An agricultural system for harvesting a forage crop material, includes: a first agricultural work equipment for controllably harvesting the forage crop material, the first agricultural work equipment including: a first forage processing assembly; a first control system including: a first forage processing assembly condition sensor configured for sensing a first actual condition of the first forage processing assembly and thereby for outputting a first actual condition signal associated with the first actual condition of the first forage processing assembly; a first controller operatively coupled with the first forage processing assembly condition sensor and the first forage processing assembly and configured for: receiving the first actual condition signal; determining a first adjustment signal based at least in part on the first actual condition signal and at least one first predicted forage crop material condition associated with a first forage processing operation; outputting the first adjustment signal and thereby for initially adjusting, prior to beginning the first forage processing operation, a first device of the first forage processing assembly.

An example smart implement includes a power takeoff connector, one or more sensors, a controller, and a communication unit. The power takeoff connector attaches the smart implement to a tractor. The one or more sensors generate implement data. The controller is configured to determine operating parameters based on the implement data from the one or more sensors. The communication unit is configured to communicate with the tractor.

Lawnmowers are provided. A lawnmower includes a frame; a fairing coupled with the frame, the fairing comprising a recess defining a cavity; and an adapter disposed within the cavity, wherein the adapter is configured to electrically charge a device positioned within the cavity.

Lawnmowers are provided. A lawnmower includes a first battery having a first voltage, the first battery mounted on the lawnmower; a second battery having a second voltage different than the first voltage, the second battery mounted on the lawnmower; and a booster configured to boost the second voltage to the first voltage, wherein the booster is connected to a common rail operating at the first voltage.

A control panel, a self-propelled switch apparatus, and a power device (13). The control panel comprises a pushing rod (1) connected to a machine body and a panel assembly (2) reciprocatingly sliding on the pushing rod. The control panel further comprises locking assembly (41, 42) connected to the panel assembly. The locking assembly (41, 42) are adapted to lock the panel assembly on the pushing rod and unlock the control panel and the pushing rod. The control panel further comprises a self-propelled switch (134), and when the self-propelled switch (134) is triggered, a device in which the control panel is disposed can be switched from a manual-power driving mode to a self-propelled driving mode. By means of the solution, a garden tool can walk in a self-propelled manner, and can also be pushed to walk.

A hybrid mower includes a chassis coupled to a body. The chassis has a plurality of wheels coupled to a steering assembly for navigating directional control. The mower also includes an internal combustion engine disposed on the chassis. The internal combustion engine is coupled to a drive assembly providing rotational operation to at least one of the plurality of wheels. The mower further includes a mower deck housing at least one rotatable blade for cutting undesired undergrowth during operation and an electric blade control system. The electric blade control system has an electronic control unit for enabling the at least one rotatable blade during operation and at least one direct current motor positioned about the mower deck and in communication with the electronic control unit. The at least one direct current motor has a motor shaft coupled to the at least one rotatable blade.

A forage harvester including a chopping drum having a plurality of knife blades, a knife sharpening apparatus, a discharge spout, image capture apparatus for generating a series of captured images of processed crop in the discharge spout, an electronic control unit, and a memory. The electronic control unit determines data relating to aspects of crop flow from a first image or a first set of images in a series of captured images. The memory stores this data as control data. The electronic control unit then compares data relating to aspects of crop flow determined from subsequent captured images, with the control data. In the event of a predetermined deviation of the data relating to the aspects of crop flow, from the control data, the control unit generates a signal indicating that sharpening the knife blades is required.

A riding lawn mower includes a running assembly, a power output assembly, a power supply device, a driver circuit, an operating device, and a control module. The running assembly includes running wheels and a first motor for driving the running wheels. The operating device is configured to set at least one of target torque or a target rotational speed of the first motor. The control module is configured to output a control signal to the driver circuit to make an input current or an input voltage of the first motor vary with a rotor position of the first motor and make an actual torque of the first motor reach or basically reach the target torque within a preset time.

Provided is a traveling control device capable of appropriately controlling the turning and the speed of a traveling vehicle. The traveling control device includes: an instruction receiving portion that receives an operation instruction directed to each of the pair of left and right driving wheels; a speed instruction value calculation portion that calculates a speed instruction value that is to be instructed to the traveling control unit; an operation instruction determination portion that determines whether the operation instruction is an operation instruction to rotate the pair of driving wheels in the same direction or an operation instruction to rotate the pair of driving wheels in different directions; and a speed instruction value correction portion that corrects, if the operation instruction is an operation instruction to rotate the pair of driving wheels in the same direction, one of the speed instruction values, based on the other speed instruction value.

The standing motorized lawn mower comprises a mower and a sulky. The standing motorized lawn mower may be adapted to allow a user to stand on the sulky as the sulky is pulled by the mower. The mower may be steered using a steering column. A touch sensitive display located on the steering column may be adapted to provide functional control of the standing motorized lawn mower to the user. The steering column may provide a phone holder, a cup holder, and an earphone jack. One or more string trimmers located on the front of the mower may trim grass at the edge of a mowing area.