Self pumping oil film bearing
First Claim
1. A system for use in a rolling mill oil film bearing to remove a laminar flow of oil exiting tangentially from between a rotating sleeve and a fixed bushing surrounding the sleeve, said system comprising:
- confinement surfaces defining an annular chamber arranged to receive said laminar flow of oil;
impellers projecting into said chamber, said impellers being rotatable with and at the velocity of said sleeve to thereby propel said oil around said chamber; and
an outlet communicating tangentially with said chamber for removing said oil being propelled around said chamber by the rotation of said impellers, the size of said outlet in relation to the volume of oil received in said chamber being such that said chamber remains filled with oil during rotation of said impellers.
3 Assignments
0 Petitions
Accused Products
Abstract
A system is disclosed for use in a rolling mill oil film bearing to remove a laminar flow of oil exiting tangentially from between a rotating sleeve and a fixed bushing surrounding the sleeve. The system comprises confinement surfaces cooperating with the sleeve and the bushing to define an annular chamber arranged to receive the exiting laminar flow of oil. Impellers project into the chamber and are rotatable with and at the velocity of the sleeve to thereby propel the oil around the annular chamber. An outlet communicates tangentially with the annular chamber for removing oil being propelled around the chamber by the rotation of the impellers. The size of the outlet in relation to the volume of oil received in the annular chamber is such that the chamber remains filled with oil during steady state operation of the bearing.
17 Citations
16 Claims
-
1. A system for use in a rolling mill oil film bearing to remove a laminar flow of oil exiting tangentially from between a rotating sleeve and a fixed bushing surrounding the sleeve, said system comprising:
-
confinement surfaces defining an annular chamber arranged to receive said laminar flow of oil; impellers projecting into said chamber, said impellers being rotatable with and at the velocity of said sleeve to thereby propel said oil around said chamber; and an outlet communicating tangentially with said chamber for removing said oil being propelled around said chamber by the rotation of said impellers, the size of said outlet in relation to the volume of oil received in said chamber being such that said chamber remains filled with oil during rotation of said impellers. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
-
-
15. A system for use in a rolling mill oil film bearing in which oil is introduced between a rotating sleeve and a fixed bushing surrounding the sleeve, and in which the oil exits tangentially from an inboard end and an outboard end of said bearing in the form of laminar flows, said system comprising:
-
confinement surfaces cooperating with said sleeve and said bushing to define an annular inboard chamber and an annular outboard chamber arranged respectively to receive the tangentially exiting laminar flows of oil from the inboard end and the outboard end of said bearing; impellers projecting into said chambers, said impellers being rotatable with and at the speed of said sleeve to thereby propel said oil received in said chambers around said chambers; and an inboard outlet and an outboard outlet respectively communicating tangentially with said inboard chamber and said outboard chamber for removing said oil being propelled around said chambers by the rotation of said impellers, the size of said outlets in relation to the volume of oil received in said chambers being such that said chambers remain filled with oil during rotation of said impellers.
-
-
16. In a rolling mill oil film bearing, a method of removing a laminar flow of oil exiting tangentially from between a rotating sleeve and a fixed bushing surrounding the rotating sleeve, said method comprising:
-
receiving the laminar flow of oil in an annular chamber; rotatively propelling the oil around said chamber at the velocity of said rotating sleeve; and removing the rotatively propelled oil tangentially from said chamber at a rate such that said chamber remains filled with oil.
-
Specification