The invention relates to the sport of golf, and includes a number of important aspects including a device to improve the golf swing of the player, more particularly to a constant force system that assists the user in developing a correct backswing, downswing and follow through. The invention also includes methods of swing plane training and internet-based management that permits the inventive devices to be operated on a “training time” subscription or rental basis.
The very popular sport of golf entails a very complex motion to swing a golf club so as to either propel a golf ball a maximum distance in a desired direction, or to propel the golf ball a carefully controlled distance in a precisely determined direction. Almost all golf players strive to improve their skill at the game, and improved skill generally leads to increased enjoyment of the game.
Despite the complexity of the golf swing, the usual game of golf typically entails a relatively small number of swings or strokes, generally in the range of 70 to 100 or so, and about a third of these are putting strokes that require an entirely different technique. Because of variations in topography on a golf course, few of the remaining swings are the truly repetitive swings needed for skill improvement. Thus even the most dedicated of golf players must usually resort to off-course practice to improve their golf skills.
Many golf players make use of golf driving ranges, which allow the player to practice repetitive swings under virtually identical conditions. While such practice is undoubtedly valuable, it requires a trip, sometimes of some considerable distance, to a golf driving range. Furthermore, simple repetition, as at a driving range, does not assure that the swing is being performed correctly. As a result, many golf training devices have been developed for use in the home (or the garage or backyard) to assist a golf player to improve his/her golf skill. See, for example: Sanford, U.S. Pat. No. 6,293,875; Pelz, U.S. Pat. No. 6,312,345; Bayton et al., U.S. Pat. No. 6,277,030; Kessler et al., U.S. Pat. No. 5,984,797; and Kossnar et al. U.S. Pat. No. 6,431,991. Many of the training devices of the art are quite complex and expensive.
Brandon, in U.S. Pat. No. 2,848,234, teaches a golf-swing conditioner comprising an extensible elastic member terminating at one end in a golf-club-like handle, and terminating at the other end in a screw-eye or similar means for attachment to a stationary surface. The device taught by Brandon is designed to allow a user to practice his/her golf swing, and to condition the muscles employed in the golf swing, against the resistance provided by the elastic extensible member. The invention of Brandon lacks any features that would serve to induce or constrain the user to correctly perform the critically important backswing and downswing phases of a golf swing.
Fenton, in U.S. Pat. No. 5,947,835, teaches a golf swing exerciser and trainer device also comprising an extensible elastic member terminating in a golf-club-like handle, the other end of the device of Fenton being adapted to allow attachment to a stationary device such as a door knob. Like the device of Brandon, the device taught by Fenton also lacks any features which would serve to induce and constrain the user to correctly perform the critically important back swing and down swing phases of a golf swing.
Another approach to golf swing training is shown in U.S. Pat. No. 5,984,797 (Kessler et al.) and U.S. Pat. No. 6,431,991 (Kossnar et al.). The complex device of these related patents involves a pelvic belt that wraps around the golfer's hips and guides the golfer's pivot during the swing. A relatively complex and costly adjustable, dual axis mechanism constrains and guides the pelvis in a first axis in the back and downswings, and in a second axis in the follow through. Although this device addresses the pelvic rotation and weight shift during the swing, it does not address the development of a proper swing plane, arm extension, wrist positioning or the development of the proper pull-through of the opposite, lead shoulder and hip. That is, golf for a right-handed player is a left side game, and for a left-handed player is a right side game. Since the opposite side is not the dominant side for the player, having the opposite side (predominantly the shoulder) be the key is counter-intuitive, intellectually and consciously. Correspondingly, it is difficult to develop the proper muscle memory to counter the natural dominant tendencies of the following side.
Learning or improving a complex physical task such as an optimum golf swing requires repetitive performance of the task, and involves the complex interaction of the muscular and nervous systems. In particular, repetitive feedback of nerve signals from proprioceptive receptors (nerves which sense position and/or pressure in a muscle, joint or other tissue) to the central nervous system result in “imprinting” the feedback on the central nervous system, until performance of the task becomes reflexive. This imprinting process is often referred to, although technically incorrectly, as “muscle memory”.
This process is clearly illustrated in the process by which a child learns to walk, from the first tentative and awkward steps of a two-year old to the relaxed and graceful gait of three- or four-year old. The difficulty faced in relearning how to walk following an accident, injury or stroke illustrates the complexity and reflexive nature of walking. One does not have to think about how to perform and coordinate all of the muscular actions required to walk; ideally one should not have to think about how to correctly perform an athletic activity such as hitting a golf ball. Ideally, one should not have to be concerned with the result of the swing, i.e., where the golf ball is going, when attempting to learn and imprint the golf swing sequence. It is well understood in the sport that “The golf ball is the bane of the golf swing”.
An optimal training device to improve an athletic skill would induce or constrain the user to perform the action of the skill in the correct or most advantageous manner, and allow the user to repetitively practice that action until it performing it correctly becomes automatic or reflexive. To quote an old saying, particularly applicable to golf, “Practice makes perfect only if you practice perfectly.”
To be useful for the greatest possible number of golf players, a golf training device should also be inexpensive, should not occupy much space in the home when not in use, and should be quickly and easily set up for use, and quickly and easily disassembled after use.
Perfecting the golf backswing—the initial part of the golf swing, in which the golfer swings the golf club to a position above and in front of the trailing shoulder (the right shoulder for a right handed golfer) to begin the swing—is an often-neglected activity in efforts to improve one's golf skill, yet many golf teachers consider the backswing to be the key to a good golf swing. A consistently good swing cannot be developed if the backswing is poor or inconsistent. Therefore, there is a need for an effective training device to assist golfers in perfecting their backswing. Ideally, such a training device should also provide assistance in perfecting the downswing the phase of the golf swing immediately following the backswing, where the golfer brings the golf club down from the position at the top or end of the backswing to the position of impact on the golf ball. Such a device could thus assist golf players both in the perfection of their backswing and the transition to the downswing.
Furthermore, golf players, in striving to improve their golf swing, must learn to use their non-dominant arm and shoulder muscles to produce the major force of the golf swing, particularly of the downswing, and to counteract the tendency to let the dominant side take over. That is, a right-hand-dominant golf player must train himself/herself to use the left arm and shoulder to produce most of the power of the golf swing. Proper use of the non-dominant arm and shoulder must be imprinted on the golf player, and an ideal golf swing training device should assist the user in strengthening the musculature of the non-dominant side, and make the use of the non-dominant side, to provide most of the golf swing's power, a reflexive action. The dominant-side musculature does, of course, provide important power to the golf swing, in the impact and post-impact phases of the swing.
Accordingly, there is a significant and important unmet need in the field of golf training for proper golf swing plane training, and more particularly for a device and system that is simple yet effective and addresses the issues of development of muscle memory in the upper body for proper lead-side dominance to produce a smooth, consistent and controllable swing plane.
The invention comprises in a first aspect a golf swing training device having a constant resistive force throughout the swings: the back swing from set up; the downswing to hit; and the follow through swing. The device includes an anchor for positioning and securing a constant force unit (herein abbreviated CFU), the CFU itself, a tether from the CFU to a special handle, and the handle unit itself that is contoured to provide the proper golf grip. Optionally the swing trainer device can include a foot placement system for locating the proper foot placement relative to the anchor and CFU for either or both a right handed or left handed golfer. The foot placement system can be realized in a wide variety of embodiments, described in more detail below, ranging from a placemat, to a template for marking foot placement, to stick-on sheet plastic foot prints with placement directions for adhering the foot prints the proper distance and angle from the anchor and CFU.
In the method aspect of the invention, the proper steps for use of the swing trainer device are set forth, for both the right handed and left handed golfer. In addition, the training method includes loosening-up and stretching exercises, that are useful not only for golfers, but also for users who find a need for a device that develops a greater range of rotational motion and arm extension, such as older persons, or persons requiring increased or rehabilitative range of motion exercises. The training method includes specific steps for the back swing, the down swing and the follow through, all of which can be practiced independently. In a first alternative, the swing training device is anchored in a position generally to the right or left side of the user, depending on which-handed he/she is, and the amount of force is selected for the age, sex or level of skill of the golfer. The back swing and down swing may be practiced sequentially, and the follow through separately.
The swing training device can be used indoor or out, in the home, garage, back yard, in a training facility such as an indoor golf training facility, an outdoor venue such as a driving range or adjacent a golf pro shop or golf pro training area or camp. In one embodiment the CFU is pivotally anchored to a wall with a plate. In another, the CFU can be hung from a door top by means of an inverted U-Shaped bracket or set of clamps. In still another embodiment the CFU can be anchored to a free-standing pole, such a pipe anchored in the ground, either permanently or by being removably mountable in a sleeve inset in the ground, or in a sleeve secured to a base plate anchored to the ground or other flooring surface such as asphalt, concrete or wood.
In the Internet-base business method aspect of the invention, one or more indoor or outdoor, anchored units or free standing pole units, can be coin or credit-card operated, with a local or remotely located programmable CPU to enable operation, including authorization for access and use, and tracking use by subscribers or walk-in trade for charge or billing purposes, and remittance of rents, royalties, commissions, etc., and for assessing use traffic history and profitability, among other management analytic tools. In another aspect, kiosks may be located at driving ranges and golf courses that are either attendant-operated or golf pro-operated, or are automated and linked to local (in-kiosk or at the place of business) computer controls and displays, or may be remotely linked by LAN, WAN or Internet to a remotely-located control and monitoring center. The links may be any conventional link: e.g., by telephone lines (local or long lines); dedicated DSL, SDSL, ADSL, ISDN, T1, Cable, etc.; or by tower-enabled or satellite Wireless or Internet linkage.
A number of different types of CFUs may be employed, including a weight system that can be raised/lowered or a constant force spring arrangement, preferably, a counter-wound ribbon spring system. The weight system may be a direct lift of a weight constrained to slide generally vertically in, on or around a guide rod, bar, pipe, tube or track, and thence over a pulley free to swivel in at least two axes, or a double pulley system. Counter-wound spring system may include a wide variety of spring winding arrangements, from single to multiple independent springs, or for multi-layered springs. One skilled in the art can select the spring force suitable for the particular application and cycle life desired. Typically, the spring force is 4–8 lbs for younger golfers, and 8–12 lbs for women, and 12–20 lbs for male golfers. In one preferred arrangement, multiple CFU spring systems are provided in a single housing so the user can select the constant force desired, including linking two different force systems to a single tether for an additive force effect. Thus, a 10 lb force reel may be linked to a 6 lb force reel to achieve a 16 lb restraining force. Brake systems may be used for “dial-in” resistive forces as long as the torque provided by braking results in constant force through the swing arc.
The purpose for using constant force in a golf swing plane trainer is to train the body to create a smooth transition from the top of the back swing to the impact position by simply turning the shoulders and keeping the arms extended in front of the body. The CFU forces selected provide a resistive force that is equivalent to the resistance of a golf club. The three main reasons for the use of constant force in training the body to learn the principles and achieve proper muscle memory of a perfect back swing and down swing that keeps the arms and hands in a true plane are: 1) a variable force, if properly adjusted for the end of the swing, would be too weak at the beginning of the swing to aid in fully extending the arms, shifting the weight and turning the shoulders; 2) if the force were to increase on the down swing, a gradual acceleration to the hitting or impact point could not be attained; and 3) when reaching the entry of the impact zone, a feeling of being able to release the “club” must be felt, rather than a requirement for more force to get to through the impact point.
Another important aspect of the invention is the provision of a wide variety of handles to which the extensible CFU tether is attached. The present invention provides a relatively short handle to which the tether to the CFU is attached. The user (golfer or trainee) grips the handle in the correct manner of a golf club, but the handle does not include the full club shaft and head. This permits use indoors in a confined space. In addition, and more importantly, the direction of force is along the tether at the entry to the impact zone on the down swing, which line extends through the center of the grip, i.e., the interlock of the hands. That is, the center of resistive force needs to be at or near the interlock, preferably at the center. With the force at or near the interlock, the inventive system provides a back swing pull, by virtue of the spring rewind function, that fully extends the arms. In addition, it tends to maintain a perfectly planar swing plane, in that any cocking of the wrists up or down such as would lift or lower a club out of the plane, meet resistance. That is, following the swing plane properly is following the path of most constant resistance, perceived to be the path of least resistance.
Thus the CFU provides a means for exerting a force on the handle to induce and constrain the user to raise the handle and turn his/her body to perform a correct or optimum back swing. The CFU then provides resistance to the practice down swing, thereby inducing and constraining the user to perform that phase of the golf swing correctly. The inventive training device is simple and inexpensive to manufacture, requires little space, is easily set up in an operative condition and easy to disassemble after use, or may be simply left in place since it takes up little room and is ordinarily mounted well above head height.
Accordingly, it is among the objects and advantages of the present invention to provide a golf training device to: a) assist the golfer in perfecting his/her backswing; b) assist the golfer in perfecting his/her downswing and the transition from backswing to downswing; c) induce and constrain the user to perform the practice backswing and downswing in an optimal and correct manner; d) assist the golfer in strengthening the musculature of the non-dominant side; and e) develop the proper use of the non-dominant side to provide the power necessary for an optimal and correct golf swing.
A key set of advantages and objectives of the inventive training device and method are: 1) It pulls the user into a perfect back swing position; 2) A club swing plane is developed with the force at the interlock to keep the “club” on and in the proper swing plane; and 3) It trains the body to be lead side dominant, left side for right handed golfers, and right side for lefties. That is, it develops lead side muscle memory, a process that includes change in the neural pathways of the brain. The rewind action of the CFU pulls the user into a perfect back swing position with fully extended arms and shoulders fully turned. In turn, this develops a longer arc with greater club head speed resulting in longer shots. The full, correct swing plane development leads to more consistency and accuracy in drives and iron shots.
For the follow through swing, the rewind action of the CFU likewise “pulls” the user in the continuation of the plane in this essentially “passive” part of the total swing.
Thus, when properly mounted and the training user is properly aligned with respect to the position of the CFU, the inventive system: 1) pulls the arms into a fully extended back swing position, keeping the arms in front of the body (the CFU relative to the use should not be behind the user); 2) turns the shoulders up to 90°, and assists in the limbering and warming-up by increasing the rotational angle; 3) aids in the weight transfer from the lead side to the “follow” side (right side in right handed golfers, the left side for lefties); 4) develops and instills a tempo that slows the transition form the back swing to the down swing, thus helping control the swing and helping the swing to stay on plane; 5) resists the swinging over or under the proper swing plane by increasing resistance when the line of force wanders outside, or does not intersect the interlock; it encourages a swing along the path of perceived least resistance; and 6) retrains the body to the lead side dominance.
As noted, right handed golfers tend to be right side dominant, meaning the right side of their body tends to take over and initiate the down swing. This is incorrect; the body must be trained to initiate the down swing with the lead arm and shoulder, the left side for right handed golfers, in order to keep the swing on the correct path. That is, the proper swing path is a pull-through path initiated and guided by the lead side, not a push path forced by the dominant following side. To be successful in golf, a right-handed golfer must switch his/her thinking from right to left, from dominant to lead. Of course, for a leftie, the thinking must be switched from left to right.
As a result of training repetitions under the control provided by the inventive constant force swing trainer for back and down swings, signals from the proprioceptive receptors in the various muscles, joints ligaments and tendons involved in the action leads to the imprinting of the correct sequence of movements on the central nervous system. This is accomplished by physical repetition of a proper swing path movement that changes the neuronal activity of the brain by changing the cellular structure and function of the effected area, also called “muscle memory”.
The several aspects of the invention are described in more detail with reference to the drawings, in which:
The following detailed description illustrates the invention by way of example, not by way of limitation of the scope, equivalents or principles of the invention. This description will clearly enable one skilled in the art to make and use the invention, and describes several embodiments, adaptations, variations, alternatives and uses of the invention, including what is presently believed to be the best modes of carrying out the invention.
In this regard, the invention is illustrated in the several figures, and is of sufficient complexity that the many parts, interrelationships, and sub-combinations thereof simply cannot be fully illustrated in a single patent-type drawing. For clarity and conciseness, several of the drawings show in schematic, or omit, parts that are not essential in that drawing to a description of a particular feature, aspect or principle of the invention being disclosed. Thus, the best mode embodiment of one feature may be shown in one drawing, and the best mode of another feature will be called out in another drawing.
All publications, patents and provisional or regular applications cited in this specification are herein incorporated by reference as if each individual publication, patent or application has been expressly stated to be incorporated by reference.
Generally, the device aspect of the present invention comprises a handle, similar to the handle of a golf club, which the user grasps; force-exerting means (CFU) that assists and guides the user to perform a correct back swing, and that provides resistance to the user in the down swing; and mounting means to support the CFU. The handle is connected to the force-exerting CFU means by an extensible tether that is stored on a reel in the CFU. The more detailed aspects of the invention will be shown by the specific embodiments described below.
Mounted internally of housing 50 is a reverse-wound ribbon spring assembly 52 that provides the constant force and a constant torque rewind function. The tether 8 is wound on the central spool of the output reel 54. Two outer reels receive springs 58 supplied from the supply reel 56. The springs are reverse-wound, that is, the spring 58 is wound counter clockwise (as shown looking from the right side of
The spools are mounted on axles 50 and secured by nuts 62. Note housing 50 includes a slot 70 through which the tether 8 is fed, as shown in phantom on the left of the figure. A reel stop and lock assembly 72 may be provided as an option. This includes a stop solenoid having a reciprocating pin 74 that can extend through hole 76 in the housing to engage a hole 78 in the output reel 54. The stop/lock assembly may include a controller, such as a microprocessor or PLC, that can time the usage. When the usage time is nearing the end, an audio or visual message is broadcast or displayed on the annunciator unit 80 (sound being shown by way of example) warning the user that he/she only has a short time left. When the time is up, the solenoid pin 74 extends into the hole 78 in the reel, stopping the use. The next user, upon authorization, e.g. by paying a fee, causes the pin to retract and can exercise for the purchase time period, say 20 minutes.
Referring now to
The force-exerting means in the alternate embodiment of
Generally, the mounting means 40 comprises mounting plate 41 and supporting bracket 42. Mounting plate 41 is attached to a wall, door frame or other suitable sturdy stationary building member at a position somewhat higher than the user's height by any convenient fastening means, such as nails, glue, bolts or the like. More preferably, mounting plate 41 is bent in an inverted U-shape so it fits snugly over the top of a door, best seen as bracket 4 in
The embodiment of
The following describes the use of the device of the present invention for a right-handed user; the changes necessary to extend the description to left-handed users will be self-evident from the descriptions above.
To use the device of the present invention, the right handed golfer stands next to the device, with the shoulders substantially parallel to the axis of bracket 42, the right shoulder closest to the device. The stance of the user is adjusted so that, with the golfer holding handle 10 in the correct position for the top of the backswing, weight 24 will be a short distance above the floor in order to exert a force on handle 10 at the extreme upper limit of the backswing. The user grasps handle 10, which emulates a golf club, by means of grip 11, pulls it down, and assumes a stance as if he/she were addressing a golf ball, that is, preparing to hit a golf ball. The correct address position is well known to golf players and is shown in
The user then allows the force exerted by force-exerting means 20 (the weight system) acting on handle 10 to draw the handle up and to the right, thereby turning the axis of the shoulders approximately 90° to the right. The hips follow, turning approximately 30–45° to the right. The user's arms are extended up and to the right, while being kept substantially in front of the axis of the shoulders. The user keeps the left arm substantially straight, and the head steady and fixed on the position a golf ball would occupy, during this operation. At this point, the wrists will be somewhat cocked or flexed so as to point handle 10 over the right shoulder. During this backswing, under the control of the device of the present invention, the user's body weight will naturally shift from being equally distributed on both feet, in the correct address position, to being preponderantly on the inside of the right foot at the upper limit of the backswing, which is the correct weight distribution for this phase of the golf swing. All of these movements and changes in body position and alignment are done by the user in response or reaction to the force exerted by force-exerting means 20 acting on handle 10. The effect of the device of the present invention is thus to induce and constrain the user to perform the backswing in the correct and most efficacious manner.
From this position, the user begins the practice downswing, turning the shoulders and hips to the left and pulling handle 10 down with the arms against the resistance of force-exerting means 20. The arms are kept in front of the axis of the shoulders. The upper arms are kept close to the body, the left arm straight, into the position of simulated impact on a golf ball. The body weight is shifted preponderantly to the left foot in the process. The wrists will be urged to remain cocked during this downswing operation by the resistive force on tether 21 until well into the impact area or bottom of the swing, at which time the right arm will straighten and wrists will uncock. Again, the effect of the device of the present invention is to induce and constrain the user to perform the downswing in the correct and most efficacious manner.
The user repeats this back swing-down swing sequence many times in a training session, and repeats the training session regularly, perhaps weekly or several times weekly. As a result of this repetition, under the control provided by the device of the present invention and against the resistance it exerts, signals from the proprioceptive nerves in the various muscles, joints, ligaments and tendons involved in the action will lead to the imprinting of the correct sequence of movements on the central nervous system. As a result, the correct backswing and down swing will become reflexive.
It is particularly instructive in many cases to perform this action, at least initially, under the tutelage of a golf instructor, and/or to monitor the action in a mirror or record it with a video camera and display the video, to insure that the backswing and downswing are being performed correctly.
The function of the device of the present invention is to pull, coax or guide the users body into the correct back swing position, then to provide resistance and further guidance for the down swing. Also, the device will significantly assist in preventing such golf swing errors as: a) over swinging in the back swing (i.e. swinging the club too far to the rear, so that the hands and golf club handle go behind the body at the end of the back swing); and b) reverse weight shift (i.e., shifting the weight to the left leg during the back swing). It also insures that the user's hands are kept in front of the axis of the shoulders during the back swing. Furthermore, the device prompts the user to exert force predominately with the muscles of the left side (lead side for a right-handed golfer) when initiating the down swing. The device also counteracts any tendency for right-side dominance in this phase of the swing, which could cause the golf club to depart from a truly planar swing (i.e., the golf club describing an arc in a flat plane throughout the golf swing), that is universally recognized as the optimum for the golf swing.
To assist the user in developing the musculature of the lead, non-dominant side, and imprinting the use of the non-dominant arm and shoulder muscles to provide the major portion of the power in the golf swing, handle 10 may preferably be interchangeable with stirrup-type handgrip 46 illustrated in
To make use of the handgrip 46 of
While the foregoing describes the preferred mode of practicing the invention, other embodiments are possible. For example, as shown in
In an additional alternate embodiment, attachment ring 14 can be attached to the distal end of handle 10, as illustrated in
In another embodiment, the force-exerting means is attached to a floor stand as seen in
In another embodiment of the present invention, illustrated in
In another embodiment, mounting plate 41, in the embodiment where it is fabricated to fit over the top of a door, is equipped with one or more screws, preferably equipped with wing-type heads and non-marring tips, or an adjustment knob and plate as shown in
With respect to method aspects of the invention,
It is clear that the inventive training device, system and method has wide applicability in the golf training field. For example,
Remote monitoring or control can be maintained via communication link 108, e.g., vial a satellite dish 210 linked to the kiosk CPU 100 and/or the CFU controller 72, 92 of
It should be understood that various modifications within the scope of this invention can be made by one of ordinary skill in the art without departing from the spirit thereof and without undue experimentation. This invention is therefore to be defined by the scope of the appended claims as broadly as the prior art will permit, and in view of the specification if need be, including a full range of current and future equivalents thereof.
This is the Regular U.S. Application of U.S. Provisional Application Ser. No. 60/339,138, filed 7 Dec. 2001, and corresponds to PCT Application PCT/US02/39043 filed Dec. 6. 2002, published us WO 03/049815 on 19 Jun. 2003, incorporated by reference herein and the priority of each of which applications is claimed under 35 U.S. Code §§119, 120 and 365 and related treaties.
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Number | Date | Country | |
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20030109324 A1 | Jun 2003 | US | |
20040229708 A9 | Nov 2004 | US |
Number | Date | Country | |
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60339138 | Dec 2001 | US |