Pitching mate system and method for baseball pitcher training

A pitcher's motion training system and method are provided The system comprises a target with a top surface at rest in a horizontal position, and a momentary deflection position assumed in response to receiving a towel-strike. A support is included with a base for interfacing with the ground and a height adjustment mechanism. The height adjustment mechanism includes a strut mounted to the base and a telescoping member slideably engageable with the strut. The system further comprises a tensioner interposed between the target and the support. The tensioner creates tension between the target top surface and the support in the deflection position.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention generally relates to sports and fitness training equipment and, more particularly, to a system and method for training a baseball pitching motion.

2. Description of the Related Art

The motion of throwing a ball is one that must be learned. The motion requires a mixture of strength and technique. Anyone who has raised a child is aware that a “good throw” is the result of hundreds, and perhaps thousands of practice attempts. A baseball pitcher's throwing motion is particularly critical, as it must be fast, accurate, and capable of creating complex spins on the ball.

However, there are few drills to develop a pitcher's throwing motion, outside of the actual act of throwing itself. One well-known practice technique is the so-called towel-drill. The drill requires two participants; the pitcher and a second person. The pitcher uses an approximately 24 inch hand towel, folded in half over the middle finger of the throwing hand, with the ends of the towel extending approximately 12 inches. Beginning with the pitcher at rest in a standard starting pose, the second person faces and stands a distance from the pitcher dependent upon the pitcher's unique throwing style and stride. The second person horizontally extends a glove. The pitcher winds up and delivers a towel-strike to the outstretched glove. The soft glove, and the flexibility inherent in the glove's extension, dissipates the energy, preventing damage to the pitcher's arm. The finishing stance of the pitcher, the amount of energy delivered to the glove, and the placement of the towel-strike on the glove can all be used as indicators of the throwing motion. This drill can be used to enhance a pitcher's balance, arm strength, and accuracy. However, this drill is labor intensive, requiring two participants to drill a single player. Further, it is preferable that the second person be a pitching coach, to provide useful feedback in response to the towel-strikes. Hence, the pitcher can only practice the drill when a coach is available.

It would be advantageous if a pitcher could practice the towel drill without the necessity of a pitching coach or a second person to hold a glove.

It would be advantageous if a pitcher could practice the towel drill on a target that both dissipated the energy of the towel-strike in a controlled manner and provided useful feedback.

SUMMARY OF THE INVENTION

The present invention Pitching Mate™ training system is a stand-alone device that is used to assist a baseball pitcher in performing a conditioning and balancing exercise called the towel drill, without the assistance of another person. The invention is designed to allow the pitcher to throw dry pitches (a pitch without a ball). Instead of using a ball, the pitcher uses a 24″ hand towel, folded in half over the middle finger of the throwing hand with the end of the towel extending 12″. The purpose of the invention is to assist a pitcher in the development of sound pitching mechanics. The drill, as practiced with the pitcher training system, develops the body's neuromuscular system in conjunction with the biomechanics of human movement, thus decreasing the likelihood of injuring a pitcher's arm and/or shoulder.

Accordingly, a pitcher's motion training system is provided comprising a target with a top surface at rest in a horizontal position, and with a momentary deflection position assumed in response to receiving a towel-strike. A support includes a base for interfacing the system with the ground. A height adjustment mechanism is also included. The height adjustment mechanism includes a strut mounted to the base and a telescoping member slideably engageable with the strut. The system further comprises a tensioner interposed between the target and the support. The tensioner creates tension between the target top surface and the support in the deflection position.

Additional details of the above-described system and a baseball pitching training method are provided below.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIG. 1is perspective drawing of the present invention pitcher's motion training system. The system100comprises a support102and a target104attached to the support102. The target104has a top surface106, at rest in a horizontal position, to receive towel-strikes. In some aspects of the system100, the target104is a Plexiglas or polycarbonate material. In other aspects, the size and the shape of the target can be modified, to permit a pitcher to work on their accuracy. In some aspects the system comes equipped with a plurality of targets (not shown), each having a different form factor, to further the development of different throwing techniques.

FIG. 2is a side view of the system100of FIG.1. The target top surface106is shown with dotted lines in a momentary deflection position that is assumed in response to receiving a towel-strike. The solid lines top surface106represents the target (horizontal) rest position. As explained in more detail below, there is not one particular deflection position. Alternately stated, the deflection position is dependent upon the energy and placement of the towel-strike and target tension. A tensioner, described in more detail below, is interposed between the target104and the support102. The tensioner creates tension between the target104and the support102when the target104is in the deflection position.

FIG. 3is an assembly drawing of the support102, and featuring a target height adjustment mechanism108. The support102includes a base110to interface the system with the ground. As shown, the base110is a tripod. However, the invention is not limited to any particular base configuration. The target height adjustment mechanism108includes a strut112having a first end114mounted to the base110, and a second end116. A telescoping member118is slideably engageable with the strut112. The telescoping member118has a first end120and a second end122. Also shown is a clamp assemble124/126/128/130to securely interface the telescoping member118to the strut112, once the target height has been selected. Although the height adjustment mechanism has been described as a two-piece telescoping devices, other adjustment means are known by those skilled in the art that would enable the same function.

FIG. 4is an assembly drawing featuring the tensioner132. Once assembled, the tensioner assembly132is housed internal to the telescoping member118. The internal housing of the tensioner132shields and prevents damage to moving parts.

FIG. 5is an assembly drawing featuring additional details of the tensioner132of FIG.4. The tensioner132includes a bearing plate134having a first end136attached to the target104, and a second end138. A top plate140can be used to secure the target104to the bearing plate134. A cylindrical bearings holder140is attached to the bearing plate134. Bearings (not shown) are mounted in the bearings holder140. As shown, in some aspects of the system the bearings are secured in bearings races142. A spring metal sheet144has a first end146attached to the bearing plate second end138. The spring metal sheet144has a second end148. In some aspects, the spring metal sheet144is stainless steel. A coiled spring150has a first end152attached to the second end148of the spring metal sheet144, and a second end154attached to the telescoping member.

In some aspects of the system, the tensioner132includes a selectable tension adjusting mechanism. Considering bothFIGS. 4 and 5, the tensioner132further includes an adjustment screw156having a screw head158attached to the coiled spring second end154, and a threaded end160. A bottom cap162mates to the telescoping member second end122. The bottom cap162is channeled or threaded to accept the adjustment screw threaded end160. Alternately, the nut is attached to the bottom cap162to accept the threaded end160. The adjustment screw156adjusts the tension between the tensioner132and the telescoping member118. The coiled spring150is stretched between the sheet metal spring144and the adjustment screw156in response to moving the target104in the deflection position, and relaxed in response to moving the target104in the rest position (see FIG.2).

In some aspects, the telescoping member first end120includes a top swivel bracket164to accept the bearing holder140between symmetrical openings, such as bolt holes. A fastener166, such as a bolt, passes through the top swivel bracket openings and the bearing holder140to rotatably connect the bearing holder140to the top swivel bracket164, through the action of the bearings.

The various elements of the above-described system can be made of commercially available metals and plastics. It would be well within expertise of one skilled in the art to select materials, and combinations of materials that would be cost effective, light, and durable. Therefore, it is not necessarily to particularly describe the range of materials from which each element can be fabricated.

Although no particular feedback mechanism is shown, it would be within the expertise of one skilled in the art to provide a feedback mechanism, so that a pitcher could measure the intensity of the towel-strikes, and indirectly gauge their throwing motions. In one aspect, the system could emit tones response to the target deflection angle. For example, a higher tone could be emitted in response to a larger deflection angle (harder towel-strike). Note that the tones can also be calibrated to an absolute energy level responsive to the deflection angle and the selected tension level. In another aspect, the feedback system could emit a light whose color or brightness varied in response to the deflection angle.

Returning toFIG. 2, a range finder170is depicted that is connected to the support102to determine a starting stance, measured with respect to the target104. As shown, in a simple enablement, the range finder170is a string with a length172that has been calibrated to the height and motion of a particular pitcher. The pitcher extends the string range finder170to determine the starting position. For example, the pitcher may position their toe at the end of the string. In other embodiments the string length can be made adjustable to accommodate a plurality of pitchers. In some aspects, the starting position is determined by the type of drill that is to be performed.

In some aspects not shown, the system may include a user interface to accept a pitcher's height and supply a string length in response to the height. That is, the range finder170may include a calculator (not shown) with a user interface (not shown), such as a keypad, to accept user parameters and an output to supply a start position calculated in response to the user parameters. The output could be a display readout of a determined string length, or the calculator could automatically control the string length. In other aspects, the string length may be supplied in response to inputting particular pitcher identities, and a string length is then supplied from a user interface memory. It would be well within the skill of one in the art to enable the system with a laser optical system that could create a dot on the ground to indicate the pitcher's starting position, and replace the string range finder.

FIG. 6is a perspective view of another aspect of the present invention pitcher's motion training system. This aspect of the invention illustrates that the invention can be enabled through a variety of means, besides those shown inFIGS. 1 through 5, that would be known by those skilled in the art. Briefly, the system200ofFIG. 6includes a base frame202, with an adjustable bridge204connected to the frame202. A striking target206extends from the horizontal member of the bridge204. The system elements can be fabricated from materials including PVC pipe, aluminum, wood, steel, copper, rubber, Plexiglas, plastic, or combinations of the above-mentioned materials.

The bridge204includes members204aand204bthat are fixedly connected to the base frame202, and telescoping members204cand204dthat are selectively engageable with the fixed members204aand204bto adjust the target height. In one aspect, a series of aligning holes are drilled through members204a,204b,204c, and204d. Then, pins can be inserted through the aligning holes. In one aspect, the target206is made of compressed wood and attached to the bridge through the use of coiled spring208. The spring attachment means may include hinges, glue, rubber, or screws, to name a few examples.

Functional Description

System Setup

First, the pitcher adjusts the system to their personal height by manipulating the height adjustment mechanism, so the striking target is approximately even with the navel of the pitcher. After the system is adjusted to the pitcher's height, the pitcher's starting position can be determined. The starting position can be determined using a range finder, as described above, or determined manually using either the stretch or windup position. The stretch position is preferable for beginning a drill, moving to the windup position, after drills in the stretch position have been completed. The pitcher performs the setup and the drill by folding a 24″ towel in half and then draping it over the middle finger of this throwing hand so that it extends 12″.

To create an initial starting position, the pitcher assumes their stretch position/windup as if they were addressing the rubber on a mound with their back or posting foot. The pitcher then “marks” this as the starting point for his posting foot to create an imaginary rubber. For a right-handed pitcher, this would be the outside of the right foot; for a left-handed pitcher this would be the outside of the left foot. From this first mark the pitcher then performs the dry pitch (stretch or windup) with full effort, with the snapping towel that extends 12″ from the middle finger. At the end of the dry pitch the pitcher stops and notes the placement of the landing foot. From this landing point where the pitcher's foot stops, the pitcher then walks off five (5) steps placing one foot in front of the other foot, heel to toe. The pitcher then marks the distance of this fifth (5th) step and aligns the striking target of the system directly over the second mark, squared up to the imaginary rubber. The striking target is, then, stride plus five (5) feet from the starting position in stretch/windup. If the system is so equipped, the pitcher can log this starting position is system memory for future reference, so that the range finder can be used to supply the starting position in subsequent drills.

The Drills

Full Delivery Drill

The pitcher begins at the starting position and takes their pitching stance (stretch or windup). The pitcher addresses the striking target and performs a dry pitch, using the 24″ towel draped over the middle finger of the throwing hand so the towel is 12″ in length. As the pitcher strides out, the objective is to hit the striking target solidly with the towel. This part of the exercise is to be repeated until the pitcher is able to hit the striking target successfully a number of times without losing their balance. A successful hit means the towel hits the striking target soundly, at its middle to upper portion.

If the pitcher misses the striking target to the right or left, their posture must be changing during delivery. If the pitcher misses the striking target short, then their glove-side arm is moving down or back prematurely (before striking the target). The pitcher can then make adjustments that will assist in hitting the striking target successfully.

Balance Drill

Once the striking target has been struck solidly a successive number of times without losing posture or glove side, the pitcher then performs a balancing drill.

As the pitcher completes a final dry pitch, they hold the follow-through stance, as if frozen at the end of the pitch. For example, the body is extended forward, perpendicular to the ground, balancing on the landing leg. A right-handed thrower will balance on their left leg; a left-handed thrower will balance on their right leg. The posting leg (same side as his throwing arm) is extended up and behind the body, horizontal to the ground with his glove over front foot, eye high extended forward, and on-line with the striking target. The torso should be stable and parallel to the ground. This position is maintained for the duration of the exercise. Without losing balance the pitcher takes the towel with the throwing hand/arm and gently, in a small circular motion, slaps the striking target five (5) times. Once this series is completed successfully, the arm speed is increased to at least 50% of the full motion. Again, maintaining balance, the pitcher slaps the striking target five (5) times. Once this series is completed successfully, the arm speed is increased to 100% of the pitching motion. Continually maintaining balance, the pitcher hits the striking target as hard as possible five (5) times in succession. The towel drills are completed when an individual pitcher has repeated them perfectly, with repetitions and effort to tolerance.

FIG. 7is a flowchart illustrating the present invention baseball pitching training method. Although the method, and the method described byFIG. 8, is depicted as a sequence of numbered steps for clarity, no order should be inferred from the numbering unless explicitly stated. It should be understood that some of these steps may be skipped, performed in parallel, or performed without the requirement of maintaining a strict order of sequence. The method starts at Step300.

The following description of the invention is understood to highlight a means of providing a pitcher with a stress-free means of practicing the towel drill. That is, the method permits the energy imparted by the pitcher, through the towel, to be dissipated in a manner that does not harm the shoulder or arm.

Step302positions a target. In some aspects, Step302includes selecting a target height. Step304receives towel-strikes on a top surface of the target. Step306controllably dissipates the energy received at the target from the towel-strike. In some aspects of the method, positioning a target in Step302includes establishing a target rest position. Then, controllably dissipating the energy received at the target from the towel-strike in Step306includes the target assuming a deflecting position in response to each towel-strike. In some aspects, a further step, Step308, following the assumption of the target deflecting position, reestablishes the target rest position.

In other aspects, establishing a target rest position in Step302includes establishing a target top surface rest angle. Then, the target assuming a deflecting position in response to each towel-strike (Step306) includes the target top surface assuming a deflection angle in response to each towel-strike. In some aspects, establishing a target top surface rest angle in Step302includes establishing a horizontal target top surface.

In other aspects, establishing a target rest position (Step302) includes establishing a tensionable target in a tension-free position. Then, controllably dissipating the energy received at the target from the towel-strike includes deflecting the target into a target tension position, in response to towel-strikes.

In some aspects a further step, Step301aselects the target tension. Then, controllably dissipating the energy received at the target from the towel-strike in Step306includes controlling the dissipation of energy in response to the selected target tension. Although some energy is absorbed in the system base and support, in some aspects the target tensioner is the greatest factor in the controllable dissipation of towel-strike energy.

In other aspects, positioning a target in Step302includes selecting a towel-strike starting stance. Then, receiving towel-strikes on a top surface of the target in Step304includes receiving towel-strikes initiated from the starting stance.

FIG. 8is a flowchart illustrating another aspect of the present invention baseball pitching training method. The following description of the invention is understood to highlight a means of providing a pitcher with feedback to gauge the “success” of the towel drill. That is, the method permits the energy imparted by the pitcher, through the towel, to be measured in a manner that permits a pitcher to evaluate their throwing motion.

The method starts at Step400. Step401selects a target tension. Step402positions the target. In some aspects Step402includes selecting the target height. Step404receives towel-strikes on a top surface of the target. Step406measures the energy of the received towel-strikes. In some aspects of the method a further step, Step408, controllably dissipates the energy received at the target from the towel-strike.

In some aspects, positioning a target in Step402includes establishing a target rest position and measuring the energy of the received towel-strikes in Step406includes the target assuming a deflecting position in response to each towel-strike. In other aspects, a further step, Step410following the assumption of the target deflecting position, reestablishes the target rest position.

In some aspects, establishing a target rest position in Step402includes establishing a target top surface rest angle. Then, the target assuming a deflecting position in response to each towel-strike (Step406) includes the target top surface assuming a deflection angle in response to each towel-strike.

In some aspects, receiving towel-strikes on a top surface of the target in Step404includes receiving a second towel-strike of greater intensity than a first towel-strike. Then, measuring the energy of the received towel-strikes in Step406includes assuming a first deflection angle in response to the first towel-strike and a second deflection angle, greater than the first deflection angle, in response to the second towel-strike.

In some aspects, establishing a target rest position in Step402includes establishing a tensionable target in a tension-free position. Receiving towel-strikes on a top surface of the target in Step404includes deflecting the target into a target tension position, in response to towel-strikes. Then, measuring the energy of the received towel-strikes in Step406includes measuring the difference between the target tension position and the target tension-free position.

A pitcher's training system and method have been provided. A few examples of use have been given to clearly illustrate the invention. However, the invention is not limited to merely these examples. The invention has also been described in the context of a baseball pitcher. However, it should be understood that the invention would have use in other sports where players use a type of throwing motion. Other variations and embodiments of the invention will occur to those skilled in the art.