A removable battery component for receiving a battery submodule and being mechanically and electrically connectable to other removable battery component carriers and/or a carrier frame is provided. The removable battery component carrier includes a bottom plate, a pair of side walls perpendicular to the bottom plate and extending along two facing corners of the bottom plate, a pair of end plates perpendicular to the bottom plate and the side wall, extending along two facing corners of the bottom plate, and mechanically connected to the side walls and/or the bottom plate to fix the plurality of battery cells together. A cell cover extends parallel to the bottom plate to form a receiving space of the battery submodule along with the bottom plate, the side wall, and the end plate.

A battery assembly according to an exemplary aspect of the present disclosure includes, among other things, a battery cell, a cooling device extending at least partially through the battery cell, and a coolant manifold connected to the cooling device.

A battery assembly is disclosed that includes a battery housing, a battery array, and one or more cooling plates. The battery housing forms a battery compartment having a width and length greater than a height. The battery array includes a plurality of cylindrical battery cells oriented with an axis perpendicular to the height of the battery compartment. The plurality of cells are organized into a plurality of rows within the battery compartment. The one or more cooling plates oriented perpendicular to the axis of the battery cells and positioned proximal to an end of battery cells within a row of the plurality of rows.

A work vehicle includes a propelling device, which consists of a pair of right and left front wheels and a pair of right and left rear wheels, an engine configured to drive one of the pair of front wheels and the pair of rear wheels, an electric motor configured to drive the other of the pair of front wheels and the pair of rear wheels, a battery configured to supply electric power to the electric motor, and a controller configured to control the electric motor. The controller performs regeneration control at constant current value to charge the battery with regenerative power of the electric motor at a constant current value regardless of rotation speed of the electric motor.

Methods for fastening or coupling dissimilar materials to each other may include providing a first component with a first through hole and a second component with a second through hole that is at least partly aligned with the first through hole. A mixture including a first material and a second material may be injected into the aligned through holes of the first component and the second component. The mixture of the first material and the second material may expand in the through holes, e.g., due to a chemical reaction, thereby connecting the first component and the second component together.

An electrified vehicle according to an exemplary aspect of the present disclosure includes, among other things, an energy recovery mechanism, and a controller configured to selectively activate at least a battery cooling mode to dissipate excess power from the energy recovery mechanism.

An electric work vehicle includes a plurality of battery mounting portions, a plurality of battery packs that can be detachably mounted to the battery mounting portions, a main body contact provided for each one of the battery mounting portions and electrically connected with the battery back mounted to the battery mounting portion, a power feeding circuit to which the main body contact is parallel connected, a battery switch configured to block flow of electric power from the battery pack to the power feeding circuit, a switch operating portion for operating the battery switch, a charged amount estimating portion for estimating a charged power of the battery pack mounted to the battery mounting portion, an electric motor driven by power fed from at least one battery pack via the power feeding circuit, and a driving wheel receiving power transmitted from the electric motor.

An electric work vehicle includes: a battery pack that is arranged between a left rear wheel arranged outside of a left frame and a right rear wheel arranged outside of a right frame, the front end of the battery pack being located forward of an axle center of a rear wheel unit; a left motor that is arranged above the battery pack, in the periphery of the left rear wheel, receives a supply of power from the battery pack, and transmits rotational power to the left rear wheel; and a right motor that is arranged above the battery pack, in the periphery of the right rear wheel, receives a supply of power from the battery pack, and transmits rotational power to the right rear wheel.

A method is proposed to assist a user of an electric vehicle in reserving a rechargeable battery with a charging station. A reservation assistant unit that is related to the electric vehicle computes an estimated travelling distance from a current location corresponding to the electric vehicle to a destination, and computes a remaining distance based on residual electric energy of a rechargeable battery currently used by the electric vehicle. When the estimated travelling distance is greater than the remaining distance, the reservation assistant unit provides charging station information that indicates the closest charging station that has a rechargeable battery available.

A thermal interface member configured to be disposed between a heat sink and a heat-releasing device includes a thermal interface member. The thermal interface member has a thermally conductive, cure-in-place, polymer foam pad configured to maintain uniform contact with each of the heat sink and the heat-releasing device. The thermal interface member is additionally configured to absorb the thermal energy released by the heat-releasing device and direct the released thermal energy to the heat sink. The polymer foam pad has a matrix structure including at least one of anisotropic and isotropic thermally conductive anisotropic filler material, and is characterized by foam material density below 0.5 g/cm.sup.3.