Abstract: An earth working roller for use in an earth working machine includes a roller drum, which extends in a direction along a roller axis of rotation, surrounds a roller interior, and has a circular outer circumferential contour, wherein a substrate breaking configuration is provided on the outer circumferential surface of the roller drum. The substrate breaking configuration includes a plurality of impact bars along the roller drum in the direction of the roller drum axis of rotation, as well as a plurality of breaker bars along the roller drum in a circumferential direction.

Abstract: An apparatus for contouring particulate material may include a frame and at least one drum rotatably mounted on the frame such that the drum rotates substantially freely with respect to the frame about a central longitudinal axis. The drum may have opposite inboard and outboard ends and an outer surface therebetween. At least one blade may extend about the drum and protrude outwardly from the outer surface of the drum, and the blade may have an outer edge with a radius measured from the central longitudinal axis in a plane oriented in perpendicular to the central longitudinal axis of the drum to the outer edge. The outer edge of the blade may have a helical shape and the radius of the outer edge may be less at the outboard end of the drum than the radius of the outer edge at the inboard end of the drum.

Abstract: A movable drag bar rudder directional control device with an attached horizontal drag plate which provides a powered rotary tiller with a means of readily controlling the machine's direction, depth of cultivation and rate of forward progress and which may be manipulated and operated with a minimum of physical effort.

Abstract: A trimmer comprises a cutting head (1) housing a cutter (5), and a shaft (2) for supporting the cutting head. A large diameter wheel (8) is rotatably mounted with respect to the cutting head (1), and a motor is provided for driving the cutter (5) via an output shaft (7). The cutting head (1) is connected to the shaft (2) by a joint (3) permitting the cutting head (1) to be positioned with its cutter (5) either substantially horizontal or substantially vertical. The wheel (8) is sized to contact the ground when the cutter (5) is substantially vertical and to circumscribed the axis of the output shaft (7). The arrangement is such that the cutter (5) extends beyond the circumference of the wheel (8).

Abstract: Front-rotary working machine employs a vertical engine having an output shaft projecting downward, and a transmission case, provided beneath the vertical engine, has a flat underside so as to extend generally parallel to the ground surface to be cultivated. Distance between left and right transporting wheels, connected to a driving shaft at a rear end portion of the transmission case, can be reduced as necessary. With these arrangements, it is possible to reduce the overall width of the front-rotary working machine.

Abstract: A tiller has rotational blades for tilling the ground. A power source generates a rotational driving force for rotating the rotational blades and for advancing the tiller unidirectionally while tilling the ground. A power transmission mechanism transmits the rotational driving force of the power source to the rotational blades. A handle for guiding the tiller is pivotally connected to a rear portion of the power source or to a rear portion of the power transmission mechanism so that shock energy generated during tilling of the ground and transmitted to the power source or the power transmission mechanism is absorbed by pivotal movement of the power source or the power transmission mechanism relative to the handle about a pivot point spaced rearwardly from a center of gravity of the tiller and disposed approximately at the same height as the center of gravity of the tiller from a surface of the ground.

Abstract: A tiller for cultivating soil has a power source and a tilling shaft mounted for undergoing rotation by a driving force supplied from the power source. The tilling shaft has a hollow outer shaft and an inner shaft extending through the outer shaft. The inner shaft has a variable rotating speed and/or direction of rotation relative to the outer shaft. A power transmission mechanism transmits a driving force from the power source to the tilling shaft. The power transmission mechanism has a first power transmission system for transmitting the driving force from the power source to the outer shaft and a second power transmission system transmitting the driving force from the power source to the inner shaft. The second power transmission system has a hydrostatic transmission comprised of a hydraulic pump and a hydraulic motor for effecting a stepless change of the rotating speed of the inner shaft as well as a selective change of its direction of rotation.

Abstract: The invention is the combination of a motor powered garden tiller connected to a separate motor driven chassis which includes a seat for an operator to control the tiller. The speed of the tiller is controlled by and through the articulated coupler between the tiller and the chassis.

Abstract: A drag bar having a tiller directing control arm is provided for use with front tine gardening tillers. The control arm presents a user with means upon which to apply directionally controlling forces to a front tine tiller as well as to apply drag forces to control the rate of travel of the tiller.