A rotary cutter is provided that has a center section and at least one wing section pivotally connected to the center section. The rotary mower is transformable between a transport position, with the wing section pivoted upwards, and an operating position, with the wing section pivoted downwards. A lifting assembly is provided between the center section and the at least one wing section to pivot the wing section. The lifting assembly can have a lifting actuator, a lug provided on the lifting actuator, a pivot member, and a pivotal connection between the lifting actuator and the pivot member. A guide member can run adjacent to the lifting actuator and have a guide channel for receiving the lug when the wing section is pivoted upwards into the transport position.
A rotary cutter is provided that has a center section and at least one wing section pivotally connected to the center section. The rotary mower is transformable between a transport position, with the wing section pivoted upwards, and an operating position, with the wing section pivoted downwards. A lifting assembly is provided between the center section and the at least one wing section to pivot the wing section. The lifting assembly can have a lifting actuator, a lug provided on the lifting actuator, a pivot member, and a pivotal connection between the lifting actuator and the pivot member. A guide member can run adjacent to the lifting actuator and have a guide channel for receiving the lug when the wing section is pivoted upwards into the transport position.
A01D 34/66 - MowersMowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis mounted on a vehicle, e.g. a tractor, or drawn by an animal or a vehicle with two or more cutters
A01D 69/03 - Driving mechanisms or parts thereof for harvesters or mowers fluid
A harrow apparatus comprising an implement frame and a harrow section attached to a mounting assembly extending rearward from the implement frame such that the harrow section engages the ground surface. The mounting assembly is movable upward and downward to move the harrow section down and up. The mounting assembly comprises a beam extending rearward above the harrow frame, and front and rear arms pivotally attached at upper ends thereof to corresponding front and rear beam pivot axes located on the beam. The front arm slopes downward and rearward to a lower end thereof that is pivotally attached to the harrow frame at a front frame pivot axis, and the rear arm slopes downward and forward to a lower end thereof that is pivotally attached to the harrow frame at a rear frame pivot axis located rearward of the front frame pivot axis.
A harrow apparatus comprising an implement frame and a harrow section attached to a mounting assembly extending rearward from the implement frame such that the harrow section engages the ground surface. The mounting assernbly is movable upward and downward to move the harrow section down and up. The mounting assembly comprises a beam extending rearward above the harrow frame, and front and rear arms pivotally attached at upper ends thereof to corresponding front and rear beam pivot axes located on the beam. The front arm slopes downward and rearward to a lower end thereof that is pivotally attached to the harrow frame at a front frame pivot axis, and the rear arm slopes downward and forward to a lower end thereof that is pivotally attached to the harrow frame at a rear frame pivot axis located rearward of the front frame pivot axis.
A01B 61/04 - Devices for, or parts of, agricultural machines or implements for preventing overstrain of the connection between tools and carrier beam or frame
A01B 63/32 - Tools or tool-holders adjustable relatively to the frame operated by hydraulic or pneumatic means
An offset towing apparatus for an implement supported by rear wheels rotating about an axis perpendicular to the operating travel direction. A tow arm connects between a vertical towing pivot axis at the towing vehicle and a vertical implement pivot axis at the implement hitch. A middle portion of the tow arm is pivotally attached about a vertical beam pivot to a beam on castor wheels. A strut attached to the implement pivot axis extends laterally and a bar is attached to the strut about a strut pivot axis and extends forward parallel to the tow arm to a front end attached to the beam about a bar pivot axis. The tow arm, the beam, the strut, and the bar form a parallel linkage between the beam pivot axis, the implement pivot axis, the strut pivot axis and the bar pivot axis allowing the implement to pivot to either side.
B60D 1/155 - Draw-gear or towing devices characterised by their type consisting of an elongated single bar or tube comprising telescopic or foldable parts
An offset towing apparatus for an implement supported by rear wheels rotating about an axis perpendicular to the operating travel direction. A tow arm connects between a vertical towing pivot axis at the towing vehicle and a vertical implement pivot axis at the implement hitch. A middle portion of the tow arm is pivotally attached about a vertical bearn pivot to a bearn on castor wheels. A strut attached to the implement pivot axis extends laterally and a bar is attached to the strut about a strut pivot axis and extends forward parallel to the tow arm to a front end attached to the beam about a bar pivot axis. The tow arm, the beam, the strut, and the bar form a parallel linkage between the beam pivot axis, the implement pivot axis, the strut pivot axis and the bar pivot axis allowing the implement to pivot to either side.
An implement includes a hydraulic control to move rear wheels upward and downward. A hitch frame has a rear end pivotally connected to a front of the implement's frame about an upper hitch pivot axis and a front end connectable to a tractor drawbar. A tension link has a rear end pivotally connected to the front end of the implement about a lower hitch pivot axis located below and parallel to the upper hitch pivot, and a front end movably mounted to a front of the hitch frame. A front hydraulic cylinder moves the front end of the tension link forward and rearward. The hydraulic control activates the front hydraulic cylinder to move the tension link rearward as the rear hydraulic cylinder moves the rear wheels upward with respect to the implement frame, and to move the front end of the tension link forward as the rear wheels move downward.
B60D 1/24 - Traction couplingsHitchesDraw-gearTowing devices characterised by arrangements for particular functions
A01D 34/64 - MowersMowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis mounted on a vehicle, e.g. a tractor, or drawn by an animal or a vehicle
An implement includes a hydraulic control to move rear wheels upward and downward. A hitch frame has a rear end pivotally connected to a front of the implement's frame about an upper hitch pivot axis and a front end connectable to a tractor drawbar. A tension link has a rear end pivotally connected to the front end of the implement about a lower hitch pivot axis located below and parallel to the upper hitch pivot, and a front end movably mounted to a front of the hitch frame. A front hydraulic cylinder moves the front end of the tension link forward and rearward. The hydraulic control activates the front hydraulic cylinder to move the tension link rearward as the rear hydraulic cylinder moves the rear wheels upward with respect to the implement frame, and to move the front end of the tension link forward as the rear wheels move downward.
A01B 59/042 - 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
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
An agricultural implement has a hitch frame, a center frame pivotally attached rearward of the hitch frame about a hitch pivot axis. Wing frames are pivotally attached to ends of the center frame and a center actuator is pivots the center and wing frames from a rearward extending operating position to an upward extending transport position. Caster wheels are pivotally mounted on front sides of the wing frames about caster and transport axes. In the operating position, the caster axes are oriented vertically and the transport axes are oriented horizontally, and in the initial transport position, the caster axes are oriented horizontally, perpendicular to the hitch pivot, the transport axes are oriented vertically, and caster wheel actuators pivot the caster wheels 90 degrees about the transport axes to align the caster axes with the hitch pivot axis. The caster wheels support the wing frames in both operating and transport positions.
A01B 73/06 - Folding frames foldable about a vertical axis
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
A01B 73/04 - Folding frames foldable about a horizontal axis
A01B 76/00 - Parts, details or accessories of agricultural machines or implements, not provided for in groups
An agricultural implement has a center frame supported on center wheels and right and left interframes are pivotally attached to corresponding ends of the center frame about wing pivot axes. Right and left wing frames are pivotally attached at front inner ends thereof to front ends of corresponding interframes about front interframe pivot axes. Rear inner portions of the wing frames are movably attached to corresponding interframes. Latch mechanisms selectively lock the rear inner pottions each wing frame to rear portions of the corresponding interframes. A center actuator pivots the center frame such that the frames move from an operating position extending rearward to an initial transport position extending upward where the interframes and wing frames can pivot rearward about the upright wing pivot axes. The front interframe pivot axes are oriented perpendicular to the wing pivot axes.
A01B 71/00 - Construction or arrangement of setting or adjusting mechanisms, of implement or tool drive or of power take-offMeans for protecting parts against dust, or the likeAdapting machine elements to or for agricultural purposes
An agricultural implement has a hitch frame, a center frame pivotally attached rearward of the hitch frame about a hitch pivot axis. Wing frames are pivotally attached to ends of the center frame and a center actuator is pivots the center and wing frames from a rearward extending operating position to an upward extending transport position. Caster wheels are pivotally mounted on front sides of the wing frames about caster and transport axes. In the operating position, the caster axes are oriented vertically and the transport axes are oriented horizontally, and in the initial transport position, the caster axes are oriented horizontally, perpendicular to the hitch pivot, the transport axes are oriented vertically, and caster wheel actuators pivot the caster wheels 90 degrees about the transport axes to align the caster axes with the hitch pivot axis. The caster wheels support the wing frames in both operating and transport positions.
A cutting tooth having a blade-like cutting section with opposed top and bottom surfaces, opposed front and rear ends defining a length therebetween, and opposed sides defining a width therebetween, a mounting section extending down from the bottom surface of the cutting section with at least a top portion of the mounting section adjacent the cutting section defining a width smaller than that of the cutting section, the mounting section having laterally extending retaining members spaced from the cutting section and adapted to be retained in a mounting block, at least a quarter of the length of the cutting section extending past a front of the mounting section, with the front end of the cutting section terminating in a cutting edge.
B02C 18/14 - Disintegrating by knives or other cutting or tearing members which chop material into fragmentsMincing machines or similar apparatus using worms or the like with rotating knives within horizontal containers
A cutting tooth having a blade-like cutting section and a mounting section extending down from the bottom of the cutting section. The mounting section is narrower and shorter than the cutting section, and generally centered with respect to the cutting section. The mounting section has laterally extending flanges spaced from the cutting section. At least a quarter of the cutting section extends past the front of the mounting section and terminating in a cutting edge.
The cutting tooth is adapted to be mounted in a mounting block to form a cutting assembly. The mounting block has a slot extending into the block from the front face, the slot open in the top surface of the block. The mounting section of the tooth slides into the slot in the block to locate the cutting section on the top of the block with the cutting section projecting forwardly of the block. The flanges on the tooth hold the tooth in place in the block against centrifugal forces. The cutting assembly is adapted to be mounted between two collars on a brush cutting drum with the cutting tooth above the periphery of the collars.
A wear liner for use with a brush cutter, the cutter having a cylindrical, rotatable, cutting drum carrying cutting teeth and a cover at least partially covering the drum to limit dispersal of cut material. The liner comprises a sheet of material which can be shaped to fit against the inner surface of the cover. The liner has holes on its sides for use in detachably connecting the liner with fastening means to the cover against the cover's inner surface. The liner has protective means mounted on its inner surface adjacent each hole to protect part of the fastening means located adjacent the inner surface of the liner, when the liner is mounted to the cover and the fastening means extend through the opening, from wear by material thrown by the cutter during its operation.
The invention is also directed toward a brush cutter incorporating the liner.
A mounting for connecting an operating head, that generates vibrations when in use, to a vehicle in a manner to minimize the transmission of vibrations from the head to the vehicle. The mounting comprising a number of female connector device on one of the head and the vehicle and a similar number of male connecting device on the other of the head and vehicle, the male connecting device each carrying a resilient sleeve. The male connecting device are inserted into the female connecting device and a bolt is passed through each female connecting device and each resilient sleeve associated with it to join the head to the vehicle.
A rotary mower apparatus includes a center section with a center blade, inner wings with inner and middle blades, and outer wings with outer blades. Rear wheels support rear ends of the decks, and gauge wheels support front portions of the outer wings. A transport mechanism folds the outer wings upward to a transport position over the inner wings, and then folds the inner wings to a transport position upright from outer edges of the center section. A drive is operative to rotate each blade. Beneficially axes of the blades are oriented alternately forward and rearward across a width of the apparatus. A disclosed drive has a main gear box adapted at an input thereof for attachment to a rotating power source, and slip clutch protected power shafts are connected to outputs of the main gear box to drive the blades.
