Tennis serve ball machine cum training device II

Abstract

This invention, called Serve Assist, is an electro-mechanical ball machine for practicing the tennis serve. It helps a tennis student to practice serves by consistently tossing the ball in the desired location. It operates in one of two modes, an Auto-feed mode in which it tosses the balls in the magazine via an overhead toss canister at regular intervals or in an Auto-sense mode where the ball is tossed by the detection of the student's rising tossing arm. The invention also marks the desired height of contact on the dropping ball with a laser and provides visual feedback if the ball is being struck lower than optimum. It aids the student by developing a kinetic and visual memory of the correct ball toss position and point of contact.

Description

BRIEF DESCRIPTION OF SEVERAL VIEWS OF THE DRAWINGS

FIG. 1—Perspective View of the Invention showing all the major components

FIG. 2—Perspective View of the Invention in relation to the tennis court

FIG. 3—Elevation of the Invention in relation to the tennis court from the side of the court, close to the base line with magazine raised

FIG. 4—Side Elevation of the Invention in relation to the tennis court from behind the Baseline The Ball toss trajectory is also shown in this figure

FIG. 5—Close-up of the Tossing arm sensor unit, showing the detection of the student's tossing arm.

FIG. 6—Close-up of the Magazine, Funnel, Ball-toss canister and the riding support beam, showing the raising/lowering mechanism

FIG. 7—Close-up of the Ball-toss canister and Ball feed control

FIG. 8—Close-up of the Laser marker system

FIG. 9—Elevation of the Invention in relation to the tennis court from the longer side of the court, close to the Base line with the Magazine in lowered position.

FIG. 10—Close-up of the Electronic control box showing the various controls

DETAILED DESCRIPTION

The invention consists of a transportable overhead ball machine on castors that can be wheeled on to the tennis court by the student and used either alone or in consultation with a coach. The invention is positioned in place just behind the baseline of the tennis court, so the overhead ball toss canister 1 of FIG. 1 is at the correct position to toss the ball where the student wants the ball.

As FIG. 2 shows the invention in relation to the court, one can see the base 15 of FIG. 1 and the upright support 11 clearly out of the way of the Student and behind her. In consultation with the Coach the student can position the invention in such a way that the overhead Ball toss canister 1 tosses the ball, either directly in front of the player or more to the side, depending on the type of serve to be practiced

While practicing with the invention, the student does not actually release the tennis ball for the serve from her tossing hand, but performs the same motion like a real serve. The invention senses the rising tossing arm of the student with sensor 5 and starts an electronic adjustable timer that sends an impulse to the Ball toss canister 1. The detailed description of use of the machine is provided later in this section.

The critical piece of this invention consists of an overhead Ball toss canister 1 that tosses the ball at the desired height at the appropriate time in the serving motion. As FIG. 1 shows, Numeral 1 is the Ball toss canister that tosses one ball at a time from its overhead position. The Ball toss canister 1 is compact and sized to hold only one ball. The Ball toss canister 1 is positioned about 18 to 24 inches to the side and above the player, thus putting it out of swing path of the racket. The detailed description of the Ball toss canister with drawing is provided later in this section.

In the manual feed mode, the Ball toss canister 1 is triggered to release the ball by an electrical impulse received from an electronic timer delay circuit (housed in control box 12) that is in turn, triggered by the motion sensor 5. The motion sensor 5 detects the rising tossing arm of the student above a certain height and provides a trigger to a timer circuit, which after a customizable delay sends an impulse to the Ball toss canister 1. On receiving the electrical impulse, a mechanism inside the Ball toss canister 1 tosses the ball. The detailed description of the motion sensor with drawing is provided later in this section.

As shown in FIG. 1, the Ball toss canister 1 is attached to the Magazine 3. When a ball is tossed by the Ball toss canister 1, the Ball feed control 2 is also activated by a delayed electronic signal and the magazine 3 releases one ball. The ball travels by gravity from the Magazine 3 and drops into the Ball toss canister 1. Here it awaits the next impulse from the Electronic timer circuit.

In the Auto feed mode, the Ball feed control 2 attached to the magazine 3 runs continuously and feeds one ball every 8 to 10 seconds to the Ball toss canister 1. In this mode an audible alert is sounded for the student begin her serving action, and after the appropriate time delay (0.5 seconds to 1 second), the ball is tossed from the Ball toss canister 1. As the ball is tossed from the canister, the student is in the appropriate posture of the serve, to spring up and hit the ball, uninterrupted like she had tossed the ball herself. With some trial and error, the student can customize the delay with the timer knob 25 of FIG. 10 to let the ball toss at the correct instant from the ball release canister 1. The description of the timer is provided later in this section.

As the ball is tossed from the canister, it goes up from the left side of a right handed student and comes down in a parabolic path in front of the student. The student can optionally use the laser marker 6, to illuminate the ball at the elevation where she would ideally like to make contact with the racket as shown in FIG. 8. Laser marker 7, illuminates the ball with an inch wide horizontal line about 6 inches below the elevation of the previous laser 6 as shown in FIG. 8. If the racket impacts with the ball after Laser marker 7 has illuminated the ball, this usually signifies that the student is making late contact and allowing the ball to drop low. The exact setting of the Laser markers 6 and 7 can be adjusted with the Magazine assembly in the Lowered position as shown in FIG. 9. The detailed description of the Laser markers with drawing is provided later in this section.

In this Lowered position of the Magazine as in FIG. 9, is how the balls are loaded into the Magazine too. The magazine 3 can hold up to 12 balls to keep the weight low. The funnel attachment 17 at the end of the magazine 3 aids the easy loading of the balls into the ball magazine. The detailed description of the magazine and its loading is provided later in this section.

Raising/Lowering the Magazine and Ball Toss Canister Assembly

The Magazine 3, Ball toss canister 1, Laser Markers 6 and 7 are all attached to the crossbeam 13 as shown in FIG. 6, and this cross beam in turn rides vertically up and down the main upright 11. The motor assembly in housing 16 will allow the cross beam 13 and all attached components to move and down and be set to the desired height. The height of the Ball release canister 1 is adjusted by using the up/down switch 14 as shown in FIG. 10. A counter 26 in FIG. 10 gives readout of the height of the ball release canister above the ground in inches. This readout of the height aids the student to set the machine when re-starting practice.

Magazine Loading

While the Magazine is in the lowered position, is when it is loaded with the balls. First the ON/OFF switch 21 of FIG. 10 is moved to the OFF position to de-energize the power to the Ball toss canister 1 The Up/Down switch 14 in FIG. 10, is depressed down for the magazine assembly to be lowered to its lowest height about 6 feet above the ground. When the Magazine assembly is in the lowered position as shown in FIG. 9, the balls can be tossed into the Funnel 17. The funnel aids the balls to trickle into the Magazine, which holds about 10 to 12 balls. After the balls are loaded, the Up/down switch 14 in FIG. 10 is pushed up to raise the Magazine assembly to the desired height. The height readout of the counter 26 of FIG. 10 helps with setting the ball release canister at the height desired.

Ball Toss Canister Working

The Ball toss canister 1 of FIG. 1 is a cylinder attached to one end of the Magazine 3. It is just big enough to hold one ball and keeps the ball in place by means of a cup shaped holder as shown in FIG. 7. This cup holder is jerked sharply by a electrical or pneumatic hammer that causes the ball to be tossed when needed. The hammer mechanism receives its input from the electronic timer assembly described later in this section

Tossing Arm Detection

The tossing arm mechanism is critical in the working of the invention in the Auto-sense mode. In this mode the student pretends to be tossing a ball while practicing the serve by raising his tossing arm above her head. As FIG. 5 illustrates, sensor 5 senses interruption of light, Microwave or infrared beam in a height range of 12 inches above the players head. FIG. 5 shows the beam 28 put out by the sensor 5.

Since the motion sensor 5 is riding the support-beam 13, its range of sensing is a function of height of the Ball toss canister 1. So a tall player about 6′2″ would set the Ball toss canister height at about 7 feet. The motion sensor will detect the tossing arm in the height range of 6′4″ to 6′8″. When the ball release canister height is lowered for a short player about 5′2″, then the Ball toss canister 1 height would be in the range of 6 feet and the motion sensor will sense the tossing arm motion between 5′4″ and 5′8″.

The range of motion sensing height can be adjusted, but it should be left to the tennis coach. The tossing arm detection sensor feeds its signal to the electronic timer circuitry for processing. To prevent repeat false triggers, the circuitry accepting this input will have its sensitivity adjusted so that once triggered; the circuitry will not accept input until its ready for another cycle in about 5 seconds. The tossing arm detection sensor will be sensitive enough to be triggered within 3 feet range and will not be triggered by the falling ball or other movements around the invention.

Laser Markers

There are 2 laser markers to aid the student with recognizing an optimum point of contact between racket and ball. The Laser markers 6 and 7 are optional and are enabled by switch 23 of FIG. 10. The Laser markers are energized only for couple of seconds after the ball is released by the Ball toss canister, to conserve the life of the laser and energy.

Markers 6 and 7 as shown in FIG. 1 and FIG. 8 are positioned on the Cross beam 13 that rides vertically with the Ball toss canister height adjustment. Marker 6 is positioned in such a way that it focuses a spot in the trajectory of the ball that is the ideal point of contact. Marker 7 is positioned to mark an inch wide horizontal line on the tossed ball about 6 inches below the spot marked by Marker 6. FIG. 8 shows the laser line 29 put out by Marker 6 and Laser line 30 put out by Marker 7. The key is for the student to perfect her serving motion so that she makes contact between racket and ball near or on the spot marked by Marker 6 as shown in FIG. 8. If the coach and the student continue to see the horizontal line on the ball before the student makes contact with the racket, then its apparent to both that the ball is being struck lower than desired.

The Laser Markers 6 and 7 are fixed on swiveling mounts and the direction of the beam can be adjusted by the tennis coach during calibration of the invention Timer circuitry

The timer circuitry that is housed in control box 12 of FIG. 1 is based on a IC 555 electronic timer. In its Mono-stable mode, the Chip receives its trigger input from the Tossing arm detection sensor and produces a delayed high output. This adjustable time delay is produced by the setting of a Potentiometer.

This Potentiometer is presented as the adjustable timer delay control 25 of FIG. 10. This circuitry can produce an accurate time delay of between 0.3 and 1.5 seconds, which can handle all range of serving motion speeds. The Timer circuitry feeds its signal to the hammer mechanism in the Ball toss canister 1 and a power timer circuit, which energizes the Laser markers 6 and 7. This power timer circuit energizes the Laser markers 6 and 7 for just 1.5 seconds, just long enough to mark the ball tossed from the ball toss canister 1 before being struck by the Racket.

Typical Usage

Setup

The student wheels in the invention just few inches behind the base line of the tennis court as shown in FIG. 2. The student connects the power supply by plugging in the power cord into the utility socket. The student or coach then proceeds to load the balls into the magazine. To do this, the rocker switch 24 in FIG. 10 is pushed down to bring the Magazine assembly to its lowest point as shown in FIG. 9. Balls are then tossed into the Funnel 17 of FIG. 1 to load the magazine. The magazine can hold up to 12 balls. After the balls are loaded, the rocker switch is pushed up to raise the Magazine assembly so that the Ball toss canister 1 is at the desired height. The student or the coach then positions the Ball toss canister 1, so that it tosses the ball in the correct trajectory for the student to hit

The reading in Counter 26 of FIG. 10, which is the height of the Ball toss canister above the ground, is noted for future setting. The student then decides if she wants to use the machine in the Auto-sense mode or Auto feed mode and throws the Switch 22 in FIG. 10 appropriately.

Hitting the Serves

The student then proceeds to the service line to take a practice swing for tennis serve. To calibrate the invention correctly for her serve, the student needs to adjust the Timer delay 25 of FIG. 10 to make sure the tossing arm detection unit detects her tossing arm and tosses the ball from the Ball toss canister 1 at the appropriate moment. In the first couple of practice serves, the student may realize that the ball is being tossed to soon or too late in the serving motion for the ball to be struck effectively. So it's best to set the delay to be late and practice with a deliberate slow serving motion and reduce the time delay down to a point where one is comfortable hitting the serves.

The student can then watch the Laser marking on the ball to make sure she is hitting the ball at the optimum height. There is a dot laser and a short horizontal line laser marking. The student should aim to make contact between racket and ball, when the ball is marked by a dot Laser. If the student finds herself hitting the ball after horizontal line markings, it is apparent that the ball is being struck lower. The laser markings are optional and can be turned off by switch 23 of FIG. 10.

The student can then proceed to use the invention in an Auto-Feed mode, by throwing the switch 22 in the appropriate position. In this mode, the invention gives an audible alert for the student to start her serving motion and at the appropriate time tosses the ball from the Ball toss canister 1 for the serve to be hit. Again the time delay control 25 of FIG. 10 can be used to adjust the time delay between the audible alert and the ball toss instant.

Claims

1. A tennis serve ball machine cum training device that allows a player to practice tennis serves with balls tossed at the optimum height and location in the court, comprising an inverted ‘L’ shaped structure with base and upright pillar behind the student.

2. A tennis serve ball machine cum training device as defined in claim 1 wherein, an inclined ball chute that functions like a magazine that holds balls, positioned above and angled for appropriate delivery of the ball to a tossing mechanism.

3. A tennis serve ball machine cum training device as defined in claim 1 comprising of a Ball toss canister that is fed by a magazine as defined in claim 2, that is positioned to the side of the student so as to be out of the way of the swing of the serve and that tosses the ball in a trajectory, like a student tossed the ball herself for a serve.

4. A tennis serve ball machine cum training device as defined in claim 1 with automatic feed of the balls to the student based on sensing the start of serving motion. The start of serving motion can be either the rising of the tossing arm or sensing the forward shifting weight of the student with a pressure sensing mat.

5. A tennis serve ball machine cum training device as defined in claim 4 with an adjustable time delay to customize the delay between start of serving action and ball toss from overhead Ball toss canister.

6. A tennis serve ball machine cum training device as defined in claim 1, employing visual, non obstructive methods like Laser or light beam to highlight (on the ball) the optimum height of contact between ball and racket.

7. A tennis serve ball machine cum training device as defined in claim 1, employing visual, non obstructive methods like Laser or light beam to highlight (on the ball) the passing of optimum height of contact between ball and racket.

8. A tennis serve ball machine cum training device as defined in claim 3, which employs a lowerable magazine for easy ball loading.