US2987994A - Mandrel and cylinder for gravure printing - Google Patents

Mandrel and cylinder for gravure printing Download PDF

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US2987994A
US2987994A US755665A US75566558A US2987994A US 2987994 A US2987994 A US 2987994A US 755665 A US755665 A US 755665A US 75566558 A US75566558 A US 75566558A US 2987994 A US2987994 A US 2987994A
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cylinder
tubing
mandrel
end plates
gravure
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Thomas K Allison
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F27/00Devices for attaching printing elements or formes to supports
    • B41F27/10Devices for attaching printing elements or formes to supports for attaching non-deformable curved printing formes to forme cylinders
    • B41F27/105Devices for attaching printing elements or formes to supports for attaching non-deformable curved printing formes to forme cylinders for attaching cylindrical printing formes

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  • One primary object of the present invention is to generally improve gravure printing.
  • thick steel cylinders are used which are electroplated With copper to receive the etching or engraving which is to be printed.
  • Many cylinders are stored for reuse.
  • the cylinder may be etched anew by deplating and again plating and etching the same.
  • the cylinder used is heavy, say one half to one inch thick even for small cylinders in a range of say four to twelve inches diameter. There is a problem in handling and storing the cylinders, as well as their high initial cost.
  • One object of the present invention is to make possible the use of relatively light, thin walled cylinders.
  • Another object is to provide an improved mandrel for carrying such cylinders.
  • a more specific object is to support the cylinder along its entire length. Another object which is fulfilled by the same means is to improve the means for gripping or driving the cylinder.
  • Still another object of the invention is to provide an improved means to seal the ends of the cylinder against the entry of ink.
  • FIG. 1 is a longitudinal section through a mandrel and cylinder combination embodying features of my invention
  • FIG. 2 illustrates ano-ther form of the invention
  • FIG. 3 is a fragmentary View of another form of the invention generally similar to that shown in FIG. l, but illustrating an improved ink seal;
  • FIG. 4 is explanatory of one method of making the thin walled cylinder.
  • the improved mandrel of my invention comprises a shaft 12 with end plates 14 and 16 received thereon.
  • a core 18 surrounds the shaft 12 between the end plates.
  • a helical winding of rubber tubing 20 is wound about the core 18 between the end plates, and is dimensioned to readily receive a cylinder 22 thereover when the tubing 20 has not been inflated.
  • the tubing is closed at one end, in this case the left end, and is provided with an air valve 24 at the other end.
  • This may include an externally and internally threaded stem, the same as that used on vehicle tires, and a conventional air valve is screwed into the stem.
  • Compressed air may be admitted by means of a conventional air hose and fitting, and serves to inflate the tubing 20 so that it supports the cylinder 22 entirely along its length, and grips the cylinder to rotate the same.
  • the shaft 12 is the regular press shaft of the gravure printing press.
  • the endplates 14 and 16 may be received with a tapered fit on tapered hubs 26 and 28 in accordance with present gravure printing press practice.
  • the cylinder 22 may be made of steel which is copper plated and ground to form a smooth ycylindrical surface, which then is appropriately etched, all in accordance with known methods.
  • FIG. 4 One method of forming the present light Weight cylinder is shown in FIG. 4, in which the sheet steel has been rolled to cylindrical form, with edges abutting at 30. These edges are bevelled to form a V-groove or channel which facilitates welding the edges.
  • the welding material is shown at 32, and the outer surface is ground smooth before the cylinder is copper plated.
  • the sheet material used may be, say 1/s inch in thickness, in which case the weight of the cylinder will be from one fourth to one eighth of the weight of the cylinders previously used, for the same overall size range.
  • the cylinder need not be made of steel, and aluminum or other non-ferrous metals also may be used, with additional saving in weight. This is so because with my improved mandrel the cylinder is not unsupported between its ends, and therefore does not need the strength and rigidity heretofore required.
  • the cylinder runs in a bath of ink, and it is therefore desirable to seal the ends of the cylinder against entry of ink.
  • bands or short cylinders of soft sealing material indicated at 34 and 36. These may be rubber, but preferably are a synthetic rubber which is resistant to attack by the solvents used in conventional quick drying gravure inks.
  • the tubing 20 also preferably is made of an appropriate synthetic rubber.
  • the air stem 24 is preferably sealed by a soft washer and nut 23, and it is closed by a cap 25.
  • the core 18 in the present case is made up of a series ⁇ of short cylinders. These may be made of a relatively lightweight plastics material. The material used is not critical, and any desired material may be employed because he primary function of the core is merely to ll the space between the shaft 12 and the helical tubing 20.
  • FIG. 2 A modified form of the invention is shown in FIG. 2.
  • the tubing may fill the envtire space between the shaft 42 and the cylinder 44, thus eliminating the need for the core material shown at 18 in FIG. l.
  • end plates 46 and 48 there are end plates 46 and 48, and these may be received on frusto conical hubs 50 and 52.
  • the hubs may be tightened axially in accordance with current gravure printing practice.
  • a single length of tubing may be used which is closed at one end, in this case, the right end of the inner layer, and which has a conventional tire air valve at its other end, as indicated at 54.
  • the tubing is of suicient length to provide enough layers to lill the space between the shaft and the cylinder.
  • intermediate arrangements may be employed in which a core is used but is reduced in ⁇ diameter to receive multiple layers of tubing without, however, requiring that the tubing reach all the way to the shaft.
  • each shorter tube may be used, one for the inner layer, and another for the outer layer.
  • three tubes are used. Each is closed at one end and has an air valve at the other end. All then are wound in the same direction, with no crossovers. The air valves are displaced around the end plate.
  • valve stem 54 may be sealed by an appropriate soft sealing Washer and nut 69.
  • the valve stem is closed by a cap 61.
  • the preferred form of the invention is that using a single layer of tubing as shown in FIG. l, in contrast with the use of multiple layers of tubing as shown in PIG. 2.
  • a high inflation pressure may be employed in FIG. l, adequate to resist considerable' stress.
  • the cylinder may run in a press using an impression Iroll which is relatively hard, using say 80 to 95 Durometer rubber. This is used for printing on paper and paper board.
  • the multiple layer tubing is more p-ractical for a cylinder used in a press having a comparatively soft impression roll using, say 40 to 50 Durometer rubber. This is -the type used in certain special cases, typically when printing on cellophane. In such case the stress involved is very low, yand a low ination or clamping pressure is adequate.
  • FIG. 3 corresponds generally to the left end of FIG. l.
  • the main difference here centers about the ink seal at the end of the cylinder.
  • the inner surface of the tube bears against the end plate 66, and the latter is preferably grooved to receive the tube.
  • the outer surface of the tube 62 bears against the inside of the cylinder 68.
  • inflation ⁇ of the tube 62 by compressed air supplied through the air stem ⁇ 6ft serves to seal the cylinder against the entry of ink.
  • the air stem 64 is capped at 65 t0 protect the air valve contained therein against entry of ink.
  • Mandrels may be made in a series of different diameters to accommodate gravure cylinders of different diameter. However, manufacture of the mandrel is facilitated by the fact that a common diameter of tubing may be used for many different sizes of mandrel. The length of the tubing will differ, it being evident that a long tube is needed for a mandrel which is larger in diameter, or longer in length, but the necessary manufacturing operations on the tube arm comparatively simple and standardized. One such setp is to close one end of the tube, and'another is to add an air valve stem at the other end.
  • a mandrel for detachably receiving a rigid and accurately finished but relatively thin walled gravure cylinder said mandrel comprising a press shaft, end plates received thereon, a helical winding of rubber tubing wound between said end plates and dimensioned to receive the cylinder thereover, said tubing being closed at one end and having an air valve at the other end, whereby the tubing may be inflated by compressed air to support and grip the cylinder to insureV rotation of the cylinder with the mandrel, and means around said end plates to be received between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run, said cylinder having a thickness only la fraction of that of the usual rigid gravure cylinder, but suliicient to bridge the spacing between the coils of the helical tubing without loss of the desired accurate cylindrical configuration needed for gravure printing.
  • a rigid and accurately finished but relatively thin walled gravure cylinder and a mandrel detachably mounted therein, said mandrel comprising a press shaft, end plates received thereon, and a helical winding of rubber tubing wound between said end plates and within said cylinder, said tubing being closed at one end and having an air valve at the other end, the tubing being inflated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run, said cylinder having a thickness only a fraction of that of the usual rigid gravure cylinder, but sufficient to bridge the spacing between the coils of the helical tubing without loss of the desired accurate cylindrical configuration needed for gravure printing.
  • a rigid and accurately finished but relatively thin walled gravure cylinder having a thickness of about Mg inch, and a mandrel detachably mounted therein, said mandrel comprising a press shaft, end plates received thereon7 a core on said shaft between said end plates, and a helical winding of rubber tubing wound about said coresbetween said core and said cylinder, said tubing being closed at one end and having an air valve at the other end, said air valve projecting through Vone of the end plates, the tubing being inated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run.
  • a mandrel for detachably receiving a rigid and accurately finished but relatively thin walled gravure cylinder said mandrel comprising a press shaft, end plates received thereon, a helical winding of rubber tubing wound between said end plates and dimensioned to receive the cylinder thereover, said tubing being closed at one end and having an air valve at the other end, whereby the tubing may be inflated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means around said end plates to be received between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run, said means being an annular rubber tube having an air valve, the inner surface of said tube bearing against the periphery of the end plate and the outer surface of said tube being dimensioned to bear against the inside of the cylinder, whereby ination of the annular Itube by compressed air supplied through the second air valve serves to seal the end of the cylinder against entry of ink from the ink
  • a rigid and accurately nished but relatively thin walled gravure cylinder and a mandrel de* tachably mounted therein, said mandrel comprising a press shaft, end plates received thereon, and a helical winding of rubber tubing wound between said end plates and Within said cylinder, said tubing being closed at one end and having an air valve ⁇ at the other end, the tubing being inflated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means between said end plates and said cylinder to seal lthe same against entry of ink from the ink fountain in which the gravure cylinder is run, said means being an annular rubber tube having an air valve, the inner surface of said tube bearing against the periphery of the end plate and the outer surface of said tube bearing against the inside of the cylinder, said annular Itube being inilated by compressed air supplied through the second air Valve in order to seal the end of the cylinder against entry of ink from the ink fountain in which
  • a rigid and accurately nished but relatively thin walled gravure cylinder having a thickness of about 1/8 inch, and a mandrel detachably mounted therein, said mandrel comprising a press shaft, end plates received thereon, a core on said shaft between said end plates, and a helical winding of rubber tubing wound about said core between said core and said cylinder, said tubing being closed at one end and having an air valve at the other end, said air valve projecting through one of the end plates, the tubing being inilated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run, said means being an annular rubber tube having an air valve, the inner surface of said tube bearing against the periphery of the end plate and the outer surface of said tube bearing against the inside of Ithe cylinder, Said annular tube being inflated by compressed

Description

v June 13, 1961 T K, ALLlsoN 2,987,994
MANDREL AND CYLINDER FOR GRAVURE PRINTING Filed Aug. 18. 1958 INVENToR. 774/044145 K, /IUJO/V 4 70m/EVS 2,987,994 MANDREL AND CYLINDER FOR GRAVURE PRINTING Thomas K. Allison, 590 Camden Ave., Moorestown, NJ. Filed Aug. 18, 1958, Ser. No. 755,665 8 Claims. (Cl. 101-375) This invention relates to operations such as gravure printing, requiring the use of a removable and replaceable cylinder.
One primary object of the present invention is to generally improve gravure printing. In current practice, thick steel cylinders are used which are electroplated With copper to receive the etching or engraving which is to be printed. Many cylinders are stored for reuse. The cylinder may be etched anew by deplating and again plating and etching the same. At present, the cylinder used is heavy, say one half to one inch thick even for small cylinders in a range of say four to twelve inches diameter. There is a problem in handling and storing the cylinders, as well as their high initial cost.
`One object of the present invention is to make possible the use of relatively light, thin walled cylinders.
Another object is to provide an improved mandrel for carrying such cylinders.
A more specific object is to support the cylinder along its entire length. Another object which is fulfilled by the same means is to improve the means for gripping or driving the cylinder.
Still another object of the invention is to provide an improved means to seal the ends of the cylinder against the entry of ink.
To accomplish the foregoing objects, and other more specific objects which will hereinafter appear, my invention resides in the improved cylinder and mandrel, and their relation one to another, as are hereinafter more particularly described in the following specification. The specification is accompanied by a drawing, in which:
FIG. 1 is a longitudinal section through a mandrel and cylinder combination embodying features of my invention;
FIG. 2 illustrates ano-ther form of the invention;
FIG. 3 is a fragmentary View of another form of the invention generally similar to that shown in FIG. l, but illustrating an improved ink seal; and
FIG. 4 is explanatory of one method of making the thin walled cylinder.
Referring to the drawing, and more particularly to FIG. 1, the improved mandrel of my invention comprises a shaft 12 with end plates 14 and 16 received thereon. A core 18 surrounds the shaft 12 between the end plates. A helical winding of rubber tubing 20 is wound about the core 18 between the end plates, and is dimensioned to readily receive a cylinder 22 thereover when the tubing 20 has not been inflated.
The tubing is closed at one end, in this case the left end, and is provided with an air valve 24 at the other end. This may include an externally and internally threaded stem, the same as that used on vehicle tires, and a conventional air valve is screwed into the stem. Compressed air may be admitted by means of a conventional air hose and fitting, and serves to inflate the tubing 20 so that it supports the cylinder 22 entirely along its length, and grips the cylinder to rotate the same.
It will be understood that in preferred form, the shaft 12 is the regular press shaft of the gravure printing press. The endplates 14 and 16 may be received with a tapered fit on tapered hubs 26 and 28 in accordance with present gravure printing press practice. The cylinder 22 may be made of steel which is copper plated and ground to form a smooth ycylindrical surface, which then is appropriately etched, all in accordance with known methods.
One method of forming the present light Weight cylinder is shown in FIG. 4, in which the sheet steel has been rolled to cylindrical form, with edges abutting at 30. These edges are bevelled to form a V-groove or channel which facilitates welding the edges. The welding material is shown at 32, and the outer surface is ground smooth before the cylinder is copper plated. The sheet material used may be, say 1/s inch in thickness, in which case the weight of the cylinder will be from one fourth to one eighth of the weight of the cylinders previously used, for the same overall size range.
Moreover, in accordance with the present improvement, the cylinder need not be made of steel, and aluminum or other non-ferrous metals also may be used, with additional saving in weight. This is so because with my improved mandrel the cylinder is not unsupported between its ends, and therefore does not need the strength and rigidity heretofore required.
The cylinder runs in a bath of ink, and it is therefore desirable to seal the ends of the cylinder against entry of ink. In FIG. l there are bands or short cylinders of soft sealing material indicated at 34 and 36. These may be rubber, but preferably are a synthetic rubber which is resistant to attack by the solvents used in conventional quick drying gravure inks. The tubing 20 also preferably is made of an appropriate synthetic rubber.
The air stem 24 is preferably sealed by a soft washer and nut 23, and it is closed by a cap 25.
The core 18 in the present case is made up of a series `of short cylinders. These may be made of a relatively lightweight plastics material. The material used is not critical, and any desired material may be employed because he primary function of the core is merely to ll the space between the shaft 12 and the helical tubing 20.
A modified form of the invention is shown in FIG. 2. In this case, there are a plurality of layers of helically wound tubing, and if desired, the tubing may fill the envtire space between the shaft 42 and the cylinder 44, thus eliminating the need for the core material shown at 18 in FIG. l. As before, there are end plates 46 and 48, and these may be received on frusto conical hubs 50 and 52. The hubs may be tightened axially in accordance with current gravure printing practice.
A single length of tubing may be used which is closed at one end, in this case, the right end of the inner layer, and which has a conventional tire air valve at its other end, as indicated at 54. The tubing is of suicient length to provide enough layers to lill the space between the shaft and the cylinder. However, it will be understood that intermediate arrangements may be employed in which a core is used but is reduced in `diameter to receive multiple layers of tubing without, however, requiring that the tubing reach all the way to the shaft.
Alternatively, several shorter tubes may be used, one for the inner layer, and another for the outer layer. With three layers, three tubes are used. Each is closed at one end and has an air valve at the other end. All then are wound in the same direction, with no crossovers. The air valves are displaced around the end plate.
As before, the ends of the cylinder vare preferably sealed against the entry of ink, and for this purpose annular sealing material is used as shown at `Sti and 58 in the drawing. Also, the valve stem 54 may be sealed by an appropriate soft sealing Washer and nut 69. The valve stem is closed by a cap 61.
The preferred form of the invention is that using a single layer of tubing as shown in FIG. l, in contrast with the use of multiple layers of tubing as shown in PIG. 2. The reason is that a high inflation pressure may be employed in FIG. l, adequate to resist considerable' stress. Thus, the cylinder may run in a press using an impression Iroll which is relatively hard, using say 80 to 95 Durometer rubber. This is used for printing on paper and paper board. The multiple layer tubing is more p-ractical for a cylinder used in a press having a comparatively soft impression roll using, say 40 to 50 Durometer rubber. This is -the type used in certain special cases, typically when printing on cellophane. In such case the stress involved is very low, yand a low ination or clamping pressure is adequate.
In that connection, it may be pointed out that the use of a single long tube, with crossover of convolutions, in the multi-layer arrangement shown in FIG. 2, is desirable only when working with a very low inflation pressure. For somewhat higher inflation pressure it is preferable to use multiple tubes, one for each layer, which are wound in the same direction so that there are no Crossovers. |If the ends slope, as shown in FIG. 2, the outer tube may be longer -to take care of the increase in axial dimension as Well as the increase in diameter. The winding of each layer may start with the air valve. The other end may be squeezed or deformed into position, unlike FIG. 2 which shows larger-than-necessary space at the ends. Of course, with still'higher pressures the preferred arrangement is to use only one layer of tubing as shown in FIG. 1.
Another form of the invention is illustrated in FIG. 3, which corresponds generally to the left end of FIG. l. The main difference here centers about the ink seal at the end of the cylinder. In the present case, there is an annular rubber tube `or hollow ring 62, having a valve stern 64 with a valve therein, all as in bicycle tire practice. The inner surface of the tube bears against the end plate 66, and the latter is preferably grooved to receive the tube. The outer surface of the tube 62 bears against the inside of the cylinder 68. It will be evident that inflation `of the tube 62 by compressed air supplied through the air stem `6ft serves to seal the cylinder against the entry of ink. The air stem 64 is capped at 65 t0 protect the air valve contained therein against entry of ink.
It will be understood that a similar seal is used at the other end of the cylinder, and that the air stem for the seal may be displaced from the air stem for the expandible helical tubing, so that the two stems will not interfere with one another.
Mandrels may be made in a series of different diameters to accommodate gravure cylinders of different diameter. However, manufacture of the mandrel is facilitated by the fact that a common diameter of tubing may be used for many different sizes of mandrel. The length of the tubing will differ, it being evident that a long tube is needed for a mandrel which is larger in diameter, or longer in length, but the necessary manufacturing operations on the tube arm comparatively simple and standardized. One such setp is to close one end of the tube, and'another is to add an air valve stem at the other end.
It is believed that the construction and method of use of my improved mandrel and cylinder, as well as the advantages thereof, will be apparent from the foregoing detailed description. It will also be apparent that while I have shown and described my invention in several preferred forms, changes may be made in the structures shown, without departing from the scope of the invention, as sought to be defined in the following claims. In the claims the term rubber is intended to include synthetic rubbers and plastics having yieldable characteristics or properties suitable for the present purpose, as well as natural rubber.
I claim:
l. A mandrel for detachably receiving a rigid and accurately finished but relatively thin walled gravure cylinder, said mandrel comprising a press shaft, end plates received thereon, a helical winding of rubber tubing wound between said end plates and dimensioned to receive the cylinder thereover, said tubing being closed at one end and having an air valve at the other end, whereby the tubing may be inflated by compressed air to support and grip the cylinder to insureV rotation of the cylinder with the mandrel, and means around said end plates to be received between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run, said cylinder having a thickness only la fraction of that of the usual rigid gravure cylinder, but suliicient to bridge the spacing between the coils of the helical tubing without loss of the desired accurate cylindrical configuration needed for gravure printing.
2. In combination, a rigid and accurately finished but relatively thin walled gravure cylinder, and a mandrel detachably mounted therein, said mandrel comprising a press shaft, end plates received thereon, and a helical winding of rubber tubing wound between said end plates and within said cylinder, said tubing being closed at one end and having an air valve at the other end, the tubing being inflated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run, said cylinder having a thickness only a fraction of that of the usual rigid gravure cylinder, but sufficient to bridge the spacing between the coils of the helical tubing without loss of the desired accurate cylindrical configuration needed for gravure printing.
3. A mandrel for detachably receiving a rigid and accurately finished but relatively thin walled gravure cylinder having a thickness of about 1%; inch, said mandrel comprising a press shaft, end plates received thereon, a core on said shaft between said end plates, a helical winding of rubber tubing wound about said core between said end plates and dimensioned to receive the cylinder thereover, said tubing being closed at one end and having an air valve at the other end, said air valve projecting through one of the end plates, whereby the tubing may be inflated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means around said end plates to be received between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run.
4. In combination, a rigid and accurately finished but relatively thin walled gravure cylinder having a thickness of about Mg inch, and a mandrel detachably mounted therein, said mandrel comprising a press shaft, end plates received thereon7 a core on said shaft between said end plates, and a helical winding of rubber tubing wound about said coresbetween said core and said cylinder, said tubing being closed at one end and having an air valve at the other end, said air valve projecting through Vone of the end plates, the tubing being inated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run.
5. A mandrel for detachably receiving a rigid and accurately finished but relatively thin walled gravure cylinder, said mandrel comprising a press shaft, end plates received thereon, a helical winding of rubber tubing wound between said end plates and dimensioned to receive the cylinder thereover, said tubing being closed at one end and having an air valve at the other end, whereby the tubing may be inflated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means around said end plates to be received between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run, said means being an annular rubber tube having an air valve, the inner surface of said tube bearing against the periphery of the end plate and the outer surface of said tube being dimensioned to bear against the inside of the cylinder, whereby ination of the annular Itube by compressed air supplied through the second air valve serves to seal the end of the cylinder against entry of ink from the ink fountain in which the gravure cylinder is run.
6. In combination, a rigid and accurately nished but relatively thin walled gravure cylinder, and a mandrel de* tachably mounted therein, said mandrel comprising a press shaft, end plates received thereon, and a helical winding of rubber tubing wound between said end plates and Within said cylinder, said tubing being closed at one end and having an air valve `at the other end, the tubing being inflated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means between said end plates and said cylinder to seal lthe same against entry of ink from the ink fountain in which the gravure cylinder is run, said means being an annular rubber tube having an air valve, the inner surface of said tube bearing against the periphery of the end plate and the outer surface of said tube bearing against the inside of the cylinder, said annular Itube being inilated by compressed air supplied through the second air Valve in order to seal the end of the cylinder against entry of ink from the ink fountain in which the gravure cylinder is run, said cylinder having `a thickness only a fraction of Ithat of the usual rigid gravure cylinder, but suicient to bridge the spacing between the coils of the helical tubing without loss of the desired accurate cylindrical coniiguration needed for gravure printing.
7. A mandrel for detachably receiving a rigid and accurately finished but relatively thin walled gravure cylinder having a thickness of about l@ inch, said mandrel comprising a press shaft, end plates received thereon, a core on said shaft between said end plates, a helical winding of rubber tubing wound about said core between said end plates and dimensioned to receive the cylinder thereover, said tubing being closed at one end and having an air valve at the other end, said air valve projecting through one of the end plates, whereby the tubing may be inated by compressed air to support and grip the cylinder lto insure rotation of the cylinder with the mandrel, and means around said end plates to be received between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run, said means being an annular rubber tube having an air valve, the inner surface of said tube bearing against the periphery of the end plate and the outer surface of said tube being dimensioned to bear against the inside of the cylinder, whereby inilation of the annular tube by com- 6 pressed air supplied through the air valve serves to seal the end of the cylinder against entry of ink from the ink fountain in which the gravure cylinder is run.
8l. In combination, a rigid and accurately nished but relatively thin walled gravure cylinder having a thickness of about 1/8 inch, and a mandrel detachably mounted therein, said mandrel comprising a press shaft, end plates received thereon, a core on said shaft between said end plates, and a helical winding of rubber tubing wound about said core between said core and said cylinder, said tubing being closed at one end and having an air valve at the other end, said air valve projecting through one of the end plates, the tubing being inilated by compressed air to support and grip the cylinder to insure rotation of the cylinder with the mandrel, and means between said end plates and said cylinder to seal the same against entry of ink from the ink fountain in which the gravure cylinder is run, said means being an annular rubber tube having an air valve, the inner surface of said tube bearing against the periphery of the end plate and the outer surface of said tube bearing against the inside of Ithe cylinder, Said annular tube being inflated by compressed air supplied through the second air valve in order to seal the end of the cylinder against entry of ink from the ink fountain in which the gravure cylinder is run.
References Cited in the le of this patent UNITED STATES PATENTS 648,264 Jacobson Apr. 24, 1900 658,588 Reynolds et al Sept. 25, 1900 689,590 Johnson et al Dec. 24, 1901 710,327 Kling Sept. 30, 1902 725,971 Kling Apr. 21, 1903 751,836 Cumback Feb. 9, 1904 776,000 Turner Nov. 29, 1904 993,387 Lucke May 30, 191 1 1,179,649 Reirson Apr. 18, 1916 1,226,984 Muskett May 22, 1917 1,347,333 Houston July 20, 1920 1,633,121 Minton June 21, 1927 1,921,555 Welsh Aug. 8, 1933 1,958,299' Ericksson May 8, 1934 1,984,115 Cooper Dec. 11, 1934 2,062,421 Lindbom Dec. 1, 1936 2,559,564 Sperling July 3, 1951 2,863,681 Robbins Dec. 9, 1958 FOREIGN PATENTS 2,606 Great Britain NOV. 11, 1915 109,212 Great Britain Sept. 6, 1917 578,777 Great Britain July 1.1, 1946
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Cited By (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3166013A (en) * 1961-12-15 1965-01-19 Graphic Controls Corp Expansible cylinder for rotary printing press
US3253323A (en) * 1962-12-01 1966-05-31 Saueressig K G Maschinenfabrik Pressure roller
US3383884A (en) * 1964-06-18 1968-05-21 Passat Maschb G M B H Fa Press installation
US3640218A (en) * 1970-06-25 1972-02-08 Thomas K Allison Seal assembly for sleeve-type gravure rolls
US3695757A (en) * 1969-02-27 1972-10-03 Xerox Corp Xerographic plate
US4007680A (en) * 1974-07-03 1977-02-15 Pfleger Frank G Gravure printing cylinders
US4089265A (en) * 1974-09-26 1978-05-16 M. A. Buckley (Engraving) Limited Flexographic printing roll and means for assembling same
US4150622A (en) * 1976-09-13 1979-04-24 Reinhard Muhs Printing roller
US4157067A (en) * 1977-02-28 1979-06-05 Firma Max Datwyler & Co. Form cylinder provided with flexible printing plates for rotary intaglio printing presses
US4217821A (en) * 1977-12-27 1980-08-19 Stork Brabant B.V. Printing apparatus utilizing flexible metal sleeves as ink transfer means
US4656942A (en) * 1977-12-27 1987-04-14 Stork Brabant B.V. Printing apparatus utilizing flexible metal sleeves as ink transfer means
US4907528A (en) * 1987-06-10 1990-03-13 J. M. Voith Gmbh Deflection compensating device for a smoothing device for a coating applying unit
US5036766A (en) * 1989-09-08 1991-08-06 Luminite Products Corporation Mounting construction for a printing cylinder
US6634294B2 (en) * 2000-04-19 2003-10-21 Heidelberger Druckmaschinen Ag Device for reducing printing sleeve noise
US20090044713A1 (en) * 2005-11-02 2009-02-19 Man Roland Druckmaschinen Ag Gravure Printing-Form Sleeve and Production Thereof
US20140053747A1 (en) * 2013-07-18 2014-02-27 George Pantchev Printing Assembly
US8915185B2 (en) * 2012-09-05 2014-12-23 Bunting Magnetics Co. Assembly for axially aligning a print die
NL2014544A (en) * 2015-03-27 2016-10-10 Mps Holding Bv A mandrel for printing apparatus, a printing cylinder and printing apparatus.
US20170168429A1 (en) * 2015-12-15 2017-06-15 Masakazu Imai Roller member and image forming apparatus including the roller member

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US689590A (en) * 1900-10-20 1901-12-24 Martin Johnson Inflatable roller.
US710327A (en) * 1902-07-31 1902-09-30 Aloys W Kling Lithographing or printing press roller.
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US776000A (en) * 1903-10-24 1904-11-29 Arthur Wellesley Turner Printer's inking and damping roller.
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US1347333A (en) * 1919-02-10 1920-07-20 Houston Constance Mab Meredith Typewriting-machine
US1633121A (en) * 1926-03-26 1927-06-21 Minton Ogden Vacuum seal and apparatus
US1921555A (en) * 1931-04-23 1933-08-08 Frank J Welsh Sealing ring
US1958299A (en) * 1930-10-15 1934-05-08 Standard Process Corp Intaglio printing methods and apparatus
US1984115A (en) * 1933-03-24 1934-12-11 American Brass Co Built-up print roll and method of making
US2062421A (en) * 1935-07-27 1936-12-01 U P M Kidder Press Co Inc Expansible shaft
GB578777A (en) * 1942-05-11 1946-07-11 Interchem Corp Improvements in or relating to rotogravure printing members and method of making the same
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US2863681A (en) * 1955-10-04 1958-12-09 Robbins Machine & Mfg Co Inc Inflatable seal for rotating shafts

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US751836A (en) * 1904-02-09 Ho model
US648264A (en) * 1899-06-15 1900-04-24 Thor H Nielsen Polishing-wheel.
US658588A (en) * 1899-12-04 1900-09-25 Iron Clad Mfg Company Closure for receptacles.
US689590A (en) * 1900-10-20 1901-12-24 Martin Johnson Inflatable roller.
US710327A (en) * 1902-07-31 1902-09-30 Aloys W Kling Lithographing or printing press roller.
US725971A (en) * 1902-12-29 1903-04-21 Aloys W Kling Lithographing and printing roller.
US776000A (en) * 1903-10-24 1904-11-29 Arthur Wellesley Turner Printer's inking and damping roller.
US993387A (en) * 1909-09-08 1911-05-30 Holder Perkins Company Hollow work-support for leather-working machines.
GB191502606A (en) * 1915-02-18 1915-11-11 Jabez Muskett Improvements in Rubber Covered Rollers.
US1179649A (en) * 1916-01-26 1916-04-18 Holder Perkins Company Pneumatic bed for leather-working machines.
US1226984A (en) * 1916-10-18 1917-05-22 Jabez Muskett Rubber-covered roller.
GB109212A (en) * 1917-03-12 1917-09-06 Henry Allen Holder Improvements in Flexible Rollers.
US1347333A (en) * 1919-02-10 1920-07-20 Houston Constance Mab Meredith Typewriting-machine
US1633121A (en) * 1926-03-26 1927-06-21 Minton Ogden Vacuum seal and apparatus
US1958299A (en) * 1930-10-15 1934-05-08 Standard Process Corp Intaglio printing methods and apparatus
US1921555A (en) * 1931-04-23 1933-08-08 Frank J Welsh Sealing ring
US1984115A (en) * 1933-03-24 1934-12-11 American Brass Co Built-up print roll and method of making
US2062421A (en) * 1935-07-27 1936-12-01 U P M Kidder Press Co Inc Expansible shaft
GB578777A (en) * 1942-05-11 1946-07-11 Interchem Corp Improvements in or relating to rotogravure printing members and method of making the same
US2559564A (en) * 1945-09-10 1951-07-03 Curren C Sperling Pneumatic and air sweep closure
US2863681A (en) * 1955-10-04 1958-12-09 Robbins Machine & Mfg Co Inc Inflatable seal for rotating shafts

Cited By (26)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3166013A (en) * 1961-12-15 1965-01-19 Graphic Controls Corp Expansible cylinder for rotary printing press
US3253323A (en) * 1962-12-01 1966-05-31 Saueressig K G Maschinenfabrik Pressure roller
US3383884A (en) * 1964-06-18 1968-05-21 Passat Maschb G M B H Fa Press installation
US3695757A (en) * 1969-02-27 1972-10-03 Xerox Corp Xerographic plate
US3640218A (en) * 1970-06-25 1972-02-08 Thomas K Allison Seal assembly for sleeve-type gravure rolls
US4007680A (en) * 1974-07-03 1977-02-15 Pfleger Frank G Gravure printing cylinders
US4089265A (en) * 1974-09-26 1978-05-16 M. A. Buckley (Engraving) Limited Flexographic printing roll and means for assembling same
US4150622A (en) * 1976-09-13 1979-04-24 Reinhard Muhs Printing roller
US4157067A (en) * 1977-02-28 1979-06-05 Firma Max Datwyler & Co. Form cylinder provided with flexible printing plates for rotary intaglio printing presses
US4217821A (en) * 1977-12-27 1980-08-19 Stork Brabant B.V. Printing apparatus utilizing flexible metal sleeves as ink transfer means
US4656942A (en) * 1977-12-27 1987-04-14 Stork Brabant B.V. Printing apparatus utilizing flexible metal sleeves as ink transfer means
US4907528A (en) * 1987-06-10 1990-03-13 J. M. Voith Gmbh Deflection compensating device for a smoothing device for a coating applying unit
US5036766A (en) * 1989-09-08 1991-08-06 Luminite Products Corporation Mounting construction for a printing cylinder
US6634294B2 (en) * 2000-04-19 2003-10-21 Heidelberger Druckmaschinen Ag Device for reducing printing sleeve noise
US20090044713A1 (en) * 2005-11-02 2009-02-19 Man Roland Druckmaschinen Ag Gravure Printing-Form Sleeve and Production Thereof
US8915185B2 (en) * 2012-09-05 2014-12-23 Bunting Magnetics Co. Assembly for axially aligning a print die
US9308717B2 (en) 2013-07-18 2016-04-12 Bunting Magnetics Co. Printing assembly
WO2015010013A3 (en) * 2013-07-18 2015-06-04 Bunting Magnetics Company Printing assembly
US9162439B2 (en) * 2013-07-18 2015-10-20 Bunting Magnetics Co. Printing assembly
US20140053747A1 (en) * 2013-07-18 2014-02-27 George Pantchev Printing Assembly
NL2014544A (en) * 2015-03-27 2016-10-10 Mps Holding Bv A mandrel for printing apparatus, a printing cylinder and printing apparatus.
WO2016159764A3 (en) * 2015-03-27 2016-12-22 Mps Holding B.V. Mandrel for printing apparatus, printing cylinder and printing apparatus
CN106794694A (en) * 2015-03-27 2017-05-31 Mps控股有限公司 A kind of plug of printing equipment, printing cylinder and printing equipment
US10099470B2 (en) 2015-03-27 2018-10-16 Mps Holding B.V. Mandrel for printing apparatus, printing cylinder and printing apparatus
US20170168429A1 (en) * 2015-12-15 2017-06-15 Masakazu Imai Roller member and image forming apparatus including the roller member
US10234794B2 (en) * 2015-12-15 2019-03-19 Ricoh Company, Ltd. Roller member and image forming apparatus including the roller member

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