A seedbed preparation and planting machine includes a cutting assembly including powered forward cutting blades for chopping crop residue. A cutting disc assembly follows the cutting assembly effective for forming a seedbed trench at a seed planting depth. A seed assembly follows the cutting disc assembly including a seed hopper and a seed tube located to drop seed into the seedbed trench. A packer assembly tamps down seed in the seedbed trench for covering seed therein.
A farm machine includes a towing vehicle carrying at its front a pair of laterally extending and foldable arms supported by caster wheels and extending laterally away from the towing vehicle. Each of the longitudinally extending foldable arms carry a series of planting assemblies that include a cutting assembly for chopping crop residue, a trench forming assembly for forming seed trenches, a seed sowing assembly for sowing seed in the trench, and a packer assembly for tamping down the seeded trench. A steerable towed vehicle carries seed and fertilizer and is towed by the towing vehicle. A laterally extending arm supports additional planting assemblies that extend substantially the width of the towing vehicle.
Machines that plant crop seed generally compact the seed rows with their tires. The solution to this problem is to cut or mold notches into the tire lugs in the area that would pass directly above the planted seeds and adjacent to the planted seeds. Tires could also be molded with the notches in place during the tire manufacturing process. If lateral beaming strength is needed in the tire, ribs can be formed on the inside of the tire either intermittent or continuous across the width of the tire. Notching also could be done selectively on tires after molding.
A seedbed preparation and planting machine includes a cutting assembly including powered forward cutting blades for chopping crop residue. A cutting disc assembly follows the cutting assembly effective for forming a seedbed trench at a seed planting depth. A seed assembly follows the cutting disc assembly including a seed hopper and a seed tube located to drop seed into the seedbed trench. A packer assembly tamps down seed in the seedbed trench for covering seed therein.
A universal crop head assembly is carried at the front of and by a harvester. The new crop head assembly includes a frame assembly, an intermediate multi-crop reel assembly carried by the frame assembly and having selectively extendable and retractable fingers for small grain harvesting. A lower cutter bar assembly is carried by the frame assembly and for cutting grain stalks. An upper forward cutter bar assembly is carried by the frame assembly and supports an upper cutter bar for cutting corn stalks about an upper end, an adjustable air knife assembly for blowing against severed corn stalks upper ends; and a lower draper belt assembly carried by the frame assembly and for moving grain cut by the lower cutter bar assembly.
A01D 57/03 - Devices for leading crops to the mowing apparatus using reels with supplementary controlled movement of the crop-engaging members, e.g. of the tines
A01D 57/04 - Arrangements for changing the position of the reels
6.
Air chute feed assembly for a crossflow cleaning fan assembly
A charge fan assembly is located behind the forward operator cab and draws air from about the top of the PPU and a portion of an airflow from the charge fan assembly is directed downwardly into the crossflow cleaning fan assembly. A pair of closely spaced-apart sheets create a venturi and speed up the charge fan airflow into the crossflow cleaning fan and impact the crossflow cleaning fan at an angle where the blades of the crossflow cleaning fan are widely open. The exhaust air from the crossflow cleaning fan is nearly the same across the entire lengthwise extent of the crossflow cleaning fan.
Disclosed is a harvesting combine (10) comprising a forward power processing unit (PPU) and a set of wheels (28A, 28B) or tracks supported and kept at a distance (separation distance) by a driving axle, and further comprising a grain storage and additional sieves ("bonus sieves"). The bonus sieves (70, 72) are located in the outer rear of the PPU or in the outer rear of the harvesting combine (10) for accepting grain from concaves and grates assemblies located forward of the bonus sieves assemblies. The bonus sieves accept tailings from the concaves and grates assemblies (58, 60) for additional separation of grain from material other than grain (MOG). New and separate airflow is provided for the bonus sieves. The bonus sieves tailings are returned to the bonus sieves for rethreshing.
Disclosed is a harvesting combine rotor cage top cover assembly that includes an overhead roof formed from a substantially horizontal flat section and downwardly angled side sections. A series of substantially parallel vanes are located beneath the overhead roof. Each vane is formed from a substantially flat top section located against the roof horizontal flat section and downwardly laterally extending legs being angled on their sides and having an arcuate bottom. The sides of the vanes are rotatable about a central pivot for promoting or retarding the flow of material in the rotor cage.
An airflow system for a rotary harvester includes a cleaning charge fan assembly, a cleaning fan assembly, and bonus sieves with fan assemblies. Each of the fan assemblies is powered by a hydraulic motor. By linking the charge fan motor, the left/right tailings fan motors, and the cleaning fan motor in a series hydraulic circuit, each of the motors will increase/decrease in speed at the same time and by the same proportional amount.
A harvesting combine has a forward power processing unit (PPU) powered by an internal combustion engine, a rear grain cart for storage of harvested grain, a forward operator cab, a cleaning fan assembly located about the forward bottom of the PPU, and rotor and concaves assembly for threshing grain. The harvesting combine is improved by locating a charge fan assembly behind the forward operator cab and drawing air from about the top of the PPU and directing a portion of an air flow from the charge fan assembly downwardly into the cleaning fan assembly.
Disclosed is a complete engine cooling system for an engine carried by a grain harvesting combine having an internal combustion engine and hot exhaust components and having a front operator cab. The system includes a generally horizontal fan assembly located atop the harvesting combine for drawing in air, a radiator associated with the engine and over which air flows for engine cooling, and charge air coolers for combustion air cooling, and air conditioning and hydraulic coolers, a centrifugal scroll that takes the drawn in air and removes entrained particles to produce a clean exhaust air and dirty exhaust air; and a filter assembly through which the pre-cleaned exhaust air flows for producing filtered air for admittance into the engine for combustion.
A tiltable feeder house assembly (50) for a crop severing assembly, comprising a front-end assembly (114) having: (a) a front hook assembly (102) to carry a grainhead (18); (b) a front cradle assembly (126, 128, 130) supporting the front hook assembly (102), wherein the front cradle assembly (126, 128, 130) further comprises a pair of frames (128a, 128b), one of the frames (128b) being stationary and the other frame (128a) being movable relative to the stationary frame (128b), the stationary frame (128b) comprising curved guiding means having a predetermined curvature defining an arc of rotation (63) and the movable frame (128a) comprising engaging means that engage with the curved guiding means; (c) an actuator assembly (132, 134) located between the frames (128a, 128b) and adapted to move the movable frame (128a) relative to the stationary frame (128b) from one lateral side of the front cradle assembly (126, 128, 30) to the other and viceversa along the curved guiding means (131), whereby the movable frame (128a) can tilt along the arc of rotation (63) so that the front hook assembly (102) can concurrently rotate side-to-side with the movable assembly (128a), whereby the front-end assembly (114) can provide side-to-side tilting of the grainhead (18).
A harvesting combine has a forward operator's cab and having a rear, and carrying laterally extending side trim panels from just behind the operator's cab to the rear of the harvesting combine. Deployment arms are pivotally affixed at their proximal ends to the harvesting combine and pivotally affixed to the side trim panels at their distal ends. The deployment arms are generally horizontal when the deployment arms are retracted. The deployment arm distal ends are movable outwardly and upwardly to deploy the side trim panels away from the harvesting combine. A pivoting plank carried by the inside of the side trim panels and deployable from a generally vertical stowed position to a generally horizontal position when the side trim panels have been deployed.
B62D 33/08 - Superstructures for load-carrying vehicles characterised by the connection of the superstructure to the vehicle frame comprising adjustable means
Disclosed is a harvesting combine rotor cage top cover assembly that includes an overhead roof formed from a substantially horizontal flat section and downwardly angled side sections. A series of substantially parallel vanes are located beneath the overhead roof. Each vane is formed from a substantially flat top section located against the roof horizontal flat section and downwardly laterally extending legs being angled on their sides and having an arcuate bottom. The sides of the vanes are rotatable about a central pivot for promoting or retarding the flow of material in the rotor cage.
Disclosed is an articulated harvesting combine of a forward powered processing unit (PPU), a rear grain cart, and an articulation joint connecting the PPU and rear grain cart. Loss sensor pads in the straw discharge stream are graphically displaying to the operator. Articulation joint sensors rear teeth on an articulation joint arcuate beam and are used to display the degree of articulation to the operator. A jog motor permits the operator to move the feed house forwards/backwards to clear blockages. A right hand joystick and a left hand joystick provided control of all combine functions.
A01D 41/00 - Combines, i.e. harvesters or mowers combined with threshing devices
A01D 67/00 - Undercarriages or frames specially adapted for harvesters or mowersMechanisms for adjusting the framePlatforms
A01B 69/00 - Steering of agricultural machines or implementsGuiding agricultural machines or implements on a desired track
G05G 9/00 - Manually-actuated control mechanisms provided with one single controlling member co-operating with two or more controlled members, e.g. selectively, simultaneously
A01D 41/127 - Control or measuring arrangements specially adapted for combines
16.
Straw choppers for an articulated harvesting combine
Straw chopper assemblies are provided for a harvesting combine of the type having a rotor and cage threshing assembly. The straw chopper assemblies are located on each side of the rotor discharge for accepting material exiting the rotor. Each straw chopper assembly is formed from a curvilinear cage having and interior opening to accept the rotor discharged material, and an opening to distribute chopper straw outside of the harvesting combine. A rotating knife assembly is housed within each curvilinear cage. A stationary knife assembly is movable for the rotating knives to pass between adjacent pairs of stationary knives. Outlets are provided in material communication with the curvilinear cage openings for discharging chopped straw onto the ground adjacent to the harvesting combine. Hoods are located over each of the outlets to directing the discharged chopped straw onto the ground.
A01F 29/06 - Cutting apparatus specially adapted for cutting hay, straw or the like having rotating knives with their cutting edges on a cylinder surface, e.g. of the helical-type
Disclosed is an articulated harvesting combine of a forward power processing unit (PPU) having a forward set of wheel assemblies and a rear grain cart connected by an articulating joint assembly. Bonus sieves assemblies are located in the outer rear of the PPU for accepting grain from concaves and grates assemblies located forward of the bonus sieves assemblies. The bonus sieves assemblies accept tailings from the concaves and grates assemblies for additional separation of grain from material other than grain (MOG). New and separate airflow is provided for the bonus sieves. The bonus sieves tailings are returned to the bonus sieves for rethreshing, optionally after being particulated and air separation performed.
Disclosed is an assembly for mitigating soil compacted by wheels or belts of a vehicle moving over soil and carried by the vehicle. The assembly operates with a series of blades affixed to a rotatable shaft and displaying an elliptical pattern. A hood confines about the top half of the blades and spans about the width of the assembly. A motor rotates the rotatable shaft. A mounting assembly mounts the assembly to the vehicle behind and in alignment with the vehicle wheels or belts. A cylinder assembly reversibly moves the assembly from a home position downwardly into compacted soil for its mitigation.
An improved feeder house assembly has a front end header adapter assembly formed from a front hook assembly for carrying a grainhead and a front header cradle assembly supporting the front hook assembly and including a pair of frame assemblies, each frame assembly having mated top domed surfaces. One of the frame assemblies is stationary and the other frame assembly has laterally tilting along the mated top domed surfaces along an arc of rotation by a pair of linear actuators located at either top side of the front end header adaptor and tangential to the arc of rotation.
An engine cooling system for an engine carried by a grain harvesting combine having an internal combustion engine and hot exhaust components, and having a front operator cab includes a generally horizontal fan assembly located atop the harvesting combine for drawing in air, a radiator associated with the engine and over which air flows for engine cooling, and charge air coolers for combustion air cooling, and air conditioning and hydraulic coolers, a centrifugal scroll that takes the drawn in air and removes entrained particles to produce a clean exhaust air and dirty exhaust air; and a filter assembly through which the pre-cleaned exhaust air flows for producing filtered air for admittance into the engine for combustion.
An articulated harvesting combine includes of a forward power processing unit (PPU, 12) and a rear grain cart (14), wherein the PPU carries dual axially mounted engines (36 and 38) with oppositely opposed crankshafts (100 and 102) with one toward the rear grain cart and the other engine away from the rear grain cart, wherein the dual engines share a common radiator, single air conditioning condenser, single alternator, common batteries, common fuel tank and exhaust fluid tank; but have separate hot exhaust treatment system, separate hot exhaust manifolds, and separate side-mounted charge air coolers.
A grain harvesting articulated combine of a forward crop processing power unit (PPU), a rear grain cart, and an articulation joint that connects the PPU with the rear grain cart and includes an auger assembly that moves clean grain from the PPU to the rear grain cart. Two pump circuits deliver power to a pair of hydrostatic motors located in the rear grain cart, one pump circuit hydrostatic motor driving the grain unloader assembly, the other pump circuit hydrostatic motor driving the ascending fill lift auger assembly, the drag auger assemblies, and the articular joint auger assembly. Power (inertia) can be harvested from auger assemblies not moving grain for startup or clog clearing of the other auger assemblies.
A rotor and cage assembly includes a skeleton of curved spaced-apart side members affixed to laterally extending upper and lower spaced-apart members therebetween and surrounding the rotor. One of the curved spaced-apart side members is terminated with curved fingers. Three concave inserts insert laterally into the skeleton spanning 270° around the rotor. One of the concave inserts carries straight fingers that interlace between the skeleton side member curved fingers. A control assembly of plates having arcuate slots placed at 3 of the pivots of the skeleton assembly, 3 control bars connected to the skeleton pivots, and an actuator is connected separately to each control bar at one end effect arcuate rotation of the control bars resulting in the synchronized rotation of the arcuate slotted plates so that the interlaced straight fingers move closer together or farther apart with the fixed skeleton assembly curved fingers for different types of grain.
A rotor and cage assembly includes a skeleton of curved spaced-apart side members affixed to laterally extending upper and lower spaced-apart members therebetween and surrounding the rotor. One of the curved spaced-apartside members is terminated with curved fingers. Three concave inserts insert laterally into the skeleton spanning 270° around the rotor. One of the concave inserts carries straight fingers that interlace between the skeleton side member curved fingers. A control assembly of plates having arcuate slots placed at 3 of the pivots of the skeleton assembly, control bars connected to the skeleton pivots, and an actuator connect to the control bars at one end effect arcuate rotation of the control bars resulting in the synchronized rotation of the arcuate slotted plates so that the interlaced straight fingers move closer together or farther apart with the fixed skeleton assembly curved fingers for different types of grain.
Disclosed is a grain harvesting articulated combine of a forward PPU, a rear grain cart, and an articulation joint that connects the forward PPU with the rear grain cart. The rear grain cart includes an ascending lift auger assembly that receives clean grain from the forward PPU and transports it upwardly for dumping into the rear grain cart. A generally horizontal drag auger assembly moves clean grain to a lower a lift auger assembly. A clean grain off-loading auger assembly is connected to the lower lift auger assembly by a slew bearing. The clean grain off-loading auger is retractable about its upper end and its upper end assembly is terminated with a spout adapted to direct clean grain generally downwardly. The clean grain off-loading auger assembly is rotatable from a grain off-loading position to a home position.
Disclosed is an improved articulated combine of a forward grainhead carried by a forward bogey devoid of grain storage and operated by an operator and a rear grain storage bogey capable of crabbing. Proximity sensors are affixed to the side of the grainhead and on the side of the rear end of the rear bogey. Cameras are affixed to the front of the forward bogey looking to the side of the forward bogey, to the front of the rear bogey looking rearwardly into the rear bogey grain storage, to the rear of the rear bogey, and on the grain arm discharge end. Readout from the sensors are fed to memory for each type of grain off-loading vehicle for later use by the operator in placing the combine in the optimum unloading position. Video also is fed to a display confronting the combine operator.
Disclosed is an elongate arbor for mounting a wheel or wheel/tire combination onto an axle of a vehicle. One of the axle hub or the wheel bears threaded studs and the other bears tapped holes. The elongate arbor is terminated at one end with elongate fork tubes and at the opposite end with a flange having a plurality of apertures, says 3 apertures. The wheel to be mounted has tapped holes created to match the arbor flange apertures for mounting the wheel onto the arbor with threaded studs. Forks from, for example, a forklift, can be inserted into the elongate forklift tubes to lift and maneuver the arbor/wheel combination to align the wheel mounts with the axle mounts and threaded studs inserted for securement. The large wheel now can be mounted to axle hub of the vehicle.
B60B 29/00 - Apparatus or tools for mounting or dismounting wheels
B60B 30/08 - Means for holding wheels or parts thereof engaging the wheel body, e.g. the rim the central part of the wheel body
B62D 65/12 - Joining sub-units or components to, or positioning sub-units or components with respect to, body shell or other sub-units or components the sub-units or components being suspensions, brakes or wheel units
12 - Land, air and water vehicles; parts of land vehicles
35 - Advertising and business services
37 - Construction and mining; installation and repair services
Goods & Services
(1) Engine motors for agricultural machines; machine coupling and transmission components; agricultural implements other than hand-operated, namely draper headers, pickup heads, corn heads, harvester transport trailers, and head transport trailers; Agricultural machines, namely, harvesters, binders, threshers and combines; mowing and reaping machines. (1) Advertising for others in the field of agricultural machines; Organization of exhibition and events for commercial and advertising purposes for others in the field of agriculture; arranging and conducting promotional and marketing events for others in the field of agricultural machines. Installation, repair and maintenance of agricultural machines, harvesting machines and implements.
12 - Land, air and water vehicles; parts of land vehicles
35 - Advertising and business services
37 - Construction and mining; installation and repair services
Goods & Services
(1) Engine motors for agricultural machines; machine coupling and transmission components; agricultural implements other than hand-operated, namely draper headers, pickup heads, corn heads, harvester transport trailers, and head transport trailers; Agricultural machines, namely, harvesters, binders, threshers and combines; mowing and reaping machines. (1) Advertising for others in the field of agricultural machines; Organization of exhibition and events for commercial and advertising purposes for others in the field of agriculture; arranging and conducting promotional and marketing events for others in the field of agricultural machines. Installation, repair and maintenance of agricultural machines, harvesting machines and implements.
32.
AGRICULTURAL HARVESTER UNLOADING ASSIST SYSTEM AND METHOD
Disclosed is an improved articulated combine of a forward grainhead carried by a forward bogey devoid of grain storage and operated by an operator and a rear grain storage bogey capable of crabbing. Proximity sensors are affixed to the side of the grainhead and on the side of the rear end of the rear bogey. Cameras are affixed to the front of the forward bogey looking to the side of the forward bogey, to the front of the rear bogey looking rearwardly into the rear bogey grain storage, to the rear of the rear bogey, and on the grain arm discharge end. Readout from the sensors are fed to memory for each type of grain off-loading vehicle for later use by the operator in placing the combine in the optimum unloading position. Video also is fed to a display confronting the combine operator.
Disclosed is an improved articulated combine of a forward grainhead carried by a forward bogey devoid of grain storage and operated by an operator and a rear grain storage bogey. The rear bogey carries a grain unload arm. A diagonal grain auger assembly is disposed within the rear bogey and transfers grain from at least the front area of the rear bogey into the grain unload arm. A grain unload arm assembly is carried by the rear bogey and is composed of a moveable upper grain unload arm and a fixed lower grain unload arm whose proximal end is at a corner of the rear bogey, not at the center which lowers the angle, and which is connected by a slew bearing assembly matable to a rack for rotating. A grain unload auger is disposed within each of the upper grain unload arm and a lower grain unload arm.
37 - Construction and mining; installation and repair services
Goods & Services
Machines and machine tools; motors and engines (except for land vehicles); machine coupling and transmission components (except for land vehicles); agricultural implements other than hand-operated; agricultural machines; harvesters and combines for agricultural use; harvesting machines; mowing and reaping machines. Advertising; Organization of exhibition and events for commercial and advertising purposes in the field of agriculture; arranging and conducting promotional and marketing events for agricultural machines. Repair; installation services; repair and maintenance of agricultural machines, harvesting machines and implements.
35.
Articulated combine with unloading and rear bogey steering architecture
An articulated harvester is composed of a forward bogey having an operator's cab, an engine, a grain harvesting assembly, a grain transfer assembly, but being devoid of an on-board grain bin. A rearward bogey is attached by a joint to the forward bogey and has a powered wheel assembly, an on-board grain bin for receiving grain from the forward bogey grain transfer assembly, and a grain off-loading assembly. The grain separating and cleaning assembly including a grain cleaning fan are located in front of the forward bogey axle and offset from the forward bogey centerline. The forward bogey transmission may be located ahead of or behind the forward bogey axle and offset opposite of the grain fan.
An articulated harvester is composed of a forward bogey having an operator's cab, an engine, a grain harvesting assembly, a grain transfer assembly, but being devoid of an on-board grain bin. A rearward bogey is attached by a joint to the forward bogey and has a powered wheel assembly, an on-board grain bin for receiving grain from the forward bogey grain transfer assembly, and a grain off-loading assembly. The forward bogey wheel assembly is powered by a first drive system. The rearward bogey wheel assembly is powered by a second drive system. Each of the first and second powered drive systems includes coordinated transmission and drive motors.
An articulated harvester is composed of a forward bogey having an operator's cab, an engine, a grain harvesting assembly, a grain transfer assembly, but being devoid of an on-board grain bin. A rearward bogey is attached by a joint to the forward bogey and has a powered wheel assembly, an on-board grain bin for receiving grain from the forward bogey grain transfer assembly, and a grain off-loading assembly. The improvement includes the rearward bogey having a powered wheel assembly of a powered stiff axle wheel assembly pivotable for steering the articulated harvester when the joint has articulated by a defined number of degrees. The joint may be connected to the rearward bogey powered stiff axle wheel assembly by a beam that has a second joint disposed ahead of the stiff axle and actuatable to crab the articulated harvester for grain unloading.
Disclosed is an improved grain unloader for off-loading (unloading) grain from a grain bin carried by one or more of a combine or a grain cart. A second grain movement assembly is coupled in parallel to the first grain movement assembly so that both grain movement assemblies can simultaneously off-load the grain bin. A third grain movement assembly feeds the second grain movement assembly. The first and second grain movement assemblies move together from a stowage position to an unloading position. The third grain assembly can only feed the second grain transfer assembly when the second grain assembly is in the off-load position.
