A material reducing apparatus includes a rotary reducing component that has a central rotational axis. The material reducing apparatus includes a reducing element mount attached to the rotary reducing component and a reversible reducing element mounted to the reducing element mount. The reducing element includes a leading front side that has a first cutting edge and an opposite second cutting edge being radially inwardly positioned closer to the central rotational axis from the first cutting edge. The reducing element has a chip curl angle between about 79 degrees and 102 degrees. The reducing element has a radial height extending away from the rotary reducing component. The material reducing apparatus includes at least one chip evacuation arrangement that includes three depth control structures. The depth control structures that are axially adjacent the reducing element have radial heights less than or equal to 25% of the radial height of the reducing element.

A plant vine chopper rotor drum assembly is provided for use in chopping machines. The rotor drum assembly has a plurality of rotor rings each ring having a plurality of angled blades that effectively cooperate with each other to guard each blade and the drum against the wrapping of clogging fibrous strands and other clogging material around the drum. The chopper rotor drum assembly incorporates a plurality of rotor rings spaced along and encircling and attached to a main drum tube and distributed in a cutting zone along and surrounding the longitudinal rotational axis of the drum tube with each rotor ring having a pair or a plurality of pairs of cutting blades attached to respective alternately angled mounting tabs that alternate to the left and to the right to the general plane of the rotor ring.

A plant vine chopper rotor drum assembly is provided for use in chopping machines. The rotor drum assembly has a plurality of rotor rings each ring having a plurality of angled blades that effectively cooperate with each other to guard each blade and the drum against the wrapping of clogging fibrous strands and other clogging material around the drum. The chopper rotor drum assembly incorporates a plurality of rotor rings spaced along and encircling and attached to a main drum tube and distributed in a cutting zone along and surrounding the longitudinal rotational axis of the drum tube with each rotor ring having a pair or a plurality of pairs of cutting blades attached to respective alternately angled mounting tabs that alternate to the left and to the right to the general plane of the rotor ring.

A landscape edger, a blade, and a blade assembly for the landscape edger are provided. An edger blade includes a body having a top surface, a bottom surface, a central opening extending from the top surface to the bottom surface. The central opening is configured to receive a coupling of the edger assembly. The blade includes one or more lobes extending from the body. Each lobe includes a plurality of teeth extending from a periphery. The blade further includes a plurality of holes extending from the top surface to the bottom surface

A landscape edger, a blade, and a blade assembly for the landscape edger are provided. An edger blade includes a body having a top surface, a bottom surface, a central opening extending from the top surface to the bottom surface. The central opening is configured to receive a coupling of the edger assembly. The blade includes one or more lobes extending from the body. Each lobe includes a plurality of teeth extending from a periphery. The blade further includes a plurality of holes extending from the top surface to the bottom surface

A turplaner is described comprising a rotational elongated cutter comprising a first side and a second side and a lift mechanism capable of independently altering a cut height of the first side of the rotational cutter and the second side of said rotational cutter based on a deviation between cut height and a desired cut profile. A hierarchical controller is in functional communication with the lift mechanism wherein the lift mechanism alters the cut height based on the deviation of cut height relative to the desired cut profile in response to the functional communication. The hierarchical controller comprises a laser guidance system comprising a planer laser beam, extending over the area, and at least one laser receiver on at least one of the first side or the second side wherein the laser receiver is a laser height above the cut height and in functional communication with the hierarchical controller. The laser receiver is capable of receiving the planer laser beam and the hierarchical controller is capable of determining and minimizing a deviation between the cut height and the desired cut profile based on the laser receiver location relative to the planer laser beam. At least one autograde device is in functional communication with said hierarchical controller. An autodepth device is in functional communication with the hierarchical controller wherein the autodepth device comprises a mechanism for measuring a cut depth in the area. The hierarchical controller communicates a height adjustment based on the autodepth device if a cut depth exceeds a predetermined depth limit, the autograde if the laser receiver is not within a predetermined range and otherwise the laser receiver.

A vegetation chopping roller for an agricultural land roller implement including a drum body having an outer periphery which is generally cylindrical about a drum axis of rotation and a plurality of protruding mounting flanges upon which chopping blades are mounted using threaded fasteners. A seating surface is fixedly supported in relation to the drum body in association with each blade which receives the inner edge of the associated blade abutted thereon such that the threaded fasteners are substantially isolated from shear forces by the abutment of the blades with the seating surfaces.

A mower includes an electric motor, a main machine body, an electronic component, and an operating assembly. The main machine body extends in a forward-backward direction. The operating assembly includes a handle assembly and a first operating member. The handle assembly is rotatably connected to the main machine body and configured to be held to operate the mower to run. The first operating member is rotatably connected to the handle assembly to control a walking state of the mower. The first operating member is formed with a fitting surface fitting with the handle assembly. In response to the first operating member being operated to rotate and approach the handle assembly, the fitting surface is capable of substantially fitting flush with the handle assembly to form a unitary component that is capable of being held.

A device for marking natural and artificial grass surfaces, which comprises a mowing drum linked to a chassis, wherein the mowing drum comprises a plurality of cutting elements and can rotate around a main shaft, where a perforated sheet is arranged between the mowing drum and the grass surface, with said perforated sheet comprising a plurality of holes cut to an appropriate size so as to allow blades of grass to pass through them, in addition to an opening configured to facilitate the passage blades of grass to be cut by the cutting element.

A device for marking natural and artificial grass surfaces, which comprises a mowing drum linked to a chassis, wherein the mowing drum comprises a plurality of cutting elements and can rotate around a main shaft, where a perforated sheet is arranged between the mowing drum and the grass surface, with said perforated sheet comprising a plurality of holes cut to an appropriate size so as to allow blades of grass to pass through them, in addition to an opening configured to facilitate the passage blades of grass to be cut by the cutting element.