An electrified vehicle include a chassis, a front axle coupled to the chassis, a rear axle coupled to the chassis, an electric motor supported by the chassis, and a trailer coupled to a rear end of the chassis and configured to be towed by the electrified vehicle. The electric motor is configured to drive at least one of the front axle, the rear axle, or a component of the electrified vehicle. The trailer includes a trailer frame, a trailer axle coupled to the trailer frame, and an energy storage device supported by the trailer frame. The energy storage device includes a plurality of batteries. The energy storage device configured to power the electric motor.

A battery receptacle for a rail vehicle and a rail vehicle with a battery receptacle. The battery receptacle has a volume form which deviates from a cuboidal form. The battery receptacle has connection elements that are designed such that the battery receptacle can be pivotally connected to an associated battery box of the rail vehicle so that when the battery receptacle is rotated about an axis it can be rotated into the battery box or rotated out of the battery box.

A concrete mixer vehicle includes a chassis, a tractive assembly coupled to the chassis and configured to propel the concrete mixer vehicle, a mixing drum rotatably coupled to the chassis, and an electromagnetic device configured to convert electrical energy to mechanical energy to drive the tractive assembly. In a first configuration, a first battery module is removably coupled to the chassis and configured to provide the electrical energy to the electromagnetic device, and in a second configuration, the first battery module is removed from the chassis and replaced with a second battery module, the second battery module removably coupled to the chassis and configured to provide the electrical energy to the electromagnetic device.

An energy storage system for vehicles is provided which is formed by a battery and a compartment for its accommodation which allows the insertion and removal of batteries and their connection to the electrical system of the vehicle with ease, quickly and at a low cost, both manually and based on auxiliary tools with different degrees of automation; the battery includes electrical connection elements and communication connection elements and is inserted in or removed from the compartment with a horizontal movement. The compartment includes electrical connection elements and communication connection elements complementary to those of the battery and allows cooling the battery; in this way, an electric vehicle can incorporate batteries as needed, adjusting its cost to its real use and reducing the waiting times due to charging its energy storage.

A concrete mixer truck includes a chassis, a plurality of tractive assemblies coupled to the chassis, a mixing drum rotatably coupled to the chassis, the mixing drum defining an internal volume configured to contain material and an aperture through which the material can enter and exit the internal volume, an energy storage device positioned at a rear end of the chassis and configured to provide electrical energy, and an electromagnetic device electrically coupled to the energy storage device, where the electromagnetic device is configured to receive the electrical energy from the energy storage device and provide mechanical energy to drive at least one of the plurality of tractive assemblies to propel the concrete mixer truck.

Battery swapping equipment for an electric vehicle and a positioning method for battery swapping equipment. The battery swapping equipment includes: an unlocking mechanism configured to unlock a battery pack locked onto a fast swapping bracket of the electric vehicle; an image collection module to collect a first actual image containing the lock base during an unlocking process of the battery pack; a storage module configured to store a first standard image collected by the image collection module when the battery swapping equipment is located in a battery swapping position, the first standard image including the lock base; a positioning judgement module to judge whether the battery swapping equipment is located in the battery swapping position according to the first actual image and the first standard image; if not, generating a first moving instruction according to a judged result; a moving mechanism to move according to the first moving instruction.

Disclosed is a mounting platform, comprising: a tray and a fixed plate, the tray is used for carrying a battery, and the tray is provided on the fixed plate and can move horizontally in a first direction relative to the fixed plate; a first guide fork is provided on one side of the fixed plate and the first guide fork can move horizontally in a second direction perpendicular to the first direction; a second guide fork is provided on one side of the tray, and the second guide fork can move horizontally in the second direction. Further provided is a control method, which is used for controlling the mounting platform above. The mounting platform can fit various models of vehicle batteries by providing the first guide fork and the second guide fork which can move in the second direction, thereby achieving universality of a battery replacement station.

The present disclosure relates to energy storage mounting system for an energy storage system of a vehicle, the mounting system comprising: a vehicle mounting member connectable to a longitudinal frame of the vehicle, the vehicle mounting member comprising an elongated portion arranged to, when the vehicle mounting member is attached to the longitudinal frame, extend away from the longitudinal frame, wherein the elongated portion comprises a recess at an outer end portion thereof; and a battery mounting member connectable to the energy storage system, the battery mounting member comprising a connecting portion, wherein the connecting portion is movable between a disconnected state, in which the connecting portion is positioned at a distance from the elongated portion of the vehicle mounting member, and a connected state, in which the connecting portion is positioned in the recess for connecting the battery mounting member to the vehicle mounting member.

An electric work vehicle includes a battery container provided in a traveling vehicle body and including a guiding unit, and a battery pack removably attached to the battery container and including a guided unit. A pair of rollers are provided in one of the guiding unit and the guided unit, and a pair of engaging portion to be engaged with the rollers are provided in the other of the guiding unit and the guided unit. When the battery pack is loaded or unloaded onto/from the battery container at the loading/unloading position, the rollers engage with the engaging portions, thereby functioning as pivot fulcrums for enabling the battery pack to pivot for loading and unloading.

An electric work vehicle includes: a battery accommodating portion that is provided in the vehicle body and accommodates a battery; a first connector provided on the battery accommodating portion; a second connector provided on the battery; and an operating tool for moving the battery and the second connector, and switching from a pre-attachment orientation in which the second connector opposes the first connector to an attachment orientation in which the second connector is joined to the first connector.