The invention generally relates to an electric vehicle having an electric motor and a pack for storing energy, said vehicle configured having: at least two passenger seats, including a first seat, and a second seat, positioned behind the front seat and configured to face rearward; and the pack having: a lateral module configured to extend perpendicularly to the longitudinal axis of the vehicle between the first seat and the second seat.

A cooling structure for a battery pack is provided. The battery pack is positioned in a luggage space of a vehicle. The cooling structure includes an intake port, a blower, a first duct, and a second duct. An intake port is positioned in an occupant space. A blower is positioned on a side opposite to the occupant space across the battery pack, and configured to supply air blowing in from the intake port to the battery pack. A first duct is configured to connect the intake port and an inflow port of the blower to each other. A second duct is configured to connect an outflow port of the blower and a suction port of the battery pack to each other.

An assembly includes a vehicle frame having a crossmember defining a passage. The assembly includes a drive unit supported by the crossmember in the passage. The assembly includes a stabilizer fixed to the drive unit, the stabilizer permitting movement of the drive unit in a first direction relative to the passage and restricting movement of the drive unit in a second direction opposite the first direction.

A vehicle chassis platform including: a frame having a front frame end, a rear frame end, a longitudinal frame axis, an upper frame surface, a bottom frame surface, a first longitudinal lateral frame surface and a second longitudinal lateral frame surface, wherein the upper frame surface is substantially flat; and two or more mechanical connection assemblies each coupled to one of the first and second longitudinal lateral surfaces, each of mechanical connection assemblies to couple a vehicle corner module (VCM) to the frame and to transfer mechanical loads between the frame and the VCM when the VCM is coupled to the frame.

A military vehicle includes a chassis, a front axle coupled to the chassis, a rear axle coupled to the chassis, and a driveline. The driveline includes an engine, an energy storage system, a front end accessory drive positioned in front of and coupled to the engine, a transmission coupled to at least one of the front axle or the rear axle, a second motor coupled to the transmission and electrically coupled to the energy storage system, and a clutch positioned between the engine and the second motor. The front end accessory drive includes an air compressor and a first motor. The first motor is electrically coupled to the energy storage system. The clutch is spring-biased into engagement with the engine and pneumatically disengaged by an air supply selectively provided thereto based on operation of the air compressor. The driveline is operable in an engine-only mode and an electric-only mode.

A rechargeable motorized personal shopping and utility cart. Designed for elderly or infirm consumers who find it difficult to pull or push a manual utility cart, particularly on inclines, the electronic shopping cart would propel itself on demand. Designed in every aspect for the ultimate in convenience, the front of the unit would also feature an easy-access swing-open door which makes the loading and unloading of the electronic shopping cart far easier, even for extra tall items.

A battery system of a vehicle includes: a housing which is provided between both side members of a vehicle body and arranged in a front portion or a rear portion of the vehicle; and forms an inner space; a battery and a relay provided in the inner space of the housing; and a power connector and a communication connector electrically connected to the battery and the relay and provided in a front surface portion or a rear surface portion of side surfaces of the housing.

The invention provides a mower, which comprises a battery package assembly and a frame for bearing the battery package assembly; the battery package assembly comprises a battery package and a fixing plate, the battery package is fixed on the fixing plate, a plurality of first pulleys are arranged at the bottom of the fixing plate, and the first pulleys are distributed along the installation direction of the battery package assembly. The frame comprises a supporting surface, and the first pulleys are supported on the supporting surface. The battery package assembly of the lawn mower moves on the supporting surface in a rolling mode, generated friction force is small, and convenience and labor saving can be achieved for the mounting and dismounting processes of the battery package assembly.

A mounting and dismounting system for replaceable power sources is disclosed. The mounting and dismounting system is integrated into a vehicle. The vehicle may be an electric vehicle and the replaceable power source may include at least one battery. The mounting and dismounting system includes a lift rack assembly that engages shafts on the replaceable power source to raise and lower the replaceable power source. The mounting and dismounting system also includes a set of retaining members to help keep the shafts in place. The lift rack assembly includes rack members that move in a substantially vertical direction to limit swinging and tilting.

A vehicle includes a body, a first battery set, a first accessory device, a second battery set, a second accessory device, a load device, and connecting wires. The first battery set is installed in the body and includes at least one first series unit including a predetermined number of battery cells connected in series. The first accessory device is installed in the body and connected to the first battery set. The second battery set is installed in the body and includes at least one second series unit including a predetermined number of battery cells connected in series. The second accessory device is installed in the body and connected to the second battery set. The load device is installed in the body and connected to the first battery set via the first accessory device and to the second battery set via the second accessory device.