Board sport simulator and training device

A balance board-training device made up of a training board, a pivoting device permanently connected to the underside of the training board and a rolling device that is configured and positioned so as to be able to roll across the underside of said training board. In use a rider stands on the upper side of the board or deck. As the rider moves, the one portion of the device pivots upon the dome shaped pivoting mechanism and the other end of the device moves and is able to move both side to side, as well as in a rising and falling motion as the rolling device of the present invention moves beneath the board.

FIELD OF THE INVENTION

The present invention generally relates to athletic training and sports performance enhancement devices, and more particularly to, a balance training and sports performance enhancing apparatus for use with board sports such as snow boarding, surfing, wakeboarding and the like, as well as a ski training device.

BACKGROUND OF THE INVENTION

In recent times, the popularity and number of participants in sports that require a rider to balance themselves upon a board has grown tremendously. Examples of such sports include surfing, skateboarding, snowboarding and wake boarding which require the placement of both feet upon a single board, as well as skiing which requires the placement of each foot upon individual board.

One problem, however, that exists with the participation in many of these sports is that these activities must often be performed in locations under conditions that are not easily reproducible in other locations. Hence, one's ability to master certain skills related to the use of one of these devices is limited. Another problem which exists is that in many instances multiple devices must be utilized to master skills related to both boarding activities as well as skiing activities.

What is needed therefore, is a training device that enables a person to practice various movements upon a board-training device while remaining in a generally stationary location and position. In the past, a variety of other devices have made attempts to simulate and recreate the feel of riding a board type of device. However, none of these devices have proven effective in one of these devices and none of these devices have provided a device that allows for some of the most basic moves to be simulated and recreated in a generally stationary practice location.

For example, the device described in U.S. Pat. No. 5,545,115 contains a singular elongated cylinder and is positioned beneath the platform of the device. This elongated cylinder rolls from one position to another along the bottom of the device. This device lacks the ability to properly simulate the movement and action of a device such as a snowboard or surfboard that does not have this longitudinally positioned wheel, and which is steered by shifting one's weight so as to allow the portion of the board near the back of the device to remain in one position, while the front of the device is swept in a direction which allows the direction of the turn to be selected.

Other types of training devices have also been invented that attempt to recreate the feel of a snowboard type of device. An example is described in U.S. Pat. No. 5,584,787. This device also includes a location and adaptation that allows the rotation and pivot of the board over a pair of points. However, this device also fails to provide a device that allows one end of the board to pivot over a point while the other end of the device swings in a generally semicircular path. This device particularly does not allow the user to point the front end of the device in a downward orientation while moving the front end of the device in a lateral direction to either the left or the right so as to simulate the sweeping movement that is required by the use of a snowboard, surfboard, skateboard, or the like in actual practice.

These aforementioned desired types of movements are the natural movements that are utilized by most board users so as to be able to control the rate of speed and the orientation of the board and its rider as they traverse a designated surface. None of the prior art devices describe a device that allows a user to practice such movements, or provide a training device that truly replicates the feel and movements that takes place when such a device is utilized on the actual desired sport surface.

The present invention has a design that provides a user with this ability to practice those techniques and train those particular muscle groups that will be utilized and implemented in the actions of riding and utilizing a surfboard, snowboard, skateboard, or other such similar device. The device of the present invention can be utilized indoors or outdoors and provides a variety of advantages to the user as a training and recreational device. This is due in part to the ability that a rider of this device has to sweep the front end while the rear portion pivots and rocks over a pivot point. In addition to this feature by reversing the orientation of the board from the orientation that is utilized in recreating boarding activities the present invention can also be utilized as a ski training device.

SUMMARY OF THE INVENTION

The present invention is a combination balance training board, board sport training device, and ski training device that allows a party to improve their balance, muscular coordination and timing while simulating various maneuvers that are commonly performed in various sports.

In the preferred embodiment of the invention, described more fully hereinafter, the invention is comprised of three principal pieces: a board, a pivot point and a rolling device. While in this embodiment three key pieces are shown, it is to be understood that the invention is in no way limited to this description and that various additions to these pieces may be envisioned and included with the invention while remaining within the scope of the present claims.

The first of the pieces of the invention is a platform or board. This platform or board can be variously configured to have the general outer dimensions and configurations as are typically found in a particular board sport. The exact specification of the particular platform or board may be varied according to the particular needs and necessities of a user. In the preferred embodiment of the invention, the board is dimensioned so as to allow for placement of users' feet at approximately the same distance that these feet would be positioned when a rider is positioned upon a particular board device. In addition in the present preferred embodiment, the training board is made of wood and is covered with a textured silica or resin coating so as to provide a desired level of protection and tack to the board surface. In some embodiments of the invention, the position of the board as well as the other elements described herein, may be variously modified so as to allow the user to approximate the desired positioning and feel of a designated type of device.

Attached to the underside of the board, near the rear portion of the board, is a generally dome-shaped protrusion that serves as a pivot point. This pivot point allows a user to both pivot the front end of the device as well as rock the rear portion of the device in such a way so as to simulate the movement of a typical sport board in response to the movement of the user's weight upon such a device. This dome shaped protrusion allows the board to tilt and pivot in any one of a variety of directions at a particular time. In the preferred embodiment, this pivot point also contains a connection point for an arm that is connected to a wheel, which serves as a roller beneath the board-rolling device. The rolling of the roller together with the pivoting of the arm about a fixed point enables the first end of the board to be swept in a desired direction when in use. As is described more fully hereafter, in embodiments where the user is attempting to perform board sport maneuvers, this first end is located in front of the user. While in embodiments where the user is utilizing the device as a ski training device this first end is located in back of the user.

In one preferred embodiment of the invention, an elastic cord such as a bungee or spring is connected to the first, second or both the first and second ends of the training board. This cord is then connected to the wheel of the control arm and assists to hold the wheel and the control device in a desired position, orientation and alignment with the board itself.

In some embodiments, the underside of the board also contains a pair of stops positioned along the outer margins of the board. These stops prevent the wheel from rotating out of the designated path. In other embodiments, the connection between the roller and the board contains a separate stopping mechanism that controls the arc of the rotation of the wheel. In such embodiments, the placement of stops along the margins of the underside of the board is not necessary. In other embodiments, a protective track surface may be placed on the underside of the board so as to prevent damage to the underside of the board by the movement of the wheel across the underside of the board.

In use a rider stands on the upper side of the board or deck. As the rider shifts his weight the board engages in various movements. The second portion of the device pivots upon the dome shaped pivoting mechanism. As the second end of the device pivots around this pivot point, a roller that is positioned under the board rolls between the floor and the underside of the board itself. This causes the first portion of the board to be moved in both lateral and vertical directions. In addition to this use, when the device is oriented so that the user is positioned between the roller and the pivot point of the invention and is facing toward the second end of the device, the device can be utilized as a ski trainer wherein movements on the left leg force the device to move to the right, and movements of the right leg cause the device to move to the left.

This configuration provides a variety of advantages to a user. A user while standing on the top of the board facing the first end can shift his weight to swing the front end of the board in a variety of lateral directions by pivoting the board upon the rear pivot point. The weight of the rider causes the front end of the board to ride over the top of the wheel, and simulates the action and movements that a user would have to make to engage in turning a board upon a surface such as snow. To simulate a turn in the opposite direction, the rider can then shift their weight or press their feet in the opposite direction or on the other side of the board. By repeating and varying these movements, the coordination and balance required to control a surfboard, snowboard, skateboard, or the like, is approximated and improved. In addition to its use as a training device, the present invention may also be used as a recreational device in and of itself.

This device can be utilized either indoors or outdoors. Unlike other balance boards, the present invention allows the rider to actually turn the board using the same techniques used for turning snowboards, skateboards and surfboards. This invention allows a user to practice shifting their weight and controlling their bodies in a way that is substantially similar to the way that this is actually done in an actual situation. Thus, providing enhanced feel and providing greater and enhanced capabilities to the user.

Still other features and advantages of the present invention will become readily apparent to those skilled in this art from the following detailed description describing only the preferred embodiment of the invention, simply by way of illustration of the best mode contemplated by carrying out my invention. As will be realized, the invention is capable of modification in various obvious respects all without departing from the invention. Accordingly, the drawings and description of the preferred embodiment are to be regarded as illustrative in nature, and not as restrictive in nature.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The present invention is a combination balance board and board sport training device that allows a party to improve their balance, muscular coordination and timing while simulating various maneuvers which are commonly performed in various board sports such as snow boarding, skateboarding, surfing and the like. The present invention more closely simulates the actual movements of a rider when placed upon a board and engaged in the actual activities such as snowboarding, surfing, skateboarding and the like. In addition, the device can be utilized as a recreational device in and of itself, as well as a ski training device.

Various views of the preferred embodiments of the invention are set forth in the attached drawings1-12and are described hereinafter.FIGS. 1A and 1Bshow two uses of the invention by a typical rider.FIG. 1Ashows one use of the invention by a typical rider. In this use, a rider places his feet upon the top surface14of the board12in a position wherein the feet of the rider are approximately shoulder width apart and directed generally perpendicular to the longitudinal orientation of the device. As the weight of the rider is placed upon the board12, the board12will pivot and tilt as will be described in further detail hereafter. The rider can then vary the position and movement of the board12by appropriately shifting their weight so as to cause the board to move in a desired position and orientation.

InFIG. 1Bof the application, this same device is used by a rider facing backwards upon the device with their feet approximately 10 inches apart and aligned in parallel with the longitudinal axis of the device. As the rider moves their body and shifts their weight upon the device, the board responds similar to the way that skis do for a skier when this skier is upon a ski slope. Namely, an increase of weight upon the left leg will cause the device to move to the right and an increase of weight upon the left leg will cause the device to move the right.

In order to simulate the natural movements of various sporting devices, as they currently exist, the board of the present invention must be able to move in several different directions. As is shown inFIG. 2, the first portion of the device must be able to pivot or sweep about a pivot point22located near the rear20of the board12. As is shown inFIG. 3, the top portion14or deck of the device10must also be able to rotate or pivot over a rolling device30that lies along a generally longitudinal axis. At times, all of these movements must take place simultaneously.

Referring now toFIGS. 4-7, various views of a first preferred embodiment of the invention are shown. In a first preferred embodiment of the invention, the invention10is comprised of a training board12, which has an upside14, an underside16, a first end portion18, and a second end portion20. Attached to the underside16of the training board12, is a pivoting device22and a wheel or rolling device30that is connected to a control arm24. In the preferred embodiment of the invention, the pivoting device22is made from a hardened plastic that is formed in a generally dome-like shape. In some embodiments of the invention, this pivoting device22is generally hollow. In some embodiments of the invention, this pivoting device22may further define an aperture42, which is utilized in some embodiments of the invention, such as those embodiments shown inFIGS. 8-12, to control the movement of the control arm24, and thus, the arc that the wheel30will travel in.

This pivoting device22allows a user to both pivot the first end18of the device, as well as to rock the second end portion20of the device in such a way so as to simulate the movement of a typical sport board in response to the movement of the user's weight upon such a device10. This pivoting device22allows the board to tilt and pivot in any one of a variety of directions at a particular time. In the preferred embodiment, this pivot point22also contains a connection device such as a bolt or other similar device that connects the control arm24of the device to the underside16of the training board12.

In some embodiments, the underside16of the board12also contains a pair of stops38,38′ that are preferably positioned along the outer margins of the board. These stops38,38′ prevent the wheel or rolling device30from traveling outside of a designated path. In other embodiments of the invention, the connection between the control arm24and the training board12contains a separate stopping mechanism that controls the path in which the wheel30will travel. In some embodiments, a protective track40may be placed on the underside16of the board12so as to prevent damage to the underside of the board by the movement of the wheel30.

The control arm24has a first end26, which is connected to the wheel or rolling device30, and a second end28, which is connected to the underside16of the training board12. The control arm24either by nature of the material from which it is made of, or by virtue of the connection between the underside16of the training board, is able to travel in a designated arc shaped path along the bottom surface of the board12. In this first preferred embodiment of the invention, the wheel30is connected to a first end spring connection device48by an elastic cord, spring or bungee36. This spring or bungee assists to return the wheel30to a desired position generally perpendicularly aligned with the longitudinal axis of the board.

In the second preferred embodiment of the invention shown inFIGS. 8 and 9, the control arm24also contains a control arm pivot point34, which is pivotally connected to the underside16of the training board12and a connection portion32, which is configured to interact with a flexible connection device44that is also an elastic cord, spring, bungee or other similar item. This flexible connection device44is connected to the rear portion20of the underside16of the board12, through a second end spring connection device48. In other embodiments of the invention, the control arm24may be held in a desired position and orientation by another type of clamp or connecting device.

In a third preferred embodiment of the invention shown inFIGS. 10-12, the control arm24is connected to the underside16of the training board12by a two piece clamp50referred to in some instances as a universal clamp. Such a clamp50is made from a first piece52that is fixedly connected to the underside16of the board12. A second piece54, which is compatibly configured to be placed over and to connect with the first piece52, is then placed on top of the first piece and is interconnected with the control arm24. A connector56holds the two pieces together. In the preferred configuration, the first and second pieces52,54each have a high side and a low side and interact so as to restrict movement of the control arm24within a designated arc.

In use, a rider stands on the upper side of the board or deck. As the rider makes various movements, the second end portion20of the device12pivots upon the dome shaped pivoting mechanism22. As the second end20of the device pivots around this pivot point22, a wheel30that is positioned near the first end18of the board between the board and a lower surface, travels between a lower surface and the underside16of the board12itself.

When weight is placed upon the topside14of the training board12, the board will tip upon the pivot point22. This tipping will then cause the wheel30that is in contact with the underside16of the training board12to roll. The amplitude and range of the arc in which this wheel30will roll is controlled by the movement of the control arm24, and in some instances, by the stops38,38′ that are positioned along the margins of the underside16of the training board12itself. In some embodiments of the invention, the arc in which the wheel30will roll may also be controlled solely by the configuration of the control arm24and the connection of the control arm24with the training board12.

This configuration provides a variety of advantages to a user. A user while standing on the top14of the board12can shift his weight to swing the first end18of the board12in a variety of lateral directions by pivoting the board12upon the rear pivot point22. The weight of the rider causes the first-end18of the board to ride over the top of the wheel30, and for the first end18to move both in a vertical as well as in a lateral direction. This simulates the action and movements that a user would have to make to engage in turning a board. To simulate a turn in the opposite direction, the rider would then shift their weight or press their feet in the other direction or on the other side of the board. By repeating these movements the coordination and balance required to control a surfboard, snowboard, skateboard or the like is approximated. In addition to its use as a training device, the present invention may also be used as a recreational device in and of itself as well as a ski training device.

While there is shown and described the present preferred embodiment of the invention, it is to be distinctly understood that this invention is not limited thereto, but may be variously embodied to practice within the scope of the following claims. From the foregoing description, it will be apparent that various changes may be made without departing from the spirit and scope of the invention as defined by the following claims.