Spiral drive mechanism, particularly for mechanical vehicles, land and water machines, comprises of deformable spiral (1) of spindle shape, on one side resting on a rocker arm (2) with bearing, attached to the vehicle through a moving joint, through an axle (3) that moves the front part of the spiral in vertical, longitudinal and transverse axis. On the other side, it rests on a pendulum-moving driving axle of the vehicle (4), propelling rotating motion of the spiral and thus causing movement of the vehicle.

Spiral drive mechanism, particularly for mechanical vehicles, land and water machines, comprises of deformable spiral (1) of spindle shape, on one side resting on a rocker arm (2) with bearing, attached to the vehicle through a moving joint, through an axle (3) that moves the front part of the spiral in vertical, longitudinal and transverse axis. On the other side, it rests on a pendulum-moving driving axle of the vehicle (4), propelling rotating motion of the spiral and thus causing movement of the vehicle.

An electric-propulsion car includes: a main frame, a front axle unit, a rear axle unit, wherein the axle units each have an auxiliary frame for supporting the axle units and two suspension units that connect two respective wheel supports to the supporting auxiliary frame, wherein at least one of the axle units is a motorized axle with steering wheels including, mounted on said auxiliary frame, an electric motor for actuating the rotation of the wheels, a control unit for controlling said electric motor, a transmission unit for connecting the electric motor to the wheels, and a steering device for steering the wheel supports, and wherein each one of the main frame and auxiliary frames includes a reticular lattice structure including boxed elements made of steel, each one of the main frame and auxiliary frames being adapted to be pre-assembled separately and then assembled together. The main frame and auxiliary frames include elements made up of multiple segments connected together and derived from at least one boxed element made of high-tensile steel, wherein the at least one boxed element has at least one notch formed on at least one side of the boxed element without involving an ulterior side of the boxed element, the notch being made on the at least one side at the point where said ulterior side of the boxed element has to be bent to obtain the configuration of the finished boxed element.

An electric-propulsion car includes: a main frame, a front axle unit, a rear axle unit, wherein the axle units each have an auxiliary frame for supporting the axle units and two suspension units that connect two respective wheel supports to the supporting auxiliary frame, wherein at least one of the axle units is a motorized axle with steering wheels including, mounted on said auxiliary frame, an electric motor for actuating the rotation of the wheels, a control unit for controlling said electric motor, a transmission unit for connecting the electric motor to the wheels, and a steering device for steering the wheel supports, and wherein each one of the main frame and auxiliary frames includes a reticular lattice structure including boxed elements made of steel, each one of the main frame and auxiliary frames being adapted to be pre-assembled separately and then assembled together. The main frame and auxiliary frames include elements made up of multiple segments connected together and derived from at least one boxed element made of high-tensile steel, wherein the at least one boxed element has at least one notch formed on at least one side of the boxed element without involving an ulterior side of the boxed element, the notch being made on the at least one side at the point where said ulterior side of the boxed element has to be bent to obtain the configuration of the finished boxed element.

A utility vehicle having a combined generator and coolant circulating pump assembly and at least one combined hydraulic pump and circulating pump is disclosed herein. An auxiliary pump may be disposed on a second hydraulic pump on the vehicle. A plurality of coolant reservoirs may be provided on the vehicle. The vehicle may also include a receiver for receiving signals from a remote operator transmitter, permitting remote operation of the vehicle, and an operator platform for permitting direct user control.

A utility vehicle having a combined generator and coolant circulating pump assembly and at least one combined hydraulic pump and circulating pump is disclosed herein. An auxiliary pump may be disposed on a second hydraulic pump on the vehicle. A plurality of coolant reservoirs may be provided on the vehicle. The vehicle may also include a receiver for receiving signals from a remote operator transmitter, permitting remote operation of the vehicle, and an operator platform for permitting direct user control.

A vehicle includes an electric load, a first battery electrically connected to the electric load, a second battery electrically connected to the electric load in parallel with the first battery, the second battery being closer to a center of the vehicle than the first battery in a top view of the vehicle, a switch configured to electrically disconnect solely the first battery of the first battery and the second battery from the electric load, and a controller configured to open the switch based on detection of a collision of the vehicle or detection of an abnormality of the first battery.

A vehicle includes an electric load, a first battery electrically connected to the electric load, a second battery electrically connected to the electric load in parallel with the first battery, the second battery being closer to a center of the vehicle than the first battery in a top view of the vehicle, a switch configured to electrically disconnect solely the first battery of the first battery and the second battery from the electric load, and a controller configured to open the switch based on detection of a collision of the vehicle or detection of an abnormality of the first battery.

A tractor-trailer is disclosed, with associated apparatuses. A tractor may include a tractor air duct disposed underneath a cab. The tractor air duct may extend between a front opening at a front of the tractor and a rear opening at a rear of the tractor. A trailer may include a duct system that receives airflow from the rear opening of the tractor air duct and directs the airflow to a location behind a cargo compartment. An air distributor may be disposed behind the cargo compartment. An air distributor may include a fairing with openings, so that airflow from the duct system enters a space between the cargo compartment and the fairing, and exits the openings behind the trailer.

A tractor-trailer is disclosed, with associated apparatuses. A tractor may include a tractor air duct disposed underneath a cab. The tractor air duct may extend between a front opening at a front of the tractor and a rear opening at a rear of the tractor. A trailer may include a duct system that receives airflow from the rear opening of the tractor air duct and directs the airflow to a location behind a cargo compartment. An air distributor may be disposed behind the cargo compartment. An air distributor may include a fairing with openings, so that airflow from the duct system enters a space between the cargo compartment and the fairing, and exits the openings behind the trailer.