Mechanical guns and projectors – Projectile impelled by coacting wheels
Reexamination Certificate
2000-05-15
2002-09-03
Ricci, John A. (Department: 3712)
Mechanical guns and projectors
Projectile impelled by coacting wheels
Reexamination Certificate
active
06443140
ABSTRACT:
TECHNICAL FIELD
The present invention relates to throwing machines and, in particular, an accurate object throwing machine having multiple axes that are controlled by a computer system to throw an object from a predefined release point with a predefined initial velocity, a predefined initial trajectory, and two predefined components of rotational motion.
BACKGROUND OF THE INVENTION
Professional baseball, through attendance fees, broadcast rights, and various marketing activities, generates enormous annual revenues. However, because of the high salaries paid to professional baseball players and the high cost of stadiums and training facilities, baseball is a business of relatively close margins. In order to maintain and increase revenues from game attendance and from televised broadcasts, it is vital to maintain high levels of interest and excitement of baseball fans. Although low-scoring pitching duels may be the delight of baseball connoisseurs, fans are generally most interested and excited in games that feature relatively large numbers of base hits and home runs.
Successfully hitting a baseball pitched by a professional baseball pitcher is considered by many to be the single most difficult task undertaken by an athlete in professional sports. The speed of a pitched baseball, as it crosses home plate, may vary from between 60 and 70 mph to over 90 mph. The baseball may be released from any point within a relatively large area, depending on the height and stance of a pitcher and the type of pitch that is being thrown. A thrown baseball may exhibit any one of a large number of different, aerodynamically induced trajectories that depend on the orientation of the seams of the baseball with respect to the translational and rotational motions of the baseball, the initial velocity of the baseball, and the orientation of the rotational motion of the baseball with respect to the translational motion of the baseball. Because of the short travel time of a thrown baseball between the release point and home plate, on the order of between 4 and 5 tenths of a second, because of the relatively slow response times of a batter following the visual perception of the release and initial trajectory of a pitched baseball, and because of the large number of different, aerodynamically induced trajectories that a thrown baseball may follow, a batter has only milliseconds in which to either estimate the height and orientation with which a thrown baseball transverses a volume of space above home plate known as the strike zone and begin to swing the bat to meet the baseball or to conclude that the trajectory of the baseball will not intersect the strike zone and decline to swing the bat. Advances or delays of as little as 5 milliseconds in the timing of the initiation of the swing that would, if correctly timed, result in a home run, may result in a foul ball to the left-hand side of the field or a foul ball to the right-hand side of the field. Slight dislocations of the point of contact between the bat and the pitched baseball from the optimal point of contact can result in erratic pop-ups or foul balls.
Because fan enthusiasm depends, to a large extent, on the ability of batters to hit pitched baseballs, and because hitting pitched baseballs requires hand-eye coordination skills close to the limit of human ability, training of professional baseball players to consistently hit baseballs pitched by professional baseball pitchers is a vital and difficult component of a professional baseball training program. One effective approach to train batters to hit professional pitched baseballs would be to expose the batter to professional pitchers for many hours each day. However, the ability to pitch baseballs accurately, at high speeds, and with varying trajectories, is also a rare skill. In addition, pitching baseballs at the highest skill levels is an extremely physically demanding undertaking. Because of the high salaries paid to professional baseball pitchers, because of the relatively short duration in which a baseball pitcher can pitch baseballs at high skill levels without incurring an injury, and because of the relatively large number of pitches that need to be thrown to each batter in order to train that batter, it is impractical to use professional baseball pitchers to train batters.
As an alternative to using professional baseball pitchers, baseball teams may employ semi-professional or amateur pitchers for practice sessions. However, using semi-professional or amateur pitchers may also be expensive, and, most importantly, semi-professional and amateur pitchers cannot throw the baseball with the speeds, accuracies, and varying trajectories with which professional pitchers pitch the baseballs during games. For these reasons, baseball teams have employed a number of different pitching machines for repetitive batting practice.
Various types of pitching machines have been designed, manufactured and proposed. In one type of pitching machine, shown in
FIG. 1
, a baseball
102
is tethered by a line or cable
104
to a vertical rotating shaft
106
spun by an electric motor
108
. The ball travels in a circular path within a horizontal plane, each revolution representing a pitch. In general, such devices poorly simulate a thrown baseball because the circular trajectory of the ball does not resemble the trajectory of a pitched baseball.
A large variety of different devices for projecting a baseball have been employed. Such devices may be placed at roughly the same distance from a practicing batter as the distance between a batter and the normal release point of a baseball pitcher. A number of different propulsion mechanisms have been used in these projecting devices, including pneumatic propulsion, electromagnetic acceleration, and spring driven lever arms. Although far better than the pitching machine displayed in
FIG. 1
, these various types of projecting pitching machines have also proved inadequate. In general, they are not able to faithfully replicate the motion of a baseball as thrown by a baseball pitcher. Furthermore, these devices are generally quite inaccurate, as well as unsafe due to the risk of injury to the batter. While a professional baseball pitcher can routinely pitch a baseball through the front face of the strike zone, a cube less than two feet on a side, the pitching machines pitch with much greater variation. As a result, a batter practicing against such machines naturally tends to adopt a more careful and hesitant attitude than the batter would adopt against a human pitcher. More problematic, these pitching machines generally pitch baseballs at slower speeds than a professional baseball pitcher, and generally do not pitch real baseballs. Pitching of real baseballs is problematic because the currently-available machines have no way of orienting the seams of the baseball and, without such orientation, the trajectory of the baseball becomes quite erratic because of aerodynamic affects,.
A far more successful type of pitching machine, produced by a number of pitching machine manufacturers, including The Jugs™ Company, employs two counter-rotating rubber-tired wheels to propel a baseball towards a batter as well as to impart a rotational spin on the baseball.
FIG. 2
illustrates a Jugs-type pitching machine. A human operator
202
places a baseball
204
into a mechanical feeder (not shown) through which the baseball rolls into a narrow space between the two counter-rotating rubber pneumatic tire and wheel assemblies that include wheels
206
and
208
. The counter-rotating wheels
206
and
208
are independently driven by electric motors
210
and
212
. The counter-rotating wheels rotate at speeds up to 3,000 rpm. The ball is briefly pinched between the wheels and then expelled at speeds that can approach 90 mph. By adjusting the rate of spin of one wheel with respect to the other, so that the two counter-rotating wheels rotate at slightly different speeds, a ball can be expelled from the device with a rotation, either forward or backward, in the plane in which the two counter-rotat
Crews Doug A.
Richings Richard J.
Bergstrom Robert W.
Chin Music LLC
Ricci John A.
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