EP2199089A1 - Ink jet printer - Google Patents

Abstract

The apparatus (10) has a feed device for transporting a printing medium (14) in a feed direction, and a printhead carriage (22) displaceable in a transverse direction (y). The carriage is provided with printheads. An air duct (32) extends over a printing region and connected to a fan (44), where the printing region runs from the carriage in the transverse direction. The air duct includes a slotted nozzle (34) with a mouth opening (36), which runs in the transverse direction and directed towards a horizontal bearing surface (11) of a printing table (12).

Description

TECHNICAL AREA

The present invention relates to an ink-jet printing apparatus for printing non-absorbent surface printing media with water-based inks, comprising a printing table, feeding means for conveying a printing medium in a feeding direction, and a transversely displaceable printhead carriage having printing heads.

STATE OF THE ART

The use of aqueous inks for printing uncoated substrates by means of ink jet printing technology is known from US Pat DE-A-103 47 034 known. In order to keep the relatively long drying time of the inks within a tolerable range, the use of the ink in the inkjet printing system is provided with at least one heating device in the form of a hot plate and / or an infrared heater. In this case, the heating plate is arranged directly below, before and / or after the print head, so that the heating plate extends over the entire path covered by the print head. Alternatively or additionally, an infrared radiator arranged above the surface to be printed is provided as the heating device. A major disadvantage of this printing system is that it is only suitable for printing on thermally stable substrates.

The US-A-4,340,893 discloses an ink jet printer having an ink drying apparatus with louvers disposed on either side of the printhead for impinging the substrate to be imprinted immediately after printing with an optionally heated air stream.

With the inkjet printing devices known from the prior art, it is not possible to avoid bleeding of the ink droplets and undesirable banding when printing on non-absorbent surface print media with water-based inks.

PRESENTATION OF THE INVENTION

The invention is based on the object to provide an ink jet printing device of the type mentioned, with which can be fixed at each pass from the printheads incident on the printing medium ink droplets before the droplets run and lead to a significant deterioration in print quality. Another object of the invention is to avoid banding.

To achieve the object according to the invention, above the printing table, an air duct with a slot nozzle is arranged above the pressure table, which extends over the printing area which can be traversed in the transverse direction and is arranged with a fan with a mouth opening directed transversely and directed against the support surface of the printing table.

The slit nozzle is preferably directed onto a printable area of the print heads during a pass in the form of a print strip.

In the region of the mouth opening, the slot nozzle is preferably inclined relative to a vertical at an angle, wherein the angle is preferably between 5 and 15 °, in particular approximately between 6 and 10 °.

Appropriately, the air duct for aligning the slot nozzle in the feed direction is displaced parallel and formed tiltable relative to a vertical.

To generate a uniform air jet over the entire mouth opening in the transverse direction of the air duct is preferably divided by at least one provided with air passage openings partition in at least two sub-channels.

The blower is preferably infinitely variable in its strength. For preheating the air, the blower is preferably associated with a heating device with preferably infinitely variable temperature.

The printhead carriage may be equipped with an air baffle and / or with Luftabweisungsblechen to reduce under the slide forming air vortices.

With the inventive ink jet printing device with water-based inks printed plastic films are particularly suitable for decorating and protecting articles made of composite materials, especially sports and leisure equipment, such as skis, snowboards, skateboards surfboards and the like objects with decorative surface design.

BRIEF DESCRIPTION OF THE DRAWING

Fig. 1

eine Frontansicht einer Tintenstrahldruckvorrichtung;

Fig. 2

eine teilweise geschnittene Seitenansicht der Tintenstrahldruckvorrichtung von Fig. 1 mit Luftführungskanal in vergrösserter Darstellung in Blickrichtung A;

Fig. 3

einen Schnitt durch den Luftführungskanal von Fig. 1 nach der Linie I-I in vergrösserter Darstellung;

Fig. 4

die Draufsicht auf eine Trennwand des Luftführungskanals von Fig. 3;

Fig. 5

einen Schnitt durch eine frisch bedruckte Oberfläche eines Bedruckmediums vor der Fixierung der Tintentröpfchen in vergrösserter Darstellung;

Fig. 6

den Schnitt durch die frisch bedruckte Oberfläche gemäss Fig. 5 nach der Fixierung der Tintentröpfchen.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawing, which is merely illustrative and not restrictive interpreted. The drawing shows schematically in

Fig. 1

a front view of an ink-jet printing device;

Fig. 2

a partially sectioned side view of the ink jet printing device of Fig. 1 with air duct in an enlarged view in the direction A;

Fig. 3

a section through the air duct of Fig. 1 on the line II in an enlarged view;

Fig. 4

the top view of a partition wall of the air duct of Fig. 3 ;

Fig. 5

a section through a freshly printed surface of a printing medium before the fixation of the ink droplets in an enlarged view;

Fig. 6

the section through the freshly printed surface according to Fig. 5 after fixing the ink droplets.

DESCRIPTION OF PREFERRED EMBODIMENTS

One in the Fig. 1 and 2 shown inkjet printing device 10 has a horizontally arranged printing table 12 as a support for a printing medium 14. The printing medium 14, which is usually in the form of rolls, is guided over the printing table 12 in the feed direction x by means of transport rollers 16, 18 of a feed device 20. Thus, the printing medium 14 rests flat in the printing area on the printing table 12, 12 openings 13 are provided for generating a negative pressure acting on the back of the resting on the printing table 12 print medium 14 in a horizontal support surface 11 of the printing table. The printing medium 14 is usually a film or a thin plate of a thermoplastic material, such as polyamide, ABS / TPU, PVC, PE. The plastics have a non-absorbent surface. For printing, water-based inks are used.

Above the printing table 12 and at a short distance to its support surface is a printhead carriage 22 with, for example, eight printheads 24. The printing technology is piezo inkjet printing. The print head carriage 22 is slidably guided in the transverse direction y on two guide rods 26, 28 arranged parallel to one another and at a right angle to the feed direction x. The printing process takes place in successive displacement movements - the so-called fitting - of the print head carriage 22 in the transverse direction y On each pass is carried out by means of the print heads 24 an order of color dots on the printing medium 14 within a print strip 30 of a width b of z. B. 12 mm, which is part of the entire print image. Between two successive passes, the printing medium 14 is transported by means of the transport rollers 16, 18 of the feed device 20 in the feed direction x by one of the width b of the print strip 30 generated during a pass corresponding distance forward. This process is repeated until completion of the entire print image to be printed.

Above the printing table 12 is an over the entire, from the print head carriage 22 traversable pressure range extending, closed at its two end faces air duct 32 with a slot nozzle 34 with extending in the transverse direction y mouth opening 36 is arranged. The air duct 32 has a substantially rectangular outer cross section and is internally provided with two partitions 33a, 33b extending over the entire length of the air duct 32 and dividing the air duct 32 into three part ducts 32a, 32b, 32c. A further dividing wall 33c separates the partial passage 32c from the wedge-shaped slot nozzle 34. The dividing walls 33a, 33b, 33c are provided with air passage openings 38 distributed substantially regularly over the entire length of the air guide passage 32. The air passage openings 38 may, for example, consist of several rows of longitudinal slots extending parallel to one another and extending in the transverse direction y, the longitudinal slots being arranged offset from one another, for example, relative to one another ( Fig. 4 ). In principle, however, all forms of air passage openings 38 are possible, which lead to a uniform over the entire length of the air duct 32 air flow at the mouth opening 36 of the slot nozzle 34.

Like from the Fig. 2 and 3 4, the two walls 40, 42 bordering the slot nozzle 34 are curved in the region of the mouth opening 36 in such a way that a plane of symmetry of the walls 40, 42 in the mouth region relative to the vertical one of the outflow direction of an air jet S from the slot nozzle 34 corresponding angle α of about 8th °. Due to the possibilities provided for a parallel displacement of the air duct 32 in the feed direction x and by tilting the position of the air duct 32 relative to the vertical, the impact point or the Impact line of the air jet S flowing out of the slit nozzle 34 exactly on the way in the transverse direction y of the printheads 24 traversable way, ie on the pressure strip 30 generated during a pass set.

From a fan 44 with this associated heater for air preheating via a supply pipe 46, the supply of air into the air duct 32 on the in Fig. 1 left side in the of the slot nozzle 34 farthest sub-channel 32a. By arranged as baffles in the air flow path within the air duct 32 partitions 33a, 33b, 33c results in a constant air outlet velocity at the mouth opening 36 of the slot nozzle 34 and thus a constant pressure of the incident during a pass on the pressure strip 30 air jet S. About a controller the fan speed or the speed of the air jet S continuously adjustable. The heater is infinitely adjustable in temperature from room temperature to 60 °.

To control the ink jet printing device 10, this is connected to a control device 50. Based on digital image data input to the controller 50, this controller 50 calculates the required control signals of the respective constituent components of the ink jet printing apparatus 10. For this, the controller 50 is provided with a carriage controller for moving the printhead carriage 22 in the transverse direction y, with a feed control for controlling the feed device 20 for moving the print medium 14 in the feed direction x and a nozzle control for controlling the nozzles 24 for ejecting colored ink droplets 48 connected to the print medium 14.

The ink droplets 48 impinging on the print medium 14 by the print heads 24 lead to a highly curved droplet surface on the non-absorbent surface of the print medium 14 because of the high surface tension of water ( Fig. 5 ). The application of an air jet S having fresh air impinging on the surface of the printing medium 14 during a pass in the form of a printing strip 30 with an air jet S with the air volume and the ink composition of the printing inks used and the flow velocity or flow velocity the resulting air pressure upon impact of the air jet S on the fresh print strip 30 counteracts the surface tension of the ink droplets 48 and flattening the ink droplets 48. At the same time, the air jet S causes a partial evaporation of the water in the ink droplets 48. The optimum water evaporation can be adjusted by appropriate preheating and drying of the air. The flattened and due to the partial drying a higher pigment concentration having ink droplets 48a are fixed in this way on the surface of the printing medium 14 and prevented from bleeding ( Fig. 6 ).

To avoid a negative influence of unwanted air flows under the print head carriage 22 on the transfer of the ink droplets 48 from the printheads 24 to the surface of the print medium 14, the printhead carriage 22 is covered with an air jet emerging from the slit nozzle 32 forward air deflecting plate 52 in the feed direction. At the two sides arranged perpendicular to the transverse direction, the print head carriage 22 is equipped with a spoiler or air deflector plate 54, 56 against the printing table 12. The spoilers 54, 56 prevent the formation of air vortices under the printhead carriage 22.

LIST OF REFERENCE NUMBERS

10

The inkjet printing apparatus

12

printing table

13

openings

14

Bedruckmedium

16

transport roller

18

transport roller

20

feeder

22

Print head carriage

24

printheads

26

guide rod

28

guide rod

30

pressure strips

32

Air duct

32a, 32b, 32c

subchannels

33a, 33b, 33c

partitions

34

slot

36

mouth

38

Air passage openings

40

Wall of 34

42

Wall of 34

44

Blower with heater

46

supply pipe

48, 48a

ink droplets

50

Control device of 10

52

Air baffle

54, 56

Air deflectors, spoilers

S

air jet

b

Width of 30

x

feed direction

y

transversely

α

angle

Claims (10)

An ink-jet printing device for printing on non-absorbent surface print media (14) with water-based inks, comprising a printing table (12), feed device (20) for transporting a printing medium (14) in a feed direction (x) and a transversely displaceable (y) print head carriage (22) with print heads (24),
characterized in that
Above the printing table (12) extending over the print head carriage (22) in the transverse direction (y) traversable pressure range and connected to a fan (44) air duct (32) with a slot nozzle (34) extending in the transverse direction (y) and against the bearing surface (11) of the printing table (12) directed mouth opening (36) is arranged. An ink-jet printing apparatus according to claim 1, characterized in that the slit nozzle (34) is directed onto a printable area in the form of a printing strip (30) by the print heads (24) during a pass in the transverse direction (y). Ink jet printing apparatus according to claim 1 or 2, characterized in that the slot nozzle (34) in the region of the mouth opening (36) relative to a vertical by an angle (α) is inclined. Ink jet printing apparatus according to claim 3, characterized in that the angle (α) is between 5 and 15 °, in particular approximately between 6 and 10 °. Inkjet printing device according to one of claims 1 to 4, characterized in that the air guide channel (32) for aligning the slot nozzle (34) in the feed direction (x) is designed to be parallel displaceable and tiltable relative to a vertical. Inkjet printing device according to one of claims 1 to 5, characterized in that the air duct (32) for generating a uniform air jet (S) over the entire mouth opening (36) in the transverse direction (y) by at least one with air passage openings (38) provided partition wall (33a , 33b, 33c) is subdivided into at least two subchannels (32a, 32b, 32c). Inkjet printing device according to one of claims 1 to 6, characterized in that the blower (44) is preferably infinitely variable in its thickness. Ink jet printing apparatus according to claim 7, characterized in that the fan (44) for preheating the air is associated with a heating device (46) preferably with continuously variable temperature. Inkjet printing device according to one of claims 1 to 8, characterized in that the printhead carriage (22) for reducing air vortices with an air guide plate (52) and / or with Luftabweisungsblechen (54, 56) is equipped. Use of a plastic film printed with water-based inks with the ink-jet printing device according to any one of the preceding claims for decorating and protecting composite articles, in particular sports and leisure equipment, such as skis, snowboards, skateboards, surfboards and the like decorative surface articles.

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