A lawn mower capable of securing desired durability as well as suppressing a weight increase is provided. When prong portions on the periphery of a bottom disk are elastically deformed inward due to an external force applied thereto, the prong portions abut a cutting disk, so that the received external force is transferred to the cutting disk (that is, the external force is partially received by the cutting disk), and the displacement of the prong portions is restricted by the presence of the cutting disk.

A cutting mechanism for a lawnmower and/or a motor scythe has at least one tool device, a tool connecting device, and a securing device. The tool device is designed for cutting grass. The tool connecting device is designed for rotation around a cutting mechanism rotation axis of the cutting mechanism. The tool connecting device and the tool device are designed to form a positive connection to one another in order to secure the positively connected tool device against being released from the tool connecting device radially in a radial direction with respect to the cutting mechanism rotation axis. The securing device and the tool connecting device are designed to be at least partially adjustable relative to one another in, or counter to, an at least partial radial direction at least section-by-section between an enable position for enabling production and/or release of the positive connection and a securing position for securing the positive connection against release.

Apparatus, systems, and methods for operating an autonomous vehicle. In some embodiments, the vehicle can include a mower having a cutting deck. The deck can include an upper wall and downwardly extending sidewalls forming a cutting chamber. The vehicle may include a cutting blade assembly contained within the cutting chamber. A distance between the cutting blade assembly and a trim edge of the mower deck can be changed.

A robotic lawnmower comprises a blade carrier (200) and a cutting blade (400) pivotally connected thereto, the blade comprising a substantially flat cutting portion (401) extending along a cutting portion plane (410), a blade carrier interface (404), and an offset portion (406) interconnecting the cutting portion (401) and the blade carrier interface (404). When operating the robotic lawnmower, the blade carrier interface (404) of the cutting blade (400) follows a circular path in a blade carrier interface rotation plane (415), and the cutting portion (401) follows a circular path in a cutting plane (402), offset from the blade carrier interface rotation plane N (415) by a cutting plane offset distance (408).

An arrangement includes an output shaft, a cutting head, at least one cutting tool arranged on the cutting head, and a hood. The cutting head is mounted on the output shaft by a screw element held in a rotationally fixed manner on the cutting head. The hood is held on the output shaft in a rotationally fixed manner, and has ribs in the inner region, and a first grip region in the outer region.

A knife and blade for agricultural machines, in particular mower knife blades, straw chopper knives, corn header knives, feed mixer knives, loader wagon knives and baler knives, has at least one toothed cutting edge extending from a cutting edge beginning to a cutting edge end on a blade surface. The cutting edge has a straight or curved configuration and the blade surface has a mounting section. The toothing of the cutting edge is varied along its length with regard to the tooth pitch and/or the tooth geometry.

An agricultural cutting mechanism for use with an agricultural machine has a disk rotatable about an axis of rotation, a post secured to the disk, a blade, and a yieldable blade retainer. The blade is removably secured to the disk. The blade comprises a keyhole in which the post is positioned. The blade retainer is secured to the disk to move relative thereto between a blocking position blocking radially inward movement of the blade to the replacement position so as to maintain the blade in the use position and a service position releasing the blade to move radially inward to the replacement position for replacement of the blade with another blade. A blade for use with an agricultural cutting mechanism is also disclosed.

A blade and a lawn mower including the same is provided. The blade includes a main body, the main body includes a body portion and an assembling portion which is connected to the body portion, the assembling portion is configured for being disposed on a mowing disk of a lawn mower, the mowing disk is rotatable about an axial direction, the body portion includes two side faces opposite to each other, each said side face has a curved section and a plane section, the two side faces define a midline therebetween, and the midline and a vertical plane which is lateral to the axial direction define an angle therebetween.

A cutting blade replacement jig for replacing a cutting blade of a utility unit, the cutting blade being attached to a peripheral edge part of a disk by a first fastening member and a second fastening member fastened to the first fastening member, the first fastening member passing through a disk through hole formed in the peripheral edge part and a cutting blade through hole formed in the cutting blade. The cutting blade replacement jig includes: a fastening member holder configured to hold the second fastening member; and a cutting blade holder configured to hold the cutting blade on the second fasting member held in the fastening member holder in a state where a center line of the cutting blade through hole and a center line of the second fasting member are aligned.

A blade assembly for cutting vegetative material includes a rotatable body and a number of inertially deployable blades hingedly affixed to the rotatable body. Each blade is rotatable between a first retracted position and a second extended position, and each blade cooperates with the body to form a capture mechanism preventing detachment of the blade from the body in the event the hinged affixation of the blade fails. The body includes a guide plate positioned between a top cover and a bottom cover. The covers provide hinge points for the blades at desired locations relative to the guide plate. The guide plate may include fixed blades, and blade stops may be implemented to retain each blade in the first retracted position or in a position intermediate the first retracted position and the second extended position.