1. The Field of the Invention
This invention generally relates to exercise equipment and, more specifically, to a folding elliptical exercise machine.
2. The Relevant Technology
Exercise machines having alternating reciprocating foot supports configured to traverse or travel about a closed path to simulate a striding, running, walking, and/or a climbing motion for the individual using the machine are well known in the art, and are commonly referred to as elliptical exercise machines or elliptical cross-trainers. In general, an elliptical or elliptical-type exercise machine comprises a pair of reciprocating foot supports designed to receive and support the feet of a user. Each reciprocating foot support has at least one end supported for rotational motion about a pivot point, with the other end supported in a manner configured to cause the reciprocating foot support to travel or traverse a closed path, such as a reciprocating elliptical or oblong path or other similar geometric outline. Therefore, upon operation of the exercise machine, each reciprocating foot support is caused to travel or traverse the closed path, thereby simulating a striding motion of the user for exercise purposes. The reciprocating foot supports are configured to be out of phase with one another by 180° in order to simulate a proper and natural alternating stride motion.
An individual may utilize an elliptical exercise machine by placing his or her feet onto the reciprocating foot supports. The individual may then actuate the exercise machine for any desired length of time to cause the reciprocating foot supports to repeatedly travel their respective closed paths, which action effectively results in a series of strides achieved by the individual to obtain exercise, with a low-impact advantage. An elliptical exercise machine may further comprise mechanisms or systems for increasing the resistance of the motion. In addition, the reciprocating motion of the feet to achieve a series of strides may be complemented by a reciprocating movement of the arms, whether assisted by the exercise machine via a suitably configured mechanism or system, or unassisted.
Being subject to function over form, elliptical exercise machines, by design, are large in size and tend to occupy a large amount of vertical and horizontal space during operation. In some instances, elliptical exercise machines may occupy a substantial amount of horizontal space, commonly referred to as a footprint, measuring several feet in width and often at least three times this in length. This being said, exercise machines, while very useful, do not provide a particularly attractive presence. Indeed, they can require a significant amount of space for operation. While space is not a major issue in most commercial settings, such as athletic fitness or sports centers, spas, resorts, etc., the same is not true when the exercise machine is intended for residential use. Therefore, exercise machines are designed to occupy as little space as possible. Still further, and particularly with respect to those intended for residential use, exercise machines are designed to comprise some type of folding mechanism that allows the exercise machine to fold upon itself in one or more ways in order to reduce the occupied space when the exercise machine is not in use. Such folding capabilities are also advantageous when packaging and/or transporting exercise machines.
Although many design endeavors to reduce the footprint of exercise machines, such as treadmills, have successfully been implemented, these same endeavors have not been favorably amenable to elliptical or elliptical-type exercise machines. This may largely be due to the bulky and weighty drive assembly and associated components common on most elliptical exercise machines. Because of the size and weight of the drive assembly, most attempts to provide elliptical exercise machines with some type of folding mechanism have resulted in only the folding of the handles and the vertical support member extending upward from the support frame to the user interface in a downward manner toward the drive assembly. One problem with this type of folding arrangement is that, although the vertical space being occupied by the elliptical exercise machine is reduced, the horizontal space being occupied, or the footprint, remains unchanged.
As such, there is a need for an elliptical exercise machine that provides all of the beneficial operational functions of prior related elliptical exercise machines while in operation, but that also is capable of substantially reducing the space being occupied by the elliptical exercise machine, namely the horizontal space or the footprint.
In light of the problems and deficiencies inherent in the prior art, the present invention seeks to overcome these by providing an exercise machine having a centrally located pivot joint in the base support structure of an elliptical exercise machine that enables it to fold into a compact configuration.
Thus, a folding elliptical exercise machine is disclosed. The folding elliptical machine has a frame that comprises a base support structure and an upright support structure, wherein the base support structure has a front portion and a rear portion, the front portion having a first end and a second end, wherein the rear portion is rotatably attached to the front portion at a pivot mechanism such that the elliptical exercise machine is selectively moveable between an operating position and a storage position. The upright support structure extends upward from the first end of the front portion of the base support structure. The folding elliptical machine further comprises first and second reciprocating foot supports, each foot support having a first end and a second end, a drive assembly situated on the rear portion of the base support structure, and a ramp assembly situated at the first end of the front portion of the base support structure. The respective first ends of the first and second foot supports are releasably attached to the drive assembly and the ramp assembly has first and second guide rails for guiding the respective second ends of the first and second foot supports such that the foot supports move in an elliptical path.
The elliptical exercise machine further comprises first and second swing arms, wherein each arm has an upper portion and a lower portion, the upper portion of each arm being pivotally connected to the upright support structure, the lower portion of each arm being interconnected to the respective first and second foot supports. In addition, the elliptical exercise machine further comprises first and second link arms, wherein each link arm has a first end and a second end, wherein the lower portion of each swing arm is pivotally connected to the first end of each respective link arm and the second end of each respective link arm is connected to the respective first and second foot supports.
In one embodiment, the folding elliptical exercise machine of the present invention further comprises a locking mechanism that, in the storage position, prevents the rear portion of the base support structure from inadvertently rotating with respect to the front portion of the base support structure. In addition, the exercise machine may further comprise a button for disengaging the locking mechanism such that the rear portion can rotate with respect to the front portion of the base support structure to place the exercise machine in the operating position.
Further, the exercise machine may further comprise a mechanism wherein a first end of the ramp assembly is affixed to the front portion of the base support structure and a second end is adjustably mounted on the upright support structure such that an angle that the ramp assembly makes with the base support structure can be changed. In this way, the elliptical path that each foot support makes, and thereby foot of a user takes on the machine, can be varied.
In order that the manner in which the above-recited and other advantages and objects of the invention are obtained, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments thereof that are illustrated in the appended drawings. These drawings depict only typical embodiments of the invention. They are not therefore to be considered to be limiting of its scope, the invention will be described and explained with additional specificity and detail through the use of the accompanying drawings in which:
The following detailed description of exemplary embodiments of the invention makes reference to the accompanying drawings, which show, by way of illustration, exemplary embodiments in which the invention may be practiced. While these exemplary embodiments are described in sufficient detail to enable those skilled in the art practice the invention, it should be understood that other embodiments may be realized and that various changes to the invention may be made without departing from the spirit and scope of the present invention. Thus, the following more detailed description of the embodiments of the present invention, as represented in the figures, is not intended to limit the scope of the invention, as claimed, it is presented for purposes of illustration only and to describe the features and characteristics of the present invention, to set forth the best mode of operation of the invention, and to sufficiently enable one skilled in the art to practice the invention. Accordingly, the scope of the present invention is to be defined solely by the appended claims.
The following detailed description and exemplary embodiments of the invention will be best understood by reference to the accompanying drawings, wherein the elements and features of the invention are designated by numerals throughout.
The present invention describes and features an exercise machine, and particularly an elliptical or elliptical-type exercise machine having one or more breakaway components that facilitate the folding of the elliptical exercise machine into a compact configuration, and more particularly an upright compact configuration. In one exemplary embodiment, the elliptical exercise machine may comprise a pivoting joint, or breakaway joint, located in its support frame. The breakaway joint may be complemented by, and the elliptical exercise machine may further comprise, breakaway reciprocating foot supports that further facilitate the folding of the elliptical exercise machine into a compact configuration.
At the outset, although many of the principles, exercise machines, systems, devices, assemblies, mechanisms, and methods described herein are discussed primarily in terms of their use with those types of elliptical exercise machines having a rear mount drive component or crank that utilizes swing arms, one ordinarily skilled in the art will understand that such principles, exercise machines, systems, devices, assemblies, mechanisms, and methods are adaptable, without undue experimentation, to be useable on an elliptical exercise machine or other similar type of exercise machine having a front mount configuration, wherein the closed path is generated by a front mount drive component, such as on a front mechanical-type exercise machine, or through any other manner, and are similarly adaptable for use on those types of exercise machines having stationary or fixed hand grips or handlebars.
The present invention provides several significant advantages over many prior related elliptical exercise machines, some advantages of which are recited here and throughout the following more detailed description. First, by providing releasable or detachable reciprocating foot supports, the elliptical exercise machine may comprise a pivot joint located approximately centrally, or thereabout, and away from either of its ends. Second, by providing an approximately centrally located pivot joint that is away from either end, the elliptical exercise machine is capable of folding into a more compact configuration than prior related machines. Third, the present invention allows the elliptical exercise machine to be stored in an upright position, rather than a prone position. This may allow the elliptical exercise machine to fit into tighter storage spaces than would otherwise be possible. With reference to the accompanying drawings, each of these advantages will be apparent in light of the detailed description set forth below. These advantages are not meant to be limiting in any way. Indeed, other than those specifically recited herein, one skilled in the art will appreciate that other advantages may be realized, upon practicing the present invention.
The reciprocating foot supports 14 and 44, as well as the other components of the exercise machine, such as the drive assembly, are supported on a resting surface by a base support structure 70. The base support structure 70 is configured to provide both structural and translational support to the components of the exercise machine 10, and also to interface with the ground or other suitable support surface. The base support structure 70 generally defines the size of the foot print of the exercise machine 10.
Advantageously, the base support structure 70 of the present invention is configured to pivot or breakaway, thus allowing the elliptical exercise machine 10 to be folded into a compact configuration and then back again as desired. Specifically, the base support structure 70 is configured with some type of pivoting means that pivotally couples together at least two components of the base support structure 70 and that allows at least a portion of the base support structure to fold about at least another portion of the base support structure 70 for the purpose of compacting the elliptical exercise machine (e.g., for storage purposes) (see
In the exemplary embodiment shown in
As indicated, the elliptical exercise machine 10 comprises a pivoting mechanism or assembly configured to facilitate the pivoting of the front and rear portions with respect to one another. In one exemplary embodiment, as shown, the elliptical exercise machine 10 comprises a pivoting mechanism 170 located along the longitudinal length and between the longitudinal ends of the longitudinal support beam 74. In the embodiment shown, the pivoting mechanism 170 is located a distance from a midpoint of the longitudinal support beam 74, thus accommodating the drive assembly 112, including the housing or enclosure 114 enclosing all or a portion of the components of the drive assembly. The pivoting mechanism 170 is configured to permit the rear portion 66 to breakaway and pivot in an upward direction off of the ground and with respect to the front portion 64, which remains in contact with the ground, thus facilitating and enabling the breakaway of the base support structure 70 and the repositioning of the drive assembly 112, as shown in
As shown, the exemplary elliptical exercise machine 10 is a rear mechanical-type machine with the rear portion 66 of the base support structure 70 being configured to support the drive assembly 112. With the drive assembly 112 supported about the rear portion 66, upward rotation of the rear portion 66 about the front portion 64 functions to cause the drive assembly 112, and its several components, to also be pivoted upward and inward toward the upright support 86, thus compacting the elliptical exercise machine 10.
In light of the upward and inward rotation of the rear portion 66, and resultantly the drive assembly 112, the base support structure 70, as well as its various component parts, particularly the front and rear portions 64 and 66, as well as the pivot mechanism 170, are configured to comprise the necessary size and strength to support the drive assembly 112 in a vertical or substantially vertical position, as well as in any number of intermediate positions. Such will be obvious to one skilled in the art.
Moreover, the base support structure 70 may be any suitable design, such as any suitable frame-like structure or other configuration. In addition, the base support structure 70 may comprise a plurality of different components configured to operatively couple together to form the base support structure 70. Essentially, the base support structure 70 may comprise any suitable design configured to perform and operate as intended, and therefore, the I-beam configuration discussed herein and shown in the drawings is not meant to be limiting in any way.
To assist the user in actuating the breakaway function of the elliptical exercise machine and pivoting or rotating the rear portion 66 upward, the present invention may feature one or more handles formed with the frame or other support members of the elliptical exercise machine. As shown in
The upright support 86 of the exemplary elliptical exercise machine 10 may comprise any shape or configuration. In one particular embodiment, the upright support 86 comprises a curved segment 88, which comprises an outward oriented curve that curves away from the drive assembly 112. The curved segment 88 may be configured to receive the drive assembly 112, or housing enclosing various components of the drive assembly 112 (shown as enclosure 114), in a nesting relationship when the rear portion 66 of the support base structure 70, and therefore the drive assembly 112, is pivoted upward to fold the elliptical exercise machine 10 into a more compact configuration as taught herein (see
With reference to
The lower ends of the first and second swing arms 102 and 122 are pivotally coupled to the second ends 22 and 52 of the first and second reciprocating foot supports 14 and 44, respectively, using any known coupling means. The first and second reciprocating foot supports 14 and 44 and the first and second swing arms 102 and 122 are configured to pivot about pivot points 110 and 130, respectively, during operation of the exercise machine 10. The swing arms 102 and 122 function to guide the first and second reciprocating foot supports 14 and 44, respectively, in a pendulous reciprocating motion along an arcuate closed path upon operation of the exercise machine 10. Travel about this arcuate closed path provides a substantially horizontal forward-rearward component of motion that effectively simulates a user's stride. Due to the coupling configuration of the reciprocating foot supports 14 and 44 at each of their respective second ends, the closed path traveled by the foot pads 30 and 60 is generally elliptical in nature.
In addition, the swing arms 102 and 122 are configured to permit the reciprocating foot supports 14 and 44 to pivot or fold upward on the swing arms 102 and 122, where they may be releasably coupled to the upright support 86, or one or more of its component parts. As shown in
The elliptical exercise machine 10 further comprises first and second drive components, shown as first and second cranks or crank arms 140 and 160 rotatably supported about the base support structure 70 using any known means for supporting. It is contemplated that the present invention may be incorporated into an elliptical exercise machine comprising various types of drive components that are capable of rotating about a pivot point in either a concentric or eccentric manner. However, for the purposes of discussion, the exemplary drive components will be described as cranks 140 and 160. The cranks 140 and 160 are preferably in a fixed relationship with respect to one another and are configured to travel along repeating circular paths about a common pivot axis. The first and second cranks 140 and 160 are also configured to be out of phase with one another by 180° in order to facilitate an alternating reciprocating motion within the first and second reciprocating foot supports 14 and 44 and to simulate the natural alternating strides of a user. As shown, each of the cranks comprise a fixed or non-adjustable size or length.
To enable the base support structure 70 to breakaway and a portion of it to pivot or rotate upward in order to fold the elliptical exercise machine into a more compact configuration, the present invention further features first and second reciprocating foot supports 14 and 44 configured to detach from the respective drive components (see
Means for releasably coupling the reciprocating foot supports to the respective drive components may comprise a number of different coupling configurations, some of which are illustrated in the drawings and described herein. Specifically, as shown in
As indicated, each of the first and second reciprocating foot supports 14 and 44 are removably coupled to first and second struts 194 and 206, respectively. In the embodiment shown, first ends 18 and 48 of the reciprocating foot supports 14 and 44, respectively, each comprise a clasp, shown as clasps 214 and 218, configured to releasably engage and couple to the rotating collars 198 and 210 of the first and second struts 194 and 206, respectively. The clasps 214 and 218 each comprise a half-circle configuration with a radius that is slightly larger than that of the rotating collars, thus allowing the clasps 214 and 218 to engage with and to mate with the rotating collars. The openings of the half-circle clasps are positioned in a downward facing orientation, in order to allow the reciprocating foot supports 14 and 44 to be rotated downward to releasably engage the struts, as well as to support any downward or other forces acting thereon, such as those typically applied as a result of a user operating the elliptical exercise machine 10. To attach a reciprocating foot support to a strut of the drive component, the clasp of the reciprocating foot support is aligned with the strut and caused to engage and rest upon the rotating collar of the strut. In this position, the clasp allows the reciprocating foot support and the elliptical exercise machine to function as intended with the clasp and the rotating collar rotating about the shaft of the strut. When it is desired to fold the elliptical exercise machine, the reciprocating foot support is released from the strut simply by lifting up on the reciprocating foot support to disengage the clasp. Once disengaged or released, the reciprocating foot support may be rotated upward and caused to rest against the upright support 86 or a component thereof. This procedure may be performed for each of the reciprocating foot supports 14 and 44, as is shown in
As shown in FIGS. 5-A and 5-B, the reciprocating foot supports may further comprise a locking mechanism configured to temporarily lock the reciprocating foot supports to the drive components, and particularly to the struts of the drive components. For example, as shown in
In another exemplary embodiment, as shown in
The trigger 238 is supported on one end via anchors 246 extending from the latch base 236, and on another end via a slider 248. The anchors 246 pivotally couple the trigger 238 to the latch base 236. More specifically, the anchors 246 are configured to receive an end of the trigger 238 therein and to facilitate its rotation upon the trigger 238 being actuated to release the reciprocating foot support 14 from the strut. The slider 248 is slidably coupled to the latch base 236 and is configured to allow the latch 240 to displace as the latch 240 is coupled to the slider 248. The trigger 238 further comprises a slot 250 formed therein, which is configured to also facilitate the release and displacement of the latch 240. In the exemplary embodiment shown, the slot 250 comprises an L-shape configuration with a horizontal and vertical portion. The slider 248 further comprises a pin 249 contained within the aperture 251. The pin 249 is configured to track along the slot in response to the bi-directional movement of the latch 240.
At the location of the anchors 246 on the latch base 234, there is an aperture 247 for receiving a roll pin 201 that acts as a hinge for the trigger 238 when the trigger is activated. In addition, in the embodiment of
The latch assembly 234 further comprises a plate 252 coupled or mounted to the clasp 214 at an end proximate the first end 18 of the reciprocating foot support 14. The plate 252 comprises a slot 254 formed therein to allow the latch 240 to pass therethrough as it displaces in both directions.
To actuate the locking mechanism, or rather to enable the latch 240 to release or retract from its locked position, the trigger 238 is actuated. This causes pin 249 contained within the aperture 251 in the slider 248 to transition from the vertical portion of the slot 250 to the horizontal portion of the slot 250, thereby allowing the pin 249 and the slider 248 to displace in response to the displacement of the latch 240 caused by the application of a load, namely the lifting of the reciprocating foot support 14 off of the strut. In essence, the trigger 238 functions to release the latch 240 and to allow it to displace under a load.
Other types of locking mechanisms may be employed and are contemplated herein, such as a strap, an elastic member, etc.
It is specifically noted herein that the first and second reciprocating foot supports may comprise any type of mechanism, assembly, etc., configured to releasably couple their respective first ends to the drive components of the elliptical exercise machine. As such, the exemplary embodiments discussed herein and shown in the drawings, such as the inclusion of clasps positioned at the first ends, are not meant to be limiting in any way. Indeed, one skilled in the art will recognize other ways of releasably coupling the reciprocating foot supports to the drive components to accomplish the folding of the elliptical exercise machine as intended herein. These alternative ways are contemplated, and are intended to fall within the scope of the invention as claimed.
Specifically, with reference to
The pivoting mechanism 170 further comprises a stop or limiting system. In the exemplary embodiment shown, the limiting system comprises a stop member 182 located within the channel 176 of the first piece 75 of the longitudinal support beam 74. The stop member 182 comprises a protrusion 184 that is configured to engage and slide within a corresponding slot 178 formed in a sidewall 180 of the pin support member 174. Being fixed to the first piece 75 of the longitudinal support beam 74, upon rotation of the rear portion 66 of the base support structure 70 to fold the elliptical exercise machine, the protrusion 184 travels within the slot 178. When the protrusion 184 contacts an upper edge of the slot 178, full rotation is reached. As such, the limiting system prohibits further rotation of the rear portion 66 of the base support structure 70. In essence, the limiting system, and particularly the protrusion 184 and the slot 178, functions to limit the rotation of the base support structure 70, and particularly the rear portion 66, in the upward direction. The protrusion 184 and the slot 178 may be configured to enable any suitable range of rotation of the rear portion 66 between 0° and 130°. As shown in
Upon release of the reciprocating foot supports 314 and 344 from their corresponding drive components (see drive component 460), and upon actuation, the hydraulic actuator 432 exerts opposing forces upon both the first and second pieces 375 and 376, or the front and rear portions 364 and 366, that causes the rear portion 366 to pivot about the pivot pin 488 and to rotate upwards towards a folded position. Stated differently, the hydraulic actuator 432 induces a moment within the rear portion 366 about the pivot pin or pivot point 488, which moment functions to assist the user in lifting the rear portion 366 and folding the elliptical exercise machine into a compact configuration.
The assist mechanism may further be configured to provide assistance in folding the elliptical exercise machine into its compact configuration, as well as unfolding the elliptical exercise machine from its compact configuration into its unfolded position for use. In other words, the present invention contemplates an assist mechanism that comprises a dual assist function, or a bi-directional assist function. It is also contemplated that the assist mechanism may be configured to comprise a single assist function, wherein the assist mechanism provides one-way directional assistance with either the folding or unfolding of the elliptical exercise machine.
The assist mechanism may comprise other types of actuators, such as a pneumatic actuator. In addition, the assist mechanism may comprise a ratchet system operable with the pivot mechanism.
The hydraulic actuator 432 may be supported on the outside of the second piece 376 of the longitudinal support beam 374 or within the interior tubing of the second piece 376.
As compared to the aforementioned embodiments, the elliptical exercise machine 400 further comprises a ramp assembly 700 that interconnects the first and second swing arms 602 and 622 to the first and second foot supports 614 and 644, respectively, by means of first and second ramps 702 and 704 (or guide rails) of the ramp assembly 700, first and second link arms 706 and 708, the respective second ends 632 and 652 of each of the first and second foot supports 614 and 644, a respective first pivot point 710 and 712 where each swing arm 602 and 622 connects with each link arm 706 and 708, and a respective second pivot point 714 and 716 where each link arm 706 and 708 connects with each foot support 614 and 644.
In operation, when the user, for example, moves his or her foot such that the second foot support 644 moves forward, the second end 652 of foot support 644 slides forward along and inside guide rail 704. Second pivot point 716 is situated on the underside of foot support 644. As foot support 644 moves forward, so does pivot point 716, and because pivot point 716 is connected to link arm 708 it too moves forward, thereby also causing swing arm 622 to rotate such that the handle 624 of the swing arm 622 moves toward the user, as each swing arm pivots about anchors 606 and 626, respectively. The other side of the exercise machine, i.e., the side with respect to foot support 614 operates in identical fashion as that just described with respect to foot support 644 but out of phase by 180 degrees as dictated by drive assembly 612.
As with the other embodiments set forth above, the exercise machine 400 folds in accordance with the principles of the present invention.
Similar to the exercise machine 10, the base support structure 670 of the exercise machine 400 comprises a front portion 672 and a rear portion 674, separated by a pivot mechanism 673. Also similar to exercise machine 10, the drive assembly 612 of the exercise machine 400 is situated on top of the rear portion 674 of the base support structure 670. Similar to operation of exercise machine 10, to fold the exercise machine 400, the user first disengages the foot supports 614 and 644 from the struts 613 and 615, respectively, of the drive assembly 612 and temporarily affixes the foot supports 614 and 644 to the upright support structure 686, as shown in
As shown in
Although not shown here, the pivoting mechanism 673 of exercise machine 400 further comprises a stop or limiting system, as shown in
The locking mechanism 680 may take many forms. The locking mechanism 680 shown in
Upon completion of an exercise session, or for one or more other purposes, the elliptical exercise machine 10 may be folded into a more compact configuration for easy storage or transport. This is accomplished by releasing or detaching each of the reciprocating foot supports from the drive components and rotating them upward out of the way and temporarily coupling them to the anchors on the upright support. Once the reciprocating foot supports are detached and out of the way, the base support structure is caused to breakaway and the rear portion folded upward and toward the front portion as discussed herein.
The foregoing detailed description describes the invention with reference to specific exemplary embodiments. However, it will be appreciated that various modifications and changes can be made without departing from the scope of the present invention as set forth in the appended claims. The detailed description and accompanying drawings are to be regarded as merely illustrative, rather than as restrictive, and all such modifications or changes, if any, are intended to fall within the scope of the present invention as described and set forth herein.
More specifically, while illustrative exemplary embodiments of the invention have been described herein, the present invention is not limited to these embodiments, but includes any and all embodiments having modifications, omissions, combinations (e.g., of aspects across various embodiments), adaptations and/or alterations as would be appreciated by those in the art based on the foregoing detailed description. The limitations in the claims are to be interpreted broadly based on the language employed in the claims and not limited to examples described in the foregoing detailed description or during the prosecution of the application, which examples are to be construed as non-exclusive. For example, in the present disclosure, the term “preferably” is non-exclusive where it is intended to mean “preferably, but not limited to.” Any steps recited in any method or process claims may be executed in any order and are not limited to the order presented in the claims. Means-plus-function or step-plus-function limitations will only be employed where for a specific claim limitation all of the following conditions are present in that limitation: a) “means for” or “step for” is expressly recited; b) a corresponding function is expressly recited; and c) structure, material or acts that support that structure are expressly recited. Accordingly, the scope of the invention should be determined solely by the appended claims and their legal equivalents, rather than by the descriptions and examples given above.
This is a continuation-in-part application of (i) U.S. patent application Ser. No. 11/155,328, entitled “Breakaway or Folding Exercise Machine,” filed Jun. 16, 2005, which is hereby incorporated herein in its entirety by reference.
Number | Date | Country | |
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20070129218 A1 | Jun 2007 | US |
Number | Date | Country | |
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Parent | 11155328 | Jun 2005 | US |
Child | 11549530 | Oct 2006 | US |
Parent | 10916684 | Aug 2004 | US |
Child | 11155328 | Jun 2005 | US |