A journal foil bearing includes a bearing retainer having one slot configured to receive a top foil leading edge tab and another slot configured to receive a top foil trailing edge tab. A backup support structure, integral to the bearing retainer, extends between and is at least partially defined by
A journal foil bearing includes a bearing retainer having one slot configured to receive a top foil leading edge tab and another slot configured to receive a top foil trailing edge tab. A backup support structure, integral to the bearing retainer, extends between and is at least partially defined by the slots. The retainer is configured so that, during operation, the trailing edge tab contacts the support structure at a position close to the friction force, thereby minimizing top foil bending stress and improving bearing strength.
대표청구항▼
1. An apparatus forming a foil journal bearing comprising: a retainer member having an inner surface that defines an opening, said opening configured to receive a rotatable member;a top foil trailing edge tab slot extending into said retainer member;a top foil leading edge tab slot extending into sa
1. An apparatus forming a foil journal bearing comprising: a retainer member having an inner surface that defines an opening, said opening configured to receive a rotatable member;a top foil trailing edge tab slot extending into said retainer member;a top foil leading edge tab slot extending into said retainer member;a top foil having a trailing edge tab and a leading edge tab;wherein the trailing edge tab is disposed in the trailing edge tab slot;wherein the leading edge tab is disposed in the leading edge tab slot;a backup support structure positioned between and at least partially defined by said top foil trailing edge tab slot and said top foil leading edge tab slot, and said backup support structure integral to said retainer member;whereupon, in the absence of rotation of the rotatable member, the trailing edge tab is not in contact with the backup support;whereupon, during rotation of the rotatable member, the trailing edge tab is urged into contact with the backup support. 2. The apparatus of claim 1, wherein said top foil leading edge tab slot is canted. 3. The apparatus of claim 1, wherein said leading edge tab slot and said trailing edge tab slot have depths of unequal magnitude. 4. The apparatus of claim 1, wherein a distance between said leading edge tab slot and said trailing edge tab slot is less than about 0.5 inches. 5. The apparatus of claim 1, wherein said top foil leading edge tab slot has a leading slot width, said top foil trailing edge tab slot has a trailing slot width, and said leading slot width is greater than said trailing slot width. 6. The apparatus of claim 1, wherein said retainer member forms the opening in a cylindrical shape and said top foil trailing edge tab slot has a trailing slot depth of less than about 25% of the diameter of said opening. 7. The apparatus of claim 1, wherein said backup support structure extends circumferentially between said top foil trailing edge tab slot and said top foil leading edge tab slot. 8. An apparatus comprising: a top foil having a first segment and a second segment;wherein the first segment includes a top foil trailing edge tab;wherein the trailing edge tab includes a trailing edge tab distal end and a trailing edge tab opposite end;wherein the second segment includes a top foil leading edge tab;a retaining system coupled with said top foil and configured to at least partially enclose a rotatable member, said retaining system having a backup support structure, a trailing edge tab slot, and a leading edge tab slot;wherein the trailing edge tab is disposed in the trailing edge tab slot;wherein the leading edge tab is disposed in the leading edge tab slot;whereupon a friction force to the first segment urges only the trailing edge tab opposite end into contact with the backup support structure. 9. The apparatus of claim 8, further including a spring foil coupled to said retaining system. 10. A method of supporting a rotatable member comprising the steps of: installing a compliant assembly in a retaining system to form a journal foil bearing, said retaining system including a retainer member;installing a top foil within said journal foil bearing, the top foil having a portion positioned adjacent the rotatable member;wherein the portion includes a tab having a distal end and an opposite end;installing the rotatable member in said retainer member within said journal foil bearing; androtating said rotatable member to form a pressurized fluid film between said rotatable member and said compliant assembly such that only the opposite end of the tab of the top foil that is positioned adjacent the rotatable member is urged into contact with the retainer member to minimize bending moment and stress in the top foil during rotation of the rotatable member. 11. The method of claim 10, further comprising forming a pressurized air film between said rotatable member and said compliant assembly upon rotating said rotatable member. 12. The method of claim 10, wherein said step of installing the rotatable member in the journal foil bearing comprises positioning a shaft of an auxiliary power unit, an air cycle machine, a turbocompressor, a motor driven compressor, a fan, a blower, a turbogenerator, or a turboalternator in said journal foil bearing.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (12)
Glaser Jerry (Playa Del Rey CA) Sirridge Henry A. (Palos Verdes Peninsula CA) Ibach Ernest J. (Los Angeles CA), Bearing foil stiffener.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.