旋转盘式开沟机外文美国专利

United States Patent 5,511,326 Liebrecht, Jr. April 30, 1996 Rotating disk-type ditcher Abstract A method and apparatus in which a disk-type ditcher adaptable to being drawn by a tractor can dig ditches under control of a laser system by which a desired ditch grade can be selected. The ditcher incorporates a disk rotatable in a generally vertical plane transverse to the line of travel of the ditcher, the disk having circumferentially spaced scoops which during rotation function in cooperation with a bottom-cutting blade and soil plowing section to lift the cut soil for discharge from an angularly oriented overlying chute for directing soil particles a pre-selected lateral distance from the line of travel of the tractor. A pair of forwardly and oppositely positioned angularly adjustable side cutting or scraping blades can be provided in spaced relation on opposite sides of the center line of travel to impart steeper side walls to the ditch than would otherwise be formed with the circular disk alone. Inventors: Liebrecht, Jr.; Sylvester J. (Continental, OH) Family ID: 22905175 Appl. No.: 08/240,115 Filed: May 9, 1994 Current U.S. Class: 37/93; 37/347; 37/907 Current CPC Class: E02F 3/186 (20130101); E02F 3/26 (20130101); E02F 3/20 (20130101) Current International Class: E02F 3/26 (20060101); E02F 3/20 (20060101); E02F 3/18 (20060101); E02F 005/08 () Field of Search: ;37/907,91-93,189 ;172/108,113 ;299/39 ;404/90 References Cited [Referenced By] U.S. Patent Documents 2746180 May 1956 Ficker 2974735 March 1961 Smith et al. 3041750 July 1962 Garnard 3261117 July 1966 Shoemaker et al. 3411225 November 1968 Barras 3417495 December 1968 Barras 3708232 January 1973 Walsh 3813171 May 1974 Teach et al. 3916543 November 1975 Poche 3994083 November 1976 Cunningham 4161072 July 1979 Pronovost 4162708 July 1979 Johnson 4193217 March 1980 Poche 4454767 July 1984 Cartner 4887372 December 1989 Block 4912643 March 1990 Beirxe 5113610 May 1992 Liebrecht 5174385 5259692 November 1993 Beller et al. Foreign Pat December 1992 Shinbo et al. ent Docu Aug 1971 SU Oct 1975 SU ments 310978 487986 Other References Publication Agricultural Engineering, Aug. 71, pp. 418, 419. . “The laserplane System“ by David C. Studebaker Primary Examiner: Warnick, IV; Spencer K. Attorney, Agent or Firm: Schroeder; Charles F. Claims I claim: 1. A ditcher assembly for forming longitudinal ditches through soil in a given area comprising a prime mover for moving said assembly in a line of travel corresponding to the line of the longitudinal ditch desired, a rotary soil removing disk mounted in said assembly, said disk having a generally vertical planar orientation generally transverse to said line of travel, a housing within which said disk is rotated comprising a lower shroud and an upper shroud mated therewith, power supply means for rotationally driving said soil removing disk, said disk having a front face facing the direction of travel of said assembly, said disk comprising a series of soil gathering scoops spaced about the circumferential edge of said front face, a lower front portion of said lower shroud facing the direction of travel of said assembly being open to expose the lower portion of said rotary disk, a soil cutting edge and plow section positioned centrally in said line of travel at the bottom of said open lower shroud for cutting in advance of said rotary disk by which soil being cut is fed in loosened condition to the path of movement of said scoops, means for selectively setting the cutting depth of said cutting edge and plow section, an adjustably orientable chute means overlying said disk for receipt of soil conveyed and discharged from said scoops for directing the cut soil to preselectable locations relative to the line of travel of said assembly, and a pair of vertically adjustable side sloping blades positioned to cut a selectable steepness in the sidewalls of ditch passes being formed. 2. A ditcher assembly as set forth in claim 1 wherein said means for setting the cutting depth of said cutting edge and plow section comprises a reference member positioned to trail behind said ditcher and means for lifting the forward portion of said ditcher relative to said trailing reference member. 3. A ditcher assembly as set forth in claim 1 wherein a replaceable wear surface of wear resistant material is provided adjacent and about the soil conveying path of movement of said scoops through said ditcher. 4. A ditcher assembly as set forth in claim 3 wherein said scoops are each longitudinal members mounted in radially oriented relation at the circumferential edge of said disk, said scoops each being shaped with a concavity facing the direction of rotational movement on said disk, said scoops each having an open top end and an opposite bottom end each of said scoops having its bottom end arranged to be substantially closed by said wear surface as it conveys soil through said ditcher. 5. A ditcher assembly as set forth in claim 1 in which said prime mover is a tractor on the rear of which said ditcher assembly is connected and to which a mechanical driving connection is provided as said power supply means for rotationally driving said soil removing disk. 6. A ditcher assembly as set forth in claim 5 in which the cutting depth of said cutting edge and plow section is adjustably and selectively set with controls on said tractor. 7. A ditcher assembly as set forth in claim 6 in which adjustments in the depth of cut by said cutting edge and plow section is accomplished by remotely controllable hydraulic means. 8. A ditcher assembly as set forth in claim 7 in which rotating laser plane controls with grade selection means is provided with a receiver on said ditcherassembly in interconnected relation with said hydraulic means whereby adjustments in the depth of cut by said cutting edge and plow section are made progressively according to a preselected grade as said ditcher travels over soil in which a ditch pass is being formed. 9. A ditcher assembly for forming longitudinal ditches through soil in a given area comprising a prime mover for moving said assembly in a line of travel corresponding to the end of the longitudinal ditch desired, a rotary soil removing disk mounted in said assembly, said disk having a generally vertical planar orientation generally transverse to said line of travel, a housing within which said disk is rotated comprising a lower shroud and an upper shroud mated therewith, power supply means for rotationally driving said soil removing disk, said disk comprising a series of soil gathering scoops spaced about the circumferential edge of said front face, a lower front portion said lower shroud being open to expose a lower portion of said rotary disk, a soil cutting edge and plow section at the lower leading edge of said lower shroud provided in advance of said rotary disk by which soil being cut is fed in loosened condition to the path of movement of said scoops, means for selectively setting the cutting depth of said cutting edge and plow section, and an adjustably orientable chute means overlying said disk for receipt of soil centrifugally lifted and discharged from said scoops for directing the cut soil to preselectable locations relative to the line of travel of said assembly, and a replaceable wear surface of wear resistant material provided adjacent and about the soil conveying path of movement of said scoops through said ditcher, said scoops each being longitudinal members mounted in radially oriented relation at the circumferential edge of said disk, said scoops each having a concavity in the soil lifting direction of movement on said disk and having an open top end arranged to be substantially closed by said wear surface as it conveys soil through said ditcher, said longitudinal scoops each having a back and each being provided with a slanted outside edge extending generally from the upper center of said back to a point at said outside edge at least one-third of the distance of the length of the scoop down from its top edge to assist in rejecting clumps and rocks in the path of movement of said scoops. 10. A ditcher assembly for forming longitudinal ditches through soil in a given area comprising a prime mover for moving said assembly in a line of travel corresponding to the line of the longitudinal ditch desired, a rotary soil removing disk mounted in said assembly, said disk having a generally vertical planar orientation generally transverse to said lids of travel, a housing within which said disk is rotated comprising a lower shroud end an upper shroud mated therewith, power supply means for rotationally driving said soil removing disk, said disk comprising a series of soil gathering spaced about the circumferential edge of said front face, a lower front portion of said lower shroud being open to expose a lower portion of said rotary disk, a soil cutting edge and plow section at the lower leading edge of said lower shroud provided in advance of said rotary disk by which soil being cut is fed in loosened condition to the path of movement of said scoops, means for selectively setting the cutting depth of said cutting edge and plow section, and an adjustably orientable chute means overlying said disk for receipt of soil centrifugally lifted and discharged from said scoops for directing the cut soil preselectable locations relative to the line of travel of said assembly, and a replaceable wear surface of wear resistant material provided adjacent and about the soil conveying path of movement said scoops through said ditcher, said scoops each being longitudinal members mounted in radially oriented relation at the circumferential edge of said disk, said scoops each having a concavity in the soil lifting direction of movement on said disk and having an open top end arranged to be substantially closed by said wear surface as it conveys soil through said ditcher. an outside edge of each of said scoops having a top edge and a slanted edge portion extending from the center of said top end generally downwardly and outwardly at an angle in a range of 30 to 60 degrees to said top edge of said scoop. 11. A ditcher assembly as set forth in claim 10 in which said open lower shroud is provided with a stone deflector plate having a vertical edge and enclosing 15 to 25% of the trailing side of said front portion of said lower shroud. 12. A ditcher assembly for forming longitudinal ditches through soil in a given area comprising a prime mover for moving said assembly in a line of travel corresponding to the line of the longitudinal ditch desired, a rotary soil removing disk mounted in said assembly, said disk having a generally vertical planar orientation generally transverse to said line of travel, a housing within which said disk is rotated comprising a lower shroud and an upper shroud mated therewith, power supply means for rotationally driving said soil removing disk, said disk having a front face facing the direction of travel of said assembly, said disk comprising a series of soil gathering scoops spaced about the circumferential edge of said front face, a lower front portion of said lower shroud facing the direction of travel of said assembly being open to expose the lower portion of said rotary disk, a plow section in advance of said rotary disk having a cutting edge located at the bottom of said open lower shroud by which soil is cut and fed in loosened condition in the path of movement of said scoops, means for selectively setting the cutting depth of said cutting edge, an adjustably orientable chute overlying said disk and upper shroud for receipt of soil lifted in said scoops, said upper shroud providing a closed path of movement of soil in scoops passing therethrough, said upper shroud having an opening positioned for passage therethrough of soil from said scoops into said chute whereby said discharged soil can be directed through said chute to desired locations of deposit, and a pair vertically adjustable side sloping blades positioned to cut a selectable steepness in the sidewalls of ditch passes formed. 13. A method of forming an elongate soil depression with side walls in a selected area comprising providing a longitudinal plow section with a cutting edge oriented transversely to the elongate depression to be formed, selecting a depth for cutting soil with said cutting edge for said depression, advancing said cutting edge to cut the soil at said selected depth, plowing said cut soil over said cutting edge under the influence of said advancing cutting edge, collecting said plowed soil with a series of open ended scoops by moving said scoops generally transversely to the direction of advancement of said cutting edge, lifting the soil collected with said scoops through a confined arcuate path, releasing said lifted soil from said scoops to an overhanging directing chute under the influence of the force of movement of said soil from said scoops, orienting said chute to deposit the soil from said scoops a preselected distance laterally of the elongate depression being formed, and providing a pair of vertically adjustable side sloping blades positioned to cut a selectable steepness in the sidewalls of ditch passes formed. 14. The method as set forth in claim 13 in which the depth of cut of soil is automatically adjusted at each increment of the length of said depression to establish a predetermined grade as said cutting edge is advanced in forming said depression. 15. The method as set forth in claim 13 wherein the confined path through which said series of open ended scoops are moved is provided by a housing shaped to match the arcuate path through which the open ends of the scoops are moved. 16. The method as set forth in claim 13 wherein the soil exiting from said chute is spread and directed generally downward to establish a short trajectory of throw of the discharged soil for deposit at a preselected lateral distance from said depression. 17. The method of claim 13 wherein the soil discharged from said chute is deflected in a lateral angular direction selected from any of a range of lateral directions within a preset arc extending from a forward direction to a rearward direction of the line of advancement of said cutting edge. 18. The method of claim 13 wherein at least one side wall of the soil depression is additionally cut by a side cutting blade oriented to provide a preselected side slope angle for said depressio