A working device connected to a traveling vehicle having a prime mover and configured to perform an agricultural work, includes: a working portion to perform an agricultural work; an electric motor to be driven by electric power; a power transmission mechanism to which power generated by the electric motor is inputted, configured to transmit the power to the working portion; a regeneration resistor to consume a regenerative power generated in the electric motor; a switch portion to switch, between a connecting state and a shut-off state, a state established between the electric motor and the regeneration resistor; and a controller portion to control driving of the electric motor and switching of the switch portion.

A generator unit to be attached to a traveling vehicle that has a prime mover and a PTO shaft to transmit power from the prime mover, includes: a generator; an input shaft having: a first connector portion configured to be connected to the PTO shaft; and a second connector portion configured to be connected to a working device to be connected to the traveling vehicle; a transmitter mechanism to transmit, to the generator, power supplied from the PTO shaft, the power being inputted from the first connector portion to the input shaft; and an attachment frame having: an attachment portion to which the generator, the input shaft, and the transmitter mechanism are attached; and a mounting portion configured to be mounted to the traveling vehicle.

A walk behind broadcast spreader (1) that is propelled by an electric motor (8), rotates a set of powered wheels (7) and an impeller (3). An individual may walk behind the broadcast spreader and simply steer the broadcast spreader as the electric motor propels the broadcast spreader forward.

A spreader includes a frame having wheels mounted on an axle. A gear assembly on the axle is coupled with a shaft. A hopper is mounted on the frame and holds particulate that empties through an opening within the bottom wall. An impeller is mounted on the shaft and receives the particulate emptied from the hopper. A controlled-release assembly is mounted about the shaft and includes a drive housing secured to the hopper. The drive housing has a funnel opening to dispense the particulate therethrough. A transfer wheel within the drive housing is rotatably coupled to the shaft. When the shaft is rotating, the transfer wheel rotates whereby the particulate is delivered to the funnel. When the shaft is stationary, the transfer wheel is stationary whereby particulate is not delivered to the funnel.

A broadcast spreader assembly for spreading granular material over a yard, field, or the like includes a hopper for holding granular material, a motor for driving a rotating drive shaft having a distribution chamber in a side of the rotating drive shaft, and a spreader mechanism. The rotating distribution chamber delivers a constant dosage of granular material to the spreader mechanism with each rotation thereof. The broadcast spreader may be remotely controlled by software on a smart phone, tablet or other computing device, and the rotational speed of the drive shaft and distribution chamber may vary in accordance with the ground speed of the broadcast spreader, in order to administer the proper dosage of granular material to a specific area or acreage of land. The broadcast spreader assembly is attachable to a spreader mechanism, such as a lawn or blower, or the like.

A broadcast spreader assembly for spreading granular material over a yard, field, or the like includes a hopper for holding granular material, a motor for driving a rotating drive shaft having a distribution chamber in a side of the rotating drive shaft, and a spreader mechanism. The rotating distribution chamber delivers a constant dosage of granular material to the spreader mechanism with each rotation thereof. The broadcast spreader may be remotely controlled by software on a smart phone, tablet or other computing device, and the rotational speed of the drive shaft and distribution chamber may vary in accordance with the ground speed of the broadcast spreader, in order to administer the proper dosage of granular material to a specific area or acreage of land. The broadcast spreader assembly is attachable to a spreader mechanism, such as a lawnmower or blower, or the like.

An attachment structure of a generator and a working machine including a transmission case; and a PTO shaft protruding from the transmission case, includes a structure body attached to a side of the transmission case from which the PTO shaft protrudes, and includes the generator attached to the structure body.

A spreader device includes a container portion configured to contain spread substance, a spreader portion having a rotor configured to spread the spread substance contained in the container portion, and an attachment portion configured to be attached to a vehicle body. The spreader portion includes at least three spreader portions. Preferably, each of the at least three spreader portions has a different spreading direction. Preferably, the spreader portion includes a first spreader portion having a first rotor configured to spread the spread substance contained in the container portion, a second spreader portion having a second rotor configured to spread the spread substance contained in the container portion, and a third spreader portion having a third rotor configured to spread the spread substance contained in the container portion.

A spreader device includes a container to contain spread substance, a first spreader portion having a first rotor to spray the spread substance contained in the container, a second spreader portion having a second rotor to spray the spread substance contained in the container, a first driver source to drive the first rotor, a first shaft to transmit a driving force outputted from the first driver source, a second shaft to transmit a driving force outputted from a second driver source different from the first driver source, and a selection transmitter portion to selectively transmit the driving force form the first shaft and the driving force from the second shaft to the first rotor or the second rotor.

A sowing apparatus controlling method includes obtaining a target opening size of a discharge port and a target rotational speed of a turntable, obtaining a safe rotational speed of the turntable according to the target opening, and controlling a next-instance rotational speed of the turntable and a next-instance opening size of the discharge port according to the target rotational speed and the safe rotational speed.