Abstract
The invention relates to a pivoting support wheel (2), which is aligned and pushed forwards, for a reversible plough (1), said wheel guiding the reversible plough into a determined working position and has self-guiding properties which prevent adverse lateral forces to the plough.
Claims
1. Rotary plow (1) with pivoting support wheel (2) for mounting on a plow frame (3) of a rotary plow (1), wherein the plow frame (3) comprising a plurality of mirror-inverted plow bodies (4, 4) lying opposite one another in pairs may be brought from a right-hand turning into a left-hand turning position by a rotation of nearly 180, wherein a support wheel (5) is pivotably mounted on the plow frame (3) for depth limitation of the plow bodies (4, 4) by means of an arm (6), wherein the arm (6) supporting the support wheel (5) is limited in its pivot angle about a first axis (8) at least approximately parallel to the ground surface (7) or at least approximately running through the middle plane (20) of the plow frame (3) upon turning of the plow frame (3), and may be locked into a respective working position corresponding to the plow orientation following this rotation by a further device, characterized in that the movement of the arm (6) takes place about the first axis (8) in the direction of travel or is aligned forwards and describes a maximum angle () of 160, wherein the arm (6) or the support wheel (5) is mounted to rotate about a second axis (9) which is arranged in a plane running at least approximately perpendicular to the ground surface (7) and at least approximately parallel to the direction of travel, wherein the second forwardly-inclined axis (9) is arranged in front of the wheel contact point (10) in order to form an intersection point (11) with the ground surface (7), which forms an imaginary guide point, around which the support wheel 5 follows.
2. Rotary plow with pivoting support wheel according to claim 1, characterized in that the pivoting movement of the arm (6) or of the support wheel (5) about the second axis (9) is respectively offset to the right and left from a middle position by a pivot angle of maximum of 60.
3. Rotary plow with pivoting support wheel according to claim 2, characterized in that the pivoting movement about the second axis (9) from a middle position is respectively limited to a pivot angle of a maximum of 20 to the right and the left.
4. Rotary plow with pivoting support wheel according to claim 1, characterized in that the arm (6) or the pivot bearing (12) may be telescoped or displaced in the direction of the second axis (9).
5. Rotary plow with pivoting support wheel according to claim 1, characterized in that the pivoting support wheel (2), the pivot bearing (12) or the arm (6) is pivotable about a third axis (19) which is arranged approximately perpendicular to the ground surface (7) or to the plane of symmetry (20) of the plow frame (4).
6. Rotary plow with pivoting support wheel according to claim 1, characterized in that the third axis (19) about which the pivoting support wheel (2), the pivot bearing (12) or the arm (6) is pivotally mounted, corresponds to the pivot axis (21, 21) of a plow body (4, 4) or plow body pair.
7. Rotary plow with pivoting support wheel according to claim 1, characterized in that means to limit the pivotal speed of the pivoting support wheel (2) or of the arm (6) about the first and/or second axis (8, 9) are arranged on the arm (6) or on the plow frame (3).
8. Rotary plow with pivoting support wheel according to claim 1, characterized in that the pivoting movement of the pivoting support wheel (2) about the first axis and/or the second axis (8, 9) is supported or blocked by at least one external power device.
9. Rotary plow with pivoting support wheel according to claim 1, characterized in that the movement of the pivoting support wheel (2) or of the arm (6) about the second axis (9) may be limited by means of locking means in a position rotated through 90 with respect to the middle position.
10. Rotary plow with pivoting support wheel according to claim 1, characterized in that the pivoting support wheel (2) is fastened in the vicinity of the last or the next to last plow body (4, 4).
Description
[0018] Further details and advantages of the subject matter of the invention may be gathered from the following description and the associated drawings, wherein an exemplary embodiment with the necessary details is shown:
[0019] FIG. 1 shows a rotary plow construction in a side elevation view from the left
[0020] FIG. 2 shows a top plan view of a rotary plow construction
[0021] FIG. 3 shows the rear region of a rotary plow construction with a pivoting support wheel in a perspective view.
[0022] FIG. 1 shows a rotary plow 1 in a side view. This is a rotary plow construction, which is coupled via the mounting frame 14 as well as its upper and lower coupling points 16, 17 to the three-point linkage of a towing tractor (not shown) which carries and pulls the rotary plow. The rotary plow 1 may be moved from a lowered work position into a raised position for transporting or turning the plow via the three-point linkage of a towing tractor. In order to turn the plow, the plow frame 3 is pivotable by means of a hydraulic cylinder 15 or other devices through an angle of approximately 180 from a right-handed position to a left-handed position about an axis of rotation 18 which is rotatably mounted in the mounting frame 14. For this purpose, the hydraulic cylinder 15 is connected on one side to the mounting frame 14, while it is pivotally connected to the plowing frame 3 at its other end via a lever at a distance from the axis 18. In a middle position, the plow frame 3 may be locked with the mounting frame 14, for example, via a locking pin for transport purposes. A plurality of right-handed and left-handed plow tools 4, 4 are fastened to the plow frame 3 at a distance behind one another. Right-handed and a left-handed plow tools 4, 4 respectively form a preferably symmetrically-constructed fixing unit above the middle plane 20 of the plow frame 4. In the working position, the rotary plow 1 is drawn through the ground in the direction of travel. The direction of travel of the tractor pulling the plow in the working position is designated as the direction of travel. The plow tools 4, 4 accordingly cut a part of the ground below the ground surface 7 and turn it to the side. In the front region, the working depth of the plow tools is predetermined by the three-point linkage of the towing tractor and, in the rear region, by the position of the support wheel 2 between the ground surface 7 and the plow frame 3. The distance of the support wheel 5 from the middle plane 20 of the plow frame 3 or from the ground surface 7 may be adjusted by a change in the angle of incidence ( ) of the pivot arm 6 which is spanned by the axis 9 and the middle plane 20, which preferably intersects the plow frame 3 horizontally and symmetrically 7. In this way, the maximum working depth in the ground of the plow bodies 4, 4 is changed. The angular position may be set as the end position in the working position by means of the abutment means 13, 13. The abutment means 13, 13 may be designed as variable-length threaded spindles, combinations of perforated strips and locking pins, but also as unlockable hydraulic cylinders or other single or double acting servomotors. The servomotor or hydraulic cylinder may at the same time reduce or regulate the pivoting speed. The support wheel 5 forms the wheel contact point 10 in the working position by lowering the rotary plow 1 to the ground surface 7. The intersection point 11, which is formed by the forwardly-inclined extended pivot axis 9 and the ground surface 7, is spaced from the wheel contact point 10 in the direction of travel to form a guidance point, according to which the wheel 5 follows in a self-aligning manner. The pivot angle a, which describes the movement of the support wheel in the direction of travel, should not exceed a maximum angle of 160 so that the support wheel does not pivot backwards, or remains in a vertical position. An angle of inclination a of less than 60 is also less suitable, since the intersection point 11 of the axis 9 with the ground surface 7 is then too far forward from the wheel contact point 10 and results in unstable wheel guidance.
[0023] FIG. 2 shows the above-described rotary plow in plan view and in the working position. The upper and lower links (not shown) of the three-point linkage hydraulics of the tractor are attached to the mounting frame 14 at the coupling points 16, 17, 17 that are provided for this purpose. As previously described, the plow frame 3, with its plow bodies 4, 4 fastened thereto, may be pivoted about the turning axis 18 from a shown right-hand turning to a left-hand turning position, preferably by means of the hydraulic cylinder 15. The plow frame 3 is connected to the turning axis 18 to be laterally movable by means of a link 23 as well as pin bearings. The front furrow width and the pulling point of the plow may be adjusted via an adjustment center 22 by means of servomotors or spindles. Slide guides for lateral movement of the plow frame are also possible. The rear end of the plow frame 3 may be pivoted further centrally to the axis 18 by means of a pivoting cylinder 24 in order to increase the ground clearance of the raised plow during turning. A further servomotor 25 is provided to pivot the plow frame with parallel adjustment of the cutting width of the individual plow bodies 4, 4. The pivoting support wheel 2 is laterally pivotable about the axis 19 on the plow frame in the rear region of the plow frame 3. A parallel guide to adjust the cutting width of the individual plow bodies 4, 4 by pivoting about the axis 21, 21 is made possible by a linkage (not shown). The pivoting arm 6 and the support wheel 5 are mounted to rotate about the axis 9, which is inclined with respect to the ground and points forwards. From this pivot bearing, the pivot arm 6 encompasses the tire of the support wheel 5 and dips centrally in its rim. A wheel hub that is not visible is rotatably mounted on the pivot arm 6 within the rim to allow the support wheel 5 to roll on the ground surface. The pitch line of the pivot arm 6 is almost the same as the axis 9, but may slightly deviate therefrom. It is important that the axis 9 approximately intersects the middle plane of the wheel that is vertical to the wheel's running axis, at the level of the ground surface, wherein this intersection point lies in the direction of travel or of the towing tractor at a distance from the wheel contact point.
[0024] The use of twin or double wheels is also conceivable, wherein the axis 9 or the above-described middle plane preferably lies centrally between these wheels. Likewise, the intersection point 11 and the wheel contact point 10 are formed at least approximately centrally between these wheels. The pivoting axis 8 of the pivot bearing 12 is at least approximately perpendicular to the direction of travel, but may also be erected further with respect to the longitudinal axis of the plow frame 3 in order to need less pivoting free space with respect to the ground surface. In this case, the at least approximately vertical alignment of the axis 9 with respect to the axis 8 must be compensated for in a complementary manner according to the direction of travel.
[0025] FIG. 3 shows the pivoting support wheel 2 with the rear part of the rotary plow 1 in the working position. The pivot bearing is mounted on the plow frame 3 to pivot laterally about the axis 19. The pivoting support wheel 2 may be aligned at an approximately equal angle parallel to the direction of travel corresponding to the angular position of the plow frame 3 relative to the direction of travel. This alignment may be performed manually, for example, by changing over a pin or other adjusting means, or automatically through a parallel guiding device. To a certain extent, a fixed angular position deviating from the direction of travel is also possible, insofar as it may be compensated for by the self-steering or trailing characteristics of the pivoting support wheel 2. This applies to all the axis alignments which influence the function of the pivoting support wheel 2. The plow bodies 4, 4 and their holding brackets are rotatably mounted on the plow frame 3 via the pivoting axes 21, 21. The plow bodies 4, 4 are aligned in the direction of travel by means of a parallel guide linkage, thus making possible a variable cutting width adjustment of the rotary plow 1 or its plow bodies 4, 4. Ideally, the pivoting support wheel 2 or its pivot bearing 12 is coupled to this parallel guide or is fastened directly to one of the pivot bearings 21, 21 and likewise aligned in the direction of travel. In the working position shown, the pivoting support wheel 2 is fixed against a limit stop of the pivot bearings 12 by a stop means 13, which is designed as a tiltable stop spindle. When the plow is turned, the stop means 13 falls into an inactive position. The pivoting support wheel 2 may pivot about the axis 8 into an opposing position in which it is fixed again by the opposing stop means 13 serving the same function. Likewise, the use of servomotors, for example an unlockable hydraulic cylinder or other locking means to fix the pivoting support wheel and to preset a working depth of the rotary plow 1 is possible.
[0026] The lateral forces which act on the support wheel 51 at the wheel contact point 10 when the rotary plow 1 is in operation, direct the latter in the direction of travel with an effective lever spacing, which is formed between the axis 9 and the wheel contact point 10. The intersection point 11 of the axis 9 with the ground surface thus forms the imaginary guide point, around which the support wheel 5 follows. The support wheel 5 may be a tire with a rim, but also a steel wheel or have a roller shape. The support wheel may also be provided with a circumferential guide web or profile which improves the steering or rolling characteristics on the ground.
[0027] There follow three sheets with drawings.
LIST OF REFERENCE NUMERALS
[0028] 1 Rotary plow
2 Pivoting support wheel
3 Plow frame
4 Plow tool, plow body
5 Support wheel
6 Arm, pivot arm
7 Ground, ground surface
8 Axis, pivot axis
9 Axis, steering axis
10 Wheel contact point
11 Intersection point
12 Pivot bearing
13 Stop means
14 Mounting frame
15 Hydraulic cylinder
16 Coupling point
17 Coupling point
18 Turning axis
19 Axis, pivot axis
20 Middle plane
21 Axis, pivot axis
22 Adjustment center
23 Link
[0029] 24 Pivot cylinder
25 Servomotor
