A suspension system for a tracked work vehicle is provided that includes an undercarriage beam and a roller wheel beam assembly having a plurality of roller wheels and a roller wheel beam having a front clevis and a rear clevis. The suspension system also includes a front bushing mount coupled to th
A suspension system for a tracked work vehicle is provided that includes an undercarriage beam and a roller wheel beam assembly having a plurality of roller wheels and a roller wheel beam having a front clevis and a rear clevis. The suspension system also includes a front bushing mount coupled to the front clevis and a rear bushing mount coupled to the rear clevis. Moreover, the front bushing mount and the rear bushing mount are rigidly coupled to the undercarriage beam and configured to damp roll of the roller wheel beam relative to the undercarriage beam. Additionally, the suspension system includes at least one vertical mount disposed between the roller wheel beam and the undercarriage beam. Each of the at least one vertical mount is configured to provide vertical support for the roller wheel beam and to damp vertical movement of the roller wheel beam relative to the undercarriage beam.
대표청구항▼
1. A suspension system, for a tracked work vehicle, comprising: an undercarriage beam;a roller wheel assembly comprising a roller wheel beam having a front clevis and a rear clevis, and a plurality of roller wheels rotatably coupled to the roller wheel beam;a front bushing mount coupled to the front
1. A suspension system, for a tracked work vehicle, comprising: an undercarriage beam;a roller wheel assembly comprising a roller wheel beam having a front clevis and a rear clevis, and a plurality of roller wheels rotatably coupled to the roller wheel beam;a front bushing mount coupled to the front clevis, and a rear bushing mount coupled to the rear clevis, wherein the front bushing mount and the rear bushing mount are rigidly coupled to the undercarriage beam, and configured to damp roll of the roller wheel beam relative to the undercarriage beam, each bushing mount comprising a bushing frame having a bore, and a resilient bushing disposed within the bore, the bushing frame rigidly coupled to the undercarriage beam, and the resilient bushing resiliently coupled to a respective clevis; andat least one vertical mount disposed between the roller wheel beam and the undercarriage beam, the at least one vertical mount comprising: a first pad configured to engage a first notch in the undercarriage beam, wherein the first pad comprises two first flanges that extend upwardly and are located at opposing lateral ends of the first pad;a second pad configured to engage a second notch in the roller wheel beam, wherein the second pad comprises two second flanges that extend downwardly and are located at opposing lateral ends of the second pad; anda resilient pad disposed between the first and second pads, wherein the resilient pad is configured to damp vertical movement of the roller wheel beam relative to the undercarriage beam,wherein the at least one vertical mount is configured to provide vertical support for the roller wheel beam, and to damp vertical movement of the roller wheel beam relative to the undercarriage beam. 2. The suspension system of claim 1, wherein the first flanges engage opposing lateral faces of the undercarriage beam to orient the vertical mount in relation to the undercarriage beam, and the second flanges engage opposing lateral faces of the roller wheel beam to orient the vertical mount in relation to the roller wheel beam. 3. The suspension system of claim 1, wherein the bushing frame comprises: a first face in facing relation with an inner surface of a first arm of a respective clevis, wherein the first face comprises: a first upper angular portion angled away from the inner surface of the first arm at a threshold angle;a first middle portion oriented substantially parallel to the inner surface of the first arm; anda first lower angular portion angled away from the inner surface of the first arm at the threshold angle;a second face in facing relation with an inner surface of a second arm of the respective clevis, wherein the second face comprises: a second upper angular portion angled away from the inner surface of the second arm at the threshold angle;a second middle portion oriented substantially parallel to the inner surface of the second arm; anda second lower angular portion angled away from the inner surface of the second arm at the threshold angle. 4. The suspension system of claim 3, wherein the bushing frame is configured to block roll of the roller wheel beam beyond the threshold angle, via contact between the angular portions and the respective inner surfaces. 5. The suspension system of claim 4, wherein the threshold angle is less than 6 degrees. 6. The suspension system of claim 3, wherein the first middle portion is configured to engage the inner surface of the first arm, and the second middle portion is configured to engage the inner surface of the second arm to substantially block yaw of the roller wheel beam relative to the undercarriage beam. 7. A suspension system for a work vehicle, comprising: a roller wheel beam comprising a clevis, wherein the clevis includes a first arm and a second arm;a bushing mount resiliently coupled to the clevis between the first arm and the second arm, wherein the bushing mount comprises: a bushing frame having a bore and at least one face configured to block rotation of the roller wheel beam beyond a threshold angle via contact between the at least one face and an inner surface of a respective arm of the clevis;a resilient bushing disposed within the bore, and configured to damp roll of the roller wheel beam via compression of the resilient bushing; andat least one vertical mount disposed between the roller wheel beam and an undercarriage beam, the at least one vertical mount comprising: a first pad configured to engage a first notch in an undercarriage beam, wherein the first pad comprises two first flanges that extend upwardly and are located at opposing lateral ends of the first pad;a second pad configured to engage a second notch in the roller wheel beam, wherein the second pad comprises two second flanges that extend downwardly and are located at opposing lateral ends of the second pad; anda resilient pad disposed between the first and second pads, wherein the resilient pad is configured to damp vertical movement of the roller wheel beam relative to the undercarriage beam,wherein the at least one vertical mount is configured to support the undercarriage beam, and to damp vertical movement of the roller wheel beam relative to the undercarriage beam. 8. The suspension system of claim 7, comprising a pin assembly configured to resiliently couple the bushing mount to the clevis. 9. The suspension system of claim 7, wherein the bushing frame comprises: a first face in facing relation with an inner surface of the first arm, wherein the first face comprises: a first upper angular portion angled away from the inner surface of the first arm at a threshold angle;a first middle portion oriented substantially parallel to the inner surface of the first arm; anda first lower angular portion angled away from the inner surface of the first arm at the threshold angle;a second face in facing relation with an inner surface of the second arm, wherein the second face comprises: a second upper angular portion angled away from the inner surface of the second arm at the threshold angle;a second middle portion oriented substantially parallel to the inner surface of the second arm; anda second lower angular portion angled away from the inner surface of the second arm at the threshold angle. 10. The suspension system of claim 9, wherein the threshold angle is less than 6 degrees. 11. The suspension system of claim 9, wherein the first middle portion is configured to engage the inner surface of the first arm, and the second middle portion is configured to engage the inner surface of the second arm to substantially block yaw of the roller wheel beam relative to the undercarriage beam. 12. The suspension system of claim 7, wherein the resilient bushing comprises a plurality of cutouts configured to vary a compressibility of the resilient bushing. 13. The suspension system of claim 7, wherein the bushing frame is formed from a material comprising ductile iron.
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이 특허에 인용된 특허 (15)
Nance, John D., Compression and torsion damping wheel suspension system.
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