Certain exemplary embodiments can provide a system comprising a zero turn riding lawnmower. The zero turn riding lawnmower is steerable solely via a first foot pedal and a second foot pedal. Each of the first foot pedal and the second foot pedal coupled to a mower linkage of the zero turn riding lawnmower. The first foot pedal is constructed to cause at least one wheel on a first side the zero turn riding lawnmower to be powered in a forward direction or a reverse direction. The second foot pedal is constructed to cause at least one wheel on a second side the zero turn riding lawnmower to be powered in a forward or reverse direction.

A riding lawn mower includes a frame, a mowing device mounted to the bottom of the frame, a functional unit attached to the front of the frame, and a motor group together with a power supply mounted to the frame. The riding lawn mower also comprises a connecting device connecting the frame and the functional unit. The connecting device comprises a first connector attached on the front of the frame, a second connector attached to the functional unit, and a third connector adapted for fixedly connecting the first connector and the second connector, the first connector and the second connector respectively defining through-holes thereon, the third connector extending through the through-holes of the first and the second connectors to fixedly connect the first and the second connectors.

A riding lawn mower includes a frame, a mowing device mounted to the bottom of the frame, a functional unit attached to the front of the frame, and a motor group together with a power supply mounted to the frame. The riding lawn mower also comprises a connecting device connecting the frame and the functional unit. The connecting device comprises a first connector attached on the front of the frame, a second connector attached to the functional unit, and a third connector adapted for fixedly connecting the first connector and the second connector, the first connector and the second connector respectively defining through-holes thereon, the third connector extending through the through-holes of the first and the second connectors to fixedly connect the first and the second connectors.

A method of using a support accessory rack includes aligning a first mounting portion of the support accessory rack with a first pin of a rollover protective structure. The method includes aligning a second mounting portion of the support accessory rack with a second pin of a second rollover protective structure. The method includes actuating the first pin to secure the first mounting portion to the rollover protective structure. The method further includes actuating the second pin to secure the second mounting portion to the rollover protective structure. The method includes pivoting a rotating support member of the support accessory rack away from the first mounting portion and the second mounting portion, and supporting the rotating support member onto a lateral bar of the rollover protective structure.

A support stand is used for removing, repairing, storing, and reattaching a feeder house from an agricultural combine. The stand is adapted to be raised and lowered with a forklift to position the stand adjacent to the feeder house during removal and to position the feeder house on the combine during reattachment. The stand includes a base, the base having a flat lower surface, the base being adapted to receive a lifting mechanism. An upright frame is mounted at a first end of the base, the upright frame being adapted to selectively attach to a feeder house on a combine when raised by the forklift into alignment with the feeder house.

A method of using a support accessory rack includes aligning a first mounting portion of the support accessory rack with a first pin of a rollover protective structure. The method includes aligning a second mounting portion of the support accessory rack with a second pin of a second rollover protective structure. The method includes actuating the first pin to secure the first mounting portion to the rollover protective structure. The method further includes actuating the second pin to secure the second mounting portion to the rollover protective structure. The method includes pivoting a rotating support member of the support accessory rack away from the first mounting portion and the second mounting portion, and supporting the rotating support member onto a lateral bar of the rollover protective structure.

A mower utility container accessory designed to quickly and easily attach to a common walk behind lawnmower. The utility container may include a tub unit attached to a mounting frame with a hinged dumping capability. The utility container can be used to carry lawn and garden tools, and materials, or can be used to haul items around the yard or to the curb. When detached from the lawnmower the utility container can be stored standing on the front edge for small footprint area. The method of attachment to the lawnmower is at the folding handle wing nut or knob bolt that is common on many walk-behind lawnmowers or clamped to the handle upright arms. The front of the utility container accessory simply rests on the blade deck of the lawnmower. This allows the attachment and removal to be accomplished without tools.

A method of using a support accessory rack includes aligning a first mounting portion of the support accessory rack with a first pin of a rollover protective structure. The method includes aligning a second mounting portion of the support accessory rack with a second pin of a second rollover protective structure. The method includes actuating the first pin to secure the first mounting portion to the rollover protective structure. The method further includes actuating the second pin to secure the second mounting portion to the rollover protective structure. The method includes pivoting a rotating support member of the support accessory rack away from the first mounting portion and the second mounting portion, and supporting the rotating support member onto a lateral bar of the rollover protective structure.

A stand or fixture for supporting a mower cutting unit having a base frame with side members interconnected with at least 2 cross members. A cradle supports stable engagement with a roller of a mower cutting unit, and is secured to and extends upward from and between the side members. The cradle is parallel to the cross members, and positioned above the side members, supported on and secured to riser members. Each of the riser members is secured to a side member. A support member is adjustably secured at a desired location between cross members, and has a top portion extending upwardly away from the base frame, and above the cradle. The support member includes aligned openings above the cradle for receiving and securing a support pin supporting a support chain for engaging and suspending the mower cutting unit supported within the cradle, for accessing components of the mower cutting unit for service.

A lawn mower includes a frame, an operator support, a blade assembly, a steering system, a motor assembly, a sensor and one or more processors. The operator support is coupled to the frame and is configured to support the entire weight of an operator of the lawn mower during use thereof. The motor assembly is configured to: drive rotatable wheels so as to move the frame along the ground surface; and drive at least one blade relative to the ground surface to cut grass. The sensor is configured to detect the presence of a person or an animal in a predetermined area proximate the lawn mower. The one or more processors are configured to: receive input from the sensor, and control the motor assembly stop driving the at least one blade, the wheels, or both based on the input from the sensor.