Portable basketball retrieval and return device

FIELD OF THE INVENTION

The present invention relates to devices for collecting and returning shot or thrown balls to individuals dispersed about the device, and, more particularly, relates to a collection and automatic return device for returning a succession of shot basketballs to practicing players dispersed about a playing surface in stationary locations or moving thereon to different locations and in the process receiving the ejected basketballs and then shooting them at a pole or wall-supported backboard and rim positioned above the device.

In sports or athletic activities which require a player or players to throw a ball, such as a baseball or basketball, at a target or which requires the player or players to hit, strike or receive a thrown or pitched ball, it is extremely advantageous for the players involved to have the means to practice such motions and movements in a constant, repetitive manner to thereby improve and sharpen their skills. When a number of players are available for a particular practice session, one or several players can shoot the basketball at the rim attached to a basketball backboard which itself is either pole-supported or wall-supported, while the remaining players cover the court in order to chase down, retrieve, and then subsequently return the errantly shot basketballs to the practicing player or players. The practicing player or players will certainly not maximize their practice time when they are limited to manually chasing down and retrieving errantly shot basketballs, and more time may be spent chasing down basketballs that have unpredictably ricocheted off the rim, backboard, and the wall (if the backboard is wall-supported) than will have actually been spent in practice shooting. Moreover, should the practicing players wish to incorporate sophisticated movements, set plays, and half-court or full court tactics, which would require the practicing players to weave, sprint, dribble, pass, and shoot while continuously moving about the playing surface constantly receiving shot basketballs that have either passed through the rim or that have rebounded and must be chased down and collected, it is simply inadequate and impractical to have a single player stand directly beneath the rim and feed basketballs to various locations about the playing surface as the basketballs fall through the rim. Therefore, in view of the fact that the skills of basketball players are improved by continuous and repetitive practice, and the elimination of dead time involved in chasing, retrieving, collecting, and delivering the basketballs to practicing players obviously increases the amount of valuable practice time available for the players, the sports, games, and amusements fields have developed numerous systems and devices to continuously collect and deliver balls of all sorts, including basketballs, to practicing players whereupon the players can repetitively throw or shoot the balls at some type of target, such as the rim of a basketball backboard. Thus, both the intensity of the practice session and the amount of real practice time are increased for the mutual benefit of each player as well as the team.

DESCRIPTION OF THE PRIOR ART

The prior art discloses a number of devices which return a succession of balls to a player or players stationed within the throwing range of the respective device.

U.S. Pat. No. 5,393,049 (Nelson) discloses a frame structure secured to the backboard for guiding basketballs to a bendable tubular member whereupon the basketballs traverse the tubular member and exit therefrom to a waiting player.

U.S. Pat. No. 5,409,211 (Adamek) discloses a basketball return device which is mounted to the basketball rim and includes a curvilinear basketball return chute which returns basketballs to the practicing shooter.

U.S. Pat. No. 5,417,196 (Morrison et al.) discloses an automatic ball projection device which uses a net to collect the basketballs and a continuously rotating drive wheel and drive belt to physically eject basketballs from the device's chute section.

U.S. Pat. No. 5,681,230 (Krings) discloses an automatic ball return apparatus which ejects basketballs by using a T-shaped ejector arm propelled by elastic bands. The ejector arm is mounted to a pivotable shaft whereby remote signals can be sent to the controller for altering the direction from which or to which the basketballs are ejected.

U.S. Pat. No. 5,746,668 (Ochs) discloses a basketball retrieval apparatus and shooting system which includes a curvilinear, elongated, pivotable ramp which is attached at one end to a funnel-shaped basketball collection mechanism attached to the basketball backboard, and has an opposite end terminating at an upright stand, whereupon basketballs roll down the curvilinear ramp to a practicing player standing adjacent the upright stand.

U.S. Pat. No. 5,776,018 (Simpson et al.) discloses a basketball collection, passing, and shot analysis system which ejects basketballs that have passed through the rim or have been collected by a collection net assembly to practicing players by passing the basketballs by a pair of spaced-apart passing rollers, with one passing roller spaced from and above the second passing roller in order to allow basketballs to travel therebetween for ejection therefrom.

U.S. Pat. No. 5,813,926 (Vance) discloses a basketball free-throw training apparatus which includes a framework disposed in front of and generally above the height of the basketball rim whereby the practicing player must attain the proper basketball trajectory in order to shoot the basketball over the framework and then into and through the rim attached to the basketball backboard.

U.S. Pat. No. 5,842,699 (Mirando et al.) discloses a basketball game apparatus which includes a plurality of vertically-aligned basketball rims with the medial basketball rim capable of selective displacement from the vertical alignment of the other two basketball rims so that the practicing individual must time his or her shot at just the appropriate moment to allow the shot basketball to fall through all three basketball rims when they are in their vertical alignment.

SUMMARY OF THE INVENTION

The present invention comprehends basketball return devices, and, more particularly, comprehends a portable basketball retrieval and return device positionable on a playing surface for collecting and then ejecting shot basketballs with varying velocities and distances, and at various time intervals, to either stationary or moving players dispersed about the playing surface.

The basketball retrieval and return device includes a support platform having casters for positioning and repositioning the device on the playing surface. A rectangular-shaped slidable frame is mounted to the rear of the support platform and is capable of slidable, upward movement toward a basketball backboard and rim attached thereto, and downward toward the support platform for selectively extending and retracting a plurality of netting support arms to which flexible netting material is attached for collecting shot basketballs and directing the basketballs to structural elements which successively eject the basketballs to practicing players.

The structural elements which receive, guide, and throw the basketballs are mounted to the support platform and are enclosed within a protective cover. Attached adjacent to the lower funnel-shaped opening of the netting material is a basketball funnel member through which basketballs pass whereupon the basketballs are successively directed downwardly along a basketball guide bars whereupon one basketball at a time rests on the seating ring of a pivotable catapult arm that is in the cocked positsion. The catapult arm pivots between a cocked position and a throwing position, and when in the cocked position the catapult arm is held under tension applied by a pair of throwing springs that have one end attached to the catapult arm and their opposite ends attached to a rectangular-shaped spring mounting and adjustment frame. A wheel is mounted to the underside of the catapult arm, and is rotated by an eccentrically-mounted cam drivingly connected to a main thrower motor by a main drive shaft. An electronic control system which includes one photoelectric eye and two proximity switches registers the seating of one basketball on the seating ring of the catapult arm, the throwing of basketballs, one at a time, by the catapult arm, and the time interval between throws for cocking the catapult arm. The wheel, the cam, the catapult arm, the springs, and the adjustment frame are all mounted on a basketball distribution and positioner plate that is mounted to the platform and pivots on a vertical axis with respect to the platform. A manual control panel mounted on the cover allows the practicing players to select the time interval between successive ejections of basketballs, and whether the basketballs are ejected throughout a continuous 180° arc within which the positioner plate rotates, at a number of selected points within the arc, or in a fixed direction determined by the pointing the device at a particular point or area on the playing surface.

In addition, the device includes a secondary positioner motor that is connected by a linkage to the positioner plate which rotates in a specific manner the positioner plate as a result of the players selecting a particular setting on the control panel. The secondary positioner motor is electrically connected to one of a plurality of proximity switches and is operative when the control panel is set for continuous fanning and basketball ejection at selected points within the arc; the secondary positioner motor is non-operative when the control panel is set for stationary basketball ejection in a fixed direction.

It is an objective of the present invention to provide a portable basketball retrieval and return device which is portable for positioning and repositioning on a playing surface and capable of easy set-up and storage.

It is another objective of the present invention to provide a portable basketball retrieval and return device which allows practicing players to vary the distance, velocity, and direction of the succession of ejected basketballs.

Yet another objective of the present invention is to provide a portable basketball retrieval and return device which allows players to select the time interval between successive basketball ejections so that players can move to different positions on the playing surface and thereby incorporate basketball drills with the use of the device.

These and other objects, features, and characteristics of the present invention are better understood from the following detailed description of the preferred embodiment when read in conjunction with the appended drawing figures.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1

is a perspective view of the basketball retrieval and return device set up for use on a playing surface;

FIG. 2

is a rear elevational view of the device first shown in

FIG. 1

, showing the device in its collapsed or non-use disposition;

FIG. 3

is a rear elevational view of the device first shown in

FIG. 2

wherein the device is shown in its initial set-up position;

FIG. 4

is a rear elevational view of the device first shown in

FIG. 2

wherein the netting support arms and the netting material are fully extended so that the device is ready for use;

FIG. 5

is a top plan view of the spring mounting and adjustment frame and illustrates the selective tightening or releasing of tension upon the springs which alters the distances and velocities that basketballs are ejected from the device;

FIG. 6

is a side elevational view of the device first shown in

FIG. 1

, illustrating a single basketball rolling down the basketball guideway just prior to being received on the seating ring of the catapult arm;

FIG. 7

is a side elevational view of the device first shown in

FIG. 6

, illustrating one basketball seated on the seating ring of the catapult arm, which is in the cocked or ready-to-throw position;

FIG. 8

is a side elevational view of the device first shown in

FIG. 6

wherein the catapult arm has pivoted for ejecting the basketball therefrom;

FIG. 9

is a front elevational view of the device which illustrates the range of pivotable movement of the basketball distribution and positioner plate and the cover which is mounted to the support platform and which protectively covers the mechanical elements of the device;

FIG. 10

is a flowchart showing the electrical and mechanical steps that occur when the device is set to the different throwing positions;

FIG. 11

is an electrical schematic diagram illustrates the processes that actuate and control the reception, loading, throwing, and reloading of the device for receiving and ejecting a succession of basketballs to players;

FIG. 12

is a front elevational view of the control panel first shown in

FIG. 1

mounted to one side of the protective cover for the device;

FIG. 13

is a side elevational fragmentary view of the adjustable mounting structure for one proximity switch;

FIG. 14

is a top plan schematic view illustrating the pivotable movement of the basketball distribution and positioner plate by the linkage and positioner motor whereby the basketball distribution and positioner plate has pivoted to a position lateral and 90° to the longitudinal axis of the support platform;

FIG. 15

is a top plan schematic view illustrating the next position to which the positioner plate has pivoted along its arc of rotation;

FIG. 16

illustrates the third position to which the positioner plate has pivoted as it rotates throughout the 180° arc or semicircle of rotation;

FIG. 17

shows the fourth position to which the positioner plate has pivoted as it continues moving to selected points throughout the arc of rotation; and

FIG. 18

shows the positioner plate pivoted 90° from the position shown in

FIG. 14

whereby the positioner plate and all the mechanical and electrical elements and structure mounted on the positioner plate are now aligned with the longitudinal axis of the support platform.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Illustrated in

FIGS. 1-18

is a movable and portable basketball retrieval and return device

10

for disposition on a playing surface, such as the hardwood floor of an indoor basketball court or the blacktop surface of an outdoor basketball court. The device

10

can be used in conjunction with a pole-supported basketball backboard and rim or a wall-supported basketball backboard and rim. The device

10

returns a succession of shot basket-balls to players dispersed on the playing surface and which may be stationary or moving with respect to the device

10

. Thus, the device

10

of the present invention functions as much more than a device for merely improving a players free-throw shooting ability from a static position directly in front of the device

10

. Basketball drills of college and professional level complexity can thereby be incorporated with the use of the present device

10

.

As shown in

FIGS. 1-4

and

6

-

9

, the device

10

includes a base or support platform

12

which rides on a plurality of casters

14

spaced on and mounted to the underside of the support platform

12

. The casters

14

allow the device

10

to be positioned and then repositioned on any playing surface for optimum use by the practicing players. Each caster

14

includes a metal framework

16

secured to the underside of the support platform

12

and within which one caster

14

is mounted. The support platform

12

also defines a front and a rear, with the front of the platform

12

being that portion closest to the shooting player and from which basketballs are ejected, and the rear of the platform

12

being that portion farthest from the shooting player and closest to the backboard and rim.

Illustrated in

FIGS. 1-4

and

6

-

8

are a pair of spaced-apart framework support posts

18

which are mounted to the rear of the platform

12

and extend upwardly therefrom. A generally rectangular-shaped, slidable netting and arm support frame

20

is mounted on the framework posts

18

and is capable of selective linear reciprocable movement thereon and coplanar therewith upwardly toward the basketball backboard and rim and downward toward the support platform

12

. The frame

20

comprises two vertically-extending tubular members

22

, with each tubular member

22

mounted on each respective support post

18

for slidable telescoping movement thereon. Each tubular member

22

includes a locking means for locking the entire frame

20

in place on the support posts

18

once the frame

20

has been appropriately positioned. The locking means includes a pair of locking bolts

26

, with one bolt

26

threaded into each tubular member

22

so that each bolt

26

can be tightened against the respective surfaces of each support post

18

thereby fixing the frame

20

in position on the support posts

18

. The frame

20

also includes a lower horizontal bar

28

which extends between and is mounted to the lowest portion of each tubular member

22

, a middle horizontal bar

30

which extends between and is secured to each respective tubular member

22

approximately one-half to two-thirds of the way up on the tubular members

22

, and an upper horizontally-extending bar

32

which extends between and is attached to the uppermost portion of each tubular member

22

. All three bars

28

,

30

, and

32

are part of the frame

20

and, thus, move up or down with the frame

20

during the positioning of the frame

20

on the support posts

18

. In addition, a middle, vertically-extending handle tracking bar

34

extends between and has its opposite ends secured to the bar

28

and the bar

30

and, thus, also travels with the frame

20

. A second handle tracking bar (not shown) can also be included for use in conjunction with the frame

20

, and the second handle tracking bar will be stationarily mounted to the support platform

12

adjacent, parallel, and immediately in front of the bar

34

. The second handle tracking bar would vertically extend parallel with bar

34

at least to the same height as the frame

20

when the frame

20

is in the collapsed or down position as shown in FIG.

2

. The bar

34

has several apertures

36

spaced thereon adjacent the upper end of the bar

34

.

In order to provide additional support for the frame

20

in its vertical orientation with respect to the platform

12

, a pair of stanchions

38

, as shown in

FIGS. 1-4

and

6

-

8

are used, and each stanchion

38

includes an outer tubular member

40

pivotably mounted to one side of the platform

12

and an inner tubular member

42

which is pivotably mounted to each respective tubular member

22

approximately two-thirds of the way up on the members

22

. The tubular members

42

telescope within the tubular members

40

so that the frame

20

can achieve more height and the slidable telescoping movement of the tubular members

42

within the tubular members

40

is coincident with the slidable telescoping movement of both tubular members

22

on the framework support posts

18

. Each tubular member

40

has a locking key or bolt

44

threaded through its respective body so that the practicing player can loosen the bolt

44

for permitting the slidable movement of the tubular member

42

within the tubular member

40

, and then the bolt

44

can be tightened down upon the surface of the tubular member

42

to lock each stanchion

38

in place after they have been appropriately raised or lowered to the desired height.

As shown in

FIGS. 1-4

, a means to selectively raise and lower the netting material and netting support arms is slidably mounted on the bar

34

of the frame

20

. The netting material and netting arm raising and lowering means includes an inverted, T-shaped handle

46

slidably mounted on the bar

34

for selective linear, reciprocable movement thereon. The opposed handle ends

48

of the handle

46

have rubber grips

50

for easy and comfortable gripping by the player during the raising and lowering of the handle

46

. The handle

46

includes a slidable, hollow leg

52

which fits over and slides on the bar

34

. The leg

52

must be able to smoothly and easily slide upward or downward on the bar

34

. Also, the raising and lowering handle

46

includes a handle locking means for fixing the handle

46

in place on the frame

20

once the handle

46

has been raised or lowered to the appropriate position on the bar

34

, and the handle locking means includes a spring plunger

54

aligned with an aperture (not shown) extending through the surface portion of the leg

52

. In order to fix the handle

46

in position on the bar

34

, and, by extension on the frame

20

, the player pulls the spring plunger

54

rearward and grabs both ends

48

and then raises the entire handle

46

until the spring plunger

54

aligns with one of the apertures

36

of the bar

34

. When the player has raised the handle

46

to the appropriate height, the spring plunger

54

releases and extends through the aperture of the leg

52

into and through one of the apertures

36

on the bar

34

, thus fixing the handle

46

in position. In addition, the handle

46

can also include a second leg (not shown) secured to and aligned parallel with the leg

52

, and the second leg would slide on the second handle tracking bar in conjunction with the slidable movement of the handle

46

on the bar

34

. The second leg and second handle tracking bar would be used as additional support for maintaining the vertical alignment of the handle

46

on the frame

20

. Thus, the handle

46

moves with the slidable movement of the frame

20

, but, as above described, the handle

46

can be positioned and repositioned at various points along the bar

34

independent of the movement of the frame

20

. This allows the practicing players to achieve a more precise height adjustment for the device

10

with respect to the basketball backboard and rim. Secured to the mid-portion of each tubular member

22

is a wear strip

56

, and attached by a flexible cord to the middle horizontal bar

30

are a pair of wedges

58

, the function of which will be hereinafter described.

Illustrated in

FIGS. 1-4

and

9

are a plurality of extensible and retractable netting support arms

60

. For the present invention, four independently-movable arms

60

are pivotably mounted to the handle

46

, with two arms

60

pivotably secured to the handle

46

to the left of the leg

52

, when viewing the device from the rear as shown in

FIGS. 2-4

, and the other two arms

60

pivotably secured to the right of the leg

52

. The pivotable movement of the arms

60

is necessary to achieve a maximum extension of the arms

60

around and about the basketball backboard and rim, whether pole-supported or wall-supported. Thus, the two arms

60

secured closest to the leg

52

pivot on a horizontal axis, but in the same vertical plane as the handle

46

, and thereby extend laterally and to the sides of the basketball backboard and frame

20

. The two remaining arms

60

extend between each respective tubular member

22

and the bar

34

and, thus, project forwardly and in front of the frame

20

and basketball backboard and rim. The arms

60

pivot to the use position concomitant with the raising of the handle

46

, as shown in

FIGS. 2-4

. The arms

60

also pivot concomitant with the lowering of the handle

46

so that the arms

60

can be brought to the non-use position during periods of device storage, as shown in FIG.

2

. Thus, the arms

60

move upward or downward in conjunction with the movement of both the frame

20

and the handle

46

; but the arms

60

pivot to their appropriate disposition coincident with the raising or lowering of the handle

46

. This action can be independent of the upward or downward slidable movement of the frame

20

. One arm catch

61

is secured at an angle to each tubular member

22

and both catches

61

serve as a guide for the two inboard arms

60

as well as limiting their lateral and pivotable range of motion.

As illustrated in

FIGS. 1-4

and

9

, a flexible netting material

62

is attached to the upper portions of each arm

60

and encompasses the basketball backboard and rim when the arms

60

are fully extended. The netting material

62

also collapses with the retraction of the arms

60

when the handle

46

is lowered, as shown in

FIGS. 2 and 3

. The netting material

62

collects errantly shot basketballs as well as basketballs that ricochet off the basketball backboard and rim, and also basketballs that fall through the rim. The netting material

62

directs the basketballs to a cylindrical basketball funnel member

64

which is attached to and communicates with the opening formed at the lowest point of the netting material

62

. The position of the funnel member

64

is maintained by a plurality of horizontally-extending funnel support bars

66

which are attached to the tubular members

22

of the frame

20

adjacent the upper end of the frame

20

. The funnel support bars

66

extend outwardly therefrom toward the front of the platform

12

so that the distal ends of the funnel support bars

66

can be secured to the funnel member

64

thereby maintaining the alignment of the funnel member

64

with the opening of the netting material

62

. The funnel member

64

does not collapse but maintains its position as the netting material

62

simply collapses around the funnel member

64

as shown in

FIGS. 2 and 3

.

Illustrated in

FIGS. 6-8

is a covering support framework

68

which is mounted to the platform

12

adjacent to the front thereof and which extends upwardly therefrom and also rearwardly towards the stanchions

38

and frame

20

. The framework

68

supports a plastic shroud or covering

70

which protects mechanical and electrical elements (hereinafter further described) from player interference and injury and also provides an aesthetic feature. The covering

70

also includes an upper opening

72

which registers with the funnel member

64

and the opening at the lowest portion of the netting material

62

to allow basketballs to fall therethrough for throwing by the device

10

. An ejection aperture

74

, which is generally disposed at a right angle to the upper opening

72

, is the aperture through which basketballs are ejected for return to the practicing players. In addition, a control panel

76

, the function of which will be hereinafter described, is mounted on one side of the covering

70

and is manually operable by the players and is used for player control and selection of various features of the device

10

.

The framework

68

comprises a plurality of angled, vertical and horizontally-extending tubes or bars

78

which support a basketball guide means for receiving basketballs that fall through the funnel member

64

and opening

72

of the covering

70

for guiding those basketballs to the mechanical elements that actually throw the basketballs. The basketball guide means includes a pair of angled or downwardly-sloping basketball guide bars

80

located at the rear of the framework

68

and which receive basketballs that fall through the opening

72

for directing basketballs downwardly therealong to mechanical throwing elements hereinafter further described.

The device of the present invention utilizes a variable basketball distribution means for ejecting a succession of shot basketballs to practicing players in the following three ways: (1) ejection of basketballs to the same place or point on the throwing playing surface; (2) ejection of the basketballs at various player-selected points within a 180° arc or semicircle traced out by the back-and-forth pivotable movement of the variable basketball distribution means; and (3) continuous ejection of shot basketballs throughout, and at all points along, the 180° arc or semicircle traced out by the back-and-forth fanning movement of the variable basketball distribution means with the rate of basketball ejection determined by the player-selected timer setting. The variable basketball distribution means includes a basketball distribution and positioner plate

82

which is spaced slightly above and parallel to the platform

12

and is located toward the front of the platform

12

. The plate

82

is pivotable on a vertical axis within a 180° arc or semicircle whereupon the plate pivots laterally from one side of the platform

12

to the opposite side, and then back. As shown in

FIGS. 6-8

, the plate

82

is mounted to a vertically-extending rotatable shaft

84

which extends upwardly from a bearing housing

86

. The housing

86

is mounted to the underside of the platform

12

and includes swivel bearings (not shown) which allow the shaft

84

to rotate on the plate

82

. It should be noted that the framework

68

, the covering

70

, the guide bars

80

, and the mechanical and electrical elements which collect and throw the succession of shot basketballs at timed intervals and in the aforedescribed distributions about the playing surface are all mounted to the plate

82

and, therefore, pivot throughout the same arc or semicircle as a result of the pivotable movement of the plate

82

.

As shown in

FIGS. 2-4

,

6

-

8

, and

14

-

18

, a positioner motor

88

is mounted to the platform

12

toward the rear of the platform

12

. The motor

88

transmits pivotable motion to the plate

82

by way of a linkage means which includes a first linkage arm

90

having one end drivingly connected to the motor

88

through a positioner motor shaft

92

. The linkage means also includes a second linkage arm

94

having one end attached to the distal end of the first linkage arm

90

and a second end pivotably secured to a positioner plate shaft

96

. The shaft

96

is mounted offset or eccentric to the vertical axis defined by shaft

84

so that the motor

88

can transmit a rotary motion that ranges between zero and 180° through the linkage arms

90

and

94

. As shown in

FIGS. 10 and 11

, the motor

88

operates in conjunction with other electrical and mechanical elements of the device

10

to selectively pivot the plate

82

so that the ejection of the basketballs can be dispersed throughout the playing surface if the players so desire, and the motor

88

can also be shut down or disposed to the OFF position when ejection of the basketballs to one designated point on the playing surface is desired.

In order to transmit the power to the mechanical elements which physically throw the basketballs, a basketball ejection means is used and comprises a main thrower motor

98

, hereinafter designated thrower motor (M1), which is mounted to the platform

12

and rotates concomitant therewith. The motor

98

does not need to be large horsepower motor and is preferably between a one and a ten horsepower motor. The motor

98

also includes a gear box

100

and a main drive shaft

102

which projects lateral to the motor

98

. The drive shaft

102

is drivingly and eccentrically connected to a cam

104

which is thereby selectively rotatable. The cam

104

includes a bulging portion

106

and a fin-like cam lobe

108

. A slot (not shown) is cut into the plate

82

so that free rotation of the cam

104

can occur.

Illustrated in

FIGS. 5-8

is a basketball thrower means which is also mounted to the plate

82

and rotates concomitant therewith, and is disposed beneath the netting material

62

and between the framework

68

for enclosure by the covering

70

. The basketball thrower means physically receives basketballs that drop through the opening of the netting material

62

and then through the opening

72

of the covering

70

in order to successively throw basketballs through the ejection aperture

74

and to the practicing players. The basketball thrower means includes a pair of catapult arm uprights

110

that are secured to the plate

82

and extending upwardly therefrom. The cam

104

rotates between the uprights

110

. As shown in

FIGS. 5-8

, a T-shaped catapult arm

112

is pivotably mounted to the uprights

110

by means of a pivot pin or bolt

114

which extends through both uprights

110

and the arm

112

. The arm

112

also includes a front crosspiece

116

which extends transverse to the arm

112

and pivots therewith. The crosspiece

116

does not interfere with the pivotal movement of the arm

112

, as illustrated in

FIGS. 5-8

. The arm

112

also includes several unique features for receiving and seating one basketball while preventing the further downward movement along the guide bars

80

of other basketballs until the arm

112

is reloaded and cocked for the next throw. Among these elements is a seating ring

118

upon which the basketball to be thrown is received prior to its ejection from the device

10

. In addition, at the forward end of the arm

112

is a curvilinear ball restraining member

120

that halts the downward movement of the basketball after it is received on the seating ring

118

so that the basketball does not proceed any farther forward on the arm

112

. Also, the arm

112

includes a ball stop member

122

which prevents the next basketball from rolling forward on the guide bars

80

underneath the arm

112

after the arm

112

has pivoted to the throwing position to eject a basketball as shown in

FIG. 8

, whereupon the basketball would block the arm

112

from being recocked. Mounted to the underside of the arm

112

adjacent the crosspiece

116

is a wheel

124

. The wheel

124

is directly contacted by the cam

104

and rotates as a result of the rotation of the cam

104

.

Illustrated in

FIGS. 5-8

is a catapult arm loading and releasing means which applies tension to the arm

112

for facilitating the throwing action. The catapult arm loading and releasing means is selectively adjustable in order to vary the amount of tension applied on the arm

112

so that the distance and velocity the basketballs are thrown can vary dependent upon the type of the practice session or drill being undertaken. The catapult arm loading and releasing means includes a rectangular-shaped framework

126

which is horizontally disposed above the motor

98

and immediately beneath the arm

112

. The framework

126

includes two spaced-apart, tubular mainframe bars

128

which are horizontally disposed and have one end attached to the uprights

110

. The mainframe bars

128

are cantilevered at their opposite ends, and each mainframe bar

128

receives a tension adjustment bar

130

for slidable, telescoping movement therein. A U-shaped end bar

132

is attached to both adjustment bars

130

at its mid-portion. A frame support bar

134

extends across and is attached at the distal ends of both mainframe bars

128

, and the support bar

134

includes a centrally-located threaded aperture (not shown). A pair of helical tension springs

136

are used to both load and apply variable amounts of spring tension to the arm

112

in order to provide the force which causes the arm

112

to throw the basketballs. Each tension spring

136

is attached to opposite ends of the crosspiece

116

and the projecting ends of the end bar

132

, and, for the safety of the players, each spring

136

is enclosed within a cylindrical plastic sheath. The end bar

132

also includes a centrally-located threaded aperture (not shown) aligned with the aperture of the support bar

134

. Inserted for linear reciprocable movement through both apertures is an elongated screw thread

138

which terminates at a manually-operable screw adjustment handle

140

. The handle

140

is used to selectively adjust or vary the tension applied by both springs

136

to the arm

112

in order to alter the distance and velocity by which the basketballs are thrown. Manually rotating the handle

140

clockwise draws the end bar

132

rearward and causes the adjustment bars

130

to telescope outward, thus stretching both springs

136

thereby increasing the load on the springs

136

and the force by which the arm

112

pivots for throwing basketballs. The arm

112

will throw basketballs with greater distance and velocity the more the springs

136

are stretched and the tension thereon is increased. Manually rotating the handle

140

counterclockwise, on the other hand, draws the end bar

132

toward the crosspiece

116

and causes the adjustment bars

130

to telescope within the respective mainframe bars

128

, thus reducing the load on the springs

136

. This adjustment reduces or lessens the distance and velocity by which the catapult arm

112

throws the basketballs.

As illustrated in

FIGS. 5

,

10

,

11

, and

13

, the device

10

uses two proximity switches

142

with one proximity switch

142

used for shutting off the positioner motor

88

(herein designated M2), and the other proximity switch

142

is used for shutting off the main thrower motor

98

(M1). In addition, the device

10

utilizes a sensing and activation means for initiating the electrical and mechanical steps for receiving, loading, throwing, and then recocking the arm

112

, and, in the present invention, the sensing and activation means is a single photoelectric eye

144

which is mounted by a bracket

146

to one of the non-movable mainframe bars

128

. The eye

144

is located beneath and slightly off-center of the seating ring

118

when the arm

112

is disposed in the cocked or ready-to-throw position and generally level to the playing surface on which the device

10

is stationed. The eye

144

registers when one basketball is received on the seating ring

118

and also when the basketball leaves the seating ring

118

during the throwing process whereby the eye

144

generates electrical signals which initiate further electrical processes and mechanical actions as shown in the schematic of FIG.

10

and the flowchart of FIG.

11

. The flowchart of FIG.

11

and the electrical schematic of

FIG. 10

are readily familiar to anyone possessing knowledge of computer flowcharting and the ability to read electrical schematics.

With an individual standing in front of the

10

device so that the individual faces the ejection aperture

74

of the covering

70

, a reference frame is defined whereby the proximity switches

142

can be more specifically denoted as a left proximity switch and a right proximity switch. Thus, the left proximity switch controls the motor

88

(M2) and the right proximity switch controls the motor

98

(M1). Both switches

142

are mounted to slidable brackets

148

, each having an elongated slot

150

for permitting upward or downward adjustment of the switches

142

. Located at the upper end of each upright

110

is a receiving hole (not shown) and each bracket

148

is affixed to the respective upright

110

by inserting a nut and bolt arrangement through the respective receiving holes and the slots

150

. It is a simple matter to upwardly or downwardly adjust the location of each switch

142

by simply loosening the nut and bolt arrangement, sliding the bracket

148

upward or downward within the slot

150

until the appropriate position is reached, and then tightening the nut and bolt arrangement so that the bracket

148

and switch

142

are fixed in position on the respective upright

110

. Raising or lowering the left hand switch

142

on the uprights

110

increases or decreases the number of preset positions the basketballs are ejected from throughout the 180° pivotable movement of the positioner plate

82

. Selectively raising or lowering the left hand switch

142

brings the switch

142

closer to or farther away from the pivot point of the catapult arm

112

, thereby altering the magnetic field strength between the switch

142

and the arm

112

which, as a consequence, varies the electrical signal strength and frequency. The switches

142

and the eye

144

are electrically connected to the manually-operable control panel

76

as shown in the electrical schematic of

FIG. 11

, and the control panel

76

includes a timer adjustment knob

152

which, for the present invention, allows practicing players to set the time intervals within which successive basketballs are ejected at half-second intervals up to five seconds. Also, the control panel

76

includes a power OFF/ON button

154

, a reset button

156

, and a throw position dial

158

having three settings so that basketballs can be ejected at pre-selected points about the 180° fanning range of the plate

82

(Setting A); the device

10

is positioned on the playing surface so that the ejection aperture

74

faces the same point on the playing surface and continually ejects balls at that point whereupon the plate

82

does not rotate or fan (the OFF position); and the device

10

continuously fans back and forth throughout the 180° arc or semicircle ejecting balls within the selected time interval to various points on the playing surface dependent only on how fast the players take shots and how quickly the basketballs are cycled through the mechanical elements of the basketball ejection means and the basketball thrower means (Setting B).

FIGS. 14-18

schematically illustrate the rotation of the plate

82

by the motor

88

and the linkage arms

90

and

94

when the dial

158

is set at Setting A. Starting with

FIG. 14

, the covering

70

is shown pointing laterally and at 90° from the longitudinal axis of the platform

12

. If the device

10

in

FIG. 14

was placed beneath a basketball backboard and rim and on the baseline with the device

10

pointing toward the tip-off circle, then, in

FIG. 14

, the covering

70

would be facing the point where the baseline and the out-of-bounds line meet, and the covering

70

would be parallel with that respective baseline.

FIGS. 15-18

show in succession the pivoting of the covering

70

by the motor

88

, the linkage arms

90

and

94

, and the plate

82

through four positions until the covering

70

is pointed at and parallel with the foul line and is aligned with the longitudinal axis of the platform

12

, and, thus, has pivoted 90° from the initial position as shown in FIG.

14

. The plate

82

would continue pivoting through the remaining 90°, and when the plate

82

reaches the position opposite and 180° from that of

FIG. 14

, the motor

88

and linkage arms

90

and

94

cause the plate

82

to retrace its motion back to the position of FIG.

14

. It has been demonstrated that four practicing players can easily shoot

800

basketballs in one hour, with the device

10

set to any of the three positions, without interruption or machine failure.

With reference to

FIGS. 6-8

,

10

, and

11

, the operation of the device

10

when the throw position switch is set to each of the three positions—A, OFF, or B—will now be described.

Mode I Operation

In this mode, the selector is set to “OFF” and the device only throws ball in the direction the basketball ejection aperture has already been pointed.

With the device

10

in the cocked or ready-to-throw state, a basketball is trapped by the netting material

62

and falls through the funnel member

64

whereupon the basketball is directed by the guide bars

80

to the seating ring

118

of the catapult arm

112

. As the basketball is received by the seating ring

118

, the basketball activates the photoelectric eye

144

which sends an electrical signal to activate the timer. The timer pauses for the pre-selected period of time which has been manually present by turning the knob

152

on the control panel

76

to the desired time increment. Timer increments are in half-second increments ranging from zero to five seconds for the present device but can be varied. An electrical signal (power) then goes to the relay (C1) which activates the motor

98

(M1). Activating the motor

98

(M1) causes the cam

104

to rotate in a clockwise direction by the drive shaft

102

.

In the pre-selected period of time (in seconds) between the previous throw and the seating of the above-described basketball on the seating ring

118

, a number of simultaneous mechanical actions have already occurred for returning the arm

112

to the cocked or ready-to-throw state.

At the end of the previous basketball throw, the arm

112

has been pivoted on the pivot pin

114

upward and away from the horizontal extension of the spring mounting and adjustment frame

126

between 45° and 90°. As the motor

98

(M1) rotates the cam

104

by the drive shaft

102

, the initial rotation of the cam

104

does not bring the cam

104

in contact with the wheel

124

but, as the cam

104

continues its rotation, the bulging portion

106

contacts and rotates the wheel

124

in a counterclockwise direction. Continued rotation of the wheel

124

by the cam

104

causes the arm

112

to lower and return to the cocked or ready-to-throw position. As this is occurring, the wheel

124

pivots with the arm

112

so that, as the arm

112

returns to the ready-to-throw position, the wheel

124

is moved in a short arcuate path counterclockwise between and then forward of the uprights

110

. In addition to and occurring simultaneous therewith, the springs

136

are stretched or extended between their attachment to the crosspiece

116

and the ends of the U-shaped end bar

132

. The frame

126

is a stationary structure, but the crosspiece

116

pivots with the arm

112

on the pivot pin

114

concomitant with the motion of the arm

112

in returning to the ready-to-throw position, and it is this brief, quick, pivotable motion of the crosspiece

116

, actuated by the rotation of the cam

104

against the wheel

124

, that stretches and applies tension to the springs

136

. With the motor

98

(M1) still in the ON state, the cam lobe

108

contacts, instantaneously rotates, and then passes by the wheel

124

.

As a result, the basketball is lifted upward and thrown by the quick pivotable movement of the arm

112

immediately after the cam lobe

108

contacts and then rotates clockwise past the wheel

124

which causes the tension on the springs

136

to be released, and the basketball leaves the optical sensing range of the eye

144

. The right side proximity switch

142

controls the motor

98

(M1) by generating electrical signals which either shut off or turn on the motor

98

(M1) as the device

10

goes through its entire throwing cycle. As the basketball leaves the optical range of the eye

144

, the switch

142

assumes powering the relay (C1).

Throughout the aforedescribed process, the relay (C1) has maintained the electrical signaling to, and activation of, the motor

98

(M1). The motor

98

(M1) continues in the ON state, causing the cam

104

to continue rotating so that the above-described mechanical steps are repeated until the arm

112

is brought down level and out of range of the magnetic field of the right side proximity switch

142

. Once the arm

112

has been pivoted by the action of the cam

104

and wheel

124

to the level position and out of range of the magnetic field of the switch

142

, the motor

98

(M1) shuts off. Rotation of the cam

104

and wheel

124

has now caused the springs

136

to be stretched and tensioned and has returned the arm

112

to the initial ready-to-throw or cocked state. The device

10

is now ready to receive another basketball on the seating ring

118

for another throwing cycle.

Mode II Operation

In this mode, the selector switch is set to Position “A” so basketballs are thrown from a number of pre-set positions through a 180° arc.

With the device

10

in the cocked or ready-to-throw state, a basketball is trapped within the netting material

62

and falls through the funnel member

64

whereupon the basketball is directed by the guide bars

80

to the seating ring

118

of the catapult arm

112

. As the basketball momentarily seats on the seating ring

118

, the basketball immediately activates the photoelectric eye

144

which sends an electrical signal to activate the timer. The timer then pauses for the pre-selected period of time as set by the knob

152

on the control panel

76

. Power is then transferred to the relay (C1) which activates the motor

98

(M1).

Between the previous throw and the return of the device

10

to the cocked state, the same mechanical processes that occur when the device

10

is set to the OFF position repeat when the device

10

is set to Setting A in order to return the arm

112

to the cocked state. The last step occurs when the cam lobe

108

passes the wheel

124

thereby releasing the wheel

124

so that the tension on the springs

136

is released, thereby causing the springs

136

to contract and pivot the arm

112

so that the arm

112

quickly moves upward in an arcuate path to throw the basketball.

As the basketball is lifted upward by the arm

112

and thrown through the ejection aperture

74

, the basketball leaves the optical sensing range of the eye

144

. At the moment this occurs, the right side proximity switch

142

assumes powering the relay (C1) which continues sending electrical signals to the motor

98

(M1). Simultaneous with the action of the right side switch

142

, upward movement of the arm

112

past the left side switch

142

powers up the uncharged contact in the relay (C1). As a result, electrical signals are sent to and power the motor

88

(M2). On Setting A, the motor

88

(M2) causes the plate

82

to pivot in a 180° arc or semicircle back and forth in a constant fanning motion. The motor

88

(M2) causes the plate

82

to pivot or rotate in stages or steps between a number of predetermined positions, stopping briefly at each position to allow basketball ejection, and the positions may be separated by 5% to 45% from each other.

As previously described, continued clockwise rotation of the cam

104

rotates the wheel

124

, draws the arm

112

down to the cocked or ready-to-throw state and thereby applies tension to the springs

136

. As the arm

112

is lowered to the cocked or ready-to-throw state, the arm

112

passes by and then out of range of both the left side and the right side proximity switches

142

. As a consequence, the contacts in the relay (C2) open up and, thus, power to the motor

98

(M1) and motor

88

(M2) is terminated for the pre-selected time period. The device

10

is now cocked and ready for another throwing cycle.

Mode III Operation

In this mode, the selector switch is set to Position “B”, and the device continuously fans back and forth through a 180° semicircle for ejecting basketballs at a rate determined by the pre-set timer.

With the device

10

already in the cocked or ready-to-throw position whereby the catapult arm

112

is level with the spring mounting and adjustment frame

126

, the springs

136

are under tension and loaded and the cam

104

has rotated so that the cam lobe

108

is contacting the wheel

124

, a basketball is trapped by the netting material

62

and falls through the funnel member

65

whereupon the basketball is channeled along the guide bars

80

to the seating ring

118

. As the basketball seats upon the seating ring

118

, the basketball immediately activates the photoelectric eye

144

which then sends an electrical signal to activate the timer. The timer then pauses for the pre-selected period of time as determined by the setting of the knob

152

, but power to the motor

88

(M2) is maintained during this pause for pivoting the plate

82

. With the timer momentarily deactivated, motor

98

(M1) is energized and the cam lobe

108

rotates against the wheel

124

. Then, as the cam lobe

108

passes by the wheel

124

, the tension on the springs

136

is released and the arm

112

quickly pivots upward to throw the basketball. The left side proximity switch

142

maintains control and sends electrical signals through the relay (C1) to continue powering the motor

88

(M2) to pivot the plate

82

. After the throw, the right side proximity switch

142

assumes powering the relay (C1) that energizes the motor

98

(M1) so that the arm

112

can be returned to the home position whereby the arm

112

is cocked for the next throwing cycle. Upon return to the home position, the arm

112

will be out of range of the right side proximity switch

142

.

The right side proximity switch

142

powers relay (C1) so that electrical signals are sent to the motor

98

(M1) which stays on until the arm

112

returns to the home or cocked position. Upon return to the home position, the arm

112

will be out of range of the magnetic field of the right side proximity switch

142

. Electrical signals will fall off and, as a result, power to the motor

98

(M1) will be terminated, thus temporarily shutting off the motor

98

(M1). However, the motor

88

(M2) will still be energized so that continued pivotable movement will be transmitted by motor

88

(M2) through the linkage arms

90

and

94

and to plate

82

. The device

10

will be ready for the next throwing cycle while the plate

82

will continue to pivot or fan back and forth through the 180° arc.

The foregoing is considered as illustrative only of the principles of the invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described, and, accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention.

Number	Name	Date
1223386	Handelan	Apr 1917
2908266	Cooper	Oct 1959
3878828	Francesco	Apr 1975
4168695	Haller et al.	Sep 1979
4262648	Wegener et al.	Apr 1981
4471746	Ando	Sep 1984
5393049	Nelson	Feb 1995
5409211	Adamek	Apr 1995
5417196	Morrison et al.	May 1995
5681230	Krings	Oct 1997
5746668	Ochs	May 1998
5771018	Simpson et al.	Jul 1998
5813926	Vance	Sep 1998
5842699	Mirando et al.	Dec 1998

Portable basketball retrieval and return device

Information

Patent Number

Date Filed

Date Issued

Inventors

Examiners

Agents

CPC

US Classifications

Field of Search

US

International Classifications

Abstract

Description

Claims

US Referenced Citations (14)