[0001] This invention relates generally to printing presses, and more particularly to a
novel and improved system for metering the supply of ink applied to a fountain roll.
[0002] It is known to provide an assembly of metering segments extending across a printing
press fountain roll to meter the ink on such roll. Such segments are normally individually
adjustable toward and away from the roll so that the amount of ink applied to each
zone on the roll aligned with each segment can be individually controlled. Examples
of such systems are illustrated in United States Letters Patents Nos. 3,312,166; 3,559,573;
3,978,788; 4,000,695; and 4,058,058. In some such systems, such as those illustrated
in United States Letters Patents Nos. 4,241,691 and 4,328,748, a spring is employed
to bias the metering segments toward the fountain roll and in the latter of such above-mentioned
patents, a power actuator is employed to overcome the spring force and pull the metering
segments back from the roll.
[0003] In order for such systems to function well, it is necessary to position the metering
edge with respect to the roll surface with extreme accuracy. For example, if the metering
edge is not exactly parallel to the roll surface, the ink film will vary in thickness
across the blade's width. Further, if a screw-type actuator is used to move the metering
segments toward and away from the fountain roll, backlash or clearance of the screw
threads can result in poor control of the ink film thickness.
[0004] There are several important aspects to the present invention. In accordance with
one important aspect of the invention, a novel and improved metering segment positioning
system is provided. Such system provides a spring applying a spring force to the metering
segment, urging the associated segments toward the fountain roll surface in combination
with a screw-type actuator which operates to adjust the spacing between the metering
edge of the metering segment and the fountain roll surface.
[0005] Extreme accuracy of the position of the metering segments is provided in accordance
with this aspect of this invention because the spring provides a preload on the actuator
which takes up all of the clearances in the threads and in the connections between
the actuator and the segments and base. The spring, therefore, eliminates backlash-caused
positional inaccuracy of the metering segments, as well as any positional inaccuracy
resulting from clearances in the various connections. This allows the use of actuator
parts which need not be manufactured with extreme precision without the loss of accurate
metering. Consequently, the manufacturing costs are reduced and a reasonable amount
of wear can be tolerated, so maintenance costs are also reduced.
[0006] The actuator system is also arranged so that it cannot cause a metering segment to
engage the fountain roll surface with excessive force, and thereby prevents unnecessary
damage to either part. In accordance with the illustrated embodiment of this invention,
the maximum force that may be applied to the metering segment in the direction of
the fountain roll surface is the force of the spring, and the actuator screw cannot
apply a force to the metering segment in the direction of the fountain roll surface.
[0007] In accordance with another aspect of this invention, a pivot connection is provided
between the actuator and the metering segment in which the only force that can be
applied from the actuator to the metering segment is in the direction toward or away
from the surface of the fountain roll. Therefore, the metering segments of the system
are free to align themselves with respect to the fountain roll surface. Such structural
arrangement allows the metering segments to float within limits and to compensate
for variations in the size and shape of the metering segments resulting from manufacturing
tolerances or the like.
[0008] In accordance with still another aspect of this invention, a novel and improved system
is provided in which the metering segments can be easily removed and replaced without
any substantial disassembly of the fountain structure. In the illustrated embodiment,
metering segment removal is accomplished by simply pivoting the fountain down away
from the fountain roll so as to provide access to the metering segments and threading
the metering segment off the end of the drive screw of the actuator.
[0009] These and other aspects of the invention are illustrated in the accompanying drawings,
and are more fully described in the following specification.
[0010]
FIG. 1 is a side elevation of an ink fountain in accordance with the present invention,
with parts removed for purposes of simplification of the drawings;
FIG. 2 is a fragmentary view taken along line 2-2 of FIG. 1 illustrating the actuation
system for the metering segment;
FIG. 3 is a side elevation of the actuator system in longitudinal section; and
FIG. 4 is a view similar to FIG. 1 in which the fountain trough is lowered to permit
removal and replacement of metering segments.
[0011] FIG. 1 illustrates an ink fountain in accordance with the present invention in its
normal operative position. The fountain includes a frame or housing 10 which is journaled
on a pivot 11 and is releasably locked in its operative position by a toggle assembly
12. In such operative position, metering segments 13 are positioned adjacent to the
surface 14 of a fountain roll 16. The fountain roll is supported on a shaft 17 for
rotation about the axis of such shaft.
[0012] When the fountain roll rotates in an anti-clockwise direction as illustrated in FIG.
1, ink contained within the ink trough, indicated generally at 18, is carried along
the surface 14 of the fountain roll past the metering edge 19 of the metering segments
for subsequent transfer to other rolls (not illustrated).
[0013] A plurality of similar metering segments 13 are positioned in alignment along the
length of the housing 10 and cooperate to establish the desired film thickness of
the ink on the surface 14. The individual metering segments are individually adjustable
toward and away from the surface 14 so as to permit vari- ations in the ink film thickness
at various zones along the length of the fountain roll adjacent to the individu- al
metering segments.
[0014] Referring to FIGS. 2 and 3, the metering segments 13 are rectangular blocks providing
an upper surface 21 and a parallel lower surface 22, the latter of which engages a
support surface 23 on the housing 10. The metering edge 19 is formed by the intersection
of the upper surface 21 and a forward end surface 24.
[0015] A spacer plate 26 is positioned across the housing 10 behind the segments 13 and
is also supported on the surface 23 of the housing 10. The thickness of the spacer
plate 26 is slightly greater than the thickness of the metering segments 13 so that
a cover plate 27 mounted on the upper surface of plate 26 extends along the upper
surface 21 of the metering segments 13 with slight clearance so that the metering
segments can be adjusted. The cover plate and the surface 23 cooperate to provide
opposed guide surfaces which guide the metering segments in their movement toward
and away from the fountain roll surface 14.
[0016] The spacer plate 26 is provided with a step bore 31 in alignment with the center
of each of the metering segments 13 providing a shoulder 32 spaced back from the rearward
surface 33 of the metering segments 13. A spring 34 is positioned within the step
bore 31 and extends between the shoulder 32 and the rearward surface 33. The spring
34 is sized so that it is compressed in position and exerts a spring force on the
associated metering segment 13, urging such metering* segment in a direction toward
the fountain roll surface 14.
[0017] A screw actuator is provided for each of the metering segments and includes a screw
36 provided with threads 37 at its forward end. Such screw 36 extends with clearance
through the step bore 31 and the spring 34 into a blind bore 38 in the associated
metering segment 13. Such blind bore 38 is sized to provide clearance with respect
to the screw 36.
[0018] A nut 39 provides a threaded bore 41 which receives the threads 37 of the screw 36.
Such nut is provided with a cylindrical outer surface 42 which is positioned in a
cross bore 43 in the associated metering segment 13. Such cylindrical nut and cross
bore provide a pivot connection between the nut 39 and the associated metering segment
13. Further, the height of the nut 39 is selected to be less than the thickness of
the metering segment 13, as best illustrated in FIG. 3, so that the nut is free to
float within the cross bore 43.
[0019] A shoulder 46 is provided on the rearward end of the screw 36 and is normally held
by the spring 34 in engagement with the rearward surface 47 of the spacer plate 26.
Engagement between the shoulder 46 and the surface 47 limits the movement of the screw
36 to the right (as viewed in FIGS. 2 and 3) to the position illustrated in such figures.
However, the structure of the screw is such that the screw can move against the action
of the spring 34 to the left from the illustrated position, as discussed in greater
detail below.
[0020] In order to adjust the metering segments 13 toward and away from the fountain roll,
each screw is provided with a motor 51 providing an output shaft 52 (illustrated in
FIG. 3) which fits into a bore 53 in the outer end 54 of the screw and provides a
cross pin 56 which is positioned in an axial slot 57 in the end of the screw. In its
position, the cross pin 56 is spaced from the inner end of the slot and the drive
shaft 52 is spaced from the inner end of the bore 53 so that the motor allows the
screw 36 to move to the left from the illustrated position.
[0021] With the illustrated structure, each of the springs 34 provides a spring bias on
the associated metering segment urging such metering segment toward the surface 14
of the fountain roll. The screw 36 in cooperation with a nut 39, however, operates
to overcome the action of the spring 34 and moves the metering segment 13 against
the action of the spring away from the surface 14 of the fountain roll 16 to the desired
adjusted position. In such condition, however, all of the backlash in the threads
of the screw 36 and nut 39 are taken up by the force of the spring. Further, any looseness
between the nut 39 and the cross bore 43 is also taken up by the action of the spring.
Consequently, each metering segment 13 is precisely positioned with respect to the
surface 14 by the screw 36 and nut 39 associated therewith.
[0022] In order to assure that all clearances and backlash are taken up, each spring 34
is selected to provide a force sufficient to overcome any hydrodynamic forces on the
blade and to assure that the position of the metering segment is accurately and precistely
determined by the adjustment of the associated actuator system.
[0023] It should be noted that excessive forces cannot be developed by the adjustment system
of the metering segments. If the screw 36 is rotated in an extending direction after
the associated metering segment engages the fountain roll, the screw merely moves
back and the shoulder 46 lifts away from the rearward surface 47....-Consequently,
the maximum force of engagement between the edge 19 of the metering segment and the
surface 14 is that force which is developed by the spring. Such force is incapable
of causing material damage to the fountain roll or the metering segment. The spring
system provided in accordance with the present invention has the advantage of taking
up all clearances and backlash so as to create precise positioning of the blades and
also ensures that the blade cannot be forced into damaging contact with the fountain
roll.
[0024] Further, with the structure in which the nut is cylindrical and is positioned in
a pivotal manner within the cross bore 43, the actuator cannot exert any forces on
the associated metering segment except forces in the direction of the axis of the
screw. Consequently, each of the metering segments is free to float with respect to
the trough housing assembly and to align itself properly with the surface 14 of the
fountain roll. Consequently, slight imperfections in the dimensional accuracy of the
various components of the system do not adversely effect the accuracy of the metering
of the ink.
[0025] Preferably the metering segments are sized as to provide a small amount of lateral
clearance within the assembly and such clearance is filled with a grease to prevent
leakage of the ink. Further, a greasing system substantially as illustrated in U.S.
Letters Patent No. 4,000,695 may be utilized to ensure that a good coating of grease
is maintained along the various surfaces of the metering segments to prevent objectionable
leaking of ink through the clearances between mating surfaces. Such patent is incorporated
by reference for such disclosure.
[0026] As best illustrated in FIG. 4, the toggle 12 can be released to allow the housing
10 to pivot down around the pivot 11 to a lowered or service position illustrated
in which the metering segments can be easily removed. In such position, the cover
plate is spaced back from the fountain roll a distance at least as great as the length
of the metering segments. When seggment removal is required, the screw associated
with the particular metering segment that is to be removed is rotated until the nut
39 threads off the end of the screw 36. The segment is then merely lifted out, as
illustrated in phantom, and removed from the machine. Subsequently, a replacement
metering segment can be reinstalled and coupled by merely threading the screw into
the nut mounted within the metering segment. After reinstallation or servicing of
the metering segments, the housing 10 is raised up to its operative position of FIG.
1 and the toggle 12 locks it in such position.
[0027] With this system in which the housing assembly can be dropped down as a unit, it
is a simple matter to service the metering segments without any substantial disassembly
of the remaining components of the system.
[0028] Although the preferred embodiment of this invention has been shown and described,
it should be understood that various modifications and rearrangements of the parts
may be resorted to without departing from the scope of the invention as disclosed
and claimed herein.
1. An ink fountain for printing presses comprising a fountain roller journaled for
rotation, an ink trough adjacent to said roller, a plurality of metering segments
mounted on said ink trough for motion along a line of movement toward and away from
the periphery of said fountain roller, said fountain roller in combination with said
trough and metering segments defining an ink reservoir for containing ink which coats
the surface of said fountain roller as said fountain roller rotates, spring means
urging said metering segments along said line of movement, and screw thread actuators
associated with each metering segment providing a screw and a nut connected between
said trough and associated metering segments operable upon relative rotation between
said screw and nut in one direction to overcome the force of said spring means and
move said metering segments in one direction along said line of movement and operable
upon relative rotation between said screw and nut in the opposite direction to allow
said spring means to move said metering segments in the opposite direction along said
line of movement, said spring means removing backlash from said actuator and its connections
with said trough and metering segments so that the rotational position of said screw
and nut precisely positions said metering segment relative to said fountain roller.
2. An ink fountain as set forth in claim 1, wherein said opposite direction is toward
said fountain roller, and said actuator is incapable of exerting a force on said metering
segment in the direction of said fountain roller.
3. An ink fountain as set forth in claim 2, wherein the force of said springs exceeds
the hydrodynamic forces of the ink on said metering segments.
4. An ink fountain as set forth in claim 1, wherein the maximum force of said metering
segments on said fountain rollers is the force of said springs.
5. An ink fountain as set forth in claim 1, wherein said nuts are connected to the
associated metering segments, and said screws provide radially extending surfaces
engaging mating surfaces on said trough, said spring normally maintaining engagement
between said radially extending surfaces and said mating surfaces.
6. An ink fountain as set forth in claim 5, wherein motors are connected to rotate
said screws, the connection between associated screws and motors allowing relative
axial motion therebetween.
7. An ink fountain as set forth in claim 5, wherein said nuts are connected to associated
metering segments by a pivot connection so that said metering segments are free to
align themselves with respect to said fountain roller.
8. An ink fountain as set forth in claim 5, wherein said metering segments are removable
by threading the associated nuts off the associated screws.
9. An ink fountain as set forth in claim 8, wherein said trough is pivotally mounted
for movement between an operative position and a service position, and said metering
segments are removable from said trough without disassembly thereof while said trough
is in said service position.
10. An ink fountain for printing presses comprising a fountain roller journaled for
rotation, an ink trough adjacent to said roller, a plurality of metering segments
mounted on said ink trough for motion along a line of movement toward and away from
the periphery of said fountain roller, said fountain roller in cooperation with said
trough and metering segments defining an ink reservoir for containing ink which coats
the surfaces of the fountain roller as said fountain roller rotates, and screw thread
actuators associated with each metering segment providing a nut pivotally connected
to an associated metering segment and a screw connected to said trough, relative rotation
between said screw and nut in one direction moving said associated metering segments
toward said fountain roller and relative rotation between said screw and nut in the
other direction moving the associated metering segments away from said fountain roller,
said pivotal connection allowing said metering segments to align themselves with respect
to said fountain roller.
11. An ink fountain as set forth in claim 10, wherein said nuts are formed with a
cylindrical exterior surface positioned within a cross-bore in said metering segments
to provide said pivotal connection.
12. An ink fountain for printing presses comprising a frame, a fountain roller journaled
on said frame, an ink trough journaled on said frame for movement between an operative
position and a service position, a plurality of metering segments mounted on said
ink trough for motion along a line of movement toward and away from the periphery
of said fountain roller, said trough when in said operative position cooperating with
said fountain roller and metering segments to define an ink reservoir for containing
ink which coats the surface of said fountain roller as said fountain roller rotates,
said trough providing opposed substantially parallel guide surfaces which engage opposite
sides of said metering segments and guide such segments in said line of movement,
movement of said trough to said service position moving at least one of said opposed
guide surfaces away from said fountain roller to allow removal of said metering segments
without substantial disassembly of said trough.
13. An ink fountain as set forth in claim 12, wherein a screw and nut actuator is
connected between said trough and each of said metering segments, each actuator providing
a nut connected to the associated metering segment which is threaded off the associated
screw for removal of metering segments from said trough.
14. An ink fountain as set forth in claim 13, wherein lock means are provided to releasably
lock said trough in said operative position.