The present disclosure is directed to a pallet assembly, sorting robot and warehouse logistics system. The pallet assembly includes a flap assembly including a first flap and a second flap. The flap assembly has a first state in which the first flap and the second flap are coplanar so as to form a carrying surface for carrying goods, and a second state in which any one of the first flap and the second flap is turned over so as to make the goods slide off. A sorting robot including the pallet assembly and a warehouse logistics system including the sorting robot are also provided.

The present disclosure is directed to a pallet assembly, sorting robot and warehouse logistics system. The pallet assembly includes a flap assembly including a first flap and a second flap. The flap assembly has a first state in which the first flap and the second flap are coplanar so as to form a carrying surface for carrying goods, and a second state in which any one of the first flap and the second flap is turned over so as to make the goods slide off. A sorting robot including the pallet assembly and a warehouse logistics system including the sorting robot are also provided.

A work machine includes a chassis, a wheel, an implement, a user interface, and a utilization monitoring system. The wheel is rotatably coupled to the chassis. The implement is movable relative to the chassis. The user interface is configured to receive a user input. The utilization monitoring system includes one or more memory devices configured to store instructions thereon that, when executed by one or more processors, cause the one or more processors to obtain one or more values representing an operational range of the implement; receive the user input; determine a value representing a position of the implement; and determine a value representing a utilization of the implement by comparing the position of the implement to the one or more values representing the operational range of the implement.

A material transport cart includes a cart body, a material support body coupled to the cart body, a wheel coupled to the cart body, a motor operable to drive the wheel, and a powered lift assembly. The powered lift assembly is coupled to the cart body and to the material support body. The powered lift assembly is operable to lift the material support body relative to the cart body. A removable battery is electrically coupled to and operable to supply power to both the motor and the powered lift assembly.

A mobile object assembly system includes a mobile object assembly station. The mobile object assembly station includes a station body extending in an upward/downward direction and includes a first support that is coupled to one side surface of the station body and that presses one side surface of an upper cabin of a mobile object upwards.

A mobile object assembly system includes a mobile object assembly station. The mobile object assembly station includes a station body extending in an upward/downward direction and includes a first support that is coupled to one side surface of the station body and that presses one side surface of an upper cabin of a mobile object upwards.

A transport device includes rollable elements configured to both support and move the transport device on a surface; and a drive mechanism for driving the rollable elements. A load bearing mechanism is movable between a lowered position adjacent to the surface and at least one raised position, and is supported by a support frame having a front wall, two side walls and an open back. The load bearing mechanism is mounted such that the side walls and front wall of the support frame extend around the load bearing mechanism. An actuator is mounted on one of the walls of the support frame for controllably raising and lowering the load bearing mechanism and the rollable elements are mounted adjacent to the side walls of the support frame and support the two side walls at four locations, such that a center of gravity is between the four locations.

A transport device includes rollable elements configured to both support and move the transport device on a surface; and a drive mechanism for driving the rollable elements. A load bearing mechanism is movable between a lowered position adjacent to the surface and at least one raised position, and is supported by a support frame having a front wall, two side walls and an open back. The load bearing mechanism is mounted such that the side walls and front wall of the support frame extend around the load bearing mechanism. An actuator is mounted on one of the walls of the support frame for controllably raising and lowering the load bearing mechanism and the rollable elements are mounted adjacent to the side walls of the support frame and support the two side walls at four locations, such that a center of gravity is between the four locations.

A handle head and a carrier with the same are provided, wherein the handle head includes a shell, and a handle shaft axially provided inside the shell. A first isolation component, a second isolation component and a third isolation component are assembled on and provided at intervals along an axial direction of the handle shaft and divide an accommodation space in the shell into four mutually insulated functional areas arranged along the axial direction. The four functional areas comprise a wiring harness area, an electrical component area, a magnetic induction area, and a reset control area. The wiring harness area is configured to accommodate a wiring harness, several electrical components for realizing the control function are assembled in the electrical component area, magnetic induction components and reset components are assembled in the magnetic induction area, and reset control components are configured in the reset control area.

A device for transporting a transport item and for attaching to a lifting vehicle, in particular for attaching to the transport apparatus of a forklift truck, said vehicle in particular comprising a mast means and said device comprising: a longitudinal transport means, more particularly a fork means, for at least temporarily receiving the transport item, in particular two or more longitudinal transport means; a tilting means for longitudinally tilting the longitudinal transport means, more particularly fork means, in particular two or more longitudinal transport means; and at least one electromechanical actuator means, in particular for linear displacement, said actuator means acting on an attachment region of the longitudinal transport means, in particular multiple longitudinal transport means, in order to tilt said transport means.