A monitor controller configured to control a display content on a display unit is configured to keep displaying a bird's-eye-view image when an operation of an operation device is sensed in the state where the display unit displays the bird's-eye-view image, and to cause the display unit to display the bird's-eye-view image when the operation of the operation device is sensed in the state where the display unit does not display the bird's-eye-view image.

A tank includes a tank body made of a thermoplastic resin, a female screw member and a joint that are made of metal, and a seal member. The tank body has a tubular connection port with a through hole, and an inner space communicating with the connection port. The joint has a male screw portion to be screwed into a female screw hole of the female screw member, a boss portion connected to the male screw portion, and a joint through hole passing through the male screw portion and the boss portion. The seal member is provided so as to contact the boss portion and the hole side surface when the male screw portion is screwed into the female screw hole. The boss portion is contactable with a first bearing surface of the female screw member.

A system for proactively controlling rimpull limit of a machine includes a hydraulic system having a lift cylinder to move an implement; a lift cylinder pressure sensor that senses a hydraulic pressure of the lift cylinder and responsively produces a lift cylinder pressure signal; and a controller in operable communication with the power train and the lift cylinder pressure sensor. The controller is configured to receive the lift cylinder pressure signal; determine the rimpull limit based at least in part upon the lift cylinder pressure signal; and adjust the torque of the power train to the rimpull limit.

A display unit controller of a work vehicle includes a plurality of high-voltage charging systems, at least one of working equipment or a traveling device being driven by an electric motor, the display unit controller including: a charging/operation determination unit that functions as a detection unit detecting an abnormality for each of the charging systems and functions as a determination unit determining availability of work or traveling of the work vehicle; and a display control unit varying a charging availability indication indicating presence or absence of the abnormality for each of the charging systems according to the presence or absence of the abnormality for each of the charging systems based on a detection result of the detection unit, and varying an operation availability indication indicating availability of work or traveling according to the availability of work or traveling based on a determination result of the determination unit.

A shovel according to an embodiment of the present invention includes a lower traveling body, an upper turning body rotatably mounted on the lower traveling body, an operator's compartment provided to the upper turning body, a display device provided in the operator's compartment, and an input device provided in the operator's compartment. The display device is capable of displaying a setting screen for a construction support system using information and communication technology, and a function to switch a screen displayed on the display device to the setting screen is assigned to the input device.

A system for preventing rolling-over of vehicles is disclosed: The system may include: at least one camera attached to a portion of the vehicle such that images capture by the camera include a portion of the vehicle and a portion of a surrounding area; a communication module; and a controller configured to: receive from the camera, via the communication module, at least one image; receive data related to the parameters of the vehicle; calculate a relative position between the vehicle and a ground based on the received at least one image; calculate a location of the vehicle's center of gravity based on the received at least one image and the data related to the parameters of the vehicle; and determine a probability of rolling-over the vehicle based on the calculated center of gravity and the relative position.

A drive assembly for a work vehicle includes a drive housing, a drive shaft rotatable about a drive axis, an inner hub rotationally fixed to the drive shaft, and a planetary gear set coupled to the drive shaft and configured to selectively rotate an output element. The drive assembly also includes a clutch arrangement having a clutch ring configured to selectively engage the planetary gear set. The clutch arrangement further includes a guide assembly mounted on the clutch ring and configured to selectively interact with the planetary gear set to effect disengagement of the clutch ring from the planetary gear set. A clutch actuation assembly is configured to effect movement of the clutch arrangement along the drive axis to engage the planetary gear set, and a guide actuation assembly is configured to operate the guide assembly to interact with the planetary gear set.

A system and method are provided for flow synchronization between various transport vehicles (e.g. dump trucks) and a work machine (e.g. excavator) in a material loading cycle. The work machine and each transport vehicle are configured to communicate with each other via a machine-to-machine communications network. A controller determines initiation of a loading cycle associated with the work machine and a first transport vehicle, and detects certain parameters corresponding to a duration of the loading cycle (e.g. weight of payload, volume of truck bin, historical cycle data). A remaining time in the loading cycle duration is accordingly estimated, and an output signal corresponding to the estimated remaining time is generated to at least a next transport vehicle in a loading sequence. The system and method facilitate even spacing of transport vehicles, consistent travel speeds, and optimization of a number of loading vehicles required to coordinate with a given work machine.

Provided is a construction machine capable of collecting foreign matter into a dust collection pocket and preventing the foreign matter from being scattered. The construction machine includes a cooler, an air passage forming member including a curved section, a dust-proof filter, a cooling fan generating a normal wind for cooling and a reverse wind opposite thereto, a dust collection pocket, and a turning member. The dust collection pocket has an opening and collects foreign matter at a position downstream of the inner wall surface of the outer corner of the curved section. The turning member is turned about a turning axis by the normal wind and the reverse wind, thereby being moved between a close position to close the opening and an open position to open the opening.

The present disclosure relates to a power supply device for an electric excavator, the power supply device including a power supply unit configured to supply power of a battery to an electric motor unit, a first charging port connected to the power supply unit and configured to supply first external power to the battery, an on-board charger (OBC) connected to the power supply unit and configured to convert alternating current into direct current when alternating current power is inputted, and a second charging port connected to the OBC and configured to supply second external power to the OBC, in which the power supply unit supplies charging power of the OBC or supplies the charging power of the OBC and power of the battery power to the electric motor unit on the basis of the amount of required power of the electric motor unit and the amount of charging power of the OBC.