A working robot system includes a working robot, and a processor configured to set a working region in which the working robot performs work. The working robot includes: a machine including a traveling device configured to be able to autonomously travel; a working device configured to perform the work along a traveling route of the machine; a driving device configured to drive the traveling device and the working device; and a battery as a power source of the driving device. The processor sets a work boundary to define a preferential working region where the work can be finished, in view of work capacity of the working robot, based on location information of a preferential location set by input.

A working robot system includes a working robot, and a processor configured to set a working region in which the working robot performs work. The working robot includes: a machine including a traveling device configured to be able to autonomously travel; a working device configured to perform the work along a traveling route of the machine; a driving device configured to drive the traveling device and the working device; and a battery as a power source of the driving device. The processor sets a work boundary to define a preferential working region where the work can be finished, in view of work capacity of the working robot, based on location information of a preferential location set by input.

A robotic lawn mower includes a first wheel driven by a first electric wheel motor, a second wheel driven by a second electric wheel motor, a cutting implement driven by an electric cutting implement motor, a power system for powering the electric wheel motors and the electric cutting implement motor, and a controller configured to control operation of the electric wheel motors and the electric cutting implement motor to autonomously mow a yard. The power system includes multiple removable rechargeable battery modules and multiple receptacles, each receptacle configured to receive one of the battery modules.

A robotic lawn mower includes a first wheel driven by a first electric wheel motor, a second wheel driven by a second electric wheel motor, a cutting implement driven by an electric cutting implement motor, a power system for powering the electric wheel motors and the electric cutting implement motor, and a controller configured to control operation of the electric wheel motors and the electric cutting implement motor to autonomously mow a yard. The power system includes multiple removable rechargeable battery modules and multiple receptacles, each receptacle configured to receive one of the battery modules.

A housing holding parts includes a plurality of outer circumferential plates connected with each other to form a first enclosed space, one or more of the outer circumferential plates having a total of two or more outer holes formed therein, and a gutter member connected to at least two outer circumferential plates, the gutter member having an inner hole formed therein, wherein a second enclosed space is formed by the outer circumferential plates and the gutter member, the outer holes communicate with the second enclosed space, and the inner hole is provided to be offset from each of the lines passing through each of the outer holes which are perpendicular to the outer circumferential plates in which the outer holes 8 are formed.

A housing holding parts includes a plurality of outer circumferential plates connected with each other to form a first enclosed space, one or more of the outer circumferential plates having a total of two or more outer holes formed therein, and a gutter member connected to at least two outer circumferential plates, the gutter member having an inner hole formed therein, wherein a second enclosed space is formed by the outer circumferential plates and the gutter member, the outer holes communicate with the second enclosed space, and the inner hole is provided to be offset from each of the lines passing through each of the outer holes which are perpendicular to the outer circumferential plates in which the outer holes 8 are formed.

A hood in which a predetermined space is formed is provided in a front portion of a traveling vehicle body, a control portion on which an operator rides is provided on a rear side of the hood, a first electric motor configured to drive rear wheels and a second electric motor configured to drive a work machine are provided on a lower rear side of a control seat of the control portion, and a battery configured to store electric power to be supplied to the first electric motor and the second electric motor is provided in the space formed by the hood.

A hood in which a predetermined space is formed is provided in a front portion of a traveling vehicle body, a control portion on which an operator rides is provided on a rear side of the hood, a first electric motor configured to drive rear wheels and a second electric motor configured to drive a work machine are provided on a lower rear side of a control seat of the control portion, and a battery configured to store electric power to be supplied to the first electric motor and the second electric motor is provided in the space formed by the hood.

A system and method for actuating battery power for a mower that include receiving an input through a battery status switch of the battery. The system and method also include inputting a battery actuation switch based on receiving the input through the battery status switch. The system and method additionally include supplying an electronic signal to a microprocessor of the battery to supply power to a motor controller of the mower based on the input of the battery actuation switch. The system and method further include supplying electrical voltage to a motor of the mower to operate the motor based on the power supplied to the motor controller from the battery.

A system and method for actuating battery power for a mower that include receiving an input through a battery status switch of the battery. The system and method also include inputting a battery actuation switch based on receiving the input through the battery status switch. The system and method additionally include supplying an electronic signal to a microprocessor of the battery to supply power to a motor controller of the mower based on the input of the battery actuation switch. The system and method further include supplying electrical voltage to a motor of the mower to operate the motor based on the power supplied to the motor controller from the battery.