Claims
- 1. A vacuum drum assembly for a printing machine, the assembly comprising:a drum having a length and a periphery with an array of passageways distributed along its length and around its periphery to permit air to flow from outside the drum to inside the drum in response to reduced air pressure inside the drum; and an array of valve members, each valve member being movable between a closed position in which that valve member restricts at least one of the passageways and an open position in which the restriction of the at least one passageway is reduced, and wherein a at least one of said valve members is normally closed and is opened by a pressure difference, wherein the assembly is arranged such that, when a partial area of the drum is covered with material to be printed, at least some of the valve members for the passageways adjacent an edge of said partial area are open, and the valve members for the passageways which are not covered by the material and are not adjacent an edge of said partial area are closed.
- 2. An assembly as claimed in claim 1 wherein the pressure difference that opens the at least one valve member is between adjacent passageways.
- 3. An assembly as claimed in claim 1 wherein each passageway is provided with a respective one of said valve members.
- 4. An assembly as claimed in claim 1 wherein each of the valve members affects an adjacent pair of the passageways.
- 5. An assembly as claimed in claim 1 further comprising:wall portions between adjacent pairs of the passageways; and each valve member comprising a butterfly valve pivotally mounted on a respective one of the wall portions and biased towards its closed position.
- 6. An assembly as claimed in claim 5 wherein the wall portions are of energy-absorbing material and are connected to the butterfly valves to effect damping the movement of the valve members.
- 7. An assembly as claimed in claim 1 wherein each passageway has a circular, annular, elliptic or polygonal cross-section, and the passageways are distributed along the length and around the periphery of said drum.
- 8. An assembly as claimed in claim 1 wherein each passageway has a cross-section that is generally square.
- 9. An assembly as claimed in claim 1 further including means for damping the movement of the valve members.
- 10. An assembly according to claim 1 further including a printed material stripping means which is positioned within the drum and actuatable to be urged into contact with a drum wall thereby moving all contacted valve members from the open position to the closed position.
- 11. An assembly according to claim 10 wherein the printed material stripping means is mounted at a station where the leading edge of the printed material is required to be stripped.
- 12. A printing machine including a vacuum drum assembly as claimed in claim 1.
- 13. A machine as claimed in claim 12 further including, for the drum, means for holding or directing the material against or towards the drum at the position in which the material is fed onto the drum.
- 14. A duplex printing machine comprising:first and second vacuum drum assemblies each as claimed in claim 1 and with the drums parallel; means for reducing an air pressure inside the drums; means for feeding material to be printed onto the first drum so that the material can be held on the first drum by vacuum and rotated therewith; first printing means for printing on the material on the first drum; means for releasing the material from the first drum in a direction towards the second drum so that the material can be held on the second drum by vacuum and rotated therewith; second printing means for printing on the material on the second drum; and means for releasing the material from the second drum.
- 15. A machine as claimed in claim 14 further including, for each drum, means for holding or directing the material against or towards the respective drum at the position in which the material is fed onto the respective drum.
- 16. A machine as claimed in claim 14 wherein,the direction in which the material is released from the first drum towards the second drum is generally parallel to and opposite to the direction in which the material is fed onto the first drum, and the direction in which the material is released from the second drum is generally parallel to and opposite to the direction in which the material is fed onto the second drum.
- 17. A vacuum drum assembly for a printing machine, the assembly comprising:a drum having a length and a periphery with an array of passageways distributed along its length and around its periphery to permit air to flow from outside the drum to inside the drum in response to reduced air pressure inside the drum, wherein the passageways extend through the periphery of the drum and terminate inside the drum; and an array of valve members arranged locally to said passageways, each valve member being movable between a closed position in which that valve member restricts at least one of the passageways and an open position in which the restriction of the at least one passageway is reduced, wherein the assembly is arranged such that, when a partial area of the drum is covered with material to be printed, at least some of the valve members for the passageways adjacent an edge of said partial area are open, and the valve members for the passageways which are not covered by the material and are not adjacent an edge of said partial area are closed.
- 18. An assembly as claimed in claim 17 wherein at least one valve member is normally closed and is opened by a pressure difference.
- 19. An assembly as claimed in claim 17 wherein at least one valve member is opened by a pressure difference between adjacent passageways.
- 20. An assembly as claimed in claim 17 wherein each passageway (40) is provided with a respective one of said valve members (48).
- 21. An assembly as claimed in claim 17 wherein each of the valve members affects an adjacent pair of the passageways.
- 22. An assembly as claimed in claim 17 further comprising:wall portions between adjacent pairs of the passageways; and each valve member comprising a butterfly valve pivotally mounted on a respective one of the wall portions and biased towards its closed position.
- 23. An assembly as claimed in claim 22 wherein the wall portions are of energy-absorbing material and are connected to the butterfly valves to effect damping the movement of the valve members.
- 24. An assembly as claimed in claim 17 wherein each passageway has a circular, annular, elliptic or polygonal cross-section, and the passageways are distributed along the length and around the periphery of said drum.
- 25. An assembly as claimed in claim 17 wherein each passageway has a cross-section that is generally square.
- 26. An assembly as claimed in claim 17 wherein at least one valve member is opened by mechanical actuation.
- 27. An assembly according to claim 26 wherein the at least one valve member comprises an actuating means which moves the at least one valve member to the open position on mechanical contact with the material to be printed.
- 28. An assembly according to claim 27 wherein the actuating means comprises a portion of the at least one valve member which is housed within the passageway and is dimensioned to project from the drum when the at least one valve member is in the closed position.
- 29. An assembly according to claim 27 wherein the at least one valve member is biased so that on removal of the material it moves back to the closed position.
- 30. An assembly according to claim 29 wherein the at least one valve member is bistable being biased towards closed when proximate the closed position and also biased towards open when proximate the open position.
- 31. An assembly according to claim 29 further including means for applying to the at least one valve member a non-linear closing force that is greater when the at least one valve member is proximate the closed position than when proximate the open position.
- 32. An assembly according to claim 30 further including spring elements arranged in an over-centre fashion, thereby to bias said at least one valve member into one of an open or closed position depending on a proximity of the at least one valve member to that position.
- 33. An assembly according to claim 30 wherein a first area of said at least one valve member is subject to the reduced air pressure so as to urge said at least one valve member into its closed position when proximate that closed position, and wherein a second area of said material to be printed is subject to the reduced air pressure so as to urge said at least one valve member into its open position when proximate that open position.
- 34. An assembly according to claim 33 wherein said second area is greater than said first area.
- 35. An assembly according to claim 34 wherein the at least one valve member has a boss on a first surface for mechanically contacting said material to be printed and wherein a second surface opposing said first surface communicates with atmospheric pressure.
- 36. An assembly according to claim 35 wherein said first surface is engageable with the periphery of an associated passageway formed in said drum, thereby to restrict said passageway.
- 37. An assembly according to claim 36 wherein said at least one valve member is formed with a bore providing communication between a surfaced said boss and said second surface.
- 38. An assembly according to claim 31 wherein said means for applying a non-linear closing force comprises a conical shell of resilient material.
- 39. An assembly according to claim 38 wherein the conical shell defines an angle to the plane lying normal to the a conical axis wherein the angle is in the range of about 15 to about 45 degrees.
- 40. An assembly according to claim 39 wherein the angle is about 30 degrees.
- 41. An assembly according to claim 38 wherein said at least one valve member has sealing means for sealing with a respective passageway in the drum, the sealing means being integral with said conical shell.
- 42. An assembly according to claim 26 wherein a biasing means generates a force on the at least one valve member when open that is less than that force generated as a result of the reduced air pressure acting on the material to printed.
- 43. An assembly according to claim 42 wherein a depression or counter-sink is formed in a surface of the drum around each passageway.
- 44. An assembly according to claim 26 where said at least one valve member has a conical surface for sealing with a corresponding conical surface of the drum.
- 45. An assembly according to claim 26 wherein a plurality of valve members are formed in a matrix, the matrix engaging an inner surface of said vacuum drum.
- 46. An assembly according to claim 45 wherein the matrix is resiliently urged against the inner surface of said vacuum drum by retaining means located within the drum.
- 47. An assembly according to claim 45 wherein the drum is resiliently urged against said matrix by retaining means.
- 48. An assembly as claimed in claim 17 including means for damping the movement of the valve members.
- 49. An assembly according to claim 17 including printed material stripping means which is positioned within the drum and actuatable to be urged into contact with a drum wall thereby moving all contacted valve members from the open position to the closed position.
- 50. An assembly according to claim 49 wherein the printed material stripping means is mounted at a station where the leading edge of the printed material is required to be stripped.
- 51. A printing machine including a vacuum drum assembly as claimed in claim 17.
- 52. A machine as claimed in claim 51 further including, for the drum, means for holding or directing the material against or towards the drum at the position in which the material is fed onto the drum.
- 53. A duplex printing machine comprising:first and second vacuum drum assemblies each as claimed in claim 17 and with the drums parallel; means for reducing the air pressure inside the drums; means for feeding material to be printed onto the first drum so that the material can be held on the first drum by vacuum and rotated therewith; first printing means for printing on the material on the first drum; means for releasing the material from the first drum in a direction towards the second drum so that the material can be held on the second drum by vacuum and rotated therewith; second printing means for printing on the material on the second drum; and means for releasing the material from the second drum.
- 54. A machine as claimed in claim 53 further including, for each drum, means for holding or directing the material against or towards the respective drum at the position in which the material is fed onto the respective drum.
- 55. A machine as claimed in claim 53 wherein,the direction in which the material is released from the first drum towards the second drum is generally parallel to and opposite to the direction in which the material is fed onto the first drum, and the direction in which the material is released from the second drum is generally parallel to and opposite to the direction in which the material is fed onto the second drum.
- 56. A vacuum drum assembly for a printing machine, comprising:a drum having a length and periphery with an array of passageways distributed along its length and around its periphery to permit air to flow from outside the drum to inside the drum in response to reduced air pressure inside the drum, wherein the passageways extend through the periphery of the drum and terminate inside the drum; and an array of valve members distributed along its length and around its periphery, each valve member being movable between a closed position in which that valve member restricts at least one of the passageways and an open position in which the restriction of the at least one passageway is reduced, wherein the assembly is arranged such that, when a partial area of the drum is covered with material to be printed, at least some of the valve members for the passageways adjacent an edge of said partial area are open, and the valve members for the passageways which are not covered by the material and are not adjacent an edge of said partial area are closed.
- 57. An assembly as claimed in claim 56 wherein at least one of said valve members is normally closed and is opened by a pressure difference.
- 58. An assembly as claimed in claim 56 wherein at least one of said valve members is opened by a pressure difference between adjacent passageways.
- 59. An assembly as claimed in claim 56 wherein each passageway is provided with a respective one of said valve members.
- 60. An assembly as claimed in claim 56 wherein each of the valve members affects an adjacent pair of the passageways.
- 61. An assembly as claimed in claim 56 further comprising:wall portions between adjacent pairs of the passageways; and each valve member comprising a butterfly valve pivotally mounted on a respective one of the wall portions and biased towards its closed position.
- 62. An assembly as claimed in claim 61 wherein the wall portions are of energy-absorbing material and are connected to the butterfly valves to effect damping the movement of the valve members.
- 63. An assembly as claimed in claim 56 wherein each passageway has a circular, annular, elliptic or polygonal cross-section, and the passageways are distributed along the length and around the periphery of said drum.
- 64. An assembly as claimed in claim 56 wherein each passageway has a cross-section that is generally square.
- 65. An assembly as claimed in claim 56 wherein at least one of said valve members is opened by mechanical actuation.
- 66. An assembly according to claim 65 wherein the at least one valve member comprises an actuating means which moves the at least one valve member to the open position on mechanical contact with the material to be printed.
- 67. An assembly according to claim 66 wherein the actuating means comprises a portion of the at least one valve member which is housed within the passageway and is dimensioned to project from the drum when the at least one valve member is in the closed position.
- 68. An assembly according to claim 66 wherein the at least one valve member is biased so that on removal of the material it moves back to the closed position.
- 69. An assembly according to claim 68 wherein the at least one valve member is bistable being biased towards closed when proximate the closed position and also biased towards open when proximate the open position.
- 70. An assembly according to claim 68 further including means for applying to the at least one valve member a non-linear closing force that is greater when the at least one valve member is proximate the closed position than when proximate the open position.
- 71. An assembly according to claim 70 wherein said means for applying a non-linear closing force comprises a conical shell of resilient material.
- 72. An assembly according to claim 71 wherein the conical shell defines an angle to the plane lying normal to the a conical axis wherein the angle is in the range of about 15 to about 45 degrees.
- 73. An assembly according to claim 72 wherein the angle is about 30 degrees.
- 74. An assembly according to claim 71 wherein said at least one valve member has sealing means for sealing with a respective passageway in the drum, the sealing means being integral with said conical shell.
- 75. An assembly according to claim 69 further including spring elements arranged in an over-centre fashion, thereby to bias said at least one valve member into one of an open or closed position depending on a proximity of the at least one valve member to that position.
- 76. An assembly according to claim 69 wherein a first area of said at least one valve member is subject to the reduced air pressure so as to urge said at least one valve member into its closed position when proximate that closed position, and wherein a second area of said material to be printed is subject to the reduced air pressure so as to urge said at least one valve member into its open position when proximate that open position.
- 77. An assembly according to claim 76 wherein said second area is greater than said first area.
- 78. An assembly according to claim 77 wherein the at least one valve member has a boss on a first surface for mechanically contacting said material to be printed and wherein a second surface opposing said first surface communicates with atmospheric pressure.
- 79. An assembly according to claim 78 wherein said first surface is engageable with the periphery of an associated passageway formed in said drum, thereby to restrict said passageway.
- 80. An assembly according to claim 78 wherein said at least one valve member is formed with a bore providing communication between a surface of said boss and said second surface.
- 81. An assembly according to claim 65 wherein a biasing means generates a force on the at least one valve member when open that is less than that force generated as a result of the reduced air pressure acting on the material to printed.
- 82. An assembly according to claim 81 wherein a depression or counter-sink is formed in a surface of the drum around each passageway.
- 83. An assembly according to claim 65 where said at least one valve member has a conical surface for sealing with a corresponding conical surface of the drum.
- 84. An assembly according to claim 65 wherein a plurality of valve members are formed in a matrix, the matrix engaging an inner surface of said vacuum drum.
- 85. An assembly according to claim 84 wherein the matrix is resiliently urged against the inner surface of said vacuum drum by retaining means located within the drum.
- 86. An assembly according to claim 85 wherein the drum is resiliently urged against said matrix by retaining means.
- 87. An assembly as claimed in claim 56 including means for damping the movement of the valve members.
- 88. An assembly according to claim 56 including printed material stripping means which is positioned within the drum and actuatable to be urged into contact with a drum wall thereby moving all contacted valve members from the open position to the closed position.
- 89. An assembly according to claim 88, wherein the printed material stripping means is mounted at a station where the leading edge of the printed material is required to be stripped.
- 90. A printing machine including a vacuum drum assembly as claimed in claim 56.
- 91. A duplex printing machine comprising:first and second vacuum drum assemblies each as claimed in claim 56 and with the drums parallel; means for reducing the air pressure inside the drums; means for feeding material to be printed onto the first drum so that the material can be held on the first drum by vacuum and rotated therewith; first printing means for printing on the material on the first drum; means for releasing the material from the first drum in a direction towards the second drum so that the material can be held on the second drum by vacuum and rotated therewith; second printing means for printing on the material on the second drum; and means for releasing the material from the second drum.
- 92. A machine as claimed in claim 91 further including, for the drum, means for holding or directing the material against or towards the drum at the position in which the material is fed onto the drum.
- 93. A machine as claimed in claim 91 further including, for each drum, means for holding or directing the material against or towards the respective drum at the position in which the material is fed onto the respective drum.
- 94. A machine as claimed in claim 91 wherein,the direction in which the material is released from the first drum towards the second drum is generally parallel to and opposite to the direction in which the material is fed onto the first drum, and the direction in which the material is released from the second drum is generally parallel to and opposite to the direction in which the material is fed onto the second drum.
Priority Claims (1)
Number |
Date |
Country |
Kind |
9718843 |
Sep 1997 |
GB |
|
Parent Case Info
This is a divisional of application Ser. No. 09/515,435 filed Feb. 29, 2000 which is a continuation of Application No. PCT/GB98/02654 filed Sep. 4, 1998.
US Referenced Citations (27)
Foreign Referenced Citations (4)
Number |
Date |
Country |
636079 |
Oct 1936 |
DE |
56-23147 |
Mar 1981 |
JP |
59-097925 |
Jun 1984 |
JP |
63-22675 |
Jan 1988 |
JP |
Continuations (1)
|
Number |
Date |
Country |
Parent |
PCT/GB98/02654 |
Sep 1998 |
US |
Child |
09/515435 |
|
US |