STABILITY EXERCISE MACHINE
An exercise bench with a fillable bladder or other resilient member which provides a support surface for a user exercising thereon. The exercise bench providing many of the benefits of a traditional weight bench, while also providing the potential upside of engaging the user's core during exercise. The resilient member can be shaped according to the needs of the exercise to be performed. The resilient nature of the cushion limits bottoming out providing a true cushion support rather than laying on a hard surface.
This application claims the benefit of, and priority to, U.S. Provisional Patent Application No. 61/312,610 filed 10 Mar. 2010, the contents of which are incorporated herein by reference in its entirety.
FIELD OF THE INVENTIONThe present invention relates to exercise machines and exercise benches with seats, platforms and/or other cushions which are filled with air, or otherwise are provided with a desired degree of instability to engage the user's core muscles to maintain balance when exercising.
BACKGROUNDTraditional weight benches, while having a variety of configurations, are typically designed to provide a support surface allowing a user to perform repetitive exercise movements in a safe and effective manner. The bulk of weight benches and exercise machines typically rely on foam rubber or other foam like cushioning material covered in vinyl or other suitable fabric. The underlying foam is configured to add comfort and support to the user while the use sits or lays on the bench during a workout.
Traditional benches which utilize or rely on foam or other similar material in the production of these platforms have several drawbacks. For example, a solid, cushioned platform may provide sufficient support to allow for repetitive motions of exercise, but still fail to provide sufficient instability to truly engage the user's core muscles. Typically such platforms, are more utilitarian in nature thus lacking the ergonomics to conform a user's unique body shape. Additionally, the solid or semi solid materials such as foam, gel, foam rubber and their support surfaces cannot be adjusted to meet the needs of individual users. For example, areas of stiffness, softness and other which relate to the user's comfort are often lacking in any meaningful degree. Such foam, gel or rubber surfaces also tend to bottom out resulting in the user laying directly on a hard underlying substrate surface. Materials may degrade and flatten our over time, thus reducing their effectiveness, safety and comfort. As a result, shortcomings in the material properties of the bench's cushion may reduce the overall performance of the exercise bench. For example, by providing simple foam cushions which tend to compress to the point where the user is resting on the equivalent of a hard surface results in pressure on bone and joint which can result in the potential for multiple use injuries to a user.
New and expanded knowledge of the importance of strengthening the body's core muscle groups have led to exploration of new exercise methods. For example, in recent years stability balls or exercise balls (commonly known as ‘Swiss Balls’) have become increasingly popular. However these exercise balls regardless of their size and other slight variations have many drawbacks and can actually be fairly dangerous. For example, some users combine the use of exercise balls with weights. However, rolling, rupturing or other unexpected occurrences can lead to potential harm to the user.
Support stands which have been developed for some exercise balls can provide an increased level of support for the ball, but still suffers many deficiencies. For example, the spherical shape can be difficult to use in many exercises. A spherical shape can be very poor shape for exercise. Spherical shapes provide a fairly limited support area for the user. Additionally, providing a support surface to existing balls does little to decrease the fact that exercise balls are prone to bursting which can cause injury.
BRIEF DESCRIPTION OF THE DRAWINGS
The present invention is directed to an exercise bench with a fillable bladder or other resilient member which provides a support surface for a user exercising thereon. The resilient member can be filled with air, similar gasses, liquids, gels or other fillers which allow the fillable bladder to provide resiliency and support, while also allowing for a desired degree of instability. In this manner the user can utilize many of the traditional benefits of a weight bench, while also providing the potential upside of engaging the user's core during exercise.
Additionally, many of the drawbacks and potential dangers of exercise benches and exercise balls are overcome by the design. By providing a design which permits the use of an instability cushion with a traditional exercise bench design, the overall performance of the bench is greatly enhanced. As a result, overall improved exercise is provided. Additionally, the exercise is a safer while also providing a superior method of building core strength.
The resilient member can be shaped according to the needs of the exercise to be performed. For example, on a bench press type machine, the fillable bladder provided may be elongate to support a user laying thereon. In this manner, improved support to a user resting supline on the exercise bench is provided. The resilient nature of the cushion limits bottoming out providing a true cushion support rather than laying on a hard surface. Additionally, a desired level of instability in the resilient support surface allows engaging of the user's core, without the risks of rupture of the bladder, rolling of an exercise ball, or a level of instability which could cause the user to entirely loose balance which could result in unnecessary lateral strain, dropping of a weight or pose an unnecessary risk of injury.
DETAILED DESCRIPTIONThe present invention is related to a stability cushion exercise machine that includes a support frame for supporting a cushion component at a location off of the ground so that the user of the stability cushion exercise machine can do one or more exercises while being supported at the level above the ground. For example, a cushion component for providing a seat or a back support for a bench press can be located by the frame at least six inches off the ground or at least one foot off the ground. The frame can be similar, or the same, as a common bench, chair, preacher curl, or other typical weight lifting support frame. However, according to the teachings herein, the foam pad typically used at support points for the person exercising are replaced with one or more air-filled bladders. These air-filled bladders have many advantages over foam-filled pads as discussed herein and as will become apparent as the different embodiments are further explained.
For example, air-filled cushion components can have their support traits tailored over a length, width, or radially by changing the relative thickness of the cushion material over the length, width, or radially of the cushion. Different materials with different elasticities can be used to create composite cushions, with different support characteristics at different locations of the air-filled cushions. And, the internal pressure of the air, or other gas, can be varied to change the support characteristics of the cushion. This change in internal air pressure can be changed “on the fly”, even during a workout, so as to entirely tailor the support characteristics for the particular user or exercise. For example, a user who is relatively heavy may enjoy an air pressure or cushion design that is designed for their weight and preferences as compared to a user who is relatively light.
The air-filled cushion can be entirely devoid of anything but gas. So, for example, the air-filled cushion would not have any foam within the cushion or it could have a relatively low level of foam within.
According to some embodiments disclosed herein the cushion can have a fluid or gel within the cushion. However, according to the preferred embodiments, the cushion has air within the cushion and the cushion acts as a deformable bladder conforming the user's body during an exercise. For example, the size and shape of the cushion can be tailored for the particular exercise being performed and the support point of the user where a cushion for a support point for a user's arm might be smaller than a cushion for a support point for a user's back. Moreover, the size and shape of the cushion can be tailored to the length of the user's triceps in a preacher curl embodiment whereas the size and shape of the cushion supporting the user's back in a bench press embodiment would be much longer and wider to sufficiently support the user's back.
The volume of air within the air bladder of such a cushion can vary from at least 6 cubic inches in a small cushion to at least 1 cubic foot or 2 cubic feet in a larger cushion, or more. In each embodiment, as discussed above, the gas is compressible, and therefore, creates an outward pressure on the inside surface of the bladder of the cushion. And, this outward pressure is displaced by the weight or the user or by pressure against the pressure points of the user so as to deform the cushion and create an instability for the user during the exercise so as to encourage use of core muscles and other stabilizing muscles to maintain the user's desired stability while exercising on the cushion component.
The pressure of the air, or other gas, within the cushion can be at least 5 pounds per square inch, at least 10 pounds per square inch, at least 15 pounds per square inch, at least 20 pounds per square inch, at least 25 pounds per square inch, or more. The pressure of the air can be adjustable as discussed above, or can be set at a predetermined optimum pressure. The pressure of the air can be selected based on the exercise, the size and/or shape of the user, and/or the strength of the user. So, where a particular user is stronger than another particular user and will lift more weight as a result, a different more resilient cushion can be selected or the air pressure within the cushion can be varied to compensate for the variation in user body shape, strength, and/or particular exercise chosen.
The embodiments herein need not use only air-filled cushions but can also include a combination of air-filled cushions, fluid-filled cushions, and/or foam filled cushions. Preferably, however, at least one air-filled cushion is implemented to resulting the core strengthening advantages that the inventor of this application has discovered by using the exercise machines disclosed herein.
In a bench embodiment the bench can have adjustable angles and can have a weight support structure of the frame configured to support the weights supported by a bar at an accessible level above the user prior to and after a bench press exercise.
Similarly, a preacher-curl embodiment can include a similar weight supporting structure for supporting a curl-bar or other bar holding weights prior to and after a preacher-curl exercise.
The inventor of this patent application has found an unexpected and synergistic result from the combination of elements disclosed herein, and claimed, beyond the various independent exercise components. The fitness machines disclosed herein offer a new and unexpected core strengthening result while additional beneficial muscle exercises are simultaneously conducted to the other muscles and muscle groups. And, the ergonomic effect of the body shape designed air cushion support further enhances the synergistic and unexpected results. For the fitness industry, the introduction of such synergistic designs does not require a reconfiguration, or expansion, of a current exercise facility. Rather, the designs herein can be included, or supplemented, within the current fitness center layout and facilities without undesirable extra expenditures or reconfigurations. Further features and advantages can be apparent from the disclosure hereinafter and will be apparent to one of ordinary skill after reading this disclosure.
Cushion 12 is supported by the infrastructure provided by frame 14. Cushion 12 is one example of a cushion component. Cushion 12 is also one example of an air filled resilient member. In the illustrated embodiment, cushion 12 provides a support surface which minimizes bottoming out during exercise.
The size, dimension, and material properties of cushion 12 are selected to provide a desired degree of instability to a user exercising or otherwise positioned on cushion 12. Depending on the type of exercise the bench is configured to provide, cushion 12 can comprise a seat, platform and/or other surface for laying and/or sitting during exercise. Use of cushion 12 encourages and/or requires a user to use core muscles to maintain desired stability during repetitive motion exercises. Core muscles tend to be muscles which run the length of the trunk and torso and are utilized to stabilize the spine, pelvis and shoulder girdle to create a solid base of support for normal body movement. Such core muscles can include, but are not limited to the Rectus Abdominus, Erector Spinea, Multifidus, External Obliques, Internal Obliques, Transverse Abdominis, Hip Flexors, Gluteus medius, Gluteus minimus, Gluteus maximus, hamstrings, piriformis and hip abductors.
The configuration of cushion 12 allows a user to exercise more than one muscle group. While traditional exercise balls typically are focused on abdominal exercises, by incorporating air surfaces into traditional weight benches and weight machines, the user can focus on building extremity muscles while simultaneously building their core muscles. The synergies of shaping air surfaces and traditional weight benches makes such benefits possible.
As will be appreciated by those skilled in the art, the particular core muscles which are employed during a particular exercise can depend on the type and nature of stability cushion exercise machine and the type and nature of exercise performed on the machine. It should also be understood that while the stability cushion exercise machine can improve the exercise of core muscles, other muscle groups can also be targeted, or provided with enhanced workout by use of a stability cushion exercise machine.
In the illustrated embodiment, frame 14 is depicted. Frame 14 can include a variety of exercise benches and exercise machines that are similar in height, length and size as traditional benches, machines. The dimensions of frame 14 can be selected to allow a user to better place themselves in a multitude of exercise positions while laying or sitting on a surface filled with air. Frame 14 includes a base support stand 16, a rotation member 18, a base support member 20, a first upright support member 22 and a second upright support member 24. Frame 14 can also include bench support frame 30 according to one embodiment of the present invention. According to another embodiment of the present invention, bench support frame 30 comprises a portion of cushion 12.
Base support stand 16 provides infrastructure for stabilizing frame 14 relative to the floor, or other support surface, upon which stability cushion exercise machine 10 is positioned. Base support stand 16 includes a lower contact surface which directly contacts the support surface or floor. Additionally, base support stand extends laterally substantially the entire length of stability cushion exercise machine.
In the illustrated embodiment, base support stand 16 includes a base support member 20. Base support member 20 is positioned centrally with respect to the other components of frame 14. Base support member 20 has a generally elliptical shape which extends laterally from the central axis provided by the other components of base support stand 16. In this manner, base support member 20 provides lateral support to frame 14 to minimize undesired tipping or other instability to frame 14 relative to the ground.
Frame 14 includes a first upright support member 22 and a second upright support member 24. First upright support member is secured to one end of base support member 20 along the central axis of base support member 20. Second upright support member 24 is secured to base support member 20 at the other end of base support member 20 at a position along the central axis of base support member 20. First and second upright support members 22 and 24 have a first portion which is adapted to remain in contact with the floor for a predetermined distance. A second portion of upright support members 22 and 24 are adapted to extend in an upright manner so as to provide desired support for cushion 12. A third and middle portion of each of upright support members 22 and 24 are adapted to provide a curved or angled transition from the first portion to the second portions of each of first and second upright support member 22 and 24. This allows a substantially 90 degree angle to be formed between first and second portions of upright support members.
In the illustrated embodiment, the cushion assembly 12 is secured to the frame 14 at the upper ends of first upright support member 22 and second upright support member 24. In the illustrated embodiment, cushion assembly 12 comprises a bench support frame 30, an instability cushion 32 and a secondary cushion member 34. Support frame 30 comprises a component on which the other members of cushion assembly 12 are mounted. Instability cushion 32 comprises a resilient member which provides a support surface on which a user can sit/stand or otherwise utilize during exercise. In the illustrated embodiment, instability cushion 32 is formed from a resilient material having a durometer which provides a desired level of support, but also the resiliency needed to achieve a degree of instability which encourages a user to engage his/her core muscles to maintain a desired degree of stability on the instability of cushion 32. In the illustrated embodiment, the instability cushion has a desired degree of arc to provide an instability ball like feel, while also have an elongate configuration which can be useful for bench press, pectoral fly or other exercises where the user is positioned on his/her back.
In the illustrated embodiment, a pivot mechanism 36 is provided. Pivot mechanism 36 allows a user to rotate cushion assembly 12 such that secondary cushion member 34 is positioned upward. In this manner, in the event that the user desires to conduct traditional exercises using a more traditional stable support surface, the secondary cushion member 34 is provided. A rotation pin 38 is provided to selectively secure or release the pivot mechanism to allow for free and full rotation of cushion assembly 12.
According to one embodiment of the present invention, the resilient member forming cushion 12 is secured to frame 14 utilizing a support ring and a base plate. Support ring and base plate can be made utilizing a number of materials including, but not limited to steel, plastic, aluminum, carbon fiber and so forth. The membrane or bladder forming from which cushion 12 is formed has a flange which runs around its entire outer perimeter. The flange which is integrally formed on the outside annular extremity of resilient member is secured to components of frame 14. The flange can include mounting holes which allow the bladder to be secured to its frame using screws, pins and/or bolts. The bladder is then placed on the base plate and the support ring is placed over the base plate. Using a securement mechanism such as a screw, bolt, rivet or pin, the components can then be secured relative to the frame 14.
In the illustrated embodiment, support frame 30 includes circumferential support member 44 and cross support members 46a-d. Circumferential support member 44 is configured to provide support to the outer perimeter of a cushion positioned thereon. Cross support members 46a-d provide additional strength and support to circumferential support member 44. Additionally, cross support members 46a-d provides additional support to a cushion attached to support frame 30.
In the illustrated embodiment, rotation pin 38 is depicted. Rotation pin is provided in connection with a pivot mechanism. A user can retract rotation pin to allow the pivot mechanism to be utilized to rotate support frame 30. In this manner, the underside of support frame can be rotated exposing the underside of support frame. This can be useful. For example, a first cushion can be provided on one side of support frame 30 and a second cushion having different parameters from the first cushion can be utilized from the user if different desired cushioning properties are desired.
As will be appreciated by those skilled in the art, frame 14 is provided for exemplary purposes and shall not be considered to be limited to the type and configuration of frames than can be provided. A variety of types and configurations of support frames can be utilized without departing from the scope and spirit of the present invention.
Cushion 32 has a first axis and a second axis wherein the dimensions of the first axis are different from the dimensions of the second axis and wherein the differences between the dimensions of the first axis and the second axis provide differing levels of instability of the cushion 32 in the direction of the first axis and the second axis to provide an improved support surface on which to exercise. In this manner, cushion 32 provides a plurality of shapes that are more conducive to an exercise machine than a swiss ball-type or spherical apparatus. Other shapes can also be provided such as squares, ovals, triangles or other suitable variations of resilient cushion members. By integrating an instability cushion with traditional weight bench designs, allow exercises which are more conducive to exercises known to users.
Cushion 32 has a non-spherical configuration. The non-spherical configuration of cushion component 32 provides a support surface for one or more portions of a user's body when the user is exercising in connection with the exercise machine wherein the non-spherical cushion component provides a greater contact surface than a spherical contact surface having the same radius.
In the illustrated embodiment a secondary cushion 34 is depicted. Secondary cushion 34 has a lower elevation than cushion component 32. Secondary cushion 34 may have different properties from cushion component 32. For example, cushion component 32 may have little or no instability allowing a user to perform exercises on a more stable surface when desired by rotating support frame 30 such that cushion component 34 is positioned in an upward facing direction while cushion component 32 is positioned so as to be out of use.
In the illustrated embodiment, cushion component 34 has a different texture than the annular raised rings which are depicted as being included on instability cushion 32.
As will be appreciated by those skilled in the art, a variety of shapes and configurations of cushions can be provided without departing from the scope and spirit of the present invention. For example, cushions having differing thickness, durometer, resiliency, inflation and material properties can be provided. For example, one cushion may be an air cushion, while the other cushion may be a foam cushion.
A longer support portion 64 comprises first cushion 62a and second cushion 62b. The shorter support component 66 includes a single cushion 62c. One or both of the longer support component 64 and shorter support component 66 can be adjusted to provide desired configurations for exercise. A support pivot 68 is depicted. Support pivot 68 allows one or both of longer support component 64 and shorter support component 66 to be adjusted to differing angles to accommodate various types of exercise.
For example, the arcuate support members 70 and 72 include selectively removable pin securement members 74 and 76. By removing one or both of pins 74 and 76 and angling one or both of shorter support component 66 and longer support component 64 about support pivot 68, the user can change the configuration of the bench and perform different exercise which may not be available on a simple bench.
The multi-purpose adjustable exercise bench 60 is provided for illustrative purposes to illustrate different functionality of exercises benches that can be provided with instability cushions according to one embodiment of the present invention.
Claims
1. A stability cushion exercise machine comprising:
- a frame having one or more upright support members, the frame being adapted to provide stability to the additional components of the stability cushion exercise machine; and
- a cushion component secured to the frame, the cushion component providing a support surface for one or more portions of a user's body when the user is exercising in connection with the exercise machine wherein the cushion component is configured to provide a desired degree of instability to encourage use of core muscles and other stabilizing muscles to maintain the user's desired stability while exercising on the cushion component.
2. The stability cushion exercise machine according to claim 1, wherein the frame raises the cushion and exercise surface above the floor on which the frame is positioned.
3. The stability cushion exercise machine according to claim 2, wherein the cushion comprises an inflatable bladder.
4. The stability cushion exercise machine of claim 3, wherein the inflatable bladder provides a desired degree of resiliency and also resistance to support a user exercising thereon while also providing a desired degree of instability to encourage the use of core muscles during exercise.
5. The stability cushion exercise machine of claim 4, wherein the inflatable bladder provides an upper contact surface for supporting a user exercising thereon.
6. The stability cushion exercise machine of claim 4, wherein the inflatable bladder is covered by an upper contact member, such that the inflatable bladder is one of several components comprising the cushion.
7. A stability cushion exercise machine comprising:
- a frame adapted to provide a desired support surface which is raised from the floor; and
- a non-spherical cushion component secured to the frame, the non-spherical cushion component providing a support surface for one or more portions of a user's body when the user is exercising in connection with the exercise machine wherein the non-spherical cushion component provides a greater contact surface than a spherical contact surface having the same radius.
8. The stability cushion exercise machine of claim 7, wherein the contact surface of the non-spherical cushion component is adapted to conform to the portion of the user's body to be supported by the cushion during exercise.
9. The stability cushion exercise machine of claim 7, wherein the contact surface of the non-spherical cushion component is selected based on the type of exercise to be performed.
10. The stability cushion exercise machine of claim 7, wherein the contact surface of the non-spherical cushion has an elongate configuration such that a substantially elongate contact surface is provided to support various portions of a user's body.
11. The stability cushion exercise machine of claim 10, wherein the contact surface of the non-spherical cushion is adapted to support the user's torso, buttocks and head.
12. A stability cushion exercise machine comprising:
- a frame adapted to provide a desired support surface which is raised from the floor; and
- an air filled resilient member secured to the frame, the air filled resilient member providing a support surface for one or more portions of a user's body when the user is exercising in connection with the exercise machine wherein the resiliency of the air filled resilient member is selected to minimize bottoming out of the air filled resilient member when the user is positioned on the air filled resilient member during exercise.
13. The stability cushion exercise machine of claim 12, wherein the frame provides a configuration which is similar in height weight and size to traditional exercise machines.
14. The stability cushion exercise machine of claim 13, wherein the frame allows a user to place themselves in a multitude of exercise positions similar to traditional exercise machines while simultaneously laying or sitting on an air filled surface provided by air filled resilient member.
15. The stability cushion exercise machine of claim 12, wherein combination of the frame and the air filled resilient member in combination provide an improved which are superior to other methods of building core strength.
16. A stability cushion exercise machine comprising:
- a frame adapted to provide a support to the other components of the exercise machine; and
- an air filled resilient member secured to the frame, the air filled resilient member having a first axis and a second axis wherein the dimensions of the first axis are different from the dimensions of the second axis and wherein the differences between the dimensions of the first axis and the second axis provide differing levels of instability of the air filled resilient members in the direction of the first axis and the second axis to provide an improved support surface on which to exercise.
17. The stability cushion exercise machine of claim 16, wherein the air filled resilient member first axis has a dimension that is shorter than the dimension of the second axis.
18. The stability cushion exercise machine of claim 16, wherein the air filled resilient member first axis has a dimension that is wider than the dimension of the second axis.
19. The stability cushion exercise machine of claim 16, wherein the air filled resilient member first axis has a dimension which is selected to provide a greater degree of stability and dimension of the second axis is selected to provide a lesser degree of stability to provide a controlled and carefully selected engagement of the user's core muscles.
20. The stability cushion exercise machine of claim 19, wherein the air filled resilient member includes a securement portion for securing the air filled resilient member to the frame.
21. The stability cushion exercise machine of claim 19, wherein the frame includes a securement member for securing the air filled resilient member to the frame.
22. The stability cushion exercise machine of claim 19, wherein the air filled resilient member includes a flange and a support ring is provided to secure the flange relative to components of the frame.
Type: Application
Filed: Mar 10, 2011
Publication Date: Jan 19, 2012
Inventors: Amy Strong Crawley (Draper, UT), William Crawley (Draper, UT)
Application Number: 13/045,496
International Classification: A63B 26/00 (20060101);