[0001] The present invention relates to a liquid transfer apparatus for transferring liquid
to at least one roller of a sheet printing or coating apparatus. The invention relates
particularly, but not exclusively, to an apparatus for applying ink to a sheet printing
or coating apparatus.
[0002] Sheet printing apparatus, for example for printing sheet metal, apply ink via ink
transfer rollers to an ink application roller which then applies ink to a sheet of
metal to be printed. In the case of printing artwork consisting of a detailed image
surrounded by a densely printed background (known as picture framed artwork), undesirable
abrupt tone changes can arise. It is known to alleviate this problem by causing oscillation
of one or more of the ink transfer rollers in a direction parallel to its respective
axis of rotation. This oscillation is achieved by means of gears connected to the
ink application roller, the gears driving a cam which in turn drives a cam follower
to cause oscillation of one or more ink transfer rollers in a direction along its
respective axis of rotation. Phase adjustment of the oscillation relative to the rotational
phase of the ink application roller can be achieved by means of a separate mechanical
phase shifting element which can also be motorised.
[0003] Such an arrangement is shown in Figure 1. An ink application apparatus 2 for a sheet
printing apparatus (not shown) transfers ink from an ink reservoir (not shown) via
ink transfer rollers 4, 6, 8, 10 to an ink application roller 12 which in turn applies
ink to a sheet (not shown) to be printed. The ink transfer rollers 4, 6, 8 are pivotally
mounted to a frame 14, which can in turn pivot about pivot axis 16. A drive roller
18 having a cam surface 20 is connected via gears (not shown) to the ink application
roller 12 so that its rotation is synchronised with that of the ink application roller
12. The cam surface 20 of the drive roller 18 engages a cam follower 22 of ink transfer
roller 4 to cause reciprocating motion of the frame 14 about pivot axis 16. This in
turn causes reciprocating linear motion of the ink transfer rollers 4, 6, 8 about
their respective rotation axes.
[0004] This arrangement suffers from the drawback that the gears implementing the oscillation
are expensive to produce and offer limited flexibility and control of the oscillation
since the cooperating cam surface and cam follower are continuously driven by means
of permanent connection via gears to the ink application roller 12. The existing arrangement
also has the drawback that the motion profile of the ink transfer rollers 4, 6, 8
is limited because it is largely defined by the fixed gears in combination with the
cam design.
[0005] Preferred embodiments of the present invention seek to overcome one or more of the
above disadvantages of the prior art.
[0006] According to an aspect of the present invention, there is provided a liquid transfer
apparatus for transferring liquid to at least one roller of a sheet printing or sheet
coating apparatus, the liquid transfer apparatus comprising:-
a plurality of liquid transfer rollers for transferring a liquid, to be applied to
a sheet, from at least one liquid inlet to a liquid application roller for applying
liquid to the sheet;
at least one motor for causing reciprocating motion of at least one said liquid transfer
roller in a direction substantially parallel to an axis of rotation thereof; and
control means for receiving a first input signal dependent on a rotational position
of said liquid application roller and for controlling operation of at least one said
motor in dependence on said first input signal.
[0007] By providing control means for receiving a first input signal dependent on a rotational
position of the liquid application roller and for controlling operation of a motor
in dependence on the first input signal, this provides the advantage of enabling motion
of the liquid transfer rollers to be controlled with greater flexibility and more
precisely, which in turn leads to improved print quality. Print quality can also be
improved by selection of the location on the sheet of ink tonal disturbances occurring
as a result of improved fluid transfer at the dwell points of reciprocating motion
of the liquid transfer rollers, for example by arranging the tonal disturbance to
be located at the plate gap. In addition, the advantage is provided of avoiding the
use of gear mechanisms, thereby reducing the cost of manufacture of the apparatus.
[0008] The apparatus may further comprise drive means adapted to be actuated by at least
one said motor for causing said reciprocating motion of at least one said liquid transfer
roller.
[0009] The drive means may comprise at least one lever pivotably mounted to a respective
pivot axis such that reciprocating pivoting motion of said lever about said axis causes
reciprocating motion of at least one said liquid transfer roller in a direction substantially
parallel to an axis of rotation thereof.
[0010] This provides the advantage of enabling motion of a plurality of liquid transfer
rollers to be caused by a single motor.
[0011] Reciprocating pivoting motion of at least one said lever about the corresponding
said pivot axis may cause reciprocating movement of a plurality of said fluid transfer
rollers.
[0012] The drive means may comprise at least one reciprocating member adapted to cause reciprocating
pivoting motion of at least one said lever.
[0013] The drive means may comprise at least one rotating member having at least one cam
member adapted to cause reciprocating motion of at least one respective cam follower.
[0014] The control means may be adapted to receive a second input signal dependent on content
of an image to be printed to a sheet and to control at least one said motor in dependence
on said second input signal.
[0015] This provides the advantage of enabling reciprocating motion of the rollers to be
better matched to the image to be printed, thereby further improving image quality.
[0016] The apparatus may further comprise second signal generating means for generating
said second input signal.
[0017] The apparatus may further comprise image scanning means for scanning said image and
generating said second input signal.
[0018] According to another aspect of the present invention, there is provided a computer
program product adapted to be executed by a computer to control a liquid transfer
device as defined above, the computer program product comprising first computer code
executable by a computer cause said control means to receive a first input signal
dependent on a rotational position of said liquid application roller and to control
operation of at least one said motor in dependence on said first input signal.
[0019] The computer program product may further comprise second computer code executable
by a computer to cause said control means to receive a second input signal dependent
on content of an image to be printed to a sheet and to control at least one said motor
in dependence on said second input signal.
[0020] The computer program product may further comprise third computer code executable
by a computer for generating said second input signal.
[0021] The computer program product may further comprise fourth computer code executable
by a computer to cause said image scanning means to scan said image and generate said
second input signal.
[0022] A preferred embodiment of the invention will now be described, by way of example
only and not in any limitative sense, with reference to the accompanying drawings,
in which:-
Figure 1 is a side view of a known ink transfer roller arrangement; and
Figure 2 is a side view of an ink transfer apparatus embodying the present invention.
[0023] Referring to Figure 2, an ink transfer apparatus 102 embodying the present invention
transfers ink from an ink reservoir (not shown) via a series of ink transfer rollers
104, 106, 108 to an ink application roller 110 which in turn applies the ink to a
sheet of metal (not shown). A controller (not shown) receiving first input signals
from a detector (not shown) to provide control signals dependent upon the rotational
position of the ink application roller 110 controls a motor 112 which drives a crankshaft
114 to cause reciprocating motion of a drive cylinder 116 in a direction generally
parallel to its axis of rotation 118. The drive cylinder 116 is connected to first
ends of respective levers 120, 122, 124, each of which can pivot about a respective
pivot axis 126, 128, 130, the second ends of the levers 120, 122, 124 being connected
respectively to ink transfer roller 104 and reciprocating cylinders 132, 134.
[0024] Each of the reciprocating cylinders 132, 134 can execute oscillating motion in a
direction generally parallel to its longitudinal axis and is connected to a first
end of respective lever 136, 138 which can pivot about a respective pivot axis 140,
142. The levers 136, 138 are connected at their respective second ends to ink transfer
rollers 106, 108 respectively such that reciprocating linear motion of reciprocating
cylinders 132, 134 causes reciprocating linear motion of the ink transfer rollers
106, 108 in a direction generally parallel to their respective axes of rotation 144,
146.
[0025] The controller can also receive second input signals from an image scanner (not shown)
which scans the image to be printed, and generates the second input signals by means
of image interpretation software, such as software used for making lithographic printing
plates. The controller then controls operation of the motor 112 in dependence on the
2
nd input signals.
[0026] Because the ink transfer rollers 104, 106, 108 are not driven continuously by means
of gears connected to the ink application roller 110, but are driven by the motor
112 under the action of the controller, the nature of the reciprocating linear motion
of the ink transfer rollers 104, 106, 108 has a much greater flexibility of control.
For example, the reciprocating linear motion can be driven intermittently to concentrate
its effects on a selected region of the metal sheet being printed, and a much wider
range of motion profiles can be achieved than is possible with cam and gear mechanisms
driven by the ink application roller 110.
[0027] It will be appreciated by persons skilled in the art that the above embodiment has
been described by way of example only and not in any limitative sense, and that various
alterations and modifications are possible without departure from the scope of the
invention as defined by the appended claims.
1. A liquid transfer apparatus for transferring liquid to at least one roller of a sheet
printing or sheet coating apparatus, the liquid transfer apparatus comprising:-
a plurality of liquid transfer rollers for transferring a liquid, to be applied to
a sheet, from at least one liquid inlet to a liquid application roller for applying
liquid to the sheet;
at least one motor for causing reciprocating motion of at least one said liquid transfer
roller in a direction substantially parallel to an axis of rotation thereof; and
control means for receiving a first input signal dependent on a rotational position
of said liquid application roller and for controlling operation of at least one said
motor in dependence on said first input signal.
2. An apparatus according to claim 1, further comprising drive means adapted to be actuated
by at least one said motor for causing said reciprocating motion of at least one said
liquid transfer roller.
3. An apparatus according to claim 2, wherein the drive means comprises at least one
lever pivotably mounted to a respective pivot axis such that reciprocating pivoting
motion of said lever about said axis causes reciprocating motion of at least one said
liquid transfer roller in a direction substantially parallel to an axis of rotation
thereof.
4. An apparatus according to claim 3, wherein reciprocating pivoting motion of at least
one said lever about the corresponding said pivot axis causes reciprocating movement
of a plurality of said fluid transfer rollers.
5. An apparatus according to claim 3 or 4, wherein the drive means comprises at least
one reciprocating member adapted to cause reciprocating pivoting motion of at least
one said lever.
6. An apparatus according to any one of claims 2 to 5, wherein the drive means comprises
at least one rotating member having at least one cam member adapted to cause reciprocating
motion of at least one respective cam follower.
7. An apparatus according to any one of the preceding claims, wherein the control means
is adapted to receive a second input signal dependent on content of an image to be
printed to a sheet and to control at least one said motor in dependence on said second
input signal.
8. An apparatus according to claim 7, further comprising second signal generating means
for generating said second input signal.
9. An apparatus according to claim 7 or 8, further comprising image scanning means for
scanning said image and generating said second input signal.
10. A computer program product adapted to be executed by a computer to control a liquid
transfer device according to any one of the preceding claims, the computer program
product comprising first computer code executable by a computer cause said control
means to receive a first input signal dependent on a rotational position of said liquid
application roller and to control operation of at least one said motor in dependence
on said first input signal.
11. A computer program product according to claim 10, further comprising second computer
code executable by a computer to cause said control means to receive a second input
signal dependent on content of an image to be printed to a sheet and to control at
least one said motor in dependence on said second input signal.
12. A computer program according to claim 11, further comprising third computer code executable
by a computer for generating said second input signal.
13. A computer program product according to claim 11 or 12, further comprising fourth
computer code executable by a computer to cause said image scanning means to scan
said image and generate said second input signal.