Not applicable to this application.
The described example embodiments in general relate to an exercise machine with adjustable platforms for adjusting the angular orientation of an end platform and/or carriage platform to allow for a wide range of exercise moves.
A wide range of exercise machines are available to the modern exerciser. Such exercise machines may commonly be found in exercise studios or in home gyms. One such common exercise machine is commonly referred to as a “reformer”, which includes a carriage which is movable against a resistance force. The exerciser will typically mount the carriage and perform various exercise movements against such resistance during a workout.
In the past, the exerciser would typically exercise on a reformer-type machine having a flat-surfaced carriage and, in some cases, one or more flat-surfaced end platforms. Such carriages and end platforms will in some cases include bulky handles which provide different points (other than the upper flat surfaces of the carriage/end platforms themselves) to which an exerciser may place various limbs or grasp during the performance of exercises.
While such previous exercise machines are useful for accommodating a wide range of various exercise movements, they often require either the use of obstructive handles/gripping surfaces or a lack of the same which can inhibit the exercise moves available for the exerciser. It would be desirable for such an exerciser to have adjustable surfaces which can be tilted to function as additional contact/grasping points to allow for additional exercise movements without the use of bulky handles or other structures.
Some of the various embodiments of the present disclosure relate to an exercise machine with adjustable platforms that can adjust the inclination of both a carriage platform and an end platform between a lowered, flat position and a raised, inclined position. Some of the various embodiments of the present disclosure include an exercise machine having a frame including at least one rail and a carriage movably connected to the at least one rail, with the carriage being adapted to be movable along a portion of the at least one rail. A biasing member is adapted to be connected to the carriage, with the biasing member being adapted to apply a resistance force against movement of the carriage in at least one direction. A first end platform is pivotably connected to the frame, with a first end of the first end platform being adjustable between a level position with respect to the frame and a raised position with respect to the frame. An upper surface of the first end platform is parallel with respect to an upper surface of the carriage when the first end platform is in the level position, and the upper surface of the first end platform is not parallel with respect to the upper surface of the carriage when the first end platform is in the raised position. In some embodiments, a second end platform may be connected to the frame, with the second end platform being similarly adjustable between a level position and a raised position. In some other embodiments, the carriage may be split between a first platform and a second platform, with the first and/or second platforms being themselves adjustable between a raised position and a level position.
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 with adjustable platforms that includes one or more end platforms 40a, 40b may be adjusted between a level position and one or more raised positions and a carriage 20 including one or more platforms 21, 21 that may be adjusted between a level position and one or more raised positions. Some of the various embodiments of the present disclosure include a rail 16a, 16b to which a carriage 20 is movably connected and a first end platform 40a connected to an end of the rail 16a, 16b. The carriage 20 includes a platform 23 which may be adjusted between a level position in which the platform 23 is laid flat and a raised position in which the platform 23 is at an angular incline. In some example embodiments, the first end platform 40a may similarly and independently be adjustable between the level position in which the first end platform 40a is laid flat and a raised position in which the first end platform 40a is at an angular incline. In some other example embodiments, the exercise machine 10 may include a second end platform 40b which is similarly adjustable between a level position and a raised position.
As shown in
An upper surface 44a of the first end platform 40a may be parallel with respect to an upper surface 22, 24 of the carriage 20 when the first end platform 40a is in the level position and not parallel with respect to the upper surface 22, 24 of the carriage 20 when the first end platform 40a is in the raised position. An outer end 41a of the first end platform 40a is raised with respect to an inner end 42a of the first end platform 40a when the first end platform 40a is in the raised position. An angle of the upper surface 44a of the first end platform 40a is greater than zero degrees with respect to the upper surface 22, 24 of the carriage 20 when the first end platform 40a is in the raised position. An angle of the upper surface 44a of the first end platform 40a may be ninety degrees with respect to the upper surface 22, 24 of the carriage 20 when the first end platform 40a is in the raised position.
The first end platform 40a may be pivotably connected to the frame 15 closer to an inner end 42a of the first end platform 40a than an outer end 41a of the first end platform 40a. The upper surface 44a of the first end platform 40a may share a common plane with the upper surface 22, 24 of the carriage 20 when the first end platform 40a is in the level position. One or more handles 45a, 48a, 48b may be connected to the first end platform 40a. A perimeter handle 45a of the end platform 40a may function as a first handle connected to a first side of the end platform 40a, a second handle connected to a second side of the end platform, and a third handle connected to an outer end 41a of the end platform 40a, with the first, second, and third handles being continuous to form the perimeter handle 45a.
A pivot connector 50a such as a bracket may be connected between the frame 15 and the first end platform 40a, with a first end 51a of the pivot connector 50a being pivotably connected to the frame 15 and a second end 52a of the pivot connector 50a being pivotably connected to the first end platform 40a. The first end platform 40a may be adapted to be releasably locked in a plurality of positions. The end platform 40a may include a locking member 54a including a plurality of slots 55a, with the locking member 54a being adapted to releasably lock the first end platform 40a in the plurality of positions. A release member 53a may be movably connected between the first end platform 40a and the locking member 54a, with the release member 53a being adapted to release the first end platform 40a from each of the plurality of positions.
In an exemplary embodiment, the exercise machine 10 may also include a second end platform 40b pivotably connected at or near a second end 12 of the frame 15, with the second end platform 40b being adjustable between a second level position with respect to the frame 15 and a second raised position with respect to the frame 15. The second upper surface 44b of the second end platform 40b may be parallel with respect to the upper surface 22, 24 of the carriage 20 when the second end platform 40b is in the second level position and not parallel with respect to the upper surface 22, 24 of the carriage when the second end platform 40b is in the second raised position.
The first end platform 40a and the second end platform 40b may each be individually adjustable. The first end platform 40a may be adapted to pivot in a first direction and the second end platform 40b may be adapted to pivot in a second, opposite direction. The upper surface 44a of the first end platform 40a may share a common plane with the upper surface 44b of the second end platform 40b when the first end platform 40a is in the level position and the second end platform 40b is in the second level position.
An exemplary method of using the exercise machine 10 may include the steps of pivoting the first end platform 40a from the level position to the raised position, locking the first end platform 40a in the raised position, placing a body portion on the first end platform 40a, and moving the carriage 20 along the at least one rail 16a, 16b.
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 16a, 16b upon which a carriage 20 may be movably positioned such that the carriage 20 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 16a, 16b utilized may vary in different embodiments. In some embodiments, a pair of rails 16a, 16b comprising a first rail 16a and a second rail 16b which is parallel with the first rail 16a 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 16a, 16b may be utilized in combination with a spacer 17 to create the appearance of a monorail configuration.
In the exemplary embodiment best shown in
As best shown in
As best shown in
Each of the rails 16a, 16b generally comprise an elongated member. The material utilized for the rails 16a, 16b may vary in different embodiments. The rails 16a, 16b may be comprised of various metals, metal alloys, plastics, woods, and/or composite materials in different embodiments. The rails 16a, 16b may be substantially tubular, with a hollow interior.
The rails 16a, 16b may be parallel to each other, or may be slightly angled away from or towards each other. The spacing between the rails 16a, 16b will vary in different embodiments. As shown in
As shown in
As shown throughout the figures, the exercise machine 10 generally includes a carriage 20 which is movably positioned upon the first and second rails 16a, 16b such that the carriage 20 may move along at least a portion of the length of the first and second rails 16a, 16b. In an exemplary embodiment, the carriage 20 is adapted to move back and forth along at least a portion of the length of the first and second rails 16a, 16b in a reciprocating manner. The carriage 20 typically includes a plurality of wheels or other movable structures that movably engage with the first and second rails 16a, 16b of the exercise machine 10. The lower surface of the carriage 20 may be positioned over the first and second rails 16a, 16b, which function as a track for the carriage 20 to move along.
The carriage 20 may include various handles, cutouts, and the like which an exerciser 70 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 20 may vary in different embodiments, and thus should not be construed as limited by the exemplary embodiments shown in the figures. The carriage 20 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 20 may vary depending on the embodiment so as to suit different types of exercisers 70. A large bodybuilder would benefit from a longer and wider carriage 20 than a more cardio-based exerciser 70 with perhaps a smaller stature. Thus, the dimensions of the carriage 20 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 20 will generally be movably positioned or connected to the first and second rails 16a, 16b. The manner in which the carriage 20 is movably positioned or connected to the first and second rails 16a, 16b may vary in different embodiments. In some embodiments, portions of the carriage 20 may mate with the first and second rails 16a, 16b such that the carriage 20 may slide upon the first and second rails 16a, 16b. In other embodiments, magnets such as magnetic levitation may be utilized.
The carriage 20 may be movable in at least two respects. As previously mentioned, the carriage 20 may be movable (e.g., slidable) along one or more rails 16a, 16b. One or more biasing members 60 may be fixedly or removably connected to the carriage 20 so as to impart a resistance force against such movement along the one or more rails 16a, 16b. The resistance force applied against movement of the carriage 20 may be varied in certain embodiments, such as by selectively attaching or removing one or more biasing members 60 to/from the carriage 20.
In addition to be movable along the one or more rails 16a, 16b, one or more portions of the carriage 20 may be adjustable with respect to the frame 15. More specifically, one or more portions of the carriage 20 may be adapted to pivot with respect to the frame 15 between a level position, in which one or more portions of the carriage 20 are parallel to the frame 15, and one or more raised positions, in which one or more portions of the carriage 20 are angled or inclined with respect to the frame 15. Such a configuration allows for portions of the carriage 20 to function as handles or gripping points to allow for a wider range of exercise movements, particularly with carriages 20 that may not have discrete handles.
As shown in
The carriage 20 will generally comprise a frame 39 to which the one or more platforms 21, 23 are attached. In the embodiment shown in the figures, the first platform 21 is fixedly attached to the frame 39 of the carriage 20, and the second platform 23 is adjustable (e.g., pivotably) attached to the frame 39 of the carriage 20. Thus, the second platform 23 is adjustable (e.g., pivotably) with respect to the frame 39 of the carriage 20. It should be appreciated, as mentioned previously, that the reverse configuration may be utilized in certain embodiments. In such embodiments, the first platform 21 may instead be pivotable with respect to the frame 39 of the carriage 20. In a further example embodiments, both platforms 21, 23 may be adjustably connected to the frame 39 of the carriage 20 so as to pivot with respect to the frame 39 of the carriage 20.
The frame 39 of the carriage 20 will generally comprise various structural elements. By way of example, the frame 39 of the carriage 20 may comprise one or more wheel supports to which wheels 38 may be rotatably connected, with the wheels 38 being used to move the carriage 20 along the at least one rail 16a, 16b. The frame 39 may also comprise various bars or other fixed structures to which the platforms 21, 23 may be connected.
It should also be appreciated that the carriage 20 should not be construed as limited to a pair of platforms 21, 23, as additional platforms may be utilized in certain embodiments (e.g., the carriage 20 could have 3, 4, 5, 6, or more platforms). In such embodiments including more than the two platforms 21, 23, any combination of such additional platforms may be adjustable in the manner described herein. By way of non-limiting example, in an embodiment in which the carriage 20 includes three platforms, two of the platforms could be adjustable, and one of the platforms could be fixed, or vice versa.
In the exemplary embodiment best shown in
Continuing to reference
Generally, the second end 28a of the first platform 21 is positioned adjacent to the first end 27b of the second platform 23 such as shown in the figures. The distance between the respective second end 28a of the first platform 21 and the first end 27b of the second platform 23 may vary in different embodiments. In some embodiments, when in the level position, the first and second platforms 21, 23 may touch each other. In other embodiments, there may be a gap between the first and second platforms 21, 23. The size of such a gap, if present, may vary in different embodiments and should not be construed as limited by the exemplary figures.
In the exemplary embodiment shown in the figures, it can be seen that the first platform 21 is fixed at a level position, and that the second platform 23 is adjustable (e.g., pivotable) between a level position and a raised position. It should be appreciated, however, that in certain embodiments the reverse configuration may be utilized. In such embodiments, the first platform 21 may be adjustable between a level position and a raised position, and the second platform 23 may be fixed at a level position. In yet other embodiments, both the first and second platforms 21, 23 may be individually adjustable between the level and raised positions.
In the figures, the second platform 23 is illustrated as pivoting about its second end 28b, with the first end 27b of the second platform 23 being raised or lowered when adjusting between the level and raised positions. Thus, in the exemplary embodiment shown in the figures, the second platform 23 is raised by pivoting in a clockwise direction and lowered by pivoting in a counterclockwise direction.
It should be appreciated, however, that the reverse configuration may be utilized in certain embodiments. Thus, in some embodiments, the second platform 23 may instead pivot about its first end 27b, with the second end 28b being raised or lowered when adjusting between the level and raised positions. In such embodiments, the second platform 23 is raised by pivoting in a counterclockwise direction and lowered by pivoting in a clockwise direction. The same applies to the first platform 21 in embodiments in which the first platform 21 is adjustable.
In the exemplary embodiment shown in the figures, the second end 28b of the second platform 23 is shown as being pivotably connected to the frame 39 of the carriage 20. It should be appreciated, as previously mentioned, that in some embodiments, the first end 27b of the second platform 23 may instead be pivotably connected to the frame 39 of the carriage 20. The manner in which the first or second end 27b, 28b of the second platform 23 is pivotably connected to the frame 39 of the carriage 20 may vary in different embodiments. By way of example and without limitation, various pins, fasteners, brackets, and the like may be utilized for the pivotable connection between the second platform 23 and the frame 39 of the carriage.
As shown in
With reference to
In yet other embodiments, the raised position of the second platform 23 may be various other angles with respect to the first platform 21. For example and without limitation, the raised position of the second platform 23 may comprise the upper surface 24 of the second platform 23 being 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, or 90 degrees with respect to the upper surface 22 of the first platform 21, or any angles therebetween.
The second platform 23 may be releasably locked in various raised positions. In some embodiments, the second platform 23 may only be lockable in two positions: the level position and a single raised position. In other embodiments, the second platform 23 may be lockable between any number of positions, such as between the level position and multiple, discrete raised positions. By way of example and without limitation, in some embodiments, the second platform 23 may be lockable between a first, level position and multiple raised positions, such as raised positions at angular increments (e.g., the second platform 23 could be lockable in 15 degree increments).
The manner in which the one or more platforms 21, 23 of the carriage 20 are adjustable between various positions may vary in different embodiments. In the exemplary embodiment shown in the figures, it can be seen that a bracket 30 is connected between the second platform 23 and the frame 39 of the carriage 20, with the bracket 30 allowing the second platform 23 to be pivotably adjusted with respect to the frame 39 of the carriage 20.
The shape, size, and configuration of such a bracket 30 should not be construed as limited by the exemplary embodiment shown in the figures. As best shown in
Continuing to reference
The slots 36a, 36b may be configured so as to lock the second platform 23 in various positions. In the exemplary embodiment, it can be seen that the slots 36a, 36b are shaped so as to lock the second platform 23 in the raised position at the distal end of the J-shape. In certain embodiments, the slots 36a, 36b may each include multiple projections or indentations which are utilized to lock the second platform 23 in multiple, discrete positions as-needed.
With reference to
In such embodiments, the first side 33 of the bracket 30 is movably connected to the first pivot member 35 such that the first pivot member 35 slides within the first slot 36a and the second side 34 of the bracket 30 is movably connected to the second pivot member 35 such that the second pivot member 35 slides within the second slot 36b. As mention previously, however, the reverse configuration may be utilized in certain embodiments.
The type of pivot members 35 utilized may vary in different embodiments. By way of example and without limitation, the pivot members 35 may each be comprised of an elongated member such as a fastener, pin, bolt, nut, projection, or the like. While the figures illustrate that the pivot members 35 are on the outer sides of the frame 15 of the exercise machine 10, it should be appreciated that, in some embodiments, the pivot members 35 may instead be on the inner sides of the frame 15 of the exercise machine 10.
The exemplary embodiment shown in the figures illustrates a pair of pivot members 35 connected to the sides of the carriage 20. More specifically, the pivot members 35 may each be connected to the frame 39 of the carriage 20. However, in some embodiments, the pivot members 35 may instead be connected to the second platform 23 such that the pivot members 35 slide within the slots 36a, 36b, rather than the slots 36a, 36b sliding over the pivot members 35.
As best shown in
The sizes of the respective first and second platforms 21, 23 may also vary in different embodiments. In the exemplary embodiment shown in the figures, the first and second platforms 21, 23 have the same width. In certain embodiments, the first and second platforms 21, 23 may have different widths. Additionally, the figures illustrate an embodiment in which the first platform 21 has a greater length than the second platform 23. It should be appreciated that, in certain embodiments, the length of the second platform 23 may be greater than the length of the first platform 21. In yet other embodiments, the first and second platforms 21, 23 may comprise the same length.
In the exemplary embodiment shown in the figures, it can be seen that the second platform 23 of the carriage 20 is raised and lowered independently of the perimeter handle (e.g., the perimeter handle 25 is not raised or lowered with the second platform 23). However, in some embodiments, the perimeter handle 25 may raise or lower with the second platform 23 when the second platform 23 is itself raised or lowered.
As shown throughout the figures, the exercise machine 10 may include a first end platform 40a positioned at a first end 11 of the exercise machine 10 and/or a second end platform 40b positioned at a second end 12 of the exercise machine 10. While the FIG. illustrate a pair of end platforms 40a, 40b, it should be appreciated that, in some embodiments, only a single end platform 40a, 40b may be utilized. As discussed in more detail below, one or both of the end platforms 40a, 40b may be adjustable between a first, level position and a second, raised position. In the level position, the end platforms 40a, 40b are laid flat or substantially flat. In the raised position, the end platforms 40a, 40b are angled at an incline.
In the figures, both end platforms 40a, 40b are illustrated as being individually adjustable between level and raised positions. It should be appreciated, however, that in some embodiments, one end platform 40a could be fixed and the other end platform 40b could be adjustable. It is also shown in the figures that the end platforms 40a, 40b are identical, mirror copies of each other structurally. In some embodiments, the end platforms 40a, 40b may differ structurally. However, it should be appreciated that any discussion of features or functions of one end platform 40a are equally applicable to the other end platform 40b, and vice versa.
While each of the end platforms 40a, 40b is illustrated as comprising a unitary structure, it should be appreciated that one or both of the end platforms 40a, 40b could in some embodiments be split similarly to the carriage 20 discussed previously. Thus, each end platform 40a, 40b may comprise multiple platforms, with one or more of such multiple platforms being adjustable and one or more of such multiple platforms being fixed.
As shown in the figures, each of the end platforms 40a, 40b may be adjustable with respect to the frame 15. More specifically, each of the end platforms 40a, 40b may be adapted to pivot with respect to the frame 15 between a level position, in which each of the end platforms 40a, 40b are parallel to the frame 15, and one or more raised positions, in which each of the end platforms 40a, 40b are angled or inclined with respect to the frame 15. Such a configuration allows for the end platforms 40a, 40b to function as handles or gripping points to allow for a wide range of exercise movements, particularly with end platforms 40a, 40b that may not have discrete handles 45, 48a, 48b, 49a, 49b.
In the figures, it can be seen that the first end platform 40a comprises an outer end 41a which faces away from the carriage 20 and an inner end 42a which faces towards the carriage 20. Similarly, the second end platform 40b comprises an outer end 41b which faces away from the carriage 20 and an inner end 42b which faces towards the carriage 20. The first end platform 40a includes an upper surface 44a and a lower surface 46a. The second end platform 40b similarly includes an upper surface 44b and a lower surface 46b.
In the embodiments shown in the figures, it can be seen that the first end platform 40a pivots about its inner end 42a, with its outer end 41a being raised or lowered when adjusting between positions. Similarly, the second end platform 40b is shown as pivoting about its inner end 42b, with its outer end 41b being raised or lowered when adjusting between positions. Thus, in the exemplary embodiment shown in the figures, the first end platform 40a is raised by pivoting in a clockwise direction and lowered by pivoting in a counterclockwise direction and the second end platform 40b is raised by pivoting in a counterclockwise direction and lowered by pivoting in a clockwise direction.
It should be appreciated, however, that the reverse configuration could be utilized. In such embodiments, the end platforms 40a, 40b may instead pivot about their outer ends 41a, 41b. Thus, in such embodiments, the first end platform 40a may be raised by pivoting a counterclockwise direction and lowered by pivoting in a clockwise direction and the second end platform 40b may be raised by pivoting in a clockwise direction and lowered by pivoting in a counterclockwise direction. In yet other embodiments, the end platforms 40a, 40b may instead pivot about various locations or points between their respective inner ends 42a, 42b and outer ends 41a, 41b.
With reference to
In yet other embodiments, the raised position of each of the end platforms 40a, 40b may be various other angles with respect to the carriage 20 and frame 15. For example and without limitation, the raised position of each of the end platforms 40a, 40b may comprise the upper surfaces 44a, 44b of the end platforms 40a, 40b being 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, or 90 degrees with respect to the upper surface 22 of the first platform 21 of the carriage 20, or any angles therebetween.
Each of the end platforms 40a, 40b may be releasably locked in various raised positions. In some embodiments, the end platforms 40a, 40b may only be lockable in two positions: the level position and a single raised position. In other embodiments, the end platforms 40a, 40b may each be individually lockable between any number of positions, such as between the level position and multiple, discrete raised positions. By way of example and without limitation, in some embodiments, the end platforms 40a, 40b may each be lockable between a first, level position and multiple raised positions, such as raised positions at angular increments (e.g., the end platforms 40a, 40b could each be lockable in 15 degree increments).
The manner in which one or both of the end platforms 40a, 40b are adjustable between various positions may vary in different embodiments. Although not shown, the same bracket 30 structure including J-shaped slots 36a, 36b shown in connection with the carriage 20 may be used in the same manner to allow adjustment of one or both of the end platforms 40a, 40b. Similarly, the pivot connector 50a, 50b structure discussed below in connection with the end platforms 40a, 40b may be used in the same manner to allow adjustment of the one or more platforms 21, 23 of the carriage 20.
In the exemplary embodiment shown in the figures, it can be seen that the respective inner ends 42a, 42b of each of the end platforms 40a, 40b is pivotably connected to a bracket 58a, 58b, with the inner end 42a of the first end platform 40a being pivotably connected to a first bracket 58a and the inner end 42b of the second end platform 40b being pivotably connected to a second bracket 58b. In some embodiments, each end platform 40a, 40b may only be pivotably connected to a single bracket 58a, 58b rather than each end platform 40a, 40b being pivotably connected to a pair of brackets 58a, 58b.
A pivot connector 50a, 50b is connected between the frame 15 of the exercise machine 10 and each of the respective end platforms 40a, 40b. More specifically, as best shown in
Each of the pivot connectors 50a, 50b comprises a first end 51a, 51b and a second end 52a, 52b. In the embodiment shown in the figures, the first end 51a of the first pivot connector 50a is pivotably connected to the frame 15 of the exercise machine 10 and the first end 51b of the second pivot connector 50b is pivotably connected to the frame 15 of the exercise machine 10. The second end 52a of the first pivot connector 50a is pivotably connected to the first end platform 40a and the second end 52b of the second pivot connector 50b is pivotably connected to the second end platform 40b.
As best shown in
The pivot connectors 50a, 50b may selectively and removably engage within one of the slots 55a, 55b of the locking members 54a, 54b is removably secure the end platform 40a, 40b in a desired raised position. More specifically, the first pivot connector 50a may engage within one of the slots 55a of the first locking member 54a to selectively and removably secure the first end platform 40a into one of a plurality of raised positions and the second pivot connector 50b may engage within one of the slots 55b of the second locking member 54b to selectively and removably secure the second end platform 40b into one of a plurality of raised positions.
The number of slots 55a, 55b in each of the locking members 54a, 54b, and thus the number of positions into which each of the end platforms 40a, 40b may be removably and selectively locked may vary in different embodiments. Thus, the number of slots 55a, 55b shown in the exemplary figures should not be construed as limiting. In some embodiments, only one or two slots 55a, 55b may be utilized. In other embodiments, three or more slots 55a, 55b may be utilized. While the figures illustrate that the first locking member 54a has the same number of slots 55a as the second locking member 54b, it should be appreciated that, in some embodiments, the first locking member 54a may have a different number of slots 55a than the second locking member 54b.
As best shown in
Each of the release members 53a, 53b are adapted to be moved (e.g., by pressing on the release members 53a, 53b) to release the pivot connectors 50a, 50b from the locking members 54a, 54b. In the exemplary embodiment shown in the figures, the first release member 53a is adapted to move (e.g., by pushing or pivoting) a pivot member 56a which itself pushes the pivot connector 50a out of whichever of the slots 55a of the locking member 54a in which it is engaged. Similarly, the second release member 53b is adapted to move (e.g., by pushing or pivoting) a pivot member 56b which itself pushing the pivot connector 50b out of whichever of the slots 55b of the locking member 54b in which it is engaged.
As shown in
In some embodiments such as shown in
In use, the exercise machine 10 may be placed in position in various locations, such as in a home gym or exercise studio. Generally, an exerciser 70 will place one portion of their body on the carriage 20 and another portion of their body elsewhere (e.g., on the ground adjacent to the exercise machine 10, on the first end platform 40a, and/or on the second end platform 40b) and then move the carriage 20 in one or more directions. The exerciser 70 may, in some embodiments, select the amount of resistance force applied against the carriage 20 by adjusting the number of biasing members 60 connected between the carriage 20 and the frame 15.
When desired, the exerciser 70 may raise or lower one or more platforms 21, 23 of the carriage 20 to allow for a wider range of exercises to be performed. In the exemplary embodiment shown in the figures, the second platform 23 of the carriage 20 may be raised or lowered. The exerciser 70 may grasp any portion of the second platform 23 and pivot the second platform 23 upwardly to raise the second platform 23 into the raised position. As one example, the exerciser 70 may grasp one or more sides of the second platform 23 to raise or lower the second platform 23. As a further example, the exerciser 70 may grasp the central handle 26 of the second platform 23 to raise or lower the second platform 23.
When the second platform 23 is pivoted towards the raised position, the bracket 30 will slide over the pivot members 35 that are connected to the frame 39 of the carriage 20, and thus the bracket 30 will be raised with the second platform 23 such as shown in
While the figures illustrate an embodiment in which the second platform 23 is only lockable into a single raised position, it should be appreciated that, in some embodiments, the second platform 23 may be lockable into one of a plurality of raised positions. It should also be appreciated that the angular incline of the second platform 23 when in the raised position may vary in different embodiments, and thus should not be construed as limited to any of the exemplary angular inclines shown in the figures.
With the second platform 23 in the raised position, the exerciser 70 may perform a wide range of exercise movements.
When desired, the exerciser 70 may lower the second platform 23 into the level position, such as for storage or for performing additional exercise moves. The exerciser 70 will then grasp the second platform 23 and move the second platform 23 so as to disengage the pivot members 35 from the distal ends of the slots 36a, 36b of the bracket 30. Upon being released, freely slide along the slots 36a, 36b of the bracket 30 will freely slide over the pivot members 35 such that the second platform 23 may be lowered into the level position.
The exerciser 70 may also raise and/or lower the first and/or second end platforms 40a, 40b as desired to perform a wide range of exercise moves. In the embodiments shown in the figures, both of the end platforms 40a, 40b may be individually raised and lowered. However, in some embodiments, only one of the end platforms 40a, 40b may be raised and lowered, with the other end platform 40a, 40b remaining fixed.
To raise the first end platform 40a, an exerciser 70 will simply grasp any portion of the first end platform 40a and lift upwardly. For example, the exerciser 70 may grasp the outer end 41a of the first end platform 40a and lift upwardly. As a further example, the exercise 70 may grasp the perimeter handle 45a of the first end platform 40a and lift upwardly.
Similarly, to raise the second end platform 40b, an exerciser 70 will simply grasp any portion of the second end platform 40b and lift upwardly. For example, the exerciser 70 may grasp the outer end 41b of the second end platform 40b and lift upwardly. As a further example, the exerciser 70 may grasp the perimeter handle 45b of the second end platform 40b and lift upwardly.
With respect to both end platforms 40a, 40b, it should be appreciated that the manner in which the end platforms 40a, 40b are raised and locked into one of a plurality of raised positions will vary in different embodiments. In one example embodiments, each of the end platforms 40a, 40b will lock into each of the raised positions sequentially while being raised. Thus, the exerciser 70 will simply continue lifting the end platform 40a, 40b as it locks and releases from each of the raised positions until the desired raised position is reached. In other embodiments, the end platforms 40a, 40b may smoothly be raised through each of the raised positions without locking until the exerciser 70 stops lifting, at which point the end platforms 40a, 40b will lock into the nearest raised position as the point that the exerciser 70 stops applying upward, lifting force.
Once locked into the desired raised position, the exerciser 70 may perform various exercise moves by placing one or more body parts (e.g., limbs) on various portions of the raised end platforms 40a, 40b.
The manner in which the end platforms 40a, 40b are released so as to be lowered into a different raised position, or into the level position, may vary in different embodiments. In some embodiments, the exerciser 70 need only push down on the end platform 40a, 40b to lower the end platform 40a, 40b.
In the exemplary embodiment shown in the figures, the exerciser 70 will push on the release member 53a, 53b of the desired end platform 40a, 40b. The release member 53a, 53b which then push the pivot connector 50a, 50b so as to disengage the pivot connector 50a, 50b from the slot 55a, 55b in which it is locked, thereby allowing the end platform 40a, 40b to be freely pivotable into another raised position, or into the level position. The end platform 40a, 40b may sequentially lock into each of the raised positions it passes, or may smoothly be lowered into the level position depending upon the embodiment.
By using raised platforms 21, 23 of the carriage 20 and/or raised end platforms 40a, 40b, a wider variety of exercise moves may be performed than would be possible with conventional platforms 21, 23, 40a, 40b which are fixed at a level position. The incline provided by the raised platforms 21, 23, 40a, 40b may provide additional points which may be grasped or otherwise contacted by the exerciser 70 to perform a wide range of exercise moves. For example, raising the second platform 23 of the carriage 20 and the end platform 40b allows for the exerciser 70 to more easily straddle the carriage 20 and end platform 40b to perform a standing exercise as shown in
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. 17/954,032 filed on Sep. 27, 2022 (Docket No. LAGR-295), which is a continuation of U.S. application Ser. No. 17/380,196 filed on Jul. 20, 2021 now issued as U.S. Pat. No. 11,465,011 (Docket No. LAGR-243). Each of the aforementioned patent applications is herein incorporated by reference in their entirety.
Number | Date | Country | |
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Parent | 17954032 | Sep 2022 | US |
Child | 18482982 | US | |
Parent | 17380196 | Jul 2021 | US |
Child | 17954032 | US |