A method and a bale wrapping device for wrapping a bale. The method includes receiving a bale at a bale moving ramp device of the bale wrapping device. The bale on the bale moving ramp device is moved through a bale wrapping frame. The sheet of wrapping material is applied on the bale to wrap the bale as the bale passes through the bale wrapping frame, and a roller on the bale wrapping frame holds a roll of the sheet of wrapping material.
A towable rear tool attachment for a towable tillage tool is configured for soil clod sizing and firming. The rear tool includes a rolling cage that rotates when being towed and is in contact with a soil surface. The rolling cage includes a pair of circular-shaped end plates located at each end of the rolling cage, a ring-shaped support plate, in parallel with and between the end plates, structural members arranged equally spaced apart around a circumference of the end plates and the support plate, forming a cage-like structure. At least one of the structural members having a removable section between one end plate and the support plate configured for easy removal of rocks and other objects that can be picked and trapped inside of the rolling cage.
A tillage tool achieves stability at higher speed ranges by providing stabilization with additional damping through damping elements on the front support wheels and on the constant level linkage and on the rear tool. The tillage tool maintains maximally one longitudinally positioned unsuspended load path to the ground provided by unsuspended depth gauging wheels longitudinally positioned parallel to a front to rear rocking axis to allow for constant settings throughout the depth, speed, and field condition ranges.
A01B 33/02 - Tilling implements with rotary driven tools with tools on horizontal shaft transverse to direction of travel
A01B 33/08 - ToolsDetails, e.g. adaptations of transmissions or gearings
A01B 51/04 - Undercarriages specially adapted for mounting-on various kinds of agricultural tools or apparatus drawn by animal or tractor
A01B 63/111 - Lifting or adjusting devices or arrangements for agricultural machines or implements for implements mounted on tractors operated by hydraulic or pneumatic means regulating working depth of implements
A01B 63/22 - Lifting or adjusting devices or arrangements for agricultural machines or implements for implements drawn by animals or tractors with wheels adjustable relatively to the frame operated by hydraulic or pneumatic means
A system and method for automatic wrapping bales in a bale wrapper, including placing a bale on a loading table and performing a wrapping cycle. The wrapping cycle including rotating a wrapping hoop to apply a wrapping material to a bale surface, moving a bale pushing device from a first position toward a second position to push the bale through the wrapping hoop, dispensing from a first material applicator and a second material applicator, comparing a theoretical applied wrapping material quantity to an actual applied wrapping material quantity, adjusting a ratio of moving speed of the bale pushing device to rotational speed of the wrapping hoop, to apply a predetermined amount of wrapping material, continuing to move the bale pushing device until the second position is reached, stopping the rotation of the wrapping hoop, and moving the bale pushing device from the second position to the first position.
Provided are systems, apparatus, and methods for use with mergers. A method for processing a material on a ground surface includes detecting, via one or more sensors, an object of interest associated with the material when a merger is forming a windrow on the ground surface. The method also includes a step for facilitating removal of the object of interest from the material in response to the detection.
A system and method for automatic wrapping bales in a bale wrapper, including placing a bale on a loading table and performing a wrapping cycle. The wrapping cycle including rotating a wrapping hoop to apply a wrapping material to a bale surface, moving a bale pushing device from a first position toward a second position to push the bale through the wrapping hoop, dispensing from a first material applicator and a second material applicator, determining presence of the wrapping material, by a sensor on the wrapping hoop, adjusting based on the determining, a ratio of moving speed to rotational speed of the wrapping hoop, to apply a predetermined amount of wrapping material independent of the presence of wrapping material dispensing, continuing to move the bale pushing device until the second position is reached, stopping the rotation of the wrapping hoop, and moving the bale pushing device to the first position.
Systems, apparatus, and methods for remotely adjusting implements with preset profiles are described. A disclosed method for processing a material on a ground surface includes receiving a transmitted monitored set of parameters of the first set of material manipulators and the second set of material manipulators; determining whether the first set of material manipulators or the second set of material manipulators is within a predetermined range of a parameter setpoint; and upon determining the first set of material manipulators or the second set of material manipulators is not within the predetermined range of the parameter setpoint, actuating the first set of actuators to adjust the first set of material manipulators or the second set of actuators to adjust the second set of material manipulators, wherein actuating the first set of actuators or the second set of actuators can be performed independently.
A01B 33/08 - ToolsDetails, e.g. adaptations of transmissions or gearings
A01B 33/02 - Tilling implements with rotary driven tools with tools on horizontal shaft transverse to direction of travel
A01B 63/111 - Lifting or adjusting devices or arrangements for agricultural machines or implements for implements mounted on tractors operated by hydraulic or pneumatic means regulating working depth of implements
8.
Bale wrapping device and method of operation thereof
A method and a bale wrapping device for wrapping a bale. The method includes receiving a bale at a bale moving ramp device of the bale wrapping device. The bale on the bale moving ramp device is moved through a bale wrapping frame. The breathable sheet of wrapping material is applied on the bale to wrap the bale as the bale passes through the bale wrapping frame, and a roller on the bale wrapping frame holds a roll of the breathable sheet of wrapping material.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electronic control system for controlling, monitoring, and
operating agricultural equipment, comprising electronic
sensors, computer hardware and recorded software.
A control system for mixing materials for livestock feed including a container that receives the materials, agitators that mix the materials in the container, a driveline that drives the agitators at an output speed with an output torque, a power source that provides an input speed at an input torque, a continuously variable transmission that connects the driveline and the power source and having a hydrostatic loop to provide a speed ratio between the input speed and the output speed, a plurality of sensors positioned between the power source and the agitators that provides mixing signals commensurate to mixing parameters, and an electronic control unit configured to receive the mixing signals, extract mixing parameter values from the mixing signals, and actuate the continuously variable transmission and adjust the speed ratio based on the mixing parameter values to enhance efficiency of the mixing of the materials.
F16H 63/06 - Final output mechanisms thereforActuating means for the final output mechanisms a single final output mechanism being moved by a single final actuating mechanism the final output mechanism having an indefinite number of positions
09 - Scientific and electric apparatus and instruments
Goods & Services
Electronic control system for controlling, monitoring, and operating agricultural equipment sold as a unit, comprising electronic sensors for sensing pressure and position of equipment components, and computer hardware and recorded software for operating agricultural equipment
13.
Systems, apparatus, and related methods for use with mergers
Systems, apparatus, and methods for use with mergers for processing a material on a ground surface includes detecting, via one or more sensors, an object of interest associated with the material when a merger is forming a windrow on the ground surface. The method also includes a step for facilitating removal of the object of interest from the material in response to the detection.
A transmission system for a feed mixer including a continuously variable transmission (CVT) is provided. The CVT includes a mechanical loop and a hydrostatic loop. The CVT is operated so that the mechanical portion of the CVT is prevented from overtaking the hydrostatic portion of the CVT at start up of the CVT.
F16H 47/04 - Combinations of mechanical gearing with fluid clutches or fluid gearing the fluid gearing being of the volumetric type the mechanical gearing being of the type with members having orbital motion
Wrapping machines; hay making machines; hay binding machines; automated wrapper in-feed machines; agricultural machines, namely, bale wrappers for applying wraps and tying materials to bales
A control system for mixing materials having a container to receive the materials, agitators, a driveline to drive the agitators at an output speed with an output torque, an power source to provide an input speed with an input torque, a continuously variable transmission that connects the driveline and the power source, and an electronic control unit configured to adjust a speed ratio of the continuously variable transmission to provide a linear relationship between the input torque and the output torque with a slope, when the input torque is below a control input threshold, and to follow a corrected linear relationship between the input torque and the output torque with a corrected slope smaller than the slope when the input torque is above the control input threshold.
A control system for mixing materials for livestock feed including a container that receives the materials, agitators that mix the materials in the container, a driveline that drives the agitators at an output speed with an output torque, a power source that provides an input speed at an input torque, a continuously variable transmission that connects the driveline and the power source and having a hydrostatic loop to provide a speed ratio between the input speed and the output speed, a plurality of sensors positioned between the power source and the agitators that provides mixing signals commensurate to mixing parameters, and an electronic control unit configured to receive the mixing signals, extract mixing parameter values from the mixing signals, and actuate the continuously variable transmission and adjust the speed ratio based on the mixing parameter values to enhance efficiency of the mixing of the materials.
F16H 63/06 - Final output mechanisms thereforActuating means for the final output mechanisms a single final output mechanism being moved by a single final actuating mechanism the final output mechanism having an indefinite number of positions
A disc conditioner to work soil in a forward direction including a main support structure, a secondary support structure that protrudes from the main support structure in the forward direction, a main disc assembly affixed to the main support structure, and a secondary disc assembly that is affixed to the secondary support structure and protrudes from the main disc assembly in the forward direction. The secondary disc assembly generates an oscillating soil and residue flow along a central axis of the disc conditioner that levels the soil.
A chisel point to shatter compacted soil having a nose that penetrates the soil, a tail that points in an upward direction, a head that extends in a downstream direction from the nose, a body that connects the head to the tail in the downward direction and in the upward direction, and a pair of wings that laterally protrudes from the body in the downstream direction and in a downward direction.
A chisel point to shatter compacted soil having a nose that penetrates the soil, a tail that points in an upward direction, a head that extends in a downstream direction from the nose, a body that connects the head to the tail in the downward direction and in the upward direction, and a pair of wings that laterally protrudes from the body in the downstream direction and in a downward direction.
A control system for mixing materials having a container to receive the materials, agitators, a driveline to drive the agitators at an output speed with an output torque, an power source to provide an input speed with an input torque, a continuously variable transmission that connects the driveline and the power source, and an electronic control unit configured to adjust a speed ratio of the continuously variable transmission to provide a linear relationship between the input torque and the output torque with a slope, when the input torque is below a control input threshold, and to follow a corrected linear relationship between the input torque and the output torque with a corrected slope smaller than the slope when the input torque is above the control input threshold.
Tractor-towed agricultural tillage implements, namely,
cultivators, disk blades, cultivator shanks, harrows and
conditioning reels, and replacement parts therefor.
(1) Tractor-towed agricultural tillage implements, namely, cultivators, disk blades, cultivator shanks, harrows and conditioning reels, and replacement parts therefor
A discharge device includes a plurality of material conveying components, an adjustable shear ledge, and an adjustable shroud to convey materials from a container of a material spreader out onto an open area. The adjustable shear ledge includes at least one longitudinal mounting member such that the adjustable shear ledge may be translated towards or away from the plurality of material conveying components to maintain a predetermined gap distance. The adjustable shroud may also be pivotably connected to the adjustable shear ledge such that the adjustable shroud can be pivoted towards or away from the plurality of material conveying components. The adjustable shear ledge and the adjustable shroud may be moved accordingly to maintain a preferred gap distance and to maintain concentricity with a swing of the material conveying components in order to reduce wear on components and promote spread performance of the material spreader.
A lift assist system to assist an tool including a toolbar; a pair of casters affixed to the articulated arms to provide support on a ground surface; and articulated arms constructed to be articulated from a work position, wherein the tool is in contact with the ground surface to a transport position wherein the tool is not in contact with the ground surface. The articulated arms includes a limiter rotatably affixed to the support bars, and an adjuster that connects the limiter, wherein the limiter regulates the articulated arms and maintains the gauge wheel pivot axis in a near vertical position, and the adjuster maintains a precise positioning relationship of the articulated arms.
A01B 63/14 - Lifting or adjusting devices or arrangements for agricultural machines or implements for implements drawn by animals or tractors
A01B 59/043 - Devices specially adapted for connection between animals or tractors and agricultural machines or implements for machines pulled or pushed by a tractor having pulling means arranged on the rear part of the tractor supported at three points, e.g. by quick-release couplings
A spreader assembly to distribute materials on a ground surface, including a container to hold the materials, a frame affixed to the container, a beater assembly supported by the frame that receives the materials from the container and processes the materials to obtain processed materials, and a spinner assembly that receives the processed materials and expulses the processed materials from the frame onto the ground surface. The beater assembly includes a pair of rotating elements that blends the materials to produce the processed materials, and a deflector located between the pair of rotating elements configured to prevent the formation of agglomerates in the processed materials.
Tractor-towed agricultural tillage implements, namely, cultivators, disk blades, cultivator shanks, harrows and conditioning reels, and replacement parts therefor
34.
Merger and merger assembly with first and second belts
A merger, for picking up and distributing materials from a ground surface, includes a frame that provides support to the merger, a pick-up head affixed to the frame that lifts the materials from the ground surface, a height adjustor affixed to the frame that maintains a minimum clearance between the ground surface and the pick-up head, and a conveyor affixed to the frame that receives the materials from the pick-up head. The conveyor includes a first belt and a second belt that independently distributes the materials on the ground surface from at least one of a first side of the frame and a second side of the frame.
A system for driving a reel mixing tool, including a unit structure, a bottom output shaft, an output gearbox, a reel mixer driveshaft, a reel mixer gearbox, a flexible coupling, and a reel mixing tool, is provided. The unit structure supports the bottom output shaft which is connected to the output gearbox, the output gearbox is connected to the reel mixer driveshaft, the reel mixer driveshaft is connected to the reel mixer gearbox, the reel mixer gearbox is directly coupled to the reel mixing tool by the flexible coupling, allowing the bottom output shaft to transfer power through to the reel mixing tool.
An apparatus for adjusting the toe and camber of a wheel including a spindle, a spindle sleeve, the spindle disposed inside the spindle sleeve, a spindle sleeve bolt, disposed through the spindle through hole and the spindle sleeve through hole, an alignment cam, including an eccentric cam through hole, a cam bolt head, a spindle cup, the eccentric cam through hole offset from an alignment cam constant center of the alignment cam, and a spindle bolt, securely connecting the alignment cam to the spindle. The alignment cam is connected to a first end of the spindle, with the alignment cam and the spindle disposed inside the spindle sleeve.
A system of folding toolbars on an agricultural implement having a base toolbar, two articulating toolbars, multiple attachments to the toolbar, and a pair of hinges, with each toolbar connected to attachments. The base toolbar is located orthogonally to the direction of travel of the agricultural implement and connected to a hinge at each end, the hinges are each further connected to an articulating toolbar. Each of the toolbars is connected to a set of attachments. Each articulating toolbar rotates about the base on a pivot axis along the direction of travel of the agricultural implement and tilted relative to the ground plane, such that the center of gravity (CG) moves forward in the transport position and a normal force is applied to the articulating toolbars to resist vertical movement when in field position.
A merger apparatus including a pick-up header; a conveyor with a conveyor belt; a skid shoe disposed below the pick-up header and the conveyor; and an operative connection between the pick-up header and the skid shoe that enables the merger apparatus to articulate independently of an external frame underneath the conveyor, such that loose material transported by the conveyor belt that lags beneath the return side may fall to the ground keeping the return side of the conveyor belt free from obstructions.
A hydraulic circuit for an agricultural implement consisting of a hydraulic cylinder that exerts a force on a component of the implement. A pressure reduction valve located between a hydraulic power source and the hydraulic cylinder maintains pressure to no more than a preset maximum to protect the hydraulic cylinder by routing excess hydraulic fluid back through a hydraulic line into a reservoir. A pressure relief valve with a preset maximum pressure greater than that of the pressure reduction valve is located between the pressure reduction valve and the hydraulic cylinder, and is connected to the reservoir through a dedicated return line. If hydraulic fluid pressure in the circuit increases to greater than the maximum of the pressure reduction valve, hydraulic fluid is diverted back to the reservoir through the pressure relief valve and a dedicated return line.
A01B 63/32 - Tools or tool-holders adjustable relatively to the frame operated by hydraulic or pneumatic means
F15B 11/10 - Servomotor systems without provision for follow-up action with only one servomotor in which the servomotor position is a function of the pressure
F15B 13/02 - Fluid distribution or supply devices characterised by their adaptation to the control of servomotors
A merger apparatus including a pick-up header; a conveyor with a conveyor belt; a skid shoe disposed below the pick-up header and the conveyor; and an operative connection between the pick-up header and the skid shoe that enables the merger apparatus to articulate independently of an external frame underneath the conveyor, such that loose material transported by the conveyor belt that lags beneath the return side may fall to the ground keeping the return side of the conveyor belt free from obstructions.
A pick-up head may be provided with an anti-wrapping device to prevent materials from wrapping around the pick-up head. The pick-up head may include a plurality of tine bars for carrying a plurality of pick-up teeth. The tine bars may be rotatably supported by a drive shaft and the drive shaft may be secured to end plates of the pick-up head. The anti-wrapping device may be attached to an end of the tine bars to fill in gaps between the tine bars and to create a surface rotatable with the tine bars that is less susceptible to wrapping.
A discharge device includes a plurality of material conveying components, an adjustable shear ledge, and an adjustable shroud to convey materials from a container of a material spreader out onto an open area. The adjustable shear ledge includes at least one longitudinal mounting member such that the adjustable shear ledge may be translated towards or away from the plurality of material conveying components to maintain a predetermined gap distance. The adjustable shroud may also be pivotably connected to the adjustable shear ledge such that the adjustable shroud can be pivoted towards or away from the plurality of material conveying components. The adjustable shear ledge and the adjustable shroud may be moved accordingly to maintain a preferred gap distance and to maintain concentricity with a swing of the material conveying components in order to reduce wear on components and promote spread performance of the material spreader.
A drive system includes a drive housing and one or more drivetrain cartridges. The one or more drivetrain cartridges enables better manufacturability by allowing drivetrain components to be installed together outside the housing and then installed as a unit together into the housing. Serviceability is improved by allowing one or more of the drivetrain cartridges to be removed individually from the housing for maintenance or repair. The housing may include mounting surfaces to securely engage the one or more drivetrain cartridges to the housing to prevent play. The housing may include a bottom or side panel with installation mounts to fasten the drivetrain cartridge or cartridges securely to the bottom or side panel of the housing.
An agricultural machine is disclosed. The agricultural machine includes a frame including a first axle on a first side of the frame and a second axle on a second side of the frame; and a bogie axle pivotably mounted on each of the first and second axles of the frame. Each bogie axle includes a body with a front axle disposed at a front end of the body and a rear axle disposed at a rear end of the body. A front tire is mounted on the front axle of each bogie axle and a rear tire is mounted on the rear axle of each bogie axle. The front tire is a different size than the rear tire.
B60B 37/10 - Wheel-axle combinations, e.g. wheel sets the wheels being individually rotatable around the axles
A01D 78/14 - Haymakers with tines moving with respect to the machine with tine-carrying rotary heads or wheels the tines rotating about a substantially horizontal axis
A rake includes a frame and at least one arm assembly attached to the frame via an arm member. The arm assembly includes a main beam coupled to the arm member. The main beam includes a first member pivotally attached to a second member, and the angle between the first and second members is adjustable. The arm assembly further includes a first rake wheel unit connected to the first member and a second rake wheel unit connected to the second member. The arm assembly attaches to the frame such that in a work position, the first and second rake wheel units are disposed substantially horizontally extended with respect to frame, and in a transport position, the first and second rake wheel units are disposed substantially vertically above the frame.
A01D 78/14 - Haymakers with tines moving with respect to the machine with tine-carrying rotary heads or wheels the tines rotating about a substantially horizontal axis
A control system for controlling augers that includes a data input unit and a processing unit. The processing unit receives data input from the data input unit and generates and distributes output signals that are derived from the data input. Each of the output signals includes a control setting for at least a first auger. The control setting includes a position for the first auger relative to a position of a second auger in order to gain greater control during a variety of processing stages.
G06F 19/00 - Digital computing or data processing equipment or methods, specially adapted for specific applications (specially adapted for specific functions G06F 17/00;data processing systems or methods specially adapted for administrative, commercial, financial, managerial, supervisory or forecasting purposes G06Q;healthcare informatics G16H)
A control system for controlling augers that includes a data input unit and a processing unit. The processing unit receives data input from the data input unit and generates and distributes output signals that are derived from the data input. Each of the output signals includes a control setting for at least a first auger. The control setting includes a position for the first auger relative to a position of a second auger in order to gain greater control during a variety of processing stages.
An adjustable rake for raking agricultural products includes a wheeled cart configured to be pulled in a direction of travel on a surface of travel and first and second rake arm positioners coupled to the wheeled cart and configured to translate in a direction transverse to the direction of travel of the wheeled cart. First and second front rake arm assemblies are pivotably coupled to the first and second rake arm positioners, respectively. First and second inner rear supports are included, and each of the first and second inner rear supports is pivotably coupled to the wheeled cart and is configured to pivot as a result of translation of the first and second rake arm positioners in the direction transverse to the direction of travel of the wheeled cart. The rake may include optional splitter wheels.
An adjustable rake for raking agricultural products includes a wheeled cart configured to be pulled in a direction of travel on a surface of travel and first and second rake arm positioners coupled to the wheeled cart and configured to translate in a direction transverse to the direction of travel of the wheeled cart. First and second front rake arm assemblies are pivotably coupled to the first and second rake arm positioners, respectively. First and second inner rear supports are included, and each of the first and second inner rear supports is pivotably coupled to the wheeled cart and is configured to pivot as a result of translation of the first and second rake arm positioners in the direction transverse to the direction of travel of the wheeled cart. The rake may include optional splitter wheels.
A spreading apparatus for spreading material onto a target area is disclosed. The spreading apparatus includes a container for the material, a discharge unit which discharges the material, a deflector door disposed on a discharge port of the discharge unit, a positioning device which positions the deflector door and a controller configured to control the deflector door so that the deflector door is positioned between a first closed position and a second open position. The material is substantially prevented from exiting through the discharge port when the deflector door is in the first position. The deflector door may further be positioned at a position between the first closed position and second open position to control a distance of the material discharged from the discharge port.
A mixing apparatus includes a hopper, a reel, and at least one auger. The hopper defines first and second chambers. The first chamber is disposed adjacent to the second chamber. The reel is disposed within the first chamber. The reel includes first and second hubs configured to rotate and at least one connecting member connecting the first hub to the second hub. The at least one auger is disposed in the second chamber. The first and second hubs rotate about a common axis of rotation. No connecting member connects a center of the first hub to a center of the second hub along the axis of rotation. An attachment point between each connecting member and the first hub is circumferentially offset with respect to an attachment point between the same connecting member and the second hub.
A mixing apparatus includes a hopper, a reel, and at least one auger. The hopper defines first and second chambers. The first chamber is disposed adjacent to the second chamber. The reel is disposed within the first chamber. The reel includes first and second hubs configured to rotate and at least one connecting member connecting the first hub to the second hub. The at least one auger is disposed in the second chamber. The first and second hubs rotate about a common axis of rotation. No connecting member connects a center of the first hub to a center of the second hub along the axis of rotation. An attachment point between each connecting member and the first hub is circumferentially offset with respect to an attachment point between the same connecting member and the second hub.
In lieu of rigid bars, a tillage reel utilizes a number of elongated flexible elements such as lengths of link chain that are spaced circumferentially around the reel and extend axially thereof. The flexible elements bow outwardly by centrifugal force as the reel rolls along the ground during tillage operations to impact and fracture clods encountered at the lower front extremity of the reel. When the reel is used in connection with strip till operations, the flexible elements bow upwardly and inwardly along the lower periphery of the reel as they engage and conform to the transverse cross-section of the strip till berm, thereby avoiding destruction of the berm notwithstanding the clod-pulverizing action provided by the flexible elements.
Earth engaging, earth cutting, and earth pulverizing discs and coulter blades for plows, harrows, and like agricultural implements, sold separately and as an integral part of an agricultural tillage machine.
A tillage shank assembly has one or more substance delivery tubes supported along the back edge of the generally upright shank of the assembly. A pair of side plates on opposite sides of the shank have rear margins that project rearwardly beyond the rear edge of the shank to define a protective gap within which the tubes are disposed. Laterally extending projections on the tubes are received within selected ones of a vertical series of holes in the side plates, depending upon the desired depth for the tubes. By temporarily removing a bolt that attaches the tops of the side plates to the shank, the side plates may be separated sufficiently to permit the projections of the tubes to be withdrawn from their current holes and reinserted into other holes to change their vertical locations. Replacing the bolt and tightening it down returns the side plates to their working positions.
Earth engaging, earth cutting, and earth pulverizing discs and coulter blades for plows, harrows, and like agricultural machines, sold separately and as an integral part of an agricultural tillage machine
A crop merging machine includes a trailer frame, a drawbar assembly coupled to an axle, and a header assembly including a frame and a wheel. The merging machine further includes a pick-up assembly coupled to the header frame and a cross-conveyor assembly coupled to the header frame adjacent to the pick-up assembly. The pick-up and cross-conveyor assemblies are configured to cooperate to lift crop materials off the field surface and move the crop materials laterally to discharge onto the field surface to form a windrow. The merging machine includes a suspension assembly disposed between the trailer frame and header assembly, the suspension assembly being coupled to the header assembly and trailer frame and configured to allow the header assembly to pivot, relative to the trailer frame, about a first axis of rotation and to pivot about a second, distinct axis of rotation to follow a contour of the field surface.
A mixer system includes a mixing chamber with a drive panel, open top, discharge opening in a side of the mixing chamber, and door configured to open and close the discharge opening. A first mixing auger is disposed inside the mixing chamber, and a first auger drive is disposed on another side of the drive panel and connected to the first auger through the drive panel and connected to a driveline. A second mixing auger is disposed inside the mixing chamber on the first side of the drive panel, and another auger drive is connected to the second auger through the drive panel. A clutch is connected between the second auger drive and the driveline and configured to mechanically connect and disconnect the second auger drive from the driveline based on an input. A method of sequentially starting different augers within a mixing chamber is provided.
A mixer system includes a mixing chamber with a drive panel, open top, discharge opening in a side of the mixing chamber, and door configured to open and close the discharge opening. A first mixing auger is disposed inside the mixing chamber, and a first auger drive is disposed on another side of the drive panel and connected to the first auger through the drive panel and connected to a driveline. A second mixing auger is disposed inside the mixing chamber on the first side of the drive panel, and another auger drive is connected to the second auger through the drive panel. A clutch is connected between the second auger drive and the driveline and configured to mechanically connect and disconnect the second auger drive from the driveline based on an input. A method of sequentially starting different augers within a mixing chamber is provided.
An apparatus includes a tongue, a pivotable beam linked to the tongue, a cylinder configured to move the pivotable beam from an operating position to a transport position, which is narrower than the operating position, and a latchable member connected to the pivotable beam. A locking assembly includes first and second dogs which can receive the latchable member. The second dog can move relative to the first dog from an open position to a closed position in response to movement of the latchable member such that movement of the latchable member out of the second dog opening is blocked by the first dog while the second dog is in the closed position. The apparatus includes a locking member that moves in response to movement of the cylinder from an unlocked to a locked position to lock the dogs in the closed position.
In lieu of rigid bars, a tillage reel utilizes a number of elongated flexible elements such as lengths of link chain that are spaced circumferentially around the reel and extend axially thereof. The flexible elements bow outwardly by centrifugal force as the reel rolls along the ground during tillage operations to impact and fracture clods encountered at the lower front extremity of the reel. When the reel is used in connection with strip till operations, the flexible elements bow upwardly and inwardly along the lower periphery of the reel as they engage and conform to the transverse cross-section of the strip till berm, thereby avoiding destruction of the berm notwithstanding the clod-pulverizing action provided by the flexible elements.
A rake apparatus includes a tongue with a hitch, front rake arm positioners each pivotally connected to a forward portion of the tongue assembly, rear rake arm positioners pivotally connected to a rear portion of the tongue assembly, and rake arm assemblies including a rake arm assembly front end and a rake arm assembly back end. The rake arm assemblies are pivotally connected to one of the front rake arm positioners and one of the rear rake arm positioners. Distances between the rake arm assembly front ends and the tongue are greater when the rake arm assemblies are in an operating position than when they are in a traveling position. The rake arm assembly back end of each of the rake arm assemblies is positioned farther in the forward direction when the rake arm assemblies are in the operating position than when the rake arm assemblies are in the traveling position.
A conveyor assembly including a first conveyor frame configured to move along a path relative to a mounting frame and including a conveyor belt. The conveyor assembly further includes a second conveyor frame, connected to the first conveyor frame via a pivot, and configured to automatically rotate to change an angle between the first conveyor frame and the second conveyor frame in response to movement of the first conveyor frame relative to the mounting frame.
B65G 21/00 - Supporting or protective framework or housings for endless load-carriers or traction elements of belt or chain conveyors
B65G 25/04 - Conveyors comprising a cyclically-moving, e.g. reciprocating, carrier or impeller which is disengaged from the load during the return part of its movement the carrier or impeller having identical forward and return paths of movement, e.g. reciprocating conveyors
A vertical feed mixer apparatus has a container for the reception of feed. The container includes a floor, a wall extending away from the floor such that the wall is disposed above the floor. The wall has a top opening disposed remotely from the floor to define an enclosure for feed received through the top opening. The container has a discharge opening in the wall adjacent to the floor. There is at least one auger disposed within the enclosure. The auger includes an auger core with an axis of rotation extending substantially vertically through the floor. The auger has a helical flighting secured to and disposed around the auger core. The auger has at least one swept kicker secured to the auger core or flighting, disposed adjacent to the floor, and configured to discharge the feed through the discharge opening.
Agricultural machines, namely, manure spreaders, fertilizer spreaders, bedding spreaders, and material handling equipment, namely, spreaders for various materials, all of the above used in the commercial agricultural and/or animal husbandry fields
12 - Land, air and water vehicles; parts of land vehicles
Goods & Services
(1) Agricultural machines, namely manure spreaders, fertilizer spreaders, bedding spreaders, waste spreaders, and replacement parts or components of said machines.
(2) Land vehicles, namely truck mounted spreaders, fertilizer application vehicles, manure hauling trailers, trailers for agricultural use, bedding application vehicles, waste application vehicles, self-propelled vehicles, namely, automatic guided vehicles, self propelled spreader wagons and trucks, and replacement parts or components of said machines.
(1) Agricultural machines and machine tools, implements and machinery for agriculture, livestock farming, horticulture, forestry, gardening or farming, namely hay making machines, namely tedders, swathers, combined tedder-swathers, raking machines, swath gathering machines, grass mowers, grass cutter bars, grass mower-conditioners and grass aerating mowers; harvesting machines, namely harvestors, combine harvestors and forage balers; power operated hedge/grass cutters; conveyors; elevators; machines for preparing feed for cattle, namely, silage unloaders, silage unloader feeders and mixer-feeders; fertilizer spreaders; straw blowers; and replacement parts or components of said machines.
12 - Land, air and water vehicles; parts of land vehicles
Goods & Services
Agricultural machines, namely, manure spreaders, fertilizer spreaders, bedding spreaders, waste spreaders, seed spreaders, straw blowers, truck mounted spreaders and replacement parts or components of said machines, all of the above used in the commercial agriculture and/or animal husbandry fields Land vehicles, namely, fertilizer application vehicles, manure hauling trailers, trailers for agricultural use, bedding application vehicles, waste application vehicles, self-propelled vehicles, namely, automatic guided vehicles, self propelled spreader wagons and trucks, and replacement parts or components of said machines, all of the above used in the commercial agriculture and/or animal husbandry fields
tractor- towed one- pass agricultural tillage tools namely, cultivators, disk blades, cultivator shanks, harrows and conditioning reels, sold as a unit
