Patent Publication Number: US-2023141103-A1

Title: Rehabilitative and corrective system, strength system, recovery system, muscle activation system, and methods of use

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     The present application claims priority to the U.S. Provisional Patent Application No. 63/276,735 which was filed on Nov. 8, 2021, which is hereby incorporated by reference herein in its entirety, including any figures, tables, or drawings. 
    
    
     FIELD OF THE DISCLOSURE 
     This disclosure relates to a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use. More specifically, and without limitation, the present disclosure relates to an adjustable rehabilitative and corrective platform and corresponding apparatuses that provide equipment to help a user build strength, recover, activate muscles, and release. 
     COPYRIGHT NOTICE 
     At least a portion of the disclosure of this patent document contains material that is subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the patent document or the patent disclosure, as it appears in the Patent and Trademark Office patent files and/or records, but otherwise reserves all copyright rights whatsoever. The following notice applies to the software and data as described below and in the drawings that form a part of this document. Copyright Jason Mitchler and Tyler Christiansen. All rights reserved. 
     BACKGROUND OF THE DISCLOSURE 
     Physical rehabilitation is a practice which is well known in the art. Physical rehabilitation, also associated with medicine and sports medicine, often involves care, treatment, and/or exercises and/or motions which help a person and/or patient improve physical abilities and/or recover lost physical abilities that may improve daily life. Some of the physical abilities may be lost because of injury, trauma, disease, aging, or otherwise. Physical rehabilitation is a process, often a medical prognosis, of helping a patient and/or individual improve function and quality of life. 
     Physical rehabilitation may involve doctors, chiropractors, physical therapists, and various types of equipment. A number of rehabilitative and human performance professionals and various types of equipment exist in the state of the art. A large variety of equipment exists for increasing mobility, alignment, strength, and improving recovery and/or improving recovery times for individuals. 
     When utilized correctly, various equipment in the state of the art can be effective in assisting improvement of mobility and strength for an individual. Similarly, this equipment, along with proper guidance, can also be effective in assisting with muscle activation and release. In this way, there exists equipment which can assist with rehabilitation and performance of individuals. 
     However, the current state of the art requires many pieces of equipment. Oftentimes, rehabilitation involves a huge facility to accommodate the various types of equipment and space required for such equipment. This is how the industry has operated for a long time; the rehabilitative industry. Oftentimes various pieces of equipment are required for a single type of move or guided rehabilitation. 
     Complicating matters further, the bulk of some types of equipment often doesn&#39;t fit appropriately in a required space and/or fits awkwardly into a required space. Furthermore, some equipment and/or exercises are performed on an unstable surface and/or in a circumstance of high risk and/or in a circumstance where safety may be an issue. These types of problems have plagued clinics and performance facilities. This has become known as common practice and fitting as much equipment as possible into a space is industry standard. 
     Thus, there is a need in the art for a single, well-defined spatial system which provides rehabilitation. Furthermore, while the industry practice is to utilize more equipment, there is a need in the art for a system which provides mobility enhancement, alignment, strength, recovery tools and functions in a compact and easily accessible system. These and other needs, such as accessibility and safety are needed. This need would allow for smaller offices and/or spaces. Said another way, this system would allow for use in more spaces, such as homes, or the like. In this way, the various functionality of the disclosure herein, provides for a plurality of different functions and services as an all-in-one system, utilizing a minimal amount of space, while providing rehabilitative and performance professionals a more than adequate, functional workspace to utilize skills and provide rehabilitation and more in a safe environment. 
     Furthermore, the present disclosure provides for meeting musculoskeletal needs of various individuals of various shapes and sizes, while also providing a plurality of storage locations for accessories and equipment. Furthermore, the present system can be stored easily, saving space and/or providing additional space when not in use. Similarly, the present disclosure also provides portability so that the system may be easily moved from one location to another. 
     The disclosure herein provides these advantages and others, solves long-felt needs in the art, goes against the art practice of additional and numerous amounts of equipment, and provides other functionality, features, and advantages, as will become clear from the specification and claims provided. 
     SUMMARY OF THE DISCLOSURE 
     The present disclosure—the rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use—provides the state of the art with an adjustable rehabilitative and corrective platform and corresponding apparatuses that provide equipment to help a user build strength, recover, activate muscles, and release. The rehabilitative and corrective system provides for an all-in-one system which archives the functionality of many different pieces of equipment that would otherwise be required for rehabilitation practices, among other practices. 
     Said another way, the present disclosure provides the state of the art with various advantages over the existing state of the art. The rehabilitation and corrective system fills various needs, long-felt in the art, by providing a stable system, safe to use, with multiple attachments, an adjustable set of pillars with a stable rotating crossbar, storage compartments, and various other rehabilitative equipment for use in rehabilitation which can be customized to the needs and/or requirements of an individual. 
     The present disclosure provides the state of the art with an activation and release platform. Furthermore, the present disclosure advantageously fills deficiencies in the state of the art by providing a stable platform with multiple equipment attachments and storage—in a way which eliminates the need for numerous pieces of equipment in a work space. Furthermore, the present disclosure provides the state of the art with a stable rotating crossbar and other moveable pieces for operation and/or use. Furthermore, the present disclosure provides the state of the art with a storage compartment for various components such as dowels and other rehabilitative equipment and the like; to be utilized based on an individual&#39;s needs. 
     Thus, it is a primary object of the disclosure to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that improves upon the state of the art. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that includes a frame. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that includes a platform. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that includes a stable platform that improves the safety of a user. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that can be folded for storage and/or portability. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that includes storage compartments for components. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that can be opened and closed. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provide various attachments for additional functionality. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provides for the ability to adjust various components for various sizes of a user and/or number of users. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that can be locked into various positions for safety. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provides for platform material to be interchangeable. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that can be configured to various users for various exercises and/or activations. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that are collapsible. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that saves space for a user. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provides for configuration adjustments to modify exercises. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that can be easily stored. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provides for storage of accessory equipment. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provides a storage compartment for accessory equipment. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provides a storage compartment for platform equipment. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provides a stable platform during exercise. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provides for the ability to attach multiple pieces of equipment to a single piece of equipment. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provide adjustable pillars and adjustable crossbars. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that saves facility and/or clinic space. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that benefits a patient based on individual musculoskeletal needs. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provides new solutions for a user in exercise position and musculoskeletal needs. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that are easy to use. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that are safe to use. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that are stable and accurate. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that provide a variety of restrictions in movement. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that are relatively affordable. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that are robust. 
     Another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that are quick and efficient to adjust. 
     Yet another object of the disclosure is to provide a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use that are high quality. 
     These and other objects, features, or advantages of the present disclosure will become apparent from the specification and claims. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG.  1    is a top, perspective view; the view showing the rehabilitative system; the view showing a platform frame; the view showing a stable top platform; the view showing a first center pillar; the view showing a second center pillar; the view showing a first crossbar; the view showing a second crossbar. 
         FIG.  2    is a top view; the view showing the rehabilitative system; the view showing a platform frame; the view showing a stable top platform; the view showing a first center pillar; the view showing a second center pillar; the view showing a second crossbar. 
         FIG.  3    is a side view; the view showing the rehabilitative system; the view showing a platform frame; the view showing a stable top platform; the view showing a first center pillar; the view showing a plurality of angle support features. 
         FIG.  4    is a front view; the view showing the rehabilitative system; the view showing a platform frame; the view showing a stable top platform; the view showing a first center pillar; the view showing a second center pillar; the view showing a first crossbar; the view showing a second crossbar. 
         FIG.  5    is a front view of the rehabilitative platform; the view showing the system in the stored position. 
         FIG.  6    is a side view of the rehabilitative platform; the view showing the system in the stored position. 
         FIG.  7    is a top view of the rehabilitative platform; the view showing the system in the stored position. 
         FIG.  8    is a top, perspective view of the rehabilitative platform; the view showing the system in the stored position. 
         FIG.  9    is a top perspective, exploded view of the rehabilitative platform; the view showing the system in the stored position. 
         FIG.  10    is a top, perspective view showing the threshold; the view showing the first center pillar; the view showing the second center pillar. 
         FIG.  11    is a front view showing the threshold; the view showing the first center pillar; the view showing the second center pillar. 
         FIG.  12    is a side view showing the threshold; the view showing the first center pillar. 
         FIG.  13    is a top, perspective view showing the threshold; the view showing a plurality of angle support features; the view showing the first center pillar; the view showing the second center pillar. 
         FIG.  14    is a front view showing the threshold; the view showing a plurality of angle support features; the view showing the first center pillar; the view showing the second center pillar. 
         FIG.  15    is a side view showing the threshold; the view showing a plurality of angle support features; the view showing the first center pillar. 
         FIG.  16    is a top, perspective, exploded view showing the threshold; the view showing a plurality of angle support features; the view showing the first center pillar; the view showing the second center pillar. 
         FIG.  17    is a top, perspective view showing the platform frame. 
         FIG.  18    is a front view showing the platform frame. 
         FIG.  19    is a side view showing the platform frame. 
         FIG.  20    is a bottom view showing the platform frame. 
         FIG.  21    is a side view showing the platform frame. 
         FIG.  22    is a rear view showing the platform frame. 
         FIG.  23    is a top, perspective view showing the platform frame. 
         FIG.  24    is a front view showing the platform frame. 
         FIG.  25    is a side view showing the platform frame. 
         FIG.  26    is a bottom view showing the platform frame. 
         FIG.  27    is a side view showing the platform frame. 
         FIG.  28    is a rear view showing the platform frame. 
         FIG.  29    is a top, perspective, exploded view showing the platform frame. 
         FIG.  30    is a top, perspective, exploded view showing the platform frame. 
         FIG.  31    is a top, perspective view showing the stable top platform; the view showing attachment features; the view showing hinge features. 
         FIG.  32    is a top view showing the stable top platform; the view showing attachment features; the view showing hinge features. 
         FIG.  33    is a side view showing the stable top platform; the view showing attachment features; the view showing hinge features. 
         FIG.  34    is a top, perspective view showing the stable top platform; the view showing attachment features; the view showing hinge features. 
         FIG.  35    is a side view showing the stable top platform; the view showing attachment features; the view showing hinge features. 
         FIG.  36    is a top, perspective view showing the platform frame; the view showing the stable top platform; the view showing attachment features; the view showing hinge features; the view showing a bottom support feature; the view showing feet; the view showing attachment features. 
         FIG.  37    is a top, perspective view showing a crossbar. 
         FIG.  38    is a top, perspective view showing a crossbar. 
         FIG.  39    is a top, perspective view showing a crossbar. 
         FIG.  40    is a top, perspective view showing a crossbar. 
         FIG.  41    is a view showing crossbar attachment features. 
         FIG.  42    is a view showing crossbar attachment features. 
         FIG.  43    is a view showing crossbar attachment features. 
         FIG.  44    is a view showing crossbar attachment features. 
         FIG.  45    is a view showing crossbar attachment features. 
         FIG.  46    is a view showing crossbar attachment features. 
         FIG.  47    is a view showing crossbar attachment features. 
         FIG.  48    is a view showing crossbar attachment features. 
         FIG.  49    is a view showing crossbar attachment features. 
         FIG.  50    is a view showing crossbar attachment features. 
         FIG.  51    is a view showing crossbar attachment features. 
         FIG.  52    is a view showing crossbar attachment features. 
         FIG.  53    is a view showing crossbar attachment features. 
         FIG.  54    is a view showing crossbar attachment features. 
         FIG.  55    is a view showing crossbar attachment features. 
         FIG.  56    is a view showing crossbar attachment features. 
         FIG.  57    is a view showing crossbar attachment features. 
         FIG.  58    is a view showing crossbar attachment features. 
         FIG.  59    is a top, perspective view showing a crossbar; the view showing crossbar attachment features. 
         FIG.  60    is a top, perspective view showing a crossbar; the view showing crossbar attachment features. 
         FIG.  61    is front view showing a crossbar; the view showing crossbar attachment features. 
         FIG.  62    is a side view showing a crossbar; the view showing crossbar attachment features. 
         FIG.  63    is a rear view showing a crossbar; the view showing crossbar attachment features. 
         FIG.  64    is a view showing a lock pin. 
         FIG.  65    is a view showing a lock pin. 
         FIG.  66    is a view showing a lock pin. 
         FIG.  67    is a view showing the cart with wheels for rolling and/or moving the system. 
         FIG.  68    is a view showing the cart with wheels for rolling and/or moving the system. 
         FIG.  69    is a view showing the cart with wheels for rolling and/or moving the system. 
         FIG.  70    is a view showing the cart with wheels for rolling and/or moving the system. 
         FIG.  71    is a view showing the cart with wheels for rolling and/or moving the system. 
         FIG.  72    is a front view showing the rehabilitation system; the view showing the cart with wheels engaged with the system. 
         FIG.  73    is a side view showing the rehabilitation system; the view showing the cart with wheels engaged with the system. 
         FIG.  74    is a view showing a telescoping extension feature. 
         FIG.  75    is a view showing a telescoping extension feature. 
         FIG.  76    is a view showing a telescoping extension feature. 
         FIG.  77    is a view showing a telescoping extension feature. 
         FIG.  78    is a view showing a telescoping extension feature. 
         FIG.  79    is a view showing a telescoping extension feature. 
         FIG.  80    is a view showing a washer. 
         FIG.  81    is a view showing a washer. 
         FIG.  82    is a view showing a washer. 
         FIG.  83    is a view showing a telescoping extension feature. 
         FIG.  84    is a view showing a telescoping extension feature. 
         FIG.  85    is a view showing a telescoping extension feature. 
         FIG.  86    is a view showing a telescoping extension feature. 
         FIG.  87    is a view showing a telescoping extension feature. 
         FIG.  88    is a view showing an angle support feature. 
         FIG.  89    is a view showing an angle support feature. 
         FIG.  90    is a view showing an angle support feature. 
         FIG.  91    is a view showing an angle support feature. 
         FIG.  92    is a view showing an angle support feature. 
         FIG.  93    is a view showing an angle support feature. 
         FIG.  94    is a view showing an angle support feature. 
         FIG.  95    is a view showing an angle support feature. 
         FIG.  96    is a view showing an angle support feature. 
         FIG.  97    is a view showing an angle support feature. 
         FIG.  98    is a view showing a support feature. 
         FIG.  99    is a view showing a support feature. 
         FIG.  100    is a view showing a support feature. 
         FIG.  101    is a view showing a support feature. 
         FIG.  102    is a view showing a support feature. 
         FIG.  103    is a view showing a support feature. 
         FIG.  104    is a view showing a support feature. 
         FIG.  105    is a view showing a support feature. 
         FIG.  106    is a view showing a support feature. 
         FIG.  107    is a view showing a support feature. 
         FIG.  108    is a view showing a support feature. 
         FIG.  109    is a view showing a support feature. 
         FIG.  110    is a view showing a support feature. 
         FIG.  111    is a view showing a support feature. 
         FIG.  112    is a view showing a support feature. 
         FIG.  113    is a view showing a support feature. 
         FIG.  114    is a view showing a support feature. 
         FIG.  115    is a view showing an attachment feature. 
         FIG.  116    is a view showing an attachment feature. 
         FIG.  117    is a view showing an attachment feature. 
         FIG.  118    is a view showing an attachment feature. 
         FIG.  119    is a view showing an attachment feature. 
         FIG.  120    is a view showing an attachment feature. 
         FIG.  121    is a view showing an attachment feature. 
         FIG.  122    is a view showing an attachment feature. 
         FIG.  123    is a view showing a support feature. 
         FIG.  124    is a view showing a support feature. 
         FIG.  125    is a view showing a support feature. 
         FIG.  126    is a view showing a support feature. 
         FIG.  127    is a view showing a support feature. 
         FIG.  128    is a view showing a support feature. 
         FIG.  129    is a view showing a support feature. 
         FIG.  130    is a view showing a support feature. 
         FIG.  131    is a view showing a support feature. 
         FIG.  132    is a view showing a support feature. 
         FIG.  133    is a view showing a support feature. 
         FIG.  134    is a view showing a support feature. 
         FIG.  135    is a view showing a support feature. 
         FIG.  136    is a view showing a support feature. 
         FIG.  137    is a view showing a support feature. 
         FIG.  138    is a view showing a support feature. 
         FIG.  139    is a view showing a support feature. 
         FIG.  140    is a view showing a support feature. 
         FIG.  141    is a view showing a support feature. 
         FIG.  142    is a view showing a support feature. 
         FIG.  143    is a view showing the stable top platform. 
         FIG.  144    is a view showing the stable top platform. 
         FIG.  145    is a view showing the stable top platform. 
         FIG.  146    is a view showing the stable top platform. 
         FIG.  147    is a view showing a support feature. 
         FIG.  148    is a view showing a support feature. 
         FIG.  149    is a view showing a support feature. 
         FIG.  150    is a view showing a support feature. 
         FIG.  151    is a view showing a support feature. 
         FIG.  152    is a view showing a support feature. 
         FIG.  153    is a view showing a support feature. 
         FIG.  154    is a view showing a support feature. 
         FIG.  155    is a view showing a support feature. 
         FIG.  156    is a view showing a support feature. 
         FIG.  157    is a view showing a support feature. 
         FIG.  158    is a view showing an attachment feature. 
         FIG.  159    is a view showing an attachment feature. 
         FIG.  160    is a view showing an attachment feature. 
         FIG.  161    is a view showing a crossbar attachment feature. 
         FIG.  162    is a view showing a crossbar attachment feature. 
         FIG.  163    is a view showing a crossbar attachment feature. 
         FIG.  164    is a view showing a crossbar. 
         FIG.  165    is a cross sectional view showing a crossbar. 
         FIG.  166    is a view showing a crossbar. 
         FIG.  167    is a view showing a crossbar attachment feature. 
         FIG.  168    is a view showing a crossbar attachment feature. 
         FIG.  169    is a view showing a crossbar attachment feature. 
         FIG.  170    is a view showing a crossbar attachment feature. 
         FIG.  171    is a view showing a crossbar attachment feature. 
         FIG.  172    is a view showing a crossbar attachment feature. 
         FIG.  173    is a view showing a crossbar attachment feature. 
         FIG.  174    is a view showing a crossbar attachment feature. 
         FIG.  175    is a view showing a support feature. 
         FIG.  176    is a view showing a support feature. 
         FIG.  177    is a view showing a support feature. 
         FIG.  178    is a view showing a support feature. 
         FIG.  179    is a view showing a support feature. 
         FIG.  180    is a view showing a crossbar. 
         FIG.  181    is a cross sectional view showing a crossbar. 
         FIG.  182    is a view showing a crossbar. 
         FIG.  183    is a view showing a crossbar feature. 
         FIG.  184    is a view showing a crossbar feature. 
         FIG.  185    is a view showing a crossbar feature. 
         FIG.  186    is a view showing a crossbar attachment feature. 
         FIG.  187    is a view showing a crossbar attachment feature. 
         FIG.  188    is a view showing a crossbar attachment feature. 
         FIG.  189    is a view showing a crossbar attachment feature. 
         FIG.  190    is a view showing a crossbar attachment feature. 
         FIG.  191    is a view showing a crossbar attachment feature. 
         FIG.  192    is a view showing a crossbar attachment feature. 
         FIG.  193    is a view showing a crossbar attachment feature. 
         FIG.  194    is a view showing a crossbar attachment feature. 
         FIG.  195    is a view showing a crossbar attachment feature. 
         FIG.  196    is a view showing a crossbar attachment feature. 
         FIG.  197    is a view showing a crossbar attachment feature. 
         FIG.  198    is a view showing a crossbar attachment feature. 
         FIG.  199    is a view showing a crossbar attachment feature. 
         FIG.  200    is a view showing a crossbar attachment feature. 
         FIG.  201    is a view showing a crossbar attachment feature. 
         FIG.  202    is a view showing a crossbar attachment feature. 
         FIG.  203    is a view showing a crossbar. 
         FIG.  204    is a cross sectional view showing a crossbar. 
         FIG.  205    is a view showing a crossbar. 
         FIG.  206    is a view showing a crossbar attachment feature. 
         FIG.  207    is a view showing a crossbar attachment feature. 
         FIG.  208    is a view showing a crossbar attachment feature. 
         FIG.  209    is a view showing a crossbar attachment feature. 
         FIG.  210    is a view showing a crossbar attachment feature. 
         FIG.  211    is a view showing a crossbar attachment feature. 
         FIG.  212    is a view showing a hinge feature. 
         FIG.  213    is a view showing a hinge feature. 
         FIG.  214    is a view showing a hinge feature. 
     
    
    
     DETAILED DESCRIPTION OF THE DISCLOSURE 
     In the following detailed description, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration specific embodiments in which the disclosure may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the disclosure, and it is to be understood that other embodiments may be utilized and that mechanical, procedural, and other changes may be made without departing from the spirit and scope of the disclosure(s). The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the disclosure(s) is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. 
     As used herein, the terminology such as vertical, horizontal, top, bottom, front, back, end, sides and the like are referenced according to the views, pieces and figures presented. It should be understood, however, that the terms are used only for purposes of description, and are not intended to be used as limitations. Accordingly, orientation of an object or a combination of objects may change without departing from the scope of the disclosure. 
     Reference throughout this specification to “one embodiment,” “an embodiment,” “one example,” or “an example” means that a particular feature, structure, or characteristic described in connection with the embodiment or example is included in at least one embodiment of the present disclosure. Thus, the appearance of the phrases “in one embodiment,” “in an embodiment,” “one example,” or “an example” in various places throughout this specification are not necessarily all referring to the same embodiment or example. Furthermore, the particular features, structures, databases, or characteristics may be combined in any suitable combinations and/or sub-combinations in one or more embodiments or examples. In addition, it should be appreciated that the figures provided herewith are for explanation purposes to persons ordinarily skilled in the art and that the drawings are not necessarily drawn to scale. 
     Embodiments in accordance with the present disclosure may be embodied as an apparatus, method, or computer program product. Accordingly, the present disclosure may take the form of an entirely hardware-comprised embodiment, an entirely software-comprised embodiment (including firmware, resident software, micro-code, etc.), or an embodiment combining software and hardware aspects that may all generally be referred to herein as a “circuit,” “module,” or “system.” Furthermore, embodiments of the present disclosure may take the form of a computer program product embodied in any tangible medium. 
     In the arrangement shown, as one example, a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use are presented. In the arrangement shown, as one example, a stable platform with multiple equipment attachments, an adjustable set of pillars with a stable rotating crossbar, and a storage compartment for dowels and other rehabilitative equipment are provided, which can be customized for individual musculoskeletal needs. In this way, the present disclosure provides the state of the art with a novel activation and release platform, which includes a plurality of components and functionality. 
     System: 
     With reference to the figures, a rehabilitative and corrective system, a strength building system, a recovery system, a muscle activation system, and methods of use 10 (hereafter referred to as a “rehabilitative system”, “a release platform”, an “activation platform”, a “corrective system”, a “strength building system”, a “recovery platform”, a “muscle activation system”, or simply “system”) is presented. Rehabilitative system  10  is formed of any suitable size, shape and design. 
     In the arrangement shown, the strength building platform  10  provides a novel activation and release platform. The corrective system  10  is configured to provide an integrated adjustable pillar component and center bar components with adjustable cams. The adjustable cams are configured to provide the ability to rotate the center bar about an axis. Similarly the adjustable cams are configured to lock the center bar in place and/or adjust the height of the center bar based on the exercise design. 
     Furthermore, and in the arrangement shown, the rehabilitative platform  10  is configured as a collapsible platform. In this way, the collapsible platform provides a stable exercise base which can be compacted for storage and space savings. Similarly, the configuration provides for a ninety degree storage position for space and/or exercise modifications, and the like. 
     Furthermore, and in the arrangement shown, the rehabilitative system  10  includes storage functionality. In other words, system  10  includes a storage compartment (to be further described herein), located conveniently in the platform. This provides for easy access and convenient storage of exercise equipment and other components. 
     Furthermore, and in the arrangement shown, the center bar provides for an attachment point, in addition to attachment features, for the configuring and/or attachment of accessory exercise equipment. Similarly, this center bar not only provides for attachment of accessory exercise equipment but can also be configured to attach third party and/or other exercise equipment and arrangements not disclosed herein. These alternative configures may vary greatly in treatment and exercise and are hereby contemplated for use. 
     In the arrangement shown, as one example, system  10  is formed of an integrated pillar and center bar component with integrated adjustable cams. These components provide the ability to rotate and/or lock the center bar. Furthermore, these components are configured to adjust the height of the center bar. These adjustments and/or formations of configuration vary based on the particular exercise and/or movement and/or release and/or activation which is needed and/or desired. 
     In the arrangement shown, as one example, system  10  includes a collapsible platform that provides a stable exercise location. Furthermore, the stable platform can be compacted and/or stored for space savings. Furthermore, the position of the stable platform can be modified to various orientations for various workout and/or exercise modification requirements. 
     In the arrangement shown, as one example, activation platform system  10  includes, in the embodiment(s) depicted, a user  12 , a platform frame  20 , a stable platform  40 , a first center pillar  60 , a second center pillar  80 , a first crossbar  100 , and a second crossbar  120 , among other components, features, and functions. 
     User (or plurality thereof): 
     In the arrangement shown, as one example, system  10  may include a user. User may be any user interacting with or utilizing the system  10 . This may include viewing, controlling, analyzing, manipulating, and/or interacting with system  10 . User is not limited to a single user but may be a plurality of users. Furthermore, user is not limited to a user engaging with and/or exercising with platform  10 . User may also include an instructor such as a medical professional. This medical professional may be a physical therapist, a medical doctor, an assistant, and the like. 
     Platform Frame: 
     In the arrangement shown, as one example, system  10  includes a platform frame  20 . Platform frame  20  (also referred to simply as “frame”, or “main body”) is formed of any suitable size, shape, and design and is configured to provide the overall frame and main structural elements of the system  10 . Additionally, platform frame  20  is configured to provide various attachment features and stabilization features for system  10 . 
     In the arrangement shown, as one example, platform frame  20  is formed of metal. In the arrangement shown, frame  20  is formed of multiple steel parts which are channel metal and provide a stable structure for handling large weighted movements and the like. In the arrangement shown, as one example, the platform frame  20  is configured to work in concert with other components of system  10 . 
     In the arrangement shown, as one example, the platform frame  20  is configured to adjust to various positions based on being used and/or stored and/or stowed. Similarly, the platform frame  20  is configured to work and/or integrate with a variety of other components and is also configured as part of the storage system. Furthermore, the platform frame  20  integrates and supports the pillars (to be further described herein). 
     In the arrangement shown, as one example, the frame  20  extends a length from a first end  22  to a second end  24  between opposing sides  26 , which extend in approximate parallel spaced relations to one another. The frame  20  also includes a top  28  and a bottom  30 . The platform frame  20  also includes a hollow interior  32  of the frame  20  and a plurality of access features  34 , which enable access to the hollow interior  32 . 
     Additionally, and in the arrangement shown, the platform frame  20  includes a plurality of attachment features  36 . In the arrangement shown, some of the attachment features  34  are apertures designed to accept and/or receive pins therein. Pins and/or locking mechanisms enable other items to be attached to the platform, such as exercise equipment. Similarly, attachment features  36  enable different arrangements and assemblies of the frame to be accommodated. Similarly, attachment features  36  are configured for construction and/or assembly of the frame and/or accommodation of different assemblies of the frame itself. This is especially apparent in the figures, with reference to how the pillars (to be further described herein) are secured to the frame  20 . 
     In the arrangement shown, frame  20  includes various pins and/or locking pins. Pins are formed of any suitable size, shape, and design and are configured to provide functionality of system  10 . Additionally, pins are configured to provide various attachment features and various locations for attaching equipment, and the like. In this way, the pins provide for 360 degrees of attachment for equipment, such as exercise bands, resistance bands, and the like. 
     Furthermore, and in the arrangement shown as one example, the frame  20  also includes a threshold  38 . Threshold  38  is configured to fill a gap formed between the plurality of platforms and the center pillars. Said another way, the threshold  38  is configured to protect a user from getting hurt or dropping objects into the gap between the platforms and the center pillar. In the arrangement shown, as one example, the threshold  38  is formed of a rectangular rubber piece. However, other forms of threshold are hereby contemplated for use. 
     Similarly, in the arrangement shown, as one example, the frame  20  is formed of metal. However, other materials for the configuration and/or construction of the frame  20  are hereby contemplated for use. Some examples include, but are not limited to, polymers, enhanced polymers, metal alloys, fibers, carbon fibers, wood, a combination thereof, and the like. Furthermore, frame  20 , as a sturdy material can be used, particularly when in certain positions for bouncing and/or holding heavy equipment. As one example, a medicine ball may be bounced and/or slammed against the platform and frame as an exercise. 
     Similarly, in the arrangement shown, as one example, frame  20  is considered to be one frame  20  but may be multiple frames and/or may be more than one frame  20  secured and/or unsecured to one another and/or lined up next to each other. In this way, multiple frames  20  can be safely utilized to increase the rehabilitation area. In this way, one frame is hereby contemplated for use. Similarly two frames are hereby contemplated, three frames, four frames, five frames, six frames, seven frames, or more. 
     Stable Top Platform: 
     In the arrangement shown, as one example, system  10  includes a stable top platform  40 . Stable top platform  40  is formed of any suitable size, shape, and design and is configured to provide a safe and supportive platform for which a user engages during various exercises. The stable top platform  40  is configured and situated on top of the platform frame  20 , in one arrangement shown. In this way, the stable top platform  40  is configured as a supportive frame for resisting forces. 
     In the arrangement shown, as one example, the stable top platform  40  is formed of a generally slender rectangular-like shape which is thin and mat-like. In this way, the stable top platform  40  functions as a safe and effective workout mat and/or platform. Furthermore, and in the arrangement shown as one example, the stable top platform  40  is configured to provide an enclosure for the hollow interior of the frame  20 , in addition to providing a foldable surface and/or replaceable surface for storage, exchanges of material and the like. 
     In the arrangement shown, as one example, the stable top platform  40  extends a length from a first end  42  to a second end  44  between opposing sides  46 . The stable top platform  40  also includes a top  48  and a bottom  50 . The stable top platform  40  also includes a plurality of attachment features  52  for securing the stable top platform  40  to the frame  20 . In some arrangements, it is also contemplated that this is a frictional and/or force fit in which the platform is held in place by the frame and/or gravity and/or the user. 
     Furthermore, and in the arrangement shown, the stable top platform  40  includes folding features  54 . The folding features  54  are formed of any suitable size, shape, and design and are configured to provide a hinge-like functionality near the center of the platform frame which provides that the platform can be folded in a 90-degree configuration; with reference to the figures. Similarly, the stable top platform  40  includes hinge features  56  for the opening of the stable top platforms  40  for easily storing components and the like in the storage area within the hollow interior of the frame  20 . 
     In the arrangement shown, as one example, the stable top platform  40  is formed of a rubber material. However, other materials for the configuration and/or construction of the frame  20  are hereby contemplated for use. Some examples include, but are not limited to, polymers, enhanced polymers, metal, metal alloys, fibers, carbon fibers, wood, a combination thereof, and the like. 
     Similarly, in the arrangement shown, as one example, the stable top platform  40  is considered to be one stable top platform  40  but may be multiple top platforms and/or may be more than one top platform  40  secured and/or unsecured to the frames and/or to one another and/or lined up next to each other. In this way, multiple stable top platforms  40  can be safely utilized to increase the rehabilitation area. In this way, one frame is hereby contemplated for use. Similarly, two stable top platforms may be contemplated, three stable top platforms, four stable top platforms, five stable top platforms, six stable top platforms, seven stable top platforms, or more. 
     First Center Pillar: 
     In the arrangement shown, as one example, system  10  includes a first center pillar  60 . First center pillar  60  is formed of any suitable size, shape, and design and is configured to provide support for exercises and a crossbar and/or center bar (to be discussed further herein). In the arrangement shown as one example, the first center pillar  60  extends perpendicular to and/or upward from the frame  20 . The first center pillar  60 , in this way, provides the upward support to be used to attach exercise equipment to and/or attach a plurality of crossbars; crossbars which can subsequently be used in exercises and/or for attachment of equipment. 
     Furthermore, and in the arrangement shown, the first center pillar is configured to extend upward, telescopically or otherwise, and also twist and/or spin about a vertical axis. Similarly, in an alternative embodiment, the first center pillar  60  may also be configured to rotate downward such that the top of the pillar can be moved closer to the frame  20  while the bottom of the pillar  60  stays approximately in a centered location. These variations can be useful for various exercises 
     In the arrangement shown, as one example, the first center pillar  60  includes a first end  62  (nearer the first end of the frame  20 ) and a second end  64  (nearer the second end of the frame  20 ). The first center pillar  60  also includes opposing sides  66  that form an approximate square or rectangular shape when viewed from the top. Alternative shapes are also contemplated for use. For example, the first center pillar  60  may also be circular in shape when viewed from the top, triangular in shape, or have another shape. 
     In the arrangement shown, the first center pillar  60  extends a length from the top  68  to the bottom  70  (the bottom being closer to the frame  20  and stable top platform  40 ). In the arrangement shown, the first center pillar  60  also includes a telescoping extension which can increase and/or decrease the height of the first center pillar  60 . 
     In the arrangement shown, as one example, the first center pillar  60  (and plurality of extensions) include a plurality of attachment features  74 . In the arrangement shown, as one example, the plurality of attachment feature  74  are similar to those found on the frame  20 , in that they are designed to accept the attachment of various other components, including crossbars, and other workout and/or exercise equipment and/or medical equipment. In the arrangement shown, as one example, the plurality of attachment features are formed of apertures for accepting pins and the like. Similarly, the telescoping feature may utilize these apertures and/or pins in changing and/or adjusting the height of the extensions. 
     In this way, system  10  may also include a plurality of locking pins  76 . Locking pins  76  can be utilized for changing the position and/or configurations of system  10 , as well as attaching features and/or extending the heights of the plurality of extensions and/or telescoping features of system  10 . 
     In the arrangement shown, as one example, the first center pillar  60  also includes a plurality of angle support features  98  (or simply “angle supports”). Angle supports  98  are located nearer the bottom  70  of the first center pillar  60 . The angle supports  98  are formed and configured to secure the first center pillar  60  to the frame  20  and vice versa. In the arrangement shown, the angle supports  98  also include a plurality of attachment features and locking pins which allow the first center pillar  60  to be angled and/or modified to different angles of correspondence to the platform. In the arrangement shown, as one example, two angle support features  98  are utilized which face in approximately opposite direction, and in parallel to the opposing sides of the frame. In the arrangement shown, as one example, the angle support features  98  are near the opposing sides of the frame  20 . Other arrangements and number of angle support features  98  are hereby contemplated for use. 
     In the arrangement shown, as one example, the first center pillar  60  is formed of metal and/or formed of the same and/or similar material as the frame  20 . However, other materials for the configuration and/or construction of the first center pillat  60  are hereby contemplated for use. Some examples include, but are not limited to, polymers, enhanced polymers, metal, metal alloys, fibers, carbon fibers, wood, a combination thereof, and the like. 
     Similarly, in the arrangement shown, as one example, the first center pillar  60  is considered to be one first center pillar  60  but may be multiple pillars may be more than one first center pillar  60  secured and/or unsecured to the frames and/or to one another and/or lined up next to each other. In this way, multiple first center pillar  60  can be safely utilized to increase the rehabilitation area and/or provide additional configurations. In this way, one first center pillar is hereby contemplated for use. Similarly, two first center pillars are hereby contemplated for use, three first center pillars are hereby contemplated for use, or more. 
     Second Center Pillar: 
     In the arrangement shown, as one example, system  10  includes a second center pillar  80 . Second center pillar  80  is formed of any suitable size, shape, and design and is configured to provide support for exercises and a crossbar and/or center bar (to be discussed further herein). In the arrangement shown as one example, the second center pillar  80  extends perpendicular to and/or upward from the frame  20 . The second center pillar  80 , in this way, provides the upward support to be used to attach exercise equipment to and/or attach a plurality of crossbars; crossbars which can subsequently be used in exercises and/or for attachment of equipment. 
     Furthermore, and in the arrangement shown, the second center pillar is configured to extend upward, telescopically or otherwise, and also twist and/or spin about a vertical axis. Similarly, in an alternative embodiment, the second center pillar  80  may also be configured to rotate downward such that the top of the pillar can be moved closer to the frame  20  while the bottom of the pillar  60  stays approximately in a centered location. These variations can be useful for various exercises 
     In the arrangement shown, as one example, the second center pillar  80  includes a first end  62  (nearer the first end of the frame  20 ) and a second end  64  (nearer the second end of the frame  20 ). The second center pillar  80  also includes opposing sides  66  that form an approximate square or rectangular shape when viewed from the top. Alternative shapes are also contemplated for use. For example, the second center pillar  80  may also be circular in shape when viewed from the top, triangular in shape, or have another shape. 
     In the arrangement shown, the second center pillar  80  extends a length from the top  68  to the bottom  70  (the bottom being closer to the frame  20  and stable top platform  40 ). In the arrangement shown, the second center pillar  80  also includes a telescoping extension which can increase and/or decrease the height of the second center pillar  80 . 
     In the arrangement shown, as one example, the second center pillar  80  (and plurality of extensions) include a plurality of attachment features  74 . In the arrangement shown, as one example, the plurality of attachment feature  74  are similar to those found on the frame  20 , in that they are designed to accept the attachment of various other components, including crossbars, and other workout and/or exercise equipment and/or medical equipment. In the arrangement shown, as one example, the plurality of attachment features are formed of apertures for accepting pins and the like. Similarly, the telescoping feature may utilize these apertures and/or pins in changing and/or adjusting the height of the extensions. 
     In this way, system  10  may also include a plurality of locking pins  76 . Locking pins  76  can be utilized for changing the position and/or configurations of system  10 , as well as attaching features and/or extending the heights of the plurality of extensions and/or telescoping features of system  10 . 
     In the arrangement shown, as one example, the second center pillar  80  also includes a plurality of angle support features  98  (or simply “angle supports”). Angle supports  98  are located nearer the bottom  70  of the second center pillar  80 . The angle supports  98  are formed and configured to secure the second center pillar  80  to the frame  20  and vice versa. In the arrangement shown, the angle supports  98  also include a plurality of attachment features and locking pins which allow the second center pillar  80  to be angled and/or modified to different angles of correspondence to the platform. In the arrangement shown, as one example, two angle support features  98  are utilized which face in approximately opposite direction, and in parallel to the opposing sides of the frame. In the arrangement shown, as one example, the angle support features  98  are near the opposing sides of the frame  20 . Other arrangements and number of angle support features  98  are hereby contemplated for use. 
     In the arrangement shown, as one example, the second center pillar  80  is formed of metal and/or formed of the same and/or similar material as the frame  20 . However, other materials for the configuration and/or construction of the second center pillat  80  are hereby contemplated for use. Some examples include, but are not limited to, polymers, enhanced polymers, metal, metal alloys, fibers, carbon fibers, wood, a combination thereof, and the like. 
     Similarly, in the arrangement shown, as one example, the second center pillar  80  is considered to be one second center pillar  80  but may be multiple pillars may be more than one second center pillar  80  secured and/or unsecured to the frames and/or to one another and/or lined up next to each other. In this way, multiple second center pillar  80  can be safely utilized to increase the rehabilitation area and/or provide additional configurations. In this way, one second center pillar is hereby contemplated for use. Similarly, two second center pillars are hereby contemplated for use, three second center pillars are hereby contemplated for use, or more. 
     First Crossbar: 
     In the arrangement shown, as one example, system  10  includes a first crossbar  100 . First crossbar  100  is formed of any suitable size, shape, and design and is configured to provide support for exercises and/or equipment. Said another way, the first crossbar  100  is configured to accept equipment around and/or attached thereto and provide support. In the arrangement shown, as one example, the first crossbar  100  is secured and/or configured horizontally—attached to the first center pillar  60  and the second center pillar  80 . In this way, the first crossbar  100  is configured between the cams of each the first and second center pillar while maintaining the ability to rotate and/or lock into position. 
     In the arrangement shown, as one example, the first crossbar  100  extends a length from a first end  102  (having a first end attachment feature  103  for attaching to the first center pillar  60 ) to a second end  104  (having a second end attachment feature  105  for attaching to the second center pillar  80 ). Furthermore, and in the arrangement shown, as one example, the first crossbar  100  includes an exterior surface  106  and a hollow interior  108 . Alternatively, the crossbar may not have a hollow interior  108 , depending on the material and construction and need. 
     In the arrangement shown, as one example, the exterior surface is relatively smooth and forms the first crossbar  100 , which is generally circular in shape when viewed from the end. In the arrangement shown, as one example, this circular shape may be locked into position such that the bar can not rotate about the center axis of the circle, or the first crossbar  100  may be able to rotate freely about the center axis of the circle. Said another way, the crossbar can be secured at different levels of stiffness between the cams of each pillar with the ability to rotate, rotate with resistance of varying levels, and/or lock into position. 
     In the arrangement shown, as one example, the first crossbar  100  is formed of metal and/or formed of the same and/or similar material as the frame  20 . However, the first crossbar  100  may also be formed of other materials. Some examples include, but are not limited to, polymers, enhanced polymers, metal, metal alloys, fibers, carbon fibers, wood, a combination thereof, and the like. 
     Similarly, in the arrangement shown, as one example, the first crossbar  100  is shown and may be utilized without any additional crossbars. However, multiple crossbars may be utilized. Said another way, multiple crossbars can be safely utilized to functionality and/or add to configuration options. In this way, one crossbar may be used. However, two crossbars may be utilized, three crossbars, four crossbars, five crossbars, or more. 
     Second Crossbar: 
     In the arrangement shown, as one example, system  10  includes a second crossbar  120 . Second crossbar  120  is formed of any suitable size, shape, and design and is configured to provide support for exercises and/or equipment. Said another way, the second crossbar  120  is configured to accept equipment around and/or attached thereto and provide support. In the arrangement shown, as one example, the second crossbar  120  is secured and/or configured horizontally—attached to the first center pillar  60  and the second center pillar  80 . In this way, the second crossbar  120  is configured between the cams of each the first and second center pillar while maintaining the ability to rotate and/or lock into position. 
     In the arrangement shown, as one example, the second crossbar  120  extends a length from a first end  122  (having a first end attachment feature  123  for attaching to the first center pillar  60 ) to a second end  124  (having a second end attachment feature  125  for attaching to the second center pillar  80 ). Furthermore, and in the arrangement shown, as one example, the second crossbar  120  includes an exterior surface  126  and a hollow interior  128 . Alternatively, the crossbar may not have a hollow interior  128 , depending on the material and construction and need. 
     In the arrangement shown, as one example, the exterior surface is relatively smooth and forms the second crossbar  120 , which is generally circular in shape when viewed from the end. In the arrangement shown, as one example, this circular shape may be locked into position such that the bar can not rotate about the center axis of the circle, or the second crossbar  120  may be able to rotate freely about the center axis of the circle. Said another way, the crossbar can be secured at different levels of stiffness between the cams of each pillar with the ability to rotate, rotate with resistance of varying levels, and/or lock into position. 
     In the arrangement shown, as one example, the second crossbar  120  is formed of metal and/or formed of the same and/or similar material as the frame  20 . However, the first crossbar  100  may also be formed of other materials. Some examples include, but are not limited to, polymers, enhanced polymers, metal, metal alloys, fibers, carbon fibers, wood, a combination thereof, and the like. 
     Similarly, in the arrangement shown, as one example, the first crossbar  100  and the second crossbar  120  are shown and may be utilized without any additional crossbars. However, multiple crossbars and/or no crossbars may be utilized. Said another way, multiple crossbars and/or no crossbars can be safely utilized to functionality and/or add to configuration options. In this way, zero crossbar may be used. However, three crossbars may be utilized, four crossbars, five crossbars, sex crossbars, or more. 
     Other Components: 
     In the arrangement shown, as one example, system  10  may also include a telescoping mechanism for each of the pillars. In this way, the pillars can extend to various heights and increase the number of configurations. 
     In another example, the center bar may also include a plurality of attachments and/or attachment features such that various activation and release exercises can be attached in a variety of ways. Similarly, multiple pieces of equipment may be attached at once such that a user can move easily and quickly from one piece of equipment and engage a second piece of equipment quickly and easily. 
     In another example, a support system may be included. The support system is designed and configured to slide into the platform further stabilizing the platform base. In other words, the support system may be extensions in every direction, in some directions, or may be extensions which go downward such as feet, and/or extended feet, to increase stability of the system and safety of the equipment. 
     In another example, various platform materials may be utilized for different purposes. In some instances, a soft material with a low rigidity factor may be utilized. However, this material may need to be changed out quickly with a high rigidity factor material for a different type of exercise. 
     In the arrangement shown, as one example, these and other arrangements are hereby contemplated. Other materials and/or components also hereby contemplated for use—which are apparent from the disclosure and figures provided—include, but are not limited to, a full and/or partial assembly of the system  10  having an upright frame weldment, a plurality of posts, a plurality of gussets, a plurality of channels, a plurality of caps, a plurality of plungers—pins, a plurality of nuts, a plurality of welds, and a plurality of knobs, among other components, features and functionality. 
     Furthermore, and in the arrangement shown as one example, other materials and/or components also hereby contemplated for use—which are apparent from the disclosure and figures provided—including, but not limited to, a foldable floor ramp assembly having a wood platform, a stiffener, a folding frame, a bracket, a pivot, a stiffener with apertures, a wood platform folding frame, a wheel chair ramp, a leveling pad, a plurality of nuts, a plurality of latches, a plurality of hinges, a plurality of washers, a plurality of screws, a plurality of fasteners, a plurality of hinges, a plurality of bolts, nuts, and washers, a plurality of strips (made of neoprene or otherwise), and a plurality of rivets, among other components, features, and functionality. 
     Furthermore, and in the arrangement shown as one example, other materials and/or components also hereby contemplated for use—which are apparent from the disclosure and figures provided—including, but not limited to, a foldable floor assembly without a ramp having a platform, a stiffener, a bracket, a pivot, a stiffener, a hing, a folding frame, a leveling pad, a nut, a latch, a catch, a hing, a bolt, a nut, a washer, a screw, a strip, a rivet, and a washer, or a plurality of any thereof, among other components, features, and functionality. 
     Furthermore, and in the arrangement shown as one example, other materials and/or components also hereby contemplated for use—which are apparent from the disclosure and figures provided—including, but not limited to, a rotating bar assembly having a plurality of bar mounts with or without pins, a mount, a stock, a tube, a bracket, a plunger, a bolt, a washer, a bearing, a nut, a handle, a tubing, a rotating bar end, a spring, or a plurality of any thereof, among other components, features, and functionality. 
     Furthermore, and in the arrangement shown as one example, other materials and/or components also hereby contemplated for use—which are apparent from the disclosure and figures provided—including, but not limited to, a barbell support assembly having a support, a weight, a plate, a pin, a pivot, a screw, or a plurality of any thereof, among other components, features, and functionality. 
     Furthermore, and in the arrangement shown as one example, other materials and/or components also hereby contemplated for use—which are apparent from the disclosure and figures provided—including, but not limited to, a pull-up bar assembly having a bar, a pull-up, a bracket, a mounting system, an adjustable upright, a spacer, a folding platform pivot, or a plurality of any thereof, among other components, features, and functionality. 
     Furthermore, and in the arrangement shown as one example, other materials and/or components also hereby contemplated for use—which are apparent from the disclosure and figures provided—including, but not limited to, a transport roller assembly having a plurality of sides of a transport roller, an angle, a tube, a wheel, an abdominal wheel (or “ab wheel”), a bearing, a bolt, a nut, a pivot bolt, a pivot nut, a washer, a pull-up bar, a pull-up bar mount, a leveling pad, or a plurality of any thereof, among other components, features, and functionality. 
     Furthermore, and in the arrangement shown as one example, system  10  may also include an accessible ramp. Accessible ramp is formed of any suitable size, shape, and design and is configured to provide access to system  10 . Access is provided by a generally smooth surface to provide a means for accessing system  10  by wheelchair, and the like. 
     Furthermore, and in the arrangement shown, as one example, an accessible ramp also provides a platform for various exercise purposes. For example, the ramp provides an angled ramp which can be engaged for body weighted squats, squats, heel raises and/or calf raises, among other exercise engagements. 
     In addition to the above identified features, options, controls, and components, system  10  may also include other features and functionalities, among other options, controls, and components. 
     In Operation: 
     In one example, various components and/or equipment may be included and/or connected to system  10  to carry out exercises, medical or non-medical. 
     It will be appreciated by those skilled in the art that other various modifications could be made to the system, process, and method of use without parting from the spirit and scope of this disclosure. All such modifications and changes fall within the scope of the claims and are intended to be covered thereby.