A self aligning sole for use in shoes, especially sports shoes of welted construction. The outer sole has a shaped raised portion. The mid-sole has a cutout with a shape complementary to the raised portion shape. During assembly of the shoe, the outer sole raised portion registers with the mid-sole cutout, thereby aligning the outer sole with the mid-sole.

BACKGROUND OF THE INVENTION 
The present invention relates to shoes, and more particularly to sports 
shoes having outer soles with sockets for spikes or cleats. 
Modern footwear is typically comprised of a shoe upper which is attached to 
some or all of an inner sole, a mid-sole and an outer sole. 
The details of the attachment of these components are well known in the art 
and can include cementing and/or stitching. Particularly with so-called 
"welt" construction, great care is required in the alignment of the 
components to produce a functional and aesthetically pleasing shoe. To 
lessen the care required, raw outer soles are typically oversized compared 
to the mid-sole so that some eccentricity or offset between the outer sole 
and the mid-sole is permissible during the manufacturing step of attaching 
the outer sole to the mid-sole. The use of an oversized outer sole, while 
lessening the care required to align the outer sole to the mid-sole, 
results in the addition of an extra step in the manufacturing process to 
trim the excess material after attachment of the outer sole. In addition, 
even with the use of an oversized outer sole, only a small amount of 
eccentricity can be accommodated. 
For many years, the highest quality golf shoes have been made utilizing 
welt construction techniques. Such shoes employed nail-type spikes which 
were threaded into sockets carried by a plate mounted on the hidden side 
of the outer sole. The rigidity of such a plate adversely affected the 
flexibility of the sole. Furthermore, to avoid the feeling of a "lump" in 
the sole due to the plate, the upper surface of the outer sole was either 
very thick so that the plate could be mounted in a cavity formed therein, 
or else the upper surface of the outer sole was covered with filler 
material to raise the level to that of the plate. 
Recently, a growing trend has developed away from the use of metal spikes, 
toward the use of disc-like, softer spikes which do less damage to the 
putting greens. Such spikes often utilize the same threaded mounting as 
did traditional metal spikes, and can be directly substituted in the 
threaded sockets supported on a common plate carried by the outer sole. 
New forms of sockets have been developed to accommodate further 
developments in such softer spikes, thereby eliminating the need for a 
metal plate, but nevertheless failing to overcome two long-standing 
deficiencies. 
First, the support structure for the sockets, whether in the form of a 
molded web or molded individual housings, presents a thickness of 
relatively rigid structure which is thicker than the ideal nominal 
thickness of the outer sole. This differential will, if not accommodated, 
induce discomfort in the user, and if accommodated in the traditional 
manner, requires the extra cost associated with increasing the thickness 
of the sole, or using filler material to bring the upper surface of the 
sole even with the plate or housing projection. Secondly, despite 
improvements in the efficiency of manufacturing techniques, a laborer, 
rather than automated equipment, is typically required to accurately 
locate the outer sole onto the mid-sole, so that the outer sole can be 
attached thereto by sewing and/or adhesive. This locating step is not as 
easy as might appear at first glance, because the outer sole and mid-sole 
are slightly oversized during construction and there is no structural or 
visual cue as to correct alignment. The laborer must, in essence, position 
the outer sole against the inner sole until an essentially uniform overlap 
at the edges is evident, and maintain this overlap as the shoe is placed 
into a sewing machine (for stitching) or a heat press (for curing 
adhesive). To assist a laborer in this regard, for each size of shoe, a 
particular size mid-sole and a particular size outer sole are required. 
SUMMARY OF THE INVENTION 
It is an object of the invention to provide components and methods whereby 
a unitary outer sole registers with and is aligned to a mid-sole during 
construction. 
It is a further object of the invention to improve the flexibility and 
comfort of sports shoes having spikes, cleats, or the like projecting from 
the outer sole. 
The present invention more quickly and accurately aligns the outer sole 
with the mid-sole during the construction of a shoe by the use of a 
unitary mid-sole containing a shaped cutout and a unitary outer sole 
containing a shaped raised portion. Although the novelty of the present 
invention resides in the construction and interaction of the mid-sole and 
the outer sole, whereby the shoe upper and the inner sole may be of any 
material, design or construction known in the art, the invention has 
particular advantage in sports shoes having welt construction. 
According to the invention the mid-sole contains a shaped cutout with the 
edges of the cutout defining a mid-sole cutout perimeter. The mid-sole is 
attached to the inner sole, preferably via a welt. The outer sole top 
surface is substantially flat with a raised portion. The outer sole raised 
portion has a perimeter shape which registers with the mid-sole cutout 
perimeter shape, thereby quickly aligning the outer sole to the mid-sole. 
The outer sole is attached to the mid-sole after registry and alignment. 
The method of attaching the mid-sole to the inner sole and the outer sole 
to the mid-sole is not critical to the invention and may follow any 
conventional practice. For golf shoes, this attachment can be with 
adhesive only. 
During manufacture of the shoe an operator can quickly select an outer sole 
containing a raised portion with a raised portion perimeter shape and 
slide the raised portion along the mid-sole until the raised portion 
perimeter shape registers with the mid-sole cutout. Little care is needed 
to establish registry and consequently accurate alignment of the outer 
sole to mid-sole. 
As can readily be seen, the innovative use of an outer sole raised portion 
having a raised portion perimeter shape which registers within a mid-sole 
cutout having a mid-sole cutout perimeter shape allows a number of 
benefits both in the design and the manufacture of the shoe. During 
manufacture, the registry allows the shoe to be more easily and quickly 
assembled. The registry also allows more accurate positioning of the outer 
sole with respect to the mid-sole and remainder of the shoe during 
assembly. This accuracy of positioning allows the outer sole to be made 
smaller than would be possible with conventional shoe components and 
manufacturing methods while still resulting in a functionally and 
aesthetically acceptable shoe. The mid-sole cutout and and registering 
outer sole raised portion allow a preferred flex and feel of the shoe to 
be obtained. The raised portion may also be comprised of a material which 
will provide cushioning for the wearer's foot. It should be noted that the 
novel registry of the outer sole raised portion to the mid-sole cutout and 
the attendant benefits may be achieved while utilizing predominantly 
conventional and accepted shoe components and construction techniques.

DESCRIPTION OF THE PREFERRED EMBODIMENTS 
In the following description of the present invention, like reference 
numerals represent identical or corresponding parts throughout the 
different views. 
Although the present invention has application to a wide variety of 
footwear, it is well suited to a welt-construction sport shoe and 
particularly suited to a golf shoe. FIGS. 1 and 5 show different views of 
the main components of a shoe incorporating the present invention. The 
shoe upper 10 and the shoe inner sole 30 are well known in the art and may 
be comprised of any material suitable for the activity to which the shoe 
is intended. 
Similarly, the invention allows the unitary mid-sole 50 (i.e., having the 
overall shape of a footprint) to be comprised of any material suitable for 
the activity for which the shoe is intended. The mid-sole has at least one 
cutout 52, with the perimeter 54 of the cutout defining a perimeter shape. 
A preferred embodiment of the invention shown in FIG. 2, places the 
mid-sole cutout 52 in the forefoot region forward of the arch area. When 
the mid-sole 50 is attached to the inner sole 30, the cutout perimeter 54 
and the bottom surface of the inner sole define a cavity 56, shown in FIG. 
5. 
The invention further allows the unitary outer sole 70 to be designed for 
any intended function and manufactured of any materials suitable for that 
function. As seen in FIGS. 1 and 3, the outer sole has a substantially 
flat top surface 72 with a raised portion 74 projecting upward from this 
substantially flat top surface. The outer sole raised portion 74 has a 
perimeter defining a perimeter shape 76 which fits within the cavity 56 
formed by the mid-sole cutout 52 and the inner sole bottom surface and 
registers with the mid-sole cutout perimeter shape. FIG. 2 shows the 
registry of the outer sole raised portion 74 with the mid-sole cutout 52. 
Preferably, a clearance of only about 1-2 mm is achieved. During assembly 
of the shoe, this registry of the raised portion perimeter shape 76 with 
the mid-sole cutout perimeter shape allows the outer sole 70 to be quickly 
and accurately aligned with the mid-sole 50. 
FIG. 5 shows the invention used in the so-called welt construction of 
shoes. In this construction a welt strip 20, typically of leather, is 
simultaneously sewn to the perimeter of the shoe upper 10 and the inner 
sole 30, thereby joining these as a unitary sub-assembly 40. It is also 
common to use a filler material 90, such as cork, which will be considered 
part of the bottom surface as needed to produce a uniform surface at, for 
example, the bottom of the inner sole 30 in the sub-assembly 40. The 
mid-sole 50 is then typically sewn to the welt of the first sub-assembly 
40 to produce a second sub-assembly 60. It is this second sub-assembly 60 
which the laborer holds in one hand while locating the outer sole 70 
thereon, and continues holding these in alignment for subsequent sewing or 
adhesive bonding. It can be readily appreciated that in the sub-assembly 
60, the mid-sole cutout 52 and abutting bottom surface of inner sole 30, 
form a cavity 56 having a shaped perimeter in which the corresponding or 
mating shaped perimeter of the raised portion 74, provides positive 
locating of the outer sole relative to the mid-sole. Because of this 
positive locating, there is no need to utilize the perimeter of the entire 
mid-sole and the perimeter of the entire outer sole as alignment aids. As 
a result, a manufacturer can utilize the same size of mid-sole for shoes 
which are up to one-half size smaller or larger than that mid-sole size, 
thereby saving on the costs of materials and inventory tracking. 
A wide variety of shapes and sizes of the mid-sole cutout 52 and outer sole 
raised portion 74 would allow the novel registration and alignment of the 
outer sole 70 to the mid-sole 50. It is also possible for the mid-sole 50 
to contain multiple cutouts (not shown) so that a cavity is created 
between each of these cutouts and the inner sole bottom surface. The outer 
sole top surface would have raised portions corresponding in number and 
shape to the mid-sole cutouts so that the outer sole would register with, 
and be aligned to, the mid-sole. 
The outer sole raised portion 74 is also capable of variation while still 
retaining the novel registry and alignment features of this invention. 
FIG. 1 shows one variation where the outer sole raised portion 74 is 
molded integrally with the outer sole 70. The outer sole raised portion 74 
may also be comprised of a material with different physical 
characteristics than the outer sole material, such as a cushion material, 
which is attached to the outer sole top surface 72. 
In another embodiment of the invention, shown in FIGS. 3 and 4, the outer 
sole includes a plurality of distinct housings 80 for receiving a 
respective plurality of spikes or spike sockets 82. The housings 80 may be 
integrally formed with the outer sole 70 or separately attached. In one 
preferred embodiment of the invention for a golf shoe, the plurality of 
integral housings 80 extend upward from the outer sole top surface. The 
top surface of the outer sole raised portion is defined by the top 
surfaces of the housings. An imaginary line encircling the plurality of 
housings defines the outer sole raised portion perimeter shape 76. The 
interior volume of the outer sole raised portion perimeter shape 74 is 
occupied only by the housings 80. In a variation of this embodiment, the 
volume of the outer sole raised portion is substantially occupied by the 
housings 80 and a filler material 78. The filler may be comprised of any 
material. In one embodiment, the filler is comprised of a cushion 
material, such as plastic foam or EVA. 
While various embodiments of the foregoing invention have been set forth 
for purposes of illustration, the foregoing description should not be 
deemed a limitation of the invention herein. Accordingly, various 
modifications, adaptations and alternatives may occur to one skilled in 
the art without departing from the spirit and the scope of the present 
invention.