Not applicable to this application.
The described example embodiments in general relate to an exercise machine resistance selection system for efficiently and easily adjusting a resistance force applied against movement of a carriage in at least one direction.
Exercise machines have become ubiquitous in modern life. A wide range of exercise machines are available to the modern exerciser, such as but not limited to reformer machines in which a carriage is movably positioned upon rails. A typical reformer machine generally includes biasing members which are adapted to impart a resistance force against movement of the carriage upon the rails.
While reformer machines are effective tools for exercise, it is often desirable for an exerciser to adjust or vary the level of resistance force applied against movement of the carriage upon the rails. There are many reasons why one would desire to adjust the resistance for. By way of example, an exerciser may wish to “ramp up” her exercise by initially having a lower resistance level applied to the carriage and then subsequently increasing the resistance level during the course of her routine. Additionally, an exerciser may desire to test her limits by gradually increasing the resistance force until the upper limit of her abilities is reached.
While exercise machines in the past have allowed for variable resistances to be applied against movement of a carriage, such previous exercise machines can be sometimes difficult or clunky to operate. Additionally, such exercise machines may have complicated adjustment mechanisms that are difficult to change during exercises without interrupting the flow of an exercise routine. Or the mechanisms may be susceptible to getting jammed or needing repeated maintenance.
Some of the various embodiments of the present disclosure relate to an exercise machine that allows for quick and easy adjustment of a resistance force applied against a movable carriage on at least one rail. Some of the various embodiments of the present disclosure include an exercise machine including a frame having at least one rail and a carriage movably connected to the at least one rail so as to be movable along a portion of the at least one rail. A biasing member may be connected to the frame, and an engagement member may be connected to the biasing member. A first catch member is movably connected to the carriage, with the first catch member being adjustable between an engaged position in which the first catch member is adapted to engage with the engagement member so as to impart a resistance force against movement of the carriage in at least one direction and a disengaged position in which the first catch member is adapted to release the engagement member. A first retaining member may be connected to the frame, with the first retaining member being adapted to retain the engagement member when the engagement member is released from the first catch member.
In some embodiments, the first catch member may be comprised of a pivotable hook and the first retaining member may be comprised of a fixed hook. In some other embodiments, a second retaining member may be distally-spaced with respect to the first retaining member and a second catch member may be distally-spaced with respect to the first catch member, thus creating a first gap between the first and second catch members and a second gap between the first and second retaining members. In some embodiments, the first gap may be narrower than the second gap such that the first and second catch members may fit between the first and second retaining members when engaged to the engagement member.
There has thus been outlined, rather broadly, some of the embodiments of the present disclosure in order that the detailed description thereof may be better understood, and in order that the present contribution to the art may be better appreciated. There are additional embodiments of that will be described hereinafter and that will form the subject matter of the claims appended hereto. In this respect, before explaining at least one embodiment in detail, it is to be understood that the various embodiments are not limited in its application to the details of construction or to the arrangements of the components set forth in the following description or illustrated in the drawings. Also, it is to be understood that the phraseology and terminology employed herein are for the purpose of the description and should not be regarded as limiting.
To better understand the nature and advantages of the present disclosure, reference should be made to the following description and the accompanying figures. It is to be understood, however, that each of the figures is provided for the purpose of illustration only and is not intended as a definition of the limits of the scope of the present disclosure. Also, as a general rule, and unless it is evidence to the contrary from the description, where elements in different figures use identical reference numbers, the elements are generally either identical or at least similar in function or purpose.
Some of the various embodiments of the present disclosure relate to an exercise machine that can efficiently adjust a resistance force applied against a movable carriage in one or more directions. Some of the various embodiments of the present disclosure include an exercise machine 10 including a frame 19 having at least one rail 20, 25 and a carriage 30 movably connected to the at least one rail 20, 25 so as to be movable along a portion of the at least one rail 20, 25. A biasing member 70 may be connected to the frame 19, and an engagement member 66 may be connected to the biasing member 70. A first catch member 41 is movably connected to the carriage 30, with the first catch member 41 being adjustable between an engaged position in which the first catch member 41 is adapted to engage with the engagement member 66 so as to impart a resistance force against movement of the carriage 30 in at least one direction and a disengaged position in which the first catch member 41 is adapted to release the engagement member 66. A first retaining member 51 may be connected to the frame 19, with the first retaining member 51 being adapted to retain the engagement member 66 when the engagement member 66 is released from the first catch member 41.
In some example embodiments, an elongated member 60 may be connected to the biasing member 70, with the engagement member 66 being connected directly to the elongated member 60. In some other example embodiments, multiple biasing members 70 may be utilized, with each such biasing member 70 being selectively and removably interconnected with the carriage 30 by use of one or more catch members 41, 42.
In an exemplary embodiment, the exercise machine resistance system may comprise an exercise machine 10 including a frame 19 having at least one rail 20, 25. A carriage 30 is movably connected to the at least one rail 20, 25, with the carriage 30 adapted to be movable along a portion of the at least one rail 20, 25. A biasing member 70 is connected to the frame 19, and an engagement member 66 is connected to the biasing member 70.
A first catch member 41 is movably connected to the carriage 30, with the first catch member 41 being adjustable between an engaged position and a disengaged position. The first catch member 41 is adapted to engage with the engagement member 66 when the first catch member 41 is in the engaged position such that the biasing member 70 imparts a resistance force against movement of the carriage 30 in at least one direction. The first catch member 41 is adapted to release the engagement member 66 when the first catch member 41 is in the disengaged position. A first retaining member 51 may be connected to the frame 19, with the first retaining member 51 being adapted to retain the engagement member 66 when the engagement member 66 is released from the first catch member 41.
The first catch member 41 may be comprised of a first hook and the first retaining member 51 may be comprised of a second hook. The first catch member 41 may be connected to an underside of the carriage 30 and extend downwardly from the carriage 30. The first retaining member 51 may extend upwardly from the frame 19. An arm member 46 may be connected to the first catch member 41, with the arm member 46 extending at least partially from a first end of the carriage 30. A spring 48 may be connected to the first catch member 41 so as to bias the first catch member 41 towards the disengaged position. A second catch member 42 may be movably connected to the carriage 30, with the second catch member 42 being distally-spaced with respect to the first catch member 41. A first gap may be defined between the first catch member 41 and the second catch member 42. A second retaining member 52 may be connected to the frame 19, with the second retaining member 52 being distally-spaced with respect to the first retaining member 51. A second gap may be defined between the first retaining member 51 and the second retaining member 52, with the second gap being wider than the first gap. The first catch member 41 and the second catch member 42 may thus fit within the second gap between the first retaining member 51 and the second retaining member 52.
The first catch member 41 may comprise a first opening 44a and the first retaining member 51 may comprise a second opening 54a, with the first opening 44a being concentric with the second opening 54a when the first catch member 41 is engaged with the engagement member 66. An elongated member 60 may be connected to the biasing member 70, with the engagement member 66 being connected to a distal end of the elongated member 60. The engagement member 66 may be perpendicular to the distal end of the elongated member 60. The engagement member 66 may be crosswise with respect to the biasing member 70. An end platform 16 may be connected at or near a first end 11 or a second end 12 of the frame 19.
As shown throughout the figures, the systems and methods described herein may be utilized in combination with an exercise machine 10 adapted for use by one or more exercisers to perform one or more exercise movements. The type of exercise machine 10 utilized may vary in different embodiments, and thus the exercise machine 10 may comprise various shapes, sizes, and configurations. The shape, size, and configuration of the exercise machine 10 should thus not be construed as limited by the exemplary figures.
The figures illustrate an exemplary exercise machine 10 which may be utilized in connection with the systems and methods described herein. The exercise machine 10 may be comprised of various types of exercise machines such as but not limited to a reformer exercise machine, exercise bicycle, rowing machine, elliptical trainer, treadmill, and the like. It should be appreciated that the exemplary embodiments shown in the figures are merely for illustrative purposes, and thus the scope should not be construed as limited to any particular exercise machine configuration shown in the figures.
As best shown in
The exercise machine 10 may comprise at least one rail 20, 25 upon which a carriage 30 may be movably positioned such that the carriage 30 may be moved in at least one direction (e.g., towards the first end 11 and/or towards the second end 12). In the exemplary embodiment shown in
It should be appreciated that the number of rails 20, 25 utilized may vary in different embodiments. In some embodiments, a pair of rails 20, 25 comprising a first rail 20 and a second rail 25 which is parallel with the first rail 20 may be utilized. In other embodiments, a single monorail may be utilized which is positioned centrally between the first and second sides 13, 14 of the exercise machine 10. In yet another embodiments, multiple rails 20, 25 may be utilized in combination with a spacer 28 to create the appearance of a monorail configuration.
In the exemplary embodiment best shown in
As best shown in
As shown in
As best shown in
Each of the rails 20, 25 generally comprise an elongated member. The material utilized for the rails 20, 25 may vary in different embodiments. The rails 20, 25 may be comprised of various metals, metal alloys, plastics, woods, and/or composite materials in different embodiments. The rails 20, 25 may be substantially tubular, with a hollow interior.
The rails 20, 25 may be parallel to each other, or may be slightly angled away from or towards each other. The spacing between the rails 20, 25 will vary in different embodiments. As shown in
The first rail 20 may include a first outer channel 21 as shown in
As shown in
The second rail 25 may include a second outer channel 26. The second outer channel 26 will generally comprise a channel formed within the outer edge of the second rail 25. The shape and size of the second outer channel 26 may vary in different embodiments, and should not be construed as limited by the exemplary embodiments shown in the figures. By way of example, the second outer channel 26 may have a C-shape such that the second wheels 35a, 35b connected to the carriage 30 may be guided along and may be moved within the second outer channel 26.
As shown throughout the figures, the exercise machine 10 generally includes a carriage 30 which is movably positioned upon the first and second rails 20, 25 such that the carriage 30 may move along at least a portion of the length of the first and second rails 20, 25. In an exemplary embodiment, the carriage 30 is adapted to move back and forth along at least a portion of the length of the first and second rails 20, 25 in a reciprocating manner. The carriage 30 typically includes a plurality of wheels 33a, 33b, 35a, 35b or other movable structures that movably engage with the first and second rails 20, 25 of the exercise machine 10.
In an exemplary embodiment such as shown in
The carriage 30 may include various handles, cutouts, and the like which an exerciser may grasp or contact with various limbs during the performance of a wide range of exercises. In the exemplary embodiment shown in
The shape, size, and configuration of the carriage 30 may vary in different embodiments, and thus should not be construed as limited by the exemplary embodiments shown in the figures. The carriage 30 will generally comprise a substantially-rectangular shape such as shown in the figures, though other shapes may be utilized in different embodiments. The length and width of the carriage 30 may vary depending on the embodiment so as to suit different types of exercisers. A large bodybuilder would benefit from a longer and wider carriage 30 than a more cardio-based exerciser with perhaps a smaller stature. Thus, the dimensions of the carriage 30 shown in the exemplary figures should not be construed as limiting in scope.
U.S. Pat. Nos. 10,716,964, 10,155,129, 9,604,095, 9,579,555 and 7,803,095 disclose example exercise machines with a movable carriage, the entire disclosures of which, except for any definitions, disclaimers, disavowals, and inconsistencies, are incorporated herein by reference.
As shown in the figures, the carriage 30 will generally be movably positioned or connected to the first and second rails 20, 25. The manner in which the carriage 30 is movably positioned or connected to the first and second rails 20, 25 may vary in different embodiments. In some embodiments, portions of the carriage 30 may mate with the first and second rails 20, 25 such that the carriage 30 may slide upon the first and second rails 20, 25. In other embodiments, magnets such as magnetic levitation may be utilized.
In the exemplary embodiment best shown in
As best shown in
In the exemplary embodiment shown in
The first vertical wheels 33a engage with the top or bottom of the first outer channel 21 of the first rail 20. The first horizontal wheels 33b engage with the inner side of the first outer channel 21 of the first rail 20. Although not shown, in some embodiments, diagonal wheels may be utilized in combination with or instead of horizontal and/or vertical wheels 33a, 33b. The figures illustrate an embodiment which includes five vertical wheels 33a and two horizontal wheels 33b. It should be appreciated that such an embodiment is merely for illustrational purposes, as the first wheel support 32 may include more or less wheels 33a, 33b than shown in the exemplary figures.
In the exemplary embodiment shown in
The second vertical wheels 35a engage with the top or bottom of the second outer channel 26 of the second rail 25. The second horizontal wheels 35b engage with the inner side of the second outer channel 26 of the second rail 25. Although not shown, in some embodiments, diagonal wheels may be utilized in combination with or instead of horizontal and/or vertical wheels 35a, 35b. The figures illustrate an embodiment which includes five vertical wheels 35a and two horizontal wheels 35b. It should be appreciated that such an embodiment is merely for illustrational purposes, as the second wheel support 34 may include more or less wheels 35a, 35b than shown in the exemplary figures.
As shown in
In some embodiments, the biasing members 70 may be interconnected with the carriage 30 through use of one or more elongated members 60 such as ropes, cords, strings, threaded members, and other elongated members. In the embodiment shown in the figures, each biasing members 70 is connected to an elongated member 60 which includes an engagement member 66. In such an embodiment, the engagement members 66 may be removably connected to one or more resistance selectors 40 which are connected to the carriage 30.
In the exemplary embodiment shown in the figures, each resistance selector 40 includes a pair of catch members 41, 42 which together are adapted to engage with one engagement member 66. It should be appreciated that, in some embodiments, a single catch member 41 may be utilized to grasp or otherwise engage with the engagement member 66. In other embodiments, three or more catch members 41, 42 may be utilized for the same purpose.
The shape of the catch members 41, 42 may vary in different embodiments. In an exemplary embodiment, each of the catch members 41, 42 is comprised of a hook, with the first catch member 41 comprising a first hook and the second catch member 42 comprising a second hook. It should be appreciated, however, that other shapes may be utilized other than a hook, such as but not limited to various types of brackets, loops, magnetic elements, or the like. In the exemplary embodiment shown in the figures, the catch members 41, 42 each include an opening defined within the hook. The respective openings of the catch members 41, 42 may share a concentric axis as shown in
The resistance selectors 40, each comprising one or more catch members 41, 42, will generally be movably connected to the carriage 30 such that each resistance selector 40 may movably adjust between a first, engaged position and a second, disengaged position.
As shown in
The manner in which the resistance selectors 40 are connected to the carriage 30 may vary in different embodiments. In the exemplary embodiment shown in the figures, a bracket 45 is shown which connects each of the resistance selectors 40 to the underside of the carriage 30, such as by use of welding, fasteners, adhesives, or the like. As shown in
It should be appreciated that various other shapes and sizes may be utilized for the bracket 45 in different embodiments. Further, while the figures illustrate a single bracket 45 which connects all of the resistance selectors 40 to the carriage 30, in alternate embodiments, each of the resistance selectors 40 may instead be individually (rather than collectively) connected to the carriage 30. For example, each resistance selector 40 may include its own individual bracket 45. As a further example, each of the resistance selectors 40 may be connected by a fastener, welding, adhesives, or the like to the carriage 30 without use of a bracket 45.
As shown in
While the figures illustrate each arm member 46 being connected to a single resistance selector 40, the resistance selector 40 being comprised of a pair of catch members 41, 42, it should be appreciated that each arm member 46 may be connected to operate more than one resistance selector 40 in some embodiments. For example, in some embodiments, each arm member 46 may be connected to a pair of resistance selectors 40, each of which is comprised of a pair of catch members 41, 42, which are connected to one or more biasing members 70.
In the exemplary embodiment shown in the figures, each arm member 46 is illustrated as being connected to a pair of catch members 41, 42. Pushing each arm member 46 in a forward direction pushes the corresponding pair of catch members 41, 42 to pivot in a forward direction about the axle 47, thus moving the pair of catch members 41, 42 towards and into the engaged position in which the pair of catch members 41, 42 engage with a corresponding engagement member 66. Pulling each arm member 46 in a reverse direction will release the force upon the pair of catch members 41, 42, thus resulting in the pair of catch members 41, 42 pivoting in the reverse direction about the axle 47 and moving towards and into the disengaged position in which the pair of catch members 41, 42 release the corresponding engagement member 66.
In the embodiment best shown in
The manner in which the catch members 41, 42 revert back to their original, disengaged position with movement of the arm member 46 in the reverse direction may vary in different embodiments. In some embodiments, the arm member 46 may be connected to one or more catch members 41, 42 such that movement of the arm member 46 automatically moves the one or more catch members 41, 42. In other embodiments, the arm member 46 may be integrally formed with one or more such catch members 41, 42.
In the exemplary embodiment shown in the figures, the arm member 46 is movably (e.g., slidably) connected to the carriage 30 by the bracket 45. The arm member 46 is positioned adjacent to a corresponding resistance selector 40 comprised of a pair of catch members 41, 42 such that, when the arm member 46 is pushed in a forward direction, it catches onto the pair of catch members 41, 42 and pushes them forward.
The resistance selectors 40 will generally be biased into the disengaged position. Thus, when the arm member 46 is pulled or released in a reverse direction, the force against the pair of catch members 41, 42 is released and the pair of catch members 41, 42 automatically pivot about the axle 47 in the reverse direction towards and into the disengaged position.
The manner in which each resistance selector 40 is biased towards the disengaged position may vary in different embodiments. In the exemplary embodiment shown in
The type of spring 48 utilized may vary in different embodiments. In the exemplary embodiment shown in the figures, a torsion spring 48 is shown being used for each resistance selector 40 (e.g., each pair of catch members 41, 42). However, various other types of springs 48 may be utilized, including but not limited to compression springs, clock springs, tension springs, clips, coil springs, spiral springs, and the like. In other embodiments, the catch members 41, 42 may be comprised of a resilient material which automatically reverts to its original shape or orientation absent force, and thus in such embodiments a separate spring 48 may be omitted.
As best shown in
U.S. Pat. No. 10,994,168 discloses an example exercise machine with a resistance selector system, the entire disclosure of which, except for any definitions, disclaimers, disavowals, and inconsistencies, is incorporated herein by reference.
As best shown in
In the exemplary embodiment shown in the figures, each retainer 50 includes a pair of retaining members 51, 52 which together are adapted to engage with one engagement member 66 when the engagement member 66 is not connected to move with the carriage 30 by being engaged by a resistance selector 40. It should be appreciated that, in some embodiments, a single retaining member 51 may be utilized to retain the engagement member 66. In other embodiments, three or more retaining members 51, 52 may be utilized for the same purpose.
The shape of the retaining members 51, 52 may vary in different embodiments. In an exemplary embodiment, each of the retaining members 51, 52 is comprised of a hook, with the first retaining member 51 comprising a first hook and the second retaining member 52 comprising a second hook. It should be appreciated, however, that other shapes may be utilized other than a hook, such as but not limited to various types of brackets, loops, magnetic elements, or the like. In the exemplary embodiment shown in the figures, the retaining members 51, 52 each include an opening defined within the hook.
The respective openings of the retaining members 51, 52 may share a concentric axis. The retaining members 51, 52 will generally be fixed in their respective positions, and thus will generally not be adjustable or movable (e.g., not able to pivot). The manner by which the retaining members 51, 52 are secured to the frame 19 may vary in different embodiments and should not be construed as limited by the exemplary figures. By way of example, a bracket may connect each of the retainers 50 to the frame 19, such as by use of welding, fasteners, adhesives, or the like. Such a bracket may comprise a flat, plate-like member which is connected to the frame 19 and which includes a plurality of slots to accommodate each of the retainers 50.
In the exemplary embodiment shown in the figures, each of the resistance selectors 40 is oriented downwardly from the underside of the carriage 30, and each of the retainers 50 is oriented upwardly from the frame 19 (e.g., from an upper surface of the lower member 29). Such orientation and positioning of the respective resistance selectors 40 and retainers 50 may vary in different embodiments and should not be construed as limited by the exemplary figures. In some embodiments, the resistance selectors 40 and/or retainers 50 may instead be oriented cross-wise, diagonal, or in other orientations not shown.
In the exemplary embodiment shown in the figures, the resistance selectors 40 fit between and within the retainers 50. More specifically, each of the first and second catch members 41, 42 are positioned so as to extend down between a pair of retaining members 51, 52 when engaged. Thus, the gap between each pair of catch members 41, 42 will generally be narrower than the gap between each pair of retaining members 51, 52. However, the reverse configuration may be utilized in some embodiments, with the catch members 41, 42 instead extending down to surround the retaining members 51, 52.
As shown in the figures, each of the catch members 41, 42 includes an opening 44a, 44b, and each of the retaining members 51, 52 includes an opening 54a, 54b. The openings 44a, 44b, 54a, 54b may be circular as shown in the figures, or may be other shapes. The respective openings 44a, 44b, 54a, 54b may be the same shape and size (e.g., diameter), or may be different shapes and sizes. In the embodiment shown in the figures, the openings 44a, 44b of the catch members 41, 42 are concentric with the openings 54a, 54b of the retaining members 51, 52 when the catch members 41, 42 are in the engaged position. Put differently, the openings 44a, 44b of the catch members 41, 42 may share a concentric axis with the openings 54a, 54b of the retaining members 51, 52 when the catch members 41, 42 are engaged but not pulled away.
As shown in the figures, one or more biasing members 70 may be connected (e.g., directly or indirectly) to the carriage 30 so as to apply a variable or fixed, linear or non-linear force (e.g., a bias/resistance/tension force) to resist movement of the carriage 30 in one or more directions. The one or more biasing members 70 may also provide an equal or non-equal force in the direction of movement of the carriage 30 to assist the movement of the carriage 30 in one or more directions. The biasing members 70 may comprise various devices, assemblies, systems, subsystems, units, and the like capable of imparting a force against an object.
In the embodiment best shown in
In the embodiment shown in the figures, it can be seen that one or more elongated members 60 are wound around a pair of pulleys 58, 64. A first set of pulleys 58 is positioned underneath the resting position of the carriage 30 such that the first set of pulleys 58 is positioned below the upper opening 27. As shown in
As shown in
In the exemplary figures, a second set of pulleys 64 is shown positioned near the first end 11 of the exercise machine 10, with the elongated members 60 being wound around both the first set of pulleys 58 underneath the upper opening 27 and the second set of pulleys 64 at the first end 11 of the exercise machine 10.
A plurality of biasing members 70 are shown positioned adjacent to the elongated members 60, with the biasing members 70 being positioned between the carriage 30 and the second end 12 of the exercise machine 10. In some embodiments, each of the elongated members 60 may be selectively and removably engaged with one or more of the biasing members 70 and to the carriage 30 (e.g., to the resistance selectors 40 of the carriage 30) such that variable levels of resistance may be applied against movement of the carriage 30 in one or more directions.
As best shown in
The manner in which the first end 61 of each elongated member 60 is connected to the bracket 74 may vary in different embodiments. In an exemplary embodiment as shown in the figures, the first end 61 of each elongated member 60 may include a loop, with a pin 75 being inserted through both the bracket 74 and the loop of the elongated member 60 to secure the first end 61 of the elongated member 60 to the bracket 74.
In some embodiments, brackets 74 may be omitted entirely. In such embodiments, each elongated member 60 may instead be directly connected to a biasing member 70. In other embodiments, elongated members 60 may be omitted, with the biasing members 70 each being directly, selectively connected to the carriage 30 so as to impart a resistance force against movement of the carriage 30 in at least one direction.
As shown in
As best shown in
Each elongated member 60 will generally include an engagement member 66 at its second end 62. The engagement member 66 may comprise a cylindrical member, clasp, hook, loop, or other structure which is adapted to removably and selectively engage within the resistance selector 40. In the embodiment shown in the figures, the engagement member 66 is crosswise (i.e., perpendicular) to the elongated member 60 to which it is attached. It should be appreciated that, in some embodiments, the engagement member 66 may instead be diagonally-oriented. It should also be appreciated that, in some embodiments, the engagement member 66 may comprise a knob or other structure adapted to engage within the resistance selectors 40. In some embodiments, the second end 62 of each elongated member 60 may include its own knob which connects the second end 62 of each elongated member 60 to its engagement member 66 such as shown in
Each of the biasing members 70 is generally connected between one or more of the elongated members 60 at its first end 71 and the frame 19 at its second end 62. Thus, as shown in
In the exemplary embodiment shown in
It should be appreciated that the number of elongated members 60 and/or biasing members 70 may vary in different embodiments. In the exemplary embodiment shown in the figures, it can be seen that five elongated members 60 are illustrated, with each of the five elongated members 60 being connected by a bracket 74 to one or five biasing members 70. However, more or less elongated members 60 and/or biasing members 70 may be utilized. For example, more or less than five elongated members 60 may be utilized. Additionally, the number of biasing members 70 to which each such elongated member 60 is connected may vary. While the figures illustrate that each elongated member 60 is connected to a single biasing member 70, in some embodiments, each elongated member 60 may be connected to two or more biasing members 70. Conversely, each biasing member 70 may be connected to two or more elongated members 60 in different embodiments.
The biasing force applied by each of the biasing members 70 may be a linear force or a non-linear force. The total force applied to the carriage 30 by each of the biasing members 70 may be adjusted by the number of biasing members 70 connected to the carriage 30 being changed. The connection of more biasing members 70 will increase the total force applied to the carriage 30, and the connection of less biasing members 70 will decrease the total force applied to the carriage 30. Thus, by connecting additional biasing members 70 to the carriage 30, the total force applied to the carriage 30 will increase. By removing biasing members 70 from the carriage 30, the total force applied to the carriage 30 will decrease.
Each biasing member 70 may provide a constant force or a variable force to the carriage 30. Each of the biasing members 70 may also provide the same force or a different force to the carriage 30. Each of the one or more biasing members 70 may be configured to provide the same force, with each biasing member 70 providing a uniform force. Thus, each of the biasing members 70 may be comprised of the same size, same type, same length, and same force (e.g., 5 pounds force in a resting position and 10 pounds force in a stretched position). Each biasing member 70 may be comprised of one or more elongated elastic objects such as utilizing two tension coil springs together to form a single biasing member 70.
Alternatively, the one or more biasing members 70 may be configured to each provide a different force, with one or more of the biasing members 70 providing a different force than one of more of the other biasing members 70. In some embodiments, multiple biasing members 70 may provide the same force, while other biasing members 70 may provide a different force than the remaining biasing members 70. As an example, a first biasing member 70 may be comprised of a tension coil spring having an initial tension force of 3 pounds and a stretched tension force of 5 pounds and a second biasing member 70 may be comprised of a tension coil spring having an initial tension force of 6 pounds and a stretched tension force of 10 pounds, which allows for incremental adjustment of the tension force applied to the carriage 30. As a further example, a third biasing member 70 may have a different force compared to the first and second biasing members 70. In some embodiments, the amount of force for each of the biasing members 70 may be indicated by various indicia, such as by color-coding, illumination, tactile feedback, audible sounds, or the use of visual indicia such as symbols and/or text.
By way of a further example, a first biasing member 70 may be adapted to apply 1 pound of force, a second biasing member 70 may be adapted to apply 5 pounds of force, a third biasing member 70 may be adapted to apply 15 pounds of force, and a fourth biasing member 70 may be adapted to apply 20 pounds of force. By connecting the first and third biasing member 70 to the carriage 30, the total force applied to the carriage 30 will be 16 pounds. As a further example, connecting the second and fourth biasing members 70 to the carriage 30 will result in a total force of 25 pounds being applied to the carriage 30. Various other combinations may be utilized, and thus the preceding exemplary illustrations should not be construed as limiting in scope.
Generally, the amount of force applied to the carriage 30 (e.g., the amount of bias force experienced by the carriage 30) will be a function of the inherent characteristics of the biasing member 70 being utilized. For example, such inherent characteristics may include, without limitation, the type, material, length, diameter, pitch, number of winds, spring constant, frequency of compression, etc. of the particular biasing members 70 being utilized. Further, the amount of force applied to the carriage 30 will depend upon the length of the connected biasing members 70, the motion of the biasing members 70, and the number of biasing members 70 connected to the carriage 30 at a particular time.
If each of the biasing members 70 has the same inherent characteristics, then the connection of ten biasing members 70 to the carriage 30 will generate ten times the amount of force as if only one biasing member 70 was connected. If each of the biasing members 70 has different inherent characteristics, then the force can be adjusted by connecting different combinations of biasing members 70 to the carriage 30. Thus, there are large variations in force that can be applied to the carriage 30 by modifying a variety of variables including the number of connected biasing members 70.
The biasing member 70 may comprise one or more connected components providing a mechanism for creating a preferred force of an exercise machine 10 against which an exerciser must generally apply a muscle force greater than the biasing member 70 force in order to move a component (e.g., the carriage 30) in a direction opposed to the direction of the force.
The type of biasing member 70 utilized may vary in different embodiments, including but not limited to electronic resistance devices, magnetic resistance devices, electromagnetic resistance devices, electric motor resistance devices (e.g., a motor such as a servo motor or stepped motor), various types of springs (e.g. linear springs, non-linear springs, coil springs, tension springs, compression springs, spring tethers, extension springs, torsion springs, metal springs, non-metal springs, etc.), various types of elastic members (e.g. elastic bands, rubber bands, resistance bands, elastic shock cords, elastomer members, viscous members, resistance tubes), various weights, dashpots, eddy current breaks, friction blocks, pneumatic members, and/or any other member/device/system capable of creating linear or non-linear forces upon the carriage 30.
Each of the biasing members 70 may be comprised of a linkage member (e.g. elongated member, cable, rope, arm, cord, wire, bar, etc.) that is connected to and transfers a force from a resistance device such as but not limited to a magnetic resistance device, electrical-mechanical resistance device, electromagnetic resistance device, electronic resistance device, electric motor resistance device, fan-based resistance device, fluid-based resistance device, mechanical resistance device, or direct contact resistance device. Any such linkage member may be rigid, flexible, elastic, resilient, etc. The resistance device may provide a constant force, a variable force or a user-selected adjustable force that is transferred to the carriage 30.
Any of the aforementioned types of biasing members 70 may be connected to a cable or linkage that redirects a force of one or more resistance-inducing components to a movable component (e.g., the carriage 30) used by an exerciser for performing an exercise against the resistance.
In some embodiments, the one or more biasing members 70 may be permanently affixed to the carriage 30. In other embodiments, one or more biasing members 70 may be removably and selectively attached to the carriage 30 such that a variable level of force may be applied to movement of the carriage 30 upon the first and second rails 20, 25 depending on the number of such biasing members 70 attached.
The one or more biasing members 70 may each have a first end attached to a fixed component of the exercise machine 10 and a second end that is adapted for selectively connecting to a movable component of the exercise machine 10 (e.g., the carriage 30), thereby allowing for adjustment of the force applied to the movable component of the exercise machine 10. The second end of the one or more biasing members 70 is opposite of the first end of the one or more biasing members 70. Each of the biasing members 70 may have various cross-sectional shapes (e.g., circular, square-shaped, etc.) and various initial contracted lengths (e.g., 3 feet, 4 feet, etc.).
In some embodiments in which the biasing members 70 are directly connected to the carriage 30, the exercise machine 10 may include one or more biasing members 70 which are connected to the carriage 30 so as to provide a force against movement of the carriage 30 in at least a first direction and in favor of movement of the carriage 30 in at least a second direction opposite to the first direction. Generally, the first end of each biasing member 70 will be anchored, such as by being coupled with the exercise machine 10 (e.g., to a structural element of the frame 19), with the second end of each biasing member 70 being removably and selectively coupled to the carriage 30, such as by use of a resistance selector device or manually by hand.
In embodiments such as shown in the figures, a first end of each biasing member 70 may be anchored to the exercise machine 10, and a second end of each biasing member 70 may be selectively and removably connected to one or more of the elongated members 60 so as to impart resistance force against movement of the carriage 30. However, various structures and methods may be utilized to selectively and removably connect one or more of the biasing members 70 directly to the carriage 30, including but not limited to the use of magnets, latches, clamps, clasps, fasteners, adhesives, and the like.
As shown in
The shape, orientation, size, and positioning of the end platform 16 may vary in different embodiments. The end platform 16 will generally include a first end and a second end. The first end of the end platform 16 will generally face towards the carriage 30 and the second end of the end platform 16 will generally face away from the carriage 30.
The manner in which the end platform 16 is connected to the exercise machine 10 may vary. The end platform 16 may be connected directly to the frame 19, or form a part of the frame 19, of the exercise machine 10. The end platform 16 may be connected to one or more of the rails 20, 25. The end platform 16 may include various cutouts or gripping surfaces which an exerciser may contact with various body parts during performance of various exercise moves. The end platform 16 may include one or more handles 17a, 17b, 18 to aid in performing various exercise moves, or to aid in mounting or dismounting the exercise machine 10.
In the exemplary embodiment shown in the figures, the end platform 16 is illustrated as including a perimeter handle 18 which substantially surrounds the end platform 16 as best shown in
In use, an exerciser will generally approach the exercise machine 10 and select a level of resistance force to be applied against movement of the carriage 30 along the at least one rail 20, 25. Exercise routines will widely vary among exercisers, and the exercise machine 10 is configured to accommodate a wide range of exercise styles. For example, some exercisers may prefer to ramp up their workout during the routine, starting at a lower level of resistance and then working up to a greater level of resistance. Other exercisers may prefer a more intensive routine which starts at a high level of resistance and stays there. Yet other exercisers may prefer a more intensive beginning, followed by a cooling off period with less resistance.
Generally, an exerciser will first approach the exercise machine 10 and decide the initial level of resistance to set. In some situations, an exerciser may prefer to perform some initial exercise moves without any resistance at all. In those cases, the exerciser may perform exercise moves using the exercise machine 10, such as but not limited to moving the carriage 30, without any resistance force applied.
When desired, the exerciser may choose to connect one or more biasing members 70 to the carriage 30 such that the biasing members 70 apply a resistance force against movement of the carriage 30 in one or more directions. Using the resistance selectors 40, the exerciser may initially set any number of biasing members 70 to apply resistance force against movement of the carriage 30.
To “activate” a biasing member 70, the exerciser will generally adjust the desired arm members 46 into an engaged position. The manner in which an exerciser adjusts the arm members 46 may vary in different embodiments. In one exemplary embodiment, an exerciser will push the arm member 46 forward. In some embodiments, the exerciser may grasp the handle 49 (if included) and, using the handle 49, push the arm member 46 forward. In other embodiments, the arm member 46 may instead be pulled, or moved pivotably or to the side, to engage the arm member 46.
In the embodiment shown in the figures, the exerciser will push the arm member 46 in a forward direction towards the carriage 30. The arm member 46 will thus push the catch members 41, 42 such that the catch members 41, 42 pivot about the axle 47 in a forward direction to engage with the engagement member 66. As previously mentioned, the engagement member 66 may be directly connected to a biasing member 70, or may be connected to an elongated member 66 which is itself connected to a biasing member 70.
As the catch members 41, 42 pivot in a forward direction, the openings 44a, 44b of the catch members 41, 42 will surround the engagement member 66 so as to engage the engagement member 66 within the catch members 41, 42. The catch members 41, 42 will generally fit between the pair of retaining members 51, 52 which retain the engagement member 66 when not engaged by the catch members 41, 42. The arm member 46 may snap into place when engaged, and will generally stay in the engaged position until pulled or otherwise disengaged.
With the catch members 41, 42 engaged to the engagement member 66, the corresponding biasing member 70 will impart a resistance force against movement of the carriage 30. The exerciser may repeat these steps as many times as needed to engage as many biasing members 70 as desired for their particular needs. As the carriage 30 is pulled back during performance of an exercise move, the catch members 41, 42, which are connected to the carriage 30, will function to pull the biasing member 70 such that the biasing member 70 stretches and imparts a resistance force against the carriage 30. Any disengaged biasing members 70 will remain in place, as their associated engagement members 66 will be retained by the retaining members 51, 52 in place below the resting position of the carriage 30.
When desired, the exerciser may choose to disengage one or more biasing members 70. The exerciser will generally adjust the respective arm member 46 into the disengaged position, such as by pulling on the arm member 46. As the arm member 46 recedes, it will release force against the catch members 41, 42. The springs 48 will then cause the catch members 41, 42 to revert back to their original position by pivoting in a reverse direction so as to disengage from the engagement member 66. The engagement member 66 will then remain in place underneath the resting position of the carriage 30, retained by the retaining members 51, 52.
It should also be appreciated that, in some embodiments, the catch members 41, 42 may be engaged or disengaged when the carriage 30 is not in the resting position. Put differently, the catch members 41, 42 may be engaged or disengaged while the carriage 30 is in transit or stopped at points other than its resting position over the retaining members 51, 52. The catch members 41, 42, retaining members 51, 52, and engagement member 66 may be shaped such that the catch members 41, 42 can be selected to be engaged or disengaged with the carriage 30 mid-travel, but will not shift until the carriage 30 returns to its original, resting (i.e., home) position.
For a mid-travel engagement in which the catch members 41, 42 are engaged when the carriage 30 is not in the resting position (e.g., when the carriage 30 is either in motion or stopped at a point other than its resting position), the arm member 46 may be engaged which will force the catch members 41, 42 into the engaged, lowered position. However, the catch members 41, 42 will not engage with the engagement member 66 until such time as the carriage 30 is returned to its resting position, since the engagement member 66 remains held by the retaining members 51, 52 when not so engaged.
As the carriage 30 returns to its resting position, the lowered catch members 41, 42 will pass over the engagement member 66 such that the engagement member 66 is bumped down the face of the retaining members 51, 52 by the catch members 41, 42 which are in the engaged position. The engagement member 66 is then instantly drawn back up to the previous position by the biasing member 70, and thus the engagement member 66 becomes engaged with the catch members 41, 42 such that the engagement member 66 will be drawn back with the catch members 41, 42 when the carriage 30 is next moved away from the resting position.
For a mid-travel disengagement in which the catch members 41, 42 are disengaged when the carriage 30 is not in the resting position, the arm member 46 may be disengaged. However, the force applied by the biasing member 70 will function to maintain the engagement member 66 within the catch members 41, 42 even after they have been disengaged until such time as the carriage 30 returns to its original, resting position. When the carriage 30 is so returned to its original, resting position, the engagement member 66, which is held by the catch members 41, 42, is caught (i.e., engaged) by the retaining members 51, 52. As the force from the biasing member 70 upon the catch members 41, 42 is then released, the catch members 41, 42 will be free to adjust into the disengaged position (e.g., by bias force applied by the springs 48) so as to fully disengage the engagement member 66 (and thus the interconnected biasing member 70) from the catch members 41, 42 for the next travel of the carriage 30.
Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Although methods and materials similar to or equivalent to those described herein can be used in the practice or testing of the various embodiments of the present disclosure, suitable methods and materials are described above. All patent applications, patents, and printed publications cited herein are incorporated herein by reference in their entireties, except for any definitions, subject matter disclaimers or disavowals, and except to the extent that the incorporated material is inconsistent with the express disclosure herein, in which case the language in this disclosure controls. The various embodiments of the present disclosure may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it is therefore desired that the various embodiments in the present disclosure be considered in all respects as illustrative and not restrictive. Any headings utilized within the description are for convenience only and have no legal or limiting effect.
6 The present application is a continuation of U.S. application Ser. No. 17/374,440 filed on Jul. 13, 2021 (Docket No. LAGR-256). Each of the aforementioned patent applications is herein incorporated by reference in their entirety.
Number | Date | Country | |
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Parent | 17374440 | Jul 2021 | US |
Child | 18602278 | US |