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The invention relates broadly to fitness devices, and more particularly to devices for absorbing the impact of a user's strike.
It is well known that football players strike sleds, foam dummies and other practice equipment with their shoulders, hands and arms in order to simulate the impacts their bodies make with others during ordinary play. Most of the equipment used for this purpose is placed outdoors so that it can be used during the sport's season in an area where the sport is ordinarily played, and in a manner that simulates the ordinary play of the sport. However, football training takes place throughout the entire year, and in some climates it is not possible or safe to use such equipment throughout the entire year.
In many other sports and activities, including boxing and martial arts, athletes desire to strike an object while practicing or working out. Much of the equipment designed for this purpose is unsuitable, or is not able to be used widely for purposes different than its original purpose. Therefore, the need exists for an apparatus that can be struck by a user, and that is sufficiently modular that it can be mounted in virtually any environment, and particularly indoors.
Disclosed herein is a device that may be used by athletes for various purposes. In particular, football players may use the device for hand strikes and hand placement in a weight room or any other indoor environment. The device may be mounted indoors to a squat rack frame, a horizontal or vertical post or beam in the gym or building, or any other stable structure, such as a wall, stair railing, or any member formed specifically to support the device or generally to support other structures.
The device has three main components: a mount, a target and an energy-absorber. The mount permits the device to be mounted to virtually any stable structure so that the entire device is supported when it is impacted with substantial force by a human user. When struck, the device will then move only in the designed manner, and it will return to its original position when the movement is completed. The target is engaged by the person using the device, and may be a padded plate, ball, cylinder, or other structure that is struck, pushed or otherwise engaged by the human user. The energy-absorber may be mounted between the mount and the target and converts the kinetic energy applied to the target by user to potential energy, preferably in the manner of compressing or expanding a spring. Thus, upon contact with the target, the energy-absorber is displaced and begins to store energy that is returned to displace the target to its original position upon release of the force, or at least release of some portion of the force, on the target.
One embodiment of the device has a mount that may be attached, such as by using a clamp or collar, to a stable structure, such as a squat rack member, horizontal or vertical beam, or wall, among others. The mount permits fixing of the device to a stable structure, and this can be by any convenient means. An energy-absorber may include a sleeve, which may be rigidly mounted to the mount, such as by welding. An insert of the energy-absorber extends telescopically into the sleeve and is mounted rigidly to a plate, which may be the target. The plate may be covered by a striking portion, such as a pad, to cushion the strike by the user.
The sleeve has slots on the top and bottom sidewalls through which pins, bolts or other structures, which are rigidly attached to the insert, extend to prevent the insert from sliding too far out of the sleeve. Of course, these orientations and directions may be reversed or otherwise modified as the person of ordinary skill will understand. A coil spring is mounted in a chamber formed within the sleeve, and seats at one end against the insert and at the opposite end against the mounting structure of the attachment. Upon movement of the insert into the outer member, the spring compresses and the pins slide in the slots. The insert stops upon reaching complete spring compression, impact of a pin with an end of a slot, or release of the striking force. Upon release of the force, the spring expands and forces the insert back to where the pin seats against the slots' ends.
Thus, described herein is a portable device used by football athletes to practice hand strike and hand placement, but which can be used by other athletes for various purposes. When the athlete engages, such as strikes or pushes, the pad with his hands at a sufficient force, the striking pad and insert extend into the sleeve and compress the spring. When the athlete releases his or her hands from the pad, the pad springs back to its original starting position under the force of the compressed spring.
The insert may be maintained in the sleeve by two bolts that prevent the apparatus from losing the spring tension. The bolts are preferably screwed into corresponding nuts that are welded inside the inner insert. The mounting portion can be made specifically to mount to any rack in a weight room or any other support structure, including a wall, to which the mount is bolted or screwed.
The insert and sleeve could be reversed with the sleeve mounted to the plate and the insert attached to the mounting structure. It is also contemplated that the sleeve may attach pivotably to the stable structure to allow the entire device to pivot upwardly with sufficient force applied. The spring may be replaced with a spring of a different stiffness so that the device may be customized for virtually any user.
In describing the preferred embodiment of the invention which is illustrated in the drawings, specific terminology will be resorted to for the sake of clarity. However, it is not intended that the invention be limited to the specific term so selected and it is to be understood that each specific term includes all technical equivalents which operate in a similar manner to accomplish a similar purpose. For example, the word connected or terms similar thereto are often used. They are not limited to direct connection, but include connection through other elements where such connection is recognized as being equivalent by those skilled in the art.
U.S. Provisional patent application Ser. No. 62/193,197, which is the above claimed priority application, is incorporated in this application by reference.
The apparatus 10 shown in
It is contemplated to combine the mounting portion 50 with various adapters to ensure that the apparatus 10 may be combined with any shape or size of post, beam or member, including round and rectangular (e.g., square tubing) posts and beams. These may include plastic, or other strong but lightweight material, adapting members 54 and 56, as shown in
Alternatively, one of the round post or beam receiving adapting members 54 may fit between the rectangular mounting portion 50 and a round-shaped member or beam (not shown), such as a cylindrical pole. Alternatively, an adapting member of any shape may be used between any mounting portion and any stable structure member of a different shape. A variety of such adapting members may be included with the apparatus 10 to ensure a good fit with virtually any shape or size that may likely be encountered.
Any sufficiently strong horizontal, vertical or angled post will suffice to support the apparatus 10, and the mounting portion 50 includes any fastener that enables the apparatus 10 to mount rigidly to such a stable structure. In one embodiment, the mounting portion 50 is a sufficiently large plate 52 that may be mounted to a wall or other rigid structure, such as by extending screws (not shown) through apertures therein and into the wall. In another embodiment, (see
In a preferred embodiment, the striking portion 20 is a padded plate, including without limitation a cushion, a rubber plate, an inflated pad or a pillow. The striking portion 20 could be a “half man” rubber dummy that is attached to the plate 22 or directly to the insert 34. The striking portion 20 can thus be any structure that a human can strike with his or her body or any tool, such as a bat, a helmet, or any other device. The striking portion 20 preferably deforms to increase the time over which the energy of the blow is imparted to the device, such as by at least partially elastically deforming. This is preferred in order to prevent or reduce injury to the user and/or damage to the striking portion 20. Of course, it is contemplated that each blow might cause wear to the striking portion 20 that over time requires the striking portion 20 to be replaced.
In a preferred embodiment, the energy-absorbing portion 30 includes a structure that receives the energy of the strike and deforms, compresses or otherwise reduces the distance between the striking portion's 20 surface facing the user and the mounting portion 50. Thus, the energy-absorbing portion 30 deforms along the length of the device. In the preferred embodiment, the energy-absorbing portion 30 is a telescopically-connected series of components with a spring that deforms under sufficient pressure. Alternatives include gas springs, elastomeric material, hydraulic mechanisms, leaf springs and any other energy-absorbing structure that deforms in the longitudinal direction to permit the striking portion 20 to be moved closer to the mounting portion 50.
Furthermore, the amount of energy that the striking portion 20 absorbs as it deforms to reduce the energy of the strike is very small in comparison to the energy absorption of the energy-absorbing portion 30. This is to ensure that the energy of the strike causes a perceptible movement of the entire striking portion 20 toward the mounting portion 50, rather than mostly a deformation of the striking portion 20, which may be less detectable by a human user. Thus, the pad may deform one-half inch while the energy-absorbing portion 30 may be displaced six inches.
In the embodiment of
The striking portion 20 is disposed on one end of the insert 34, such as by mounting a padded board to the plate 22 that is rigidly fixed to the exposed end of the insert 34. The plate 22 may be welded to the insert 34 and the plate 52 may be welded to the sleeve 32. It is contemplated that the sleeve 32, the insert 34 and the plates 22 and 52 are made of steel, and the sleeve 32 and the insert 34 are steel square tubing. Other suitable substitute materials will become apparent to the person of ordinary skill from this description.
It will become apparent to the person of ordinary skill that the components that make up the energy-absorbing portion 30 may be reversed, so that the component attached to the plate 52 may be an insert, and the component mounted to the plate 22 may be a sleeve. Of course, the components may also be rotated relative to the position shown, with known effect and without changing the essential function of the device.
As shown in
A pair of limiting guides, such as the bolts 38 and 39, extend into the insert 34, such as by threading into the nuts 38′ and 39′, respectively, that are fastened rigidly (such as by welding) to the interior of the insert 34. The bolts 38 and 39 preferably extend through the respective slots 48 and 49 and the apertures in the insert 34 that are aligned with the threaded apertures of the nuts 38′ and 39′.
The shafts of the bolts 38 and 39 are shown in
In order to suit a user's preference or the purpose of its use, the apparatus's 10 spring 44 may be replaced with a spring having a higher stiffness (spring constant) or lower stiffness. In order to accomplish this, the bolts 38 and 39 are removed from the slots 48 and 49 and the insert 34 is withdrawn from the sleeve 32, as shown in
As shown in
The apparatus 10 may be installed with its longitudinal axis oriented horizontally, as shown in
It will become apparent that the apparatus 10 can be mounted at any of various heights suitable for its intended purpose. The apparatus 10 can receive repetitive strikes on the striking portion 20 at any height by compressing the energy-absorbing portion 30 between the striking portion 20 and the mounting portion 50. Thus, once the apparatus 10 is mounted to a stable structure, it can be struck by a person's hands, feet, fingertips, elbows, knees, head, or any other body part or any object that the user uses to strike the striking portion 20, including, but not limited to, a helmet, a baseball bat, a boxing glove, a golf club, a hockey stick or any other instrument.
Upon the application of sufficient force, the insert 34 compresses the spring 44 and extends into the sleeve 32 as described above. When the force applied is released, or falls below the force necessary to maintain the spring 40 compressed, the insert 34 begins to be forced by the compressed spring out to its initial position. This application of force can be repeated until the user is finished or needs to move the apparatus 10 to a different position for a different workout.
It is contemplated that the plate 52 and the specific fastener that mounts the apparatus 10 to a stable structure can be readily separated, and the plate 52 can then be transported easily by hand and then mounted to a different fastener, for example a fastener that mounts the apparatus 10 to a different stable structure, possibly a structure that the original fastener would not sufficiently mount the apparatus to. Thus, the apparatus 10 is modular and portable so that one need not have a different combined striking portion 20 and energy-absorbing portion 30 for every kind of mounting portion 50 that is designed for a specific fastening function. Instead, one may transport a single apparatus 10 from one position to another, and from one location to another, by simply removing and carrying it. For example, one may have a mounting portion 50 that mounts to a wall, such as a plate with apertures for screws to fasten into. Additionally, one may have a particular brand of squat rack as described above and a mounting portion that is designed specifically to attach to the squat rack member. Such a mounting portion may include a collar that may be bolted to the plate 52. When desired, the collar may be attached to the plate 52 and the apparatus mounted to the squat rack member. When next desired, the collar may be removed and the plate 52 or a different plate may be used to bolt the combination of the striking portion 20 and energy-absorbing portion 30 to a wall, for example using concrete screws threaded into holes in a concrete wall. Once that use is completed, the plate 52 may be mounted to a different collar using bolts and the combination striking portion 20 and energy-absorbing portion 30 may be mounted to a different support, such as a cylindrical steel pole that supports a ceiling in a basement, using a mounting portion 50 that may include a U-bolt or other clamp. The adapters shown in
In a preferred embodiment, the energy-absorbing portion 30 is about eighteen inches long with square steel tubes about two inches tall and wide. It is preferred to maintain a total length of about two feet and it is not desirable for the apparatus 10 to be much longer than this length, because the farther the user is away from the attachment point of the apparatus 10, the more leverage the user has, and thus may damage the mounting portion 50.
In a preferred embodiment, a plastic or other lightweight shield 60, shown in dashed lines in
It is contemplated to use a computer, such as a smartphone, or a sensor to which a smartphone or other computer is connected, such as wirelessly, to measure the acceleration and other parameters of the moving striking portion 20. For example, an accelerometer or a force plate can be mounted to the plate 22 to connect wirelessly to a computer, such as the user's smartphone. During use, the acceleration data can be uploaded to the smartphone, which can display, after some calculations, the maximum acceleration of the striking portion 20, the maximum velocity, the maximum displacement, the distance travelled by the striking portion 20, the power of an impact, any differences between strikes, and any other information sought by the user that can be measured by any sensor.
One advantage to the apparatus described herein is that it can be mounted indoors, and therefore used all year round. The apparatus 10 is also maintained, such as when the spring must be removed, from the side or top. Conventional ROGERS brand football sleds are much larger and have a sliding bar that extends out of the back of the device. This prevents such mechanisms from being mounted as the invention is mounted—with the rear surface seated against a solid structure, such as a wall, so that the apparatus can be mounted with the striking force directed along a line that extends through the energy-absorbing portion 30 to the solid structure, rather than through a tube attached with an angled member as with the ROGERS brand football sleds. The fact that the energy-absorbing portion of the invention is along the longitudinal line connecting the engagement portion with the attachment portion means that the device is compact and moves by compressing the energy-absorbing portion between the engaging surface and the attachment portion.
The above-described and shown apparatus 10 is one embodiment of the present invention. Another embodiment is the apparatus 100 shown in
In an alternative embodiment, an apparatus 200 is shown in
The embodiments of
The alternative embodiments of
This detailed description in connection with the drawings is intended principally as a description of the presently preferred embodiments of the invention, and is not intended to represent the only form in which the present invention may be constructed or utilized. The description sets forth the designs, functions, means, and methods of implementing the invention in connection with the illustrated embodiments. It is to be understood, however, that the same or equivalent functions and features may be accomplished by different embodiments that are also intended to be encompassed within the spirit and scope of the invention and that various modifications may be adopted without departing from the invention or scope of the following claims.
This application is a continuation of U.S. application Ser. No. 15/212,764 filed Jul. 18, 2016, which claims the benefit of U.S. Application No. 62/193,197 filed Jul. 16, 2015. The prior applications are hereby incorporated by reference.
Number | Date | Country | |
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62193197 | Jul 2015 | US |
Number | Date | Country | |
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Parent | 15212764 | Jul 2016 | US |
Child | 16395893 | US |