Wheel alignment adjustment device

A wheel alignment adjustment device comprising a first member adapted for supporting an elongate shaft portion of a vehicle wheel suspension assembly and a plurality of parallel overlapping bores extending through the first member adapted for axially receiving the elongate shaft portion in a selected one of the bores and for maintaining the elongate shaft portion in a radially stationary position therein.

BACKGROUND OF THE INVENTION 
The present invention relates to wheel alignment adjustment devices for 
automotive vehicles. 
Misalignment of vehicle wheels may be caused by road shocks and the like or 
by improper wheel alignment, either at the factory or at the time new 
wheel assemblies or tires are installed. Improper wheel alignment may 
cause unnecessary tire wear and may also create vehicle handling problems. 
Wheel alignment parameters include castor, camber and toe. Castor is the 
amount of forward or rearward angular displacement between a laterally 
extending vertical plane and a lateral plane which passes through upper 
and lower ball joint attachment portions of a steering knuckle. Castor 
angle effects vehicle steering. Camber refers to the amount of inward or 
outward tilt of the central plane of a wheel from a vertical plane (when 
the associated vehicle is resting on a level surface). A proper camber 
angle centers the vehicle load at the region where the tire contacts the 
road surface. Toe is the difference in the distance between the leading 
edges of a pair of oppositely positioned wheels (i.e. the front wheels or 
the rear wheels) and the distance between the trailing edges of that pair 
of wheels. Improper toe causes excessive tire wear and may cause a vehicle 
to wander or shimmy. 
Some vehicles include apparatus in the vehicle suspension system which 
enable adjustment of wheel alignment parameters. However many vehicles are 
not equipped with such alignment adjustment apparatus or are equipped with 
apparatus which enable only limited adjustment of alignment parameters. As 
a result, many after-market kits have been introduced for sale to 
alignment shops for correction of vehicle alignment problems. Such kits 
generally include one or more items which are adapted to produce a 
displacement of one component of a wheel suspension assembly with respect 
to another component to produce a change in one or more alignment 
parameters. 
U.S. Pat. No. 4,921,271 of Jimmy D. Berry and Robert M. Allman, which is 
hereby specifically incorporated by reference for all that it contains, 
discloses a bushing assembly for adjusting at least one wheel alignment 
parameter. 
U.S. Pat. No. 4,616,845 (Re. 33,179) of Craig R. Pettibone and U.S. Pat. 
Nos. 4,695,073, 4,706,987, and 4,733,884 of Craig R. Pettibone and Jimmy 
D. Berry, all of which are hereby specifically incorporated by reference 
for all that is disclosed therein, describe several different cam-type 
alignment adjustment apparatus. U.S. Pat. No. Re. 33,179 discloses a toe 
adjustment assembly for adjusting the toe in the rear wheels of a vehicle 
having an independent rear suspension including: a cam device operatively 
associated with a lateral control arm, a slot provided in fixed 
relationship with the vehicle frame, and cam engaging surfaces associated 
with the slot. When the cam device is rotated, it coacts with the cam 
engaging surfaces to cause relative lateral shifting of a shaft portion of 
the cam device. This lateral shifting of the cam device shaft portion 
causes lateral shifting of the associated control arm and thus toe 
adjustment of an associated wheel. 
In some suspension systems, the suspension components are positioned in 
such close relationship with other vehicle structure that there is 
insufficient clearance for use of a rotatable cam-type device for 
adjusting wheel alignment. 
U.S. Pat. No. 4,863,187 of William P. Artz, which is hereby incorporated by 
reference for all that it contains, discloses a bolt restraining plate 
having a flange portion adapted to engage a strut flange peripheral edge 
for preventing lateral movement of the plate. The plate has a main body 
portion having a plurality of spaced apart holes therein adapted to 
receive a bolt therethrough for providing a different camber setting 
associated with each hole. 
A problem with multiple separated bore plate devices such as described in 
the Artz patent is that each such plate provides relatively few different 
alignment settings and the increment of adjustment between such settings 
is relatively large. 
Another problem with the use of alignment adjustment apparatus such as 
disclosed in the above discussed Pettibone and Artz patents is that it is 
necessary for a person installing the adjustment apparatus to modify 
existing suspension components of the vehicle rather than simply replacing 
existing suspension components with other apparatus components. 
SUMMARY OF THE INVENTION 
The present invention is directed to a wheel alignment adjustment method 
and apparatus adapted to overcome the above described and other problems 
of the prior art. 
The invention is also directed to a method and apparatus for adjusting 
wheel alignment in a vehicle front wheel suspension systems of the type 
used in 1989 model year Honda Accord automobiles and other similar 
suspension systems. 
Thus the invention may comprise a wheel alignment adjustment device 
comprising: first member means for supporting an elongate shaft portion of 
a vehicle wheel suspension assembly; a plurality of parallel overlapping 
bore means extending through said first member means for axially receiving 
said elongate shaft portion in a selected one of said bore means and for 
maintaining said elongate shaft portion in a radially stationary position 
therein. 
The invention may also comprise a vehicle wheel suspension system with 
selectively adjustable camber comprising: steering knuckle means for 
supporting a wheel assembly thereon, said knuckle means having an upper 
end and a lower end; lower control arm means for controlling the position 
of said knuckle means connected to said lower end of said knuckle means by 
a lower ball joint; upper control arm means for controlling the position 
of said knuckle means connected to said upper end of said knuckle means by 
an upper ball joint; upper control arm bushing means provided on an 
inboard end of said upper control arm means for receiving an upper control 
arm bushing bolt therethrough; an upper control arm bushing bolt having a 
first end and a second end mounted in said upper control arm bushing; 
first and second anchor means for supporting said bushing bolt; said first 
anchor means comprising: first member means for supporting said first end 
of said upper control arm bushing bolt; a plurality of parallel 
overlapping bore means extending through said first member means for 
axially receiving said upper control arm bushing bolt in a selected one of 
said bore means and for maintaining said bushing bolt in a radially 
stationary position therein; first anchor bolt means fixedly attached to 
said first member means for mounting said first anchor means on a body 
portion of the associated vehicle. 
The invention may also comprise a method of adjusting the camber of a wheel 
supported by a wheel suspension assembly of the type comprising: steering 
knuckle means for supporting a wheel assembly thereon, said knuckle means 
having an upper end and a lower end; lower control arm means for 
controlling the position of said knuckle means connected to said lower end 
of said knuckle means by a lower ball joint; upper control arm means for 
controlling the position of said knuckle means connected to said upper end 
of said knuckle means by an upper ball joint; upper control arm bushing 
means provided on an inboard end of said upper control arm means for 
receiving an upper control arm bushing bolt therethrough; an upper control 
arm bushing bolt having a first end and a second end mounted in said upper 
control arm bushing; first and second anchor devices attached to body 
portions of the associated vehicle and each supporting an end portion of 
said bushing bolt in a shaft receiving portion thereof, comprising the 
steps of: removing said first and second anchor devices; providing first 
and second camber adjustable anchor devices each comprising a plate member 
having a plurality of parallel overlapping bores extending therethrough 
which are each adapted for axially receiving a shaft portion of a control 
arm bushing bolt therethrough in radially nondisplaceable relationship 
therewith; mounting end portions of an upper control arm bushing bolt in 
selected ones of said plurality of overlapping bores in said first and 
second camber adjustable anchor devices which are associated with a 
desired wheel camber position. 
The invention may also comprise a method of adjusting the castor of a wheel 
supported by a wheel suspension assembly of the type comprising: steering 
knuckle means for supporting a wheel assembly thereon, said knuckle means 
having an upper end and a lower end; lower control arm means for 
controlling the position of said knuckle means connected to said lower end 
of said knuckle means by a lower ball joint; upper control arm means for 
controlling the position of said knuckle means connected to said upper end 
of said knuckle means by an upper ball joint; upper control arm bushing 
means provided on an inboard end of said upper control arm means for 
receiving an upper control arm bushing bolt therethrough; an upper control 
arm bushing bolt having a first end and a second end mounted in said upper 
control arm bushing; first and second anchor devices attached to body 
portions of the associated vehicle and each supporting an end portion of 
said bushing bolt in a shaft receiving portion thereof, comprising the 
steps of: removing said first and second anchor devices; providing first 
and second castor adjustable anchor devices each comprising a plate member 
having a plurality of parallel overlapping bores extending therethrough 
which are each adapted for axially receiving a shaft portion of a control 
arm bushing bolt therethrough in radially nondisplaceable relationship 
therewith; mounting end portions of an upper control arm bushing bolt in 
selected ones of said plurality of overlapping bores in said first and 
second castor adjustable anchor devices which are associated with a 
desired wheel camber position.

DETAILED DESCRIPTION OF THE INVENTION 
FIGS. 2-4 illustrate a wheel alignment adjustment device 102 which 
comprises a first member 112 for supporting an elongate shaft portion 60 
of a vehicle wheel suspension assembly 10 and a plurality of overlapping 
bores 131, 132, 133 extending through the first member 112 for axially 
receiving the elongate shaft portion 60 in a selected one of the bores 
131, 132, 133 and for maintaining the elongate shaft portion in a radially 
stationary position therein. Having thus described a wheel alignment 
adjustment device in general, a prior art suspension system in which such 
a device is adapted to be used and further specific features of the device 
will now be described in detail. 
FIG. 1 illustrates a prior art front wheel suspension system of a type used 
in 1989 Honda Accord automobiles and a number of other automotive 
vehicles. The suspension supports the front wheels 12 of an associated 
automobile having a forwardly 14 and rearwardly 16 extending, central 
longitudinal axis AA. Each wheel suspension assembly comprises a hub 20 
rotatably mounted on a steering knuckle 22. The hub is rotated by a driver 
assembly 24. An upper control arm 26 and a lower control arm 28 are 
pivotally attached to upper and lower portions of the steering knuckle 22 
by upper and lower ball joints 30, 32. A strut assembly 34 is provided 
having an upper end connected to a vehicle fender panel 36 and a lower end 
connected to a mid-portion of lower control arm 28. A strut rod 38 is 
connected at one end to lower control arm 28 and at the other end to a 
portion of the vehicle frame (not shown). A tie rod 40 is connected at one 
end to a mid-portion of the strut assembly 34 and at the other end to a 
stabilizer bar 42. 
The upper control arm 26 comprises an inboard end 50 and an outboard end 
52. The outboard end is connected by upper ball joint 30 to the steering 
knuckle 22. The inboard end 50 has a transversely extending bushing 54, 
FIG. 3, fixedly mounted therein. The bushing 54 has a central longitudinal 
bushing axis BB and is adapted to closely slidingly receive a bushing bolt 
56 therewithin. The bushing bolt 56 comprises a head portion 58 and a 
shaft portion 60 having a threaded end portion 62 which is adapted to 
threadingly accept a nut 64 thereon. The upper control arm 26 is 
positioned such that the central longitudinal axis BB of the bushing is 
positioned in somewhat skewed relationship with central longitudinal axis 
AA of the automobile, e.g. at an angle "a" which is 10.degree. to 
15.degree. out of parallel alignment with the central longitudinal axis 
AA. 
A pair of washers 66, 68, FIG. 3, are adapted to be received on the bushing 
bolt and positioned in abutting contact with end portions of the upper 
control arm bushing 54. Rear and front anchor members 70, 72, FIG. 1, each 
having a threaded shaft portion 74 connected to a body portion 76 having a 
single cylindrical bore extending therethrough, are adapted to receive and 
support end portions of bushing bolt 56. Anchor nuts 78 are provided for 
attaching the threaded shaft portion 74 of each anchor member 70, 72 to an 
associated portion of the vehicle fender panel 36. 
Rear and front alignment adjustment devices 102, 104, FIGS. 2-6, are 
adapted to replace the rear and front anchor members 70, 72 of the 
suspension assembly of FIG. 1 to enable adjustment of the camber or castor 
of vehicle left front wheel 12. A pair of right side adjustment devices 
(not shown), which may comprise mirror images of left side adjustment 
devices 102, 104, may be provided for adjusting the camber of the vehicle 
right front wheel. 
Left side rear adjustment device 102 comprises a vertically disposed plate 
112 having a bottom edge 111 and an inboard edge 113. A horizontally 
disposed plate 114 is fixedly attached to an upper edge portion of 
vertically disposed plate 112. A vertically disposed shaft 116 is fixedly 
attached to and extends upwardly from horizontally disposed plate 114 
Shaft 116 has a threaded upper end portion 118 which is adapted to 
threadingly accept a nut 120. Left side front adjustment device 104 
comprises a vertically disposed plate 122 having a bottom edge 121 and an 
inboard edge 123. A horizontally disposed plate 124 is fixedly attached to 
the upper edge of vertically disposed plate 122. A vertically disposed 
shaft 126 extends upwardly and is fixedly connected to horizontally 
disposed plate 124. Shaft 126 has a threaded end portion 128 adapted to 
threadingly accept a nut 130 thereon. Each of the devices 102, 104 may be 
machined from 4130 steel or other suitable high-strength material or 
alternatively may be forged. 
Vertically disposed plate 112 of adjustment device 102 comprises three 
overlapping cylindrical bores 131, 132, 133 therein. Vertically disposed 
plate 122 of adjustable camber anchor member 104 comprises four 
overlapping cylindrical bores 134, 135, 136, 137 extending therethrough. 
Bores 131-133 are each centered along a horizontal axis XX, and bores 
134-137 are each centered along a horizontal axis YY. Bores 131-133 have 
coplanar axes. Bores 134-137 have coplanar axes. In one typical embodiment 
of the invention in which the upper control arm bushing bolt 56 which is 
to be supported by the devices 102, 104 has a diameter of 0.389 in., each 
of the bores 131-137 in devices 102, 104 has a diameter of 13/32 in. and 
the bore centers are spaced 0.28 in. apart. 
The vertical plate portion 112 of anchor member 102 may comprise a 
thickness of 0.250 in., a width of 1.22 in. and a height, as measured to 
the top of horizontally disposed plate member 114, of 1.5 in. The 
horizontally extending alignment axis XX for bores 131-133 may be 
positioned 0.5 in. above the bottom edge 111 of vertical plate member 112. 
Horizontally disposed plate member 114 may comprise a thickness of 0.4 in. 
and may extend horizontally 0.75 in. as measured from the back surface of 
vertically disposed plate 112. Vertically disposed shaft 116 may be 
axially centered 0.425 in. from a front vertical edge portion of the 
horizontally disposed plate 114 in alignment with the center of plate 112. 
The length of shaft 116 may be 1.93 in. as measured from the top of 
horizontally disposed plate 114. (The adjustment device corresponding to 
device 102 for the right front wheel may be identical to device 102.) 
Alignment adjustment device 104 may be identically constructed to device 
102 except that vertically disposed plate 122 may have a width of 1.5 in. 
with the four bores 134-137 laterally centered thereon along horizontal 
axis YY at a spacing of 0.28 in. between centers, and with the vertically 
disposed shaft 126 positioned in alignment with bore 135. (In the 
adjustment device corresponding to device 104 for the right front wheel, 
the vertically disposed shaft is centered over the third bore from the 
left edge of the vertically disposed plate rather than the second.) 
Different configurations for devices 102 and 104 are desirable because of 
the skewed relationship of the control arm bushing axis BB with respect to 
the central longitudinal axis AA of the automobile. This difference in 
device 102, 104 configurations allows camber to be adjusted without at the 
same time changing the castor (or vice versa) of an associated vehicle 
wheel. 
Camber changes which may be produced in a 1989 Honda Accord front left 
wheel through use of various combinations of bores in the two adjustable 
camber anchor members 102, 104 of the above-described construction are as 
follows: for a -0.75.degree. camber change; use hole nos. 131 and 134, for 
a camber the same as original equipment, use hole nos. 132 and 135; for a 
+0.75.degree. camber change, use hole nos. 132 and 136; for a 
+1.50.degree. camber change, use hole nos. 133 and 137. Of course, other 
bore spacings and other numbers of bores could be used to provide for 
different increments of camber change. However, it is important that the 
amount of overlap between bores does not become so great as to enable 
radial displacement of the bushing bolt within the selected bore. Thus, in 
a preferred mode of construction, the radius of each bore is less than 10% 
greater than the radius of the shaft which is adapted to be received 
therein, and the pair of upper and lower arcuate surfaces, e.g. 142, 144, 
of the associated plate member which define each bore each comprise an arc 
of more than 20.degree.; which arc is preferably between 20.degree. and 
120.degree.. 
The alignment adjustment devices 102, 104 may also be used to adjust wheel 
castor through proper selection of bores. For example, by selecting bore 
133 on device 102 and bore 135 on device 104, a castor change of 1.25 in. 
may be produced without changing wheel camber. 
In order to install the devices 102, 104 on the suspension assembly 
associated with a particular wheel 12, the following sequence of steps may 
be employed: (1) Initially inspect the suspension to determine the camber 
or castor change which is needed. (2) Raise the vehicle and remove the 
tire and wheel assembly 12. (3) Loosen the upper control arm bushing bolt 
56. (4) From inside the engine compartment, remove the nuts 78 from the 
upper control arm anchor members 70, 72 (depending upon the vehicle, this 
may require removal of other parts for accessibility). (5) Remove the 
upper control arm anchor members 70, 72 from the fender panel 36, leaving 
the control arm attached to the spindle 22. (6) Remove the upper control 
arm bushing bolt and, if necessary to accommodate the alignment adjustment 
devices 102, 104, replace the bushing bolt 56 with a longer bushing bolt 
of the same diameter. (7) Select the appropriate bore in each of the 
alignment adjustment devices 102, 104 and install the devices 102, 104 on 
the bushing bolt adjacent to the control arm bushing in replacement of 
anchor members 70, 72. (8) Prior to fully tightening the control arm 
bushing bolt nut 64, mount the threaded shaft portion of each of the 
alignment devices 102, 104 through holes in associated portions of the 
fender panel 36 and attach the devices 102, 104 to the panel through use 
of associated nuts 120, 130. (9) Torque the control arm bushing bolt nut 
to 40 ft-lb and the adjustment device nuts to 53 ft-lb. (10) Reinstall the 
tire and wheel assembly. 
While an illustrative and presently preferred embodiment of the invention 
has been described in detail herein, it is to be understood that the 
inventive concepts may be otherwise variously embodied and employed and 
that the appended claims are intended to be construed to include such 
variations except insofar as limited by the prior art.