Claims
- 1. An ink fountain mechanism for adjustably metering the thickness of the layer of ink in a plurality of zones axially across an ink receiving fountain roller, comprising:
(a) a main beam that extends the length of the fountain roller; (b) a plurality of metering blocks, horizontally aligned and axially adjacent to one another and each having an upper surface adjustably spaced from the ink receiving fountain roller; (c) a plurality of adjustment bolts having heads, each separately and threadably engaged with each of the plurality of metering blocks, the adjustment bolts slideably supported in the main beam that extends the length of the fountain roller; (d) a plurality of cams pivotably attached to the main beam and positioned adjacent to the heads of each of the adjustment bolts, the cams are engaged with the heads of the adjustment bolts and are manually actuatable between a minimum position, providing a minimum ink metered thickness, and a maximum position, providing maximum metered ink thickness; (e) a plurality of levers attached to the cams for manually actuating the cams, the levers continuously movable between the minimum and maximum positions to provide substantially continuous metering of the thickness of ink in a range between the minimum and the maximum ink thickness; and (f) an interface cap constructed of a material selected to provide non-binding frictional sliding contact between the cam and the interface cap and wherein the size, shape and materials of the cap at the interface between the interface cap and the cam are selected and constructed so that the cam lever can be manually moved through the range of ink thickness metering positions, yet will remain in any desired metering position by the frictional contact between the cam and the interface cap and wherein the interface cap includes a socket for receiving the bolt head for rotation therein and includes at least one friction button projecting inwardly from a side of the socket so that the interface cap is held in place on the bolt head and the bolt head can rotate in the socket so that the bolt head effectively the interfaces against the cam through the interface cap.
- 2. The ink fountain mechanism of claim 1 wherein the interface cap further comprises a channel sized for receiving the cam and having parallel sides with a beveled edge exposed toward the cam for guiding the cam into the channel during assembly.
- 3. The ink fountain mechanism of claim 2, further comprising a interface cap constructed of a material selected to provide non-binding frictional sliding contact between the cam and the interface cap, the interface cap having an orifice through it, and wherein the bolt head comprises a cap screw head that interfaces with the cam through the interface cap and an adjustment tool comprising an elongate wrench sized for accessing the cap head of the bolt through the cam, through the mounting shaft and through the interface cap.
- 4. An ink fountain mechanism for adjustably metering the thickness of the layer of ink in a plurality of zones axially across an ink receiving fountain roller, comprising:
(a) a main beam extending along the length of the fountain roller and supporting an ink reservoir; (b) a plurality of metering blocks, horizontally aligned and axially adjacent one another and each having an upper surface adjustably spaced from the ink receiving fountain roller and below the ink reservoir; (c) a liner forming the bottom of the reservoir and having a front edge extending to and along the fountain roller and supported from below by the plurality of metering blocks; (d) a plurality of adjustment bolts having heads, each separately and threadably engaged with each of the plurality of metering blocks, the adjustment bolts slideably supported in the main beam that extends the length of the fountain roller; (e) a plurality of cams pivotally attached to the main beam and positioned adjacent to the heads of each of the adjustment bolts, the cams are engaged with the heads of the adjustment bolts and are manually actuatable between a minimum position, providing a minimum ink metered thickness, and a maximum position, providing maximum metered ink thickness; (f) a plurality of levers attached to the cams for manually actuating the cams, the levers continuously movable between the minimum and maximum positions to provide substantially continuous metering of the thickness of ink in a range between the minimum and the maximum ink thickness; and (g) non-tilting cheeks removably held on either side of the ink fountain.
- 5. The ink fountain mechanism of claim 4 wherein the non-tilting cheeks further comprising;
(a) a curved surface for slidably sealing against an arc of the fountain roller; (b) a flat bottom surface for sealing against the liner of the ink reservoir; and (c) a side surface into which a groove is formed, the groove having sides, rounded ends and a flat bottom, and wherein the groove has a first open portion and a second portion with a rim projecting partially inward from the sides so that the head of a stud may be inserted into the open portion of the groove and slid to engage with the rim thereby preventing the cheek from tilting relative to the stud.
- 6. The ink fountain mechanism of claim 5, wherein the metering blocks comprise vertical side surfaces and a planer top support surface, wherein the metering blocks are positioned side-by-side each other with a small gap therebetween, so that the adjacent planer top support surfaces of the metering blocks define a substantially continuous support surface with independently adjustable clearance distances from the fountain roller at each metering block along the length of the fountain roller.
- 7. The ink fountain mechanism of claim 5, further comprising an ink liner supported along the substantially continuous support surface formed by the planer top surfaces of the metering blocks, the ink liner comprising a thin sheet of resilient and flexible material.
- 8. The ink fountain mechanism of claim 7, wherein the thin sheet of flexible resilient material of the ink liner comprises a sheet of plastic material.
- 9. The ink fountain mechanism of claim 8, wherein the thin sheet of flexible resilient plastic material of the ink liner comprises a sheet of polyester about 7 mils thick.
- 10. The ink fountain mechanism of claim 4, further comprising an interface cap held on the head of the adjustment bolt with a socket and a projection into the socket, and further comprising a return spring held in the main beam so that it pushes against a bottom of the adjustment bolt head so that the interface cap held on the top of the adjustment bolt head is biased to interface through against the cam.
- 11. The ink fountain mechanism of claim 10 wherein the interface cap constructed of a material selected to provide non-binding frictional sliding contact between the cam and the interface cap and wherein the size, shape and materials of the cap at the interface between the cap and the cam are selected and constructed so that the cam lever can be manually moved through the range of ink thickness metering positions, yet will remain in any desired metering position by the frictional contact between the cam and the cap.
- 12. The ink fountain mechanism of claim 11, wherein the interface cap further comprise a channel sized for receiving the cam between two walls of the channel and having beveled interior edged along the channel to permit the cam to easily align with the cap during assembly.
- 13. An ink fountain mechanism for adjustably metering the thickness of the layer of ink in a plurality of zones axially across an ink receiving fountain roller, comprising:
(a) a main beam that extends substantially the length of the fountain roller; (b) a plurality of metering blocks, horizontally aligned and axially adjacent to one another and each having an upper surface adjustably spaced from the fountain roller; (c) a plurality of adjustment bolts having heads, each separately and threadably engaged with each of the plurality of metering blocks, the adjustment bolts slideably supported in the main beam that extends the length of the fountain roller; (d) a plurality of cams pivotably attached to the main beam and positioned adjacent to the heads of each of the adjustment bolts, the cams are engaged with the heads of the adjustment bolts and are manually actuatable between a minimum position, providing a minimum ink metered thickness, and a maximum position, providing maximum metered ink thickness; and (e) a plurality of levers attached to the cams for manually actuating the cams, the levers continuously movable between the minimum and maximum positions to provide progressive metering of the thickness of ink in a range between the minimum and the maximum ink thickness; and (f) a mounting assembly including fountain side frames and pivot blocks, the mounting assembly pivotally mounted between the ink fountain mechanism and a printing press and having a lockable position for holding the ink fountain with a replaceable liner against the fountain roller and having a second pivot position at which the replaceable liner is spaced away from the fountain roller for convenient removal of the replaceable liner.
- 14. The ink fountain mechanism of claim 13 wherein the non-tilting cheeks further comprising;
(d) a curved surface for slidably sealing against an arc surface of the fountain roller; (e) a flat bottom surface for sealing against the liner of the ink reservoir; and (f) a side surface, into which a slot is formed, the slot having sides, rounded ends and a lip extending partially into the slot, and wherein the slot has a first open portion and a second portion with lip projecting partially inward from the sides so that the head of a stud may be inserted into the open portion of the slot and slid to engage with the rim thereby preventing the cheek from tilting relative to the stud.
RELATED APPLICATIONS
[0001] This is a continuation-in-part application of U.S. Utility patent application Ser. No. 10/314,738, filed on Dec. 9, 2002, and U.S. provisional application 60/467,384, titled NON-TILT CHEEKS FOR INK FOUNTAIN ASSEMBLY, both incorporated herein by reference for all legitimate purposes and relied upon for priority.
Provisional Applications (1)
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Number |
Date |
Country |
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60467384 |
May 2003 |
US |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
10314738 |
Dec 2002 |
US |
Child |
10837901 |
May 2004 |
US |