 |
Description  |
|
|
TECHNICAL FIELD
The present invention relates generally to the sport of golf, and more
particularly relates to an apparatus and method that enables a golfer to
select the preferred golf club for playing a particular shot according to
his or her own ability.
BACKGROUND
Golf has long been recognized as a most demanding sport due to the many
factors that must be considered by a golfer. When playing any one
particular shot, a golfer must make the two following determinations: (1)
the distance over which the shot is to be played; and (2) which club is
preferred by that golfer for playing a shot of that distance. It is widely
known that different golf clubs are provided for hitting a golf ball
different distances, yet those skilled in golf will appreciate that
different golfers may hit the same club for different distances. Thus,
this second determination set out above is an individual one, depending on
the ability of the particular golfer playing the shot.
Many devices are known in the prior art for informing a golfer of the
distance over which a particular shot is to be played. For example, it is
conventional to provide a marker on a golf hole at a distance of one
hundred and fifty (150) yards from the green. It is well known that
professional golfers "chart" or make notes about a golf course so that
they will know distances from various landmarks to the greens or other
target areas. Furthermore, devices have been provided as shown in U.S.
Pat. Nos. 3,820,786; 3,937,466; and 3,949,987; wherein scaled maps are
provided with various indicia that assist the golfer in approximating the
distance from his or her present position to the green or other target
area.
However, such prior art devices are of little or no assistance in making
the second determination, namely--selecting the preferred club. For
example, assume two golfers are faced with an identical shot of 150 yards.
The first golfer, perhaps more accomplished than the second, might ideally
select a 7-iron. The second golfer might ideally select a 5-iron. Thus,
simply being made aware of the distance over which the shot is to be
played is only of minimal value. The golfer must also be aware of his or
her own ability to play each club in order to make the second
determination.
Additionally, those skilled in golf will appreciate that each golfer may
have his or her own consistent ball flight pattern. For example, certain
golfers may regularly pull or "hook" the ball, whereas other golfers may
regularly push or "slice" the ball. Thus, the second determination
includes not only a knowledge of one's ability to hit a golf ball a
certain distance with a particular club, it further includes a knowledge
of one's usual ball flight pattern.
Traditionally, the skill of selecting the preferred club according to one's
own ability was acquired only through experience. The prior art has
heretofore lacked a device and a method for informing a golfer of the
distance over which a shot is to be played, and for assisting the golfer
in selecting the preferred club to be used to play a shot of that distance
according to that golfer's individual ability.
SUMMARY OF THE INVENTION
The present invention solves the above-described problems in the prior art
by providing a golfer's aid that not only informs the golfer of the
distance over which a particular shot is to be played, but further
provides that golfer with an apparatus and method for selecting the
preferred club to be played by that golfer for a shot of that distance.
The present invention, therefore, unlike the devices of the prior art,
considers the ability of an individual golfer to play each golf club.
Generally described, the apparatus of the present invention comprises a
scaled map of the particular hole to be played, a shooting pattern for the
individual golfer corresponding to that golfer's ability to play each golf
club, and means for comparing said shot chart to said scaled map whereby
the golfer is informed of the distance over which a particular shot is to
be played and provided with information for determining which club is
preferred by that golfer for playing a shot of that distance.
Generally described, the method of the present invention comprises
developing a shooting pattern for an individual golfer corresponding to
that golfer's ability to play a discrete number of golf clubs, and
comparing the shooting pattern to a scaled map of a golf hole so as to
provide the individual golfer with the distance from his present position
to the target area, and to provide a showing of which club is preferred by
that golfer for playing a shot of that distance.
Thus, it is an object of the present invention to provide an improved
golfer's aid apparatus.
It is a further object of the present invention to provide a golfer's aid
that informs a golfer of the distance from his present playing position to
a green or other target area.
It is a further object of the present invention to provide a golfer's aid
that corresponds to an individual golfer's ability.
It is a further object of the present invention to provide a golfer's aid
that informs a golfer of which golf club is preferred for playing a golf
shot of a known distance, according to the ability of that individual
golfer.
It is a further object of the present invention to provide a method for
developing a shooting pattern for a golfer corresponding to the ability of
that golfer to play a discrete number of golf clubs.
It is a further object of the present invention to provide a method for
selecting the preferred golf club for a golfer playing a particular shot
according to the abilities of that golfer.
Other objects, features, and advantages of the present invention will
become apparent from a reading of the following specification when taken
in conjunction with the following drawing.
BRIEF DESCRIPTION OF THE DRAWING
FIG. 1 is a plan view showing a shooting pattern developed according to the
present invention disposed on a transparent sheet, and further showing the
transparent sheet placed on a scaled, map diagram of a particular golf
hole.
FIG. 2 is a plan view of the scaled, map diagram shown in FIG. 1.
FIG. 3 is a plan view of the transparent sheet shown in FIG. 1.
FIG. 4 is a plan view of a driving range plot diagram according to the
present invention.
FIG. 5 is a plan view of a shot chart according to the present invention.
DETAILED DESCRIPTION
Referring now in more detail to the drawing, in which like numerals
indicate like parts throughout the several views, FIG. 1 shows a golfer's
aid apparatus 10 according to the present invention. The preferred
embodiment of the golfer's aid 10 provides an opaque sheet member 11, and
a transparent sheet member 12. As described in detail hereinbelow, these
two sheet members 11 and 12 provide a novel combination that facilitate
the apparatus and method of the present invention.
As shown in FIG. 2, the opaque sheet member 11 provides a diagram 14 of a
golf hole. It is to be understood that the golf hole diagram 14
constitutes a two-dimensional representation of an actual hole on a golf
course. The hole diagram 14 provides hole recognition indicia, indicated
generally at 15. As shown in the drawing, the hole recognition indicia
consists of the name of the golf course, "CITY CLUB", and the number of
the golf hole, "4". Of course, the recognition indicia 15 may be varied
depending on the golf course and the golf hole diagrammed. The hole
diagram 14 also provides hole specification indicia, indicated generally
at 16. The hole specification indicia 16 provides the distance of that
hole, and the number of strokes permitted in order to make par for that
hole. As shown in FIG. 2, the length of the hole is 390 yards when played
from a first tee area 18, and 370 yards when played from a second tee area
18'. Those skilled in the sport of golf will appreciate that the tee is
traditionally that location from which the golfer plays his initial shot
on the hole, and that the provision of two tees 18 and 18' is well known.
Conventionally, the first tee area 18 is referred to as the "blue tee" or
the "men's tee", and the second tee area 18' is referred to as the "red
tee" or the "ladies tee". Further to the hole specification indicia 16, it
is seen that par for the present hole is "4". Thus, in keeping with the
conventions of the sport, the golfer must play this hole in four (4) shots
to make par.
The hole diagram 14 shown in FIG. 2 further provides a fairway region 20
and a green 22. The fairway region 20 traditionally provides a mowed
grassy surface, and therefore, represents the area from which the golfer
prefers to play. The green 22 includes the hole containing the usual flag
pin and constitutes the putting surface. Surrounding the fairway 20 and
the green 22 are a number of hazard areas. Generally speaking, a hazard
area comprises an area from which it is difficult to play a golf shot. One
such hazard area, denoted as 24 on the drawing, is provided at the outer
edge of the fairway 20. This hazard area 24 is commonly referred to as the
"rough", and comprises a region of high or perhaps uncut grass. A second
hazard area shown on the hole diagram 14 is a lake 26. Of course, should a
golfer hit his or her ball into the lake 26, the ball is unplayable and
the shot is replayed with a conventional stroke penalty.
Another hazard shown on the diagram 14 is a plurality of sand traps 28, 29,
30, 31 and 32. Each sand trap 28--32 conventionally consists of a
sand-filled region from which it is difficult to play a shot. Yet another
hazard shown on the diagram 14 is a plurality of trees 34. Of course, the
trees 34 obstruct the flight of a golfer's shot. Thus, it is seen that
while the hole diagram 14 shows only one hole, it may be adapted to any
golf hole. Furthermore, FIG. 2 fully demonstrates how any such golf hole,
including hazards, may be two-dimensionally represented by such a hole
diagram 14.
Further to FIG. 2, the hole diagram 14 is preferably plotted on a cartesian
coordinate system. The cartesian coordinate system is defined by a
plurality of horizontal lines 40 and a plurality of vertical lines 41.
Preferably, the coordinate system defines units indiciating ten (10) yards
of distance between each line 40 or 41. Furthermore, certain lines
indicating certain distances may be darkened and labeled. For example,
horizontal line 44 is labeled "300", corresponding to a distance of three
hundred (300) yards from the back edge of the hole. For the reasons set
forth below, the cartesian coordinate system of the hole diagram 14 must
be provided according to a scale identical to that of the other components
of the invention. Thus, the cartesian coordinate system of the hole
diagram 14 must accurately represent the actual distances between
landmarks on the actual hole.
The preferred transparent overlay sheet 12 for an individual golfer is
shown in FIG. 3. The overlay sheet 12 provides a shooting pattern diagram
50 for that golfer, and a yardage indicator 72. As described in detail
below, the shooting pattern diagram 50 is a visual summary of that
golfer's ability to play each club in terms of average distance and
average range of dispersion. The shooting pattern diagram 50 is produced
from a shot chart 55, shown in FIG. 5 and described below. The shot chart
55 is, in turn, produced from a driving range plot diagram 58, shown in
FIG. 4.
The preferred driving range plot diagram 58 provides a cartesian coordinate
system defined by a plurality of horizontal lines 40 and a plurality of
vertical lines 41, and includes a (0,0) point 60. The (0,0) point 60 is
referred to as the present position point. The coordinate system is
further comprised of ten (10) yard delineations in the X direction
(indicated generally as 61), and ten yard delineations in the Y direction
(indicated generally as 62). As described below, the X direction
delineations constitute dispersion indicia, and the Y direction
delineations constitute distance indicia. Of course, smaller or larger
delineations could be provided depending on the accuracy desired.
It is to be understood that the plot diagram 58 coordinate system
corresponds to a grid pattern that is provided on an otherwise
conventional golf ball driving range. This grid pattern may comprise a
tarp that is placed over the ground surface, or may be made by marking a
cartesian coordinate system (X direction and Y direction delineations 61
and 62, respectively) directly on the ground surface. These markings may
be chalked, painted, or may utilize any other conventional turf marking.
Once this grid pattern is in place on the surface of the driving range,
the golfer to be charted selects a club and is provided with a certain
number of golf balls. The golfer hits all of these golf balls with the
club selected, from a point on the driving range corresponding to the
present position point 60 on the plot diagram 58. The final position for
each ball is marked on the plot digram 58. The number of golf balls hit by
a golfer may vary. However, the golfer must hit a statistically meaningful
number of golf balls. A statistically meaningful number is obtained when a
desired level of consistency in the final positions of the golf balls is
obtained by the golfer. Mathematical techniques for determining the number
of balls necessary to provide a selected degree of statistical confidence
are known to those skilled in the art.
This operation is repeated for each club. Conventionally, the clubs to be
hit include, a sandwedge, a pitching wedge, a 9-iron, an 8-iron, a 7-iron,
a 6-iron, a 5-iron, a 4-iron, a 3-iron, a 2-iron, a 4-wood, a 3-wood, a
2-wood and a 1-wood or driver. Of course, other clubs may also be hit, or
some of those set forth above may be omitted. The plot diagram 58 shown in
FIG. 4 demonstrates the above-described operation for two different clubs;
a pitching wedge and a 3-iron. The final position or result of those balls
hit with the pitching-wedge is indicated as 63. The final position or
result of those balls hit with the 3-iron is indicated as 64. It is to be
noted that the final position 64 of those balls hit with the 3-iron fell
somewhat to the left of final positions 63 of those balls hit with the
pitching-wedge.
Thus, it is seen that the driving range plot diagram 58 is a collection of
raw data concerning the ability of the golfer to play those clubs selected
for charting. From this collection of raw data, a shot chart 55 is
prepared. The preferred shot chart 55 is shown in FIG. 5. The shot chart
55 provides a modified cartesian coordinate system with dispersion indicia
71 corresponding to the X direction delineations 61 of the plot diagram
58, and distance indicia 72 corresponding to the Y direction delineations
of the plot diagram 58. The dispersion indicia 71 are provided by
numerical values at the top and bottom of the shot chart, and further
provided by dots 71' at discrete intervals throughout the shot chart 55.
These intervals are set forth in delineations of 50 yards by the distance
indicia 72 on the right hand side of the shot chart 55.
To generate the shot chart 55 shown in FIG. 5, a statistical analysis is
performed on the raw data contained in the driving range plot diagram 58.
Generally stated, this analysis consists of eliminating or disposing of
those results that represent error. Described somewhat more particularly,
this analysis consists of eliminating or disposing of those results that
differ so significantly from the mean of the other or remaining results
that they do not provide a true indicator of how the individual golfer
usually plays that particular club. Thus, the shot chart 55 represents a
compilation of relevant statistical data. Continuing with the example of
the pitching-wedge and 3-iron, the plot diagram 58 shows these results at
63 and 64, respectively. However, for the pitching-wedge, two results,
indicated as 63', are removed from the general area of the other results.
Excluding those results 63', this golfer usually hits his pitching-wedge a
distance of 65 to 85 yards (as shown by the remaining results). The
results indicated as 63' have been deemed to be error, and thus
eliminated. Similarly, those results indicated at 64' were eliminated in
consideration of the 3-iron results.
Once this statistical analysis is performed for each club, a range of
distance and dispersion may be calculated. For example, the range of the
pitching-wedge results 63 shown in the plot diagram 58 show a distance of
from 65 yards to 85 yards, and a dispersion of from +7 to -12 yards. The
area defined by these values is then traced onto the shot chart 55. For
example, the area wherein this golfer will usually play his pitching-wedge
is indicated generally at 75, and the area where he will usually play his
3-iron is indicated generally at 76. The above-described operation is
performed for each club to provide the shot chart 55 as in FIG. 5. A club
indicia 78 is provided to inform as to which club was played to obtain
that group of results.
The shot chart 55 therefore represents a compilation of statistically
relevant results obtained by a particular golfer according to his or her
own ability. The preferred shot chart 55 provides a plurality of defined
areas corresponding to these statistically relevant results. Continuing
with the example of the pitching-wedge and 3-iron, a block 73 and a block
74 is provided that includes or encircles all of the statistically
relevant balls hit with the pitching wedge and the 3-iron, respectively.
The other blocks on the shot chart 55 correspond to similar results
obtained for different clubs, each club being indicated on the drawing. In
keeping with the example, it is to be noted that this golfer appears to
pull his shots more to the left as the distance increase; in other words,
as the longer hitting clubs are played.
Once the shot chart 55 is completed, this information is transferred to the
transparent overlay sheet 12 to form the shooting pattern 50. The
preferred transparent overlay 12 is shown in FIG. 3. The overlay 12 is
made of a sheet of transparent material, and provides the shooting pattern
50 and the yardage indicator 72 spoken of above. The shooting pattern 50
represents a compilation of the information provided by the shot chart 55,
and is mapped onto a modified cartesian coordinate system identical in
scale to that provided by the shot chart 55. Thus, the shooting pattern 50
is set out on a modified cartesian coordinate system having dispersion
indicia 71 and distance indicia 72. Dotted indicia 71' is also provided,
and as with the shot chart 55, corresponds to the distance indicia 72 of
the yardage indicator 52 on the right hand side of the overlay sheet 12.
However, it is to be noted that the dotted indicia 71' that indicate
distance on the overlay sheet 12 is provided in delineations of ten (10)
yards as opposed to the delineations of fifty (50) yards on the shot
chart. Further to the modified cartesian coordinate system shown on the
overlay sheet 12, a (0,0) point 89 is provided with a triangular indicium
90 to further delineate the (0,0) point 89. This point 89 corresponds to
the present position point 60 provided by the driving range plot diagram
58.
To generate the shooting pattern 50, those lines on the shot chart 55
corresponding to the range dispersion are joined to provide the two range
dispersion lines 81 and 82 (as shown in FIG. 3). Similarly, those lines on
the shot chart 55 corresponding to the distance for each club are united
to form the distance lines 83 (as shown in FIG. 3). The indicia 78 shown
on the shot chart 55 corresponding to the club played to obtain these
results is simply transferred therefrom to the shooting pattern 50.
Additionally, the yardage indicator indicium 72 is provided with two
vertical lines 85 and 86 to produce a yardage indicator as shown in FIG.
3. It is to be noted that the shooting pattern 50 shown in FIG. 3 reflects
the golfer's tendency to pull his shots to the left when playing the
longer hitting clubs.
In use of the present invention, a golfer first produces his or her own
plot diagram 58 according to the description above. The statistically
relevant results of that plot diagram 58 are selected to provide a shot
chart 55 for that golfer. The shot chart 55 is then utilized to provide a
shooting pattern 50 on a transparent overlay 12. The shooting pattern 50
is set out on a modified cartesian coordinate system that corresponds to a
yardage indicator 72 as shown in FIG. 3. Additionally, a hole diagram 14
is prepared as shown in FIG. 2; the hole diagram 14 being plotted on a
scale identical to that of the shooting pattern 50 and yardage indicator
52 provided on the overlay sheet 12.
To begin play of the hole, the golfer places the transparent overlay 12 on
the opaque sheet member 11 so that the (0,0) point 89 rests upon the tee
18 or 18' from which the golfer is to hit his first shot. As shown by FIG.
1, the golfer can readily see where his or her tee shot will most likely
land on the hole by viewing the opaque sheet member 11 through the
transparent overlay sheet 12. Thus, if the golfer uses a driver, his shot
will most likely land in that area denoted "D" by the indicia 78.
Similarly, if the golfer uses a 7-iron, his shot will most likely land in
that area denoted "7" by the indicia 78.
To further demonstrate the preferred embodiment of the present invention,
assume a golfer must play a shot from a point on FIG. 1 denoted as 100. As
can be seen from the hole diagram 14, to hit his next shot towards the
green 22, the golfer must hit over the lake 26. To select the proper club
to play this shot, the golfer places the overlay sheet 12 on the hole
diagram 14 with the present position point 89 directly over that point 100
corresponding to the position of his ball on the fairway. The golfer then
positions the shooting pattern 50 provided on the overlay sheet towards
the green 22 (as shown in FIG. 1). When the overlay sheet is properly
positioned, the golfer can readily see that he must hit the ball a minimum
of 100 yards to clear the lake 26. Furthermore, the overlay sheet 12 shows
that if he selected and played either a sandwedge, pitching wedge or
9-iron, his ball would land in the lake 26. Furthermore, if he selected
and played either a 3-iron, a 2-iron, or a 4-wood, the likelihood of his
hitting into the sand trap 28 in front of the green 22 is high. Thus, the
preferred club to be selected by this golfer for this shot is a 3-wood.
(Those skilled in the art will appreciate that while a driver may also be
selected, it would not be a preferred club with which to play a fairway
shot.)
Thus, it is seen that the present invention provides three separate indicia
that informs a golfer of the distance over which a shot is to be played.
First, the hole specification indicia 16 informs the golfer of the
distance from tee 18 or 18' to green 22. Second, the hole diagram 14
includes a scaled coordinate system from which a golfer may deduce the
distance from a particular position to the green 22, a hazard, a landmark
or some other target area. Third, the overlay sheet 12 provides a yardage
indicator 72 that may be placed on the hole diagram 14 to determine a
distance.
Furthermore, it is seen that unlike any prior art device, the present
invention provides an apparatus and method for determining the preferred
club to be selected for playing a particular shot by an individual golfer
according to his or her own ability. The apparatus of the present
invention provides a shooting pattern 50 on the transparent overlay sheet
12 that corresponds to the ability of that golfer to play each club in
terms of average distance and range of dispersion. According to the method
of the present invention, the golfer places the shooting pattern 50 onto
the hole diagram 14 at the present position of his or her golf ball 60,
and determines the preferred club to be played according to the indicia 78
provided by the shooting pattern 50.
It should be understood that the foregoing relates only to a preferred
embodiment of the present invention, and that numerous modifications or
alterations may be made therein without departing from the spirit and
scope of the invention as set forth in the appended claims.
* * * * *
|
|
 |
|
 |
Description |
|
