A ditch forming apparatus having: a frame; a primary ditch forming assembly having: a) a first subassembly for penetrating and separating subjacent ground material; and b) a second subassembly for directing separated ground material away from a ditch being formed; and a ground treatment assembly to facilitate delivery of ground material to the second subassembly and having a ground engaging component that is turned around a first axis. At least one of: a) a vertical height of the first axis relative to the frame; b) a variable vertical force generated between the at least one ground engaging component and frame; c) a fore and aft position of the first axis relative to the frame; d) a speed of turning of the at least one ground engaging component around the first axis; and e) a direction of turning of the at least one ground engaging component around the first axis, can be changed.
A system for processing usable crop intermixed with debris and having a frame with a conveying system thereon. The conveying system has a first debris separating assembly with a first subframe having a plurality of cooperating rollers that are configured to cause separation of debris from the usable crop. A second debris separating assembly, different than the first debris separating assembly, has a second subframe with a plurality of cooperating rollers thereon that are configured to cause separation of debris from the usable crop. The frame and first and second debris separating assemblies are configured as overall like modules so that the first and second debris separating assemblies can be separately operatively connected, one in place of the other, on the frame.
B07B 9/00 - Combinations of apparatus for screening or sifting or for separating solids from solids using gas currentsGeneral arrangement of plant, e.g. flow sheets
B07B 4/08 - Separating solids from solids by subjecting their mixture to gas currents while the mixtures are supported by sieves, screens, or like mechanical elements
A centrifugal fan rotor having a frame with a rotary axis and a plurality of blades on the frame at circumferentially spaced locations around the rotary axis. The plurality of blades each has a leading edge and a trailing edge radially outside of the leading edge. The plurality of blades each has circumferentially oppositely facing first and second surfaces each extending between respective leading and trailing edges. The plurality of blades each has a material bonded at the leading edge and over only a portion of the exposed surface area of one of the first and second surfaces.
A blower unit having a frame and at least one wheel on the frame through which the frame can be supported upon and moved over a subjacent support surface. A handle assembly has at least one gripping region that is configured to be engaged by a user situated at the rear of the blower unit. A source of pressurized air has an outlet at which a volume of pressurized air is discharged. A pressurized air handling system on the frame has a conduit assembly defining first and second flow paths through which pressurized air from the outlet of the source of pressurized air is selectively delivered respectively to first and second outlets. The pressurized air handling system further has an air control with at least first and second states in which different volumes of pressurized air are delivered to the first and second outlets.
A47L 5/14 - Structural features of suction cleaners with power-driven air-pumps or air-compressors, e.g. driven by motor vehicle engine vacuum cleaning by blowing-off, also combined with suction cleaning
B62B 3/02 - Hand carts having more than one axis carrying transport wheelsSteering devices thereforEquipment therefor involving parts being adjustable, collapsible, attachable, detachable, or convertible
B62B 3/10 - Hand carts having more than one axis carrying transport wheelsSteering devices thereforEquipment therefor characterised by supports specially adapted to objects of definite shape
B25F 5/02 - Construction of casings, bodies or handles
A01G 20/43 - Apparatus for cleaning the lawn or grass surface for sweeping, collecting or disintegrating lawn debris
A47L 5/22 - Structural features of suction cleaners with power-driven air-pumps or air-compressors, e.g. driven by motor vehicle engine vacuum with rotary fans
E01H 1/08 - Pneumatically dislodging or taking-up undesirable matterDrying by heat only, or by streams of gasCleaning by projecting abrasive particles
5.
Potato seed planting apparatus and method of planting potato seed using the apparatus
A potato seed planting apparatus has: a frame configured to be advanced over a subjacent field into which potato seed is planted; at least one container on the frame for a supply of potato seed; and a plurality of laterally spaced planting units on the frame. Each of the planting units is configured to cause potato seed from the at least one container to be discharged to the subjacent field at controlled time intervals as the potato seed planting apparatus is advanced in a travel path. First and second of the planting units are configured so that the discharge time intervals for potato seeds from the first planting unit are different than the discharge time intervals for potato seeds from the second planting unit with the potato seed planting apparatus advanced at a first speed in the travel path.
An apparatus for separating usable crop from intermixed debris, the apparatus having: a movable support; a conveying system on the movable support to convey usable crop in a processing path from an upstream input location to a downstream output location; at least a first separating system on the movable support to cause separation of debris intermixed with usable crop in a first manner as usable crop is conveyed; a vacuum system on the movable support downstream of the first separating system to generate a low pressure volume which causes additional debris intermixed with the usable crop to be drawn away from the usable crop; and a collection container on the movable support configured to accumulate debris drawn away from the conveying usable crop. The movable support, conveying system, at least first separating system, vacuum system, and collection container define a unit that can be moved to relocate the apparatus.
B07B 9/02 - Combinations of similar or different apparatus for separating solids from solids using gas currents
B07B 4/08 - Separating solids from solids by subjecting their mixture to gas currents while the mixtures are supported by sieves, screens, or like mechanical elements
B07B 1/15 - Roller screens using corrugated, grooved or ribbed rollers
A01D 33/08 - Special sorting and cleaning mechanisms
Agriculture equipment, namely, harvesters, sowers, mechanical discharging hoppers, and tillers, and the parts and attachments therefore, namely, replacement reels on combine harvesters, air assisted harvesting systems in the nature of combine harvesters to attach onto combine heads, cutting machine systems for harvesters, hopper extensions, mechanical chaff spreaders, tile plows, ditchers in the nature of sowers and centrifugal blower fans; power-operated weeder for removing weeds from lake beds; centrifugal fans in the nature of centrifugal blowers; fans in the nature of centrifugal blowers functioning as a vacuum and blower for industrial and agricultural use; fans to provide high pressure air stream to agriculture equipment in the nature of seeders, planters in the nature of sowers, fertilizer applicators and harvesters; fans in the nature of rotary blowers for harvest drying machines; fans in the nature of centrifugal blowers to provide vacuum for dust extraction in mobile environments in agricultural, construction, and oil industries
8.
Agricultural harvesting unit and method of harvesting using the unit
A harvesting unit with a combine, having a user cab. A harvesting apparatus, advanced by the combine, has a frame and a harvesting assembly on the frame configured to process severed crop over a width between spaced sides of the frame. A fluid delivery system discharges pressurized fluid in discrete streams each directed to at least one of: a) facilitate severance of crop by the harvesting assembly; and b) facilitate advancement of severed crop rearwardly in relationship to the frame for further processing. A user can selectively vary at least one of: a) a volume of pressurized fluid; and b) a direction of pressurized fluid in the discrete streams. A control system has at least one actuator accessible and operable from outside of the cab through a user input to cause the at least one of the volume of pressurized fluid discharged, and direction of the pressurized fluid, in the discrete streams to be varied.
An extension assembly for a processed crop storage tank on a combine. A closure assembly for a top opening on the tank has at least one panel with one surface area that is exposed to bound a part of an exterior space above the storage space with the closure assembly open. The extension assembly has a first extension panel with a first surface with a first area and a connecting system through which the first extension panel is operatively connected to the combine. The first extension panel is changeable between a deployed position and a stored position. In the deployed position the first surface and one surface define a combined exposed surface area that is greater than the first area of the first surface. The combined surface area is exposed to confine processed crop in the exterior space with the closure assembly open.
A method of setting up a system to redistribute loose material; including the steps of: obtaining a blower assembly that is configured to generate a pressurized supply of air that is discharged at an outlet; obtaining a wheeled carrying unit for the blower assembly; and operatively positioning the blower assembly on a frame on the carrying unit. The carrying unit and blower assembly are configured so that with the blower assembly operatively positioned the carrying unit can be advanced by the user over the subjacent support surface to thereby cause pressurized air generated by the blower assembly to be directed to continuously and controllably redistribute loose material residing on the subjacent support surface.
A carrying unit for a source of pressurized air having a frame and at least one wheel on the frame through which the frame can be supported upon and moved over a subj support surface. A conduit assembly is part of a pressurized air handling system on the frame and has an inlet for receiving pressurized air from a source and first and second spaced outlets for discharging pressurized air directed through the inlet. The pressurized air handling system further has an air control system that is changeable selectively into different states. By reason of changing states, the air control system causes at least one of: a) a different volume of air from the inlet to be directed to the first and second outlets; and b) a change in a direction of air discharging from one of the outlets.
E01H 1/08 - Pneumatically dislodging or taking-up undesirable matterDrying by heat only, or by streams of gasCleaning by projecting abrasive particles
B25F 5/02 - Construction of casings, bodies or handles
A47L 5/14 - Structural features of suction cleaners with power-driven air-pumps or air-compressors, e.g. driven by motor vehicle engine vacuum cleaning by blowing-off, also combined with suction cleaning
A01G 1/12 - Tools for cultivating turf; Sweeping apparatus for lawns; Gardens rollers (machines for treating meadows or lawns A01B 45/00; lawn-mowers A01D 34/00)
A powered landscaping apparatus having a frame, at least one wheel on the frame through which the frame can be supported upon and advanced over a subjacent support surface, a blower assembly operatively positioned on the frame and having a fan assembly that is mounted to be turned guidingly around a vertically extending axis, and a drive on the frame for moving the fan assembly around the vertically extending axis. The blower assembly is configured to generate a pressurized supply of air that is propelled in a stream that is directed in a manner to continuously redistribute loose material that resides on the subjacent support surface as the fan assembly is moved around the vertically extending axis by the drive and the frame is advanced over the subjacent support surface.
An apparatus for separating usable crop from intermixed debris. The apparatus has: a) a conveying system configured to convey usable crop in a processing path from an upstream input location to a downstream output location; and b) a first separating system configured to cause separation of debris intermixed with usable crop as usable crop is conveyed in the processing path. A vacuum system downstream of the preliminary separating system is configured to: a) generate a low pressure volume which causes additional debris intermixed with usable crop to be drawn away from usable crop by vacuum; and b) cause drawn debris to be directed towards a collection location spaced from the output location while allowing usable crop to advance toward the output location.
B07B 4/08 - Separating solids from solids by subjecting their mixture to gas currents while the mixtures are supported by sieves, screens, or like mechanical elements
A harvesting apparatus having a frame and a harvesting assembly on the frame configured to accommodate severed crop as the frame is advanced. A fluid delivery system causes pressurized fluid to be discharged in discrete streams each with a component that is directed to at least one of: a) facilitate severance of crop; and b) cause severed crop to be advanced rearwardly in relationship to the frame to a location for further processing. The fluid delivery system has: i) a primary conduit length extending laterally between the sides of the frame; ii) a plurality of laterally spaced outlets from which fluid from the primary conduit length is discharged; iii) a pressurized fluid source; and iv) a distributing conduit assembly that directs pressurized fluid from the pressurized fluid source to first and second locations from where pressurized fluid is directed in laterally opposite directions into the primary conduit length.
A harvesting apparatus having a frame to be advanced over an area in which a crop is grown and a harvesting assembly on the frame configured to process severed crop. The harvesting assembly is configured to advance severed crop laterally to a delivery location between the laterally spaced sides of the frame and to and through a feed housing. A fluid delivery system discharges pressurized fluid to at least one of: a) facilitate severance of crop; and b) facilitate rearward advancement of severed crop. The fluid delivery system has at least a first pressurized fluid source through which pressurized fluid is delivered to laterally spaced outlets. A cleaning assembly has a first cleaning conduit assembly for directing pressurized fluid from the first pressurized fluid supply source in at least a first stream that repositions unusable crop and debris to reduce buildup thereof in the vicinity of the feed housing.
An agricultural article sizer with a frame assembly and a plurality of elongate rollers on the frame assembly with substantially parallel lengthwise axes and through which agricultural articles are advanced and separated by size. First and second of the rollers have first and second axes and first and second peripheral surfaces. A third roller has a third peripheral surface and a third axis between the first and second axes along a conveying direction. The third roller is movable selectively relative to the first roller to change a spacing between the third axis and a plane containing the first and second axes to thereby change a dimension of a gap between the first and third peripheral surfaces to thereby allow passage through the gap of different selected ranges of agricultural article size.
B07B 13/00 - Grading or sorting solid materials by dry methods, not otherwise provided forSorting articles otherwise than by indirectly controlled devices
B07C 5/12 - Sorting according to size characterised by the application to particular articles, not otherwise provided for
B07B 13/075 - Apparatus comprising moving article-receiving openings, the size of which varies as they move
B07B 13/04 - Grading or sorting solid materials by dry methods, not otherwise provided forSorting articles otherwise than by indirectly controlled devices according to size
B07B 13/07 - Apparatus in which aggregates or articles are moved along or past openings which increase in size in the direction of movement
A pick assembly for delivering a seed product from a supply thereof to a delivery location and having a pick wheel and at least a first pick arm assembly on the pick wheel with a first cantilever-mounted pick. The pick: a) penetrates a seed product from a supply and releases the seed product to a delivery location as an incident of the pick wheel turning. The first pick has a body with an exposed surface that tapers over at least a portion of the length of the body. At least one discrete raised holding element is on the exposed surface of the body and has an axial width bounded by axially spaced edges. The one holding element at least one of: a) extends through less than fully around a lengthwise axis of the first pick body; and b) has gaps at both axially spaced edges, each extending along the lengthwise axis a distance greater than the axial width.
Agricultural equipment, namely, power operated or tractor towed implements for field and warehouse use, namely, potato and sweet potato planters, diggers, harvesters, windrowers and graders, defoliators, toppers and cutters, and sprayers and conveyors
23.
Windrower and method of windrowing a grown product
A windrower with a frame that: a) has a front, a rear and laterally spaced sides; and b) is movable in an advancing direction. A processing mechanism is capable of: a) unearthing grown product; and b) separating foreign matter from the grown product as the frame is advanced. A cross conveyor assembly controllably discharges grown product from the processing mechanism to the underlying terrain. The cross conveyor assembly has a first discharge end and at least one section, including the first discharge end, that is selectively translatable laterally relative to the frame as the frame is advancing thereby to laterally change a location of the first discharge end and thus the lateral discharge location for the cross conveyor assembly at the first discharge end.
The present disclosure relates to a wood chipper that has a feed roller driven by a hydraulic motor. Hydraulic fluid under pressure is provided to the motor through a two-stage pump, providing separate flows of fluid under pressure. The flows of the pump stages are combined for normal operation of the chipper. A bypass that will bypass the flow from one pump stage when the pressure of the fluid under pressure driving the motor exceeds a pre-selected level from increased load on the feed roller is provided. When the bypass is open the feed roller is slowed to reduce the feed rate of material into the chipper, and when the feed roller loads reduce, the flows will again be combined to speed up the feed roller.
B02C 17/02 - Disintegrating by tumbling mills, i.e. mills having a container charged with the material to be disintegrated with or without special disintegrating members such as pebbles or balls with perforated container
B07B 13/00 - Grading or sorting solid materials by dry methods, not otherwise provided forSorting articles otherwise than by indirectly controlled devices
AGRICULTURAL EQUIPMENT FOR FIELD AND WAREHOUSE USE-NAMELY, POTATO HARVESTERS AND PLANTERS [ , SUGAR BEET PLANTERS, TOPPERS AND HARVESTERS, CENTER PIVOT SPRINKLERS, SPRAYERS, SEWING MACHINES, CONVEYORS, AND BAGGERS ]
