Compact tool carriers having a loader mounted to a low-profile mainframe are disclosed. In some embodiments, the pivot points of the mainframe about which the loader is pivoted are low relative to the mainframe to reduce the mainframe size and to lower the center of gravity to improve the stability
Compact tool carriers having a loader mounted to a low-profile mainframe are disclosed. In some embodiments, the pivot points of the mainframe about which the loader is pivoted are low relative to the mainframe to reduce the mainframe size and to lower the center of gravity to improve the stability of the compact tool carrier during use.
대표청구항▼
1. A loader apparatus configured for standing operator control and comprising: a loader adapted to carry a tool, the loader being moveable between a down position and a vertically raised position;a loader support for supporting the loader, the loader support having a first side and a second side, th
1. A loader apparatus configured for standing operator control and comprising: a loader adapted to carry a tool, the loader being moveable between a down position and a vertically raised position;a loader support for supporting the loader, the loader support having a first side and a second side, the loader being free from direct attachment to the loader support;a first linkage pivotally attached to the first side of the loader support at a first linkage pivot point;a second linkage pivotally attached to the first side of the loader support at a second linkage pivot point;an actuator pivotally attached to the first side of the loader support at an actuator pivot point;a control station having operator controls for propelling the loader apparatus forward and for raising and lowering the loader; andan operator platform for standing operation of the operator controls of the control station, the operator platform being located toward a rear of the loader apparatus such that the first linkage pivot point, second linkage pivot point, and the actuator pivot point are disposed forward of the operator platform, the first linkage pivot point, second linkage pivot point, and the actuator pivot point being disposed below the operator controls of the control station. 2. The loader apparatus as set forth in claim 1 wherein the loader support comprises a lower frame and an upper frame, the control station being mounted to the upper frame. 3. The loader apparatus as set forth in claim 1 wherein the loader support incorporates a single weldment. 4. The loader apparatus as set forth in claim 1 wherein the loader comprises a loader arm, the loader arm being pivotally connected to the first side of the loader support. 5. The loader apparatus as set forth in claim 4 wherein the first and second linkages are pivotally attached to the loader arm. 6. The loader apparatus as set forth in claim 4 wherein the loader arm is a first loader arm, the loader comprising a second loader arm, the second loader arm being pivotally connected to the second side of the loader support. 7. A loader apparatus for standing or walk-behind operator control and comprising: a control station having operator controls toward a rear of the loader apparatus;a loader adapted to carry a tool, the loader being moveable between a down position and a vertically raised position;a rigid frame for supporting the control station and the loader, the rigid frame having a first side, a second side, a top, and a bottom;a first linkage pivotally attached to the first side of the rigid frame at a first pivot point and pivotally attached to the loader at a second pivot point;an actuator pivotally attached to the first side of the rigid frame at a third pivot point and pivotally attached to the loader at a fourth pivot point; anda second linkage pivotally attached to the first side of the rigid frame at a fifth pivot point and pivotally attached to the loader at a sixth pivot point, wherein, as the loader travels from the down position to the vertically raised position, the first, second, third, fourth, fifth and sixth pivot points are (1) disposed between the operator controls and the bottom of the rigid frame and/or (2) disposed forward of the control station. 8. The loader apparatus as set forth in claim 7 wherein the rigid frame defines a pocket toward a rear of the rigid frame to partially surround an operator. 9. The loader apparatus as set forth in claim 8 further comprising an operator platform at least partially within the pocket. 10. The loader apparatus as set forth in claim 7 wherein, in the vertically raised position, the first and second pivot points are disposed forward of the control station and the third, fourth, fifth and sixth pivot points are disposed between the operator controls and the bottom of the rigid frame. 11. The loader apparatus as set forth in claim 7 wherein the rigid frame comprises a lower portion and an upper portion attached to the lower portion, the first linkage, the second linkage and the actuator each being pivotally attached to the lower portion, the upper portion supporting the control station. 12. The loader apparatus as set forth in claim 7 wherein the rigid frame comprises a lower frame and an upper frame, the control station being attached to the upper frame. 13. The loader apparatus as set forth in claim 7 wherein the rigid frame incorporates a single weldment. 14. A loader apparatus for standing or walk-behind operator control and comprising: a loader adapted to carry a tool;a loader support for supporting the loader, the loader support having a first side and a second side, the loader being free from direct attachment to the loader support;a linkage pivotally attached to the first side of the loader support at a first pivot point and pivotally attached to the loader at a second pivot point;an actuator pivotally attached to the first side of the loader support at a third pivot point and pivotally attached to the loader at a fourth pivot point; anda drive mechanism for propelling the loader apparatus over a supporting surface, the drive mechanism having a drive sprocket defining a rotational axis R, the rotational axis R and a bottom of the first side of the loader support being separated by a vertical distance D5, the loader support comprising a forward-most pivot point with the first pivot point or the third pivot point being the forward-most pivot point, a vertical distance between the rotational axis R and the forward-most pivot point being less than 0.75 D5. 15. The loader apparatus as set forth in claim 14 wherein the loader support comprises a lower frame and an upper frame, the loader apparatus further comprising a control station having operator controls for propelling the loader apparatus forward and for raising and lowering the loader, the control station being attached to the upper frame. 16. The loader apparatus as set forth in claim 14 wherein the loader support incorporates a single weldment. 17. The loader apparatus as set forth in claim 14 wherein the linkage is a first linkage, the loader apparatus comprising a second linkage pivotally attached to the first side of the loader support at a fifth pivot point and pivotally attached to the loader at a sixth pivot point, the loader apparatus having a bottom at which the drive mechanism contacts the supporting surface, the rotational axis R and the bottom of the loader apparatus being separated by a vertical distance D1, the rotational axis R and each of the first, third and fifth pivot points being separated by a vertical distance, the vertical distance between the rotational axis R and the first pivot point being less than 1.5 times D1, the vertical distance between the rotational axis R and the third pivot point being less than 1.5 times D1, and the vertical distance between the rotational axis R and the fifth pivot point being less than 1.5 times D1. 18. The loader apparatus a set forth in claim 14 wherein the loader apparatus has a bottom at which the drive mechanism contacts the supporting surface, the rotational axis R and the bottom of the loader apparatus being separated by a vertical distance D1, the rotational axis R and each of the first and third pivot points being separated by a vertical distance, the loader support comprising a forward-most pivot point with the first pivot point or the third pivot point being the forward-most pivot point, the vertical distance between the rotational axis R and the forward-most pivot point being less than 1.5 times D1. 19. A loader apparatus for standing or walk-behind operator control and comprising: a machine structure comprising a mainframe and an upper frame, the machine structure defining a barrier guard;a control station having operator controls toward a rear of the loader apparatus;an actuator pivotally attached to the mainframe;a front linkage pivotally attached to the mainframe;a rear linkage pivotally attached to the mainframe; anda loader adapted to carry a tool, the loader being moveable between a down position and a vertically raised position, the front linkage being pivotally attached to the loader at a front linkage pivot point, the rear linkage being pivotally attached to the loader at a rear linkage pivot point, wherein: in the down position, the front linkage pivot point is (1) disposed within the barrier guard and/or (2) disposed forward of the barrier guard; andas the loader travels from the down position to the vertically raised position, the rear linkage pivot point is (1) disposed within the barrier guard and/or (2) disposed forward of the barrier guard. 20. The loader apparatus as set forth in claim 19 wherein, in the down position, the rear linkage pivot point is disposed within the barrier guard. 21. The loader apparatus as set forth in claim 19 wherein the actuator is pivotally attached to the loader at an actuator pivot point, wherein, in the down position, the actuator pivot point is (1) disposed within the barrier guard and/or (2) disposed forward of the barrier guard. 22. The loader apparatus as set forth in claim 21 wherein the mainframe has a first side and a second side, the rear linkage, actuator and front linkage each being pivotally attached to the first side of the mainframe. 23. The loader apparatus as set forth in claim 19 wherein the loader is free from direct attachment to the mainframe. 24. The loader apparatus as set forth in claim 19 wherein the mainframe incorporates a single weldment. 25. A loader apparatus for standing or walk-behind operator control and comprising: a machine structure comprising a mainframe and an upper frame, the machine structure defining a barrier guard;a control station having operator controls toward a rear of the loader apparatus;an actuator pivotally attached to the mainframe;a linkage pivotally attached to the mainframe; anda loader adapted to carry a tool, the loader being moveable between a down position and a vertically raised position, the linkage being pivotally attached to the loader at a linkage pivot point, wherein: in the down position, the linkage pivot point is disposed within the barrier guard; andas the loader travels from the down position to the vertically raised position, the linkage pivot point is (1) disposed within the barrier guard and/or (2) disposed forward of the barrier guard. 26. The loader apparatus as set forth in claim 25 wherein the mainframe incorporates a single weldment. 27. The loader apparatus as set forth in claim 25 wherein the loader is free from direct attachment to the mainframe.
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