DE102017204632A1 - An ink jet printing machine having a transport path and an ink jet printhead - Google Patents

Abstract

An ink jet printing machine (1) according to the invention with a transport path (2) and an ink jet print head (3), wherein a printing material (4), e.g. a sheet of paper, along the transport path in a transport direction (5) is moved and printed during its movement in a first region (6) of the transport path by means of the print head, characterized in that the substrate during its movement at one - the first area upstream in the transport direction - second area (7) of the transport path by means of a conditioning device (8) is conditioned in terms of its moisture. The printing machine according to the invention advantageously makes it possible to produce printed products which have little or no corrugation and are therefore of high quality.

Description

The present invention relates to an ink-jet printing machine having a transport path and an ink-jet printhead having the features of the preamble of claim 1.

In ink-jet printing (inkjet), an ink is transferred by means of a printhead in the form of drops onto a substrate or a substrate. If the ink is a water-based ink, the ink will absorb moisture and, if necessary, into the substrate. However, the substrate itself may also contain moisture prior to printing, which the substrate has picked up, for example, from the ambient air. Too much moisture in the substrate can cause the printed product to be produced to have an unwanted, quality degrading waviness. This problem can occur especially at slight sub-rates (up to about 150 g / m ² ). Therefore, measures have already been taken in the prior art to condition substrates prior to printing.

The DE 101 59 423 A1 describes an airtight enclosed paper storage, the interior of which has a constant temperature range. In addition, the interior can also have a constant humidity range. It may be provided an air conditioning device that provides conditioned air and delivers to the paper storage. A disadvantage of the device described is that the paper to be printed must be stored long before the printing process in the paper storage. The residence time in such a paper storage is therefore usually quite high and can be many minutes or even hours. Especially with frequently changing print jobs with short runs when using different substrates, the conditioning in such a paper storage is disadvantageous. Another disadvantage of the device described is that it can not be integrated into the printing process.

The JP 2003/154727 A describes an inkjet printer for example, tickets, the interior of which is conditioned to operate the printer in the outdoor area can. The apparatus includes a conditioning unit which directs conditioned air of desired temperature and humidity into the interior of the printer. In the interior of the printer, both a transport path for the substrate and the print head is arranged. A disadvantage of this solution is that the conditioned air can reach the area of the inkjet printhead and cause unwanted drying of ink or drying of ink on the printhead.

Finally, out of the DE 694 06 348 T2 an ink-jet printer with a paper transport, wherein in the region of the paper transport a curved and tempered surface is provided. The paper to be fed to the print head comes in contact with the curved surface on the transport path and is brought from this to a desired temperature. Conditioning with respect to the moisture of the paper is not described in the document.

Against this background, it is an object of the present invention to provide a prior art improved ink jet printing machine which makes it possible to produce printed products with very little or even no perceptible substrate curl. A further object of the invention can also be seen to provide such a printing machine, in particular for the printing of water-based inks and / or for low-level print jobs.

An inventive solution to this problem is an inkjet printing machine having the features of claim 1.

An inkjet printing machine according to the invention with a transport path and with at least one inkjet printhead, wherein a printing material is moved along the transport path in a transport direction and printed during its movement in a first region of the transport path by means of the printhead, is characterized in that the substrate during its movement in a - the first area in the transport direction upstream - second area of the transport path is conditioned by means of a conditioning device with respect to its moisture.

The printing machine according to the invention advantageously makes it possible to produce printed products with only very little or imperceptible corrugation, in particular when printing water-based inks and / or in the case of low-print jobs. Preferably, the printing material no longer has any disturbing curl after leaving the first area. Alternatively, it can be provided that the corrugation is reduced to the extent that it is no longer considered to be disturbing until after leaving a downstream of the print head dryer.

According to the invention, the two units printhead and conditioning device are each assigned a separate area, the area of the conditioning device being arranged upstream of the area of the printhead. The two areas are therefore not identical and can therefore be distinguished functionally and / or spatially from each other. Preferably, the two areas are also overlap-free. This way can be effectively prevented be that conditioning of the substrate takes place in the area which is assigned to the print head and intended for printing. In this way, it can also be avoided in particular that ink, and especially water-based ink, dries or even dries in the region of the nozzles of the print head. Failures of nozzles and concomitant deterioration of the printed image or even damage to the print head can also be prevented in this way.

The invention has the further advantage that the printing material does not have to be equipped with a cost-causing coating, which alone has the purpose of preventing a moisture-induced curl.

Advantageous and therefore preferred developments of the invention will become apparent from the accompanying dependent claims and from the description and the accompanying drawings.

A preferred embodiment of the printing press according to the invention can be characterized in that the conditioning device so acts on the printing material with a conditioning atmosphere and thereby conditioned that the absolute humidity of the printing material after conditioning in the range of 2 to 4%, preferably in the range of 2.5 to 3.5% and more preferably about 3%, based on the weight of the wet printing material, ie the aforementioned% figures are% by weight.

A preferred embodiment of the printing machine according to the invention may be characterized in that the conditioning device so acts on the printing material with a conditioning atmosphere and thereby conditioned that the relative humidity of the printing material after conditioning in the range of 20 to 30%, preferably in the range of 23 to 27% and more preferably about 25%. The reference quantity is preferably the moisture content of the air surrounding the printing material outside the conditioning device.

A preferred embodiment of the printing press according to the invention can be characterized in that the first region and the second region are spaced from each other. The shortest distance between the two regions can be at least several centimeters, e.g. more than 10 cm. Preferably, the distance is greater than 50 cm. If the distance is less than 10 cm, a separating device is preferably provided, e.g. a mechanical wall or an air knife. A preferred embodiment of the printing press according to the invention can furthermore be distinguished by the fact that a separating region lies between the first region and the second region, wherein the separating region can prevent by its dimensions and / or by its mechanical or functional configuration that the conditioning atmosphere reaches the printing head ,

A preferred embodiment of the printing press according to the invention can be characterized in that the conditioning device comprises a housing with an inlet and an outlet for the conditioning atmosphere flowing through the housing. A preferred embodiment of the printing press according to the invention can furthermore be characterized in that the conditioning device is arranged adjacent to a transport cylinder of the transport path. In this case, the surface (lateral surface) of the cylinder preferably forms a surface or a wall of the housing or in other words: the housing is at least partially open towards the lateral surface. The substrate passes through during its transport at machine speed, i. without stopping, at least part of the interior of the housing and is there exposed the conditioning atmosphere.

A preferred embodiment of the printing press according to the invention can be distinguished by the fact that the transport path extends from a printing substrate feeder to a printing substrate delivery of the machine.

A preferred embodiment of the printing press according to the invention can be characterized in that the conditioning device so acts on the printing material with a conditioning atmosphere and thereby conditioned that the temperature of the printing substrate in the range of 20 ° C to 40 ° C, in particular in the range of 25 ° C to 35 ° C or in particular in the range of 28 ° C to 32 ° C. Most preferably, the temperature is about 30 ° C.

A preferred embodiment of the printing machine according to the invention can be characterized in that the print head prints water-based ink.

• – Eine übliche Trocknerstrecke beträgt inklusive Umführbereich für den Bedruckstoff (Papier) etwa 2,8 m.
• – Aus Druckversuchen mit brauner Vollfläche und üblicher Trocknerleistung ergibt sich, dass auf der Trocknerstrecke Tintengewichte von etwa 11 g/m² getrocknet werden können. Der nasse, verdampfbare Anteil der Tinte beträgt dabei etwa 70%, d.h. etwa 7,7 g/m².
• – Unbedrucktes Papier enthält deutlich weniger Wasser, nämlich unter 1 g/m². Das zu konditionierende, unbedruckte Papier würde somit um etwa eine um den Faktor 8 geringere Trocknerleistung benötigen.
• – Bei gleicher Trocknerleistung (für die Konditionierung im Vergleich zur Tintentrocknung) würde sich die Trocknerstrecke für die Konditionierung um 1/8, also auf 0,35 m reduzieren.
• – Nach der Konditionierung wird das Papier ohne wesentlichen Zeitverzug bedruckt, d.h. die Strecke von der Konditionierung zum Bedrucken wird möglichst kurz gewählt, um eine Wiederaufnahme von Feuchte aus der Umgebung ins Papier zu vermeiden.

The following is an example of an investigation and the conditioning estimate derived from it:

• - A usual dryer section, including transfer area for the substrate (paper) is about 2.8 m.
• From printing tests with a brown solid surface and conventional drying performance, it can be seen that ink weights of about 11 g / m ² can be dried on the dryer section. The wet, vaporizable fraction of the ink is about 70%, ie about 7.7 g / m ² .
• - Unprinted paper contains significantly less water, namely less than 1 g / m ² . The unprinted paper to be conditioned would thus require about a factor of 8 lower dryer performance.
• - At the same dryer performance (for conditioning compared to ink drying), the dryer section for conditioning would reduce by 1/8, ie to 0.35 m.
• - After conditioning, the paper is printed without significant time delay, ie the distance from the conditioning for printing is chosen as short as possible in order to avoid a resumption of moisture from the environment into the paper.

The invention will be described below with reference to the accompanying drawings with reference to a preferred embodiment. In the drawings, corresponding elements are provided with the same reference numerals.

The drawings show:

1 : A schematic view of a preferred embodiment of the printing machine according to the invention; and

2 : A detailed view 1 ,

1 shows the printing machine according to the invention 1 with a substrate feeder 1a , a printing unit 1b and a substrate delivery 1c , Between the feeder and the boom is a transport path 2 provided on an inkjet printhead 3 passes the printing unit or the printing press. A printing material, in particular a paper, foil or cardboard sheet or a web, is guided by the feeder along the transport path to the print head and from this, in turn, along the transport path to the delivery. The direction in which the printing material is guided is in 1 simplified with an arrow 5 shown. However, it is obvious to a person skilled in the art that the printing material in the illustrated printing machine is not guided straight through it, but rather along a meandering path.

The printhead 3 has nozzles 3a on, which in case of imagewise control ink 3b Eject and in this way, the desired print image on the substrate 4 generated. It should be noted at this point that the printhead need not be a single printhead, but that it may also be multiple printheads. At least four print heads for the colors CMYK are preferred. Each individual print head can be designed as a bar, which extends across the width of the printing unit 1b extends and in turn composed of several printing modules.

Printing on the substrate 4 with the ink drops 3b takes place in a first area 6 , Is spaced from this first area in 1 a second area 7 shown. The second area is a conditioning facility 8th assigned. Their preferred structure and operation is overlooking 2 described in more detail.

The skilled artisan recognizes that the two areas 6 and 7 in the printing press 1 or in their printing unit 1b have a certain distance from each other. This distance is in the 1 simplified as a separation area 10 shown. The conditioning device 8th can instead of the place shown in other places in the printing unit 1b be arranged. For example, the conditioning device may also be indicated at the two by reference numbers 7 ' be designated areas. Anyway, that's the area 7 (the second area) the area 6 (the first area) with respect to the transport direction 5 upstream. In this way it can be ensured that the printing material 4 is conditioned before entering the effective area of the printhead 3 arrives. Also the alternative areas 7 ' are through the separation area 10 from the first area 6 separated or sufficiently spaced. Another alternative is the following solution: the conditioning device 8th is not the cylinder 12 but the cylinder 13 assigned and is spaced (upstream) of the printhead 3 , The in 10 illustrated separation area 10 is chosen correspondingly smaller in this solution.

2 shows a section 1 in which the transport cylinder 12 and the second area 7 are more recognizable. In the 2 illustrated conditioning device 8th includes a housing 11 with an inlet 11a and an outlet 11b , The cylinder 12 can also be understood as a conditioning cylinder and labeled accordingly. About the inlet is conditioned air or conditioning atmosphere 9 in the area between the housing 11 and the surface (lateral surface) of the transport cylinder 12 or the substrate transported thereon 4 promoted. About the outlet 11b can the conditioned air back out of the housing or the gap between the housing and substrate 4 be led out. It will be apparent to those skilled in the art that in this way a flow through the housing 11 with conditioning atmosphere 9 is possible. Inside the housing is the substrate 4 during its transport therefore exposed to the conditioning atmosphere. The conditioning atmosphere has a given temperature and humidity, which makes it possible to print the substrate 4 within the second area 7 so too condition that the substrate 4 after printing in the first area 6 has no disturbing ripple.

The supply of the conditioning housing 11 with conditioned air 9 can be done via a pump, not shown, and lines not shown, wherein the conditioned air is adjusted in an apparatus, also not shown in terms of their temperature and humidity.

The in 1 illustrated separation area 10 can also be chosen smaller than shown and it can then be provided, the second area 7 and the conditioning device 8th adjacent to the so-called jetting cylinder 13 to arrange, ie the transport cylinder, which faces the printhead and transported on the substrate and thereby printed. However, it must be ensured that no conditioning atmosphere 9 in the first area. By providing the housing 11 and discharging the conditioning atmosphere through the outlet 11b can be effectively prevented that conditioning atmosphere enters the first area where ink and possibly dries. There may also be other measures to separate the two areas 6 and 7 be provided, for example, a separation surface and suction on at least one of the two sides of the separation surface.

The residence time of the printing material 4 in the second area 7 depends on the speed with which the machine 1 is operated. Furthermore, the residence time also depends on the length of the second area or of the housing 11 from. It may therefore be necessary to match the printing speed of the machine and the length of the second area in such a way that sufficient conditioning of the printing material 4 in the second area is possible. At higher print speeds and / or at a shorter second range 7 It may also be necessary to adjust the conditioning atmosphere or its moisture and / or temperature. For example, at higher print speeds and / or shorter second ranges 7 a conditioning atmosphere 9 be supplied with less moisture, which is a sufficient change in the moisture content of the substrate 4 allows.

Alternatively or in addition to in 1 illustrated positioning of the second area 7 or the second area 7 ' , the second area can also be in the area of the investor 1a be arranged provided individual substrate sheet 4 not under- or überuppt promoted.

It is also and alternative to the illustrated embodiment in FIG 1 also possible, several second areas 7 in the printing press 1 provide, which in their interaction cause the to be conditioned substrate sheet 4 with a moisture adapted to a print product of the desired quality in the effective range 6 of the printhead 3 arrives. It is also possible inside the case 11 a defined pressure of the conditioning atmosphere 9 provide. This pressure is preferably set lower, eg less than 10% lower than the ambient pressure.

An alternative or additional technical solution may provide: An area 7 with a (possibly additional) conditioning device 8th is the jetting cylinder 13 assigned, after a separation area 10 , which in turn after the printhead 3 is arranged. In this case, the conditioning device assumes a dryer function. The conditioning atmosphere 9 in this case preferably has a temperature in the range of about 70 to about 110 ° C. Favorable in this case continue low relative humidity and low pressure of the conditioning atmosphere.

LIST OF REFERENCE NUMBERS

1

press

1a

investor

1b

printing unit

1c

boom

2

transport path

3

Inkjet printhead

3a

jet

3b

ink

4

substrate

5

transport direction

6

first area

7

second area

7 '

second area

8th

Conditioners facility

9

Conditioners atmosphere

10

separating region

11

casing

11a

inlet

11b

outlet

12

transport cylinder

13

Jetting cylinder

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10159423 A1 [0003]
• JP 2003/154727 A [0004]
• DE 69406348 T2 [0005]

Claims (10)

Inkjet Printing Machine ( 1 ) with a transport path ( 2 ) and an inkjet printhead ( 3 ), whereby a printing material ( 4 ) along the transport path in a transport direction ( 5 ) and during its movement in a first area ( 6 ) of the transport path is printed by means of the print head, characterized in that the printing material during its movement in a - the first region in the transport direction upstream - second area ( 7 ) of the transport path by means of a conditioning device ( 8th ) is conditioned with respect to its moisture content. Ink jet printing machine according to claim 1, characterized in that the conditioning device ( 8th ) the printing substrate ( 4 ) with a conditioning atmosphere ( 9 ) and thereby conditioned that the absolute humidity of the printing material after conditioning in the range of 2 to 4%, based on the weight of the wet substrate. Inkjet printing machine according to claim 1 or 2, characterized in that the conditioning device ( 8th ) the printing substrate ( 4 ) with a conditioning atmosphere ( 9 ) and thereby conditioned that the relative humidity of the printing material after conditioning in the range of 20 to 30%. Ink jet printing machine according to claim 2 or 3, characterized in that the first area ( 6 ) and the second area ( 7 ) are spaced from each other. Ink jet printing machine according to claim 4, characterized in that between the first area ( 6 ) and the second area ( 7 ) a separation area ( 10 ), wherein the separation region prevents the conditioning atmosphere ( 9 ) to the print head ( 3 ). Ink-jet printing machine according to one of claims 2 to 5, characterized in that the conditioning device ( 8th ) a housing ( 11 ) with an inlet ( 11a ) and an outlet ( 11b ) for the conditioner atmosphere flowing through the housing ( 9 ). Ink-jet printing machine according to one of the preceding claims, characterized in that the conditioning device ( 8th ) adjacent to a transport cylinder ( 12 ) of the transport path ( 2 ) is arranged. Ink-jet printing machine according to one of the preceding claims, characterized in that the transport path ( 2 ) from a substrate feeder ( 1a ) to a printing substrate boom ( 1b ) the machine ( 1 ). Ink jet printing machine according to one of claims 2 to 8, characterized in that the conditioning device ( 8th ) the printing substrate ( 4 ) with a conditioning atmosphere ( 9 ) and thereby conditioned that the temperature of the printing substrate in the range of 20 ° C to 40 ° C. Ink jet printing machine according to one of the preceding claims, characterized in that the print head ( 3 ) with its nozzles ( 3a ) water-based ink ( 3b ).

Images