DE102005003587A1 - Inkjet print machine, has a control unit that controls print medium displacement velocity in order to obtain a required number of gray steps - Google Patents

Abstract

Inkjet print machine has a fixed nozzle assembly that is moved perpendicular to the direction of movement of a print medium over its whole width and which is connected to an ink supply device and a device for displacing the print medium in a print direction. A control unit is provided for controlling the ink droplet output in order to obtain a particular print pattern and raster. The control unit controls the print medium displacement velocity and correspondingly the number of gray steps.

Description

The The invention relates to a printing machine for ink-jet printing the preamble of claim 1.

At the Inkjet printing becomes a bow or orbit with a particular one uniform Speed conveyed past a printhead. The printhead contains one by one controllable nozzles, the are connected to an ink supply device. During the Substrate is conveyed past the print head, the nozzles are accordingly controlled a printed image. On the substrate creates a digital Picture whose picture elements within a grid as raster elements arranged in rows and columns. The location of the grid elements let yourself in an orthogonal coordinate system, each raster element a row and a column address is assigned. When a Nozzle activated becomes, then becomes for a grid point a certain amount of ink in a grid element pushed out. Within a raster element there is only a gray tone or only a brightness value. Due to the dimensions and arrangement of the Nozzles across to the transport direction of the substrate and depending on the ejection frequency of drops from the nozzles and the transport speed of the printing material results for a Inkjet printer a maximum achievable resolution, the a measure of producible per unit length Halftone dots is. To achieve a high productivity, a high Drop ejection frequency and transport speed of the substrate sought. Because the resolution due to the geometric conditions the nozzles limited is, in order to achieve a high image quality, a printed image generated in the form of grid cells, which correspond to the printed image have different gray levels. The number of possible Grayscale hangs from the resolution and the grid width of the grid cells. If z. B. a grid cell binary in 16 × 16 printable halftone dots is decomposed, then can be (16 × 16) + 1 represent grayscale or brightness levels.

in the State of the art, various methods are known, a high To produce number of gray levels.

A first option is an inkjet printhead two or more times across to the transport direction over to lead the substrate, where with each passage the drops are slightly offset on the surface of the Printing material to be brought. In an inkjet printer, the can easily produce 280 lines / cm with 16 gray levels, prints at twice the passage of the printhead with 516 lines / cm with 81 shades of gray. In this method is only a low printing speed achievable, since the feed of the printing material and the printing is not possible at the same time is.

at Inkjet printers in which individual ink droplets on Request generated by driving with an electrical pulse It is known, by changing the Inpulsverlaufes the volume and to influence the number of droplets generated per pulse. In order to Is it possible, to vary the amount of ink per substrate area, so that lighter or darker dots can be created on the substrate. at an inkjet printer that can easily handle 280 lines / cm can produce with 16 shades of gray are through the change the pulse course z. B. 516 lines / cm at 81 grayscale possible. These Need procedure an elevated one Programming effort for a control system with a computer. For the generation of image information a raster graphic file with one bit of information depth is not enough out because of the additional Grayscale information per grid point an information depth of at least one byte per grid point is needed. Especially in high speed applications This results in comparison to simple, binary inkjet printheads increased Effort in the control electronics.

to increase the number of grayscale can be an inkjet printer with a second Printhead equipped which is supplied with a lighter color ink. As at the printers, where droplets issued on request can, can with such an inkjet printer also lighter or darker Points are generated. Due to the additional color z. Legs Resolution of 560 lines / cm possible with 81 shades of gray. Because with this procedure a complete additional printing system, consisting of printhead, ink supply and control, is needed results in a high cost of costs and material and is a larger construction volume required. Furthermore, an additional program for color separation which separates the printed image into the colors used.

Another way to increase the gray scale results from the use of a frequency-modulated grid. For example, at 560 / lines / cm resolution theoretically 90000 grayscales can be achieved. This method can only be used for complete print images. When impressing in substrates that previously z. Example, were printed by offset printing, resulting in a disturbing visual difference between inkjet printing with frequency-modulated grid and offset printing with conventional grid. At a low physi Due to the inherent nature of the resolution, disturbing structures in area motifs are visible. When printing with a frequency-modulated screen, a high dot gain occurs, so that it only makes sense to print on smooth substrates, such as coated papers.

task the invention is to develop a printing machine for ink jet printing, the without limitation with printing material selection the printing with little effort a high number of gray levels.

The Task is solved with a printing machine, which the characteristics after Claim 1. Advantageous embodiments will be apparent from the Dependent claims.

According to the invention is in a printing press, where a printed image in a simple pass is generated, the feed of the printing material according to the number the desired grayscale adjustable. The control of the printing press for controlling the output of ink droplets and to feed the substrate requires only a raster graphics file with a bit of information depth. The controller generates accordingly the raster graphics file electrical control pulses that of a nozzle array supplied become. The amount of ink ejected on the substrate per control pulse is constant.

The Invention will be explained below with reference to an embodiment. Show it:

1 : a schematic of a printing machine for inkjet printing,

2 to 4 Schemes for generating one to three gray levels and associated dot shapes.

In 1 is a printing machine for inkjet printing shown.

The printing press contains a pulley 1 . 2 laid conveyor belt 3 for feeding sheets 4 , one over pulleys 5 . 6 . 7 laid conveyor belt 8th for conveying bows 4 along a printhead 9 , one over pulleys 10 . 11 laid conveyor belt 12 for conveying bows 4 along a dryer 13 and one over pulleys 14 . 15 laid conveyor belt 16 to carry away bows 4 , For driving the conveyor belts 3 . 8th . 12 . 16 are the pulleys 1 . 5 . 10 . 14 with engines 17 - 20 coupled. In the printhead 9 there are two over the format width of the sheet 4 reaching nozzle modules 21 . 22 each with a plurality of individually controllable equidistant nozzles. The nozzle modules 21 . 22 stand with an ink supply device 23 and a control device 24 in connection. Between the engines 17 - 20 as well as the dryer 13 There are also connections to the control unit 24 , The control unit 24 contains a calculator 25 and a memory 26 for image data. The press includes a control panel 27 with a mode selector 28 with three switch positions for selecting three different shades of gray. The control panel 27 or the switch contacts of the mode switch 28 are also with the control unit 24 connected. The way of the bow 4 relative to the printhead 9 becomes indirect with a rotary encoder 29 detected with the axis of the pulley 6 is coupled.

Based on 2 - 4 the operation of the printing press will be described in more detail. Based on a raster graphics file in memory 26 and the signals from the encoder 29 It is clear when which nozzle of the nozzle modules 21 . 22 with a pulse 30 is to drive to eject one or more color droplets. When feeding a bow 4 with the conveyor belt 3 on the conveyor belt 8th be with a sensor 31 the layers of the leading edge and side edges of the bow 4 detected. The output signals of the sensor 31 and encoders 29 be in the control unit 24 processed to start the ink ejection and thus the location of the printed image on the sheet 4 set. If a nozzle of a nozzle module 21 . 22 with a pulse 30 fixed pulse shape and pulse frequency is driven, then a fixed predetermined amount of ink is ejected into a grid cell to generate a halftone dot. The print image will be in just one pass on the printhead 9 on the bow 4 generated. With the engine 18 become the uniform feed rate v of a sheet 4 on the conveyor belt 8th and with the controller 24 the pulse frequency matched so that grid cell to be printed on grid cell. When the mode switch 28 is in a first switching position, then the feed rate v is set to a maximum value v _max .

2 symbolically shows the structure of the raster graphic file in the form of lines and columns. The row direction corresponds to the raster graphics information a _x in the feed direction of the sheet 4 , In the column direction, the raster graphics information a _{y are} transverse to the feed direction. A black circle in a memory cell (a _x , a _y ) is to symbolize that a bit for driving a nozzle is set at a certain time. After a nozzle with a pulse was driven, arises on the arc 4 in a grid cell a circular grid point 33 , For each grid cell, exactly one gray scale can be achieved.

When the mode switch 28 was brought into a second switch position, then the engine 18 and the other engines 17 . 19 . 20 controlled so that the feed rate v is halved compared to the first switch position. If the ejection frequency for ink drops from a nozzle remains unchanged, then it is possible in a grid cell of the arc 4 twice the amount of ink to bring. Across from 2 are in 3 twice as many memory cells a _x , a _y provided in the row direction a _x . In the non-hatched columns, the bits can be set for a first gray level and in the hatched columns for a second gray level. For example, generates the bit in the memory cell 34 a grid point 35 with the first grayscale. The bits with the memory cells 36 . 37 are used to drive exactly one nozzle, with the amount of color of two pulses almost to the same point of the arc 4 is brought. Due to the high surface tension of the ink, uniform halftone dot is formed 38 , If z. B. with a nozzle arrangement transversely to the feed direction, a resolution of 280 lines / cm and in the feed direction 560 lines / cm are possible, then arise at a grid width of 60 lines / cm 36 representable gray scale.

When the mode switch 28 was brought to a third switch position, then with the engine 18 the feed rate v is set to one third of the maximum feed rate v _max . The organization of raster data is in 4 shown. The number of memory cells a _x , a _y is opposite 2 tripled. Across from 2 For each grid cell, another column is provided with bits for a third printable gray level. The resolution in the column direction a _y is still 280 lines per centimeter, while the resolution in the line direction a _{x has} the value of 1120 lines / cm tripled. With a grid width of 60 lines / cm, 56 gray scales can be displayed. The bit in the memory cell 39 creates a grid point 40 with a grayscale. The bits in the memory cells 41 . 42 give a grid point 43 with two grayscale. The bits in the memory cells 44 - 46 lead to grid points 47 with three shades of gray. The momentum profile and the droplet volume per pulse remains opposite to the method 2 and 3 unchanged. Only the number of impulses for printing a halftone dot 38 . 43 . 47 on the bow 4 used to change. At the grid points 38 . 43 . 47 is twice or three times the amount of ink per grid cell on a sheet 4 brought. The amounts of ink ejected per pulse are offset by a small amount s in the feed direction. The offset s results from the feed of the sheet 4 during the time between two bursts.

According to the invention, resolution in the feed direction always increases by an integer multiple of the physical resolution, whereby the printing speed is reduced by the same factor. For image data processing with the computer 25 it is irrelevant whether the individually addressable halftone dots, such as 2 described, conventionally next to each other or how to 3 and 4 be described on top of each other. Therefore, a conventional scanning method can be used.

1, 2

idler pulley

3

conveyor belt

4

bow

5-7

idler pulley

8th

conveyor belt

9

printhead

10 11

idler pulley

12

conveyor belt

13

dryer

14.15

idler pulley

16

conveyor belt

17-20

engine

21-22

nozzle module

23

Ink supply device

24

control unit

25

computer

26

Storage

27

control panel

28

Mode switch

29

encoders

30

pulse

31

sensor

32

circle

33

dot

34

memory cell

35

dot

36 37

memory cell

38

dot

39

memory cell

40

dot

41 42

memory cell

43

dot

44-46

memory cell

47

dot

Claims (3)

Printing machine for inkjet printing, comprising a stationary nozzle arrangement which extends transversely to a printing direction across the width of a printing material and is connected to an ink supply device, with a device for advancing the printing material in the printing direction, with a device for controlling the imagewise ejection of individual ink droplets from the nozzles of the nozzle arrangement in a grid on the surface of the printing substrate and for controlling the feed, characterized in that the feed rate (v) of the printing material ( 4 ) is adjustable in steps according to the number of desired gray levels. Printing machine according to claim 1, characterized in that the amount of ink ejected per smallest addressable raster element is constant is. Printing machine according to claim 1, characterized in that in the device ( 24 ) for controlling the ejection, the print image as a raster file in a memory ( 26 ) is stored.