Wheel aligning method and apparatus

The wheel aligning method and apparatus relates to the replacing of the wheel to be aligned with the novel apparatus, which helps support the vehicle, and yet provides relatively easy access to the wheel strut assembly for alignment purposes. The apparatus includes a rigid member assembly adapted to be mounted on the strut assembly in place of the wheel, and a base assembly is pivotally connected to the rigid member assembly for resting on a supporting surface. The strut assembly is adjustable in height to enable the rigid member assembly and its base assembly to move adjustably relative to one another to adjust the overall height of the apparatus.

TECHNICAL FIELD 
The present invention relates in general to a method and apparatus for 
aligning vehicle wheels. The invention more particularly relates to such a 
wheel aligning apparatus and method to facilitate the alignment of 
strut-mounted wheels of front-wheel drive vehicles. 
BACKGROUND ART 
In the past, there have been many different types and kinds of devices for 
facilitating the aligning of vehicle wheels. For example, reference may be 
made to U.S. Pat. Nos. 4,337,581 and 3,488,857. 
However, despite the heretofore known attempts to improve the wheel 
alignment techniques, such techniques have been awkward and time 
consuming, as well as less than entirely precise and accurate. 
The commonly used techniques are particularly awkward, time consuming and 
inaccurate, where front-wheel drive, strut-mounted vehicles are concerned. 
In this regard, the currently used technique is to attach a camber gauge 
to the outside of the front wheel to be adjusted, and then the front 
wheels are turned outwardly to provide access to the strut assembly for 
adjustment purposes. Once an adjustment of the strut assembly is 
attempted, the wheels must be turned back to a parallel position to read 
the gauge to determine whether or not the camber is properly adjusted. 
However, since the wheels are turned outwardly when the strut assembly is 
being adjusted, the camber adjustment can not be accurately and precisely 
made. Therefore, the process is repeated, and by trial and error, 
successive approximations are made until the desired camber alignment is 
achieved. 
A toe adjustment is then attempted by replacing the camber gauge with a toe 
gauge. A similar awkward process must also be employed to accomplish the 
desired toe adjustment. 
As an attempt to overcome some of these problems, the device shown U.S. 
Pat. No. 3,488,857 has been proposed to be used in place of the wheel to 
be aligned and to support the alignment guages. However, the device did 
not permit ready access to the strut assembly for adjustment purposes, and 
thus did not facilitate the alignment procedure to a sufficient extent. 
Moreover, the device is not suitable for the adjustment for all types of 
wheels, such as some modern wheels, not having eccentric adjustments. 
Additionally, the patented device is pivotally mounted on a pair of legs to 
help accomplish the camber adjustment, but while the legs enable the 
pivotal movement to occur, the legs do not provide a suitable stable 
support surface for one-fourth the weight of a four-wheel vehicle, 
especially during the precise alignment operation. 
Therefore, it would be highly desirable to have an apparatus and method for 
quickly and accurately aligning a strut-mounted front-wheel drive vehicle, 
without the need for such awkward and time consuming manipulations. In 
this regard, it would be very desirable to facilitate greatly the 
alignment process so that the alignment can be achieved in a fast and 
efficient manner, and yet the resulting alignment is highly accurate and 
precise. 
The apparatus should provide ready access to the strut assembly for 
adjustment purposes. It should be capable of assisting the alignment of 
even the modern strut assemblies. 
Such an apparatus should enable a camber adjustment to be made in a 
precise, stable manner, and yet the apparatus should readily and 
conveniently fit substantially all size vehicles. 
It is also highly desirable to have such an apparatus which is adjustable 
to fit various different sizes of wheels for vehicles. Moreover, such an 
apparatus should be relatively inexpensive to manufacture. 
DISCLOSURE OF INVENTION 
Therefore, the principal object of the present invention is to provide a 
new and improved method and apparatus for facilitating the alignment of 
vehicle wheels in a highly expeditious and accurate manner. 
Another object of the present invention is to provide such a new and 
improved wheel alignment apparatus, which is relatively inexpensive to 
manufacture and easy to use. 
Briefly, the above and further objects of the present invention are 
realized by providing a wheel aligning method and apparatus to enable a 
relatively easy and highly accurate technique to be performed in far less 
time as compared to previously known procedures. 
The wheel aligning method and apparatus relates to the replacing of the 
wheel to be aligned with the novel apparatus, which helps support the 
vehicle, and yet provides relatively easy access to the wheel strut 
assembly for alignment purposes. The apparatus includes a rigid member 
assembly adapted to be mounted on the strut assembly in place of the 
wheel, and a base assembly is pivotally connected to the rigid member 
assembly for resting on a supporting surface. The strut assembly is 
adjustable in height to enable the rigid member assembly and its base 
assembly to move adjustably relative to one another to adjust the overall 
height of the apparatus. 
In this manner, the strut assembly can be adjusted quickly and accurately, 
without the necessity of cutting the wheel outwardly, since access can be 
readily gained to the strut assembly for adjustment purposes due to the 
relatively smaller size of the apparatus of the present invention. In this 
regard, the person performing the adjustment can simply reach over the 
upper rigid member assembly, which is sufficiently small in size, to 
permit the person to perform the adjustment and read the gauge, without 
the necessity of turning the front wheels outwardly. Thus, there is no 
need for a trial and error adjustment operation, and the resulting 
alignment is straight-forward and accurate. 
The apparatus is also adjustable height-wise to accommodate vehicles with 
various sizes of wheels. The apparatus is composed of very few components, 
and thus is relatively inexpensive to manufacture. 
According to one form of the present invention, the apparatus includes a 
position adjustment mechanism to enable the user to even more easily align 
the front wheels. The apparatus is also able to support either a camber 
gauge or a toe gauge.

DETAILED DESCRIPTION 
Referring now to the drawings, and more particularly to FIGS. 1-4 thereof, 
there is shown a wheel aligning apparatus 10, constructed in accordance 
with the present invention. The apparatus is shown mounted on a 
front-wheel strut assembly 20 of a front-wheel drive vehicle 30, with 
bolts 32 in place of the vehicle's wheel (not shown). A camber adjustment 
device 34 is also attached to the strut assembly in the conventional 
manner. 
The apparatus 10 generally comprises an upper rigid member assembly 40 
having an access opening 41 that enables access to strut assembly 
adjustments subsequently described with reference to FIGS. 5-7. Vertical 
members 42 and 44 are attached to assembly 40 by suitable means such as 
welding. These vertical members are composed of a rigid material such as 
steel of sufficient strength to support the vehicle's weight supported by 
the strut assembly. Each vertical member includes a hole 45, that is 
aligned with the hole in base member 46, hole 47, through which pin 48 is 
inserted to pivotally mount base member 46 on vertical members 42 and 44. 
This arrangement enables apparatus 10 to support vehicle 30 on floating 
platform 50 which sets upon a support surface 60 (such as an alignment 
rack). Suitable means such, as roller bearings 51 in FIG. 3, enable 
floating platform movement on the support surface 60 during the alignment 
operation, both rectilinear movement in the directions indicated by arrow 
52 and rotationaly movement in the direction indicated by arrow 53 (FIG. 
1). This combines with pivoting of base 46 in the directions indicated by 
arrows 54 in FIG. 1 to facilitate the alingment operation. 
Further details of the assembly of base member 46 with vertical members 42 
and 44 is shown in FIG. 2. This allows base member 46 to pivot about pin 
48, and this feature in combination with floating platform 50 enables base 
member 46 to move slightly as the camber of strut assembly 20 is adjusted. 
The base member 46 is an elongated block, which is rectangular (square) in 
cross-section throughout its length. It may be either solid or hollow. 
Base member 46 pivots in the directions indicated by arrow 54 in FIG. 1 
while floating platform 50 moves in the direction indicated by arrow 52 or 
camber adjustment. Rotational floating platform movement facilitates toe 
alignment by enabling rotationaly movement of the upper rigid member 
assembly 40 during alignment. 
Referring now to FIG. 4, there is shown the height adjustment feature of 
the alignment apparatus. Hole 47 in the base member 46 is disposed in an 
off-center position in the base member. By pivoting the base member about 
pin 48 the base member can rest on a selected one of sides 46A, 46B, 46C, 
or 46D. And with hole 47 located at a different distance from each side, 
four different vertical positions can be selected, each one corresponding 
to one of the four sides while a four-sided member is preferred, it should 
be understood that many different multiple facted cross-sectional shapes 
may also be employed. For example, a six-sided configuration may also be 
used. 
Thus, the pivotally mounted base member 46 provides height adjustment, as 
well as allowing pivotal camber adjustment of strut assembly 20. The 
apparatus can be adjusted for a given vehicle by simply grasping the base 
number 46 and rotating it manually about the offset longitudinal axis of 
the pin 48, until the desired one of the sides thereof face downwardly to 
provide the apparatus 10 with the correct overall height to match the 
height of other wheels (not shown) of the vehicle to be aligned. Such 
height adjustment can be made very quickly. Each one of the four sides of 
the base member 46 serve to grip the platform 50 over a substantial 
surface area (the entire surface area of the face of each side of the 
member 46). To further facilitate this gripping feature, a resiliant 
cushion for padding (not shown) may be affixed to the outer surfaces of 
the four sides of the member 46. 
Thus, member 46 provides the required pivotal action for camber adjustments 
for stable frictional gripping of the platform 50, and height adjustment 
to enable apparatus 10 to fit vehicles having various different sizes of 
wheels, all of these features are accomplished by a single, low-cost 
member. Such member also facilitates greatly the firm support required for 
the apparatus 10 during the camber adjustment when the apparatus pivots 
about pin 48, and shifts laterally on the platform 50. Thus, precise and 
accurate alignments can be readily achieved by the apparatus 10. 
Further details of strut assembly 20 are shown in FIG. 5. Strut assembly 20 
is adjusted by loosening bolt 24 (FIG. 5) and adjusting eccentric 22 until 
the desired camber is achieved. Bolt 24 is then retightened with the 
camber adjustment completed and the need for iterative adjustment 
eliminated. 
Another and more modern type of strut assembly is illustrated in FIGS. 6 
and 7. Strut assembly 21 is adjusted by loosening bolts 22' and 23 and 
sliding the strut assembly to the correct camber position and then 
retightening the bolts. The illustrated wheel alignment apparatus 10' 
includes an adjustment mechanism for use with such a strut assembly, and 
is similar to the apparatus 10. The prime notation for the various 
components of apparatus 10' correspond to like components of apparatus 10. 
It comprises a frame member 70 mounted fixedly to the top of upper rigid 
member assembly 40'. Pivot rod 71 is pivotally mounted transversely on 
frame member 70 a cross-threaded opening 88 to receive threaded shaft 73 
which is rotatable with handle 74. A V-shaped bracket 75 attached to 
threaded rod 73 is fixed to strut assembly 21 by chain 76 wrapped about 
strut 21. With bolts 22' and 23 loosened, threaded rod 73 is rotated with 
handle 74 in the directions indicated by arrow 77 to move strut assembly 
21 in the directions indicated by arrow 78 as member 40' pivots on base 
member 46' about pin 48' to a desired position to adjust the camber by 
utilizing a camber gauge (not shown) attached to the apparatus 10'. The 
bolts are then retightened to complete the operation without iterative 
repitition. 
Thus, inventive apparatus enables quick and easy camber adjustment on 
various strut assemblies. It is composed of very few components so that it 
is relatively inexpensive to manufacture, and it is adjustable height-wise 
to accommodate vehicles with various sizes of wheels. Furthermore, there 
is no need for a trial and error adjustment operation, and the resulting 
alignment is straightforward and accurate. 
Similarly, the inventive apparatus is convenient for toe adjustment. The 
camber gauge is replaced with a conventional toe gauge as illustrated in 
FIG. 8, where apparatus 10A and apparatus 10B are shown mounted in place 
on front strut assemblies 20A and 20B in place of the vehicle's front 
wheels, with toe gauges 80A and 80B removably attached to each apparatus 
in the conventional manner. Apparatus 10A and 10B enable easy access to 
adjust the strut assemblies, while floating platform 50 enables rotational 
movement as the adjustments are made. Once alignment is completed, each 
apparatus is removed and replaced with the vehicle wheel. 
While a particular embodiment of the present invention has been disclosed, 
it is to be understood that various different modifications are possible 
and are contemplated within the true spirit and scope of the appended 
claims. For example, different types and kinds of materials may be 
employed for the apparatus of the present invention. Also, different 
dimensions and shapes may be utilized for the apparatus of the present 
invention. There is no intention, therefore, of limitations to the exact 
abstract or disclosure herein presented.