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EP 1 491 346 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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21.10.2015 Bulletin 2015/43 |
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Date of filing: 14.06.2004 |
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International Patent Classification (IPC):
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Apparatus and method for applying an ink image to a receiving material
Gerät und Verfahren zum Auftragen eines Tintenbildes auf ein Aufzeichnungsmaterial
Dispositif et procédé pour appliquer une image d'encre sur un matériau récepteur
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Designated Contracting States: |
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AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IT LI LU MC NL PL PT RO SE SI SK TR
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Priority: |
27.06.2003 EP 03077004
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Date of publication of application: |
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29.12.2004 Bulletin 2004/53 |
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Proprietor: Océ-Technologies B.V. |
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5914 CC Venlo (NL) |
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Inventors: |
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- Stoot, Andreas C.
5913 GN Venlo (NL)
- De Grijs, Eduard T.H.
5914 SM Venlo (NL)
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| (74) |
Representative: van de Sande, Jacobus et al |
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Océ-Technologies B.V.
Corporate Patents
Postbus 101 5900 MA Venlo 5900 MA Venlo (NL) |
| (56) |
References cited: :
US-B1- 6 168 269
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US-B1- 6 270 215
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| Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] The invention relates to an apparatus for applying an ink image to a receiving material.
In particular the invention relates to copiers or printers, more particular to photocopiers
or inkjet printers, wherein the receiving material is retained against a carrier plate.
The invention further relates to a method for applying an ink image to a receiving
material.
[0002] An apparatus according to the preamble of claim 1 and a method according to the preamble
of claim 22 are known from the document
US 6 270 215 B1.
[0003] An apparatus for keeping a receiving material flat against a carrier plate during
the application of an ink image thereto is generally known. The carrier plate is,
for example, provided with V-shaped channels, which extend in the direction in which
the receiving material is movable stepwise over the carrier plate. Ribs which separate
the channels from one another are provided with suction openings in order to draw
bubbles, which are formed by moisture absorption in the receiving material, into the
channels by vacuum pressure, in order to prevent said bubbles from coming into contact
there with ink application means which are flatly movable over the carrier plate.
[0004] The receiving material is pulled against the carrier plate with considerable force
so that it is possible to ensure with a great degree of certainty that parts of the
receiving material, particularly bubbles projecting in the direction of the ink application
means, remain out of contact with the ink application means.
[0005] A disadvantage of the known apparatus is that the ink images on some receiving materials
are distorted due to, for example, locally occurring line broadening and density variations
in area-fills.
[0006] An object of the invention is to improve on this.
[0007] A further object of the invention is to provide an apparatus having an improved control
over the process of the application of an ink image onto the receiving material in
order to, at least, reduce the distortions mentioned above.
[0008] From one aspect, the invention provides an apparatus for applying an ink image to
a receiving material adapted to be advanced in a direction of advance, comprising:
ink application means for applying an ink image to a strip of receiving material,
which strip extends in a direction transverse to the direction of advance of the receiving
material, wherein the ink application means are movable over the strip of receiving
material,
carrier means for keeping said strip in a predetermined position with respect to the
ink application means, which carrier means comprise a carrier plate for carrying said
strip, said carrier plate having recesses and said carrier plate being provided with
holes,
vacuum means for sucking away air via said holes from the space between the carrier
plate and a strip of receiving material lying on the carrier plate, and
correction means for correcting local variations in the distance between the receiving
material and the ink application means.
[0009] Some receiving materials, particularly slack or compliant receiving materials, are
pulled into the recesses to some extent due to the vacuum pressure. On the one hand
this is favourable since it reduces the extent to which bubbles project in the direction
of the ink application means. On the other hand the sagging of the receiving material
into the recesses may result in positioning errors in the ink image.
[0010] For example, if a line of equidistant dots is to be printed onto the receiving material,
the ink image of these dots is distorted when the line crosses a part of the receiving
material that has sagged into a recess. In the direction of movement of the ink application
means, the distance between the dots on the receiving material will increase when
the ink application means move over a downward slope of the sagged receiving material.
This distance will decrease when the ink application means move over an upward slope
of the sagged receiving material. Since this distortion of the ink image is repeated
in each strip of receiving material, these distortions add up to form a pattern in
the direction of advance of the receiving material.
[0011] Moreover, the carrier plate can be provided with a series of regularly spaced recesses
or channels as known in the art. As a consequence of this, the above-mentioned distortions
appear around the position of each recess, so that these distortions add up to form
a longitudinal wave pattern in a direction perpendicular to the direction of advance
of the receiving material.
[0012] Providing the apparatus for applying an ink image to a receiving material with correction
means for, at least partially, correcting local variations in the distance between
the receiving material and the ink application means, may result in a substantial
improvement of the ink image due to the reduction of the misalignment of the ink dots
which make up the ink image.
[0013] In a first embodiment, the correction means comprise timing means for adjusting the
moment of ink release by the ink application means. Local distance variations cause
variations in flight time of the ink droplets from the ink application means to the
receiving material. Said variations in flight time of the ink droplets can be compensated
by adjusting the moment of ink release. For example, when the receiving material has
sagged into a recess, the distance between the receiving material and the ink application
means is locally enlarged and the flight time of the ink droplet will increase. Advancing
the moment of ink release by the ink application means can compensate this increased
flight time and can correct the misalignment of the position of the ink droplet due
to the sagging of the receiving material into the recess.
[0014] In a further development, the timing means are arranged for advancing the moment
of ink release when the ink application means is near a downward slope of a recess,
and for delaying the moment of ink release when the ink application means is near
an upward slope of a recess. Preferably the advance and delay are defined by an undulatory
electronic signal, wherein the leading and tailing edges of the undulatory signal
correspond to the downward and upward slopes of the recesses, respectively. The differences
in flight time can thus be corrected using a simple electronic correction of the signal
that controls the moment of ink release by the ink application means.
[0015] In a further development, the application means are arranged for moving with uniform
velocity over the carrier plate. In this case, and in combination with regularly spaced
recesses on the carrier plate, the undulatory electronic signal is also regular, and
a simple regular electronic wave signal can be used.
[0016] In a second embodiment, the correction means comprise speed adjustment means for
adjusting a relative velocity between the ink application means and the carrier plate.
In a further development, the speed adjustment means are arranged for reducing the
relative velocity when the ink application means is near a downward slope of a recess,
and for increasing the relative velocity when the ink application means is near an
upward slope of a recess. Due to this variation in relative velocity between the ink
application means and the carrier plate, the trajectories of the ink droplets can
be adjusted to compensate for said local distance variations between the ink application
means and the receiving material.
[0017] This adjustment of the relative velocity between the ink application means and the
carrier plate, can be carried out with the speed adjustment means which comprise translation
means for moving the carrier plate in the direction substantially parallel to the
direction of the strip of receiving material. In a further development, the translation
means are arranged for a reciprocating movement of the carrier plate. Such a translation
means for moving the carrier plate has the advantage that no changes have to be made
to the ink application means, and that the known ink application means can be used
in the apparatus of the invention.
[0018] Alternatively, the speed adjustment means comprise means for adjusting the velocity
of the ink application means. This adjustment of the velocity of the application means
may be defined by an undulatory electronic signal, wherein the leading and tailing
edges of the undulatory signal correspond to the downward and upward slopes of the
recesses, respectively. The variation of the velocity can thus be achieved by a simple
electronic correction of a signal for controlling the velocity of the ink application
means.
[0019] The above-mentioned means for adjusting the velocity of the ink application means
and the translation means for moving the carrier plate in the direction substantially
parallel to the direction of the strip of receiving material, can also be combined.
In this case the required adjustment of the relative velocity between the ink application
means and the carrier plate can be divided between said means for adjusting the velocity
of the ink application means and said translation means. In this way the amount of
adjustment of each of these means can be reduced. In particular, the velocity of the
translation means for moving the carrier plate can be reduced.
[0020] A further advantage of the above mentioned first and second embodiments is that the
distance between the carrier plate and the ink application means is not affected by
the correction means. Thus the risk that the receiving material may come into contact
with the ink application means is as low as in the prior art.
[0021] In a third embodiment the correction means comprise adjustment means for locally
adjusting the distance between the ink application means and the carrier plate. In
a further development, this adjustment results in essentially a constant distance
between the ink application means and the receiving material. This adjustment of the
distance may also be defined by an undulatory electronic signal where the leading
and tailing edges of the undulatory signal correspond with downward and upward slopes
of the recesses.
[0022] In a further development, the adjustment means comprise first movement means for
moving the carrier plate in a direction for adjusting a distance between the ink application
means and the carrier plate. The adjustment means may also, or in addition, comprise
second movement means for moving the ink application means in a direction for adjusting
the distance between the ink application means and the carrier plate. In an apparatus
comprising first and second movement means, the extent of adjustment can be divided
between these two movement means, thereby reducing the required amount of adjustment
of each of these movement means.
[0023] In a preferred embodiment the apparatus further comprises controlling means for controlling
the correction means depending on of at least one of the following characteristics
selected from the group comprising: receiving material characteristics, ink characteristics,
ink image characteristics, print mode, carrier plate characteristics, distance between
the ink application means and the carrier plate, and the velocity of the ink application
means with respect to the carrier plate. Using at least one of these characteristics,
the extent to which the receiving material is pulled into the recesses, can be estimated,
derived or determined. Subsequently, the controlling means control the correction
means for correcting this estimated extent of sagging of the receiving material into
the recesses. The use of such a controlling means results in a very flexible apparatus,
which can easily adapt to various conditions such as, for example, various different
types of receiving materials.
[0024] In a further development, the controlling means comprise input means for inputting
said characteristics. One or more of said characteristics or values defining the state
of said characteristics may be inputted or modified via said input means when changing,
for example, from one type of receiving material to an other type of receiving material
or from one type of printing ink to an other type of printing ink. Said values may
be numerical values, but may also comprise other characters, such as alphanumeric
characters.
[0025] The receiving material characteristics may comprise at least one of the characteristics
selected from the group comprising: the grade, the type, the thickness, the moisture
content, the weight or substance per unit area, and the sizing.
[0026] The ink characteristics may comprise at least one of the characteristics selected
from the group comprising: the viscosity, the water or solvent content of the ink,
and the wetting characteristics of the ink.
[0027] The ink image characteristics may comprise at least one of the characteristics selected
from the group comprising: area fraction covered by ink, pixel density.
[0028] The print mode may comprise at least one of the following selected from the group
comprising: last mode, normal mode, and best mode. In the last mode, the ink image
is printed in one single move of the ink application means over the strip of receiving
material. Whereas in the normal mode, the ink image is printed in a reciprocating
movement of the ink application means over the strip of receiving material. In the
best mode, the ink image is printed in more than one forward motion or reciprocating
motion.
[0029] The carrier plate characteristics may comprise at least one of the characteristics
selected from the group comprising: configuration of the recesses, profile of the
recesses and magnitude of the vacuum pressure generated by the vacuum means.
[0030] In a further development, the apparatus comprises detection means for detecting the
positions of the recesses with respect to a path of the ink application means. The
information about the relative position of the recesses with respect to the path of
the application means can then be transferred to the controlling means. This information
can be used for controlling the correction means as described above. Said detection
means can be used for calibration or recalibration of the correction means and may
for example be used in a start-up phase of the apparatus according to the invention
for detecting the relative positions of the recesses with respect to the actual path
of the ink application means.
[0031] From a second aspect, the invention provides a method for applying an ink image to
a receiving material using an apparatus adapted to advance the receiving material
in a direction of advance, wherein the method comprises the steps of:
placing a strip of receiving material on a carrier means in a predetermined position
with respect to an ink application means, which carrier means comprise a carrier plate
for carrying said strip, said carrier plate having recesses extending in the direction
substantially parallel to the direction of advance of the receiving material, and
said carrier plate being provided with holes,
keeping the strip of receiving material on the carrier means by sucking away air via
said holes from the space between the carrier plate and the strip of receiving material
lying on the carrier plate using the vacuum means,
applying an ink image to the strip of receiving material using the ink application
means, which strip extends in the direction transverse to the direction of advance
of the receiving material, and
correcting local variations in the distance between the receiving material and the
ink application means using correction means during the movement of the application
means over the strip of receiving material.
[0032] Said correction can be performed by adjusting the moment of ink release by the ink
application means, using timing means as described above.
[0033] In addition or alternatively said local variations can also be corrected by adjusting
the relative velocity with which the ink application means is moved over the carrier
plate for applying the ink image to the strip of receiving material.
[0034] Furthermore, adjusting the distance between the ink application means and the carrier
plate can correct said local variations.
[0035] In a further development, the local variations in the distance between the receiving
material and the ink application means are estimated or determined using at least
one of the characteristics selected from the group comprising: ink characteristics,
receiving material characteristics, ink image characteristics, print mode, carrier
plate characteristics, distance between the ink application means and the carrier
plate, and the velocity of the ink application means with respect to the carrier plate.
Such characteristics may be inputted into a controlling means for controlling the
correction means.
[0036] The invention will be elucidated on the basis of exemplary embodiments shown in the
attached drawings, in which:
Figure 1 is a top view of a detail of an apparatus according to the prior art;
Figure 2 is a cross-sectional view of a detail of the carrier means;
Figures 3A, 3B and 3C are schematic representations of exemplary embodiments according
to the invention;
Figure 4 is a schematic view of an electronic signal for controlling the correction
means; and
Figure 5 is a diagram of the controlling means for controlling the correction means
of the invention.
[0037] The apparatus as shown in figure 1 comprises a transport roller 1 with a transport
nip 2 in a feed path for feeding a receiving material 3 originating from a stock (not
shown). Roller system 1 is formed by a drivable roller with a diameter of about 80
mm and a number of soft rubber contact pressure rollers with a diameter of about 14
mm to provide a slip-free intermittent transport of the receiving material 3 through
the in-line transport nip 2. The feed path in which the transport nip 2 is situated
is formed by guide plate 4 over which the receiving material 3 moves. Guide plate
4 is followed in transport direction by a carrier plate 5 which forms a carrying surface
for a part of the receiving material 3 which is fed thereon. Printing a part of the
receiving material 3 lying on the carrier plate 5 is effected by an ink application
means such as an inkjet printhead 6. One or more printheads may be used for applying
an ink image to the receiving material 3 in a known manner.
[0038] As shown in figure 1, the carrier plate 5 has a profiled form consisting of V-shaped
ribs 7 which extend parallel to the direction of advance of the receiving material
3 over the carrier plate 5. Each rib 7 is formed by a top surface 8, which top surfaces
8 lie in a plane which extends at a short distance d beneath the underside of the
printhead 6 (see figures 3A, 3B and 3C). This distance d is herein referred to as
the distance between the ink application means 7 and the carrier plate 5.
[0039] Between the ribs 7, recesses 9 are formed which serve to prevent contact between
the receiving material 3 on the carrier plate 5 and the printhead 6 moving in a reciprocating
motion 10 over the receiving material 3. The receiving material 3 may locally curl
up, most likely due to moisture absorption during the printing with an aqueous ink
in particular. Any bubbles above the channel shaped recesses 9 can sag therein.
[0040] The carrier plate 5 is provided with holes 12 which are connected beneath the carrier
plate 5 to an air chamber 13 which is connected to vacuum means 14 for sucking away
air via said holes 12 from the space between the carrier plate 5 and a strip of receiving
material 3 lying on the carrier plate 5. In figure 1 these holes 12 are provided in
the top surface 8 of the ribs 7. However, these holes 12 may also be provided in the
channels 9, as depicted in figure 2. Due to the vacuum pressure between the carrier
plate 5 and the receiving material 3, the receiving material 3 is to some extent pulled
in the channels 9 as depicted in figure 1. This situation is schematically depicted
in the cross-section view of figure 2. Here the depth to which the receiving material
3 sags into the channels 9 is indicated by the symbol X. This depth normally is approximately
1 mm, but may be as large as 3 - 4 mm.
[0041] In order to, at least partially, compensate for the local variations in the distance
between the ink application means 6 and the receiving material 3, the apparatus according
to the invention comprises correction means as depicted in the figures 3A, 3B and
3C.
[0042] In a first exemplary embodiment as schematically depicted in figure 3A, the apparatus
according to the invention is provided with timing means 31 for adjusting the moment
of ink release by the printhead 6 during the motion 10 of the printhead 6 over the
receiving material 3 lying on the carrier plate 5.
[0043] In a second exemplary embodiment as schematically depicted in figure 3B, the apparatus
of the invention is provided with speed adjustment means 41, 43 for adjusting the
relative velocity of the ink application means 7 with respect to the carrier plate
5. This relative velocity can be adjusted by translation means 41 which move the carrier
plate 5 in a reciprocating motion 42 in a direction substantially parallel to the
direction of the motion 10 of the printhead 6 over the receiving material 3 lying
on the carrier plate 5. In addition or alternatively said relative velocity can be
adjusted by speed adjustment means 43, which adjust the velocity of the printhead
6 during its motion 10 over the receiving material 3.
[0044] In a third exemplary embodiment as schematically depicted in figure 3C, the apparatus
according to the invention is provided with adjustment means 51, 53 for adjusting
the distance d between the printhead 6 and the carrier plate 5. This distance d can
be adjusted by first movement means 51 for moving the carrier plate 5 in a direction
52 substantially perpendicular to the motion 10 of the printhead 6 over the receiving
material 3 lying on the carrier plate 5. In addition or alternatively said distance
d can be adjusted by second movement means 53 for moving the printhead 6 in a direction
54 substantially perpendicular to the motion 10 of the printhead 6.
[0045] The positions of the channels 9 with respect to the path of the printhead 6 during
its motion 10 over the carrier plate 5 with said channels 9, and the relative velocity
with which the printhead 6 moves over the strip of receiving material 3, are known
or can be determined. The correction means 31, 41, 43, 51, 53 are controllable by
an undulatory electronic signal 60 as depicted in figure 4, wherein the leading 61
and tailing 62 edges of the undulatory signal 60 correspond with downward and upward
slopes of the channels 9 (compare with the channels 9 of figure 2).
[0046] The amplitude A of the signal 60 is adjustable depending on the depth X to which
the receiving material 3 sags into the channels 9. To this end, the above-mentioned
exemplary embodiments of the apparatus according to the invention can be provided
with controlling means 70 as depicted in figure 5. Said controlling means comprises
a microprocessor 71 and memory means 72. Characteristics of the print process are
stored in said memory means 72. Such characteristics of the print process may comprise:
receiving material 3 characteristics, ink characteristics, ink image characteristics,
print mode, carrier plate 5 characteristics, distance between the printhead 6 and
the carrier plate 5, and the velocity of the printhead 6 with respect to the carrier
plate 5. Coupled to said controlling means 70 is a keyboard control panel 74 for inputting
or changing said characteristics in the memory means 72. When, for example, the first
receiving material is replaced by a second receiving material with different characteristics,
the characteristics of the first receiving material as stored in the memory means
72 can be replaced with the characteristics of the second receiving material.
[0047] The microprocessor 71 can determine or derive the depth X to which the receiving
material 3 will sag into the channels 9 from said characteristics of the print process
as stored in the memory means 72. In response to this information, the microprocessor
71 produces or adjusts a control signal, for example the amplitude Amp of the signal
60 as depicted in figure 4, which control signal is sent via an output 75 of the controlling
means 70 to an input 35, 45, 46, 55, 56 of the correction means 31, 41, 43, 51, 53.
1. Apparatus for applying an ink image to a receiving material (3) adapted to be advanced
in a direction of advance, comprising:
ink application means (6) for applying an ink image to a strip of receiving material
(3), which strip extends in a direction transverse to the direction of advance of
the receiving material, wherein the ink application means (6) are movable over the
strip of receiving material (3),
carrier means for keeping said strip in a predetermined position with respect to the
ink application means, which carrier means comprise a carrier plate (5) for carrying
said strip, said carrier plate (5) having recesses (9) and said carrier plate (5)
being provided with holes (12),
vacuum means (14) for sucking away air via said holes (12) from the space between
the carrier plate (5) and a strip of receiving material (3) lying on the carrier plate
(5), characterised by
correction means for correcting local variations in the distance between the receiving
material (3) and the ink application means (6).
2. Apparatus as claimed in claim 1, wherein the correction means comprise timing means
for adjusting the moment of ink release by the ink application means.
3. Apparatus as claimed in claim 2, wherein the timing means are arranged for advancing
the moment of ink release when the ink application means is near a downward slope
of a recess, and for delaying the moment of ink release when the ink application means
is near an upward slope of a recess.
4. Apparatus as claimed in claims 2 or 3, wherein the ink application means are arranged
for moving with uniform velocity over the carrier plate.
5. Apparatus as claimed in any one of the preceding claims, wherein the correction means
comprise speed adjustment means for adjusting a relative velocity between the ink
application means and the carrier plate.
6. Apparatus as claimed in claim 5, wherein the speed adjustment means are arranged for
reducing the relative velocity when the ink application means is near a downward slope
of a recess, and for increasing the relative velocity when the ink application means
is near an upward slope of a recess.
7. Apparatus as claimed in claims 5 or 6, wherein the speed adjustment means comprise
translation means for moving the carrier plate in the direction substantially parallel
to the direction of the strip of receiving material.
8. Apparatus as claimed in claim 7, wherein the translation means are arranged for a
reciprocating movement of the carrier plate.
9. Apparatus as claimed in claims 5, 6, 7 or 8, wherein the speed adjustment means comprise
means for adjusting the velocity of the ink application means.
10. Apparatus as claimed in any one of the preceding claims, wherein the correction means
comprise adjustment means for adjusting the distance between the ink application means
and the carrier plate.
11. Apparatus as claimed in claim 10, wherein the adjustment means comprise first movement
means for moving the carrier plate in a direction for adjusting the distance between
the ink application means and the carrier plate.
12. Apparatus as claimed in claims 10 or 11, wherein the adjustment means comprise second
movement means for moving the ink application means in a direction for adjusting the
distance between the ink application means and the carrier plate.
13. Apparatus as claimed in any one of the preceding claims, wherein the correction means
are controllable by an undulatory electronic signal, wherein the leading and tailing
edges of the undulatory signal correspond with downward and upward slopes of the recesses.
14. Apparatus as claimed in any one of the preceding claims, wherein the apparatus further
comprises controlling means for controlling the correction means depending on at least
one of the characteristics selected from the group comprising: receiving material
characteristics, ink characteristics, ink image characteristics, print mode, carrier
plate characteristics, distance between the ink application means and the carrier
plate, and the velocity of the ink application means with respect to the carrier plate.
15. Apparatus as claimed in claim 14, wherein the receiving material characteristics comprise
at least one of the characteristics selected from the group comprising: the grade,
the type, the thickness, the moisture content, the weight or substance per unit area,
and the sizing.
16. Apparatus as claimed in claim 14, wherein the ink characteristics comprise at least
one of the characteristics selected from the group comprising: the viscosity, wetting
characteristics of the ink.
17. Apparatus as claimed in claim 14, wherein the ink image characteristics comprise at
least one of the characteristics selected from the group comprising: area fraction
covered by ink, pixel density.
18. Apparatus as claimed in claim 14, wherein the print mode comprises at least one selected
from the group comprising: last mode, normal mode, and best mode.
19. Apparatus as claimed in claim 14, wherein the carrier plate characteristics comprise
at least one of the characteristics selected from the group comprising: configuration
and/or profile of the recesses, magnitude of a vacuum pressure generated by the vacuum
means,
20. Apparatus as claimed in claim 19, wherein the apparatus further comprises detection
means for detecting the positions of the recesses with respect to a path of the ink
application means.
21. Apparatus as claimed in any one of the claims 14 - 20, wherein the controlling means
comprise input means for inputting said at least one characteristic.
22. Method for applying an ink image to receiving material (3) using an apparatus adapted
to advance the receiving material (3) in a direction of advance, wherein the method
comprises the steps of:
placing a strip of receiving material (3) on a carrier means in a predetermined position
with respect to an ink application means (6), which carrier means comprise a carrier
plate (5) for carrying said strip, said carrier plate (5) having recesses (9) and
said carrier plate (5) being provided with holes (12),
keeping the strip of receiving material (3) on the carrier means by sucking away air
via said holes (12) from the space between the carrier plate (5) and the strip of
receiving material (3) lying on the carrier plate (5) using vacuum means (14),
applying an ink image to a strip of receiving material (3) using an ink application
means (6), which strip extends in a direction transverse to the direction of advance
of the receiving material (3), characterised by
correcting local variations in the distance between the receiving material (3) and
the ink application means (6) using correction means.
23. Method as claimed in claim 22, wherein the correction means is that comprised in the
apparatus according to any one of claims 1-21.
1. Gerät zum Auftragen eines Tintenbildes auf ein Empfangsmaterial (3), das dazu eingerichtet
ist, in einer Transportrichtung transportiert zu werden, mit:
einer Tintenauftrageinrichtung (6) zum Auftragen eines Tintenbildes auf einen Streifen
des Empfangsmaterials (3), welcher Streifen sich in einer Richtung quer zu der Transportrichtung
des Empfangsmaterials erstreckt, wobei die Tintenauftrageinrichtung (6) über den Streifen
des Empfangsmaterials (3) bewegbar ist,
einer Trägereinrichtung zum Halten des Streifens in einer vorbestimmten Position in
Bezug auf die Tintenauftrageinrichtung, welche Trägereinrichtung eine Trägerplatte
(5) zum Tragen des Streifens aufweist, wobei die Trägerplatte (5) Ausnehmungen (9)
hat und die Trägerplatte (5) mit Löchern (12) versehen ist,
einer Vakuumeinrichtung (14) zum Absaugen von Luft über die Löcher (12) aus dem Raum
zwischen der Trägerplatte (5) und einem auf der Trägerplatte (5) liegenden Streifen
des Empfangsmaterials (3),
gekennzeichnet durch eine Korrektureinrichtung zur Korrektur lokaler Variationen im Abstand zwischen dem
Empfangsmaterial (3) und der Tintenauftrageinrichtung (6).
2. Gerät nach Anspruch 1, bei dem die Korrektureinrichtung eine Zeitsteuereinrichtung
zum Einstellen des Augenblicks der Tintenfreigabe durch die Tintenauftrageinrichtung
aufweist.
3. Gerät nach Anspruch 2, bei dem die Zeitsteuereinrichtung dazu eingerichtet ist, den
Moment der Tintenfreigabe vorzuverlegen, wenn die Tintenauftrageinrichtung sich in
der Nähe eines abwärts geneigten Hanges einer Ausnehmung befindet, und den Moment
der Tintenfreigabe zu verzögern, wenn die Tintenauftrageinrichtung sich in der Nähe
eines aufwärts geneigten Hanges einer Ausnehmung befindet.
4. Gerät nach Anspruch 2 oder 3, bei dem die Tintenauftrageinrichtung dazu eingerichtet
ist, sich mit gleichförmiger Geschwindigkeit über die Trägerplatte zu bewegen.
5. Gerät nach einem der vorstehenden Ansprüche, bei dem die Korrektureinrichtung eine
Geschwindigkeitseinstelleinrichtung aufweist zum Einstellen einer Relativgeschwindigkeit
zwischen der Tintenauftrageinrichtung und der Trägerplatte.
6. Gerät nach Anspruch 5, bei dem die Geschwindigkeitseinstelleinrichtung dazu eingerichtet
ist, die Relativgeschwindigkeit zu reduzieren, wenn sich die Tintenauftrageinrichtung
in der Nähe eines abwärts geneigten Hanges einer Ausnehmung befindet, und die Relativgeschwindigkeit
zu erhöhen, wenn sich die Tintenauftrageinrichtung in der Nähe eines aufwärts geneigten
Hanges einer Ausnehmung befindet.
7. Gerät nach Anspruch 5 oder 6, bei dem die Geschwindigkeitseinstelleinrichtung eine
Translationseinrichtung zum Bewegen der Trägerplatte in der Richtung im wesentlichen
parallel zu der Richtung des Streifens des Empfangsmaterials aufweist.
8. Gerät nach Anspruch 7, bei dem die Translationseinrichtung für eine hin- und hergehende
Bewegung der Trägerplatte eingerichtet ist.
9. Gerät nach Ansprüchen 5, 6, 7 oder 8, bei dem die Geschwindigkeitseinstelleinrichtung
eine Einrichtung zum Einstellen der Geschwindigkeit der Tintenauftrageinrichtung aufweist.
10. Gerät nach einem der vorstehenden Ansprüche, bei dem die Korrektureinrichtung eine
Einstelleinrichtung zum Einstellen des Abstands zwischen der Tintenauftrageinrichtung
und der Trägerplatte aufweist.
11. Gerät nach Anspruch 10, bei dem die Einstelleinrichtung einen ersten Antrieb zum Bewegen
der Trägerplatte in einer Richtung zum Einstellen des Abstands zwischen der Tintenauftrageinrichtung
und der Trägerplatte aufweist.
12. Gerät nach Anspruch 10 oder 11, bei dem die Einstelleinrichtung einen zweiten Antrieb
zum Bewegen der Tintenauftrageinrichtung in einer Richtung zum Einstellen des Abstands
zwischen der Tintenauftrageinrichtung und der Trägerplatte aufweist.
13. Gerät nach einem der vorstehenden Ansprüche, bei dem die Korrektureinrichtung durch
ein wellenförmiges elektronisches Signal steuerbar ist, wobei die vorauslaufenden
und nachlaufenden Flanken des wellenförmigen Signals mit abwärts und aufwärts geneigten
Hängen der Ausnehmungen korrespondieren.
14. Gerät nach einem der vorstehenden Ansprüche, bei dem das Gerät weiterhin eine Steuereinrichtung
aufweist zum Steuern der Korrektureinrichtung in Abhängigkeit von wenigstens einer
der Charakteristiken, die ausgewählt sind aus der Gruppe, die umfasst: Empfangsmaterialcharakteristiken,
Tintencharakteristiken, Tintenbildcharakteristiken, Druckmodus, Trägerplattencharakteristiken,
Abstand zwischen der Tintenauftrageinrichtung und der Trägerplatte, und Geschwindigkeit
der Tintenauftrageinrichtung relativ zu der Trägerplatte.
15. Gerät nach Anspruch 14, bei dem die Empfangsmaterialcharakteristiken wenigstens eine
der Charakteristiken umfassen, die ausgewählt sind aus der Gruppe, die umfasst: die
Qualität, den Typ, die Dicke, den Feuchtigkeitsgehalt, Gewicht oder Materialmenge
je Flächeneinheit, und die Abmessungen.
16. Gerät nach Anspruch 14, bei dem die Tintencharakteristiken wenigstens eine der Charakteristiken
umfassen, die ausgewählt sind aus der Gruppe umfassend: die Viskosität, Benetzungscharakteristik
der Tinte.
17. Gerät nach Anspruch 14, bei dem die Tintenbildcharakteristiken wenigstens eine der
Charakteristiken umfassen, die ausgewählt sind aus der Gruppe umfassend: mit Tinte
bedeckter Flächenanteil, Pixeldichte.
18. Gerät nach Anspruch 14, bei dem der Druckmodus wenigstens einen Modus umfasst, der
ausgewählt ist aus der Gruppe umfassend: letzter Modus, Normalmodus, bester Modus.
19. Gerät nach Anspruch 14, bei dem die Trägerplattencharakteristiken wenigstens eine
der Charakteristiken umfassen, die ausgewählt sind aus der Gruppe umfassend: Konfiguration
und/oder Profil der Ausnehmungen, Größe eines von der Vakuumeinrichtung erzeugten
Unterdruckes.
20. Gerät nach Anspruch 19, bei dem das Gerät weiterhin eine Detektoreinrichtung zum Detektieren
der Positionen der Ausnehmungen in Bezug auf eine Bewegungsbahn der Tintenauftrageinrichtung
aufweist.
21. Gerät nach einem der Ansprüche 14 - 20, bei dem die Steuereinrichtung eine Eingabeeinrichtung
zum Eingeben der genannten wenigstens einen Charakteristik aufweist.
22. Verfahren zum Auftragen eines Tintenbildes auf ein Empfangsmaterial (3) unter Verwendung
eines Gerätes, das dazu eingerichtet ist, das Empfangsmaterial (3) in einer Transportrichtung
zu transportieren, welches Verfahren die folgenden Schritte aufweist:
Platzieren eines Streifens des Empfangsmaterials (3) auf einer Trägereinrichtung in
einer vorbestimmten Position in Bezug auf eine Tintenauftrageinrichtung (6), wobei
die Trägereinrichtung eine Trägerplatte (5) zum Tragen des Streifens aufweist, die
Trägerplatte (5) Ausnehmungen (9) hat und die Trägerplatte (5) Löcher (12) hat,
Halten des Streifens des Empfangsmaterials (3) auf der Trägereinrichtung durch Absaugen
von Luft über die Löcher (12) aus dem Raum zwischen der Trägerplatte (5) und dem Streifen
des Empfangsmaterials (3), der auf der Trägerplatte (5) liegt, mit Hilfe einer Vakuumeinrichtung
(14),
Auftragen eines Tintenbildes auf einen Streifen des Empfangsmaterials (3) unter Verwendung
einer Tintenauftrageinrichtung (6), wobei sich der Streifen in einer Richtung quer
zur Transportrichtung des Empfangsmaterials (3) erstreckt, gekennzeichnet durch
Korrigieren lokaler Variationen im Abstand zwischen dem Empfangsmaterial (3) und der
Tintenauftrageinrichtung (6) unter Verwendung einer Korrektureinrichtung.
23. Verfahren nach Anspruch 22, bei dem die Korrektureinrichtung diejenige ist, die in
dem Gerät nach einem der Ansprüche 1 bis 21 enthalten ist.
1. Appareil d'application d'une image d'encre à un matériau récepteur (3) qui est à même
d'être avancé dans un sens d'avancement, comprenant :
des moyens d'application d'encre (6) pour appliquer une image d'encre à une bande
de matériau récepteur (3), ladite bande s'étendant dans une direction transversale
à la direction d'avancement du matériau récepteur,
dans lequel les moyens d'application d'encre (6) sont mobiles par-dessus la bande
de matériau récepteur (3),
des moyens de transport pour maintenir ladite bande dans une position prédéterminée
par rapport aux moyens d'application d'encre, lesdits moyens de transport comprenant
une plaque de transport (5) pour acheminer ladite bande, ladite plaque de transport
(5) ayant des cavités (9) et ladite plaque de transport (5) étant pourvue de trous
(12),
des moyens à vide (14) pour aspirer via lesdits trous (12) l'air de l'espace compris
entre la plaque de transport (5) et une bande de matériau récepteur (3) se trouvant
sur la plaque de transport (5),
caractérisé par :
des moyens de correction permettant de corriger les variations locales de la distance
entre le matériau récepteur (3) et les moyens d'application d'encre (6).
2. Appareil selon la revendication 1, dans lequel les moyens de correction comprennent
des moyens de synchronisation pour ajuster le moment de la libération d'encre par
les moyens d'application d'encre.
3. Appareil selon la revendication 2, dans lequel les moyens de synchronisation sont
aménagés pour avancer le moment de la libération d'encre lorsque les moyens d'application
d'encre se trouvent à proximité d'une pente descendante d'une cavité et pour retarder
le moment de la libération d'encre lorsque les moyens d'application d'encre se trouvent
proches d'une pente ascendante d'une cavité.
4. Appareil selon les revendications 2 ou 3, dans lequel les moyens d'application d'encre
sont aménagés pour se déplacer à vitesse uniforme par-dessus la plaque de transport.
5. Appareil selon l'une quelconque des revendications précédentes, dans lequel les moyens
de correction comprennent des moyens d'ajustement de vitesse pour ajuster la vitesse
relative entre les moyens d'application d'encre et la plaque de transport.
6. Appareil selon la revendication 5, dans lequel les moyens d'ajustement de vitesse
sont aménagés pour réduire la vitesse relative lorsque les moyens d'application d'encre
sont proches d'une pente descendante d'une cavité et pour augmenter la vitesse relative
lorsque les moyens d'application d'encre sont proches d'une pente ascendante d'une
cavité.
7. Appareil selon les revendications 5 ou 6, dans lequel les moyens d'ajustement de vitesse
comprennent des moyens de translation pour déplacer la plaque de transport dans une
direction sensiblement parallèle à la direction de la bande de matériau récepteur.
8. Appareil selon la revendication 7, dans lequel les moyens de translation sont aménagés
pour un mouvement alternatif de la plaque de transport.
9. Appareil selon les revendications 5, 6, 7 ou 8, dans lequel les moyens d'ajustement
de vitesse comprennent des moyens pour ajuster la vitesse des moyens d'application
d'encre.
10. Appareil selon l'une quelconque des revendications précédentes, dans lequel les moyens
de correction comprennent des moyens d'ajustement pour ajuster la distance entre les
moyens d'application d'encre et la plaque de transport.
11. Appareil selon la revendication 10, dans lequel les moyens d'ajustement comprennent
des premiers moyens de déplacement pour déplacer la plaque de transport dans un sens
permettant d'ajuster la distance comprise entre les moyens d'application d'encre et
la plaque de transport.
12. Appareil selon les revendications 10 ou 11, dans lequel les moyens d'ajustement comprennent
des seconds moyens de déplacement pour déplacer les moyens d'application d'encre dans
un sens permettant d'ajuster la distance entre les moyens d'application d'encre et
la plaque de transport.
13. Appareil selon l'une quelconque des revendications précédentes, dans lequel les moyens
de correction peuvent être commandés par un signal électronique ondulatoire, dans
lequel les bords d'attaque et de fuite du signal ondulatoire correspondent aux pentes
descendantes et ascendantes des cavités.
14. Appareil selon l'une quelconque des revendications précédentes, dans lequel l'appareil
comprend en outre des moyens de commande pour commander les moyens de correction en
fonction d'au moins l'une des caractéristiques choisies dans le groupe comprenant
: les caractéristiques du matériau récepteur, les caractéristiques de l'encre, les
caractéristiques des images d'encre, le mode d'impression, les caractéristiques de
la plaque de transport, la distance entre les moyens d'application d'encre et la plaque
de transport et la vitesse des moyens d'application d'encre par rapport à la plaque
de transport.
15. Appareil selon la revendication 14, dans lequel les caractéristiques du matériau récepteur
comprennent au moins l'une des caractéristiques choisies dans le groupe comprenant
: la qualité, le type, l'épaisseur, la teneur en humidité, le poids ou la substance
par unité de surface et le formatage.
16. Appareil selon la revendication 14, dans lequel les caractéristiques de l'encre comprennent
au moins l'une des caractéristiques choisies dans le groupe comprenant : la viscosité
et les caractéristiques de mouillage de l'encre.
17. Appareil selon la revendication 14, dans lequel les caractéristiques des images d'encre
comprennent au moins l'une des caractéristiques choisies dans le groupe comprenant
: la fraction de surface couverte par l'encre et la densité des pixels.
18. Appareil selon la revendication 14, dans lequel le mode d'impression comprend au moins
un mode choisi dans le groupe comprenant : le dernier mode, le mode normal et le meilleur
mode.
19. Appareil selon la revendication 14, dans lequel les caractéristiques de la plaque
de transport comprennent au moins l'une des caractéristiques choisies dans le groupe
comprenant : la configuration et/ou le profil des cavités ainsi que la grandeur de
la dépression générée par les moyens à vide.
20. Appareil selon la revendication 19, dans lequel l'appareil comprend en outre des moyens
de détection pour détecter les positions des cavités par rapport au trajet des moyens
d'application d'encre.
21. Appareil selon l'une quelconque des revendications 14 à 20, dans lequel les moyens
de commande comprennent des moyens de saisie pour saisir ladite au moins une caractéristique.
22. Procédé d'application d'une image d'encre à un matériau récepteur (3) en utilisant
un appareil qui est à même de faire avancer le matériau récepteur (3) dans un sens
d'avancement, dans lequel le procédé comprend les étapes consistant à :
placer une bande de matériau récepteur (3) sur un moyen de transport dans une position
prédéterminée par rapport à un moyen d'application d'encre (6), ledit moyen de transport
comprenant une plaque de transport (5) pour acheminer ladite bande, ladite plaque
de transport (5) ayant des cavités (9) et ladite plaque de transport (5) étant pourvue
de trous (12),
maintenir la bande de matériau récepteur (3) sur les moyens de transport en aspirant
via lesdits trous (12) l'air de l'espace compris entre la plaque de transport (5)
et la bande de matériau récepteur (3) se trouvant sur la plaque de transport (5) en
utilisant des moyens à vide (14),
appliquer une image d'encre à une bande de matériau récepteur (3) en utilisant un
moyen d'application d'encre (6), laquelle bande s'étend dans une direction transversale
à la direction d'avancement du matériau récepteur (3), caractérisé par :
la correction des variations locales de la distance comprise entre le matériau récepteur
(3) et les moyens d'application d'encre (6) en utilisant des moyens de correction.
23. Procédé selon la revendication 22, dans lequel les moyens de correction sont ceux
compris dans l'appareil selon l'une quelconque des revendications 1 à 21.
REFERENCES CITED IN THE DESCRIPTION
This list of references cited by the applicant is for the reader's convenience only.
It does not form part of the European patent document. Even though great care has
been taken in compiling the references, errors or omissions cannot be excluded and
the EPO disclaims all liability in this regard.
Patent documents cited in the description