Rotatable idler for undercarriage system in a track-type machine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B62D-055/14
B62D-055/32
출원번호
US-0974383
(2010-12-21)
등록번호
US-8770676
(2014-07-08)
발명자
/ 주소
Yelistratov, Alexei P.
출원인 / 주소
Caterpillar Inc.
대리인 / 주소
Liell & McNeil
인용정보
피인용 횟수 :
2인용 특허 :
10
초록▼
An undercarriage system for a track-type machine includes a ground engaging track, and an idler for the ground engaging track having a hub formed of a relatively lower hardness metallic material, and a compound annular rim capping the hub and being formed of a relatively higher hardness metallic mat
An undercarriage system for a track-type machine includes a ground engaging track, and an idler for the ground engaging track having a hub formed of a relatively lower hardness metallic material, and a compound annular rim capping the hub and being formed of a relatively higher hardness metallic material. The hub includes a radially projecting outer spine, which is annular and concentric with an idler mounting bore defined by an inner peripheral surface of the hub. First and second rim components of the compound annular rim abut one another and sandwich the radially projecting outer spine. Each of the first and second abutting rim components includes a stepped profile. The idler may include a remanufactured idler having a reusable hub and replacement compound annular rim.
대표청구항▼
1. A rotatable idler for an undercarriage system in a track-type machine comprising: a one-piece hub defining an axis of rotation and being formed of a relatively lower hardness metallic material, the one-piece hub having an outer peripheral surface, a first and a second end surface located on first
1. A rotatable idler for an undercarriage system in a track-type machine comprising: a one-piece hub defining an axis of rotation and being formed of a relatively lower hardness metallic material, the one-piece hub having an outer peripheral surface, a first and a second end surface located on first and second axial sides of the one-piece hub, an inner peripheral surface defining an idler mounting bore, and a radially projecting outer spine, the radially projecting outer spine having an annular configuration circumferential of the axis of rotation, and being positioned axially between the first and second end surfaces; anda compound annular rim coaxial with the one-piece hub and being formed of a relatively higher hardness metallic material, the compound annular rim capping the one-piece hub and including an inner rim surface, and a track contacting outer rim surface having a crowned profile;the compound annular rim further including a first and a second rim component, each of the rim components having a stepped profile, an outboard shoulder segment relatively tightly fitted upon the outer peripheral surface and located axially outward of the radially projecting outer spine, and an inboard crown segment relatively loosely fitted upon the outer peripheral surface and axially overlapping the radially projecting outer spine. 2. The rotatable idler of claim 1 wherein each of the outboard shoulder segments is interference fitted upon the outer peripheral surface, and each of the inboard crown segments is slip fitted upon the outer peripheral surface. 3. The rotatable idler of claim 2 wherein the inboard crown segments abut one another, and the outboard shoulder segments abut the radially projecting outer spine. 4. The rotatable idler of claim 2 further comprising a first annular weld attaching the outboard shoulder segment of the first rim component to the one-piece hub, and a second annular weld attaching the outboard shoulder segment of the second rim component to the one-piece hub. 5. The rotatable idler of claim 4 comprising a total of two welds attaching the compound annular rim to the one-piece hub. 6. The rotatable idler of claim 4 wherein each of the first and second axial sides of the one-piece hub includes an axial side surface having a bathtub shaped profile of rotation about the axis of rotation of the idler. 7. The rotatable idler of claim 6 wherein the first and second rim components are mirror images of one another, and the inboard crown segments abut one another at a plane bisecting the axis of rotation of the idler, and wherein the outboard shoulder segments include a first axial length, and the inboard crown segments include a second axial length greater than the first axial length. 8. The rotatable idler of claim 7 wherein the inner surface of the compound annular rim includes a total of three concentric cylindrical surface segments. 9. The rotatable idler of claim 8 wherein the concentric cylindrical surface segments include a first cylindrical surface segment located on the shoulder segment of the first rim component, a second cylindrical surface segment located on the shoulder segment of the second rim component, and a middle cylindrical surface segment located in part on the first rim component and also in part on the second rim component. 10. A method of making a rotatable idler for an undercarriage system in a track-type machine comprising the steps of: capping a one-piece hub formed of a relatively lower hardness metallic material and defining an axis of rotation with a compound annular rim formed of a relatively higher hardness metallic material;sandwiching a radially projecting outer spine of the one-piece hub axially between abutting rim components of the compound annular rim during capping the one-piece hub; andattaching the compound annular rim to the one-piece hub;wherein the step of capping includes reversibly coupling the compound annular rim with the one-piece hub, and the step of attaching includes irreversibly coupling the compound annular rim with the one-piece hub. 11. The method of claim 10 wherein the step of capping further includes a step of interference fitting a total of two rim components upon the one-piece hub, and wherein the step of attaching further includes welding the rim components to the one-piece hub with a total of two welds. 12. The method of claim 11 wherein the step of sandwiching further includes relatively tightly abutting the rim components against the radially projecting outer spine, and relatively loosely abutting the rim components against one another. 13. The method of claim 12 wherein the compound annular rim includes an outer rim surface having a crowned profile, wherein the step of interference fitting further includes interference fitting outboard shoulder segments of the rim components upon the one-piece hub, and the method further including a step of slip fitting inboard crown segments of the rim components over the radially projecting outer spine during capping the one-piece hub. 14. The method of claim 13 wherein making the rotatable idler includes remanufacturing a rotatable idler removed from service in an undercarriage system for a track-type machine, and wherein the method further includes a step of removing material of the one-piece hub to reduce its diameter, prior to the step of capping the one-piece hub. 15. An undercarriage system for a track-type machine comprising: a ground engaging track including a plurality of track shoes, and a plurality of track links coupling together the track shoes in an endless track chain;an idler for the ground engaging track including an idler body having a hub formed of a relatively lower hardness metallic material, and a compound annular rim capping the hub and being formed of a relatively higher hardness metallic material;the hub including an inner peripheral surface defining an idler mounting bore, an outer peripheral surface, and a radially projecting outer spine, and the radially projecting outer spine having an annular configuration and being concentric with the idler mounting bore;the compound annular rim having an inner rim surface, a track contacting outer rim surface having a crowned profile, and first and second abutting rim components sandwiching the radially projecting outer spine, each of the first and second abutting rim components having a stepped profile and including a portion of the inner rim surface and a portion of the track contacting outer rim surface; anda first interference coupling between the first rim component and the hub, and a second interference coupling between the second rim component and the hub. 16. The undercarriage system of claim 15 further comprising a first annular weld attaching the first rim component to the hub, and a second annular weld attaching the second rim component to the hub. 17. The undercarriage system of claim 16 wherein each of the first and second rim components includes an outboard shoulder segment, and an inboard crown segment, and wherein the first and second rim components are mirror images of one another and the inboard crown segments abut one another. 18. The undercarriage system of claim 17 wherein the hub defines an axis of rotation and includes a first axial side, and a second axial side, and wherein each of the axial sides includes an axial side surface having a bathtub shaped profile of rotation about the axis of rotation.
Diekevers, Mark S.; Clarke, Donovan S.; Steiner, Kevin L.; Zheng, Jianping; Penrod, Victor M.; Recker, Roger L., Machine and track assembly for use therewith.
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