Claims
- 1. A vibration-minimizing suspension mechanism for a press roll, the press roll forming a press nip with only an opposing roll, each of the rolls having a rotational axis, the press nip being adapted to impart a linear load on a fiber web passing therethrough, the linear load being oriented through the rotational axes of the press roll and the opposing roll, said suspension mechanism comprising:a suspension arm having opposed ends and a medially-disposed pivot, the press roll being rotatably engaged at the rotational axis thereof with one of the opposed ends of the suspension arm, the other of the opposed ends of the suspension arm being configured to have a force applied thereon so as to provide the linear load at the press nip about the pivot, the suspension arm further being pivotably and adjustably mounted at the pivot so as to allow the pivot to be adjusted in substantially parallel relation to the linear load, the adjustability of the pivot thereby allowing a mounting line along the suspension arm, the mounting line being defined by the pivot and the rotational axis of the press roll, to be maintained in substantially perpendicular orientation to the linear load to thereby minimize vibration in the press roll.
- 2. A mechanism according to claim 1 wherein the mounting line is disposed at an angle of between about eighty-eight degrees and about ninety-two degrees with respect to the linear load.
- 3. A mechanism according to claim 1 wherein the mounting line is disposed at an angle of between about eighty-nine degrees and about ninety-one degrees with respect to the linear toad.
- 4. A mechanism according to claim 1 wherein the mounting line is disposed at an angle of about ninety degrees with respect to the linear load.
- 5. A mechanism according to claim 1 wherein the opposed ends and the pivot are disposed along the mounting line.
- 6. A mechanism according to claim 1 wherein the force is substantially constant.
- 7. A mechanism according to claim 1 wherein the linear load produces a linear load torque on the suspension arm about the pivot and the force is configured to produce an opposing torque on the suspension arm, the opposing torque being at least equal to the linear load torque.
- 8. A mechanism according to claim 1 wherein the linear load is between about 80 kN/m and about 500 kN/m.
- 9. A mechanism according to claim 1 wherein the linear load is between about 80 kN/m and about 100 kN/m.
- 10. A mechanism according to claim 1 wherein the press roll has a diameter of between about 600 mm and about 2000 mm.
- 11. A mechanism according to claim 1 wherein the press roll has a diameter of between about 800 mm and about 1500 mm.
- 12. A vibration-minimizing press nip for a paper making machine, said press nip comprising:a press roll having a rotational axis; an opposing roll having a rotational axis and cooperating with the press roll to form the press nip therebetween, the press nip being adapted to impart a linear load on a fiber web passing therethrough, the linear load being oriented through the rotational axes of the press roll and the opposing roll; and a suspension arm having opposed ends and a medially-disposed pivot, the press roll being rotatably engaged at the rotational axis thereof with one of the opposed ends of the suspension arm, the other of the opposed ends of the suspension arm being configured to have a force applied thereto so as to provide the linear load at the press nip about the pivot, the suspension arm further being pivotably and adjustably mounted at the pivot so as to allow the pivot to be adjusted in substantially parallel relation to the linear load, the adjustability of the pivot thereby allowing a mounting line along the suspension arm, the mounting line being defined by the pivot and the rotational axis of the press roll, to be maintained in substantially perpendicular orientation to the linear load to thereby minimize vibration in the press roll.
- 13. A mechanism according to claim 12 wherein the mounting line is disposed at an angle of between about eighty-eight degrees mid about ninety-two degrees with respect to the linear load.
- 14. A mechanism according to claim 12 wherein the mounting line is disposed at an angle of between about eighty-nine degrees and about ninety-one degrees with respect to the linear load.
- 15. A mechanism according to claim 12 wherein the mounting line is disposed at an angle of about ninety degrees with respect to the linear load.
- 16. A mechanism according to claim 12 wherein the opposed ends and the pivot are disposed along the mounting line.
- 17. A mechanism according to claim 13 wherein the force is substantially constant.
- 18. A mechanism according to claim 13 wherein the linear load produces a linear load torque on the suspension arm about the pivot and the force is configured to produce an opposing torque on the suspension arm, the opposing torque being at least equal to the linear load torque.
- 19. A mechanism according to claim 12 wherein the linear load is between about 0.1 kN/m and about 500 kN/m.
- 20. A mechanism according to claim 12 wherein the linear load is between about 80 kN/m and about 100 kN/m.
- 21. A mechanism according to claim 12 wherein the press roll has a diameter of between about 600 mm and about 2000 mm.
- 22. A mechanism according to claim 12 wherein the press roll has a diameter of between about 800 mm and about 1500 mm.
Priority Claims (1)
Number |
Date |
Country |
Kind |
9901092 |
Mar 1999 |
SE |
|
CROSS-REFERENCE TO RELATED APPLICATIONS
This application is a continuation of International Patent Application No. PCT/SE 00/00183, filed Jan. 31, 2000, which is incorporated herein by reference in its entirety.
US Referenced Citations (8)
Foreign Referenced Citations (1)
Number |
Date |
Country |
1 528 962 |
Oct 1978 |
GB |
Continuations (1)
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Number |
Date |
Country |
Parent |
PCT/SE00/00183 |
Jan 2000 |
US |
Child |
09/962278 |
|
US |