A refuse vehicle including a chassis, a body assembly coupled to the chassis, the body assembly defining a refuse compartment, and an electric energy system, the electric energy system including one or more battery cells and control hardware, the electric energy system detachably coupled to the body and configured to be accessed by a door in the body, and wherein the one or more battery cells of the electric energy system are replaceable.

In a spare tire mounting structure, a tire mounting device extending in a ladder shape and including a guard member on the front side of a vehicle body is installed on right and left rear frames extending in a front-rear direction along right and left edges in a vehicle width direction of a recessed portion of a rear floor of the vehicle body. The guard member has a shape protruded upward. The tire mounting device is installed above a battery placed in the recessed portion of the rear floor. A spare tire is mounted sideways on this tire mounting device.

A refuse vehicle including a chassis, a body assembly coupled to the chassis, the body assembly defining a refuse compartment, and an electric energy system, the electric energy system including one or more battery cells and control hardware, the electric energy system detachably coupled to the body and configured to be accessed by a door in the body, and wherein the one or more battery cells of the electric energy system are replaceable.

An axle assembly includes a first wheel connected in a rotationally fixed manner to a first wheel shaft with a wheel hub motor and a second wheel connected in a rotationally fixed manner to a second wheel shaft. The second wheel is coupled by a mechanical transmission mechanism in a driving manner to the wheel hub motor. The transmission mechanism has a transmission shaft unit which extends generally parallel to, but non-coaxially with the wheel shafts such that the transmission shaft unit is offset in the vehicle longitudinal direction from the wheel shafts and is coupled via coupling units in a force-transmitting manner on one hand to the wheel hub motor and on the other hand to the second wheel to provide drive force to both wheels from a single wheel hub motor at least partially containing within one of the wheel hubs.

The disclosure is related to an electric wheel, adapted to a wheel shaft. The electric wheel includes a wheel body, a battery holder, and at least one battery module. The wheel body has a wheel hub configured to be rotatably disposed on the wheel shaft. The battery holder includes a base and at least one first electrical connector connected to each other. The base is configured to be connected to the wheel shaft and disposed side by side to the wheel hub. The base has an outer surface facing away from the wheel shaft. The at least one battery module includes at least one battery storage and at least one second electrical connector. The at least one battery storage has an inner surface in contact with the outer surface of the base. The at least one second electrical connector is detachably mounted on the at least one first electrical connector.

An articulated, bus with at least two bodies or carts, adapted for carrying at least fifty or one hundred passengers in the passenger compartment. The articulated bus comprises several wheel housings, each with two longitudinally aligned wheels. Each wheel is disposed in the wheel housing and comprises an in-wheel electric engine in its rim. A cooling circuit is in communication with the in-wheel electric engine and comprises a heat exchanger outside the wheel housing in order to cool the wheels. The cooling circuit also cools the battery pack electrically connected to the electric engine. A cooling process for controlling the temperature in-wheel electric engine, and a use of a heat exchanger for heating a seat or a passenger compartment.

A vehicle rim is provided having a rim body and at least one capacitor. The rim body has a hub region, a rim bed and a connection region that connects the hub region to the rim bed. The rim body forms at least a part of a housing of the capacitor.

An axle assembly includes a first wheel connected in a rotationally fixed manner to a first wheel shaft with a wheel hub motor and a second wheel connected in a rotationally fixed manner to a second wheel shaft. The second wheel is coupled by a mechanical transmission mechanism in a driving manner to the wheel hub motor. The transmission mechanism has a transmission shaft unit which extends generally parallel to, but non-coaxially with the wheel shafts such that the transmission shaft unit is offset in the vehicle longitudinal direction from the wheel shafts and is coupled via coupling units in a force-transmitting manner on one hand to the wheel hub motor and on the other hand to the second wheel to provide drive force to both wheels from a single wheel hub motor at least partially containing within one of the wheel hubs.

To provide a vehicle drive device capable of effectively driving a vehicle by using in-wheel motors without falling into the vicious cycle between enhancement of driving via the motors and an increase in vehicle weight. The present invention is a vehicle drive device that uses in-wheel motors to drive a vehicle and includes in-wheel motors (20) that are provided in wheels (2b) of a vehicle (1) and drive the wheels, a body side motor (16) that is provided in a body of the vehicle and drives the wheels of the vehicle, and a battery (18) and a capacitor (22) that supply electric power for driving the in-wheel motors and/or the body side motor, in which a voltage of the battery is applied to the body side motor and a voltage of the battery and the capacitor connected in series is applied to the in-wheel motors.

A refuse vehicle includes a chassis, a body coupled to the chassis, the body defining a refuse compartment, a tailgate detachably coupled to the body, and an electrical energy system, and a detachable electrical connection. A first portion of the electrical energy system is coupled to the tailgate. A second portion of the electrical energy system is coupled to the body. The detachable electrical connection is between the first portion and the second portion of the electrical energy system.