U.S. patent application number 10/023261 was filed with the patent office on 2003-06-19 for independent steering and actuator.
Invention is credited to Brill, Lawrence, Green, Malcolm, Hunter, Steven E., Lam, Duy, Ledesma, Ragnar, Schuster, Mike, Varela, Tomaz Dopico.
Application Number | 20030111289 10/023261 |
Document ID | / |
Family ID | 21814029 |
Filed Date | 2003-06-19 |
United States Patent
Application |
20030111289 |
Kind Code |
A1 |
Brill, Lawrence ; et
al. |
June 19, 2003 |
INDEPENDENT STEERING AND ACTUATOR
Abstract
A steering system for a vehicle is provided that includes a
steering knuckle which is rotatable about an axis. The steering
knuckle includes an upper attachment point and a lower attachment
point. The attachment points define the steer axis. A rotational
drive unit is connected to the steering knuckle for rotating the
steering knuckle about the steer axis. A control module receives a
steering input corresponding to the desired Ackerman angle and
commands the rotational drive unit to rotate the steering knuckle
about the axis to the desired Ackerman angle. Rotational drive
units for each side of the vehicle ensure that the wheels are
turned to the appropriate Ackerman angle for each wheel. The
rotational drive unit may include an electric motor, or a pneumatic
or hydraulic pump. In one preferred embodiment, the rotational
drive unit includes a fluid housing and the shaft connected to the
steering knuckle. The shaft includes a vane extending therefrom and
into the housing. The fluid pump pumps fluid into the housing to
rotate the vane with the shaft and steering knuckle about the axis
in response to a command from the control module.
Inventors: |
Brill, Lawrence;
(Westerville, OH) ; Green, Malcolm; (Granville,
OH) ; Hunter, Steven E.; (Lancaster, OH) ;
Lam, Duy; (Baltimore, OH) ; Ledesma, Ragnar;
(Sterling Heights, MI) ; Schuster, Mike;
(Rochester Hills, MI) ; Varela, Tomaz Dopico;
(Gahanna, OH) |
Correspondence
Address: |
CARLSON, GASKEY & OLDS, P.C.
400 WEST MAPLE ROAD
SUITE 350
BIRMINGHAM
MI
48009
US
|
Family ID: |
21814029 |
Appl. No.: |
10/023261 |
Filed: |
December 13, 2001 |
Current U.S.
Class: |
180/431 ;
180/411 |
Current CPC
Class: |
B62D 5/0418 20130101;
B60G 2200/142 20130101; B62D 7/18 20130101; B62D 5/14 20130101;
B60G 2202/442 20130101; B60G 2202/314 20130101; B62D 7/09 20130101;
B60G 2202/413 20130101; B60G 2200/44 20130101 |
Class at
Publication: |
180/431 ;
180/411 |
International
Class: |
B62D 005/06 |
Claims
What is claimed is:
1. A steering system for a vehicle comprising: a steering knuckle
pivotal about an axis and including upper and lower portions; a
lower suspension member interconnecting said lower portion and a
first structural member; an energy absorbing mechanism
interconnecting said upper portion and a second structural member;
a rotational drive unit connected to said steering knuckle for
rotating said steering knuckle about said axis; and a control
module receiving a steering input corresponding to a desired
Ackerman angle and commanding said rotational drive unit to rotate
said steering knuckle about said axis to said desired Ackerman
angle.
2. The steering system according to claim 1, further including a
second steering knuckle pivotal about an second axis and including
second upper and lower portions, a second lower suspension member
interconnecting said second lower portion and a third structural
member, an second energy absorbing mechanism interconnecting said
second upper portion and a fourth structural member, a second
rotational drive unit connected to said second steering knuckle for
rotating said second steering knuckle about said second axis, and
said control module receiving said steering input corresponding to
a second desired Ackerman angle different than said Ackerman angle
and commanding said second rotational drive unit to rotate said
second steering knuckle about said second axis to said second
desired Ackerman angle.
3. The steering system according to claim 1, wherein said energy
absorbing mechanism includes an air bag and a shock absorber.
4. The steering system according to claim 1, wherein a portion of
said rotational drive unit is coaxial with said axis.
5. The steering system according to claim 1, wherein said
rotational drive unit is an electric motor.
6. The steering system according to claim 1, wherein said energy
absorbing mechanism is rotational fixed relative to said first
structural member.
7. The steering system according to claim 1, wherein the rotational
drive unit is disposed between said steering knuckle and said
energy absorbing mechanism.
8. The steering system according to claim 1, wherein said rotation
drive unit includes a reduction gear set.
9. A steering system for a vehicle comprising: a steering knuckle
pivotal about an axis; a rotational drive unit including a fluid
housing and a shaft connected to said steering knuckle coaxial with
said axis and extending into said housing, said shaft including a
vane extending radially there from, and said rotational drive unit
including a fluid pump pumping fluid to said housing to rotate said
vane with said shaft and steering knuckle about said axis; and a
control module receiving a steering input corresponding to a
desired Ackerman angle and commanding said rotational drive unit to
rotate said steering knuckle about said axis to said desired
Ackerman angle.
10. The steering system according to claim 9, further including an
axle with said knuckle secured to an end of said axle by king pins,
said shaft connected to one of said king pins.
11. The steering system according to claim 9, wherein said fluid
pump is a pneumatic pump.
12. The steering system according to claim 9, wherein said fluid
pump is a hydraulic pump.
13. The steering system according to claim 9, wherein said vane
divides said housing into first and second fluid chambers with said
pump pumping said fluid into at least one of said chambers.
14. A method of steering a vehicle comprising the steps of: a)
providing an electronic steering input; b) determining first and
second desired Ackerman angles for first and second wheel ends,
respectively, in response to the steering input, the first and
second desired Ackerman angles differing from one another; c)
commanding first and second rotational drive units to rotate the
first and second wheel ends, respectively; and d) rotating the
first and second wheel ends to the first and second Ackerman
angles, respectively.
15. The method according to claim 14, wherein said rotational drive
unit includes a pneumatic pump, and step c) includes actuating said
pump.
16. The method according to claim 14, wherein said rotational drive
unit includes a hydraulic pump, and step c) includes actuating said
pump.
17. The method according to claim 14, wherein said rotational drive
unit includes an electric motor, and step c) includes actuating
said motor.
Description
BACKGROUND OF THE INVENTION
[0001] This invention relates to steering systems for a vehicle,
and more particularly, the invention relates to a steering system
designed to address Ackerman errors.
[0002] Vehicle steering systems steer wheels on opposing sides of
the vehicle in response to a steering input. Typically, an input
from a steering wheel is directed through mechanical steering
components to steer the wheels on each side. More specifically, the
steering wheel is connected to a control box which is connected to
one or more mechanical linkages connecting the opposing wheels. The
mechanical linkages and control boxes are difficult to package in
that they must be routed from one of the side to the other to
mechanically connect the wheels.
[0003] During a vehicle turn, the inner wheels travel in a path
having a smaller radius than the outer wheels. As a result, the
inner wheel must be turned a greater amount than the outer wheel so
that the wheels travel along their respective radial paths. Due to
the limitations of the mechanical linkage provided by the steering
system, the angle of the inner and outer wheels may not be changed
independently from one another. The angles of the wheels during a
turn is commonly referred to as the Ackerman angle. Accordingly,
steering systems are designed so that the wheels are pointed in the
direction of their respective radial paths for one particular turn,
preferably in the range of 20.degree. to 30.degree., such that
there is no Ackerman error. For all other turning angles an
Ackerman error exists such that at least one of the wheels is not
pointed in the direction of its radial path. Ackerman error
essentially causes the wheels to pull the vehicle in slightly
different directions and accelerates tire wear. Therefore, what is
needed is a steering system that eliminates Ackerman error for all
of the vehicle turning angles to extend tire life.
SUMMARY OF THE INVENTION AND ADVANTAGES
[0004] The present invention provides a steering system for a
vehicle that includes a steering knuckle which is rotatable about
an axis. The steering knuckle includes upper and lower portions or
attachment points that define the steer axis. A lower suspension
interconnects the lower portion to the vehicle frame or body. An
energy absorbing mechanism, preferably including an inner spring
and a shock absorber, interconnects the upper portion to the
vehicle body or frame. A rotational drive unit is connected to the
steering knuckle for rotating the steering knuckle about the axis.
A control module receives a steering input corresponding to the
desired Ackerman angle and commands the rotational drive unit to
rotate the steering knuckle about the axis to the desired Ackerman
angle. Rotational drive units for each side of the vehicle ensure
that the wheels are turned to the appropriate Ackerman angle for
each wheel. The rotational drive unit may include an electric
motor, or a pneumatic or hydraulic pump. In one preferred
embodiment, the drive unit includes a rotary actuator which has a
shaft connected rigidly to the steering knuckle. The actuator shaft
may consist of either a single vane or multiple vanes. The fluid
pump pumps fluid into the housing to rotate the vane with the shaft
and steering knuckle about the axis in response to a command from
the control module.
[0005] Accordingly, the above invention provides a steering system
that eliminates Ackerman error for all of the vehicle turning
angles and extends tire life.
BRIEF DESCRIPTION OF THE DRAWINGS
[0006] Other advantages of the present invention can be understood
by reference to the following detailed description when considered
in connection with the accompanying drawings wherein:
[0007] FIG. 1 is a schematic view of one embodiment of the present
invention;
[0008] FIG. 2 is another embodiment of the steering system of the
present invention;
[0009] FIG. 3 is a cross-sectional view taken along lines 3-3 of
FIG. 2; and
[0010] FIG. 4 is another embodiment of a fluid pump.
DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT
[0011] One embodiment of the present invention steering system 10
is shown in FIG. 1. The steering system 10 includes a steering
assembly on a first side 12 and another steering assembly on the
second side of the vehicle shown schematically at 13. The steering
assembly 12 includes a structural member 14, such as a portion of a
vehicle frame, supporting a lower suspension member 18, or A-arm at
pivotal connection 19. A lower portion of a steering knuckle 20 is
supported on the lower suspension arm 18 at a ball joint 21. The
steering knuckle 20 includes a spindle supporting a wheel 22.
[0012] An energy absorber mechanism 24 is secured to a second
structural member 25 and is connected an upper portion of the
knuckle 20. The energy absorber mechanism 24 preferably includes an
air spring and a shock absorber. The steering assembly arrangement
shown in FIG. 1 is typically referred to as a MacPherson strut.
Preferably the energy absorbing mechanism 24 is rotationally fixed
relative to the second structural member 25 so that it does not
rotate during a steering maneuver.
[0013] The steering knuckle 20 is rotatable about an axis A during
steering maneuvers. A rotational drive unit 26 is connected to the
steering knuckle 20 to rotate the knuckle in response to a steering
input. For the embodiments shown in FIG. 1, preferably the
rotational drive unit has a portion, such as a final drive gear,
that is coaxial with axis A. The rotational drive unit 26 may be a
suitable type of drive mechanism such as a pneumatic or hydraulic
motor. For the embodiments shown in FIG. 1, it is preferable that
the rotational drive unit 26 include an electric motor and gear
reduction box.
[0014] A control module 28 is connected to the steering assemblies
12, 13 on each of the sides of the vehicle. Control module 28
receives a steering input corresponding to a desired Ackerman angle
for each of the steering assemblies 12, 13. That is, each of the
steering assemblies 12, 13 requires a different Ackerman angle
during a vehicle turn so that each of the wheels is pointed in the
direction of its path of travel. The control module 28 commands the
rotational drive unit 26 to rotate the steering knuckle 20 about
the axis A to achieve the desired Ackerman angle for each of the
wheel assemblies 12, 13. In this manner, each of the steering
assemblies 12, 13 are rotatable independently of one another so
that the appropriate Ackerman angle for each wheel may be
achieved.
[0015] Another steering system 29 of the present invention is shown
in FIGS. 2 and 3. Similar to the steering system 10 shown in FIG.
1, the steering system 29 includes first 30 and second 31 steering
assemblies movable independently from one another. The steering
system 29 includes an axle 32 having an end 33. A knuckle 34 is
supported on the end 33 and is secured thereto by king pins 38, 39.
The knuckle 34 includes a spindle 36 for supporting a wheel (not
shown). A rotational drive unit 40 is connected to the knuckle 34
for rotating the knuckle 34 about the axis A.
[0016] The rotational drive unit 40 includes a fluid housing 42. A
shaft 44 extends from the king pin 39 and into the fluid housing
42. A vane 46 extends from the shaft 44 within the housing 42. As
shown in FIG. 3, the vane 46 divides the housing 42 into first 47
and second 48 chambers. A fluid pump 50, such as a hydraulic or
pneumatic pump, is connected to the housing 42. A fluid may be
pumped by the fluid pump 50 into the first chamber 47 to move the
vane 36 and shaft 44 in one direction, or the fluid pump 50 may
pump fluid into the second chamber 48 to move the vane 36 and shaft
44 in the opposite direction. In this manner, the vane and shaft
rotate the knuckle 34 about the axis A. This concept can be
extended to multiple vane arrangement. As shown in FIG. 4, a round
housing 42 may consist of four separate single vanes connected to
shaft 44.
[0017] The control module 52 is connected to the fluid pump 50.
Control module 52 receives a steering input corresponding to a
desired Ackerman angle for each of the steering assemblies 30, 31.
The control module 52 commands the rotational drive unit 40 to
rotate the steering knuckle 34 about the axis A to the desired
Ackerman angle for each of the steering assemblies 30, 31. In this
manner, the steering assemblies 30, 31 rotate independently of one
another to rotate the wheels to the appropriate Ackerman angle.
[0018] The invention has been described in an illustrative manner,
and it is to be understood that the terminology that has been used
is intended to be in the nature of words of description rather than
of limitation. Obviously, many modifications and variations of the
present invention are possible in light of the above teachings. It
is, therefore, to be understood that within the scope of the
appended claims the invention may be practiced otherwise than as
specifically described.
* * * * *