A mowing machine has a cutterbar oriented transverse to a travel and working direction of the mowing machine and provided with first and second ends spaced apart from each other in longitudinal direction. First cutting members are rotatably mounted on a top side of the cutterbar and rotatably driven about a vertical axis by a drive assembly within the cutterbar. A joint and drive assembly is connected to the first end of the cutterbar. A lateral cutterbar section is connected to the joint and drive assembly and has a second cutting member driven by the joint and drive assembly. The joint and drive assembly has first and second holding elements mounted relative to each other such that pivoting of the lateral cutterbar section in a cutterbar plane of the cutterbar is enabled. The first and second holding elements are arranged in planes positioned at a minimal spacing above each other.

A walk power mower having a cutting deck supported upon the ground by a front and rear wheel(s). The mower includes a traction drive system incorporating a bidirectional transmission adapted to propel the mower alternatively in both forward and reverse directions. In some embodiments, the mower may include a single bidirectional transmission (e.g., powering only rear wheel(s) or only front wheel(s) of the mower), while in other embodiments, two bidirectional transmissions may be provided to power both the front and the rear wheel(s). In other embodiments, the mower may include a bidirectional transmission powering the rear wheel(s), while the front wheel(s) may be attached to the deck via a caster assembly.

A lawnmower with a plurality of motorized cutting blades may be configured to include a single rear bearing wheel to allow for greater control over the movement of the lawnmower by the operator and may be configured to include environmentally friendly methods through which the motor may be powered rather than through the use of a combustion engine.

A lawnmower with a plurality of motorized cutting blades may be configured to include a single rear bearing wheel to allow for greater control over the movement of the lawnmower by the operator and may be configured to include environmentally friendly methods through which the motor may be powered rather than through the use of a combustion engine.

A hitch-mounted side mower attachment including an integral hydraulic system and adjustable angle mower deck for a tractor to facilitate mowing angled ground terrain, such as the side of hills, ditches, and/or other declining and/or inclining embankments not easily reached by conventional mowers.

A hitch-mounted side mower attachment including an integral hydraulic system and adjustable angle mower deck for a tractor to facilitate mowing angled ground terrain, such as the side of hills, ditches, and/or other declining and/or inclining embankments not easily reached by conventional mowers.

A backside idler pulley includes a first member forming a first side wall of a circumferential groove of the backside idler pulley and a second member, formed separately from the first member, and forming a second side wall, opposite the first side wall, of the circumferential groove of the backside idler pulley. The first member and the second member form first and second floor supports, respectively. The backside idler pulley further includes a continuous layer between the first side wall and the second side wall, the continuous layer being supported by the first and second floor supports while forming a floor of the groove.

A backside idler pulley includes a first member forming a first side wall of a circumferential groove of the backside idler pulley and a second member, formed separately from the first member, and forming a second side wall, opposite the first side wall, of the circumferential groove of the backside idler pulley. The first member and the second member form first and second floor supports, respectively. The backside idler pulley further includes a continuous layer between the first side wall and the second side wall, the continuous layer being supported by the first and second floor supports while forming a floor of the groove.

A riding lawn care vehicle may include a frame to which a mobility assembly is operably coupled, an equipment frame operably coupled to the frame forward of the mobility assembly, a steering assembly operably coupled to the mobility assembly to enable an operator seated on the riding lawn care vehicle to provide steering control of the riding lawn care vehicle, a removable cutting in deck and a belt positioning system. The cutting deck includes a rotatable blade and is configured to receive power for turning the blade from an equipment drive belt of the vehicle when the equipment drive belt is operably coupled with the cutting deck. The belt positioning system is configured to enable the equipment drive belt to be automatically operably coupled between the cutting deck and the riding lawn care vehicle in response to the cutting deck being docked with the equipment frame in an operational position.

A riding lawn care vehicle may include a frame to which a mobility assembly is operably coupled, an equipment frame operably coupled to the frame forward of the mobility assembly, a steering assembly operably coupled to the mobility assembly to enable an operator seated on the riding lawn care vehicle to provide steering control of the riding lawn care vehicle, a removable cutting in deck and a belt positioning system. The cutting deck includes a rotatable blade and is configured to receive power for turning the blade from an equipment drive belt of the vehicle when the equipment drive belt is operably coupled with the cutting deck. The belt positioning system is configured to enable the equipment drive belt to be automatically operably coupled between the cutting deck and the riding lawn care vehicle in response to the cutting deck being docked with the equipment frame in an operational position.