This disclosure is directed to an implement, for instance, a box landscape scraper. More in particular, the disclosure is directed to a scraper that has one actuator for setting the blade height of the implement and another actuator for controlling the tilt of the implement. The tilt actuator has a first end operatively coupled to a first shaft and a second end operatively coupled to a second shaft. As the tilt actuator moves between expanded and contracted positions, the first and second shafts rotate in opposite directions thereby creating a desired level of tilt of the scraper. The height actuator may independently adjust the height of the blade without changing the amount of tilt. The tilt actuator may independently adjust the amount of tilt of the blade without changing the blade height.
As used herein, the terms left, right, forward, rearward, inboard, outboard, top, bottom, vertical, horizontal, above, and below are used for the sake of convenience and ease in describing the various features of the embodiments as they appear in the drawings, and the terms are not to be deemed as limiting in any sense. Further, while the drawings show a tow-behind type, box scraper, the principles of the invention may be practiced with other implements.
The exemplary implement comprises a tow-behind, wheeled box scraper 20. The scraper 20 may be towed behind a tractor or other implement with a tow bar 22 extending from a forward end 24 of the box scraper. The box scraper 20 may be supported with left and right wheels 26,28 at the rearward end 30 of the box scraper. The box scraper 20 has a mold board 32 supporting a scraping blade 34 and side panels 36 extending forward from the mold board to contain the scraped material. The mold board 32 and scraper blade 34 may be aligned generally perpendicular to the length of the tow bar 22 and the direction of travel of the box scraper in operation, although in some applications the mold board and/or blade may be adjustably pivoted or angled relative to the tow bar and direction of motion to direct scraped material to one side of the box scraper. Together, the mold board 32, the blade 34, and side panels 36 define an interior of the box scraper. The box scraper 20 has a forward lateral frame member 38 extending generally parallel to the mold board and extending between forward, upper ends of the opposite side panels to provide additional rigidity for the box scraper. Bracing 40 may be provided between the forward lateral frame member 38 and the mold board 32 for additional rigidity. A center brace 42 extending between the tow bar 22 and the mold board 32 may also be provided for additional structural support. Gussets 44 may be provided between the forward lateral frame member 38 and side panels 36, and between the mold board 32 and the side panels 36 to provide additional structural support for the box scraper. The tow bar 22 may extend forward from the forward lateral frame member 38 to enable the box scraper to be towed behind another implement. A conventional hitch 46 may be provided on the distal end of the tow bar to facilitate towing. The tow bar may have a strengthening gusset 48 between the tow bar 22 and the forward lateral frame member 38.
On the rearward facing side of the mold board, a plurality of shaft supports may be provided with left and right cylindrical shafts 50,52 extending in a direction generally parallel to the mold board 32 and generally vertically centered relative to the mold board. To support each of the shafts, there are left and right inboard shaft supports 54,56 and left and right outboard shaft supports 58,60 extending rearward from the face of the mold board 32. The left shaft 50 is rotatably mounted to the left outboard 58 and left inboard 54 shaft supports. The right shaft 52 is rotatably mounted to the right outboard 60 and right inboard 56 shaft supports. Both shafts rotate 50,52 about their respective longitudinal center axes. The center axes of the shafts 50,52 may be transverse to the direction of motion of travel of the implement. The center axes of the shafts may be co-linearly aligned with each other. The shafts 50,52 may be of equal length and centered (e.g., vertically and/or horizontally) on the mold board 32 with their proximal ends terminating in a lateral centerline of the box scraper and/or mold board. The left and right shafts 50,52 extend from the respective outboard shaft supports 58,60 and pass through the inboard shaft supports 54,56 with proximal ends of the shaft adjacent to each other generally at the lateral centerline of the mold board 32. The left and right outboard shaft supports 58,60 may each comprise a cup into which the respective left and right shaft 50,52 is received, providing rotational motion with no axial motion of the shaft relative to the cup. The left and right inboard shaft supports 54,56 may comprise a bushing allowing for rotational motion of the respective shaft relative to the support. The left and right inboard shaft supports 54,56 and/or the left and right outboard shaft supports 58,60 may comprise lubricated bearings to facilitate rotation.
Adjacent to or on distal ends of each of the left and right shafts, adjacent to the respective outboard shaft support, each shaft 50,52 may be provided with an axle member 62,64. The axle member 62,64 may project radially from the shaft 50,52 and support the left and right wheels 26,28 on a distal end of the axle member. The left and right wheels 26,28 may be rotatably coupled to the distal end of the axle member 62,64. While the drawings show one wheel comprising the left and right wheel, multiple wheels may be provided as an axle assembly on the distal end of each axle member. For instance, the left and right wheels may comprise a plurality of left wheels and a plurality of right wheel arranged in sets, by way of example, the right wheel may comprise a right wheel set with one wheel on an inboard side of the axle member and another wheel on an outboard side of the axle member, and the left wheel may comprise a left wheel set with one wheel on an inboard side of the axle member and another wheel on an outboard side of the axle member.
The implement has a height actuator 70 that sets the height of the blade/scraper of the implement. The height actuator has first and second ends 72,74. The height actuator first end 72 may be pivotally mounted to a gusset 76 extending vertically upward from the center brace 42 between the forward lateral frame member 38 and the mold board 32. The second end 74 of the height actuator 70 may be operatively connected to a tilt actuator 80 with first and second pivoting brackets 82,84 as described below. The height actuator 70 may be hydraulic, pneumatic, electric, or manual. Operation of the height actuator 70 will be described in greater detail below.
The tilt actuator 80 sets an amount of tilt of the blade of the implement. As best shown in
The first and second ends 86,88 of the tilt actuator 80 also provide mounts for the first and second brackets 82,84 of the height actuator 70. As shown in
The use of a single blade height actuator 70 and a single independent tilt actuator 80 allows the blade 34 of the implement to be tilted in either direction while the blade height stays fixed. The disclosed embodiments allow the implement to be tilted with the separate single tilt actuator without changing the blade height. The disclosed embodiments allow the implement to be lifted with one blade height actuator without changing the tilt angle. The disclosed embodiments allow the implement to generate improved cutting force as the fulcrum point is moved laterally outboard which tends to make the blade more stable when the unit is tilted to extreme angles. The disclosed embodiments allow the blade height actuator and tilt actuators to work together to set an amount of tilt and the blade height. With the axle members extending from the distal ends of the shafts, there is improved weight distribution and stability. The disclosed embodiments eliminate the need to use multiple tilt cylinders at each axle to change the position of the individual axle relative to the mold board.
In view of the foregoing, it will be seen that the several advantages are achieved and attained. The embodiments were chosen and described in order to best explain the principles and the practical application of the embodiments to thereby enable others skilled in the art to best utilize the various embodiments and with various modifications as are suited to the particular use contemplated. As various modifications could be made in the constructions and methods herein described and illustrated without departing from the scope of the invention, it is intended that all matter contained in the foregoing description or shown in the accompanying drawings shall be interpreted as illustrative rather than limiting. Thus, the breadth and scope of the present invention should not be limited by any of the above-described exemplary embodiments, but should be defined only in accordance with the following claims appended hereto and their equivalents.