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    • 1. 发明授权
    • Low profile axial flow combine
    • 薄型轴流组合
    • US4467818A
    • 1984-08-28
    • US2296
    • 1979-01-10
    • Edward DonaldsonKenneth A. A. Frisk
    • Edward DonaldsonKenneth A. A. Frisk
    • A01D41/12A01F7/06A01F12/60A01F12/44
    • A01F7/06A01D41/1208
    • A low profile axial flow combine with a low center of gravity for improved stability, with reduced overall machine height for ease of shipping and with high capacity grain tank of the saddle type. A threshing and separating rotor, in coaxial relationship to a rotor casing, extends longitudinally and approximately horizontally in the combine to the discharge end for low rotor discharge of the threshed materials. Cleaning apparatus including the grain pan, the separator pan, the chaffer, the sieve screen and the blower are compactly nested beneath the rotor casing. A high capacity saddle grain tank extends over and down opposite sides of the rotor casing. A discharge auger extends transversely through the boots of the grain tank and through an auger housing interconnecting the boots. The upper end of the grain pan extends over the auger housing interconnecting the grain tank boots. The lower end of the grain pan is stepped.
    • 低轮廓轴流与低重心相结合,提高了稳定性,整体机身高度降低,便于运输,并具有鞍座式高容量谷仓。 与转子壳体同轴的脱粒和分离转子在组合件中纵向和大致水平地延伸到排出端,用于降低转子材料的转子排放。 包括谷物盘,分离盘,筛子,筛网和鼓风机的清洁装置紧凑地嵌套在转子壳体的下面。 高容量鞍形谷物罐在转子壳体的相对侧上下延伸。 卸料螺旋钻横向延伸穿过谷仓的靴子,并通过连接靴子的螺旋推运器壳体延伸。 谷物盘的上端延伸穿过互连谷物罐靴的螺旋推运器壳体。 谷物锅的下端是阶梯式的。
    • 2. 发明授权
    • Axial flow combine with improved inlet transition area
    • 轴流结合改进的入口过渡面积
    • US4209024A
    • 1980-06-24
    • US2299
    • 1979-01-10
    • Thomas E. PowellEdward Donaldson
    • Thomas E. PowellEdward Donaldson
    • A01F7/06A01F12/10
    • A01F7/06A01F12/10
    • In an axial flow combine, an improved inlet transition area for changing the flow of crop materials from a linear ribbon-like flow through the feeder to an arcuate ribbon-like flow about the flighting of the inlet end of the rotor to a helical sleeve flow between the rotor and rotor casing while at the same time injecting crop materials in all portions of the flighting. A sloping ramp extends upwardly and rearwardly from the feeder to an elliptical intersection with the rotor casing. A pair of oppositely disposed sidewalls in generally perpendicular relation to the ramp extend from the feeder and converge about the inlet end of the rotor at an upper portion of the rotor casing. Another wall between the sidewalls, oppositely disposed from the ramp, encloses the inlet transition area. A rotary beater disposed between the sidewalls and in close proximity to the inlet end of the rotor rotates at a higher tangential velocity than the feeder to direct and accelerate the crop materials upwardly and rearwardly along the sloped ramp and the converging sidewalls to entrain the crop materials about all portions of the flighting of the rotor in an arcuate ribbon-like manner. All of the surfaces of the inlet transition area are either planar or cylindrical for ease and economy of manufacture and fabrication. Related methods are disclosed.
    • 在轴向流动组合中,改进的入口过渡区域用于改变作物材料从线性带状流通过进料器的流动到围绕转子的入口端向螺旋套管流动的弓形带状流 在转子和转子壳体之间,同时在飞行的所有部分注射作物材料。 倾斜斜坡从进料器向上和向后延伸到与转子壳体的椭圆形交叉。 与斜面大致垂直的一对相对设置的侧壁从进料器延伸并在转子外壳的上部处围绕转子的入口端会聚。 在与斜坡相对设置的侧壁之间的另一个壁包围入口过渡区域。 设置在侧壁之间并且紧邻转子的入口端的旋转搅拌器以比进料器更高的切线速度旋转,以沿着倾斜的坡道向上和向后引导和加速作物材料,并且会聚侧壁夹带作物材料 关于转子的所有部分以弓形带状方式。 入口过渡区域的所有表面均为平面或圆柱形,以便于制造和制造的经济性。 公开了相关方法。
    • 3. 发明授权
    • Apparatus for discharging threshed materials directly from the rotor of
an axial flow combine
    • 用于从轴流组合的转子直接排放泄漏的材料的装置
    • US4254780A
    • 1981-03-10
    • US2297
    • 1979-01-10
    • Thomas E. PowellEdward DonaldsonRonald F. McNeil
    • Thomas E. PowellEdward DonaldsonRonald F. McNeil
    • A01F7/06A01F12/18
    • A01F7/06
    • Apparatus for discharging threshed crop materials, in a relatively uniform manner across the body width of the combine, directly from the discharge end of a threshing and separating rotor in an axial flow combine without the need for additional apparatus at the discharge end of the rotor to discharge the threshed materials or to avoid plugging or bunching of crop materials between the rotor and rotor casing. The rotor extends longitudinally through the combine to a discharge area at the discharge end of the rotor. The rotor casing closely surrounds the rotor near the discharge end and guide vanes disposed in the rotor casing cooperate with separating elements circumferentially disposed about the rotor near the discharge end to positively move threshed materials toward the discharge end of the rotor. The casing terminates short of the discharge end of the rotor in progressively increasing angular widths in the direction of the discharge end such that the materials are tangentially discharged from differing circumferential points of the rotor exposed by the casing terminations for a multi-stream discharge. A deflector plate disposed below the exposed portions of the rotor deflects the discharged materials rearwardly for enhanced dispersion and reduces the discharge velocity.
    • 用于以相对均匀的方式跨过组合体的身体宽度排出脱落的作物材料的装置,其直接来自脱粒和分离转子的排出端在轴向流动组合中,而不需要在转子的排出端附近的附加装置 排出脱落的材料或避免在转子和转子套管之间堵塞或聚拢作物材料。 转子纵向延伸穿过组合件到转子排放端的排放区域。 转子壳体紧靠围绕排出端的转子,并且设置在转子壳体中的导向叶片与排出端附近围绕转子周向设置的分离元件配合,以将脱落的材料朝向转子的排出端积极移动。 壳体在放电端的方向上逐渐增加的角宽度终止于转子的排出端,使得材料从由外壳端子暴露的转子的不同圆周点切向地排出以用于多流排放。 设置在转子的暴露部分下方的偏转板向后偏转排出的材料以增强分散并降低排出速度。