The present invention relates generally to functional fitness training devices and, more particularly, to fitness devices that focus on the principal of unstable resistance as a means of increasing balance, stability, overall strength, core strength and proprioception while increasing lean muscle mass and burning calories. A method of improving proprioception and physical health also is provided.
The present invention is directed to a functional fitness device comprising a substantially elliptical body and a port associated with the body for receiving a fluid weight inside the body, wherein the fluid weight inside the body is unstable and creates instability at the point of resistance during multi-planar movements and increases the functionality of the device.
The present invention further is directed to a method of improving proprioception and physical health. The method comprises the step of utilizing the instability of weight as a form of unstable resistance during multi-planar functional movements and moving a substantially elliptically-shaped device holding unstable weight through multi-planar functional movements.
The present invention further is directed to a functional fitness device comprising a substantially elliptical elastomeric body and a port associated with the body for receiving fluid weight inside the body. The weight inside the body is unstable and creates instability at the point resistance of a user. The device further comprises at least one handle associated with the body, wherein the at least handle comprises at least one chamber and at least one port for receiving fluid weight inside the handle.
The invention further is directed to a functional fitness device comprising a substantially elliptical elastomeric body and a port for receiving fluid weight inside the body. The weight inside the body is unstable and creates instability at the point of resistance of a user. The device further comprises at least one handle associated with the body, wherein the at least one handle comprises a port for receiving fluid weight inside the handle and a graduated scale for measuring the amount of fluid weight inside the body.
Functional training is an approach to health and fitness achieved through training the body for targeted activities and tasks. These tasks may be necessary activities performed in daily life or focused activities for improving skill and agility in a particular sport. Unstable resistance training comprises an essential component of many functional training programs. Studies show that resistance exercises increase strength of both targeted muscle groups and overall musculature along the entire kinetic chain, which in turn increases efficiency and power of bodily movements. Functional training maximizes human performance in the context of daily activities and focuses on the characteristics that maximize performance, power, agility, proprioception, neuromuscular coordination, cardiovascular conditioning and athletic skill.
Although functional training applies across a broad spectrum of activities, it originates in physical rehabilitation. Physical therapists employ concepts of functional training in rehabilitating patients' bodies back to an ideal postural alignment in order to perform tasks that are restricted or prohibited by an injury or a life-changing accident. A physical therapist may work with a patient to perform exercises that mimic the movements or activities that the patient performed before the injury, such as strengthening the back to enable heavy lifting. Functional training uniquely adapts a regimen to meet the individualized needs of a patient, incorporating the principle of unstable resistance to improve the patient's physical functioning.
Functional training also is used in sports to help athletes improve balance, stability, overall and core strength and proprioception while improving lean muscle mass and burning calories to improve body composition. Functional training helps an athlete improve overall health and fitness and decrease the number of possible injuries sustained during performance. In fact, studies have shown that training with a variable load more closely imitates the human body's natural movements. The human body moves through sagittal, frontal and transverse planes in space while performing everyday activities or while engaged in a sporting activity. Functional training helps the body mimic natural functions performed in executing multi-planar movements and, therefore, retrains the human body to carry out motion patterns similar to natural movements.
Functional training differs from conventional, machine-based training in that it supplies variable resistance, which is very effective in improving balance, stability and coordination. Machine-based training offers only two-dimensional, static movement and is adapted to fit the natural body movements of only a small percentage of the population, basically individuals who are of average body height and build. Furthermore, conventional training techniques track joint function and load the musculature. This type of training compromises the safety of individuals outside the average range by forcing their bodies into movements inconsistent with their natural patterns and their own kinetic chain.
With the advent of functional training, however, various types of equipment have been created which are used in connection with regimens that track everyday movements to train the human body through the principle of unstable resistance. Early functional products focused on stability training and were based on the principle of postural instability. In other words, these products supply an unstable base upon which the user sits, stands or lies down. The instability created by these early functional training tools requires the user to employ muscle groups that counteract the instability, thus improving overall postural stability and increasing the strength and conditioning of the affected musculature.
Conventional functional training products based upon instability are cumbersome and impede the activities and movements through which a user can employ them. The shape and design of these conventional stability training devices limit the range of movement. For example, the size and shape of some conventional functional training equipment allows the device to be used for strength conditioning but not for physical therapy. Consequently, multiple pieces of equipment may be required to address the individualized needs of a particular user. This severely limits the applicability and versatility of conventional functional training devices since most of the physical challenges that humans face in life occur when performing tasks through multi-planar sagittal, frontal and transverse movements. The functional fitness device of the present invention replaces multiple pieces of equipment with the versatility to perform movements commonly performed with conventional functional devices, such dumbbells, kettle bells, medicine balls and tornado balls, while increasing maneuverability, safety, and structural integrity. All of these movements can be performed with just one device of the present invention.
Conventional functional training products contain structural weaknesses and experience very high failure rates, often at the handles. Some of these training devices cannot be slammed or thrown due to structural weaknesses that limit their applicability in certain types of training regimens. Additionally, the handles of these devices routinely fail when exposed to normal loads and movements. The functional training device of the present invention overcomes weaknesses in the handles and overall structure.
Conventional functional training devices also comprise a static weight and are of limited versatility. The present invention overcomes this limitation by allowing the user to vary the weight inside the device, both in the body of the device and in the handles. Variable weight permits the device to be used in a wide variety of activities, through a wider range of motions and by diverse groups of users who have differing body types and individualized physical needs.
The functional training device of the present invention is a unique, functional strength tool that fills a necessary facet of functional training that is currently lacking in availability to the general public. The present invention differs from conventional functional training tools in that it employs a variable weight inside the device and creates a point of unstable resistance when used in full range of motion exercises during full body workouts. The use of a fluid weight as a form of unstable resistance makes this possible. The device uses water or alternative fluid weight to create inertia during various strength and agility training drills. The fluid weight causes instability in the device and makes the user incorporate more muscle groups and neurological response than does a static weight, such as a dumbbell, kettlebell or barbell. This instability also increases core recruitment during virtually any range of motion, which is a highly desirable trait for anyone, ranging from the casual fitness enthusiast to the physical therapy patient to the professional athlete.
In addition to the above mentioned benefits, the functional training device of the present invention also improves balance and proprioceptive awareness. Balance enhances maximal strength by improving the ability of the body to compensate to maintain optimal alignment to the ground throughout the joints. It also is vital to preventing injuries caused by misaligned joints, such as a rolled ankle from an improper stride during a sprint. Proprioception is a full body awareness that allows one to properly utilize one's limbs without consciously looking at them. Improved proprioception leads to heightened full-body awareness and, therefore, more efficient use of the body with far less effort or conscious thought. The present invention enhances both of these attributes by forcing the user to compensate for unpredictable shifts caused by the fluid weight shifting rapidly inside the device during lifts and other multi-planar movements. These and other advantages of the present invention will be apparent from the following description of embodiments.
Turning now to the drawings in general, and to
Although the body 12 can be of any desirable size, it generally ranges in size from about 5 inches to about 15 inches wide at the polar diameter, as shown by line A-A in
The substantially elliptical shape of body 12 offers numerous benefits. For example, it will be appreciated that the elliptical shape of body 12 is ergonomic and facilitates bilateral movements during human use. Additionally, the substantially elliptical shape permits greater movement of fluid inside the body 12, in a manner yet to described, which in turn requires alteration of the manner in which a user handles the device 10 and requires greater physical compensation, exertion and body awareness to maintain posture during a physical regimen. To that end, the ratio of the polar diameter A-A to the equatorial diameter B-B of the body 12 ranges from about 1:1.5 to 2:3.5. In one embodiment of the invention, the ratio of the polar diameter A-A to the equatorial diameter B-B of the body 12 is about 2:3.
With continuing reference to
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The width of handle 16A may remain uniform throughout the entire length of the handle or may change in width at various points. For example, it may be advantageous to increase or decrease the width of the handle 16A at the location where the user holds the handle. Handle 16A preferably is integrally formed with the body 12 to increase structural integrity of the device 10. Although it may be desirable to form the handle 16A from a different material than the body 12, it is structurally advantageous to integrally form both the handle and the body from the same elastomeric material.
Returning to
The functional training device of the present invention 10 may be filled with a number of different fluid weights 30. The fluid weight 30 may be water, glycerin, metal shavings, sand, plastic beads, or hybrids of any of the foregoing. The fluid weight 30 that is selected for any application is subject to the individualized needs of the user and the particular activity for which the user intends to employ the device 10. The amount of fluid weight 30 inside the body 12 is variable and may range from at least about 0 to at least about 40 pounds. This weight variability feature, along with other features described herein, contributes to the versatility of the device 10 and enables serviceability across a broad range of uses and applications for a diverse array of users with individualized needs. For example, a recovering physical therapy patient may wish to fill the device with five pounds of fluid weight, whereas an athlete engaged in agility training may wish to fill the device with a forty pound weight.
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The body 12 may be translucent or transparent in order to visually aid the user in seeing and measuring the appropriate amount of fluid weight 30 received inside the device 10. In a further effort to facilitate measurement of the fluid weight 30, the device 10 may comprise a colorant for tinting the fluid weight in the body 12 and aiding visibility of the level of fluid weight inside the body. Additionally, the fluid weight 30 may be color coded to correspond with a particular weight. For example, a five pound weight may correspond to the color red, a ten point weight to the color green, and so forth. The colorant may be supplied in a separate container and added by the user to the fluid weight 30 in the body 12. Alternately, the inside of the body 12 may be coated with a stainless colorant that automatically tints the fluid weight 30 as it is added to the device 10 and makes contact with the inside of the body. It now will be appreciated that the ability to vary the fluid weight 30 inside the device 10, along with other features described herein, adapts the device across a wide variety of activities, through a wider range of motions and by diverse groups of users who have differing body types and individualized physical needs.
Turning now to
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The present invention also is directed to a method of improving proprioception and physical health. The method comprises the step of utilizing the instability of weight as a form of unstable resistance during multi-planar functional movements. Use of the device 10 now will be described. During operation, a user moves the device 10 having a substantially elliptical body through a regimen of individualized movements particularly designed and adapted to achieve the goals of the user. The fluid weight 30 moves inside the body 12 of device 10 and shifts during sagittal, frontal and transverse movements, thereby creating a point of instability at the point of resistance. As used herein, “point of instability” means the creation of an unstable physical environment for musculature during multi-planar movements. As used herein, “point of resistance” means maximum output for musculature. Conventional functional training products focus on instability at the point of resistance but cannot be slammed or used for dynamic exercises without tearing and leaking, and exercises with these types of devices are extremely limited. The substantially elliptical body of the present invention, along with other features heretofore described, dramatically increases maneuverability and makes it possible for smaller people, seniors, physical therapy patients or other special populations to use the device 10 in their own individualized functional training programs. Expanded range of uses with the present invention include group fitness, personal training, individual workout routines at home, strength conditioning, muscle conditioning, core conditioning, preventative injury training, water aerobics, physical therapy, pre- and post-operative physical therapy and general body awareness training.
It now will be appreciated that the present invention presents a unique form of instability at the point of resistance. This forces the user to fight against the unstable resistance created by the fluid weight inside the device and forces reaction based upon feel versus sight. This unique form of resistance helps the user increase proprioception, a very crucial yet overlooked skill in every day life and in sporting activity. Instead of placing the point of instability at the base of a piece of equipment, as with a workout bench, the device 10 of the present invention places the point of instability at the point of resistance. The majority of instability-based or functional training products that focus on instability as the point resistance are made in such a way that one uses them for certain activities or fitness goals but not others. The present invention replaces multiple pieces of equipment with the versatility to perform exercises commonly done with dumbbells, kettle bells, medicine balls, tornado balls, while increasing maneuverability, safety and structural integrity.
The invention has been described above both generically and with regard to specific embodiments. Although the invention has been set forth in what has been believed to be preferred embodiments, a wide variety of alternatives known to those of skill in the art can be selected with a generic disclosure. Changes may be made in the combination and arrangement of the various parts, elements, steps and procedures described herein without departing from the spirit and scope of the invention as defined in the following claims.
Number | Date | Country | |
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Parent | 13794236 | Mar 2013 | US |
Child | 14821069 | US |