The present invention is a ball feeding and throwing apparatus that is capable of feeding multiple ball throwing devices. The present invention feeds balls to each device at a constant rate and allows each ball feed to be independently controlled via a remote control. The present invention comprises a main hull, feeder modules, feeding tubes, and ball throwing devices. The main hull be an all-in-one system which feeds balls via the feeder modules at a constant rate. The feeder modules then transfer the balls through the feeding tubes to each of the multiple ball throwing devices where the balls are thrown towards an athlete.

The present invention allows a single coach to control a number of ball feeds remotely and independently. Thereby allowing a single coach to train a number of athletes at one time. Further, the training experience is improved as the coach is free to control the ball feeds remotely, placing the coach in close proximity to an athlete. The close proximity allowing improved communication, greater observation, and allows for hands on training and demonstration.

A light charger charges a plurality of luminescent balls to emit light for use in dim lighting. The charger is a housing subdivided into a hopper section, a transport and light charging section, and a base section. The transport and light charging section includes a transport assembly integrated with a light charging assembly, with the transport assembly configured to receive and transport luminescent balls from the hopper into and through the light charging assembly, which comprises at least one light source. The light source comprises at least one LED and an illuminating light panel interposed between the LED and the luminescent ball when operating. The base section comprises an ejection exit point for the charged luminescent ball to exit the light charging assembly and a sensor for activating the system to eject at least one luminescent ball.

The current invention is a throwing machine for softballs or hardball (baseball). It comprises a loading tube, a loader, a pressure means, a locking pin and a throwing tube. The throwing machine is placed on a frame with a set of wheels in the preferred embodiment.

A golf ball dispenser includes: a receptacle configured to hold multiple golf balls; a passageway connecting an outlet of the golf dispenser with the receptacle; a gateway coupled between the passageway and the receptacle to restrict a passage of the multiple golf balls into the passageway, the gateway being selectively moveable to allow a golf ball to pass into the passageway for delivery to a tee area; and a display device embedded in the golf ball dispenser to present at least information regarding the golf ball in flight after the golf ball is hit from the tee area. Further, methods, systems, and apparatus, including medium-encoded computer program products, for use with such golf ball dispensers, can control holding and dispensing of golf balls at a golf facility, e.g., a driving range.

The improvements in the device and method for training, directing and repeating batting movements while performing the batting action have been designed both mechanically and automatically. Mechanically, structural elements have been modified and incorporated in order to enable two players, alternately and independently from each other, to perform their work routines without varying the specifications established for each player in the device and method for training, directing and repeating batting movements while performing the batting action, and to enable a left-handed batter and a right-handed batter to train in the same device and under their respective specifications without affecting each other's settings. Another object of the improvements in the device and method for training, directing and repeating batting movements while performing the batting action is automatize the displacement of a ball from the carousel-basket to the contact area between the bat and the ball by incorporating mechanical and electronic elements.

An automatic ball launcher includes a ball feed control system that includes a meter wheel with radially-spaced ribs or grooves to selectively block and pass balls to the flywheels of the launcher. The meter wheel rotates to selectively block and release a single ball to pass at a time. The controller of the launcher can be programmed to stop the meter wheel when a ball has been metered by monitoring the current at peak of the motor driving the meter wheel. A meter-event can be determined to have occurred when the current of the drive motor drops to a trough by a pre-set magnitude following a rise to a peak value. A remote control can be provided for the user to operate the launching machine and adjust a plurality of parameters.

An automatic ball launcher includes a ball feed control system that includes a meter wheel with radially-spaced ribs or grooves to selectively block and pass balls to the flywheels of the launcher. The meter wheel rotates to selectively block and release a single ball to pass at a time. The controller of the launcher can be programmed to stop the meter wheel when a ball has been metered by monitoring the current at peak of the motor driving the meter wheel. A meter-event can be determined to have occurred when the current of the drive motor drops to a trough by a pre-set magnitude following a rise to a peak value. A remote control can be provided for the user to operate the launching machine and adjust a plurality of parameters.

A light charging system charges at least one luminescent object to emit light and includes a housing comprising an openable lid, an interior, and at least one interior wall, wherein the openable lid provides a light proof seal when mated with the at least one interior wall. A light source comprises an illuminating light panel interposed between at least one light source and the interior to illuminate and charge a luminescent object when operating. An electronic housing contains at least one battery and an on/off switch. A/C or D/C power can be used.

Provided is a ball supply integrated type auto tee-up machine with a simple structure, and more particularly, to an advanced concept technology for easily improving a structure of an auto tee-up machine while performing complexly a function of supplying a golf ball to a golf tee and a function of teeing-up the golf ball on the golf tee by using a single motor. The present invention provides a technique to implement a function of allowing a second ball chute to supply a golf ball to a golf tee and a function of teeing-up the golf ball placed on the golf tee with one-stop automation after delivering the golf ball inserted to a first ball chute to the second ball chute while the golf tee and the first ball chute ascend/descend and the second ball chute descends/ascends in an opposite direction at the same time by using a single tee-up motor.

A light charger charges a plurality of luminescent balls to emit light for use in dim lighting. The charger is a housing subdivided into a hopper section, a transport and light charging section, and a base section. The transport and light charging section includes a transport assembly integrated with a light charging assembly, with the transport assembly configured to receive and transport luminescent balls from the hopper into and through the light charging assembly, which comprises at least one light source. The light source comprises at least one LED and an illuminating light panel interposed between the LED and the luminescent ball when operating. The base section comprises an ejection exit point for the charged luminescent ball to exit the light charging assembly and a sensor for activating the system to eject at least one luminescent ball.