The invention discloses a steering device particularly usable, but not exclusively, for motor vehicles and the following description has been made referring to this field of application only with the purpose to make the description easier.
However, the device is usable also for trolley vehicles, farm machinery, public works vehicles, motor boats, amphibious vehicles, and the like or for any vehicle allowing a movement even if not rectilinear.
As it is well known, starting from the first motor vehicles, the steering control has always been transmitted from a steering device, usually known as a “steering wheel” fixed on a central hub and connected, by means of a steering column, to steering mechanisms controlling the directioning position of the front wheels. Over the years, the steering wheels have been modified and improved in design, ergonomics, adjustment etc.
Nowadays steering wheels exist which are adjustable in height and inclination, made of different materials, stronger and, at the same time, of lighter weight, steering wheels that are able to absorb shocks, thanks to modification to the steering column, or more simply, equipped with instantaneously inflatable cushions (called airbags) to protect the driver in case of collision.
The shape of the steering wheels has changed, in some cases, as for example in “Formula One”, in which steering wheels of semicircular shaped and extractable from the driver have been used, to satisfy more restrictive space needs, during the driving and upon getting in and out of the vehicle.
The way in which the steering is controlled has not changed. The steering control is applied by the driver of the vehicle to the steering wheel; safety rules and highway code require the driver to hold the steering wheel with both hands, while driving, in order to have a better control of the vehicle.
However, in particular driving conditions, for example in reverse motion, or in U-turn, it is uncomfortable to keep both hands onto the steering wheel; during reverse motion, the position of the driver is unnatural in comparison with the normal driving position, the driver being partially or totally turned backwards, thereby he tends to detach one hand from the steering wheel.
Moreover in case of elbow bends, sudden swerving, steering corrections, etc. it is also difficult to timely steer, the steering wheel having an intrinsic resistance against the rotation.
This last inconvenience is more evident under driving conditions already naturally extreme like in rallies, road races, track races or the like.
The need of avoiding frequently detaching the hands from the steering wheel, in event of bends, U-turns and reverse motion, causes the driver to accompany hands on the steering wheel, the rotation of the steering wheel as far as possible, leading to a torsion of the arms in the direction of the steering. This fact results in a continuous stress on the muscles of the arms increasing in time and in proportion to non rectilinear paths. In JP 11 342849 A to Honda Motor Co. Ltd. the arm, opposite to the direction of rotation, suffers for the same continuous stress, during a rotation of the steering wheel.
Moreover, the aforementioned stresses are a not negligible problem for drivers unskilled or poorly inclined to the driving.
Under extreme driving conditions, as rallies, road races, or track races, the crosswire acceleration acting during bends amplifies even more the stresses acting on the arms and on the shoulders making it necessary a high physical effort to drive the vehicle.
The purpose of the present invention is to provide a steering device having structural and functional features to overcome the above described drawbacks.
A particular purpose of the present invention is thus to guarantee greater driving safety, to reduce the effort needed for the steering control and to reduce the stress on the arms and the shoulders during the steering.
These purposes are achieved by means a steering device comprising a support structure fixed on a steering column by means of a central hub and rotatable with the steering column to operate control mechanisms for the direction of the front wheels, characterised by comprising at least two handgrips, at least one of which being mobile, connected to the support structure, said at least one mobile handgrip being rotatable around an axis substantially orthogonal to the lying and rotating plane of the support structure so as to manually impart a rotating motion, around the steering column axis, to said support structure.
According to a preferred embodiment of the invention, the device comprises two mobile handgrips, fastened to said support structure in symmetrical positions with respect to the mid-plane of the support structure, said handgrips being shaped for the normal grip by the two hands of the driver.
The features and the advantages of the invention will be clear from the following description of an example of realization given in a indicative and non limitative way referring to the attached drawings.
a is a plan view from above of a basic embodiment of a steering device according to the present invention, in a first operating position.
b and 1c are side views of the device of FIG. la, seen according to arrows, and
a is a plan view from above of the basic embodiment of steering device according to the present invention, in a second operating position.
b and 2c are side views of the device of
a is a plan view from above of the second embodiment of a steering device, according to the present invention, in a first operating position and
a is a plan view from above of the second embodiment of steering device according to the present invention, in a second operating position and
b is a side view of the device of
a is a plan view from above of a third embodiment of a steering device according to the present invention, in a first operating position
b and 5c are side views of the device of
a is a plan view from above of the third embodiment of steering device according to the present invention, in a second operating position.
b and 6c are side views of the device of
a is a plan view from above of a fourth embodiment of a steering device according to the present invention.
b and 7c are side views of the device of the
a is a plan view from above of a fifth embodiment of a steering device according to the present invention.
b and 8c are side views of the device of
In all the figures of the following description, and briefly described above, a steering device can be in a position that we define as “central”, namely that allows the motion of the vehicle in a rectilinear direction, or in a position that we will define as “rotated”, namely reached through a steering control.
Referring to the embodiment shown in
The central hole 4 fits the steering column, permitting the fixing of the support structure 2 to the steering column itself; the latter is responsible of the transmission of the rotation of the steering device 1 to mechanisms controlling the change of the motion direction of the vehicle, by operating on directional members, such as wheels, tracks, rudders or the like.
Two pivots 6a, 6b are fastened at the ends of the spokes 3a, 3b, in distal positions with respect to the central hole 4, each pivot being rotatable around an axis perpendicular to the plane of the related spoke.
A handgrip 7a, 7b is secured at the free end of each pivot, it being substantially shaped as a twist grip, lying on a plane substantially perpendicular to the axis of the respective pivot 6a, 6b and consequently substantially parallel to the plane of the support structure 2.
Advantageously, according to the invention, the support structure 2 and the twist grips 7 are mechanically connected by means of the pivots 6a, 6b, but are not tied to each other in their respective rotations, being able to rotate on two parallel planes respectively around the steering column and the axes of the pivots 6a, 6b, and being fixed to the support structure in symmetrical positions with respect to the mid-plane A-A.
That means that while the support structure 2 is rotated by a certain angle around the axis of the steering column, the twist grips 7, although following the rotation of the support structure 2 around the column, are also themselves rotatable around the axes of the pivots 6a, 6b, by an angle different from the angle of the rotation of the support structure 2 around the axis of the steering column, as well therewith. Moreover, the two twist grips 7, being not tied in their respective rotations around the axes of the pivots 6a, 6b, can also be rotated by angles of amplitude different from each other.
In traditional steering wheels, if the support structure 2 rotates by an angle α around the steering column, the torsion angle of the arms used for the steering control has amplitude of the same angle α; as the arms reach the limit of their torsion capacity, they get asynchronously detached from the steering wheel to take the initial position again and complete the steering control action.
Advantageously, according to the invention, upon the steering device 1 is rotated by an angle a around the steering column, the torsion angle of the arms used for the steering control is near zero. The twist grips 7 can be rotated in an opposite direction with respect to the rotation of the support structure 2, thus balancing the torsion of the arms around the column, i.e. since the rotation of the support structure and the torsion of the arms are equal and opposite, the resultant force is zero.
Since the resultant of the rotations given to the structure 2 and to the handgrips 7 represents the work done by the arms and the shoulders for the control of the steering device 1, it is clear that the stresses applied to arms and shoulders shall be minimum or near to zero.
The steering control is mainly applied by means of the forearms, carrying out a work of negligible entity. Consequently, the steering is more convenient and also quicker both in everyday driving and in the particular case of driving under non conventional conditions, such as rallies, road races, track races or the like, where the steering readyness is a critical factor and the advantage of the use of the steering device according to the invention is even more evident.
As an alternative to the two mobile handgrips 7a, 7b, one can be non rotatably fixed to the support structure 2 while the handgrip symmetrical with respect to the median axis A-A, can be left freely rotatable.
Furthermore, the present invention allows the extraction of the twist grips 7 from the support structure 2, when the vehicle is stopped, to prevent an unauthorised use of the vehicle.
The support structure 2 may comprise more than one spokes; as an alternative, it can also be designed without the spokes 3, for example shaped as a disk extending from the central hole 4 for the fastening to the steering column.
In particular, the spokes 3 can be of the type shown in
In view of the above, it is clear that for every vehicle that uses the steering device according to the present invention there are set better driving conditions. The safety is considerably increased; it is no longer necessary to detach the hands from the steering wheel during the steering, even during bends with short radius as those occurring, for example, in U-turns; arms and shoulders are no longer heavily stressed; the driving is more relaxed and the steering quicker; the possibility of removing the handgrips guarantees a reasonable safety against theft.
In the group of
In this embodiment, handgrips consist of two crown segments of a normal steering wheel, possibly having imprints for the abutment of the fingers. The steering device 20 can thus be grasped in a more comfortable way in comparison with the basic embodiment.
In the group of
In this embodiment, handgrips are made of two reversed “cow horns” 207 possibly having imprints for the abutment of the fingers.
In particular, in the
The said slots can be present also in the other embodiments of the present invention.
In the group of
In
The two segments are fixed to the hub by means of respective spokes 13 and 14 and rotate therewith owing to a steering control applied to the steering device 40. In this embodiment, the driver can take advantage of the shape of a traditional steering wheel for abutting his hands during long rectilinear ways.
As it can be easily understood from the figures, the rotation of the handgrips is neither hindered nor conditioned by the two crown segments 11 and 12; thus, their presence has an aesthetic effect helpful to make the new steering wheel looking more conventional and less unconventional.
Obviously, in the solutions of
In the group of
In
The segment is fixed to the hub by means of a spoke 114 and rotates therewith upon a steering control is applied to the steering device 50.
A very important feature of the present invention is that, as shown in
Such a positioning of the airbag leads to the insertion, also after the purchase of a vehicle, of the steering device that is easy adaptable, by merely modifying or changing the hub assembled in the current production.
Furthermore, the visibility of the instrument system can be notably improved, to the advantage of the driving safety and comfort.
Finally, it also becomes easier to place on the steering wheel those commands that now are placed along the crown of the steering wheel (For example the gearbox control, the audio device control, etc.).
Obviously, the configuration of the steering device can be flat or of cup-shaped type, or of any other known type.
This application is the U.S. national phase of International Application No. PCT/IT2005/000597 filed Oct. 12, 2005, the disclosure of which is incorporated herein by reference in its entirety. The International Application was published in English on Apr. 19, 2007 as WO 2007/043072A1 under PCT Article 21(2).
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IT2005/000597 | 10/12/2005 | WO | 00 | 4/8/2008 |