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    • 1. 发明授权
    • Automatic height control for a laterally pivoted harvester header
    • 横向枢转收割机接头的自动高度控制
    • US4776153A
    • 1988-10-11
    • US833932
    • 1986-02-27
    • Richard A. DePauwRobert P. SpanglerWilliam R. BrownEdward J. Hengen
    • Richard A. DePauwRobert P. SpanglerWilliam R. BrownEdward J. Hengen
    • A01D41/14A01D75/28A01D67/00
    • A01D75/287A01D41/145Y10S56/15
    • In a combine harvester, an array of ground engaging skid shoes or feelers spans the header platform and is divided into right- and left-hand groups, each group associated with a position sensor switch. Each switch transmits to an electrohydraulic control system, a signal representative of the relative position of the skid shoe closest to the ground in its half of the platform. The combined left- and/or right-hand signals are transduced to control platform vertical adjustment and lateral tilt automatically. In one embodiment, a pair of lift cylinders, acting in unison, control platform elevation while a third cylinder is dedicated to tilt control. In other embodiments, paired lift cylinders are controllable independently, to provide both height and tilt control. Supporting the feeder conveyor lower shaft and the header main drive shaft in the laterally pivotable lower forward portion of the feederhouse permits direct transfer of crop material from the platform auger to the feederhouse conveyor and also simplifies header drive arrangements.
    • 在联合收割机中,一系列地面接触的滑板鞋或者探头跨越头部平台,并分为右组和左组,各组与位置传感器开关相关联。 每个开关向电动液压控制系统发送代表在平台的一半中最靠近地面的滑动鞋的相对位置的信号。 左右信号的组合被转换成自动控制平台的垂直调整和横向倾斜。 在一个实施例中,一对起作用的气缸一致地控制平台高度,而第三气缸专用于倾斜控制。 在其他实施例中,成对提升缸是独立控制的,以提供高度和倾斜控制。 在饲养室的侧向可枢转的下部前部支撑进料器输送机下轴和集管主驱动轴,允许将作物材料从平台螺旋钻直接传送到饲养室输送机,并且还简化了头部驱动装置。
    • 2. 发明授权
    • Axial flow rotary separator for a combine
    • 用于组合的轴流式旋转分离器
    • US4198802A
    • 1980-04-22
    • US825537
    • 1977-08-18
    • Edward J. HengenJohn E. Wilson
    • Edward J. HengenJohn E. Wilson
    • A01F7/06A01F12/44A01D45/02
    • A01F7/06A01F12/442
    • In a rotary separator, cylindrical threshing, frusto-conical separating, and centrifugal fan sections are arranged coaxially and in tandem. A fixed grate including threshing and separating portions surrounds and generally conforms to a rotor profile. A frusto-conical collector housing encloses the forward part of the separator and feeds threshed and separated grain to a grain cleaning unit, the screen elements of which, along with the collector housing, rotate concentricaly with the grate while at the same time reciprocating axially. A stationary cylindrical housing surrounds the cleaner unit and clean grain and tailings pass centrifugally from the cleaner screens to separate annular channels, to be swept around the inside of the housing by paddles moving with the cleaner elements to tangential discharge points near the top of the separator for transfer to clean grain and tailings return augers respectively. The centrifugal fan draws air approximately axially through the cleaner unit removing chaff and other light material and also receives straw carried over the grate, for discharge downwards from the fan housing.
    • 在旋转分离器中,圆柱形脱粒,截头圆锥形分离和离心式风扇部分同轴地并排配置。 包括脱粒和分离部分的固定格栅围绕并且大致符合转子轮廓。 截头圆锥形收集器壳体包围分离器的前部,并且将开口和分离的晶粒供给谷物清洁单元,其筛网元件与收集器壳体一起与炉排一起旋转,同时轴向往复运动。 固定的圆柱形壳体围绕清洁器单元,并且清洁的颗粒和尾矿通过离心机从清洁器筛网传递到分离的环形通道,以通过与清洁器元件一起移动的叶片围绕壳体的内部扫过靠近分离器顶部的切向排出点 用于转移到清洁的谷物和尾矿分别返回螺旋钻。 离心式风扇大致轴向地吸引空气通过清洁器单元去除谷壳和其他轻质材料,并且还接收通过格栅的秸秆,从风扇壳体向下排放。
    • 3. 发明授权
    • Combine crop feeding system
    • 组合作物喂养系统
    • US4087953A
    • 1978-05-09
    • US736440
    • 1976-10-28
    • John E. WilsonEdward J. Hengen
    • John E. WilsonEdward J. Hengen
    • A01D61/00A01F12/10A01D41/06
    • A01F12/10A01D61/00
    • A combine has a feeding system, for conveying crop material from a harvesting unit to the infeed rotor of a longitudinal axial flow rotary crop processing unit, including a feeder house employing a pair of augers, mounted side by side in an enclosed housing, and contrarotating at a relatively high speed. The augers are cantilevered from a bulkhead at the inlet end of the feeder house and do not make contact with the housing. The housing cross section does not conform to the cylindrical surfaces swept by the augers and there is also space between the augers themselves so that heterogeneous material can be conveyed within the housing on all sides of the augers. Housing shape and clearances are designed so that there is a minimum of dead space in the housing and, with some assistance from fixed strippers, mounted inside the housing parallel to the axes of the augers, material is conveyed generally linearly at a speed nearly equal to the equivalent axial speed of the auger flighting. A transition housing, between the feeder house and infeed rotor casing, is shaped to minimize dead space at the point of transfer from the feeder house augers to the infeed rotor, so that the moving elements (augers and rotor) do not lose control of the material being conveyed. A feeder beater is used at the feeder house throat to strip material from the harvesting unit cross auger and assist in accelerating it in the feeder house.
    • 组合体具有供料系统,用于将收获单元的作物材料输送到纵向轴流式旋转作物处理单元的进料转子,包括采用一对螺旋推进器的进料室,并排安装在封闭的壳体中,并且反向旋转 以相对较高的速度。 螺旋钻从进料室入口端的隔板悬臂,不要与壳体接触。 壳体横截面不符合由螺旋钻扫过的圆柱形表面,并且螺旋钻之间也存在空间,使得异质材料可以在螺旋钻的所有侧面上的壳体内传送。 壳体形状和间隙被设计成使得在壳体中存在最少的死空间,并且在固定的剥离器的一些帮助下,平行于螺旋钻的轴线安装在壳体内部,材料通常以几乎等于 螺旋钻飞行的等效轴向速度。 进料室和进料转子壳体之间的过渡壳体被成形为使得在从进料器螺旋推运器到进料转子的转移点处的死空间最小化,使得移动元件(螺旋钻和转子)不会失去对 被传送的材料 在进料器喉咙处使用进料器搅拌器,以从采收单元十字螺旋钻中分离材料,并且有助于在进料室中加速它。
    • 4. 发明授权
    • Separator for an axial flow rotary combine
    • 轴流式旋转组合分离器
    • US4362168A
    • 1982-12-07
    • US229688
    • 1981-01-30
    • Edward J. HengenJames H. Bassett
    • Edward J. HengenJames H. Bassett
    • A01F7/06A01F12/18
    • A01F12/18A01F7/067
    • In an axial flow rotary separator for a combine, radially extending spike-tooth-like blades are arranged on a rotor body in "reverse" helical arrays, that is, such that helical flighting, similarly disposed, would tend to convey crop material upstream. The helix angles defined by the arrays approximate that of the mean spiral path of conveyance of a crop material mat portion through the separator housing. Propulsion of the crop material mat thus results from a plurality of spaced and staggered engagements of small contact area. The arrays are spaced so that the rotor elements present no extensive wall or front to the crop material thus reducing the tendency to "roping" and separator plugging in tough straw conditions.
    • 在用于组合的轴向流旋转分离器中,径向延伸的棘齿状叶片以“反向”螺旋阵列布置在转子体上,也就是说,类似地设置的螺旋形飞行倾向于将作物材料向上运送。 由阵列限定的螺旋角度近似于通过分离器壳体的作物材料垫部分的输送的平均螺旋路径的螺旋角度。 因此,作物材料垫的推进是由多个间隔开和交错的接触面积小的接合产生的。 阵列是间隔开的,使得转子元件没有对作物材料没有广泛的壁或前部,因此减少了在困难的秸秆条件下“卷曲”和分离器堵塞的倾向。
    • 5. 发明授权
    • Rock guard for a row crop harvesting machine
    • 摇篮守卫一排作物收获机
    • US4156338A
    • 1979-05-29
    • US810433
    • 1977-06-27
    • Edward J. Hengen
    • Edward J. Hengen
    • A01D45/02
    • A01D45/021
    • A row crop harvesting header has a main frame with a plurality of forwardly extending, independently vertically adjustable row units mounted on the frame, each row unit including a frame attached to the header frame at its rearward end and a ground engaging skid at its forward end. A pair of endless flexible conveyors are mounted on the row unit frame and have opposite, rearwardly moving, upwardly and rearwardly inclined inner runs adapted to engage the stalks of row planted crops as the machine advances and convey it rearwardly, a cutting apparatus below the forward inlet ends of the belts severing the crop material from the field as it is engaged by the conveyor. The row unit frame includes a pair of forwardly diverging members extending forwardly of the front of the conveyors to form a crop receiving throat in front of the inlet to the conveyors, and a pair of rock deflectors are attached to the opposite frame elements and include a plurality of generally fore and aft fingers disposed in the throat area, the opposite sets of fingers being laterally spaced to provide a fore and aft passage that is wide enough to permit the passage of the crop material to the conveyors but deflects larger rocks and foreign objects downwardly or causes the row unit to ride up over said objects to prevent damage to the cutting apparatus or ingestion of the objects into the conveyors.
    • 一排作物收割头具有主框架,该主框架具有安装在该框架上的多个向前延伸的,独立的可垂直调节的行单元,每个行单元包括在其后端附接到该标题框架的框架及其前端处的接地滑动件 。 一对无端的柔性输送机安装在行单元框架上,并且具有相反的,向后移动的向上和向后倾斜的内部行程,其适于在机器前进并向后传送时接合行种植作物的茎,在向前 皮带的入口端在与输送机接合时将作物材料从现场切断。 行单元框架包括一对向前扩散的构件,其向前延伸到输送机的前部,以形成在输送机的入口前面接收喉部的作物,并且一对岩石偏转器附接到相对的框架元件,并且包括 多个通常的前后指状物设置在喉部区域中,相对的组指状物被横向间隔开,以提供足够宽的前后通道,以允许作物材料通过输送机,但是偏转更大的岩石和异物 向下或使行单元爬过所述物体,以防止损坏切割装置或将物体摄入输送机。
    • 6. 发明授权
    • Feeder house for a crop harvester
    • 农作物收割机的饲养室
    • US4282703A
    • 1981-08-11
    • US102090
    • 1979-12-10
    • John E. WilsonEdward J. Hengen
    • John E. WilsonEdward J. Hengen
    • A01D61/00A01F12/10A01F7/06A01F12/00
    • A01F12/10A01D61/00
    • The feeder house of a self-propelled combine harvester carries a front-mounted gatherer which delivers crop material to a forward inlet of the feeder house which is pivotally supported by the combine separator body, and delivers crop material to an inlet of the separator. A pair of side-by-side, contra-rotating auger conveyors deliver crop material directly to the separator rotor in a relatively concentrated high-speed stream. Convergence and concentration of the harvested crop material begun by a grain platform auger is continued by a pair of transverse beaters, each including helical conveying elements, arranged in tandem ahead of and partially above the dual auger conveyors. A forward beater close to the feeder house inlet receives material directly from the platform auger and conveys it rearwardly over a floor somewhat elevated with respect to the auger conveyors and transfers it to a second beater above the forward end of the dual augers which directs it downwards into the auger conveyors. A hold-down rod, generally parallel to the axis of the conveyor augers, is provided above each auger to assist in controlling the transfer of crop material from the rear beater to the augers. Portions of the feeder house also playing an important part in the control and conveying of crop material include the floor beneath the first beater, converging ramp-like surfaces in the feeder house side walls downstream of the rear beater, and the particular spacing from the auger conveyors of the feeder housing wall portions surrounding them.
    • 自走式联合收割机的进料室装有前置收集器,其将作物材料输送到由合并分离器主体枢转地支撑的进料室的前进入口,并将作物材料输送到分离器的入口。 一对并排的反向旋转螺旋输送机以相对集中的高速流将作物材料直接输送到分离器转子。 由谷物平台螺旋钻开始收获的作物材料的收敛和浓缩由一对横向搅拌器继续,每个横向搅拌器包括螺旋输送元件,其布置在双螺旋输送机之前和部分上方。 靠近进料器入口的前部搅拌器从平台螺旋钻直接接收材料,并将其向后传送到相对于螺旋输送机稍微升高的地板上,并将其传送到双螺旋钻的前端上方的第二个搅拌器,将其向下引导 进入螺旋输送机。 大致平行于输送螺旋推运器的轴线的压杆设置在每个螺旋钻上方,以帮助控制作物材料从后打浆机到螺旋推运器的传送。 饲养室的一部分也在控制和输送作物材料中起重要作用,其中包括在第一搅拌器下方的地板,在后搅拌器下游的饲养室侧壁中会聚有斜坡状的表面,以及与螺旋钻的特定间距 馈送器壳体壁部分周围的输送机。
    • 7. 发明授权
    • Threshing rotor for a combine
    • 脱粒转子用于组合
    • US4139013A
    • 1979-02-13
    • US843987
    • 1977-10-20
    • Edward J. Hengen
    • Edward J. Hengen
    • A01F7/06A01F12/18
    • A01F7/06A01F12/18
    • The axial flow rotary separator of a combine includes a rotor having a generally cylindrical threshing section surrounded by a fixed, non-adjustable concave or grate so as to define an annular threshing space. The rotor includes threshing bar assemblies pivoted about axes parallel to the rotor axis and spring loaded in the direction of reducing concave clearance, against adjustable stops. Setting of the stops is controlled by adjusting eyebolts mounted on the front of the rotor, accessible from the front of the combine and connected to the stops through a pivot arm assembly. In normal operation springs hold the threshing bar assemblies against the stops but the pressure of a large foreign body or an excessive flow or material entering the threshing space may overcome the spring pressure forcing the threshing bars to retract to provide necessary clearance.
    • 组合体的轴向流动旋转分离器包括转子,该转子具有由固定的不可调节的凹部或格栅围绕的大致圆柱形的脱粒部分,以便限定环形脱粒空间。 转子包括围绕平行于转子轴线的轴线枢转的脱粒杆组件,并且沿着可调节止动件减小凹隙的方向加载弹簧。 通过调节安装在转子前部的吊环螺栓来控制挡块的设置,可从组合件的前部接近并通过枢轴臂组件连接到止动件。 在正常操作中,弹簧将脱粒杆组件固定在止动件上,但是大的异物或进入脱粒空间的过量流体或材料的压力可能克服弹簧压力,迫使脱粒杆缩回以提供必要的间隙。