Abstract: A method to control a road vehicle during a slip of the drive wheels and having the steps of: detecting a slip of at least one drive wheel; and controlling, only during a slip of at least one drive wheel, a driving unit of the road vehicle with a signalling law so as to obtain a cyclic operating irregularity, which generates an abnormal vibration and/or an abnormal noise.
Abstract: A power storage system for an electric drive vehicle; the power storage system comprises: at least one battery pack, which is provided with a plurality of electrochemical cells, which are electrically connected to one another; a container, which is provided, on the inside, with a chamber housing the battery pack; at least one first connector, which is mounted on the container; and a covering casing, which is designed to thermally insulate and protect the casing from fire. The covering casing is made of a fireproof fabric, which is also thermally insulating and is in direct contact with an outer surface of the container.
Type:
Grant
Filed:
July 29, 2020
Date of Patent:
December 6, 2022
Assignee:
FERRARI S.P.A.
Inventors:
Elena Ligabue, Enrico Venturi, Luca Poggio
Abstract: An exhaust system for an internal combustion engine and having at least an exhaust duct, which originates from the internal combustion engine and has an end part, which ends with an outlet opening, through which exhaust gases are released into the atmosphere. The end part of the exhaust duct has at least one movable wall, which can be moved to different positions to vary the width of the outlet opening. There are provided a motor-driven actuator device, which is configured to move the movable wall and can be electronically controlled, and a control unit, which is configured to vary, by controlling the actuator device, the position of the movable wall depending on a rotation speed of the internal combustion engine and on an engine load of the internal combustion engine.
Abstract: A wheel rim having a central axis and comprising a central hub configured to be fixed to a suspension of a vehicle; a peripheral ring, which is arranged around the hub with a predetermined radial distance from the hub itself and is configured to receive a tire of the vehicle on a radially outermost surface thereof; a plurality of spokes equally spaced angularly from one another around the axis and connecting the peripheral ring to the hub; and at least one projection protruding in a cantilever fashion towards the hub, starting from a radially innermost surface of the peripheral ring, opposite to the radially outermost surface, and defining an airfoil configured to generate, in use, during the forward travel of the vehicle, a channelling of the air towards the outside of the wheel rim.
Abstract: A cover panel for a cabin of a vehicle and provided with a weakening for the opening of an underlying airbag. The weakening consists of a sequence of not-through incisions which are separated from each other, are arranged along a weakening line, are obtained from an internal surface of the cover panel, and terminate at a non-zero distance from an external surface of the cover panel. In some sections of the weakening line there are first incisions each having a first width while in other sections of the weakening line there are second incisions each having a second width greater than the first width. The weakening line has a plurality of portions that connect to one another in at least one connection area, wherein the corresponding portions of the weakening line consist of the second incisions only while, next to the connection area, the corresponding portions of the weakening line consist of the first incisions only.
Abstract: A hybrid vehicle with four drive wheels having: an internal combustion heat engine, which transmits the motion to a first pair of drive wheels and has at least one cylinder provided with at least one intake valve and with an exhaust valve; a turbine, which is designed to be rotated by the exhaust gases; a first electric machine, which is designed to be rotated by the turbine so as to generate electrical energy; a second electric machine, which transmits the motion to a second pair of drive wheels; and a control unit, which is configured to cyclically determine an electric power to be necessarily generated and an electric power generated by the first electric machine and to adjust an opening advance of the exhaust valve depending on the difference between the electric power generated by the first electric machine and the electric power to be necessarily generated.
Abstract: A method to control a road vehicle during a slip of the drive wheels, which are caused to rotate by an internal combustion engine provided with a plurality of cylinders arranged in two banks, and with a plurality of fuel injectors each injecting fuel into a corresponding cylinder. The control method comprises the steps of: detecting a slip of at least one drive wheel; and controlling the internal combustion engine, only during a slip of at least one drive wheel, with a signalling law, which causes the internal combustion engine to work in an abnormal manner so as to generate an abnormal vibration and/or an abnormal noise, which can be perceived by the driver. The internal combustion engine has two twin control units, each of which is associated with a corresponding bank, controls all and the sole injectors of its own bank and actuates the signalling law completely independently of and autonomously from the other control unit.
Abstract: Electric machine having: a shaft; a rotor with permanent magnets that is fitted to the shaft; a stator having a magnetic core which consists of a series of laminations made of ferromagnetic material and longitudinally crossed by a plurality of stator slots; and a stator winding having a plurality of rigid bars that are inserted in corresponding stator slots and that are covered, on the outside, with an insulating coating. Each stator slot is completely free from an insulating element interposed between the ferromagnetic material making up the laminations of the magnetic core and the corresponding bars, so that an outer surface of the corresponding bars is in direct contact with an inner surface of the stator slot made of the ferromagnetic material.
Type:
Grant
Filed:
February 4, 2021
Date of Patent:
October 25, 2022
Assignee:
FERRARI S.P.A.
Inventors:
Davide Ferrara, Luca Poggio, Paolo Faverzani