Provided is a driving device for an electric truck which can obtain good ride quality by decreasing the unsprung weight while achieving the adequate fuel efficiency performance by improving the power transmission efficiency and which can improve the mountability of a battery. The driving device for an electric truck includes a driving unit that accommodates therein a motor. a gearbox, and a differential device. The driving unit is supported by a first support part with respect to a ladder frame. Drive shafts coupled to the differential device are accommodated in hollow members. The hollow members are elastically supported by a second support part with respect to the ladder frame.

An automatic target selection system and method for worksite load spotting is presented. The system includes a work machine configured with a receptacle for receiving a load. A position detection unit, on-board the work machine, generates a signal associated with a current position and heading of the work machine. A display unit, on-board the work machine, displays a user interface which includes a plurality of operator-selectable spotting locations. A navigation controller is configured to receive the signal of the current position and heading of the work machine, generate a list of spotting locations associated with one or more loading machines on a worksite; and determine a target score for each spotting location based on a Cartesian distance, path distance, and a selection history. The navigation controller then displays an organized catalog of the spotting locations based on the corresponding target score.

A vehicle or trailer assembly is disclosed comprising at least one fan positioned on an exterior of the vehicle or trailer, wherein the at least one fan redirects or accelerates air moving over, around, or through the exterior of the vehicle or trailer. Also disclosed is a fan assembly comprising a manifold configured to be positioned on an outside surface of a vehicle, along an axis transverse to a direction of travel of the vehicle. The fan assembly also includes a plurality of motorized fans rotatably mounted along the axis of the manifold, such that the motorized fans are configured to accelerate air passing along the outside surface or within an exterior of the vehicle, in the direction of travel of the vehicle.

A truck frame includes: a first side rail including a first web, a first top flange formed on a top end of the first web, and a first bottom flange formed on a bottom end of the first web; a second side rail spaced apart from the first side rail to face the first side rail, and including a second web, a second top flange formed on a top end of the second web, and a second bottom flange formed on a bottom end of the second web; a reinforcing structure connecting the first top flange of the first side rail and the second top flange of the second side rail, and connecting the first bottom flange of the first side rail and the second bottom flange of the second side rail; and a component mounting space defined by the reinforcing structure between the first web of the first side rail and the second web of the second side rail.

An automotive vehicle axle and, more specifically, a transmission shaft on an automotive vehicle that can be connected and disconnected in order to allow selection of driving power for the vehicle. The shaft connection includes a first shaft segment; a second shaft segment; and a connector linking the first shaft segment to the second shaft segment. The connector selectively connects or disconnects the first shaft segment to the second shaft segment.

A user interface providing apparatus configured for platooning of a vehicle may include a touch screen display, a sensor detecting an external object of the vehicle, a communication circuit communicating with an outside, and a control circuit electrically connected to the touch screen display and the sensor. The control circuit is configured to display a first object corresponding to the vehicle and a second object corresponding to an external vehicle detected by the sensor, on the touch screen display, to receive a touch input associated with the second object, using the touch screen display, and to make a request for joining in a platooning group, to the external vehicle via the communication circuit in a response to the touch input.

A power system for converting waste heat from exhaust gases of an internal combustion engine to electrical energy includes an aftertreatment assembly positioned within a first housing. The power system includes an evaporator assembly positioned within a second housing. The evaporator assembly is positioned directly adjacent the aftertreatment assembly. The evaporator assembly includes a first portion of a working fluid loop in thermal communication with a first length of an exhaust conduit that extends from the aftertreatment assembly into the second housing. The power system includes a power pack positioned longitudinally forward of the aftertreatment assembly. The power pack includes a tank, a condenser, a pump and an expander fluidly connected by a second portion of the working fluid loop. The second portion is fluidly connected to the first portion of the working fluid loop.

A method and system for swapping batteries in an electric vehicle is disclosed. The method includes dismounting a first battery assembly, moving to a second battery assembly and mounting the second battery assembly onto the vehicle. Mounting and dismounting are accomplished by an onboard mounting and dismounting system. The method can be used in a zero infrastructure environment such as an underground mine since mounting and dismounting are accomplished by components on the vehicle itself. An auxiliary battery pack powers the vehicle during between dismounting a battery pack and mounting another battery pack.

The present disclosure discloses a trunnion mount for mounting an engine, in particular a combustion engine, to a chassis, comprising a support element rigidly connected and/or connectable to the engine having a ring portion with an outer bearing surface, which may be arranged concentrically around the crankshaft; a female support having an inner bearing surface for surrounding the bearing surface of the support element, the female support forming the link between the chassis and the engine; and a rubber bearing arranged between the inner bearing surface of the female support and the outer bearing surface of the support element. In one or more examples, the trunnion mount includes a rubber bearing that is directly vulcanized on at least one of the bearing surfaces and/or wherein the ring portion is formed as a separate element from a mounting portion of the support element and connectable thereto via axial screws.

An arrangement for controlling the temperature of air being fed to a vehicle engine includes an engine compartment in which the engine is arranged. The engine compartment is provided with an ambient air intake allowing an airflow into the engine compartment. The engine is provided with an engine air intake arranged inside the engine compartment. The arrangement further includes an air fan for forcing the airflow via the ambient air intake into the inside of the engine compartment. The engine air intake is arranged in a position allowing at least a substantial part of the airflow to enter the engine air intake.