Patent Grant
12097398
The present invention generally relates a new system for user-power exercise using a set of mounting plates attached to a surface capable of being modulated as to both the number and location of anchor points and the effective length of biasing elements to allow a user, holding one or more exercise attachments to perform exercises in the aerobic, the strength, the flexibility, and in the balance areas. The system allows for class dynamics and full body workouts after performing a wide range of exercises.
There are four types of physical exercises, the first is aerobic exercises designed to increase your breathing and heart-rate and is often used as the overall main component of most fitness programs or the warm up phase for other types of fitness exercise. Aerobic exercises include jogging, walking, climbing stairs, or sports like swimming, running, playing tennis, or dancing. Aerobic machines include the treadmill, the stair climber and the stationary bike. The second type of exercise is strength exercises. These are important for keeping bones and muscles strong and helping older adults maintain independence and bone density. Examples of strength exercises include lifting free weights, using resistance machines at a gym, or using the famous TRX® exercise bands invented by the inventor to leverage a person's own body weight to build strength. The third type of exercise is flexibility exercises are useful to help maintain good physical health, a limber body and a body able to move freely in its environment. For example, flexibility exercises include stretching or doing yoga and also a whole range of exercise using the inventor's famous TRX® Suspension Training®. The fourth and final type of exercises is balance known to help improve balance, strengthen core portions of an individual, and help with three-dimensional orientation and movement. For example, the practice of Tai Chi, standing on one foot or on a ball, or even walking heel-to-toe helps with balance. Once again, the famous TRX® line of products also includes these types of exercises. What is needed is a system designed to offer in a single product a whole range of exercises in as many of these types as possible.
As one can imagine, everyone from the professional athlete to the person in physical rehabilitation from an injury faces the task of learning from each of these different types of exercises, learning of numerous equipment used to perform these four types of exercises, and more importantly manage a schedule and work-out location to be able to take full benefit from such complex notions. For example, around towns, gyms have popped-up where some of this equipment is collected and assembled and also where service providers such as trained assistants and coaches can use the equipment to better meet the different needs of customers and users. But as one can imagine, machines often target a single muscle group, require maintenance, are bulky and costly. Centers for rehabilitation are also large, require extensive maintenance and pass on the cost to clients and patients. What is needed is a low cost system, that can be installed in a limited area to help service these needs.
The inventor also understands the value of training solutions able to either offer a wide range of exercise spanning, a system able to be used in a dynamic class environment, or even a low cost alternative to the use of numerous and bulky machines by private gyms. Shown as
The inventor has invented and developed a sub-field of exercise known as SUSPENSION TRAINING® by TRX®. This technology the use of resistance bands 3 as shown at
Individual exercise equipment in the strength exercise area is heavy, bulky, and designed to focus on a single muscle group. A user sits in a very specific position, then adjust upon need a stack of variable weights. Using a pin and gravity, the user would select a fraction of the available maximum weight. Sitting at the machine, a single movement is strained at the proper angle, with the proper force for a set period of repetition. Using a person's own weight, the need for a stack of heavy weight could be circumvented. Also, Mr. Hetrick adapted the device so it could be used to perform a large number of exercises targeting a large number of muscles and muscle groups. In essence, he created a “gym in a bag” which revolutionized the exercise world. In many gyms, trainers are forced to alternate between using these machines and using an exercise ball to work other groups of muscles.
At the heart of training technology is the notion that certain elements are elastic and others are not elastic. An example of a non-elastic element includes a rope or a nylon strap which retains mostly the same length once a traction force is applied thereto. The technology of the SUSPENSION TRAINING® relies generally on inelastic flat straps. Recently U.S. Pat. No. 9,802,072 was granted to Mr. Michael A. Wehrell. He invented a semi-portable system designed to create a constant resistance on ropes pulled away from a box.
In a different invention shown as U.S. Pat. No. 9,050,493 teaches a station mounted on a wall with multiple plates made of hooks in different orientations as
Historically, the RIP TRAINER® shown at
Using normal stacks of weights or ropes, a person sets a fixed weight (i.e. 50 lbs) and as the exercise is performed, the weight and force remains constant. One of the problems with fixed force exercise is that a muscle might be stronger in certain angles while weaker at others in any given range of motion. In contrast, gyms often provide a set of elastic bands with two end handles or closed O-shaped bands. To vary the resistance offered by these bands, the type of elastic band will be varied. For example, a set of different color bands can be sold commercially, the red being a fixed force per inch, the second twice the force for an elongation of one inch. What most do not understand is that the strain or return force created in the user's muscles by moving the tip of a biasing element varies as it increases in distance using Hoke's law. As a reminder, this important law is given by:
F=k*ΔL
Where F is the force upon a user's body, k is a proportionality constant that depends on the shape and composition of the elastic member and ΔL is the variation in length of the elastic member. In essence, the greater the deformation of the elastic member, the greater the force felt by the user. The problem associated with Hooke's law when exercising is this understanding that a movement during exercise has a start (A) and an end point (B) and that movement between both of these points result in: B−A=ΔL
So a coach will have to understand that unlike in strap-based exercise or other type of strength exercise, the created resistance on a muscle or a group will evolve and increase as the movement is performed. A coach must measure a starting point, an end point, and try to regulate angles, distances, or the type of band (k) to optimize the exercise. For example, in the case of a baseball bat swing, a person may need a larger effort in the back of the swing requiring initial gyration or the start A located closer away from a point. In the case of a swim stroke, where the movement is completely different, the system cannot be adapted from a baseball swing to a swim stroke. As a consequence, the current use of this technology allows a person to work on torsion generally, angled groups of muscles. Said more simply, if an arm moves 24 inches in a given exercise, on a normal inelastic set, the force F may be 50 lbs from the first inch to the last. Using Hooke's law, if the force on a biasing element is 2 lbs per inch, the first inch will see a force of 2 lbs only while the last inch will see a force of 48 lbs (i.e. 24 inch×2 lbs/in). Since a minimum resistance should be placed on muscles during the entire cycle of exercise, in the context of exercising with a biasing element, the biasing element could be initially pre-tensed (i.e. the movement can be made to start at inch 10) so the start of the exercise has 20 lbs and the end would have 68 lbs (i.e. 20 lbs+(24 inch×2 lbs/in).
While in initial stages of deformation Hooke's Law can be faithfully found, once a certain threshold has been passed, the band will deform less for a greater increase in force on the user. Finally, past a plastic deformation point, damage will be done to the element which will not return to the initial length. Finally, if pulled enough, any band will break. Once again, coaches adapt to these problems by calibrating movements, changing the band length, or asking a user to hold the staff at a different location.
What is needed is a new version of the RIP that is more adapted to a rapid adaptation and variability of the proportionality constant (k) to greatly increase the strength for multiple users, increase the number of effective ranges of exercises, and more importantly be able to control the length (ΔL) needed for exercise and thus better control the effective footprint of the system. The inventor, more than anyone in the field, understands that users of products greatly desire versatility and the capacity to conduct a whole range of exercises with a single device. Also, movements of such a staff may result, in confined spaces such as hotel rooms or smaller training areas in damage to the environment as the staff is moved to help find the appropriate force and angle of exercise. What is needed is a system designed for use in a compact environment or a system that takes into consideration these inherent special limitations and leverages them appropriately to help provide the system a greater value. Finally, what is also needed is a system capable of being transformed from being a piece of equipment designed to help focus and train specific segments of a body into system capable of being used to train larger portions of a user's body or better yet to be used in a class or dynamic training environment.
The present invention generally relates to a new system for exercise using a set of mounting plates attached to a surface capable of being modulated as to both the number and location of anchor points, the use of shortening elements to quickly vary the effective length of a set of biasing elements to allow a user, holding one or more exercise attachments to perform exercises in the aerobic, the strength, the flexibility, and in the balance areas. The system allows for easy class dynamics as users can quickly reconfigure the system using one or many of snap-connects, move their position on the floor in front of the mounting plates. The system allows for hundreds of different exercises to be performed, a rapid alternation between exercise, a simple method to target specific muscle groups at specific angles of exercise to create a full body experience. Also, the system is designed with no weights, no heavy or bulky features and can at very low cost be purchased and installed in most existing locations.
In one embodiment in accordance with the present disclosure, an exercise system for performing exercises adjacent to a surface by at least a user by creating a resistance force in a portion of the user's body by pulling at least one exercising element away from the surface is provided. The system includes first and second mounting points fixed on the surface, each of the first and second mounting points including at least one shortening element and a first mating connector. The system can also include a biasing element comprising a proximate end and a distal end and a length therebetween. The biasing element can be configured to pass through the at least one shortening element on one of the first and second mounting points and the distal end can be removably coupled to the first mating connector on one of the first and second mounting points. The system can further include at least one user interface removably coupled to the proximate end of the biasing element. An intermediate portion of the biasing element located between the proximate end and the distal end can be configured to slide in the at least one shortening element and serves to alter a resistance vector at the user interface during use.
In one aspect of the present disclosure, the first and second mounting points comprise first and second mounting plates, respectively.
In another aspect, the system can further include a third mounting point comprising a third mounting plate to form a three by three matrix of anchor points.
In another aspect, the surface is a vertical wall and the mounting plates each include an attachment for securing each plate to the vertical wall either horizontally or vertically.
In another aspect, the user interface is selected from a group comprising, a strap based exercise trainer device, a strap-based handle, a partly wooden handle, a loop with a carabineer, a belt attachment, and a shoulder strap attachment.
In another aspect, either the first mating connector or the user interface can include either a quick-connect or a carabineer.
In another aspect, the shortening element for sliding movement of the biasing element in the anchor is selected from the group of a smooth rounded surface, a surface with friction rollers, a rope guide with funnel, a bearing-based friction redactor, a Teflon®-coated transfer segment.
In another aspect, the exercise system can include a plurality of biasing elements each adapted to be removably coupled to different locations on the mounting points.
In another aspect, the plurality of biasing elements has different variable resistance to elongation or are of different lengths.
In still another aspect, the exercise system can include a stand for holding a guide for exercising and using of the system.
In another example in accordance with the present disclosure, a method of using an exercise system for performing exercises next to a surface is provided. The method can include the steps of mounting upon a surface at least two mounting points, wherein each mounting point includes at least an opening for the passage and sliding movement of at least one biasing element, and a first mating connector to receive a distal end of the at least one biasing element. The method can also include attaching at least one user interface to a proximate end of the at least one biasing element and sliding the distal end of the at least one biasing element through the at least one opening of the mounting point. The method can also include attaching the distal end of the at least one biasing element to one of the first mating connectors. During use of the system and the related method can also include articulating the user interface relative to the mounting surface in a direction generally away from the surface to create a variable resistance via variable deformation of a length of the biasing element, wherein a resistance vector felt by a user articulating the user interface is modulated by a resistor vector at the other of the distal end of the at least one biasing element.
In one aspect, the exercise system has a vertical wall as a surface and the mounting plates include an attachment for securing each plate to the vertical wall either horizontally or vertically, and the method includes the step of mounting the plates and also securing to a wall in proximity a rack and accessories for use by the method.
In another example in accordance with the present disclosure, a method of using an essentially vertical exercise system is provided. The method may include providing an exercise system. The exercise system can include a base plate mounted on an essentially vertical surface with multiple attachment points and at least one elastic band with a first end for connection to at least one of the multiple attachment points and the other end for applying a pulling force, wherein at least one of the multiple attachment points comprises a substantially rounded bracket defining an opening. The method can include attaching the base plate to an essentially vertical surface and attaching the at least one elastic band to one of the multiple attachment points on the base plate. The method can also include threading the at least one elastic band through the substantially rounded bracket and applying a force to an end of the elastic band in a direction generally away from the base plate.
In yet another example in accordance with the present disclosure, another method of using an essentially vertical exercise system is provided. The method may include providing an exercise system. The exercise system can include a base plate mounted on an essentially vertical surface with multiple attachment points and at least one elastic band having a fixed length with a first resistance with a first end for connection to at least one of the multiple attachment points and a second end for applying a pulling force. The method may also include attaching the base plate to an essentially vertical surface and attaching the first end of the at least one elastic band to the base plate using a quick-connect at one of the multiple attachment points on the base plate. The method may also include applying a first force to the second end of the elastic band at the first resistance and threading the at least one elastic band through at least one other attachment point on the base plate for shortening the effective exercising length of the elastic band to create a second resistance, wherein the second resistance is greater than the first resistance. The method may also include applying a second force to the second end of the elastic band at the second resistance.
In yet another example in accordance with the present disclosure, a method of using an essentially vertical exercise system is provided. The method includes providing an exercise system, the exercise system comprising a base plate with multiple female quick-connectors and at least one elastic band having a fixed length with a first end with a male quick-connector and a second end for applying a pulling force. The method further includes attaching the base plate to an essentially vertical surface and attaching the first end of the at least one elastic band to one of the multiple female quick-connectors on the base plate. The method may also include applying a force to the second end of the elastic band for exercising in a first configuration and removing the male quick-connector from the one of the multiple female quick-connectors to disconnect the at least one elastic band from the base plate. The method may also include attaching the at least one elastic band at the first end using the male quick-connector to a different one of the multiple female quick-connectors on the base plate and applying a force to the second end of the at least one elastic band for exercising in a second configuration.
In still another example in accordance with the present disclosure, a process of installation on a virtually vertical surface of an exercise system is provided. The process may include providing an exercise system. The exercise system can include at least two base plates for mounting on an essentially vertical surface, each base plate with multiple attachment points and at least one elastic band with a first end for connection to at least one of the multiple attachment points and a second end for applying a pulling force. The at least one of the multiple attachment points can include one of a substantially rounded bracket, a male quick-connect or a female quick-connect. The process may also include attaching a first of the at least two base plates to the essentially vertical surface and attaching a second of the at least two base plates to the essentially vertical surface in close proximity to the first base plate. The process may also include attaching the at least one elastic band to one of the plurality of attachment points on the base plate via either the substantially rounded bracket, the male quick-connect or the female quick-connect.
The current invention is one described as part of the field of exercising generally and also described in terminology linked with products generally found in modern gyms. But historically, such products have had a much wider audience than simply the people who desire to exercise. For example, the military has extensive programs directed at making sure troops are ready, well trained and well-conditioned including physical conditioning. While not explicitly described as such, one of ordinary skill will understand that this new invention and its teachings can as easily be extended to apply to the military. Also, one other key group which has an extensive need of this technology is the medical therapeutic and rehabilitation area. When individuals have issues with specific groups of muscles, they may be required to perform routinely certain very specific sets of exercise. This invention relates to a new system and apparatus specifically designed to be adapted easily as to resistance, strength, angle, and the way it can be used. Nursing homes and other centers for those facing any type of physical challenge also can use this type of technology. For example, one can conceive using one of the wall mounted pieces on hospital or nursing homes next to a bed. Using this technology, a bed-struck individual may still be able to do at leisure certain upper body exercise to tone and maintain the lower back which often will be severely distressed during extended bedrests.
Other uses also include micro-gravity environments or even underwater environment. Weight training is almost impossible to operate in micro-gravity environments and the classic body weight strap system cannot be used without gravity or under water in a pool, this technology can easily be placed inside of a pool for use to help with aqua aerobics to incorporate some level of non-aerobic exercise. What is contemplated is the use of this technology in any location where a wall or flat surface can be used next to some open area where a person can train.
In one other embodiment, a kit can be offered and sold which includes multiple parts, such as the SUSPENSION TRAINING®, software access and classes/services related to the system 50, and/or other elements such as for example apparels, bags, the older version of the RIP TRAINER®. In another aspect, the system 50 or one or more of the mounting plates 51 can include a stand for holding a guide for exercising and using of the system. The stand (not shown) can have the form of a tray, sleeve, clip or other retention or support device that can hold a guide. The stand can be positioned so that the guide is conveniently located to be visible to a user of the system 50.
As shown in isometric view, the mounting plate 51 at
As shown at
Mating Connectors
One of the core concepts of the system 50 as shown is the notion that by using mating connectors shown at
The male connector has a rounded tip 72 for insertion into the female connector and a retention lip 76. This lip 76 is designed to withstand the sheer forces of a pull. The locking ring 75 as shown is kept in the engaged position with a spring or another biasing element such as a plastic bent tab. Finger insertions (or releases) located at 180 degrees radially on the ring 75 allow a user with the thumb and another finger to push easily the finger insertions down allowing the coupling ring 75 to easily be placed and guided over the rounded tip 72 past the engagement tabs pushed outwardly by the finger insertions in a low position. Once the male connector is slid inside the female connector, by releasing the finger insertion(s), the engagement tabs close over the lip 76 completing the lock. The male connector also has a base 73 which serves to receive or connect with the upper segment of the locking ring 75. In addition, as currently contemplated, the connector is designed to lock in place and produce (without wear) a loud snapping sound to make sure the user understands the trusts the established connection. While one technology of male/female connection is shown and described, one of ordinary skill in the art will understand that what is contemplated is the use of any quick connect connector, such as for example simple carabineers and loops as the male and female connectors, the use of magnetic plates, the use of screw on systems, or even the use of a nesting plate (i.e. square, round) separated by a small space from the mounting plate 2 and a pairing flat plate that slides into the nesting plate. Also contemplated is the use of male or female openings made directly into the wall. Shown at 90 is the attachment of any piece of this system 50.
Biasing Element(s)
As shown at
Each of the ends of the biasing element 80, 81, includes a connector 82, 83 which can be interchanged to facilitate the connection and avoid placing a burden on the person using the system 50. At each end, a protector can be added in one embodiment to help protect the connectors and the stitching of the biasing element 60. While
Another of the key features of this new system 50 is the use of longer biasing elements 60 which can be effectively shortened by slipping the end connector inside the semi-circular shortening elements 52 of the mounting plates 51. As shown at
F=R+(k*ΔL)
Where F is the force upon a user's body, R is a friction coefficient linked with the friction between the biasing element 60 and the shortening element 52. As one can imagine, the friction R changes with the angle of the biasing element 60 around the biasing element. For example, if the angle is 90 degrees the resistance may be X but if the exercise is conducted with the hand in the air instead of in front, the angle can be reduced and the effective resistance. In this manner, a resistance vector can be created at the end of the biasing element to change and/or modulate the resistance force and direction seen by the user of the system 50.
Exercise Attachments
The first exercise attachment is a long staff 101 that may be in a single piece or two-pieces. In one embodiment, both ends include a male connector 102, 103, where one is to be connected to one of the female connectors of the biasing element. The other male connector, for example, can be connected to the female mating connector shown at
The fifth exercise attachment 500 as shown at
Returning to
The second exercise attachment 200 as shown at
This application claims priority under 35 U.S.C. § 119(e) to International Patent Application Serial No. PCT/US2020/037443 filed on Jun. 12, 2020 entitled EXERCISE SYSTEM FOR USING VARIABLE LOCATION ANCHORS AND VARIABLE BIASING ELEMENTS, AND METHOD OF USE THEREOF which claims priority to U.S. Provisional Patent Application Ser. No. 62/860,477 filed on Jun. 12, 2019, the entire contents of which are incorporated herein by reference.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/US2020/037443 | 6/12/2020 | WO |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2020/252268 | 12/17/2020 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 3618942 | Bates et al. | Nov 1971 | A |
| 7090622 | Hetrick | Aug 2006 | B2 |
| 7625325 | Yost | Dec 2009 | B1 |
| 8690742 | Herman et al. | Apr 2014 | B1 |
| 9050493 | Perez | Jun 2015 | B2 |
| 9802072 | Wehrell | Oct 2017 | B2 |
| 10391356 | Davis | Aug 2019 | B2 |
| 20030186792 | Keeler | Oct 2003 | A1 |
| 20110237410 | Perez | Sep 2011 | A1 |
| 20140141946 | Huber | May 2014 | A1 |
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| 20170128769 | Long et al. | May 2017 | A1 |
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| 20180021622 | Holland et al. | Jan 2018 | A1 |
| 20200078628 | Parise | Mar 2020 | A1 |
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| 20220176187 | Falahi | Jun 2022 | A1 |
| Number | Date | Country |
|---|---|---|
| 102014012263 | Feb 2016 | DE |
| Entry |
|---|
| International Search Report and Written Opinion for corresponding PCT Application Serial No. PCT/US2020/037443 mailed Oct. 15, 2020. |
| Extended European Search Report issued for corresponding European Patent Application No. 20822343.8 dated Jun. 2, 2023, 8 pages. |
| Number | Date | Country | |
|---|---|---|---|
| 20220257990 A1 | Aug 2022 | US |
| Number | Date | Country | |
|---|---|---|---|
| 62860477 | Jun 2019 | US |
