In one embodiment, a stand-on mower, comprising a chassis having drive wheels operably coupled to the chassis, a platform arranged between the drive wheels, a front wheel frame, coupled to the chassis, and having pivot mounts and front wheels coupled to the pivot mounts, and a load deck mounted to the front wheel frame and having openings through which the pivot mounts extend.

In one embodiment, a stand-on mower, comprising a chassis having drive wheels operably coupled to the chassis, a platform arranged between the drive wheels, a front wheel frame, coupled to the chassis, and having pivot mounts and front wheels coupled to the pivot mounts, and a load deck mounted to the front wheel frame and having openings through which the pivot mounts extend.

An electrically actuated mulch control lever includes an upper plate and a lower plate pivotably mounted together on a top surface of a mower deck. A compression spring is retained between the upper plate and the lower plate urging the upper plate and the lower plate to pivot together. An electric linear actuator is connected to one of the plates, and a mulch gate hinge is attached to the other plate.

A head 1 for brush cutter suitable for cutting grass and herbaceous plants having a support element 2, rotatable about a vertical axis Y-Y thereof, connected to a series of first pins 3 and a series of second pins 4. The series of first pins 3 is coupled to a first plurality of cutting elements 5 and the series of second pins 4 is coupled to a second plurality of cutting elements 6.

Said first plurality of cutting elements 5 defines a cutting plane P1 and said second plurality of cutting elements defines a second cutting plane P2, spaced apart from the previous one. The first and second plurality of cutting elements 5, 6 having, over an angular sector of 360° , an alternating arrangement.

An interchangeable and dual-functional robot is disclosed. The robot includes a portable electronic box to couple or uncouple with the lawn mower body. When the portable electronic box is in the recess of the lawn mower body, the portable electronic box connects to the mechanical and electronic components of the lawn mower body such that the coupled system functions as a robotic lawn mower. When the portable electronic box is taken out of the lawn mower body, the portable electronic box couples with a surveillance camera module to function as a mobile surveillance system. The portable electronic box may couple with a mobile cart or individual wheels to function as a mobile surveillance system.

A mulch diverting apparatus includes a panel configured to be coupled with a lawnmower. The panel includes a body portion defining a first side, a second side, an upper side, and a lateral surface configured to face the lawnmower. A first projection extends from the lateral surface of the body portion. The first projection extends toward the first side of the panel. A second projection extends from the lateral surface of the body portion. The second projection extends toward the second side of the body portion. A third projection extends from the lateral surface of the body portion. The third projection defines an orifice. A fourth projection extends from the lateral surface of the body portion. The fourth projection includes an arm extending from the body portion.

A mulch gate control lever includes a handle that moves a mulch gate on a vertical pivot axis between a first mulching position and a second side discharge position. A torsion spring biases the handle to move into a first position slot at a first end of a slotted bracket to retain the mulch gate at the first mulching position, and into a second position slot at a second end of the slotted bracket to retain the mulch gate at the second side discharge position.

A convertible lawnmower includes a housing and a mulching system. The housing includes a discharge opening. The mulching system includes a mounting ring and a shutter ring. The mounting ring is coupled substantially concentrically to the housing and includes an upper surface, a lower surface, and a sidewall that extends substantially axially therebetween. The sidewall is formed with a retaining groove and at least one installation groove. The retaining groove extends at least partially circumferentially within an inner surface of the sidewall and each installation groove extends axially from the lower surface to the retaining groove. The shutter ring is only coupled to mounting ring via the retaining groove such that the shutter ring is selectively shiftable between a mulching mode and a discharge mode.

A robotic working tool system (200) comprising a robotic working tool (100) comprising a work tool (160), an attachment receiver (310) arranged to receive an attachment (320) and a controller (110), the controller (110) being configured to receive information regarding an attachment (320) being received, and in response thereto adapt change the operation of the robotic working tool (100) to operate in an attachment operating mode, and to determine an aspect of the attachment (320) and adapt the operation in the attachment operating mode to accommodate for the determined aspect.

A robotic working tool system (200) comprising a robotic working tool (100) comprising a work tool (160), an attachment receiver (310) arranged to receive an attachment (320) and a controller (110), the controller (110) being configured to receive information regarding an attachment (320) being received, and in response thereto adapt change the operation of the robotic working tool (100) to operate in an attachment operating mode, and to determine an aspect of the attachment (320) and adapt the operation in the attachment operating mode to accommodate for the determined aspect.