A foliage shredder that can shred inputted foliage matter into uniform sized particles without pulverizing the inputted foliage matter includes a housing, a shredding axle, a motor, a stand, a digital timer, a power cord, and a lid. The shredding axle is concentrically positioned within a cylindrical compartment of the housing and rotatably coupled to a rotor of the motor. A stator of the motor is externally connected to the housing and electrically connected to the power cord through the digital timer. The lid is terminally attached to the housing thus closing the cylindrical compartment. The cylindrical compartment functions as a container unit for the inputted foliage as the electrically powered shredding axle shreds the inputted foliage into uniform sized particles.

An adapter method and system includes a first side deflector, a second side deflector, and a top deflector coupled to the first side deflector and the second side deflector. The system may further include an internal deflector coupled to the first, second, and top deflectors. A first leg is coupled to the first side deflector and a second leg is coupled to the second side deflector. The legs are adjustable between a first position and a second position. The first, second, and top deflector define an entrance region for channeling wood-based debris into the chute of a woodchipper. Each side deflector may include a coupling mechanism for attaching to a woodchipper. Each coupling mechanism has an aperture. Each leg may telescope within a respective side deflector.

A flywheel and paddle assembly for a chipping or shredding apparatus, including a wood chipper, a brush chipper, and a leaf shredder. The assembly has a flywheel attached coaxially to a drive shaft. The flywheel has at least one aperture extending from the front side to the back side, and carries at least one knife adjacent to the at least one aperture. The knife presents a knife edge on the front side of the flywheel. A paddle is rotatably mounted coaxially to the drive shaft adjacent to the back side of the flywheel. The paddle is configured to rotate on the drive shaft independently of the flywheel. A chipping or shredding apparatus incorporating the aforesaid flywheel and paddle assembly is also disclosed.

An impact cutter blade and holder system is disclosed. The impact cutter blade and holder system includes: a cutter disk, a plurality of impact holders, and a plurality of impact cutter blades. The cutter disk has a central axis about which the cutter disk is configured to rotate. The plurality of impact holders are secured to the cutter disk. The plurality of impact cutter blades is secured to the plurality of impact holders.

A mulching apparatus including: a housing including a front opening and an inner wall; a rotor mounted in the front opening of the housing adjacent to the inner wall; and a liner mounting system for mounting a replaceable wear liner between the rotor and the inner wall, the liner mounting system including: an upper mounting provided at an upper edge of the inner wall, the upper mounting configured to releasably connect with the wear liner; and a lower mounting provided at a lower edge of the inner wall, the lower mounting configured to support the wear liner against the upper mounting and secure the wear liner to the inner wall.

A method of operating an apparatus for the comminution of a botanical feedstock wherein a blade that is positioned above a screen and the blade is rotated at a rate of rotation, wherein the trailing portion of the blade generates turbulence that induces upward movement of cut and partially cut feedstock from the upper surface of the screen to a plane of rotation of the cutting edge of the blade.

An orchard sanitation implement disposes of unharvested nuts which may otherwise be utilized as habitat and food for navel orangeworms. Unharvested nuts are lifted from the orchard floor and delivered to a storage bin of the implement. Once received within the storage bin, the unharvested nuts are separated from other orchard debris by a looping belt which allows unharvested nuts to fall through, but other orchard debris is conveyed outside of the storage bin for deposit either into a container or back to the orchard floor. The unharvested nuts fall through openings in the looping belt, through an outlet at the bottom of the storage bin and into a shredding unit attached to the outlet. The shredding unit shreds and pulverizes the unharvested nuts into a composition which is too small to be utilized by navel orangeworms for habitat or a source of food.

A tractor attachment for stump grinding has an attachment body, which has at least a shield opening, a hydraulic motor opening, and a pulley opening that are disposed through the tractor attachment. An attachment arm is coupled to the tractor attachment. A shield is removably mounted over a portion of the shield opening. A grinder with a grinder blade and a grinder pulley are mounted on an underside of the attachment body. A hydraulic motor with a hydraulic motor pulley is mounted through the hydraulic motor opening. At least one belt is rotatably disposed between the hydraulic motor pulley and the grinder pulley. The attachment arm is configured to be attached to a boom attachment on a tractor boom.

A material reducing apparatus includes a reducing head that includes a rotary reducing component that carries a plurality of cutters. The reducing head includes a thrown object deflector positioned proximate the rotary reducing component. The thrown object deflector is configured to limit at least one of a distance and a direction that objects can be thrown by the rotary reducing component.

Systems and methods for a dual-blade agricultural grinder are disclosed. A dual blade grinder comprises a casing, a hopper, a cutting mechanism, a chute, and a display. The grinder is configured to cut a plant to a desired particle size. The casing is configured to provide rigid structural support for components of the grinder and provide a safety barrier between the user and the cutting mechanism. The hopper is configured to store and distribute a plant to the cutting mechanism. The cutting mechanism comprises a static blade with one or more serrated edges and one or more plain edges, a floating curved blade, and a particle screen. The display is configured to accept input from a user operating the grinder, and to control operational settings of the grinder. The grinder and its components may be comprised of a food-grade quality steel configured to resist bacterial growth.