US20160236032A1 - Stowable lower body fitness apparatus providing enhanced muscle engagement, body stability and range of motion - Google Patents
Stowable lower body fitness apparatus providing enhanced muscle engagement, body stability and range of motion Download PDFInfo
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- US20160236032A1 US20160236032A1 US14/876,810 US201514876810A US2016236032A1 US 20160236032 A1 US20160236032 A1 US 20160236032A1 US 201514876810 A US201514876810 A US 201514876810A US 2016236032 A1 US2016236032 A1 US 2016236032A1
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B23/00—Exercising apparatus specially adapted for particular parts of the body
- A63B23/035—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously
- A63B23/04—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously for lower limbs
- A63B23/0482—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously for lower limbs primarily by articulating the hip joints
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/02—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using resilient force-resisters
- A63B21/04—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using resilient force-resisters attached to static foundation, e.g. a user
- A63B21/0442—Anchored at one end only, the other end being manipulated by the user
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- A—HUMAN NECESSITIES
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- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/02—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using resilient force-resisters
- A63B21/055—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using resilient force-resisters extension element type
- A63B21/0552—Elastic ropes or bands
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- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/06—User-manipulated weights
- A63B21/062—User-manipulated weights including guide for vertical or non-vertical weights or array of weights to move against gravity forces
- A63B21/0626—User-manipulated weights including guide for vertical or non-vertical weights or array of weights to move against gravity forces with substantially vertical guiding means
- A63B21/0628—User-manipulated weights including guide for vertical or non-vertical weights or array of weights to move against gravity forces with substantially vertical guiding means for vertical array of weights
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- A63B21/15—Arrangements for force transmissions
- A63B21/151—Using flexible elements for reciprocating movements, e.g. ropes or chains
- A63B21/154—Using flexible elements for reciprocating movements, e.g. ropes or chains using special pulley-assemblies
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- A63B21/40—Interfaces with the user related to strength training; Details thereof
- A63B21/4001—Arrangements for attaching the exercising apparatus to the user's body, e.g. belts, shoes or gloves specially adapted therefor
- A63B21/4011—Arrangements for attaching the exercising apparatus to the user's body, e.g. belts, shoes or gloves specially adapted therefor to the lower limbs
- A63B21/4013—Arrangements for attaching the exercising apparatus to the user's body, e.g. belts, shoes or gloves specially adapted therefor to the lower limbs to the ankle
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- A63B21/40—Interfaces with the user related to strength training; Details thereof
- A63B21/4041—Interfaces with the user related to strength training; Details thereof characterised by the movements of the interface
- A63B21/4043—Free movement, i.e. the only restriction coming from the resistance
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- A63B21/00058—Mechanical means for varying the resistance
- A63B21/00069—Setting or adjusting the resistance level; Compensating for a preload prior to use, e.g. changing length of resistance or adjusting a valve
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- A63B21/02—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using resilient force-resisters
- A63B21/055—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using resilient force-resisters extension element type
- A63B21/0552—Elastic ropes or bands
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- A63B21/16—Supports for anchoring force-resisters
- A63B21/169—Supports for anchoring force-resisters for anchoring on or against a wall
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- A63B21/40—Interfaces with the user related to strength training; Details thereof
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- A63B21/4039—Specific exercise interfaces contoured to fit to specific body parts, e.g. back, knee or neck support
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- A63B2208/00—Characteristics or parameters related to the user or player
- A63B2208/02—Characteristics or parameters related to the user or player posture
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- A63B2208/0209—Standing on the feet on a single foot
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- A63B2209/00—Characteristics of used materials
- A63B2209/10—Characteristics of used materials with adhesive type surfaces, i.e. hook and loop-type fastener
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- A63B2210/00—Space saving
- A63B2210/50—Size reducing arrangements for stowing or transport
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- A63B23/00—Exercising apparatus specially adapted for particular parts of the body
- A63B23/035—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously
- A63B23/04—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously for lower limbs
- A63B23/0482—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously for lower limbs primarily by articulating the hip joints
- A63B23/0488—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously for lower limbs primarily by articulating the hip joints by spreading the legs
Definitions
- This invention relates generally to fitness equipment, and more particularly to lower body fitness equipment.
- toned and shapely buttocks and legs have also become desirable due to their perceived physical attractiveness.
- the market for lower body exercise machines and devices has grown in recent years, especially among women. Many such machines and devices are known in the art.
- One class of exercise machine for the buttocks involves a resistance-transmitting line, such as a weight machine cable, coupled at a pullable end with a user's leg.
- a resistance-transmitting line such as a weight machine cable
- Lower body fitness machines that are designed as cable machines can continuously transmit resistance during extension and/or abduction of the user's hip, which in turn can work the gluteal muscles and enhance sculpting of the buttocks.
- an improved stowable lower body fitness apparatus which provide enhanced gluteal muscle engagement, body stability and range of motion. Unlike other known machines for lower body exercise, the present invention safely and efficiently provides maximal engagement of all gluteal muscles, sparing the user from undue discomfort and/or wasted effort in the process.
- the improved performance of the present invention is facilitated by the strategic placement of a compact cable-swiveling assembly that enables a resistance-transmitting line to swivel about a vertical swivel axis.
- a gripping device is positioned relative to the swivel axis to allow for effective and even exercise of the entire buttocks, along with increased range of motion and continuous proper stability and body alignment.
- the frame of this apparatus is capable of folding down into a state that is substantially parallel with and adjacent to the base, such that the apparatus can be stowed away to avoid wasting space when it is not in use. This enables home users to exercise their gluteal muscles with the highest efficiency possible, but without the need for large and costly equipment continuously taking up room in their home.
- the invention is a stowable lower body fitness apparatus, comprising: a base; a frame coupled to and supported by the base, the frame being capable of collapsing into a stowable position that is substantially adjacent to and substantially parallel with the base; a cable-swiveling assembly coupled with the base, the cable-swiveling assembly being configured to engage with a resistance-transmitting cable, to enable a pullable end of the cable to swivel about a vertical swivel axis to allow a user to pull the pullable end with an exercising leg to perform any combination of hip extension and hip abduction from a single standing position; a gripping device connected to the frame, the gripping device including a plurality of grippable areas positioned along a substantially horizontal grip locus, the grip locus being sufficiently positioned relative to the swivel axis to allow the user to stabilize themselves in a tripod posture formed by both arms and a standing leg during the any combination of hip extension and hip abduction; and
- the cable-swiveling assembly and the frame are configured to enable a user to pull the pullable end of the cable with an exercising leg to perform hip flexion.
- the apparatus further comprises a resistance adjustment system.
- the cable-swiveling assembly includes a swiveling pulley coupled with the resistance-transmitting cable, the swiveling pulley being free to swivel about the swivel axis.
- the apparatus further comprises an intermediate guiding pulley positioned no higher than substantially hip height.
- the apparatus further comprises a resistance-activating pulley assembly coupled with the frame, the resistance-activating pulley assembly being configured to engage with the resistance-transmitting cable to facilitate activation of a resistance-generating element.
- resistance transmitted by the resistance-transmitting cable is generated by lifting of an exercise weight that is connected to a resistance-bearing end of the resistance-transmitting cable. In some embodiments, the resistance transmitted by the resistance-transmitting cable is generated by stretching of an elastic resistance band that is connected to a resistance-bearing end of the resistance-transmitting cable.
- the resistance transmitted by the resistance-transmitting cable is generated by bending of a flexible resistance rod that is connected to a resistance-bearing end of the resistance-transmitting cable. In some embodiments, the resistance transmitted by the resistance-transmitting cable is generated by twisting of a torsional resistance disc that is connected to a resistance-bearing end of the resistance-transmitting cable.
- the pullable end of the resistance-transmitting cable is connected to a lower extremity receiving device, the lower extremity receiving device being configured to receive the user's lower extremity and thereby engage with the user's leg.
- the gripping device is configured to support a user during hip adduction.
- the gripping device includes a straight bar positioned along a horizontal grip axis.
- the gripping device includes a plurality of handlebars positioned along the grip locus.
- the gripping device includes two grippable areas positioned substantially at least shoulders width apart along the grip locus.
- the grip locus is substantially at least forearm length from the swivel axis. In some embodiments, the gripping device is height-adjustable. In some embodiments, the apparatus further comprises a swivel-grip displacement adjustment system, the swivel-grip adjustment system being configured to enable adjustment of displacement between the swivel axis and the grip locus.
- the invention is a stowable lower body fitness apparatus, comprising: a base; a frame coupled to and supported by the base, the frame being capable of collapsing into a stowable position that is substantially parallel with and adjacent to the base; a swiveling pulley coupled with the base, the swiveling pulley being configured to engage with a resistance-transmitting cable, to enable a pullable end of the cable to swivel about a vertical swivel axis to allow a user to pull the pullable end with an exercising leg to perform full range of motion for any combination of hip extension and hip abduction under resistance from a single standing position that substantially straddles the swivel axis; a weightlifting pulley assembly coupled with the frame, the weightlifting pulley assembly being configured to engage with the cable to facilitate lifting of a liftable exercise weight when the pullable end is pulled with sufficient force; a gripping device connected to the frame, the gripping device including
- the invention is a stowable lower body fitness apparatus, comprising: a base; a frame coupled to and supported by the base, the frame being capable of collapsing into a stowable position that is substantially parallel with and adjacent to the base; a swiveling pulley coupled with the base, the swiveling pulley being configured to engage with an resistance-transmitting cable, to enable a pullable end of the cable to swivel about a vertical swivel axis to allow a user to pull the pullable end with an exercising leg to perform full range of motion for any combination of hip extension and hip abduction under resistance from a single standing position that substantially straddles the swivel axis; a band-stretching pulley assembly coupled with the frame, the band-stretching pulley assembly being configured to engage with the cable to facilitate stretching of an elastic resistance band when the pullable end is pulled with sufficient force; a gripping device connected to the frame, the gripping
- FIGS. 1-2 introduce an illustrative embodiment and basic functional framework of the invention, specifically:
- FIG. 1 is a front oblique view of an illustrative embodiment of the use-for-exercise aspect of the present invention
- FIG. 2 is a perspective view of a functional framework of the illustrative embodiment.
- FIGS. 3-12 introduce exemplary machine embodiments of the invention, specifically:
- FIG. 3 is a front oblique view of a possible commercial embodiment of the invention with a hinged mono-tube design
- FIG. 4 is a profile view of the embodiment of FIG. 3 being used to fully perform hip flexion;
- FIG. 5A depicts a user 500 using the previous embodiment 300 to perform hip extension
- FIG. 5B is a top view of the embodiment of FIG. 3 being used to perform simultaneous hip extension and abduction;
- FIG. 5C is a top view of the embodiment of FIG. 3 being used to perform hip abduction;
- FIG. 5D is a top view of the embodiment of FIG. 3 being used to perform hip adduction
- FIG. 6 is a front oblique view of the embodiment of FIG. 3 with its frame fully collapsed into a stowable position;
- FIG. 7 is a front oblique view of an embodiment of the invention with a three legged frame
- FIG. 8A is a front oblique view of the embodiment of FIG. 7 being used to perform hip extension;
- FIG. 8B is a front oblique view of the embodiment of FIG. 7 being used to perform hip abduction;
- FIG. 9A is a front oblique view of the embodiment of FIG. 7 with its frame being collapsed down into a stowable position;
- FIG. 9B is a front oblique view of the embodiment of FIG. 7 with its frame fully collapsed into the stowable position;
- FIG. 9C is a perspective view of the embodiment of FIG. 7 having been stowed against a wall;
- FIG. 10A is a front oblique view of an embodiment of the invention including an elastic band whose length and tension can be adjusted along a telescoping arm;
- FIG. 10B is a profile view of the embodiment of FIG. 10A ;
- FIG. 10C is a front oblique view of the embodiment of FIG. 10A with its frame fully collapsed into a stowable position;
- FIG. 11A is a front oblique view of an embodiment of the invention including a horizontally compounded elastic band whose tension can be adjusted by a hand crank;
- FIG. 11B is a rear view of the embodiment of FIG. 11A ;
- FIG. 11C is a front oblique view of the embodiment of FIG. 11A with its frame fully collapsed in the stowable position;
- FIG. 12A is a front oblique view of an embodiment of the invention that can use the resistance of a general purpose exercise machine.
- FIG. 12B is a front oblique view of the embodiment of FIG. 12A with its frame fully collapsed into a stowable position.
- the gluteal muscles are often considered the powerhouse of the body and an essential part of the body's “core,” and as such, they are of central focus in strength training and physical fitness. Toning of the gluteal muscles also holds substantial aesthetic appeal, particularly for female physiques. However, traditional exercises for targeting the gluteal muscles require weightlifting in a variety of difficult and/or uncomfortable postures.
- FIGS. 1-2 introduce an illustrative embodiment and basic functional framework of the invention, specifically: FIG. 1 is a front oblique view of an illustrative embodiment of the use-for-exercise aspect of the present invention; and FIG. 2 is a perspective view of a functional framework of the illustrative embodiment.
- FIG. 1 is a front oblique view of an illustrative embodiment of the use-for-exercise aspect of the present invention.
- the embodiment shown 100 includes a base 102 , a frame 104 attached to and supported by the base 102 , a line-swiveling assembly 106 coupled with the base 102 , a gripping device 108 connected to the frame 104 , and a leaning space 110 that allows a user to lean their upper body for full range of exercise motion during any combination of hip extension and hip abduction, while under continuous resistance.
- This embodiment 100 is shown mainly for illustrative purposes. It is a simple abstract representation of one of the most basic structurally feasible embodiments that supports a core functional objective of the invention. A “functional framework” for enabling this core objective is explicated further in connection with FIG. 2 , below.
- the functional framework is a functional arrangement of key elements which enable a user to achieve full range of motion for any combination of hip extension and hip abduction, all from a single stance.
- the key elements and their relative position to each other make up the functional framework, which is present in this illustrative embodiment 100 and is analyzed in isolation in FIG. 2 .
- the functional framework can be manifest in many different structural designs, of which the embodiments shown, taught and described in relation to FIGS. 3-12 are but a few possibilities.
- the single stance from which a user can perform all manner of hip extension and hip abduction exercises is a central stance that substantially straddles the swivel axis 116 .
- a user can be said to be substantially “straddling” the swivel axis 116 if they are standing with substantially one leg on either side of the swivel axis 116 . From this single stance, any combination of hip extension and hip abduction can be properly performed, with full range of motion of either leg.
- the gripping device 108 includes a plurality of grippable areas positioned along a substantially horizontal grip locus 112 , extended here for illustrative purposes.
- the grip locus 112 is the locus passing through all grippable areas, terminating at the outermost grippable areas. It is shown here as a grip axis, positioned relative to the line-swiveling assembly 106 to allow a user to lean forward during exercise to properly stabilize themselves through any combination of hip extension and hip abduction movements.
- the grip locus 112 can be angled or curved instead of a straight axis.
- the line-swiveling assembly 106 is configured to engage with a resistance-transmitting line 114 to enable a pullable end of the line to swivel about a vertical swivel axis 116 , allowing a user to pull the pullable end with an exercising leg to perform full range of motion for any combination of hip extension and hip abduction under resistance, from a single standing position that substantially straddles the swivel axis 116 .
- an inelastic weight-bearing resistance cable is being used.
- the line-swiveling assembly 106 comprises a swiveling pulley that is free to swivel about a vertical swivel axis 116 .
- the pulley 106 is attached directly to the base 102 , but can also be attached to the frame 104 or other connecting structure.
- the line 114 is fed into the swiveling pulley 106 substantially vertically and perpendicular to the initial direction of pulling, which is what enables its pullable end to swivel freely about the swivel axis 116 .
- the swiveling pulley shown 106 is able to swivel in a full circle about the swivel axis 116 , thereby allowing the pullable end of the line 114 to swivel along a swivel arc 118 about the swivel axis 116 .
- the unobtrusive pulley 106 guides the pullable end in a swivel arc 118 of considerably tight radius, ensuring that a user can accomplish all hip motions from a single stance that substantially straddles the swivel axis 116 , and under continued resistance through their entire range of motion.
- the resistance-transmitting line 114 is then guided across the frame 104 .
- the frame 104 includes a vertical support post 120 attached to the base 102 , and a diagonal boom 122 attached to and supported by the support post 120 .
- the line 114 is guided along the inside of the boom 122 by a resistance-activating pulley assembly, which in this case is a “weightlifting” pulley assembly comprised of a lower boom pulley 124 and an upper boom pulley 126 , after which the cable 114 then connects to weight 128 .
- the resistance-transmitting line 114 is a weight machine cable configured to lift weight 128 in cooperation with a weightlifting pulley assembly 124 , 126 coupled with the frame 104 .
- the line 114 can transmit resistance generated by other means, such as: via the stretching of an elastic band; or by the bending of a resistance rod (also known as a tension rod), for example. Still other resistance-generating elements may occur to one of ordinary skill in the art.
- the weight 128 can be held steady by a stabilizing cable 130 that runs adjacent to the weightlifting cable's weighted portion 132 (the portion dropping vertically from the upper boom pulley 126 to the weight 128 ).
- the stabilizing cable 130 can be anchored at its top end to the upper end of the diagonal boom 122 , and at its bottom end to the base 102 .
- This stabilizing cable 130 prevents the weight 128 from swaying off its vertical axis, and thereby becoming destabilized. In designs without the stabilizing cable, the user's form has to be more precise to prevent sway of the weight suspended freely from the cable.
- the elastic resistance band can provide linear variable resistance, engaging the muscles with greater resistance as the muscle's own strength capacity increases. This can lead to increased benefits during gluteal exercise. Inclusion of elastic band is taught and described in greater detail below, in connection with FIGS. 10 and 11 .
- the swiveling pulley 106 of this embodiment is free to fully rotate in its horizontal plane, and also to tilt in its orientation. It is unobtrusive enough to enable a user to stand in close proximity to and straddle the swivel axis 116 . While not exercising, the user can stand in a single neutral stance with no resistance applied. However, even a small displacement of the exercising leg for hip extension and/or abduction can generate resistance.
- this versatile swiveling pulley 106 functions as an enhanced line-swiveling assembly, whereby the user is able to perform the full range of any combination of hip extension and hip abduction under continued resistance, while also returning to the same neutral stance at the end of a given set of leg motions. Such convenience is not made available by line-swiveling assemblies typically found in the art of lower body fitness machines.
- the line-swiveling assembly 106 also can allow for nearly all degrees of flexion for anterior musculature strengthening that goes beyond enhancement of the gluteal muscles. And with every available motion, the neutral standing position itself encounters no resistance, yet a slight displacement in any direction immediately does yield resistance. This feature is optimal for exercise yet not available in conventional gluteal exercise machines.
- Ease of exercise can be further enhanced by a lower extremity receiving device (hereinafter referred to as “LERD”) 134 attached to the line's pullable end.
- the LERD 134 includes a loop which can receive a user's foot during exercise.
- a horizontal opening along a distal portion of the loop can be secured around the user's heel during hip extension, while the loop in its entirety can wrap around the side of the user's foot during hip abduction. More highly designed LERDs are described in an accompanying app, and pictured later in this document.
- the customized pulley 106 of FIG. 1 can enable the LERD 134 to rest on the floor.
- the LERD 134 can include structural support that keeps it erect and poised to receive a user's foot, as shown, so that the user can step in and out with ease. This relieves the user from the need to manually engage or disengage the device with their foot, or to change their foot's orientation in the device by hand when changing up sets.
- This illustrative embodiment 100 also includes a boom hinge 138 which enables the distal upper end of the diagonal boom 122 to be folded downwards so the boom collapses adjacent to and parallel with the vertical support post 120 ; as well as a post hinge 140 , which enables the vertical support post 120 to be folded downwards to lie adjacent to and parallel with the base 102 .
- the hinges 138 , 140 can be locked into the closed or open state, to securely fasten the frame in the desired state.
- FIG. 2 is a perspective view of a functional framework of the illustrative embodiment.
- the functional framework 200 is an isolated grouping of key elements of the illustrative embodiment, which together are responsible for enabling a core functional objective of the present invention. Specifically, the geometrical alignment, spatial relationship, and relative positioning of these elements enable a user to perform the full range of motion for any combination of hip extension and hip abduction, all while under continuous resistance, from a single standing location and with ideal posture.
- the line-swiveling assembly 106 in this case is a swiveling pulley. It is configured to engage with the resistance-transmitting line 114 to enable its pullable end to swivel about the swivel axis 116 .
- the swiveling pulley 106 itself is capable of swiveling in a full swivel circle 202 . However, a user need not cross their leg in front of them to extend or abduct their hip. Therefore, the line 114 itself swivels through a swivel arc (see FIG. 1 ) that is bounded at the user's “12-o′-clock” position, where the frame (not shown) itself extends to guide the line 114 .
- the gripping device 108 includes a plurality of grippable areas positioned along a substantially horizontal grip locus 112 , where the grip locus 112 is positioned relative to the swivel axis 116 in a manner that allows a user to stabilize themselves in a “tripod posture” (formed by both arms and a standing leg) during any combination of hip extension and abduction, even when under considerable exercise resistance.
- the grip locus 112 is a horizontal grip axis.
- the grip locus 112 is the locus of points along which all grippable areas lie. It does not actually extend beyond the outermost grippable areas of the gripping device 108 , but as it is depicted and labeled in FIGS. 1 and 2 , it is shown extending beyond the gripping device 108 solely for illustrative purposes.
- the grip locus 112 need not be a straight axis; it may be curved or bent. It can take any shape that would enable a user to perform full range of motion for any combination of hip extension and hip abduction with proper form.
- the gripping device 108 is a grippable bar positioned along a grip axis 112 .
- This design enables a user to engage the gripping device 108 in a manner similar to a ballet bar. All hip and other lower body exercises that a ballet dancer might practice with such a bar would also be available to a user of this embodiment, with the extra benefit of added resistance for more intensely engaging gluteal and/or other lower body muscles.
- the ballet bar 108 is one possible embodiment of the gripping device.
- the gripping device may be a curved rail or a bent rail, while in other embodiments it may include a set of horizontal handlebars, or even a set of vertically oriented handles, for example.
- the gripping device 108 is designed and positioned to allow a user to maintain tripod posture all throughout their exercise.
- the user can be said to be in “tripod posture” if their standing leg adjacent to the swivel pulley and their hands spread sufficiently wide on the grip axis to allow their torso to lean slightly opposite their lifting leg.
- This positioning requires anterior-posterior separation 136 of the grip locus 112 from the swivel axis 116 , allowing their torso to lean slightly opposite their lifting leg.
- This positioning requires anterior-posterior separation 336 of the grip locus 312 from the swivel axis 316 , to allow the user's the three stationary limbs to be widely separated (a theoretical tripod configuration). This confers maximal torso stability to resist the torque of the resistance on the lifting leg. This is an important departure from other machines.
- the swivel-grip separation 136 is made more clearly visible in FIG. 2 by reference to a depth dimension indicator 204 , which indicates the spatial relationship between the swiveling pulley 106 and gripping device 108 .
- a user must contribute a pulling force 206 that is equal and opposite to the force of resistance 208 .
- the forces on either side of the swivel axis 116 must effectively balance, and it is helpful for the user themselves to be balanced about the swivel axis 116 . Since their lower body is posterior to the swivel axis 116 , it can be advantageous for their upper body to be anterior. Similarly, if the lower body moves laterally to one side, the torso can lean slightly to the opposite lateral side as a counterbalance.
- the key functional aspect of the gripping device 108 which allows the user to maintain tripod posture during any combination of hip extension and hip abduction under exercise resistance is its position relative to the cable-swiveling assembly 106 : the grip locus 112 is set apart 136 from the swivel axis 116 . Decoupling 136 these two element alignments 112 , from 116 provides a far more efficient spatial arrangement for the exercise enthusiast than the prior art under consideration.
- the swivel 106 While on the one hand, the grip 112 must be in front of the user, on the other hand, the swivel 106 needs to be positioned at the user's feet, so that the force of resistance is perfectly opposite to and in line with the exercising leg's movement. If the swivel 106 was not placed at the feet but further forward instead, then leg movement during abduction would be complicated by a forward force vector of resistance. This would yield especial difficulty at the beginning of leg movement, when the proportion of the forward vector would be largest.
- the horizontal displacement 136 of the grip locus 112 from the swivel axis 106 is made possible in part by an intermediate guiding pulley 124 , which in FIG. 1 was referred to as a “lower boom pulley.”
- This intermediate guiding pulley 124 occurs in other embodiments shown and discussed herein.
- This pulley 124 is integral to the functional framework 200 . It enables the swiveling pulley 106 to swivel freely by guiding the cable 114 on an acute angle pathway about the swiveling pulley 106 ; but by also guiding the cable 114 into an obtuse angle about itself 124 , it prevents the cable 114 from obstructing the leaning space 110 .
- the intermediate guiding pulley as shown 124 is strategic in its position, being located above the line-swiveling assembly, but no higher than substantially the hip height of a user. But the intermediate guiding pulley 124 need not be located above the swiveling pulley 106 in order to accomplish its key functional objective. For example, in functional frameworks of alternative embodiments, it is possible for an intermediate guiding pulley to be located below the swiveling pulley 106 , such as in the instance of a base thick enough to house a pulley. Such a pulley would still guide the line 114 on a right angle path about the swiveling pulley 106 , but in that case, the line 114 would be directed downward, instead of upward (as shown here).
- the intermediate guiding pulley 124 positioned at or below the user's hip height is a key feature of the functional framework 200 that sets it apart from much of the prior art.
- the design does not introduce an intermediate guiding pulley 124 at or below hip height, because such designs do not prioritize the goal of providing a user with optimal gluteal muscle targeting.
- they include a guiding pulley that is fixed at the top of a long vertical track, which enables the swiveling pulley itself to slide up or down the vertical track and be repositioned at will, depending on the desired exercise (ranging anywhere from shoulder to arm to leg exercise).
- the grip locus 112 is substantially at least forearm length 136 from the swivel axis 116 , thereby enabling strong tripod posture. In other embodiments, the grip locus 112 can be closer to the swivel axis 116 , such as hand length, for example. Also, in some preferred embodiments, the gripping device 108 can be substantially at least hip height above the floor and/or its grippable areas span substantially at least shoulders width, as is the case in FIG. 2 .
- the grip locus 112 must span the proper width.
- the grip locus 112 is defined herein as the locus of points along which all grippable areas lie, and as such, it does not actually extend beyond the outermost grippable areas of the gripping device 108 .
- the grip locus 112 as depicted and labeled in FIGS. 1 and 2 is shown extending beyond the gripping device 108 for illustrative purposes; however, the true grip locus 112 is coextensive with the gripping device 108 , and it terminates where the gripping device 108 itself terminates.
- Part and parcel to the benefit conferred by the swivel-grip separation 136 is the presence of the leaning space 110 that allows a user to lean their upper body forward and take full advantage of the swivel-grip separation 136 , as well as the enhanced stability it affords.
- the leaning space 110 that allows a user to lean their upper body forward and take full advantage of the swivel-grip separation 136 , as well as the enhanced stability it affords.
- the pelvis tilts forward, and increases the available range of hip range of motion by 200%, allowing more gluteal work with each set. This ideal posture is made possible by the synergistic effect of the combination of the leaning space 110 and swivel-grip separation 136 .
- a user is able to comfortably perform any combination of hip extension and abduction from a central standing position that substantially straddles the swivel axis 116 .
- the strategically small swiveling pulley 106 with its tight swivel radius, provides the clearance to enable the user to stand in this central position.
- the user is able to overcome the tension of the line 114 with a perfectly opposing force from their exercising leg, as well as deftly balance their upper body by leaning in the direction perfectly opposite their exercising leg.
- the swivel-grip separation 136 and leaning space 110 work naturally together to promote the user's best posture during gluteal exercise. This enables the user to exercise their gluteal muscles in an efficient and comfortable manner, making the process safer, healthier and more enjoyable. It also promotes superior gluteal muscle building due not only to a greater range of motion, but also to a greater strength capacity of the body when exercising in its normal, healthy and anatomically preferable bearing.
- the embodiment shown offers superior gluteal muscle targeting by enabling a user to execute various leg motions that simultaneously comprise both partial hip extension and partial hip abduction.
- studies indicate that a 45 degree lateral leg movement comprised of half hip extension, half hip abduction, which works the gluteus maximus along the orientation of its fibers, yields optimal results.
- This embodiment and other embodiments discussed below can also enable a user to perform hip rotation, adduction, and even flexion, enhancing their lower body workout even further.
- it also allows for change in the trajectory and/or orientation of the leg within a given repetition, even enabling such movements as kicks or sweeps. All this can be achieved from a single convenient standing position.
- FIGS. 3-12 show exemplary machine embodiments of the invention and its central collapsible and stowable functionalities, specifically: FIGS. 3-6 include views of a streamlined design embodiment, its use and collapsibility; FIGS. 7-9 include views of a three-legged embodiment, its use and collapsibility; FIGS. 10-11 include views of embodiments incorporating an elastic band, their use and collapsibility, and FIG. 12 shows views of an embodiment that cooperates with a general purpose machine.
- FIG. 3 is a front oblique view of a possible commercial embodiment of the invention with a hinged, mon-tube design.
- This embodiment 300 is unique in providing a design that is both robust and streamlined.
- the embodiment 300 includes a base 302 , a frame 304 attached to and supported by the base 302 , a line-swiveling assembly 306 coupled with the base 302 , a gripping device 308 connected to the frame 304 , and a leaning space 310 that allows a user to lean their upper body for full range of hip extension and/or abduction.
- the line-swiveling assembly 306 is a swiveling pulley configured to engage with a resistance-transmitting line 312 to enable a pullable end of the cable 312 to swivel about a vertical swivel axis, thereby allowing a user to pull the pullable end with an exercising leg (via the lower extremity receiving device 314 or “LERD”), to perform full range of motion for any combination of hip extension and hip abduction under resistance, from a single standing position that substantially straddles the swivel axis of the line-swiveling assembly 306 .
- a weight machine cable 312 is being used as a resistance-transmitting line.
- the frame 304 itself includes two angled segments supported and locked into their use-ready relative positions by an elbow buttress hinge 316 .
- the elbow buttress hinge 316 holds together a diagonal boom 318 , and a lower support post 320 to which the boom 318 is hingedly connected.
- the lower support post 320 is in turn supported by a base buttress hinge 322 , and hingedly connected to a baseplate 324 attached to the base 302 .
- the gripping device 308 is mounted to the diagonal boom 318 via a gripping mount 326 which, in this embodiment, includes adjustment features.
- the gripping mount 326 includes a grip-elevation adjustment mechanism 328 , which enables the mount to be positioned at any elevation along the diagonal boom 318 via loosening and retightening of a knurled knob. Adjusting the elevation of the gripping mount 330 along the diagonal boom 318 effectively adjusts the position of the gripping device 308 relative to the user.
- the gripping mount 326 also includes a grip-depth adjustment mechanism 330 , which adjusts the position of the gripping device relative to the axis of the diagonal boom.
- the gripping device 308 is positioned opposite the diagonal boom 318 from the user's perspective.
- the gripping device 308 can be adjusted closer or farther from the diagonal boom 318 , by loosening and retightening a knurled knob against a slidable adjustment fork.
- Grip depth adjustment can be useful for positioning the gripping device 308 for hip flexion exercise, for example.
- the slidable adjustment fork 330 can be fully removed from its sleeve, then inserted back into the sleeve from the opposite (user) side of the boom.
- Both the grip-elevation adjustment mechanism 328 and the grip-depth adjustment mechanism 330 that are located on the gripping mount 326 combine to yield a comprehensive swivel-grip displacement adjustment system, providing the user substantial control over the position of the gripping device 308 including its position relative to the swivel axis, and thus relative to the user.
- the line 312 is a weightlifting cable configured to lift weight when pulled with sufficient force.
- the weightlifting cable 312 is guided across the frame 304 via pulleys. First, it is guided vertically upward from the swiveling pulley 306 to a strategically placed elbow pulley 332 inside the elbow of the frame 304 , acting as an intermediate guiding pulley 332 . It is then guided along the inside of the diagonal boom 318 , where it then encounters a boom pulley 334 at the top of the boom 318 .
- the elbow pulley 332 and boom pulley 334 function together as a weightlifting pulley assembly.
- a stabilizing cable 336 drops down from the top edge of the diagonal boom 318 , running adjacent to the weightlifting cable's weighted portion 338 .
- the weightlifting cable 312 itself drops vertically down from the boom pulley 334 , connecting at its weighted end to liftable weight 340 .
- the stabilizing cable 336 is connected at its top end to the boom 318 and at its bottom end to the base 302 , and is held taut between those anchor points to keep the liftable weight 340 from swinging.
- the liftable weight 340 rests on the weight base 302 when it is not being lifted.
- the embodiment shown 300 achieves a robust but streamlined design. With a frame 304 that is strong but minimal in its mass, this embodiment 300 can function as a weight machine in a home setting, and may be erected and collapsed at will for easy transport, storage and/or setup and use. Such a system of buttress hinges 316 , 322 as shown here allows for collapsing of the frame 304 down to a stowable state that is substantially adjacent with and parallel to the base 302 .
- FIG. 4 is a profile view of the embodiment of FIG. 3 being used to fully perform hip flexion. Relative to gluteal development, flexion exercise capability is different focus, yet an added bonus.
- the narrow width of the frame 304 from the perspective of a user 400 facilitates the performance of any desired hip flexion exercises, as shown. Given that no frame elements extend outside of the narrow profile that is occupied by the lower support post 320 and the diagonal boom 318 , a user's exercising leg can be flexed directly outward and upward, encountering no obstructions along the way.
- a user 400 is using the embodiment of FIG. 3 to perform hip flexion.
- This exercise can be used to target lower body muscles other than the gluteal muscles, such as the iliopsoas, rectus femoris, and tensor fascia latae, as well as the abdominal muscles.
- the user 400 may wish to raise their exercising leg straight in front of them.
- the narrow profile of the frame, and the height-adjustable grip make the full range of such straight hip flexion motion possible.
- the thin width of the central components of the frame 318 , 320 allows for full and unimpeded flexion of the hip-flexing leg.
- the user 400 can flex their hip under resistance from the line 312 by putting the front of their foot through the socket of the LERD 314 . Hip flexion can also be performed swiftly for practicing front kicks under force of resistance.
- This profile view illustrates the value of extending the height of the gripping device 308 , which can be achieved by sliding the gripping mount 326 upwards along the diagonal boom 318 . Due to the relative weakness of flexor muscles, the weight 340 can incrementally be calibrated down as appropriate.
- hip flexion also can be considerably compromised by force vectors orthogonal to the direction of motion of the exercising leg. If the user 400 were not straddling the swivel axis during hip flexion, then the direction in which they pull the line 312 would not be directly away from the swiveling pulley 306 , and there would be a component vector of force that urges the user's exercising leg off course.
- the user 400 is able to straddle the swivel axis due to the low profile design of the swiveling pulley 306 and the frame itself. While in this swivel straddle stance, the user 400 is able to sweep their leg forward with perfect form.
- the user 400 can also just as easily perform any desired combination of hip flexion and abduction, adding as much lateral movement to their exercising leg as they wish. In that sense, flexion extends the continuum of hip exercises that are allowed by the functional framework, to those anterior to abduction. Still no distracting force vectors will result, thanks once again to the unobtrusive design elements 318 , 320 that enable continuous swivel straddle stance.
- FIG. 5 is a top view of the embodiment of FIG. 3 being used to perform a wide spectrum of angular hip exercises. However, this same set of exercises can apply to all embodiments.
- FIG. 5A depicts a user 500 using the previous embodiment 300 to perform hip extension. As discussed above, hip extension is a relatively effective exercise for engaging the gluteus maximus, which is the largest gluteal muscle. It is readily apparent from this view that the user 500 benefits from being able to lean over the swiveling pulley and the gripping device 308 to facilitate maximum extension of their exercising leg 502 .
- FIG. 5B is a top view of the embodiment of FIG. 3 being used to perform simultaneous hip extension and abduction, specifically: half extension, half abduction.
- the hip has been rotated externally, and the exercising leg 502 brought 45 degrees laterally from the Sagittal plane. Because this movement follows the orientation of the gluteus maximus fibers (and thereby also avoids contraction of the hamstrings), it completely engages the gluteus maximus: even more so than with pure hip extension.
- Hip rotation is made possible by the customized lower extremity device (LERD), described in greater detail above.
- External (or lateral) rotation of the hip during leg motions that involve some hip abduction activates the gluteus maximus more so than without rotation of the hip.
- the leg movement shown here is extremely effective in gluteal muscle exercise: in addition to fully engaging the gluteus maximus, the partial hip abduction also strongly engages the gluteus maximus and minimus muscles.
- the grip locus is offset from the swivel axis, enabling the user to lean forward to easily execute full range of motion and yielding far superior muscle activation.
- This unique leg movement (called “the 45°” due to the angle of the trajectory of the exercising leg relative to the Sagittal plane) is the best combination of hip extension and hip abduction for maximally engaging the gluteus maximus, and is also of central importance in effectively engaging all gluteal muscles in general—especially when combined with external hip rotation, as shown. But in the absence of the displacement of the line-swiveling assembly 306 from the gripping device 308 , this key exercise would not be achievable with proper form.
- the user 500 would be compelled to shift their standing position laterally, so that the cable's pathway from the cable-swiveling assembly 306 to the user's foot was in line with the movement of their exercising leg 502 . Otherwise, leg movement would be compromised and distracted by a forward-component to the force vector of resistance. Furthermore, the user 500 would not be able to come to rest at the end of each repetition, for the same reason as noted above in connection with FIG. 5A .
- FIG. 5C is a top view of the embodiment of FIG. 3 being used to perform hip abduction. Since hip abduction heavily engages the gluteus maxims and minimus muscles, it is essential to a well-balanced treatment of gluteal muscle exercise. Proper form requires a wide grip, as shown. Moreover, separation of the grip locus from the swivel axis is absolutely essential for enabling the user to fully abduct their hip.
- Tripod posture is indispensible to proper hip abduction, yet would not be possible without displacement of the swivel axis from the grip axis.
- the user 500 can fully abduct their exercising leg 502 with proper tripod posture, stabilizing themselves with their arms instead of their lower back.
- the customized LERD enables the user to perform hip abduction effectively, without any discomfort to the foot.
- FIG. 5D is a top view of the embodiment of FIG. 3 being used to perform hip adduction. This exercise actually can be used to better target the lowest portion of the gluteus maximus. Because a user 500 must stand to the side of the swivel axis when adducting the hip, in order to keep their exercising leg's 502 motion in line with the line's pathway, a gripping device 1108 of substantial width is advisable, to allow for tripod posture throughout.
- each of the exercises shown (as well as still other exercises, such as hip flexion) can be achieved with perfect form from a single standing position that substantially straddles the swivel axis, with continual resistance applied during the entire duration of the exercise, and resistance is inactive upon cessation of the exercise. This convenience greatly enhances the qualitative experience of gluteal exercise and muscle development.
- FIG. 5 The critical importance of the highly versatile central “swivel straddle” stance, in enabling proper form for all manner of gluteal exercise with a resistance-transmitting line, is immediately apparent in FIG. 5 , and most specifically, FIGS. 5B and 5C .
- the user 500 is clearly able to perform any combination of hip extension and abduction without any distracting tangential force vectors compelling their exercising leg 502 to veer off its intended course. As noted above, this is also the case for any combination of hip abduction and hip flexion (see FIG. 4 ) attempted.
- the swivel straddle stance may seem less important during straight hip extension (see FIG. 5A ). Extension motions conceivably could be executed even if the swiveling pulley 306 were directly below the gripping device 308 , with the user 500 out of swivel straddle stance. But even in this narrow instance, the direction and intensity of the force of resistance is more likely to be discontinuous and disrupted if the user 300 is not straddling the swivel axis.
- FIG. 6 is a front oblique view of the embodiment of FIG. 3 with its frame fully collapsed into a stowable position.
- the lower support post 320 has been folded down to be substantially adjacent to and parallel with the base 302 . It has been released from its locked position within the base buttress hinge 322 so that it may move freely into this collapsed position.
- the diagonal boom 318 has been released from its position in the elbow buttress hinge 322 and folded down against the lower support post 320 .
- the gripping mount 326 can be moved upward along the diagonal boom 318 so that the gripping device 308 is clear of the base buttress hinge 322 . This enables the diagonal boom 318 to fold down fully against the lower support post 320 . In this collapsed configuration, the entire embodiment is now in an easily stowable position. For example, it could be stowed in a closet, under a table or potentially even a bed.
- FIG. 7 is a front oblique view of an embodiment of the invention with a three legged frame.
- the embodiment 700 shares many structural features of the previous embodiment 300 such as its base, swiveling pulley, adjustable gripping device, and some aspects of its frame.
- this frame is unique in its three-legged tripod weightlifting frame design. This design is particularly lightweight, and again is quite easily collapsible and transportable.
- the embodiment shown 700 includes a base 702 , a tripod frame 704 hingedly attached to and supported by the base 702 , a line-swiveling assembly 706 coupled with the base 702 , a gripping device 708 connected to the frame 704 , and a leaning space 710 that allows a user to lean their upper body for full range of exercise motion during any combination of hip extension and hip abduction, while under continuous resistance.
- the line-swiveling assembly 706 is a pulley configured to engage with a resistance-transmitting line 712 to enable a pullable end of the line 712 to swivel about a vertical swivel axis, thereby allowing a user to pull the pullable end with their leg via a lower extremity receiving device 714 , or “LERD,” to perform full range of motion for any combination of hip extension and abduction.
- LLD lower extremity receiving device
- the resistance-transmitting line 712 is guided across the frame 704 along a pathway that runs along a diagonal boom 716 that is defined by a series of pulleys.
- Supporting the diagonal boom 716 are two front legs 716 , 718 and a central rear leg 720 , all attached to the base via hinges 717 , 719 , 721 . These legs converge to provide structural support to the diagonal boom 716 .
- a trapezoidal support plate 722 is attached to an upper portion of the front of the two front legs 716 , 718 and spans the space between them, and it also abuts the underside of the gripping device 708 , supporting it from below.
- This support plate 722 adds a critical element of structural integrity of the entirety of the frame 704 , in its erected-for-use state.
- a metal crossbar 724 extends from the rear leg 720 , through a hole in the plate 722 , and over to the proximal portion of the diagonal boom 716 , for still further frame support.
- the diagonal boom 716 is attached to the front legs 716 , 718 via a knurled knob connector set, which secures the boom 716 tightly in its diagonal position relative to the front legs 716 , 718 , but may be loosened to act as a hinge, and facilitate collapse.
- the rear leg 720 is coupled to the diagonal boom via a sliding chamber 726 . During collapse, it can act as a hinge relative to the rear leg 720 and it can slide up the diagonal boom 716 . When set for use, it is locked securely to the position of the boom 716 , by way of a locking pin.
- the line 714 is guided across the frame 704 .
- the line 714 is guided vertically upward from the swiveling pulley 706 to an intermediate guiding pulley (not shown) located at the proximal end of the diagonal boom 716 , and then diagonally upward along the boom 716 to an upper pulley (not shown) at the boom's 716 distal end, after which the line drops to connect to liftable weight 728 .
- the pair of boom pulleys (not shown here) together comprise a weightlifting pulley assembly.
- the line 714 is a weight machine cable configured to lift weight 728 in cooperation with the weightlifting pulley assembly, and the weight 728 to be lifted is a container of water.
- This type of weight complements the portable design of the apparatus itself.
- the container can be emptied and easily stored with the apparatus.
- a metric on the container 728 can indicate weight according to volume of water filled.
- FIGS. 8A and 8B are front oblique views of the embodiment of FIG. 7 being used to perform hip extension and hip abduction, respectively.
- This pair of images graphically illustrates the importance of hip abduction as a supplement to hip extension, for the purpose of attaining a fully sculpted and shapely buttock contour, as well as maximally strengthening the gluteal musculature and thereby also the body's core.
- FIG. 8A is a front oblique view of the embodiment of FIG. 7 being used to perform hip extension.
- Hip extension is an efficient movement for exercising the largest gluteal muscle, the gluteus maximus.
- a user 800 leans to shift their weight forward and assume tripod posture with both arms 802 and their standing leg 804 , as the fully extend their exercising leg 806 back. As a result, the gluteus maximus 808 of the exercising leg 806 is engaged.
- the LERD 714 includes a loop into which a user can step to insert their foot.
- a horizontal opening along a distal portion of the loop receives the user's heel, enabling the LERD 714 to remain securely attached around their foot and ankle during leg motion primarily involving hip extension.
- the LERD 714 enables full range of hip extension, without restricting the user's natural tendency to point their toes downward as the leg extends.
- hip extension does not exercise the gluteus maximus 808 along the precise orientation of its fibers, nor does it even engage all of the gluteal muscles (in particular, the gluteus maxims and gluteus minimus are not significantly targeted during “pure” hip extension, that is: hip extension that is not at all accompanied by hip abduction). At least some hip abduction (plus external rotation of the hip) is needed to fully activate the gluteus maximus 808 , and indeed substantial hip abduction is required to activate the glueus maxims and minimus muscles.
- FIG. 8B is a front oblique view of the embodiment of FIG. 7 being used to perform hip abduction.
- the ability to abduct the hip is indispensible in developing one's gluteal musculature.
- Straight abduction (shown here) works the gluteus medius and minimus muscles 809 , thereby leading to more balanced buttock strengthening and development, and more well-rounded appearance.
- Strategically combining hip extension with hip abduction can exercise all gluteal muscles 808 , 809 with maximum efficiency.
- the user can insert their foot partially into the LERD 714 so the entire distal portion of its loop wraps around the outside of their foot (rather than surrounding the heel, as in FIG. 8A ), shown in FIG. 8B .
- This technique helps to support more of the user's outer foot during hip abduction, than in the case of leg motion comprised predominantly of hip extension, where the lower leg can more easily absorb the majority of the force of resistance transmitted from the line 712 .
- the versatile design of the LERD 714 provides a secure central attachment to the exercising foot during any combination of hip extension and hip abduction—even abduction that includes external hip rotation (which is particularly beneficial to gluteal maximus strengthening).
- the central attachment enables the line 712 to be guided perpendicularly away from the orientation of the foot of the abducting leg, without in any way interfering with proper form for hip abduction exercise.
- the design of the present embodiment 700 greatly facilitates proper form for hip abduction, just as it does so for hip extension.
- the user 800 can lean forward and assume stable tripod posture with a wide grip 802 near pelvis height, thus avoiding the strain of torsion or arching of their back.
- the LERD 714 enables the user 800 to abduct their hip without the lateral force from the cable 712 pulling the front of their foot inward.
- FIGS. 8A and 8B illustrate the wide variety of hip and leg motion that can be executed safely and with proper form under resistance, when using the embodiment 700 .
- Hip extension as shown in FIG. 8A hip abduction as shown in FIG. 8B , and/or any combination thereof, can be performed with proper balance and optimal body mechanics.
- This versatility is due to the user's tripod posture, enabled by the horizontal spatial separation between the grip bar 708 and the swiveling pulley 706 , as well as by the leaning space 710 above the frame.
- tripod underscores the enhanced stability of this specific posture that is produced by the user's two arms 802 and their standing leg 804 during exercise. Its execution depends on the swivel-grip separation. If the grip locus was not separated anteriorly from the swivel axis, then the user's grip would not be anterior to their standing leg, and thus they would not be leaning forward and/or downward with their grip. In that case, they could not be said to be in tripod posture.
- Tripod posture further enables a user to lean away from their exercising leg to enable it to exert its full range of motion, thereby activating their gluteal muscles to the greatest extent. It also distributes the user's mass more evenly, thereby providing superior balance. Finally, by enabling the user to appropriately tilt their torso and shift more weight to their shoulders, it minimizes the potential strain on their lower back.
- the present invention enables a user to lift more weight and perform more assertive movements than other forms of gluteal exercise generally allow. Furthermore, the ergonomic form and posture supported by the present embodiment facilitates gluteal exercise through straight-legged hip extension and hip abduction movements, thereby minimizing joint strain as well.
- FIGS. 8A & 8B highlight well the versatility of this swivel straddle stance.
- the user 800 exercises, they can extend and/or abduct either exercising leg 806 directly outward from the swiveling pulley 806 in whichever direction they wish, with no force vectors pulling them off course and no need to apply torque with their body.
- the user 800 can change up their exercise motion without having to alter their standing position, without having to contend with resistance from the cable 712 while resting in that position.
- the weightlifting pulley assembly is shown: the intermediate guiding pulley 810 at the proximal end of the boom 716 , and the upper boom pulley 812 at the distal end of the boom 716 .
- the structural integrity of the frame tripod 814 is visible here, as the user 800 leans into the approximate center of the gripping bar 708 in every exercise they perform. All legs and the extra frame supports converge to provide maximal structural integrity to this central region.
- a similar tripod frame can be constructed that is the converse of what is shown here: a pair of rear legs and a single central front leg. While such a tripod configuration would not have the same ease of collapsibility, it could enable the user 800 greater freedom of motion for hip flexion exercise, for example. However, the current design enables a “slide lock” collapsible frame functionality that is explored further in the next set of figures.
- FIG. 9A is a front oblique view of the embodiment of FIG. 7 with its frame being collapsed down into a stowable position.
- This figure represents a partially erected, partially collapsed state of the frame: as such, it can be considered an intermediate stage in preparation for either setup for use, or collapse for stowing. It is therefore just as instructive for understanding how the frame can be erected and readied for use from an initially collapsed position, as in understanding collapse from an erected position.
- the water container 728 can be alternately engaged with and disengaged from a terminal locking gate 900 at the load-bearing end of the line 712 , for use and storage respectively. Furthermore, the water can be emptied from the container 728 and the container can be folded for easy storage and/or transport.
- the container can be made of strong but deformable plastic, which can easily fold between the frame 704 and base 702 when in the collapsed state, for example.
- the boom 716 can be disengaged from its fixed position relative to the rear leg 720 by releasing the locking pin 902 and unlocking the sliding chamber 726 . Once unlocked, the sliding chamber 726 is free to slide relative to the boom shaft 716 .
- the metal crossbar 724 is disengaged from the boom 716 by releasing the hook on the metal crossbar 724 from its corresponding mating element (not shown) on the boom 716 . This frees the boom 716 to fold down relative to all three tipod legs 716 , 718 , 720 .
- FIG. 9B is a front oblique view of the embodiment of FIG. 7 with its frame fully collapsed into the stowable position.
- the locking pin 902 that was released from the sliding chamber 726 (thereby enabling the chamber to slide relative to the boom 716 ) can now be used to secure the frame to the base 702 .
- the rear leg 720 is shown here receiving the locking pin 902 , which is driven through the rear leg and into the base 702 itself. The entire embodiment is collapsed to a thin profile.
- FIG. 9C is a perspective view of the embodiment of FIG. 7 stowed against a wall.
- this embodiment 700 offers many storage options. A frequent user may wish to simply stow it against a wall 904 , for example in an exercise area. Wheels 906 , 907 are shown in this embodiment as design options for easy transport. If towed by the grip bar 708 , the base 702 can be supported by the collapsed frame as it is rolled.
- FIG. 10A is a front oblique view of an embodiment of the invention including an elastic band whose tension can be adjusted along a telescoping arm.
- the embodiment 1000 shares many structural features of the previous embodiments such as its base, swiveling pulley, adjustable gripping device, and some aspects of its frame. However, this frame is unique in its telescoping arm for elastic resistance. This elastic resistance design is robust but also quite easily collapsible and transportable.
- the embodiment shown 1000 includes a base 1002 , a frame 1004 hingedly attached to and supported by the base 1002 , a line-swiveling assembly 1006 coupled with the base 1002 , a gripping device 1008 connected to the frame 1004 , and a leaning space 1010 that allows a user to lean their upper body for full range of exercise motion during any combination of hip extension and hip abduction, while under continuous resistance from the line 1012 .
- the frame 1004 itself includes such sub-elements as a vertical support post 1016 connected to and supported by the base 1002 , the grip support bar 1008 coupled with and supported by the support post 1016 , and a telescoping elastic band arm 1020 (with an extension 1022 ) attached to and arising from the base 1002 .
- the frame 1004 also includes a pulley cross arm 1018 which extends from the elastic band arm 1020 across the vertical support post 1016 and beyond, hovering above the swiveling pulley 1006 .
- the swiveling pulley 1006 engages with a resistance-transmitting line 1012 , which can be pulled with an exercising leg via the lower extremity receiving device (LERD) 1014 .
- the line 1012 is guided vertically upward from the swiveling pulley 1006 to a strategically placed frontal guiding pulley 1024 (the intermediate guiding pulley according to the functional framework) located at the front terminus of the pulley cross bar, and then guided across the frame 1004 : horizontally to a rear guiding pulley 1026 , located near the rear terminus of the pulley cross arm 1018 .
- the line 1012 is guided vertically upward along the telescoping arm 1020 and its extension 1022 , to ultimately connect to an elastic resistance band 1028 via a connecting element, such as a ring or locking loop.
- the elastic resistance band 1028 itself runs around an elastic band pulley 1030 attached to an distal portion of the arm extension 1022 , and then drops down to connect with an elastic band anchor 1032 (which is connected to the bottom of the telescoping arm 1020 , near the base 1002 ).
- the telescoping arm 1020 is hingedly attached to the vertical support post 1016 .
- the vertical support post 1016 itself is supported and locked into its vertical use-ready position by a base buttress hinge 1034 .
- the base buttress hinge 1034 holds the vertical support post 1016 securely in the vertical position relative to a baseplate 1036 , which itself is attached to the base 1002 .
- the support post 1016 is hingedly connected to the baseplate 1036 , and can be folded down when unlocked from the base buttress hinge 1034 .
- the frontal guiding pulley 1024 , rear guiding pulley 1026 , and elastic band pulley 1030 function together as a resistance-activating pulley assembly.
- This “band-stretching” resistance-activating pulley assembly facilitates stretching of the elastic band 1028 , which is the means for generating resistance against the pulling of the resistance-transmitting line 1012 .
- Alternative resistance-generating elements other than an elastic band, such as liftable weight or a flexible rod a spring, and still others, will be readily apparent to or within the contemplation of one of ordinary skill in the art.
- the resistance transmitted by the line 1012 is generated by the stretching of an interchangeable elastic resistance band. 1028 when the pullable end of the line 1012 is pulled with sufficient force.
- elastic bands can generate resistance that cannot be diminished via quickly accelerated motion.
- a combination of bands can be attached to the cable 1312 for added resistance.
- a key advantage of resistance generated by an elastic band 1028 is the linear variability of its resistance.
- Linear variable resistance is resistance that increases in roughly linear proportion to the amount that a band has already been stretched, which many exercise enthusiasts find particularly beneficial for certain types of exercise.
- the reason linear variable resistance is often considered so advantageous and conducive to muscle building is that it engages muscles with greater resistance as the muscle's own strength capacity increases, requiring the greatest pulling force at the very apex of an exercise repetition.
- various components of the frame 1004 may be adjusted.
- the position of the gripping device 1008 can be adjusted in the vertical dimension.
- the height of the gripping device 1008 is controlled by a grip height adjustment system that extends the vertical support post up and down.
- the tension of a given elastic band 1028 can be adjusted by telescoping arm 1020 , given how far its extension arm 1028 is projected upward.
- FIG. 10B is a profile view of the embodiment of FIG. 10A .
- the course of the line 1012 from LERD connection, to swivel pulley 1006 , to intermediate guiding pulley 1024 , and ultimately to the elastic resistance connection 1028 can easily be traced.
- One hole of the telescopic extension 1022 can be seen to demonstrate the adjustable height of the elastic support tower.
- connection mechanism of the interchangeable elastic band attaching to the tower base attachment 1032 , and the line attachment other end, allowing for easy interchange of various different elastic strength units.
- a vertical support post hinge 1038 can be seen inside the base buttress hinge 1034 , enabling the vertical support post 1016 itself to be folded down adjacent to and parallel with the base 1002 .
- a telescoping arm hinge 1040 which enables the telescoping arm 1020 to be folded down against the folded-down vertical support post 1016 , once again parallel to the base 1002 .
- FIG. 10C is a front oblique view of the embodiment of FIG. 10A with its frame fully collapsed into a stowable position.
- the vertical support post 1016 has been folded all the way down against the top surface of the base 1002 , adjacent to and parallel with it.
- the telescoping arm 1020 has also been folded down, adjacent to the vertical support post 1018 and also parallel with the base 1002 . In this highly compact state, this embodiment 1000 can be easily stowed in a variety of different locations.
- FIG. 11A is a front oblique view of an embodiment of the invention including an elastic band whose tension can be adjusted by a hand crank.
- the embodiment 1100 shares many structural features of the previous embodiments such as its base, swiveling pulley, gripping device, and some aspects of its frame. However, this frame is unique for being positioned at a rear edge of the base 1002 , spanning the full width of that edge.
- the embodiment shown 1100 includes a base 1102 , a frame 1104 hingedly attached to and supported by the base 1102 , a line-swiveling assembly 1106 coupled with the base 1102 , a gripping device 1108 connected to the frame 1104 , and a leaning space 1110 that allows a user to lean their upper body for full range of exercise motion during any combination of hip extension and hip abduction, while under continuous resistance from the line 1112 .
- the frame 1104 itself includes such sub-elements as two side support posts 1116 , 1117 connected to and supported by the base 1102 , a grip support bar 1108 supported by the support posts 1116 , 1117 , and a pulley arm 1118 , which is attached to and extends from a frame cross bar 1120 that spans the space between the two support posts 1116 , 1117 .
- the frame 1104 also includes support struts 1122 , 1123 to support the frame 1104 upright, and hinges 1124 , 1125 for folding the frame 1104 down.
- the swiveling pulley 1106 engages with a resistance-transmitting line 1112 , which can be pulled with an exercising leg via the lower extremity receiving device (LERD) 1114 .
- the line 1112 is guided vertically upward from the swiveling pulley 1106 to a strategically placed frontal guiding pulley 1126 (the intermediate guiding pulley according to the functional framework) located at the front terminus of the pulley arm 1118 , and is then guided across the pulley arm 1118 , and across the elastic band assembly.
- An elastic resistance generating assembly includes a resistance-generating pulley assembly, which communicates with the resistance-transmitting line 1112 , an elastic resistance band 1128 connected to the distal end of the resistance-transmitting line 1112 , and finally a tension-adjusting line 1130 connected to the distal end of the elastic resistance band 1128 .
- the tension adjusting line 1130 feeds into a hand crank which can feed the line 1130 the tension of the elastic resistance band 1128 itself.
- FIG. 11B is a rear view of the embodiment of FIG. 11A .
- a rear guiding pulley 1132 attached horizontally to the pulley arm 1118 via a rear pulley guiding pulley housing 1134 receives the line 1112 , and it is fed into the elastic resistance generating assembly, which includes two line pulleys 1140 , 1141 three elastic band pulleys 1142 , 1143 , 1144 , and a hand crank 1145 for drawing in the tension adjusting line 1130 and thereby increasing tension of the elastic resistance band 1128 .
- the elastic resistance generating assembly pulleys and hand crank 1145 are attached to the rear surface of the two side support posts 1116 , 1117 .
- the pulley arm 1118 is capable of turning on an axis 1136 , thereby folding into the plane of the frame. For use, however, it is locked into place with a locking pin 1138 . To fold the pulley arm into the frame, the locking pin 1138 can be removed. Then, the entire frame can be folded down to the base.
- FIG. 11C is a front oblique view of the embodiment of FIG. 11A with its frame fully collapsed into a stowable position.
- the pulley arm 1118 has been folded into the plane of the side support arms 1116 , 1117 and the entire frame has been folded down to be adjacent to and parallel with the base 1102 .
- this embodiment 1100 can be stowed in a variety of different locations. It can also be carried somewhat like a suitcase, with the grip bar 1108 as a handle.
- FIG. 12A is a front oblique view of an embodiment of the invention that can use the resistance of a general purpose exercise machine.
- the embodiment 1200 shares many structural features of the previous embodiments such as its base, swiveling pulley, gripping device, and some aspects of its frame. However, this embodiment 1200 is unique in that it does not supply its own resistance-generating element or resistance-transmitting line, but rather incorporates those of another machine 1201
- the embodiment shown 1200 includes a base 1202 , a frame 1204 hingedly attached to and supported by the base 1202 , a line-swiveling assembly 1206 coupled with the base 1202 , a gripping device 1208 connected to the frame 1204 , and a leaning space 1210 that allows a user to lean their upper body for full range of exercise motion during any combination of hip extension and hip abduction, while under continuous resistance from the line 1212 .
- the frame 1204 itself includes such sub-elements as two support posts 1216 , 1217 hingedly connected to and supported by the base 1202 , a grip support bar 1208 supported by the support posts 1216 , 1217 , and a pulley cross arm 1218 , which is attached to the right support post 1217 .
- the frame 1204 also includes a support wing 1220 hingedly attached to the right support post 1217 , which can help counter torque that is generated by the load-bearing line 1212 running off-center on the base 1202 .
- the support posts 1216 , 1217 are connected via a bottom supportive crossbar 1222 , which stands on the base 1202 and supports the frame 1204 in its upright and use-ready state, but which lifts off the base when the frame 1204 is folded down.
- a base cutout 1224 enables the embodiment 1200 to get close to a neighboring machine 1201 whose own cable connects to the line 1212 , and its associated liftable weight, while hinges 1226 enable the frame 1204 to fold down or be lifted upright.
- the swiveling pulley 1206 engages with a resistance-transmitting line 1212 that can be pulled with an exercising leg via the lower extremity receiving device (LERD) 1214 .
- the line 1212 is guided vertically upward from the swiveling pulley 1206 to a strategically placed frontal guiding pulley (the intermediate guiding pulley according to the functional framework) located at the front terminus of the pulley cross bar, and then guided across the frame 1204 : horizontally to a rear guiding pulley located at the rear terminus of the pulley cross arm 1218 .
- the resistance-transmitting line 1012 is guided vertically upward.
- the line 1212 for this embodiment 1200 connects to a line from a neighboring machine 1201 , which in this figure is a multipurpose weight machine.
- the new line encounters a sliding pulley 1228 which is capable of sliding up and down a vertical track. From there, the line 1212 is fed through a pulley assembly and down to liftable weight.
- the embodiment shown 1200 enhances the exercise options of the multipurpose machine 1201 . If a user tried performing hip extension and/or hip abduction with the multipurpose machine 1201 itself, they not have a grip to enable tripod posture, nor would they have the space to lean forward during hip extension. Unable to execute the proper posture during hip extension, a user would naturally flex their knee and engage their hamstring, at the expense of the gluteal muscles.
- the multipurpose machine 1201 would not provide an optimal gluteal exercise experience.
- the multipurpose machine 1201 is supplemented with the present embodiment 1200 , however, great value is added to the user's gluteal exercise repertoire, with such a lightweight device.
- FIG. 12B is a front oblique view of the embodiment of FIG. 12A with its frame fully collapsed into a stowable position.
- the pulley arm 1218 has been folded into the plane of the support arms and the entire frame has been folded down to be adjacent to and parallel with the base 1102 .
- the support wing 1220 has been folded away from its stopper 1230 and down against the rest of the frame and the base 1202 . In this highly compact state, this embodiment 1100 can be stowed discreetly in a variety of different locations.
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Abstract
A collapsible lower body fitness apparatus is disclosed, providing enhanced gluteal muscle engagement, body stability, and range of motion. The apparatus includes a base, a frame, a line-swiveling assembly, and a gripping device that is horizontally displaced from the line-swiveling assembly's swivel axis, allowing a user to stabilize themselves in tripod posture during exercise. Thus a user can perform full range of motion for any combination of hip extension and hip abduction under resistance transmitted by a line, all from a central standing position that substantially straddles the swivel axis. This functional framework of elements can be realized through a variety of possible embodiments. While the frame provides space for leaning during exercise, it may otherwise vary in structural design. In all cases, the frame can be collapsed into a stowable position that is substantially parallel with and adjacent to the base, thereby rendering the apparatus portable and stowable.
Description
- This application claims the benefit of U.S. Provisional Application No. 62/060,556, filed Oct. 6, 2014. This application is also related to co-pending applications which also claim benefit of the above-named provisional application, the co-pending applications having the docket numbers KAMINS-002 and KAMINS-004, filed on behalf of the same inventor: Paul Kamins.
- This invention relates generally to fitness equipment, and more particularly to lower body fitness equipment.
- In addition to being an integral part of an individual's overall fitness, toned and shapely buttocks and legs have also become desirable due to their perceived physical attractiveness. As a result, the market for lower body exercise machines and devices has grown in recent years, especially among women. Many such machines and devices are known in the art.
- One class of exercise machine for the buttocks involves a resistance-transmitting line, such as a weight machine cable, coupled at a pullable end with a user's leg. Lower body fitness machines that are designed as cable machines can continuously transmit resistance during extension and/or abduction of the user's hip, which in turn can work the gluteal muscles and enhance sculpting of the buttocks.
- But such machines can pose problems. In particular, it can be difficult for the user of a machine to fully engage all of their gluteal muscles. Furthermore, attempts to do so can compromise their posture, potentially leading to discomfort or even injury. Meanwhile, many fitness enthusiasts desire to exercise their buttocks at home, but they may prefer not to have to purchase expensive, bulky machinery for this purpose.
- Various embodiments of an improved stowable lower body fitness apparatus are disclosed, which provide enhanced gluteal muscle engagement, body stability and range of motion. Unlike other known machines for lower body exercise, the present invention safely and efficiently provides maximal engagement of all gluteal muscles, sparing the user from undue discomfort and/or wasted effort in the process.
- The improved performance of the present invention is facilitated by the strategic placement of a compact cable-swiveling assembly that enables a resistance-transmitting line to swivel about a vertical swivel axis. A gripping device is positioned relative to the swivel axis to allow for effective and even exercise of the entire buttocks, along with increased range of motion and continuous proper stability and body alignment.
- By positioning the grip locus relative to the swivel axis in accordance with embodiments disclosed below, a new unanticipated synergistic effect is created which leads to optimal gluteal muscle exercise. From a single stance, the user can perform the full range of any combination of hip extension and/or hip abduction under resistance with either leg, easily switching from side to side, all while constantly stabilizing themselves in a balanced tripod posture.
- Furthermore, the frame of this apparatus is capable of folding down into a state that is substantially parallel with and adjacent to the base, such that the apparatus can be stowed away to avoid wasting space when it is not in use. This enables home users to exercise their gluteal muscles with the highest efficiency possible, but without the need for large and costly equipment continuously taking up room in their home.
- In one general aspect, the invention is a stowable lower body fitness apparatus, comprising: a base; a frame coupled to and supported by the base, the frame being capable of collapsing into a stowable position that is substantially adjacent to and substantially parallel with the base; a cable-swiveling assembly coupled with the base, the cable-swiveling assembly being configured to engage with a resistance-transmitting cable, to enable a pullable end of the cable to swivel about a vertical swivel axis to allow a user to pull the pullable end with an exercising leg to perform any combination of hip extension and hip abduction from a single standing position; a gripping device connected to the frame, the gripping device including a plurality of grippable areas positioned along a substantially horizontal grip locus, the grip locus being sufficiently positioned relative to the swivel axis to allow the user to stabilize themselves in a tripod posture formed by both arms and a standing leg during the any combination of hip extension and hip abduction; and a leaning space passing through the swivel axis, the leaning space having sufficient volume to allow the user to lean their upper body to achieve full range of exercise motion during the any combination of hip extension and hip abduction.
- In some embodiments, the cable-swiveling assembly and the frame are configured to enable a user to pull the pullable end of the cable with an exercising leg to perform hip flexion. In some embodiments, the apparatus further comprises a resistance adjustment system. In some embodiments, the cable-swiveling assembly includes a swiveling pulley coupled with the resistance-transmitting cable, the swiveling pulley being free to swivel about the swivel axis.
- In some embodiments, the apparatus further comprises an intermediate guiding pulley positioned no higher than substantially hip height. In some embodiments, the apparatus further comprises a resistance-activating pulley assembly coupled with the frame, the resistance-activating pulley assembly being configured to engage with the resistance-transmitting cable to facilitate activation of a resistance-generating element.
- In some embodiments, resistance transmitted by the resistance-transmitting cable is generated by lifting of an exercise weight that is connected to a resistance-bearing end of the resistance-transmitting cable. In some embodiments, the resistance transmitted by the resistance-transmitting cable is generated by stretching of an elastic resistance band that is connected to a resistance-bearing end of the resistance-transmitting cable.
- In some embodiments, the resistance transmitted by the resistance-transmitting cable is generated by bending of a flexible resistance rod that is connected to a resistance-bearing end of the resistance-transmitting cable. In some embodiments, the resistance transmitted by the resistance-transmitting cable is generated by twisting of a torsional resistance disc that is connected to a resistance-bearing end of the resistance-transmitting cable.
- In some embodiments, the pullable end of the resistance-transmitting cable is connected to a lower extremity receiving device, the lower extremity receiving device being configured to receive the user's lower extremity and thereby engage with the user's leg.
- In some embodiments, the gripping device is configured to support a user during hip adduction. In some embodiments, the gripping device includes a straight bar positioned along a horizontal grip axis. In some embodiments, the gripping device includes a plurality of handlebars positioned along the grip locus. In some embodiments, the gripping device includes two grippable areas positioned substantially at least shoulders width apart along the grip locus.
- In some embodiments, the grip locus is substantially at least forearm length from the swivel axis. In some embodiments, the gripping device is height-adjustable. In some embodiments, the apparatus further comprises a swivel-grip displacement adjustment system, the swivel-grip adjustment system being configured to enable adjustment of displacement between the swivel axis and the grip locus.
- In another general aspect, the invention is a stowable lower body fitness apparatus, comprising: a base; a frame coupled to and supported by the base, the frame being capable of collapsing into a stowable position that is substantially parallel with and adjacent to the base; a swiveling pulley coupled with the base, the swiveling pulley being configured to engage with a resistance-transmitting cable, to enable a pullable end of the cable to swivel about a vertical swivel axis to allow a user to pull the pullable end with an exercising leg to perform full range of motion for any combination of hip extension and hip abduction under resistance from a single standing position that substantially straddles the swivel axis; a weightlifting pulley assembly coupled with the frame, the weightlifting pulley assembly being configured to engage with the cable to facilitate lifting of a liftable exercise weight when the pullable end is pulled with sufficient force; a gripping device connected to the frame, the gripping device including a plurality of grippable areas positioned along a substantially horizontal grip locus, the grip locus being sufficiently positioned relative to the swivel axis to allow the user to stabilize themselves in a tripod posture formed by both arms and a standing leg during the any combination of hip extension and hip abduction; and a leaning space passing through the swivel axis, the leaning space having sufficient volume to allow the user to lean their upper body to achieve full range of exercise motion during the any combination of hip extension and hip abduction.
- In another general aspect, the invention is a stowable lower body fitness apparatus, comprising: a base; a frame coupled to and supported by the base, the frame being capable of collapsing into a stowable position that is substantially parallel with and adjacent to the base; a swiveling pulley coupled with the base, the swiveling pulley being configured to engage with an resistance-transmitting cable, to enable a pullable end of the cable to swivel about a vertical swivel axis to allow a user to pull the pullable end with an exercising leg to perform full range of motion for any combination of hip extension and hip abduction under resistance from a single standing position that substantially straddles the swivel axis; a band-stretching pulley assembly coupled with the frame, the band-stretching pulley assembly being configured to engage with the cable to facilitate stretching of an elastic resistance band when the pullable end is pulled with sufficient force; a gripping device connected to the frame, the gripping device including a plurality of grippable areas positioned along a substantially horizontal grip locus, the grip locus being sufficiently positioned relative to the swivel axis to allow the user to stabilize themselves in a tripod posture formed by both arms and a standing leg during the any combination of hip extension and hip abduction; and a leaning space passing through the swivel axis, the leaning space having sufficient volume to allow the user to lean their upper body to achieve full range of exercise motion during the any combination of hip extension and hip abduction.
- The invention will be more fully understood by reference to the detailed description, in conjunction with the following figures, wherein:
-
FIGS. 1-2 introduce an illustrative embodiment and basic functional framework of the invention, specifically: -
FIG. 1 is a front oblique view of an illustrative embodiment of the use-for-exercise aspect of the present invention; -
FIG. 2 is a perspective view of a functional framework of the illustrative embodiment; and -
FIGS. 3-12 introduce exemplary machine embodiments of the invention, specifically: -
FIG. 3 is a front oblique view of a possible commercial embodiment of the invention with a hinged mono-tube design; -
FIG. 4 is a profile view of the embodiment ofFIG. 3 being used to fully perform hip flexion; -
FIG. 5A depicts auser 500 using theprevious embodiment 300 to perform hip extension; -
FIG. 5B is a top view of the embodiment ofFIG. 3 being used to perform simultaneous hip extension and abduction; -
FIG. 5C is a top view of the embodiment ofFIG. 3 being used to perform hip abduction; -
FIG. 5D is a top view of the embodiment ofFIG. 3 being used to perform hip adduction; -
FIG. 6 is a front oblique view of the embodiment ofFIG. 3 with its frame fully collapsed into a stowable position; -
FIG. 7 is a front oblique view of an embodiment of the invention with a three legged frame; -
FIG. 8A is a front oblique view of the embodiment ofFIG. 7 being used to perform hip extension; -
FIG. 8B is a front oblique view of the embodiment ofFIG. 7 being used to perform hip abduction; -
FIG. 9A is a front oblique view of the embodiment ofFIG. 7 with its frame being collapsed down into a stowable position; -
FIG. 9B is a front oblique view of the embodiment ofFIG. 7 with its frame fully collapsed into the stowable position; -
FIG. 9C is a perspective view of the embodiment ofFIG. 7 having been stowed against a wall; -
FIG. 10A is a front oblique view of an embodiment of the invention including an elastic band whose length and tension can be adjusted along a telescoping arm; -
FIG. 10B is a profile view of the embodiment ofFIG. 10A ; -
FIG. 10C is a front oblique view of the embodiment ofFIG. 10A with its frame fully collapsed into a stowable position; -
FIG. 11A is a front oblique view of an embodiment of the invention including a horizontally compounded elastic band whose tension can be adjusted by a hand crank; -
FIG. 11B is a rear view of the embodiment ofFIG. 11A ; -
FIG. 11C is a front oblique view of the embodiment ofFIG. 11A with its frame fully collapsed in the stowable position; -
FIG. 12A is a front oblique view of an embodiment of the invention that can use the resistance of a general purpose exercise machine; and -
FIG. 12B is a front oblique view of the embodiment ofFIG. 12A with its frame fully collapsed into a stowable position. - The gluteal muscles are often considered the powerhouse of the body and an essential part of the body's “core,” and as such, they are of central focus in strength training and physical fitness. Toning of the gluteal muscles also holds substantial aesthetic appeal, particularly for female physiques. However, traditional exercises for targeting the gluteal muscles require weightlifting in a variety of difficult and/or uncomfortable postures.
- Given the growing desire among women to build their gluteal muscles, the demand for more ergonomic exercise equipment that can effectively target this area of the body has increased substantially. While some resistance-transmitting line machines seemingly offer comparatively comfortable gluteal workout routines, their perceived comfort actually comes at the expense of optimal gluteal muscle engagement.
- The following detailed description corresponds with the accompanying drawings. First, the current inventive concept is explained by reference to a functional framework, and then various possible embodiments are taught and described. Of central importance is the ability of these embodiments to be collapsed into an easily stowable and portable state, by the folding of their frame down to be substantially parallel to and adjacent to their base.
-
FIGS. 1-2 introduce an illustrative embodiment and basic functional framework of the invention, specifically:FIG. 1 is a front oblique view of an illustrative embodiment of the use-for-exercise aspect of the present invention; andFIG. 2 is a perspective view of a functional framework of the illustrative embodiment. These diagrammatic illustrations and explanations help lay groundwork for understanding the benefits of use of commercial embodiments taught here. -
FIG. 1 is a front oblique view of an illustrative embodiment of the use-for-exercise aspect of the present invention. The embodiment shown 100 includes abase 102, aframe 104 attached to and supported by thebase 102, a line-swivelingassembly 106 coupled with thebase 102, agripping device 108 connected to theframe 104, and a leaningspace 110 that allows a user to lean their upper body for full range of exercise motion during any combination of hip extension and hip abduction, while under continuous resistance. - Important features of the present invention during use for exercise are highlighted in this graphically illustrative design 100. The combination of key structural elements and spatial relationships shown here can be rendered in many different possible embodiments. This embodiment 100 is shown mainly for illustrative purposes. It is a simple abstract representation of one of the most basic structurally feasible embodiments that supports a core functional objective of the invention. A “functional framework” for enabling this core objective is explicated further in connection with
FIG. 2 , below. - The functional framework is a functional arrangement of key elements which enable a user to achieve full range of motion for any combination of hip extension and hip abduction, all from a single stance. The key elements and their relative position to each other make up the functional framework, which is present in this illustrative embodiment 100 and is analyzed in isolation in
FIG. 2 . The functional framework can be manifest in many different structural designs, of which the embodiments shown, taught and described in relation toFIGS. 3-12 are but a few possibilities. - The single stance from which a user can perform all manner of hip extension and hip abduction exercises is a central stance that substantially straddles the
swivel axis 116. For the purposes of discussion of the present invention, a user can be said to be substantially “straddling” theswivel axis 116 if they are standing with substantially one leg on either side of theswivel axis 116. From this single stance, any combination of hip extension and hip abduction can be properly performed, with full range of motion of either leg. - In this embodiment, the
gripping device 108 includes a plurality of grippable areas positioned along a substantiallyhorizontal grip locus 112, extended here for illustrative purposes. Thegrip locus 112 is the locus passing through all grippable areas, terminating at the outermost grippable areas. It is shown here as a grip axis, positioned relative to the line-swivelingassembly 106 to allow a user to lean forward during exercise to properly stabilize themselves through any combination of hip extension and hip abduction movements. In other embodiments, thegrip locus 112 can be angled or curved instead of a straight axis. - The line-swiveling
assembly 106 is configured to engage with a resistance-transmittingline 114 to enable a pullable end of the line to swivel about avertical swivel axis 116, allowing a user to pull the pullable end with an exercising leg to perform full range of motion for any combination of hip extension and hip abduction under resistance, from a single standing position that substantially straddles theswivel axis 116. In this embodiment, an inelastic weight-bearing resistance cable is being used. - In this embodiment, the line-swiveling
assembly 106 comprises a swiveling pulley that is free to swivel about avertical swivel axis 116. Here thepulley 106 is attached directly to thebase 102, but can also be attached to theframe 104 or other connecting structure. Theline 114 is fed into the swivelingpulley 106 substantially vertically and perpendicular to the initial direction of pulling, which is what enables its pullable end to swivel freely about theswivel axis 116. - The swiveling pulley shown 106 is able to swivel in a full circle about the
swivel axis 116, thereby allowing the pullable end of theline 114 to swivel along aswivel arc 118 about theswivel axis 116. Theunobtrusive pulley 106 guides the pullable end in aswivel arc 118 of considerably tight radius, ensuring that a user can accomplish all hip motions from a single stance that substantially straddles theswivel axis 116, and under continued resistance through their entire range of motion. - From the line-swiveling
assembly 106, the resistance-transmittingline 114 is then guided across theframe 104. In the embodiment shown, theframe 104 includes avertical support post 120 attached to thebase 102, and adiagonal boom 122 attached to and supported by thesupport post 120. Theline 114 is guided along the inside of theboom 122 by a resistance-activating pulley assembly, which in this case is a “weightlifting” pulley assembly comprised of alower boom pulley 124 and anupper boom pulley 126, after which thecable 114 then connects to weight 128. - In this embodiment, the resistance-transmitting
line 114 is a weight machine cable configured to liftweight 128 in cooperation with aweightlifting pulley assembly frame 104. In other embodiments, theline 114 can transmit resistance generated by other means, such as: via the stretching of an elastic band; or by the bending of a resistance rod (also known as a tension rod), for example. Still other resistance-generating elements may occur to one of ordinary skill in the art. - The
weight 128 can be held steady by a stabilizingcable 130 that runs adjacent to the weightlifting cable's weighted portion 132 (the portion dropping vertically from theupper boom pulley 126 to the weight 128). As shown, the stabilizingcable 130 can be anchored at its top end to the upper end of thediagonal boom 122, and at its bottom end to thebase 102. This stabilizingcable 130 prevents theweight 128 from swaying off its vertical axis, and thereby becoming destabilized. In designs without the stabilizing cable, the user's form has to be more precise to prevent sway of the weight suspended freely from the cable. - In embodiments where the resistance-transmitting
cable 114 transmits resistance that is generated by an elastic resistance band or a flexible resistance rod, the elastic resistance band can provide linear variable resistance, engaging the muscles with greater resistance as the muscle's own strength capacity increases. This can lead to increased benefits during gluteal exercise. Inclusion of elastic band is taught and described in greater detail below, in connection withFIGS. 10 and 11 . - The swiveling
pulley 106 of this embodiment is free to fully rotate in its horizontal plane, and also to tilt in its orientation. It is unobtrusive enough to enable a user to stand in close proximity to and straddle theswivel axis 116. While not exercising, the user can stand in a single neutral stance with no resistance applied. However, even a small displacement of the exercising leg for hip extension and/or abduction can generate resistance. - To emphasize, this versatile swiveling
pulley 106 functions as an enhanced line-swiveling assembly, whereby the user is able to perform the full range of any combination of hip extension and hip abduction under continued resistance, while also returning to the same neutral stance at the end of a given set of leg motions. Such convenience is not made available by line-swiveling assemblies typically found in the art of lower body fitness machines. - In addition to enabling hip extension and hip abduction, the line-swiveling
assembly 106 also can allow for nearly all degrees of flexion for anterior musculature strengthening that goes beyond enhancement of the gluteal muscles. And with every available motion, the neutral standing position itself encounters no resistance, yet a slight displacement in any direction immediately does yield resistance. This feature is optimal for exercise yet not available in conventional gluteal exercise machines. - Ease of exercise can be further enhanced by a lower extremity receiving device (hereinafter referred to as “LERD”) 134 attached to the line's pullable end. In this embodiment, the
LERD 134 includes a loop which can receive a user's foot during exercise. A horizontal opening along a distal portion of the loop can be secured around the user's heel during hip extension, while the loop in its entirety can wrap around the side of the user's foot during hip abduction. More highly designed LERDs are described in an accompanying app, and pictured later in this document. - Unlike the bulky pulley assembly of many prior art exercise pulleys, the customized
pulley 106 ofFIG. 1 can enable theLERD 134 to rest on the floor. TheLERD 134 can include structural support that keeps it erect and poised to receive a user's foot, as shown, so that the user can step in and out with ease. This relieves the user from the need to manually engage or disengage the device with their foot, or to change their foot's orientation in the device by hand when changing up sets. - This illustrative embodiment 100 also includes a
boom hinge 138 which enables the distal upper end of thediagonal boom 122 to be folded downwards so the boom collapses adjacent to and parallel with thevertical support post 120; as well as apost hinge 140, which enables thevertical support post 120 to be folded downwards to lie adjacent to and parallel with thebase 102. The hinges 138, 140 can be locked into the closed or open state, to securely fasten the frame in the desired state. -
FIG. 2 is a perspective view of a functional framework of the illustrative embodiment. Thefunctional framework 200 is an isolated grouping of key elements of the illustrative embodiment, which together are responsible for enabling a core functional objective of the present invention. Specifically, the geometrical alignment, spatial relationship, and relative positioning of these elements enable a user to perform the full range of motion for any combination of hip extension and hip abduction, all while under continuous resistance, from a single standing location and with ideal posture. - The line-swiveling
assembly 106 in this case is a swiveling pulley. It is configured to engage with the resistance-transmittingline 114 to enable its pullable end to swivel about theswivel axis 116. The swivelingpulley 106 itself is capable of swiveling in afull swivel circle 202. However, a user need not cross their leg in front of them to extend or abduct their hip. Therefore, theline 114 itself swivels through a swivel arc (seeFIG. 1 ) that is bounded at the user's “12-o′-clock” position, where the frame (not shown) itself extends to guide theline 114. - The
gripping device 108 includes a plurality of grippable areas positioned along a substantiallyhorizontal grip locus 112, where thegrip locus 112 is positioned relative to theswivel axis 116 in a manner that allows a user to stabilize themselves in a “tripod posture” (formed by both arms and a standing leg) during any combination of hip extension and abduction, even when under considerable exercise resistance. In the embodiment shown, thegrip locus 112 is a horizontal grip axis. - The
grip locus 112 is the locus of points along which all grippable areas lie. It does not actually extend beyond the outermost grippable areas of thegripping device 108, but as it is depicted and labeled inFIGS. 1 and 2 , it is shown extending beyond thegripping device 108 solely for illustrative purposes. Thegrip locus 112 need not be a straight axis; it may be curved or bent. It can take any shape that would enable a user to perform full range of motion for any combination of hip extension and hip abduction with proper form. - In this embodiment, the
gripping device 108 is a grippable bar positioned along agrip axis 112. This design enables a user to engage thegripping device 108 in a manner similar to a ballet bar. All hip and other lower body exercises that a ballet dancer might practice with such a bar would also be available to a user of this embodiment, with the extra benefit of added resistance for more intensely engaging gluteal and/or other lower body muscles. - The
ballet bar 108 is one possible embodiment of the gripping device. In some embodiments, the gripping device may be a curved rail or a bent rail, while in other embodiments it may include a set of horizontal handlebars, or even a set of vertically oriented handles, for example. In each instance, thegripping device 108 is designed and positioned to allow a user to maintain tripod posture all throughout their exercise. - As defined herein, the user can be said to be in “tripod posture” if their standing leg adjacent to the swivel pulley and their hands spread sufficiently wide on the grip axis to allow their torso to lean slightly opposite their lifting leg.
- This positioning requires anterior-
posterior separation 136 of thegrip locus 112 from theswivel axis 116, allowing their torso to lean slightly opposite their lifting leg. This positioning requires anterior-posterior separation 336 of thegrip locus 312 from theswivel axis 316, to allow the user's the three stationary limbs to be widely separated (a theoretical tripod configuration). This confers maximal torso stability to resist the torque of the resistance on the lifting leg. This is an important departure from other machines. - The swivel-
grip separation 136 is made more clearly visible inFIG. 2 by reference to adepth dimension indicator 204, which indicates the spatial relationship between the swivelingpulley 106 andgripping device 108. During exercise, a user must contribute a pullingforce 206 that is equal and opposite to the force ofresistance 208. The forces on either side of theswivel axis 116 must effectively balance, and it is helpful for the user themselves to be balanced about theswivel axis 116. Since their lower body is posterior to theswivel axis 116, it can be advantageous for their upper body to be anterior. Similarly, if the lower body moves laterally to one side, the torso can lean slightly to the opposite lateral side as a counterbalance. - The key functional aspect of the
gripping device 108 which allows the user to maintain tripod posture during any combination of hip extension and hip abduction under exercise resistance is its position relative to the cable-swiveling assembly 106: thegrip locus 112 is set apart 136 from theswivel axis 116.Decoupling 136 these twoelement alignments 112, from 116 provides a far more efficient spatial arrangement for the exercise enthusiast than the prior art under consideration. - While on the one hand, the
grip 112 must be in front of the user, on the other hand, theswivel 106 needs to be positioned at the user's feet, so that the force of resistance is perfectly opposite to and in line with the exercising leg's movement. If theswivel 106 was not placed at the feet but further forward instead, then leg movement during abduction would be complicated by a forward force vector of resistance. This would yield especial difficulty at the beginning of leg movement, when the proportion of the forward vector would be largest. - The
horizontal displacement 136 of thegrip locus 112 from theswivel axis 106 is made possible in part by an intermediate guidingpulley 124, which inFIG. 1 was referred to as a “lower boom pulley.” This intermediate guidingpulley 124 occurs in other embodiments shown and discussed herein. Thispulley 124 is integral to thefunctional framework 200. It enables the swivelingpulley 106 to swivel freely by guiding thecable 114 on an acute angle pathway about the swivelingpulley 106; but by also guiding thecable 114 into an obtuse angle about itself 124, it prevents thecable 114 from obstructing the leaningspace 110. - The intermediate guiding pulley as shown 124 is strategic in its position, being located above the line-swiveling assembly, but no higher than substantially the hip height of a user. But the intermediate guiding
pulley 124 need not be located above the swivelingpulley 106 in order to accomplish its key functional objective. For example, in functional frameworks of alternative embodiments, it is possible for an intermediate guiding pulley to be located below the swivelingpulley 106, such as in the instance of a base thick enough to house a pulley. Such a pulley would still guide theline 114 on a right angle path about the swivelingpulley 106, but in that case, theline 114 would be directed downward, instead of upward (as shown here). - The intermediate guiding
pulley 124 positioned at or below the user's hip height is a key feature of thefunctional framework 200 that sets it apart from much of the prior art. For example, in known machine embodiments (common cable machine) where a user stands near a swiveling pulley, the design does not introduce an intermediate guidingpulley 124 at or below hip height, because such designs do not prioritize the goal of providing a user with optimal gluteal muscle targeting. Instead, they include a guiding pulley that is fixed at the top of a long vertical track, which enables the swiveling pulley itself to slide up or down the vertical track and be repositioned at will, depending on the desired exercise (ranging anywhere from shoulder to arm to leg exercise). - In the embodiment shown, the
grip locus 112 is substantially atleast forearm length 136 from theswivel axis 116, thereby enabling strong tripod posture. In other embodiments, thegrip locus 112 can be closer to theswivel axis 116, such as hand length, for example. Also, in some preferred embodiments, thegripping device 108 can be substantially at least hip height above the floor and/or its grippable areas span substantially at least shoulders width, as is the case inFIG. 2 . - The
grip locus 112 must span the proper width. Thegrip locus 112 is defined herein as the locus of points along which all grippable areas lie, and as such, it does not actually extend beyond the outermost grippable areas of thegripping device 108. To be sure, thegrip locus 112 as depicted and labeled inFIGS. 1 and 2 is shown extending beyond thegripping device 108 for illustrative purposes; however, thetrue grip locus 112 is coextensive with thegripping device 108, and it terminates where thegripping device 108 itself terminates. - Proper positioning and extension of the
grip locus 112 requires that its extent be wide enough to allow a user to properly perform full range of motion during hip extension and/or abduction. Therefore, in addition to thegripping device 108 being separated from theswivel axis 116, the span of thegripping device 108 must extend away from theswivel axis 116 far enough in both directions as to enable a user to comfortably and effectively stabilize themselves throughout the full motion of these hip exercises. Abduction requires even more width of the grip axis. - Part and parcel to the benefit conferred by the swivel-
grip separation 136 is the presence of the leaningspace 110 that allows a user to lean their upper body forward and take full advantage of the swivel-grip separation 136, as well as the enhanced stability it affords. As the user lifts their exercising leg, it is natural for the user to wish to lean forward to help them balance their lower body's movement with a counter-force from their upper body. When the user leans forward, the pelvis tilts forward, and increases the available range of hip range of motion by 200%, allowing more gluteal work with each set. This ideal posture is made possible by the synergistic effect of the combination of the leaningspace 110 and swivel-grip separation 136. - Due to the harmony of these relationships, a user is able to comfortably perform any combination of hip extension and abduction from a central standing position that substantially straddles the
swivel axis 116. The strategically small swivelingpulley 106, with its tight swivel radius, provides the clearance to enable the user to stand in this central position. By straddling theswivel axis 116, the user is able to overcome the tension of theline 114 with a perfectly opposing force from their exercising leg, as well as deftly balance their upper body by leaning in the direction perfectly opposite their exercising leg. - Such a precise counterpoise of force vectors, with no tangential forces disrupting any of the user's exercise movements, is only possible when the user avails themselves of this special “swivel straddle” stance. If the user were not straddling the
swivel axis 116, they would experience at least some orthogonal force vector disturbing the arc of their leg's movement, and/or they would be compelled to supply at least some twisting and/or torsion of their body to maintain balance. Furthermore, they would have to shuffle their feet to change direction of leg movement and/or to abduct their opposite leg. - All benefits of the swivel straddle stance converge on a common theme: unparalleled efficiency in isolating one's gluteal musculature. From this stance, a user is able to lean into tripod posture and focus the full force of
resistance 208 on their gluteal muscles without having to apply torque from any part of their body. The stance also relieves the user of the need to reposition their footing or change their body's orientation for different leg motions, or when switching their exercising leg. And when the user returns their leg to the upright standing position between sets, theline 114 returns to its neutral resting state: thus, freed from any persistent force ofresistance 208, their leg can also come to rest. - By enabling this swivel straddle stance, the swivel-
grip separation 136 and leaningspace 110 work naturally together to promote the user's best posture during gluteal exercise. This enables the user to exercise their gluteal muscles in an efficient and comfortable manner, making the process safer, healthier and more enjoyable. It also promotes superior gluteal muscle building due not only to a greater range of motion, but also to a greater strength capacity of the body when exercising in its normal, healthy and anatomically preferable bearing. - The embodiment shown offers superior gluteal muscle targeting by enabling a user to execute various leg motions that simultaneously comprise both partial hip extension and partial hip abduction. As just one example, studies indicate that a 45 degree lateral leg movement comprised of half hip extension, half hip abduction, which works the gluteus maximus along the orientation of its fibers, yields optimal results.
- This embodiment and other embodiments discussed below can also enable a user to perform hip rotation, adduction, and even flexion, enhancing their lower body workout even further. In addition to allowing more leg movement options with better form, it also allows for change in the trajectory and/or orientation of the leg within a given repetition, even enabling such movements as kicks or sweeps. All this can be achieved from a single convenient standing position.
-
FIGS. 3-12 show exemplary machine embodiments of the invention and its central collapsible and stowable functionalities, specifically:FIGS. 3-6 include views of a streamlined design embodiment, its use and collapsibility;FIGS. 7-9 include views of a three-legged embodiment, its use and collapsibility;FIGS. 10-11 include views of embodiments incorporating an elastic band, their use and collapsibility, andFIG. 12 shows views of an embodiment that cooperates with a general purpose machine. -
FIG. 3 is a front oblique view of a possible commercial embodiment of the invention with a hinged, mon-tube design. Thisembodiment 300 is unique in providing a design that is both robust and streamlined. Theembodiment 300 includes abase 302, a frame 304 attached to and supported by thebase 302, a line-swivelingassembly 306 coupled with thebase 302, agripping device 308 connected to the frame 304, and a leaningspace 310 that allows a user to lean their upper body for full range of hip extension and/or abduction. - While certain elements shown here (such as the frame 304, for example) are unique to this
embodiment 300, the same functional framework ofFIG. 2 is present, and achieving the same benefits here as previously discussed. The structural variations of thisembodiment 300 therefore do not depart from the essence of the inventive concept. Instead, those variations commingle with and enhance the effectiveness of the functional framework, thereby asserting and demonstrating its value even more clearly. - In this
embodiment 300 the line-swivelingassembly 306 is a swiveling pulley configured to engage with a resistance-transmittingline 312 to enable a pullable end of thecable 312 to swivel about a vertical swivel axis, thereby allowing a user to pull the pullable end with an exercising leg (via the lowerextremity receiving device 314 or “LERD”), to perform full range of motion for any combination of hip extension and hip abduction under resistance, from a single standing position that substantially straddles the swivel axis of the line-swivelingassembly 306. Here, aweight machine cable 312 is being used as a resistance-transmitting line. - From the line-swiveling
assembly 306, theline 312 is guided across the frame 304 along a pathway laid out by a series of pulleys, discussed below. The frame 304 itself includes two angled segments supported and locked into their use-ready relative positions by an elbow buttresshinge 316. The elbow buttresshinge 316 holds together adiagonal boom 318, and alower support post 320 to which theboom 318 is hingedly connected. Thelower support post 320 is in turn supported by a base buttresshinge 322, and hingedly connected to abaseplate 324 attached to thebase 302. - The
gripping device 308 is mounted to thediagonal boom 318 via agripping mount 326 which, in this embodiment, includes adjustment features. Thegripping mount 326 includes a grip-elevation adjustment mechanism 328, which enables the mount to be positioned at any elevation along thediagonal boom 318 via loosening and retightening of a knurled knob. Adjusting the elevation of thegripping mount 330 along thediagonal boom 318 effectively adjusts the position of thegripping device 308 relative to the user. - The
gripping mount 326 also includes a grip-depth adjustment mechanism 330, which adjusts the position of the gripping device relative to the axis of the diagonal boom. In this embodiment, thegripping device 308 is positioned opposite thediagonal boom 318 from the user's perspective. Thegripping device 308 can be adjusted closer or farther from thediagonal boom 318, by loosening and retightening a knurled knob against a slidable adjustment fork. Grip depth adjustment can be useful for positioning thegripping device 308 for hip flexion exercise, for example. - To position the
gripping device 308 in front of thediagonal boom 318 from the user perspective, theslidable adjustment fork 330 can be fully removed from its sleeve, then inserted back into the sleeve from the opposite (user) side of the boom. Both the grip-elevation adjustment mechanism 328 and the grip-depth adjustment mechanism 330 that are located on thegripping mount 326 combine to yield a comprehensive swivel-grip displacement adjustment system, providing the user substantial control over the position of thegripping device 308 including its position relative to the swivel axis, and thus relative to the user. - The
line 312 is a weightlifting cable configured to lift weight when pulled with sufficient force. Theweightlifting cable 312 is guided across the frame 304 via pulleys. First, it is guided vertically upward from the swivelingpulley 306 to a strategically placedelbow pulley 332 inside the elbow of the frame 304, acting as an intermediate guidingpulley 332. It is then guided along the inside of thediagonal boom 318, where it then encounters aboom pulley 334 at the top of theboom 318. Theelbow pulley 332 and boompulley 334 function together as a weightlifting pulley assembly. - A stabilizing
cable 336 drops down from the top edge of thediagonal boom 318, running adjacent to the weightlifting cable'sweighted portion 338. Theweightlifting cable 312 itself drops vertically down from theboom pulley 334, connecting at its weighted end toliftable weight 340. The stabilizingcable 336 is connected at its top end to theboom 318 and at its bottom end to thebase 302, and is held taut between those anchor points to keep theliftable weight 340 from swinging. Theliftable weight 340 rests on theweight base 302 when it is not being lifted. - The embodiment shown 300 achieves a robust but streamlined design. With a frame 304 that is strong but minimal in its mass, this
embodiment 300 can function as a weight machine in a home setting, and may be erected and collapsed at will for easy transport, storage and/or setup and use. Such a system of buttress hinges 316, 322 as shown here allows for collapsing of the frame 304 down to a stowable state that is substantially adjacent with and parallel to thebase 302. -
FIG. 4 is a profile view of the embodiment ofFIG. 3 being used to fully perform hip flexion. Relative to gluteal development, flexion exercise capability is different focus, yet an added bonus. The narrow width of the frame 304 from the perspective of auser 400 facilitates the performance of any desired hip flexion exercises, as shown. Given that no frame elements extend outside of the narrow profile that is occupied by thelower support post 320 and thediagonal boom 318, a user's exercising leg can be flexed directly outward and upward, encountering no obstructions along the way. - In this figure, a
user 400 is using the embodiment ofFIG. 3 to perform hip flexion. This exercise can be used to target lower body muscles other than the gluteal muscles, such as the iliopsoas, rectus femoris, and tensor fascia latae, as well as the abdominal muscles. Theuser 400 may wish to raise their exercising leg straight in front of them. The narrow profile of the frame, and the height-adjustable grip, make the full range of such straight hip flexion motion possible. The thin width of the central components of theframe - As shown here, the
user 400 can flex their hip under resistance from theline 312 by putting the front of their foot through the socket of theLERD 314. Hip flexion can also be performed swiftly for practicing front kicks under force of resistance. This profile view illustrates the value of extending the height of thegripping device 308, which can be achieved by sliding thegripping mount 326 upwards along thediagonal boom 318. Due to the relative weakness of flexor muscles, theweight 340 can incrementally be calibrated down as appropriate. - The integral value of the central swivel straddle stance is apparent when considering the hip flexion exercise shown. As is the case with hip abduction, for example, hip flexion also can be considerably compromised by force vectors orthogonal to the direction of motion of the exercising leg. If the
user 400 were not straddling the swivel axis during hip flexion, then the direction in which they pull theline 312 would not be directly away from the swivelingpulley 306, and there would be a component vector of force that urges the user's exercising leg off course. - However, as depicted in
FIG. 4 , theuser 400 is able to straddle the swivel axis due to the low profile design of the swivelingpulley 306 and the frame itself. While in this swivel straddle stance, theuser 400 is able to sweep their leg forward with perfect form. Theuser 400 can also just as easily perform any desired combination of hip flexion and abduction, adding as much lateral movement to their exercising leg as they wish. In that sense, flexion extends the continuum of hip exercises that are allowed by the functional framework, to those anterior to abduction. Still no distracting force vectors will result, thanks once again to theunobtrusive design elements -
FIG. 5 is a top view of the embodiment ofFIG. 3 being used to perform a wide spectrum of angular hip exercises. However, this same set of exercises can apply to all embodiments.FIG. 5A depicts auser 500 using theprevious embodiment 300 to perform hip extension. As discussed above, hip extension is a relatively effective exercise for engaging the gluteus maximus, which is the largest gluteal muscle. It is readily apparent from this view that theuser 500 benefits from being able to lean over the swiveling pulley and thegripping device 308 to facilitate maximum extension of their exercisingleg 502. - An effective tripod posture can only be achieved if the user stands back from the gripping device. If the line-swiveling assembly (306, obscured in
FIG. 5A ) was not set apart from thegrip axis 308, as it is here, then theuser 500 would not be able to come to rest by bringing their exercising leg back to the standing position. Instead, the exercisingleg 502 would have to be advanced farther forward than the standing leg to meet the cable-swivelingassembly 308, before returning to a truly neutral position. By contrast, the swivel straddle stance shown allows for “resting neutral.” -
FIG. 5B is a top view of the embodiment ofFIG. 3 being used to perform simultaneous hip extension and abduction, specifically: half extension, half abduction. The hip has been rotated externally, and the exercisingleg 502 brought 45 degrees laterally from the Sagittal plane. Because this movement follows the orientation of the gluteus maximus fibers (and thereby also avoids contraction of the hamstrings), it completely engages the gluteus maximus: even more so than with pure hip extension. - Hip rotation is made possible by the customized lower extremity device (LERD), described in greater detail above. External (or lateral) rotation of the hip during leg motions that involve some hip abduction activates the gluteus maximus more so than without rotation of the hip. The leg movement shown here is extremely effective in gluteal muscle exercise: in addition to fully engaging the gluteus maximus, the partial hip abduction also strongly engages the gluteus medius and minimus muscles. As discussed above, in contrast to the many other known machines, here the grip locus is offset from the swivel axis, enabling the user to lean forward to easily execute full range of motion and yielding far superior muscle activation.
- This unique leg movement (called “the 45°” due to the angle of the trajectory of the exercising leg relative to the Sagittal plane) is the best combination of hip extension and hip abduction for maximally engaging the gluteus maximus, and is also of central importance in effectively engaging all gluteal muscles in general—especially when combined with external hip rotation, as shown. But in the absence of the displacement of the line-swiveling
assembly 306 from thegripping device 308, this key exercise would not be achievable with proper form. - If the swivel axis of the line-swiveling
assembly 306 was not set apart from the grip axis of thegrip bar 308, theuser 500 would be compelled to shift their standing position laterally, so that the cable's pathway from the cable-swivelingassembly 306 to the user's foot was in line with the movement of their exercisingleg 502. Otherwise, leg movement would be compromised and distracted by a forward-component to the force vector of resistance. Furthermore, theuser 500 would not be able to come to rest at the end of each repetition, for the same reason as noted above in connection withFIG. 5A . -
FIG. 5C is a top view of the embodiment ofFIG. 3 being used to perform hip abduction. Since hip abduction heavily engages the gluteus medius and minimus muscles, it is essential to a well-balanced treatment of gluteal muscle exercise. Proper form requires a wide grip, as shown. Moreover, separation of the grip locus from the swivel axis is absolutely essential for enabling the user to fully abduct their hip. - Straight hip abduction presents a classic case of the need for a stable tripod posture in achieving maximal gluteal muscle engagement. Without the user's arms functioning as widely spaced levers, allowing the upper torso to lean slightly away from the torque of the resisted lifting leg, the back might be strained, and form and range of motion would surely be compromised.
- Tripod posture is indispensible to proper hip abduction, yet would not be possible without displacement of the swivel axis from the grip axis. On the other hand, with the swiveling
pulley 306 displaced from the vertical plane of thegripping device 308 as in the present invention, theuser 500 can fully abduct their exercisingleg 502 with proper tripod posture, stabilizing themselves with their arms instead of their lower back. The customized LERD enables the user to perform hip abduction effectively, without any discomfort to the foot. - Finally,
FIG. 5D is a top view of the embodiment ofFIG. 3 being used to perform hip adduction. This exercise actually can be used to better target the lowest portion of the gluteus maximus. Because auser 500 must stand to the side of the swivel axis when adducting the hip, in order to keep their exercising leg's 502 motion in line with the line's pathway, agripping device 1108 of substantial width is advisable, to allow for tripod posture throughout. - When considering this motion, once again the advantage of a horizontal displacement between the
gripping device 308 and the swivelingpulley 306 is clear. Theuser 500 is able to rest their exercisingleg 502 before and/or after each repetition of the hip adduction movement. This is due to the fact that the pullable end of the resistance-transmitting line is returned to the position of the swivelingpulley 306 once the exercisingleg 502 returns to the standing position. In this neutral state (“resting neutral”), no resistance is activated. - It should also be noted that each of the exercises shown (as well as still other exercises, such as hip flexion) can be achieved with perfect form from a single standing position that substantially straddles the swivel axis, with continual resistance applied during the entire duration of the exercise, and resistance is inactive upon cessation of the exercise. This convenience greatly enhances the qualitative experience of gluteal exercise and muscle development.
- The critical importance of the highly versatile central “swivel straddle” stance, in enabling proper form for all manner of gluteal exercise with a resistance-transmitting line, is immediately apparent in
FIG. 5 , and most specifically,FIGS. 5B and 5C . There, theuser 500 is clearly able to perform any combination of hip extension and abduction without any distracting tangential force vectors compelling their exercisingleg 502 to veer off its intended course. As noted above, this is also the case for any combination of hip abduction and hip flexion (seeFIG. 4 ) attempted. - To be sure, the swivel straddle stance may seem less important during straight hip extension (see
FIG. 5A ). Extension motions conceivably could be executed even if the swivelingpulley 306 were directly below thegripping device 308, with theuser 500 out of swivel straddle stance. But even in this narrow instance, the direction and intensity of the force of resistance is more likely to be discontinuous and disrupted if theuser 300 is not straddling the swivel axis. - Nonetheless, the overwhelming majority of possible leg motions for well-rounded gluteal exercise with a cable involve at least some degree of (if not substantial) hip abduction. In all such cases, exercise is greatly compromised if the
user 500 does not assume swivel straddle stance. This stance exclusively allows theuser 500 to perform a wide variety of hip extension and hip abduction combinations with either leg, in full and proper form, without changing position. -
FIG. 6 is a front oblique view of the embodiment ofFIG. 3 with its frame fully collapsed into a stowable position. Thelower support post 320 has been folded down to be substantially adjacent to and parallel with thebase 302. It has been released from its locked position within the base buttresshinge 322 so that it may move freely into this collapsed position. Likewise, thediagonal boom 318 has been released from its position in the elbow buttresshinge 322 and folded down against thelower support post 320. - The
gripping mount 326 can be moved upward along thediagonal boom 318 so that thegripping device 308 is clear of the base buttresshinge 322. This enables thediagonal boom 318 to fold down fully against thelower support post 320. In this collapsed configuration, the entire embodiment is now in an easily stowable position. For example, it could be stowed in a closet, under a table or potentially even a bed. -
FIG. 7 is a front oblique view of an embodiment of the invention with a three legged frame. Theembodiment 700 shares many structural features of theprevious embodiment 300 such as its base, swiveling pulley, adjustable gripping device, and some aspects of its frame. However, this frame is unique in its three-legged tripod weightlifting frame design. This design is particularly lightweight, and again is quite easily collapsible and transportable. - While certain elements shown here (such as the frame, for example) are unique to this
embodiment 700, the same functional framework ofFIG. 2 is present, and achieving the same benefits here as previously discussed. The structural variations of thisembodiment 700 therefore do not depart from the essence of the inventive concept. Instead, those variations commingle with and enhance the effectiveness of the functional framework, thereby asserting and demonstrating its value even more clearly. - The embodiment shown 700 includes a
base 702, atripod frame 704 hingedly attached to and supported by thebase 702, a line-swivelingassembly 706 coupled with thebase 702, agripping device 708 connected to theframe 704, and a leaningspace 710 that allows a user to lean their upper body for full range of exercise motion during any combination of hip extension and hip abduction, while under continuous resistance. - As with the
earlier embodiment 300, the line-swivelingassembly 706 is a pulley configured to engage with a resistance-transmittingline 712 to enable a pullable end of theline 712 to swivel about a vertical swivel axis, thereby allowing a user to pull the pullable end with their leg via a lowerextremity receiving device 714, or “LERD,” to perform full range of motion for any combination of hip extension and abduction. - From the line-swiveling
assembly 706, the resistance-transmittingline 712 is guided across theframe 704 along a pathway that runs along adiagonal boom 716 that is defined by a series of pulleys. Supporting thediagonal boom 716 are twofront legs rear leg 720, all attached to the base viahinges diagonal boom 716. - A
trapezoidal support plate 722 is attached to an upper portion of the front of the twofront legs gripping device 708, supporting it from below. Thissupport plate 722 adds a critical element of structural integrity of the entirety of theframe 704, in its erected-for-use state. Ametal crossbar 724 extends from therear leg 720, through a hole in theplate 722, and over to the proximal portion of thediagonal boom 716, for still further frame support. - The
diagonal boom 716 is attached to thefront legs boom 716 tightly in its diagonal position relative to thefront legs rear leg 720 is coupled to the diagonal boom via a slidingchamber 726. During collapse, it can act as a hinge relative to therear leg 720 and it can slide up thediagonal boom 716. When set for use, it is locked securely to the position of theboom 716, by way of a locking pin. - From the swiveling
pulley 706, theline 714 is guided across theframe 704. Theline 714 is guided vertically upward from the swivelingpulley 706 to an intermediate guiding pulley (not shown) located at the proximal end of thediagonal boom 716, and then diagonally upward along theboom 716 to an upper pulley (not shown) at the boom's 716 distal end, after which the line drops to connect toliftable weight 728. The pair of boom pulleys (not shown here) together comprise a weightlifting pulley assembly. - In this embodiment, the
line 714 is a weight machine cable configured to liftweight 728 in cooperation with the weightlifting pulley assembly, and theweight 728 to be lifted is a container of water. This type of weight complements the portable design of the apparatus itself. The container can be emptied and easily stored with the apparatus. A metric on thecontainer 728 can indicate weight according to volume of water filled. -
FIGS. 8A and 8B are front oblique views of the embodiment ofFIG. 7 being used to perform hip extension and hip abduction, respectively. This pair of images graphically illustrates the importance of hip abduction as a supplement to hip extension, for the purpose of attaining a fully sculpted and shapely buttock contour, as well as maximally strengthening the gluteal musculature and thereby also the body's core. -
FIG. 8A is a front oblique view of the embodiment ofFIG. 7 being used to perform hip extension. Hip extension is an efficient movement for exercising the largest gluteal muscle, the gluteus maximus. Auser 800 leans to shift their weight forward and assume tripod posture with botharms 802 and theirstanding leg 804, as the fully extend their exercisingleg 806 back. As a result, thegluteus maximus 808 of the exercisingleg 806 is engaged. - The
LERD 714 includes a loop into which a user can step to insert their foot. A horizontal opening along a distal portion of the loop receives the user's heel, enabling theLERD 714 to remain securely attached around their foot and ankle during leg motion primarily involving hip extension. In this capacity theLERD 714 enables full range of hip extension, without restricting the user's natural tendency to point their toes downward as the leg extends. - Despite the benefits of hip extension, this motion does not exercise the
gluteus maximus 808 along the precise orientation of its fibers, nor does it even engage all of the gluteal muscles (in particular, the gluteus medius and gluteus minimus are not significantly targeted during “pure” hip extension, that is: hip extension that is not at all accompanied by hip abduction). At least some hip abduction (plus external rotation of the hip) is needed to fully activate thegluteus maximus 808, and indeed substantial hip abduction is required to activate the glueus medius and minimus muscles. -
FIG. 8B is a front oblique view of the embodiment ofFIG. 7 being used to perform hip abduction. The ability to abduct the hip is indispensible in developing one's gluteal musculature. Straight abduction (shown here) works the gluteus medius andminimus muscles 809, thereby leading to more balanced buttock strengthening and development, and more well-rounded appearance. Strategically combining hip extension with hip abduction can exercise allgluteal muscles - For predominantly abducting the hip, the user can insert their foot partially into the
LERD 714 so the entire distal portion of its loop wraps around the outside of their foot (rather than surrounding the heel, as inFIG. 8A ), shown inFIG. 8B . This technique helps to support more of the user's outer foot during hip abduction, than in the case of leg motion comprised predominantly of hip extension, where the lower leg can more easily absorb the majority of the force of resistance transmitted from theline 712. - The versatile design of the
LERD 714 provides a secure central attachment to the exercising foot during any combination of hip extension and hip abduction—even abduction that includes external hip rotation (which is particularly beneficial to gluteal maximus strengthening). The central attachment enables theline 712 to be guided perpendicularly away from the orientation of the foot of the abducting leg, without in any way interfering with proper form for hip abduction exercise. - The design of the
present embodiment 700 greatly facilitates proper form for hip abduction, just as it does so for hip extension. Here, theuser 800 can lean forward and assume stable tripod posture with awide grip 802 near pelvis height, thus avoiding the strain of torsion or arching of their back. Furthermore, here theLERD 714 enables theuser 800 to abduct their hip without the lateral force from thecable 712 pulling the front of their foot inward. - Not shown in this figure is an intermediate exercise that is half way between the two figures, ½ extension, and ½ abduction, the leg angling at a 45 degree away from the bar. The ‘45’, allows for simultaneous contraction of all three gluteus muscles, and with the combination of the LERD wrapping the lateral foot, external rotation is added to the gluteal work. The ‘45’ is the single most effective exercise to simultaneously exercise all three gluteal muscles.
-
FIGS. 8A and 8B illustrate the wide variety of hip and leg motion that can be executed safely and with proper form under resistance, when using theembodiment 700. Hip extension as shown inFIG. 8A , hip abduction as shown inFIG. 8B , and/or any combination thereof, can be performed with proper balance and optimal body mechanics. This versatility is due to the user's tripod posture, enabled by the horizontal spatial separation between thegrip bar 708 and the swivelingpulley 706, as well as by the leaningspace 710 above the frame. - The term “tripod” underscores the enhanced stability of this specific posture that is produced by the user's two
arms 802 and theirstanding leg 804 during exercise. Its execution depends on the swivel-grip separation. If the grip locus was not separated anteriorly from the swivel axis, then the user's grip would not be anterior to their standing leg, and thus they would not be leaning forward and/or downward with their grip. In that case, they could not be said to be in tripod posture. - Tripod posture further enables a user to lean away from their exercising leg to enable it to exert its full range of motion, thereby activating their gluteal muscles to the greatest extent. It also distributes the user's mass more evenly, thereby providing superior balance. Finally, by enabling the user to appropriately tilt their torso and shift more weight to their shoulders, it minimizes the potential strain on their lower back.
- By allowing a user to work their gluteal muscles with superior efficiency and comfort, the present invention enables a user to lift more weight and perform more assertive movements than other forms of gluteal exercise generally allow. Furthermore, the ergonomic form and posture supported by the present embodiment facilitates gluteal exercise through straight-legged hip extension and hip abduction movements, thereby minimizing joint strain as well.
- This enhanced efficiency of movements is only possible because the
user 800 is able to stand in a central position that substantially straddles the swivel axis.FIGS. 8A & 8B highlight well the versatility of this swivel straddle stance. As theuser 800 exercises, they can extend and/or abduct either exercisingleg 806 directly outward from the swivelingpulley 806 in whichever direction they wish, with no force vectors pulling them off course and no need to apply torque with their body. In addition, theuser 800 can change up their exercise motion without having to alter their standing position, without having to contend with resistance from thecable 712 while resting in that position. - In these figures, the weightlifting pulley assembly is shown: the intermediate guiding
pulley 810 at the proximal end of theboom 716, and theupper boom pulley 812 at the distal end of theboom 716. The structural integrity of theframe tripod 814 is visible here, as theuser 800 leans into the approximate center of thegripping bar 708 in every exercise they perform. All legs and the extra frame supports converge to provide maximal structural integrity to this central region. - It should be noted that in some embodiments, a similar tripod frame can be constructed that is the converse of what is shown here: a pair of rear legs and a single central front leg. While such a tripod configuration would not have the same ease of collapsibility, it could enable the
user 800 greater freedom of motion for hip flexion exercise, for example. However, the current design enables a “slide lock” collapsible frame functionality that is explored further in the next set of figures. - As demonstrated, the functional framework explored in
FIG. 2 is integral to the benefits described here. The key functional elements, arranged in accordance with the parameters laid out in this discussion, provide the user with a superior experience and superior results. And while other embodiments may include variations on certain structural elements, such as the configuration of their structural frame or the nature of their resistance-generating element, they nonetheless employ this same familiar functional framework. -
FIG. 9A is a front oblique view of the embodiment ofFIG. 7 with its frame being collapsed down into a stowable position. This figure represents a partially erected, partially collapsed state of the frame: as such, it can be considered an intermediate stage in preparation for either setup for use, or collapse for stowing. It is therefore just as instructive for understanding how the frame can be erected and readied for use from an initially collapsed position, as in understanding collapse from an erected position. - As shown, the
water container 728 can be alternately engaged with and disengaged from aterminal locking gate 900 at the load-bearing end of theline 712, for use and storage respectively. Furthermore, the water can be emptied from thecontainer 728 and the container can be folded for easy storage and/or transport. For example, the container can be made of strong but deformable plastic, which can easily fold between theframe 704 andbase 702 when in the collapsed state, for example. - The
boom 716 can be disengaged from its fixed position relative to therear leg 720 by releasing thelocking pin 902 and unlocking the slidingchamber 726. Once unlocked, the slidingchamber 726 is free to slide relative to theboom shaft 716. Next, themetal crossbar 724 is disengaged from theboom 716 by releasing the hook on themetal crossbar 724 from its corresponding mating element (not shown) on theboom 716. This frees theboom 716 to fold down relative to all threetipod legs - Before the
boom 716 andrear leg 720 can fully collapse down, they must first be decoupled. This requires that the slidingchamber 726 be slid out towards the distal end of theboom 716, such that themetal crossbar 724 can be retracted through the support plate that spans the space between the twofront legs gripping device 708. Once this has occurred (as inFIG. 9A ), all frame elements are free to fold down against the plane of the base. -
FIG. 9B is a front oblique view of the embodiment ofFIG. 7 with its frame fully collapsed into the stowable position. Thelocking pin 902 that was released from the sliding chamber 726 (thereby enabling the chamber to slide relative to the boom 716) can now be used to secure the frame to thebase 702. In particular, therear leg 720 is shown here receiving thelocking pin 902, which is driven through the rear leg and into the base 702 itself. The entire embodiment is collapsed to a thin profile. -
FIG. 9C is a perspective view of the embodiment ofFIG. 7 stowed against a wall. With its thin profile, thisembodiment 700 offers many storage options. A frequent user may wish to simply stow it against awall 904, for example in an exercise area.Wheels grip bar 708, the base 702 can be supported by the collapsed frame as it is rolled. -
FIG. 10A is a front oblique view of an embodiment of the invention including an elastic band whose tension can be adjusted along a telescoping arm. Theembodiment 1000 shares many structural features of the previous embodiments such as its base, swiveling pulley, adjustable gripping device, and some aspects of its frame. However, this frame is unique in its telescoping arm for elastic resistance. This elastic resistance design is robust but also quite easily collapsible and transportable. - While certain elements shown here (such as the frame, for example) are unique to this
embodiment 1000, the same functional framework ofFIG. 2 is present, and achieving the same benefits here as previously discussed. The structural variations of thisembodiment 1000 therefore do not depart from the essence of the inventive concept. Instead, those variations commingle with and enhance the effectiveness of the functional framework, thereby asserting and demonstrating its value even more clearly. - The embodiment shown 1000 includes a
base 1002, aframe 1004 hingedly attached to and supported by thebase 1002, a line-swivelingassembly 1006 coupled with thebase 1002, agripping device 1008 connected to theframe 1004, and a leaningspace 1010 that allows a user to lean their upper body for full range of exercise motion during any combination of hip extension and hip abduction, while under continuous resistance from theline 1012. - The
frame 1004 itself includes such sub-elements as avertical support post 1016 connected to and supported by thebase 1002, thegrip support bar 1008 coupled with and supported by thesupport post 1016, and a telescoping elastic band arm 1020 (with an extension 1022) attached to and arising from thebase 1002. Theframe 1004 also includes apulley cross arm 1018 which extends from theelastic band arm 1020 across thevertical support post 1016 and beyond, hovering above the swivelingpulley 1006. - As with earlier embodiments, the swiveling
pulley 1006 engages with a resistance-transmittingline 1012, which can be pulled with an exercising leg via the lower extremity receiving device (LERD) 1014. Theline 1012 is guided vertically upward from the swivelingpulley 1006 to a strategically placed frontal guiding pulley 1024 (the intermediate guiding pulley according to the functional framework) located at the front terminus of the pulley cross bar, and then guided across the frame 1004: horizontally to arear guiding pulley 1026, located near the rear terminus of thepulley cross arm 1018. - From the
rear guiding pulley 1026, theline 1012 is guided vertically upward along thetelescoping arm 1020 and itsextension 1022, to ultimately connect to anelastic resistance band 1028 via a connecting element, such as a ring or locking loop. Theelastic resistance band 1028 itself runs around anelastic band pulley 1030 attached to an distal portion of thearm extension 1022, and then drops down to connect with an elastic band anchor 1032 (which is connected to the bottom of thetelescoping arm 1020, near the base 1002). - In the embodiment shown, the
telescoping arm 1020 is hingedly attached to thevertical support post 1016. Thevertical support post 1016 itself is supported and locked into its vertical use-ready position by a base buttresshinge 1034. The base buttresshinge 1034 holds thevertical support post 1016 securely in the vertical position relative to abaseplate 1036, which itself is attached to thebase 1002. Thesupport post 1016 is hingedly connected to thebaseplate 1036, and can be folded down when unlocked from the base buttresshinge 1034. - The frontal guiding
pulley 1024,rear guiding pulley 1026, andelastic band pulley 1030, function together as a resistance-activating pulley assembly. This “band-stretching” resistance-activating pulley assembly facilitates stretching of theelastic band 1028, which is the means for generating resistance against the pulling of the resistance-transmittingline 1012. Alternative resistance-generating elements other than an elastic band, such as liftable weight or a flexible rod a spring, and still others, will be readily apparent to or within the contemplation of one of ordinary skill in the art. - In the embodiment shown, the resistance transmitted by the
line 1012 is generated by the stretching of an interchangeable elastic resistance band. 1028 when the pullable end of theline 1012 is pulled with sufficient force. Unlike lifted weights, elastic bands can generate resistance that cannot be diminished via quickly accelerated motion. A combination of bands can be attached to the cable 1312 for added resistance. - A key advantage of resistance generated by an
elastic band 1028 is the linear variability of its resistance. Linear variable resistance is resistance that increases in roughly linear proportion to the amount that a band has already been stretched, which many exercise enthusiasts find particularly beneficial for certain types of exercise. The reason linear variable resistance is often considered so advantageous and conducive to muscle building is that it engages muscles with greater resistance as the muscle's own strength capacity increases, requiring the greatest pulling force at the very apex of an exercise repetition. - As with earlier embodiments, various components of the
frame 1004 may be adjusted. Here, the position of thegripping device 1008 can be adjusted in the vertical dimension. The height of thegripping device 1008 is controlled by a grip height adjustment system that extends the vertical support post up and down. Furthermore, the tension of a givenelastic band 1028 can be adjusted by telescopingarm 1020, given how far itsextension arm 1028 is projected upward. -
FIG. 10B is a profile view of the embodiment ofFIG. 10A . In this view, the course of theline 1012 from LERD connection, to swivelpulley 1006, to intermediate guidingpulley 1024, and ultimately to theelastic resistance connection 1028 can easily be traced. One hole of thetelescopic extension 1022 can be seen to demonstrate the adjustable height of the elastic support tower. - Also the connection mechanism of the interchangeable elastic band attaching to the
tower base attachment 1032, and the line attachment other end, allowing for easy interchange of various different elastic strength units. In this view, a verticalsupport post hinge 1038 can be seen inside the base buttresshinge 1034, enabling thevertical support post 1016 itself to be folded down adjacent to and parallel with thebase 1002. Also in view in this figure is atelescoping arm hinge 1040, which enables thetelescoping arm 1020 to be folded down against the folded-downvertical support post 1016, once again parallel to thebase 1002. -
FIG. 10C is a front oblique view of the embodiment ofFIG. 10A with its frame fully collapsed into a stowable position. Thevertical support post 1016 has been folded all the way down against the top surface of thebase 1002, adjacent to and parallel with it. Thetelescoping arm 1020 has also been folded down, adjacent to thevertical support post 1018 and also parallel with thebase 1002. In this highly compact state, thisembodiment 1000 can be easily stowed in a variety of different locations. -
FIG. 11A is a front oblique view of an embodiment of the invention including an elastic band whose tension can be adjusted by a hand crank. Theembodiment 1100 shares many structural features of the previous embodiments such as its base, swiveling pulley, gripping device, and some aspects of its frame. However, this frame is unique for being positioned at a rear edge of thebase 1002, spanning the full width of that edge. - While certain elements shown here (such as the frame, for example) are unique to this
embodiment 1100, the same functional framework ofFIG. 2 is present, and achieving the same benefits here as previously discussed. The structural variations of thisembodiment 1100 therefore do not depart from the essence of the inventive concept. Instead, those variations commingle with and enhance the effectiveness of the functional framework, thereby asserting and demonstrating its value even more clearly. - The embodiment shown 1100 includes a
base 1102, aframe 1104 hingedly attached to and supported by thebase 1102, a line-swivelingassembly 1106 coupled with thebase 1102, agripping device 1108 connected to theframe 1104, and a leaning space 1110 that allows a user to lean their upper body for full range of exercise motion during any combination of hip extension and hip abduction, while under continuous resistance from theline 1112. - The
frame 1104 itself includes such sub-elements as twoside support posts base 1102, agrip support bar 1108 supported by the support posts 1116, 1117, and apulley arm 1118, which is attached to and extends from aframe cross bar 1120 that spans the space between the twosupport posts frame 1104 also includes support struts 1122, 1123 to support theframe 1104 upright, and hinges 1124, 1125 for folding theframe 1104 down. - As with earlier embodiments, the swiveling
pulley 1106 engages with a resistance-transmittingline 1112, which can be pulled with an exercising leg via the lower extremity receiving device (LERD) 1114. Theline 1112 is guided vertically upward from the swivelingpulley 1106 to a strategically placed frontal guiding pulley 1126 (the intermediate guiding pulley according to the functional framework) located at the front terminus of thepulley arm 1118, and is then guided across thepulley arm 1118, and across the elastic band assembly. - An elastic resistance generating assembly includes a resistance-generating pulley assembly, which communicates with the resistance-transmitting
line 1112, anelastic resistance band 1128 connected to the distal end of the resistance-transmittingline 1112, and finally a tension-adjustingline 1130 connected to the distal end of theelastic resistance band 1128. Thetension adjusting line 1130 feeds into a hand crank which can feed theline 1130 the tension of theelastic resistance band 1128 itself. -
FIG. 11B is a rear view of the embodiment ofFIG. 11A . Arear guiding pulley 1132 attached horizontally to thepulley arm 1118 via a rear pulley guidingpulley housing 1134 receives theline 1112, and it is fed into the elastic resistance generating assembly, which includes twoline pulleys tension adjusting line 1130 and thereby increasing tension of theelastic resistance band 1128. - The elastic resistance generating assembly pulleys and hand crank 1145 are attached to the rear surface of the two
side support posts pulley arm 1118 is capable of turning on anaxis 1136, thereby folding into the plane of the frame. For use, however, it is locked into place with alocking pin 1138. To fold the pulley arm into the frame, thelocking pin 1138 can be removed. Then, the entire frame can be folded down to the base. -
FIG. 11C is a front oblique view of the embodiment ofFIG. 11A with its frame fully collapsed into a stowable position. Thepulley arm 1118 has been folded into the plane of theside support arms base 1102. In this highly compact state, thisembodiment 1100 can be stowed in a variety of different locations. It can also be carried somewhat like a suitcase, with thegrip bar 1108 as a handle. -
FIG. 12A is a front oblique view of an embodiment of the invention that can use the resistance of a general purpose exercise machine. Theembodiment 1200 shares many structural features of the previous embodiments such as its base, swiveling pulley, gripping device, and some aspects of its frame. However, thisembodiment 1200 is unique in that it does not supply its own resistance-generating element or resistance-transmitting line, but rather incorporates those of anothermachine 1201 - While certain elements shown here (such as the frame, for example) are unique to this embodiment 11100, the same functional framework of
FIG. 2 is present, and achieving the same benefits here as previously discussed. The structural variations of thisembodiment 1100 therefore do not depart from the essence of the inventive concept. Instead, those variations commingle with and enhance the effectiveness of the functional framework, thereby asserting and demonstrating its value even more clearly. - The embodiment shown 1200 includes a
base 1202, aframe 1204 hingedly attached to and supported by thebase 1202, a line-swivelingassembly 1206 coupled with thebase 1202, agripping device 1208 connected to theframe 1204, and a leaningspace 1210 that allows a user to lean their upper body for full range of exercise motion during any combination of hip extension and hip abduction, while under continuous resistance from theline 1212. - The
frame 1204 itself includes such sub-elements as twosupport posts base 1202, agrip support bar 1208 supported by the support posts 1216, 1217, and apulley cross arm 1218, which is attached to theright support post 1217. Theframe 1204 also includes asupport wing 1220 hingedly attached to theright support post 1217, which can help counter torque that is generated by the load-bearing line 1212 running off-center on thebase 1202. - The support posts 1216, 1217 are connected via a bottom
supportive crossbar 1222, which stands on thebase 1202 and supports theframe 1204 in its upright and use-ready state, but which lifts off the base when theframe 1204 is folded down. Abase cutout 1224 enables theembodiment 1200 to get close to a neighboringmachine 1201 whose own cable connects to theline 1212, and its associated liftable weight, whilehinges 1226 enable theframe 1204 to fold down or be lifted upright. - As with earlier embodiments, the swiveling
pulley 1206 engages with a resistance-transmittingline 1212 that can be pulled with an exercising leg via the lower extremity receiving device (LERD) 1214. Theline 1212 is guided vertically upward from the swivelingpulley 1206 to a strategically placed frontal guiding pulley (the intermediate guiding pulley according to the functional framework) located at the front terminus of the pulley cross bar, and then guided across the frame 1204: horizontally to a rear guiding pulley located at the rear terminus of thepulley cross arm 1218. - From the rear guiding pulley, the resistance-transmitting
line 1012 is guided vertically upward. Theline 1212 for thisembodiment 1200 connects to a line from a neighboringmachine 1201, which in this figure is a multipurpose weight machine. As the 1212 line is guided upward from theembodiment 1200 and runs into a new line, the new line encounters a slidingpulley 1228 which is capable of sliding up and down a vertical track. From there, theline 1212 is fed through a pulley assembly and down to liftable weight. - The embodiment shown 1200 enhances the exercise options of the
multipurpose machine 1201. If a user tried performing hip extension and/or hip abduction with themultipurpose machine 1201 itself, they not have a grip to enable tripod posture, nor would they have the space to lean forward during hip extension. Unable to execute the proper posture during hip extension, a user would naturally flex their knee and engage their hamstring, at the expense of the gluteal muscles. - Furthermore, hip abduction would be just as severely compromised without a true gripping device that a user could grasp to counter the torque created on their body from their abducting leg. In both of these cases, the
multipurpose machine 1201 would not provide an optimal gluteal exercise experience. When themultipurpose machine 1201 is supplemented with thepresent embodiment 1200, however, great value is added to the user's gluteal exercise repertoire, with such a lightweight device. -
FIG. 12B is a front oblique view of the embodiment ofFIG. 12A with its frame fully collapsed into a stowable position. Thepulley arm 1218 has been folded into the plane of the support arms and the entire frame has been folded down to be adjacent to and parallel with thebase 1102. Thesupport wing 1220 has been folded away from itsstopper 1230 and down against the rest of the frame and thebase 1202. In this highly compact state, thisembodiment 1100 can be stowed discreetly in a variety of different locations.
Claims (20)
1. A stowable lower body fitness apparatus, comprising:
a base;
a frame coupled to and supported by the base, the frame being capable of collapsing into a stowable position that is substantially adjacent to and substantially parallel with the base;
a cable-swiveling assembly coupled with the base, the cable-swiveling assembly being configured to engage with a resistance-transmitting cable, to enable a pullable end of the cable to swivel about a vertical swivel axis to allow a user to pull the pullable end with an exercising leg to perform any combination of hip extension and hip abduction from a single standing position;
a gripping device connected to the frame, the gripping device including a plurality of grippable areas positioned along a substantially horizontal grip locus,
the grip locus being sufficiently positioned relative to the swivel axis to allow the user to stabilize themselves in a tripod posture formed by both arms and a standing leg during the any combination of hip extension and hip abduction; and
a leaning space passing through the swivel axis, the leaning space having sufficient volume to allow the user to lean their upper body to achieve full range of exercise motion during the any combination of hip extension and hip abduction.
2. The fitness apparatus of claim 1 , wherein the cable-swiveling assembly and the frame are configured to enable a user to pull the pullable end of the cable with an exercising leg to perform hip flexion.
3. The fitness apparatus of claim 1 , further comprising a resistance adjustment system.
4. The fitness apparatus of claim 1 , wherein the cable-swiveling assembly includes a swiveling pulley coupled with the resistance-transmitting cable, the swiveling pulley being free to swivel about the swivel axis.
5. The fitness apparatus of claim 1 , further comprising an intermediate guiding pulley positioned no higher than substantially hip height.
6. The fitness apparatus of claim 1 , further comprising a resistance-activating pulley assembly coupled with the frame, the resistance-activating pulley assembly being configured to engage with the resistance-transmitting cable to facilitate activation of a resistance-generating element.
7. The fitness apparatus of claim 1 , wherein the resistance transmitted by the resistance-transmitting cable is generated by lifting of an exercise weight that is connected to a resistance-bearing end of the resistance-transmitting cable.
8. The fitness apparatus of claim 1 , wherein the resistance transmitted by the resistance-transmitting cable is generated by stretching of an elastic resistance band that is connected to a resistance-bearing end of the resistance-transmitting cable.
9. The fitness apparatus of claim 1 , wherein the resistance transmitted by the resistance-transmitting cable is generated by bending of a flexible resistance rod that is connected to a resistance-bearing end of the resistance-transmitting cable.
10. The fitness apparatus of claim 1 , wherein the resistance transmitted by the resistance-transmitting cable is generated by twisting of a torsional resistance disc that is connected to a resistance-bearing end of the resistance-transmitting cable.
11. The fitness apparatus of claim 1 , wherein the pullable end of the resistance-transmitting cable is connected to a lower extremity receiving device, the lower extremity receiving device being configured to receive the user's lower extremity and thereby engage with the user's leg.
12. The fitness apparatus of claim 1 , wherein the gripping device is configured to support a user during hip adduction.
13. The fitness apparatus of claim 1 , wherein the gripping device includes a straight bar positioned along a horizontal grip axis.
14. The fitness apparatus of claim 1 , wherein the gripping device includes a plurality of handlebars positioned along the grip locus.
15. The fitness apparatus of claim 1 , wherein the gripping device includes two grippable areas positioned substantially at least shoulders width apart along the grip locus.
16. The fitness apparatus of claim 1 , wherein the grip locus is substantially at least forearm length from the swivel axis.
17. The fitness apparatus of claim 1 , wherein the gripping device is height-adjustable.
18. The fitness apparatus of claim 1 , further comprising a swivel-grip displacement adjustment system, the swivel-grip adjustment system being configured to enable adjustment of displacement between the swivel axis and the grip locus.
19. A stowable lower body fitness apparatus, comprising:
a base;
a frame coupled to and supported by the base, the frame being capable of collapsing into a stowable position that is substantially parallel with and adjacent to the base;
a swiveling pulley coupled with the base, the swiveling pulley being configured to engage with a resistance-transmitting cable, to enable a pullable end of the cable to swivel about a vertical swivel axis to allow a user to pull the pullable end with an exercising leg to perform full range of motion for any combination of hip extension and hip abduction under resistance from a single standing position that substantially straddles the swivel axis;
a weightlifting pulley assembly coupled with the frame, the weightlifting pulley assembly being configured to engage with the cable to facilitate lifting of a liftable exercise weight when the pullable end is pulled with sufficient force;
a gripping device connected to the frame, the gripping device including a plurality of grippable areas positioned along a substantially horizontal grip locus,
the grip locus being sufficiently positioned relative to the swivel axis to allow the user to stabilize themselves in a tripod posture formed by both arms and a standing leg during the any combination of hip extension and hip abduction; and
a leaning space passing through the swivel axis, the leaning space having sufficient volume to allow the user to lean their upper body to achieve full range of exercise motion during the any combination of hip extension and hip abduction.
20. A stowable lower body fitness apparatus, comprising:
a base;
a frame coupled to and supported by the base, the frame being capable of collapsing into a stowable position that is substantially parallel with and adjacent to the base;
a swiveling pulley coupled with the base, the swiveling pulley being configured to engage with an resistance-transmitting cable, to enable a pullable end of the cable to swivel about a vertical swivel axis to allow a user to pull the pullable end with an exercising leg to perform full range of motion for any combination of hip extension and hip abduction under resistance from a single standing position that substantially straddles the swivel axis;
a band-stretching pulley assembly coupled with the frame, the band-stretching pulley assembly being configured to engage with the cable to facilitate stretching of an elastic resistance band when the pullable end is pulled with sufficient force;
a gripping device connected to the frame, the gripping device including a plurality of grippable areas positioned along a substantially horizontal grip locus,
the grip locus being sufficiently positioned relative to the swivel axis to allow the user to stabilize themselves in a tripod posture formed by both arms and a standing leg during the any combination of hip extension and hip abduction; and
a leaning space passing through the swivel axis, the leaning space having sufficient volume to allow the user to lean their upper body to achieve full range of exercise motion during the any combination of hip extension and hip abduction.
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US14/876,810 US20160236032A1 (en) | 2014-10-06 | 2015-10-06 | Stowable lower body fitness apparatus providing enhanced muscle engagement, body stability and range of motion |
US15/183,605 US10272289B2 (en) | 2014-10-06 | 2016-06-15 | Lower extremity receiving device for providing enhanced leg mobility during lower body exercise |
US15/183,575 US10293206B2 (en) | 2014-10-06 | 2016-06-15 | Stowable lower body fitness apparatus providing enhanced muscle engagement, body stability and range of motion |
US15/183,537 US10265576B2 (en) | 2014-10-06 | 2016-06-15 | Lower body fitness apparatus for providing enhanced muscle engagement, body stability and range of motion |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US201462060556P | 2014-10-06 | 2014-10-06 | |
US14/876,810 US20160236032A1 (en) | 2014-10-06 | 2015-10-06 | Stowable lower body fitness apparatus providing enhanced muscle engagement, body stability and range of motion |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US14/876,811 Continuation-In-Part US20160166871A1 (en) | 2014-10-06 | 2015-10-06 | Lower extremity receiving device for providing enhanced leg mobility during lower body exercise |
Related Child Applications (4)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US14/876,811 Continuation-In-Part US20160166871A1 (en) | 2014-10-06 | 2015-10-06 | Lower extremity receiving device for providing enhanced leg mobility during lower body exercise |
US15/183,575 Continuation-In-Part US10293206B2 (en) | 2014-10-06 | 2016-06-15 | Stowable lower body fitness apparatus providing enhanced muscle engagement, body stability and range of motion |
US15/183,537 Continuation-In-Part US10265576B2 (en) | 2014-10-06 | 2016-06-15 | Lower body fitness apparatus for providing enhanced muscle engagement, body stability and range of motion |
US15/183,605 Continuation-In-Part US10272289B2 (en) | 2014-10-06 | 2016-06-15 | Lower extremity receiving device for providing enhanced leg mobility during lower body exercise |
Publications (1)
Publication Number | Publication Date |
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US20160236032A1 true US20160236032A1 (en) | 2016-08-18 |
Family
ID=56110156
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US14/876,811 Abandoned US20160166871A1 (en) | 2014-10-06 | 2015-10-06 | Lower extremity receiving device for providing enhanced leg mobility during lower body exercise |
US14/876,810 Abandoned US20160236032A1 (en) | 2014-10-06 | 2015-10-06 | Stowable lower body fitness apparatus providing enhanced muscle engagement, body stability and range of motion |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US14/876,811 Abandoned US20160166871A1 (en) | 2014-10-06 | 2015-10-06 | Lower extremity receiving device for providing enhanced leg mobility during lower body exercise |
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US (2) | US20160166871A1 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
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US10220241B2 (en) * | 2016-02-19 | 2019-03-05 | Kenneth Dwayne Strickland | Gluteus maximus power lift apparatus |
CN110743135B (en) * | 2019-11-18 | 2020-12-11 | 扬州莱特斯婴童用品有限公司 | Induced infant standing training equipment |
CN115888021B (en) * | 2022-10-26 | 2024-04-19 | 西南医科大学 | Hanger is tempered to old hemiplegia patient |
-
2015
- 2015-10-06 US US14/876,811 patent/US20160166871A1/en not_active Abandoned
- 2015-10-06 US US14/876,810 patent/US20160236032A1/en not_active Abandoned
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US20160166871A1 (en) | 2016-06-16 |
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Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |