisting of an ink source roller and a doctor blade whose rotation amount is variable, and in which the doctor blade is displaced by a plurality of adjustment mechanisms arranged in the width direction to change the gap between the ink source roller and the doctor blade in the width direction, The data obtained by measuring the pattern area ratio for each predetermined width of the printing plate used is converted into adjustment amounts for each of the adjustment mechanisms using a predetermined function, and the adjustment mechanisms are driven accordingly to supply ink in the width direction. The ink supply amount setting processing device for setting the ink supply amount is provided with a rotation amount adjustment mechanism for adjusting the rotation amount of the ink source roller, holds a plurality of functions for varying ink density as the function, and is configured to control the amount of ink supplied. The ink is characterized by having a function of inputting the density, selecting the required rotation amount of the ink source roller, and selecting an optimal function from the plurality of functions according to the rotation amount, and driving the adjustment mechanism and the rotation amount adjustment mechanism. Supply amount setting processing device.