A mower is provided and includes: a housing; a movable upper cover, disposed on the housing; and a cutting assembly, disposed on the housing. The cutting assembly includes a blade carrier assembly, and the blade carrier assembly includes a blade carrier and a blade. The blade carrier includes a disc body and a blade receiving groove recessed inwardly from an edge of the disc body along an axial direction of the disc body. The blade is mounted in the blade receiving groove and arranged to be that the blade is not protruded out of the blade receiving groove in the axial direction of the disc body.

A mower is provided and includes: a housing; a movable upper cover, disposed on the housing; and a cutting assembly, disposed on the housing. The cutting assembly includes a blade carrier assembly, and the blade carrier assembly includes a blade carrier and a blade. The blade carrier includes a disc body and a blade receiving groove recessed inwardly from an edge of the disc body along an axial direction of the disc body. The blade is mounted in the blade receiving groove and arranged to be that the blade is not protruded out of the blade receiving groove in the axial direction of the disc body.

An electric riding lawn mower includes a seat for a user to ride, a main frame to support the seat, a power output assembly including a mowing element to output power to realize mowing function and a first motor to drive the mowing element, a walking assembly to at least drive the electric riding lawn mower to travel in the direction of a first straight line on the ground and a second motor to drive the walking assembly, and a power supply device to power the electric riding lawn mower with a first battery pack, which includes a first battery pack housing and a plurality of battery cells disposed therein. The power supply device is mounted to the main frame. At least one of the first battery packs of the power supply device forms a pluggable connection with the main frame. The battery cells are lithium batteries.

An electric riding lawn mower includes a seat for a user to ride, a main frame to support the seat, a power output assembly including a mowing element to output power to realize mowing function and a first motor to drive the mowing element, a walking assembly to at least drive the electric riding lawn mower to travel in the direction of a first straight line on the ground and a second motor to drive the walking assembly, and a power supply device to power the electric riding lawn mower with a first battery pack, which includes a first battery pack housing and a plurality of battery cells disposed therein. The power supply device is mounted to the main frame. At least one of the first battery packs of the power supply device forms a pluggable connection with the main frame. The battery cells are lithium batteries.

A work vehicle includes a cutter device for cutting plant in a field, a storage section for storing plant cut by the cutter device, an inclination angle sensor for detecting an inclination angle ((θd)) of the vehicle body, a display device for displaying the inclination angle detected by the inclination angle sensor, and a reporting device for reporting the inclination angle exceeding a permissible inclination angle ((θa)).

A work vehicle includes a cutter device for cutting plant in a field, a storage section for storing plant cut by the cutter device, an inclination angle sensor for detecting an inclination angle ((θd)) of the vehicle body, a display device for displaying the inclination angle detected by the inclination angle sensor, and a reporting device for reporting the inclination angle exceeding a permissible inclination angle ((θa)).

A cutting attachment includes a mounting bracket and a cutting deck. The mounting bracket is configured to couple to at least one hydraulic arm of a tractor or excavator. The cutting deck is coupled to the mounting bracket. The cutting deck includes an inner surface, an outer surface, a motor coupled to the inner surface, a blade carrier coupled to the outer surface and rotatable by the motor, and at least one blade coupled to the blade carrier.

A cutting attachment includes a mounting bracket and a cutting deck. The mounting bracket is configured to couple to at least one hydraulic arm of a tractor or excavator. The cutting deck is coupled to the mounting bracket. The cutting deck includes an inner surface, an outer surface, a motor coupled to the inner surface, a blade carrier coupled to the outer surface and rotatable by the motor, and at least one blade coupled to the blade carrier.

An outdoor power equipment with steering and/or speed controlled via foot-based inputs is discussed. One example embodiment is an outdoor power equipment, comprising: a frame; a plurality of drive elements coupled to the frame; a prime mover configured to provide power to the plurality of drive elements; one or more controls configured to receive foot-based inputs from an operator of the outdoor power equipment; and a control system configured to control a steering and a speed of the outdoor power equipment based on the foot-based inputs. Various foot-based embodiments and control systems can be employed based on the embodiment.

An outdoor power equipment with steering and/or speed controlled via foot-based inputs is discussed. One example embodiment is an outdoor power equipment, comprising: a frame; a plurality of drive elements coupled to the frame; a prime mover configured to provide power to the plurality of drive elements; one or more controls configured to receive foot-based inputs from an operator of the outdoor power equipment; and a control system configured to control a steering and a speed of the outdoor power equipment based on the foot-based inputs. Various foot-based embodiments and control systems can be employed based on the embodiment.