WO2002036210A9 - Rotational exercise system, device and method - Google Patents

Rotational exercise system, device and method

Info

Publication number
WO2002036210A9
WO2002036210A9 PCT/US2001/048681 US0148681W WO0236210A9 WO 2002036210 A9 WO2002036210 A9 WO 2002036210A9 US 0148681 W US0148681 W US 0148681W WO 0236210 A9 WO0236210 A9 WO 0236210A9
Authority
WO
WIPO (PCT)
Prior art keywords
user
ofthe
assembly
cranldng
cranking
Prior art date
Application number
PCT/US2001/048681
Other languages
French (fr)
Other versions
WO2002036210A2 (en
WO2002036210A3 (en
Inventor
Richard H Byrd Jr
Original Assignee
Corpx Dev Inc
Richard H Byrd Jr
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Corpx Dev Inc, Richard H Byrd Jr filed Critical Corpx Dev Inc
Priority to AU2002234037A priority Critical patent/AU2002234037A1/en
Publication of WO2002036210A2 publication Critical patent/WO2002036210A2/en
Publication of WO2002036210A3 publication Critical patent/WO2002036210A3/en
Publication of WO2002036210A9 publication Critical patent/WO2002036210A9/en

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    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B21/00Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
    • A63B21/22Resisting devices with rotary bodies
    • A63B21/225Resisting devices with rotary bodies with flywheels
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B21/00Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
    • A63B21/02Exercising 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
    • A63B21/055Exercising 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
    • A63B21/0552Elastic ropes or bands
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B22/00Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements
    • A63B22/0002Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements involving an exercising of arms
    • A63B22/0005Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements involving an exercising of arms with particular movement of the arms provided by handles moving otherwise than pivoting about a horizontal axis parallel to the body-symmetrical-plane
    • AHUMAN NECESSITIES
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    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B22/00Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements
    • A63B22/0002Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements involving an exercising of arms
    • A63B22/0007Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements involving an exercising of arms by alternatively exercising arms or legs, e.g. with a single set of support elements driven either by the upper or the lower limbs
    • AHUMAN NECESSITIES
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    • A63B22/0015Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements with an adjustable movement path of the support elements
    • A63B22/0023Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements with an adjustable movement path of the support elements the inclination of the main axis of the movement path being adjustable, e.g. the inclination of an endless band
    • AHUMAN NECESSITIES
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    • A63B22/06Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements with support elements performing a rotating cycling movement, i.e. a closed path movement
    • A63B22/0605Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements with support elements performing a rotating cycling movement, i.e. a closed path movement performing a circular movement, e.g. ergometers
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    • A63B22/0025Particular aspects relating to the orientation of movement paths of the limbs relative to the body; Relative relationship between the movements of the limbs
    • A63B2022/0028Particular aspects relating to the orientation of movement paths of the limbs relative to the body; Relative relationship between the movements of the limbs the movement path being non-parallel to the body-symmetrical-plane, e.g. support elements moving at an angle to the body-symmetrical-plane
    • A63B2022/003Particular aspects relating to the orientation of movement paths of the limbs relative to the body; Relative relationship between the movements of the limbs the movement path being non-parallel to the body-symmetrical-plane, e.g. support elements moving at an angle to the body-symmetrical-plane the movement path being perpendicular to the body-symmetrical-plane
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    • A63B21/012Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using frictional force-resisters
    • A63B21/018Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using frictional force-resisters including a rope or other flexible element moving relative to the surface of elements
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    • A63B21/151Using flexible elements for reciprocating movements, e.g. ropes or chains
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    • A63B21/4041Interfaces with the user related to strength training; Details thereof characterised by the movements of the interface
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Definitions

  • This invention relates to the field of exercise systems. More particularly, this invention relates to exercise systems that utilize (a) cranking assemblies in general, and (b) cranking assemblies which rotate flywheels.
  • cycling does more than trim waistlines and tone muscles. It has been proven to aid in the relief of simple ailments, such as cold and influenza, as well as to protect against major conditions such as heart disease, cancer and diabetes. It helps prevent heart attacks, strokes, and high blood pressure. It speeds the passage of food through the body, so potential carcinogens spend less time interacting with the body. It has been shown to increase life expectancy. And it can arguably make one smarter, by increasing blood flow to the brain.
  • Cycling speeds the healing process after injuries or sickness. Like any aerobic exercise, cycling increases body functions, which then speeds up the immune system. The several natural defenses that naturally circulate through the body are thus encouraged in their function. Cycling also increases the level of such immunity- boosting substances as interferon and interleukine-2.
  • Cycling also adds lean muscle mass and strengthens comiective tissue. It has been said that doctors can tell whether they are operating on a cyclist or on another type of athlete just by looking at internal tissues. All of these conditions are conducive to healing or preventing injury or illness in the first place.
  • stationary bikes include the following basic components (in addition to a seat and a support for the upper body of the user, such as handlebars): a frame to securely hold components and keep them properly (and sometimes adjustably) separated; a cranking assembly mounted to the frame in a location where the user can manipulate same with her feet; an element, also mounted to the frame, designed to offer indirect resistance to rotation ofthe cranking assembly; and a continuous drive loop, which links the cranking assembly and the resistance-offering element, and normally takes the form of a belt or chain.
  • the cranking assembly and continuous drive loop of a stationary bike typically move in unison.
  • the resistance-offering element indirectly acts to retard the rotation ofthe cranking assembly in the following way.
  • the resistance-offering element engages with a first portion ofthe length ofthe loop, and pulls it.
  • the first portion pulls at a second portion ofthe loop, which is directly adjacent to the first portion and which at that instant spans the distance from the resistance-offering element to the cranking assembly.
  • the second portion ofthe loop pulls at a third portion of he loop which at that instant is engaged with the cranking assembly.
  • the third portion ofthe loop pulls at the cranking assembly in the direction opposite to the direction of spin ofthe cranking assembly, opposing the forces, generated by the user, which rotate the cranking assembly in that direction.
  • the cranking assembly usually includes the following components: a central hub; a sprocket surmounting the hub such that the hub is aligned with the center of rotation ofthe sprocket and a portion ofthe length ofthe hub extends from either side ofthe sprocket, the sprocket having radially arrayed teeth or some other means to engage a continuous drive loop; angled cranking arms extending from the hub on either side ofthe sprocket in opposite radial directions; and posts fixed to the ends ofthe cranking arms and extending away from the cranking arms in opposite directions parallel to the rotational axis ofthe sprocket.
  • Pedals mounted to the posts so that they spin freely about the posts, can optionally be included as part of a cranking assembly.
  • the resistance-offering element of common stationary bikes can take many different forms.
  • One resistance-offering element includes a simple bicycle wheel that is mounted to the basic frame ofthe machine, and an arrangement of one or more rollers positioned adjacent to the tread ofthe wheel. When the wheel spins, so must the rollers.
  • the arrangement of cylindrical rollers can be free-spinning, but is generally designed to provide some built-in resistance to their own rotation.
  • Another form of a resistance-offering element for a stationary bike is a frame- mounted wheel equipped with fan vanes, normally radially arrayed around a central hub.
  • a resistance-offering element for a stationary bike involves the use of a flywheel system, in which a flywheel is typically mounted to a hub on the frame, and a braking element is optionally provided which is designed to apply a drag or braking force of an appropriate magnitude directly to the flywheel. The magnitude ofthe braking force is commonly user-adjustable.
  • a user of an exercise bike typically rotates the cranking assembly by sitting on the seat and driving the pedals with his feet.
  • the flywheel system is unique in that the flywheel has a high degree of rotational inertia, e.g., when compared with a bicycle wheel or a fan wheel. This means a higher degree of exertion is required ofthe user in order to cause the flywheel either to begin spinning from rest, or to cause the flywheel to increase its rate of spin once it has begun spinning. Also, once the flywheel has begun spinning, it will uniquely display a high degree of rotational momentum. This is observable especially when the user ceases exertion after the flywheel has begun spinning, and thus allows the rate of spin of the cranking assembly and flywheel to gradually decrease.
  • Cycling whether on a normal bicycle or on a stationary bike, provides health benefits for the entire body. Nevertheless, the primary and direct focus of cycling workouts is on the lower body. Thus cyclists who seek an upper body workout usually supplement their cycling workouts with non-cycling upper-body workouts.
  • the cranking assemblies typically have handles instead of pedals, which handles spin on the posts ofthe cranking arms, for the user's hands to grasp. When the user exercises with such a device, her exertion is opposed by a flywheel, or some other resistance-offering element.
  • cranking assembly by hand, typically with two hands in an overturning rotational motion, thereby exercising arm, shoulder, and other upper body muscles.
  • Some such machines have cranking assemblies but no continuous drive loops (the resistance- offering element acts directly on a mechanical extension ofthe cranking assembly).
  • a flywheel is inlierent in the cranking assembly.
  • the exercise system described herein is low-cost, and is easy to use. It is dedicated to targeting the most common failure points within the cardiovascular/circulatory system, improving the efficiency ofthe biological/cardiovascular systems, and preventing the most common forms of heart disease.
  • Those who utilize the exercise system and methods of exercise described herein will be able to achieve balanced muscular development:
  • the variable rotational concept affords multiple directional development that allows users to exercise muscle groups on a forward/reverse and lateral direction. It incorporates all four limbs, usually separately, which allows for equal distribution of fatigue and development to all these areas.
  • Variable rotational technology allows for the ability to imprint neurological patterns on biological architecture (sometimes called “mapping") to increase comfort, elasticity, endurance, recovery, symmetry, and efficiency. It leverages and incorporates the key benefits of cycling, described above.
  • the system has a preventative, not symptomatic orientation. It is non-invasive, low-cost, easy to use, and high repetition/low impact. It accommodates a broad age and fitness range from young to old and frail to fit. It supports and augments general fitness programs to rehabilitation needs. More benefits include: increased comfort, increased elasticity/flexibility, increased endurance, increased recovery, increased symmetry, and increased efficiency.
  • Variable rotational technology leverages the ubiquity ofthe stationary fitness bike found in millions of homes worldwide.
  • the product can be made available in many models ranging from micro-portable home models, to heavy-duty gym models, to professional and medical/rehabilitative models.
  • An embodiment ofthe system may be fabricated using standard bike equipment. There are virtually hundreds of exercises that can be done with the device and associated fixtures, some of which are depicted herein. All muscle groups are addressed.
  • variable rotational concept emphasizes continuous alternation of points of fatigue that evens out the lactic acid production. Lactic acid is produced at a point when the body is switching from the fat-burning zone to the glyco gen-burning zone. This is counterproductive to converting fat into muscle.
  • the program incorporates balanced development and equal distribution of fatigue. By using the program, one trains ones body to increase its efficiency for releasing and burning free fatty acids over long distances, as enzymatic and hormonal changes in the muscle cells make it easier for fat to be utilized as fuel during long-duration exercise. This will prove valuable for long events.
  • one improves the body's circulatory characteristics in the peripheral muscles those that do the work in races to help move waste products away from the muscle tissue and bring new blood, oxygen, and fuel to the muscle for more work.
  • the mitochondria, the powerhouses ofthe muscle cells, will increase in number and efficiency.
  • an exercise device in an embodiment ofthe invention, includes a flame, a cranking assembly mounted to the frame having a cranldng arm, a flywheel mounted to the frame, a continuous drive loop rotatably linking the flywheel and the cranldng assembly, and an extended user fixture rotatably attachable to the end ofthe cranking arm. Another end ofthe extended user fixture may optionally include a handle. A plurality of supplemental weights can optionally be attached to the flywheel.
  • the cranking assembly can have a second cranking arm, and a weight can be attached to the end ofthe second cranking arm.
  • an exercise device in another embodiment, includes a frame, a cranldng assembly mounted to the frame having a cranldng arm with a post position at the end ofthe cranldng arm, and an extended user fixture rotatably attachable to the post position ofthe cranking arm.
  • the exercise device can also have a resistance- offering element mounted to the flame that resists rotation ofthe cranldng assembly, and, the foregoing being so, a continuous drive loop can optionally engage the resistance offering element and the cranking assembly.
  • a flat guard plate can optionally be mounted to the exercise device adjacent to the post position ofthe cranking arm.
  • the flame can optionally be adapted to selectably elevate the cranking assembly.
  • the extended user fixture of the exercise device can optionally be rigid.
  • the extended user fixture being rigid, an optional extension ofthe rigid extended user fixture can interact with the post position ofthe cranldng assembly to form the rotatable attachment between the rigid extended user fixture and the cranking arm.
  • the rigid extended user fixture can optionally include a pivot joint adjacent to the rotatable attachment.
  • the exercise device having a frame, a cranking assembly with a cranking arm having a post position, and an extended user fixture rotatably attachable to the post position can optionally include a pedal post attached to the post position, and a pedal rotatably attached to the post at one point, and attached to the extended user fixture at a second point.
  • the extended user fixture of such a device can optionally be laterally flexible, and have a handle at its end, with the frame including a roller attachment such as a pulley to support and guide a portion ofthe laterally-flexible extended user fixture near the handle end.
  • the extended user fixture of such a device can be rigid, with the connection between the rigid extended user fixture and the pedal including a pivot joint.
  • such a device can include a flat guard plate mounted to the cranking arm at the post position.
  • an adapter can be positioned between the extended user fixture and the pedal, forming a part ofthe attachment between the pedal and the extended user fixture.
  • the exercise device having a frame, a cranking assembly with a cranking arm having a post position, and an extended user fixture rotatably attachable to the post position can optionally include horizontally-extending and substantially parallel extended support members mounted to the frame below the cranldng assembly.
  • Such a device (with the support members) can optionally include a seat, facing the cranking assembly, and mounted on the support members such that it can slide, and such that if a user were to sit on the seat, her symmetric plane would be aligned with the force transmission plane ofthe cranldng assembly.
  • a recumbent exercise device in another embodiment, includes a support structure, a cranking assembly mounted to the support structure having a cranking arm and a mounting position on the end ofthe cranldng arm to which an extended user fixture can be attached, and a user seat which has an adjustable backrest and is located and oriented in such a way as to allow a seated user to align her symmetric plane with the force transmission plane ofthe cranldng assembly.
  • a recumbent exercise device can optionally include a rigid extended user fixture with a handle end, and another end attached to the mounting position ofthe cranldng arm.
  • a way of exercising in which a user engages a handle end of an extended user fixture and rotates a cranking assembly by applying force tl ⁇ ough the extended user fixture to a cranking arm ofthe cranking assembly.
  • the handle-engaging part of such a way of exercising can optionally include one or more ofthe following methods of engaging the handle: grasping the handle end with both hands, grasping the handle end with one hand, fastening the lower portions of both legs of an exercising user to the handle end, and fastening the lower part of one leg of an exercising user to the handle end.
  • Such a way of exercising can include aligning the symmetric plane ofthe exercising user with the force transmission plane ofthe cranking assembly prior to rotating the cranldng assembly. Also, such a way of exercising can include aligning the symmetric plane ofthe exercising user with a vertical plane including the axis of rotation ofthe cranking assembly. And in a further embodiment ofthe invention, a way of exercising is described in which a user binds only one foot to a pedal of a cranking assembly, and rotates the cranking assembly with the one bound foot. Such an exercise can include aligning the leg ofthe bound foot with the force transmission plane ofthe cranldng assembly. Also, such an exercise can include aligning the upper leg ofthe bound foot with a vertical plane containing the axis of rotation ofthe cranking assembly.
  • FIG. 1 shows an exercise machine in accordance with the present invention.
  • FIG. 2 shows some basic components of an exercise machine in accordance with the present invention, including a flywheel and a cranking assembly, as well as selectably attachable weights.
  • FIG. 3 illustrates a user fixture in accordance with the present invention that is attachable to a pedal position on a cranldng assembly.
  • FIG. 4 illustrates a user fixture in accordance with the present invention.
  • FIG. 5 illustrates a user fixture in accordance with the present invention.
  • FIG. 6 illustrates a clip pedal in accordance with the present invention that is attachable to a pedal position on a crankshaft, and a user fixture in accordance with the present invention that is selectively attachable to the clip pedal.
  • FIG. 7 illustrates a clip pedal in accordance with the present invention that is attachable to a pedal position on a cranlcshaft, an adapter in accordance with the present invention that is selectably attachable to the clip pedal, and a user fixture in accordance with the present invention that is selectively attachable to the adapter.
  • FIG. 8 illustrates a side view of an implementation of an exercise machine according to the present invention having a telescoping frame.
  • FIG. 9 illustrates a side view of an implementation of an exercise machine according to the present invention having a recumbent orientation and a crankshaft that is configured to receive a plurality of user fixtures.
  • FIG. 10A illustrates a side view of an implementation of an exercise machine according to the present invention that includes a flywheel and selectably attachable weights that are attachable to posts on the flywheel.
  • FIG. 10B illustrates the flywheel ofthe exercise machine of FIG. 10 A.
  • FIG. IOC illustrates a cross-sectional view ofthe flywheel ofthe exercise machine of FIG. 10 A.
  • FIG. 11 shows an exercise machine according to the present invention with a user fixture attached to the cranking assembly and a device attached to the frame of the exercise machine for securing the user fixture in a convenient position and orientation.
  • FIG. 12 shows a shielding guard according to the present invention, placed on a post to protect the hand or foot of an individual from contacting the portion ofthe cranldng assembly near the continuous drive loop.
  • FIGS. 13 through 39, and FIGS. 46 and 47 show an individual using a user fixture and an exercise device in accordance with the present invention to perform methods of exercise.
  • FIGS. 40 through 45 show an individual using an exercise device in accordance with the present invention to perform methods of exercise.
  • FIG. 1 shows an implementation of an exercise machine (150) according to the present invention.
  • Pedals (152, 154) are attached to the cranking arms (160, 162), which form part ofthe cranldng assembly (164), the sprocket portion of which (not shown) is within the machine enclosure.
  • the posts (166, 168) ofthe pedals (152, 154) of the cranking assembly (164) necessarily travel in a circle.
  • the force vector acts on a point located on the axis ofthe pedal post, a small distance from the connection between the pedal post and the cranking arm. It can be shown that a good approximation ofthe position of this point, in the case of normal cycling, is about half the distance that the post projects from the end ofthe cranlcshaft, since that point will be directly underneath the user's foot.
  • a user fixture is utilized in conjunction with a pedal, that point will often be aligned with a longitudinal extension ofthe user fixture.
  • a similar force transmission point can be established in the event the pedal and the pedal post are not present, and a user fixture with an extension is attached to the pedal position ofthe cranking arm in their place.
  • the force transmission point on the axis ofthe pedal must traverse through a circle. This circle defines an important reference plane for that cranking arm, which reference plane will hereinafter be referred to as the force transmission plane.
  • the symmetric plane is herein defined as that plane which bisects the user's body into his left and his right sides, and about which plane he may be said to be approximately bilaterally symmetrical.
  • a resistance-offering element (not shown), such as a flywheel system, is also contained within the machine enclosure (170).
  • the machine enclosure may also include a post mounting location (172) for adjustably accommodating an inserted seat post (174), flat portions (176, 178, 180) ofthe base (182) suitable for a user to stand or kneel upon, and two support mounting locations (184, 186).
  • Each support mounting location may include two support mounting holes (188 and 189, 190 and 191), each support mounting hole being adapted to accommodate the insertion of a support (e.g., 192, 194) and hold it in place.
  • Two supports (192, 194) are shown installed in mating support mounting holes (188, 189).
  • the construction ofthe mating holes (188, 189) cause the two supports (192, 194) to be parallel, one to the other. They are also arranged such that they are equidistant from and straddling the force transmission plane ofthe cranking assembly (164). End portions (196, 198) ofthe supports are suitably configured for a user to grasp them, or to utilize them for support.
  • a seat (200) is shown attached to each of two supports (192, 194), and may be permitted to slide along elongated straight portions (202, 204) ofthe two supports, which due to the construction ofthe mounting holes are held substantially parallel, one to the other. The user can sit in this seat (200) when he desires to perform certain exercises (see FIGS. 28 and 29) and his symmetric plane will be aligned with the force transmission plane. Furthermore, the seat (200) can be placed atop the post (174) (see, e.g., FIG. 13).
  • FIG. 2 illustrates a flywheel (2) coupled to a cranking assembly (4) of an exercise machine (not shown in its entirety) through a continuous drive loop (16), such as a chain or belt.
  • the cranking assembly has two crankshafts (6, 8).
  • First (10) and second (12) pedal positions ofthe respective crankshafts (6, 8) are shown, and a weight (18) can be attached to an unused pedal position (10) to provide a unique exercise experience for the user.
  • Weights (20, 22, 24, 26) may also be attached to the flywheel to increase its inertia and rotational momentum.
  • FIG. 3 shows an example of a user fixture (30) that has a projection (38) that can connect with the pedal position of a cranlcshaft.
  • the user fixture has a handle end (32) for the user to grip that provides two gripping extensions (34, 36) so the user may grip the handle end (32) with both hands.
  • a user can apply force to the pedal position of a crankshaft, and thereby turn the cranking assembly (4), activate the continuous drive loop (16), and urge the flywheel (2) to spin.
  • FIGS. 4 and 5 show examples of user fixtures (84, 86) that can be attached to the cranldng assembly (4).
  • One (84) ofthe user fixtures has a handle end (88) which is convenient for one-handed gripping.
  • the other (86) user fixture had a handle end (90) which is convenient for two-hand gripping.
  • FIG. 6 shows a clip pedal (44) is shown, which can be attached to the pedal position ofthe cranlcshaft.
  • An example of a user fixture (46) is shown which can be selectably attached to the clip pedal (44) by the user.
  • FIG. 7 An adapter (52) is shown in FIG. 7 which can be used to adapt a clip pedal (54) so that a user can selectably attach a user fixture (56) to the clip pedal (54).
  • a user fixture 536
  • FIG. 7 An adapter (52) is shown in FIG. 7 which can be used to adapt a clip pedal (54) so that a user can selectably attach a user fixture (56) to the clip pedal (54).
  • Those skilled in the art will recognize that user fixtures with connecting ends of widely-differing geometries can be attached to the same clip pedal by the user of a compatible adapter.
  • FIG. 8 illustrates a stationary bike (64), equipped with a flywheel (66), and with a telescoping frame (68) that allows the front ofthe bike to be raised or lowered to simulate uphill or downhill riding.
  • the telescoping frame also raises the height of the pedal positions (70).
  • FIG. 9 A recumbent position machine (78) is shown in FIG. 9.
  • the seat (80) ofthe recumbent machine (78) may recline for flat or inclined exercises.
  • the cranking assembly (82) can rotate through 360 degrees.
  • FIGS. 10 A, 10B and IOC illustrate that weights, such as ten pound weights (94, 96, 98, 100), can be selectably attached to pegs (104, 106, 108, 110) on the flywheel (102) to increase the amount of rotating mass.
  • Ten pound weights are shown, but other weights could also be used to give the user the ability to consume more calories during exercising.
  • FIG. 11 depicts an exercise device which includes a user fixture (122) having a handle (130) and a flexible cord or cable (124).
  • a pulley support and guide attacliment (126) is attached by a bracket (127) to the frame (125) ofthe device.
  • the pulley support and guide attachment (126) permits exercises including the user fixture (122) to be done smoothly and safely by eliminating the tendency for the cable (124) and the handle (130) to become entangled, or to whip wildly if the user should drop the fixture during an exercise session.
  • FIG. 12 is an enlarged view of a cranldng assembly (144).
  • a guard plate A guard plate
  • ⁇ through 47 are beneficially done in a cyclic fashion by which the user causes the cranking assembly to rotate rhythmically in one direction, as it would if rotated by a user seated on the seat and pedaling both pedals with his feet in an overturning fashion (the typical use of a stationary bike).
  • the level of intensity required to achieve the benefits inherent in a variable rotational technology program is relatively low.
  • a user fixture 252 (overhand grip in FIGS. 13, 14 and 16; underhand grip in FIGS. 15 and 17), which is attached to the pedal (152) of an exercise machine (150) as disclosed herein.
  • the interface between the user fixture and the cranldng assembly may, but need not, include a pedal as such.
  • the user in FIGS. 13, 14, 15, 16, and 17 causes the cranldng assembly (164) within the exercise machine (150) to rotate about its axis of rotation, and the user fixture (252), grasped at points equidistant from and astride the force transmission plane, preferably remains substantially aligned with the force transmission plane during the exercise depicted.
  • the symmetric plane is defined as that plane which bisects the user's body into his left and his right sides, and about which plane he may be said to display bilateral symmetry.
  • the user (250), feet pointing away from the cranldng assembly (164), symmetric plane remaining aligned with the force transmission plane during the exercise depicted is seen to exercise those muscles that cause his arms, initially extended downward and slightly behind him, to flex up and down, elbows extending out then in, hands moving up and in, then down and away.
  • the user (250), feet pointing toward the cranking assembly (164), symmetric plane remaining perpendicular to the force transmission plane during the exercise depicted is seen to exercise those muscles which cause his arms, initially extended evenly before him, to rotate forward and down at the shoulder joint, in an uneven fashion, involving a wider range of muscles than those involved in the exercise of FIG. 12.
  • the exercises described herein may be performed by a user in a smooth, uninterrupted manner.
  • the user (250) may change foot positions to move between the exercises shown in FIGS. 13 to 17 without stopping, and the resistance element ofthe device may be in constant motion throughout.
  • a user fixture (254) that is attached at its far end to the pedal (152) of an exercise machine (150) as disclosed herein.
  • the user (250) in FIGS. 18 and 19 causes the cranldng assembly (164) within the exercise machine (150) to rotate about its axis of rotation.
  • the user (250) is seen to exercise those muscles that cause his left arm to rotate down at the shoulder joint, as well as those muscles which cause his left arm to rotate forward and backward at the shoulder joint, the latter due to the changing angle ofthe force vector.
  • the user (250) is seen to exercise those muscles that cause his right arm to rotate downward at the shoulder joint, as well as those muscles which cause his right arm to rotate forward and backward at the shoulder joint, the latter due to the changing angle ofthe force vector. Muscles that tend to keep the user's torso from being flexed or turned at the waist are also exercised in the methods of exercise depicted in FIGS. 18 and 19.
  • FIGS. 20, 21, 22 and 23 an individual, bending forward at the waist with feet shoulder- width apart or wider, is shown performing exercises utilizing an exercise machine (150) as disclosed herein.
  • the user (250) the points of placement of his feet on the floor defining a line that is parallel to and offset from the force transmission plane, is situated so that the line of his shoulders is aligned with the force transmission plane.
  • the user's symmetric plane remains aligned with the force transmission plane during the exercise.
  • the user (250) extends his left (FIG. 20) or his right (FIG.
  • FIGS. 21 and 23 arm away from his torso, and grasps with the hand of his extended arm a user fixture (254) at a point aligned with the force transmission plane.
  • the user (250) extends both arms away from his chest and grasps a user fixture with both hands at points equidistant from and astride the force transmission plane.
  • the user (250) in FIGS. 20, 21, 22 and 23 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation, the user fixture (252 or 254) remaining substantially aligned with the force transmission plane during exercise.
  • the user (250) is seen to exercise those muscles that cause either his left arm (FIG.
  • FIG. 22 the user (250), feet facing away from the cranlcmg assembly (164), is seen to exercise those muscles that cause his right and left arms, extended downward from the torso, to rotate up and down in unison at the shoulder joint.
  • FIG. 23 the user (250), feet facing the cranlcmg assembly (164), is seen to exercise those muscles that cause his right and left arms, extended downward from the torso, to rotate down in unison at the shoulder joint. Muscles that tend to maintain the user' s bent-at-the-waist postm-e, with torso straight, are also exercised by the user (250) performing the exercises shown in FIGS. 20, 21, 22 and 23.
  • FIGS. 24, 25, 26 and 27 an individual is shown, legs folded, sitting on his feet with his knees pointing forward and his torso erect and untwisted, grasping a user fixture (252) with both hands and performing exercises utilizing an exercise machine (150) as disclosed herein.
  • the user (250) faces toward the cranking assembly (164), his symmetric plane remaining perpendicular to the force transmission plane and remaining aligned with the axis of rotation ofthe cranking assembly (164) during the exercise depicted.
  • the user (250) faces toward the cranldng assembly (164), his symmetric plane remaining aligned with the force transmission plane during the exercise depicted.
  • FIGS. 24 the user (250) faces toward the cranking assembly (164), his symmetric plane remaining perpendicular to the force transmission plane and remaining aligned with the axis of rotation ofthe cranking assembly (164) during the exercise depicted.
  • the user (250) faces toward the cranldng assembly (164), his symmetric plane remaining aligned with the force
  • the user (250) faces away from the cranking assembly (164), his symmetric plane remaining aligned with the force transmission plane during the exercise depicted.
  • the user (250) in FIGS. 24, 25, 26 and 27 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation.
  • the user fixture (252) grasped at points equidistant and astride the force transmission plane, remains substantially aligned with the force transmission plane dming the exercise depicted.
  • the user (250) is seen to exercise those muscles that cause his right and left arms, initially extended evenly above his head, to rotate forward and downward in an uneven fashion at the shoulder joint.
  • the uneven rate of rotation is due to the changing angle ofthe force vector between the user's hands and the pedal (152) ofthe exercise machine (150), which causes the user fixture (252) to periodically assume a shallow angle to the vertical.
  • the end ofthe user fixture (252) attached to the pedal moves not just up and down, but also side-to- side, because ofthe circular traverse ofthe pedal.
  • the user (250) is seen to exercise those muscles which cause his right and left arms to move from a position in which they are extended downward and behind the user (250) (and toward the exercise machine (150)), to a position in which they are flexed, with elbows outward, and hands near his shoulderblades.
  • the user (250) is seen to exercise those muscles which cause his right and left arms to cycle between a position in which they are extended upward above the user's head and a position in which they are flexed at the elbow, with elbows out, with hands near the tops ofthe user's shoulders.
  • FIGS. 28 and 29 an individual is shown, legs folded, sitting on his feet, knees together and pointing forward, torso erect, symmetric plane perpendicular to the force transmission plane and offset from the axis of rotation of the cranking assembly (164), grasping the user fixtme (254) with one hand at a point aligned with the force transmission plane, and performing exercises utilizing an exercise machine (150) as disclosed herein.
  • the user fixtme (254) the user (250) in FIGS.
  • FIGS. 28 and 29 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also in FIGS. 28 and 29, the user fixture (254) remains substantially aligned with the force transmission plane dming the exercise depicted.
  • the user (250) is seen to exercise those muscles that cause either his left arm (FIG. 28) or his right arm (FIG. 29), which dming the applicable exercise is extended forward from the torso and held approximately at shoulder level, to rotate inward at the shoulder joint toward the center of his body. Muscles that tend to maintain the user's upright posture, spine straight and untwisted, are also exercised by the user (250) performing the exercises shown in FIGS. 28 and 29. Referring to FIGS.
  • an individual is shown sitting on a sliding seat (200) of an exercise machine (150) as disclosed herein, facing the exercise machine (150) with legs extended in front of him in the direction ofthe exercise machine (150), symmetric plane remaining aligned with the force transmission plane dming the exercise depicted, knees bent and feet resting on the floor, grasping a user fixtme (252) with both hands at points that are equidistant from and astride the force transmission plane, and performing an exercise.
  • the user (250) cycles between the postures shown in FIGS. 30 and 31 while performing the exercise. Dming the exercise depicted in FIG. 30 and 31, the user fixture (252) remains substantially aligned with the force transmission plane.
  • the user (250) arrives at the posture in
  • FIG. 30 by exercising those muscles that extend his legs, causing the seat upon which he sits to ride backward (away from the cranking assembly (164)) along the supports (192, 194).
  • the user (250) is causing the user fixture (252) to move forward with the pedal (152) by exercising those muscles that pivot his torso forward at the waist as well as those that extend his arms forward, approximately shoulder level.
  • the user (250) moves from the post e in FIG. 30 to the posture of FIG. 31 by exercising those muscles that cause his legs to flex at the knee, drawing his lower body closer to the cranldng assembly (164), causing the seat (200) to ride forward along the supports (192, 194).
  • the user (250) is causing the user fixture (252) to move backward with the pedal (152) by exercising those muscles that pivot his torso from the forward bend posture to an erect posture, and by exercising those muscles that cause his arms to flex at the elbow.
  • FIGS. 32 and 33 an individual is shown laying on his back, head pointed toward and legs extended away from an exercise machine (150) as disclosed herein, symmetric plane remaining aligned with the force transmission plane during the exercise depicted, knees bent and feet resting on the floor, grasping a user fixture (252) with both hands at points equidistant from and astride the force transmission plane, and performing exercises.
  • the user fixtme (252) causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation.
  • the user fixtme (252) remains substantially aligned with the force transmission plane.
  • the user (250) grasps the user fixtme (252) with arms fully extended above his torso, and exercises those muscles that cause his extended arms to rotate up and down at the shoulder joint, cycling between a position in which his hands are somewhat above shoulder level, and a position in which his hands are somewhat below shoulder level.
  • the user (250) grasps the user fixture (252) with arms flexed at the elbow, and exercises those muscles that cause his upper arm to rotate up and down at the shoulder joint, cycling between a position in which his elbow is extended and his forearms parallel to the floor, and a position in which his elbow and upper arm lay against the floor. Referring to FIGS.
  • FIGS. 34 and 35 an individual is shown laying on his back, head pointed toward and legs extended away from an exercise machine (150) as disclosed herein, symmetric plane remaining perpendicular to the force transmission plane and offset from the axis of rotation during the exercise depicted, knees bent and feet resting on the floor, grasping a user fixture (254) with one hand at a point aligned with the force transmission plane, and performing exercises. Tlirough the user fixtme (254), the user (250) in FIGS. 34 and 35 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, during the exercises depicted in FIGS. 34 and 35, the user fixture (254) remains substantially aligned with the force transmission plane. In FIGS.
  • the user (250) is seen to exercise those muscles that cause either his right arm (FIG. 34) or his left arm (FIG. 35), which during the applicable exercise is extended forward from the torso and held approximately at shoulder level, to rotate inward at the shoulder joint toward the center of his body
  • FIG. 36 an individual is shown laying on his side, spine twisted approximately 90 degrees so that his shoulders rest on the floor, head pointed toward and legs extended away from the cranldng assembly (164), spine substantially straight (though twisted) and remaining aligned with the force transmission plane dming the exercise depicted, knees bent, grasping the user fixtme (252) with both hands, performing exercises utilizing an exercise machine (150) as disclosed herein.
  • the user (250) grasps the user fixture (252) with both hands at points equidistant from and astride the force transmission plane with arms fully extended above his torso. Through the user fixture (252), the user (250) in FIG.
  • the user fixtme (252) remains substantially aligned with the force transmission plane.
  • the user (250) is seen to exercise those muscles that cause his extended amis to rotate up and down at the shoulder joint, cycling between a position in which his hands are somewhat above shoulder level, and a position in which his hands are somewhat below shoulder level.
  • the user (250) is exercising those muscles that hold his spine in a 90- degree twist. Referring to FIG.
  • the user (250) grasps the user fixtme (254) with right arm fully extended and rotated up from his right side, and is seen to exercise those muscles that cause his extended ight arm to rotate out and up at the shoulder joint from a position in which his right hand is somewhat below shoulder level to a position in which his right hand is approximately at shoulder level.
  • an individual is shown, initially laying on his back, feet extended toward and head pointed away from the cranldng assembly (164), symmetric plane remaining aligned with the force transmission plane dming the exercise depicted, knees bent and feet resting on the floor, grasping a user fixtme (252) with both hands at points equidistant from and astride the force transmission plane, and performing an exercise utilizing an exercise machine (150) as disclosed herein, which exercise periodically causes him to rise from the position described above to an erect sitting posture.
  • the user (250) in FIG. 38 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, during the exercise depicted in FIG.
  • the user fixtme (252) remains substantially aligned with the force transmission plane.
  • the user (250) grasps the user fixture (252) with both arms extended, evenly rotated up at the shoulder joint so that the left and right hands are even and below chest level, and is seen to exercise those muscles that cause his torso to bend upward and forward at the waist, and his extended arms to further rotate up at the shoulder joint so that the user's hands are even with the user's shoulders, causing the user fixture (252) to move forward and rotate the cranking assembly (164).
  • FIG. 39 an individual is shown, legs folded, sitting on his feet with his knees pointing away from the cranking assembly (164), torso generally erect, symmetric plane aligned with the force transmission plane, grasping the user fixtme (252) with both hands at points equidistant from and astride the force transmission plane, and performing an exercise utilizing an exercise machine (150) as disclosed herein, which exercise causes his torso and head to cycle between a position in which his torso and head are closer to, and a position in which his torso and head are farther from, the exercise machine (150). Tlirough the user fixture (252), the user (250) in FIG.
  • the cranldng assembly (164) within the exercise machine (150) rotate about its axis of rotation. Also, dming the exercise depicted in FIG. 39 the user fixture (252) remains substantially aligned with the force transmission plane.
  • the user (250) grasps the user fixtme (252) and holds it against his neck with both arms flexed, elbows pointing downward and hands held closely near the shoulders, and is seen to exercise those muscles that cause his torso to cycle between two positions in which the torso is rotated somewhat short ofthe fully upright posture, one biasing forward ofthe fully upright posture, one biasing backward.
  • FIG. 40 an individual is shown facing an exercise machine (150) as disclosed herein, symmetric plane perpendicular to the force transmission plane but offset from the axis of rotation ofthe cranking assembly (164).
  • the individual stands erect on his left foot in front ofthe cranldng assembly (164), his right leg remaining flexed at the knee and extended toward the cranking assembly (164), his upper right leg remaining substantially aligned with a vertical plane defined by it and the axis of rotation ofthe cranking assembly (164) during the exercise depicted, his right foot attached to the pedal (152) ofthe exercise machine (150), bracing himself at arm's length from the exercise machine (150) by grasping a support (192) ofthe exercise machine (150) with arms extended, and performing exercises causing the cranking assembly (164) ofthe exercise machine (150) to rotate about its axis of rotation. No user fixture is utilized. In FIG.
  • the user (250) is seen to exercise those muscles that cause his foot to traverse in a vertically- and laterally-oriented circle, and that cause his upper right leg to twist at the hip joint and to rotate up and down at the hip joint in cooperation with the circular traverse ofthe right foot and lower right leg.
  • the pedal (152) because of its circular traverse, moves not just up and down, but also left- to-right. This side-to-side cyclical motion translates to the imposition of forces upon the user's right leg and his torso that work against the maintenance of erect posture.
  • the user (250) in FIG. 40 must also exercise muscles that tend to hold his torso erect and resist lateral forces dming the course of exercising muscles related to leg movement.
  • an individual is shown standing to one side of an exercise machine (150) as disclosed herein, symmetric plane perpendicular to the force transmission plane but offset from the axis of rotation ofthe cranking assembly (164), standing erect on his left foot next to the cranldng assembly (164), his right leg remaining flexed at the knee and extended sideward toward the cranldng assembly (164), his upper right leg remaining substantially aligned with the force transmission plane during the exercise depicted, his right foot attached to the pedal (154) ofthe exercise machine (150), bracing himself close to the exercise machine (150) by grasping a support (194) ofthe exercise machine (150) with arms flexed at the elbow, and performing exercises that cause the cranking assembly (164) ofthe exercise machine (150) to rotate about its axis of rotation.
  • FIG. 41 the user (250) is seen to exercise those muscles that cause his foot to traverse in a lateral circle, and his upper right leg to move up and down in the hip joint in cooperation with the circular traverse ofthe right foot.
  • the user (250) is exercising those muscles that maintain the user's erect standing posture.
  • FIG. 42 an individual is shown standing to one side of an exercise machine (150) as disclosed herein, symmetric plane parallel to but offset from the force transmission plane, standing erect on his right foot, right foot on a flat portion (176) ofthe exercise machine (150) with the cranldng assembly (164) in front of his left leg, and the remainder ofthe exercise machine (150) next to his left shoulder.
  • the user (250) is seen to exercise those muscles that cause his left foot to traverse in a forward circle, and his upper left leg to move up and down in the hip joint in cooperation with the circular traverse ofthe left foot. At the same time the user (250) is exercising those muscles that maintain the user's erect standing posture.
  • an individual is shownJ ⁇ ieeling to one side of an exercise machine (150) as disclosed herein, symmetric plane parallel to but offset from the force transmission plane, kneeling erect on his right knee with the cranldng assembly (164) in front of his left leg, and the remainder ofthe exercise machine (150) next to his left shoulder.
  • the user (250) is seen to exercise those muscles that cause his left foot to traverse in a forward circle, and his upper left leg to move up and down in the hip joint in cooperation with the circular traverse ofthe left foot. At the same time the user (250) is exercising those muscles that maintain the user's erect kneeling posture.
  • FIG. 44 an individual is shown, laying on his back, legs extended toward and head pointed away the cranldng assembly (164) of an exercise machine (150) as disclosed herein, symmetric plane perpendicular to the force transmission plane and offset from the axis of rotation ofthe cranking assembly (164).
  • the user (250) is seen to exercise those muscles that cause his foot to traverse in a horizontally- and laterally-oriented circle, and that cause his upper right leg to twist at the hip joint in cooperation with the circular traverse ofthe right foot and lower right leg.
  • the pedal (152) because of its circular traverse, moves not just forward and backward, but also left-to-right. This side-to-side cyclical motion translates to the imposition of torquing forces upon the user's right leg and his torso that work against the desired alignment ofthe upper right leg and the axis of rotation ofthe cranking assembly (164) in the same vertical plane.
  • the user (250) in FIG. 44 must also exercise muscles that tend to resist torquing forces and to keep his torso straight and in the proper orientation dming the he course of exercising muscles related to leg movement.
  • FIG. 45 an individual is shown laying on his back, legs extended toward and head pointed away the cranldng assembly (164) of an exercise machine (150) as disclosed herein.
  • the exercise machine (150) located between his legs, his symmetric plane remaining parallel to and offset from the force transmission plane during the exercise disclosed, his left knee bent with his left foot resting on a flat portion (176) ofthe exercise machine (150), his right leg remaining flexed at the knee and extended toward the cranldng assembly (164), and his right foot attached to the pedal (152) ofthe exercise machine (150), he performs exercises that cause the cranldng assembly (164) ofthe exercise machine (150) to rotate about its axis of rotation. No user fixtme is utilized.
  • the user (250) is seen to exercise those muscles that cause his right foot to traverse in a forward circle, and his upper right leg to move up and down in the hip joint in cooperation with the circular traverse of his right foot.
  • FIG. 46 an individual is shown laying on his back, head pointed away from the cranking assembly (164) of an exercise machine (150) as disclosed herein, symmetric plane remaining aligned with the force transmission plane dming the exercise depicted, legs being together and having knees flexed, extended together upward, and with both feet attached to a user fixture (256) at points equidistant from and straddling the force transmission plane, performing exercises. Tlirough the user fixture (256), the far end of which is attached to the pedal (152) ofthe cranldng assembly (164), the user (250) in FIG. 46 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, during the exercise depicted in FIG.
  • the user fixture (256) remains substantially aligned with the force transmission plane.
  • the user (250) is seen to exercise those muscles that cause his extended legs to rotate up and down at the hip joints, cycling between a position in which his feet are somewhat above waist level, and a position in which his feet are somewhat below waist level.
  • FIG. 47 an individual is shown laying on his back, head pointed away from the cranldng assembly (164) of an exercise machine (150) as disclosed herein.
  • the user fixture (256) remains substantially aligned with the force transmission plane.
  • the user (250) is seen to exercise those muscles that cause his extended right leg to rotate up and down at the hip joints, cycling between a position in which his right foot is somewhat above waist level, and a position in which his right foot is somewhat below waist level.

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Abstract

An exercise device (150) is described. In an implementation, the exercise device (150) includes a frame, a cranking assembly (164) mounted to the frame and an extended user fixture. A user utilizes the extended user fixture to perform exercises.

Description

ROTATIONAL EXERCISE SYSTEM, DEVICE AND METHOD
TECHNICAL FIELD
This invention relates to the field of exercise systems. More particularly, this invention relates to exercise systems that utilize (a) cranking assemblies in general, and (b) cranking assemblies which rotate flywheels.
BACKGROUND
Those who engage in traditional cycling are known to develop relatively leaner, and proportionately stronger muscles (i.e., they have a higher power to weight ratio) than do those who engage in certain other types of exercise, such as weightlifting with freeweights. They become more aerobically and anaerobically fit. However, cycling does more than trim waistlines and tone muscles. It has been proven to aid in the relief of simple ailments, such as cold and influenza, as well as to protect against major conditions such as heart disease, cancer and diabetes. It helps prevent heart attacks, strokes, and high blood pressure. It speeds the passage of food through the body, so potential carcinogens spend less time interacting with the body. It has been shown to increase life expectancy. And it can arguably make one smarter, by increasing blood flow to the brain.
Cycling speeds the healing process after injuries or sickness. Like any aerobic exercise, cycling increases body functions, which then speeds up the immune system. The several natural defenses that naturally circulate through the body are thus encouraged in their function. Cycling also increases the level of such immunity- boosting substances as interferon and interleukine-2.
Aerobically fit people flush injuries with more nourishment and nutrients than sedentary people simply because their heart's stroke volume is greater. The effect can be more dramatic if a person can ride during the healing process. For example, if an aerobically-trained cyclist breaks a collarbone or wrist and is put on a stationary trainer where she can maintain a high heart rate, she will direct a tremendous amount of what is essentially healing fluid right through the injury. Cycling causes the heart to grow. Bike makers strengthen frames by enlarging the diameter ofthe tubes while thimiing the walls. A cyclist's heart undergoes a similar process. The cavity in the left pumping chamber (the ventricle) increases in size as the wall thickness diminishes, thus becoming stronger and more efficient. Cycling also adds lean muscle mass and strengthens comiective tissue. It has been said that doctors can tell whether they are operating on a cyclist or on another type of athlete just by looking at internal tissues. All of these conditions are conducive to healing or preventing injury or illness in the first place.
Scientists have known that aerobic exercise increases the amount of HDL, so- called "good" cholesterol. (LDL, or so-called "bad" cholesterol, contributes to heart disease.) Aerobic exercises such as cycling seems to dilute the amount of CETP, an enzyme, which is normally the bloodstream-destroying HDL molecules. Some physiologists say that similar changes in other key chemical relationships could account for the regenerative power of aerobic exercise. The beneficial exercise associated with operating bicycles, generally an outdoor endeavor, can be obtained indoors by the use of stationary bicycle exercise machines, also known as stationary bikes. Typically, stationary bikes include the following basic components (in addition to a seat and a support for the upper body of the user, such as handlebars): a frame to securely hold components and keep them properly (and sometimes adjustably) separated; a cranking assembly mounted to the frame in a location where the user can manipulate same with her feet; an element, also mounted to the frame, designed to offer indirect resistance to rotation ofthe cranking assembly; and a continuous drive loop, which links the cranking assembly and the resistance-offering element, and normally takes the form of a belt or chain. The cranking assembly and continuous drive loop of a stationary bike typically move in unison. The resistance-offering element indirectly acts to retard the rotation ofthe cranking assembly in the following way. First, the resistance-offering element engages with a first portion ofthe length ofthe loop, and pulls it. Second, the first portion pulls at a second portion ofthe loop, which is directly adjacent to the first portion and which at that instant spans the distance from the resistance-offering element to the cranking assembly. Third, the second portion ofthe loop pulls at a third portion of he loop which at that instant is engaged with the cranking assembly. Fourth, and finally, the third portion ofthe loop pulls at the cranking assembly in the direction opposite to the direction of spin ofthe cranking assembly, opposing the forces, generated by the user, which rotate the cranking assembly in that direction. The cranking assembly, familiar to bicyclists, usually includes the following components: a central hub; a sprocket surmounting the hub such that the hub is aligned with the center of rotation ofthe sprocket and a portion ofthe length ofthe hub extends from either side ofthe sprocket, the sprocket having radially arrayed teeth or some other means to engage a continuous drive loop; angled cranking arms extending from the hub on either side ofthe sprocket in opposite radial directions; and posts fixed to the ends ofthe cranking arms and extending away from the cranking arms in opposite directions parallel to the rotational axis ofthe sprocket. Pedals, mounted to the posts so that they spin freely about the posts, can optionally be included as part of a cranking assembly. The resistance-offering element of common stationary bikes can take many different forms. One resistance-offering element, for example, includes a simple bicycle wheel that is mounted to the basic frame ofthe machine, and an arrangement of one or more rollers positioned adjacent to the tread ofthe wheel. When the wheel spins, so must the rollers. The arrangement of cylindrical rollers can be free-spinning, but is generally designed to provide some built-in resistance to their own rotation. Another form of a resistance-offering element for a stationary bike is a frame- mounted wheel equipped with fan vanes, normally radially arrayed around a central hub. When the frame-mounted wheel spins, the fan vanes interact with the surrounding air, creating wind-type resistance that opposes wheel rotation. Typically the amount of resistance offered by the fan vanes is in proportion to the speed at which the frame-mounted wheel spins. Still another example of a resistance-offering element for a stationary bike involves the use of a flywheel system, in which a flywheel is typically mounted to a hub on the frame, and a braking element is optionally provided which is designed to apply a drag or braking force of an appropriate magnitude directly to the flywheel. The magnitude ofthe braking force is commonly user-adjustable. A user of an exercise bike typically rotates the cranking assembly by sitting on the seat and driving the pedals with his feet. This causes the continuous drive loop to interact with the resistance-offering element. If the user provides sufficient minimum cranking force, the opposition ofthe resistance-offering element will be overcome, and positive rotation ofthe cranking assembly will result. And if the user provides a still higher degree of cranking force, the rate of rotation ofthe cranking assembly will increase.
Ofthe resistance-offering elements described above, the flywheel system is unique in that the flywheel has a high degree of rotational inertia, e.g., when compared with a bicycle wheel or a fan wheel. This means a higher degree of exertion is required ofthe user in order to cause the flywheel either to begin spinning from rest, or to cause the flywheel to increase its rate of spin once it has begun spinning. Also, once the flywheel has begun spinning, it will uniquely display a high degree of rotational momentum. This is observable especially when the user ceases exertion after the flywheel has begun spinning, and thus allows the rate of spin of the cranking assembly and flywheel to gradually decrease. When this happens, the residual rotational momentum ofthe flywheel will characteristically tend to cause the cranking assembly, and thus the attached limbs ofthe user, to continue to spin for an extended period of time until the rotational momentum ofthe flywheel has dissipated to zero. The other resistance-offering elements mentioned above do not develop significant rotational momentum, so the cranking assembly in such exercise machines typically comes to rest quite quickly after the user ceases exertion.
To a user exercising on a flywheel-equipped stationary bike, the experience is analogous to that of riding a fixed-gear racing bike (i.e., no "coasting" element). In the stationary bike equipped with a flywheel, the rotational momentum and inertia of the flywheel substitutes for the forward momentum and translational inertia characteristic ofthe racer/racing bike system, and an appropriate degree of mechanical resistance to continued rotation ofthe flywheel (typically adjustable by the user as to magnitude) substitutes for the proportional resistance imposed by the surrounding air and wind upon the racer/racing bike system. Both exercises require the user to engage in the same beneficial low-impact rhythmic rotational motion in order to maintain or increase the momentum ofthe overall mechanical system.
Cycling, whether on a normal bicycle or on a stationary bike, provides health benefits for the entire body. Nevertheless, the primary and direct focus of cycling workouts is on the lower body. Thus cyclists who seek an upper body workout usually supplement their cycling workouts with non-cycling upper-body workouts. It should be noted, however, that the above-mentioned basic components ofthe typical stationary bike have been incorporated within exercise devices that permit cycling- type upper-body workouts. In some exercise devices of this sort, the cranking assemblies typically have handles instead of pedals, which handles spin on the posts ofthe cranking arms, for the user's hands to grasp. When the user exercises with such a device, her exertion is opposed by a flywheel, or some other resistance-offering element. She turns the cranking assembly by hand, typically with two hands in an overturning rotational motion, thereby exercising arm, shoulder, and other upper body muscles. Some such machines have cranking assemblies but no continuous drive loops (the resistance- offering element acts directly on a mechanical extension ofthe cranking assembly). And in other devices, a flywheel is inlierent in the cranking assembly. These types of exercise equipment, however, generally restrict the user to exercises which require two-handed overturning rotational motion. Their use depends on the user's hands being located adjacent to the post positions ofthe cranking assembly, restricting the possibility of reaping the benefits of cycling-type exercise across a wide variety of exercises and exercise positions, upper body and otherwise.
SUMMARY The exercise system described herein is low-cost, and is easy to use. It is dedicated to targeting the most common failure points within the cardiovascular/circulatory system, improving the efficiency ofthe biological/cardiovascular systems, and preventing the most common forms of heart disease. Those who utilize the exercise system and methods of exercise described herein will be able to achieve balanced muscular development: The variable rotational concept affords multiple directional development that allows users to exercise muscle groups on a forward/reverse and lateral direction. It incorporates all four limbs, usually separately, which allows for equal distribution of fatigue and development to all these areas.
Variable rotational technology allows for the ability to imprint neurological patterns on biological architecture (sometimes called "mapping") to increase comfort, elasticity, endurance, recovery, symmetry, and efficiency. It leverages and incorporates the key benefits of cycling, described above. The system has a preventative, not symptomatic orientation. It is non-invasive, low-cost, easy to use, and high repetition/low impact. It accommodates a broad age and fitness range from young to old and frail to fit. It supports and augments general fitness programs to rehabilitation needs. More benefits include: increased comfort, increased elasticity/flexibility, increased endurance, increased recovery, increased symmetry, and increased efficiency.
Variable rotational technology leverages the ubiquity ofthe stationary fitness bike found in millions of homes worldwide. The product can be made available in many models ranging from micro-portable home models, to heavy-duty gym models, to professional and medical/rehabilitative models. An embodiment ofthe system may be fabricated using standard bike equipment. There are virtually hundreds of exercises that can be done with the device and associated fixtures, some of which are depicted herein. All muscle groups are addressed.
The variable rotational concept emphasizes continuous alternation of points of fatigue that evens out the lactic acid production. Lactic acid is produced at a point when the body is switching from the fat-burning zone to the glyco gen-burning zone. This is counterproductive to converting fat into muscle. The program incorporates balanced development and equal distribution of fatigue. By using the program, one trains ones body to increase its efficiency for releasing and burning free fatty acids over long distances, as enzymatic and hormonal changes in the muscle cells make it easier for fat to be utilized as fuel during long-duration exercise. This will prove valuable for long events. Also, one improves the body's circulatory characteristics in the peripheral muscles — those that do the work in races to help move waste products away from the muscle tissue and bring new blood, oxygen, and fuel to the muscle for more work. The mitochondria, the powerhouses ofthe muscle cells, will increase in number and efficiency.
In an embodiment ofthe invention, an exercise device includes a flame, a cranking assembly mounted to the frame having a cranldng arm, a flywheel mounted to the frame, a continuous drive loop rotatably linking the flywheel and the cranldng assembly, and an extended user fixture rotatably attachable to the end ofthe cranking arm. Another end ofthe extended user fixture may optionally include a handle. A plurality of supplemental weights can optionally be attached to the flywheel. As well, the cranking assembly can have a second cranking arm, and a weight can be attached to the end ofthe second cranking arm.
In another embodiment ofthe invention, an exercise device includes a frame, a cranldng assembly mounted to the frame having a cranldng arm with a post position at the end ofthe cranldng arm, and an extended user fixture rotatably attachable to the post position ofthe cranking arm. The exercise device can also have a resistance- offering element mounted to the flame that resists rotation ofthe cranldng assembly, and, the foregoing being so, a continuous drive loop can optionally engage the resistance offering element and the cranking assembly. A flat guard plate can optionally be mounted to the exercise device adjacent to the post position ofthe cranking arm. Furthermore, the flame can optionally be adapted to selectably elevate the cranking assembly. As well, the extended user fixture of the exercise device can optionally be rigid. The extended user fixture being rigid, an optional extension ofthe rigid extended user fixture can interact with the post position ofthe cranldng assembly to form the rotatable attachment between the rigid extended user fixture and the cranking arm. And in addition to the interaction between the extension and the post position, the rigid extended user fixture can optionally include a pivot joint adjacent to the rotatable attachment. The exercise device having a frame, a cranking assembly with a cranking arm having a post position, and an extended user fixture rotatably attachable to the post position can optionally include a pedal post attached to the post position, and a pedal rotatably attached to the post at one point, and attached to the extended user fixture at a second point. The extended user fixture of such a device (i.e., with a post and a pedal) can optionally be laterally flexible, and have a handle at its end, with the frame including a roller attachment such as a pulley to support and guide a portion ofthe laterally-flexible extended user fixture near the handle end. Furthermore, the extended user fixture of such a device can be rigid, with the connection between the rigid extended user fixture and the pedal including a pivot joint. Also, such a device can include a flat guard plate mounted to the cranking arm at the post position. As well, an adapter can be positioned between the extended user fixture and the pedal, forming a part ofthe attachment between the pedal and the extended user fixture.
The exercise device having a frame, a cranking assembly with a cranking arm having a post position, and an extended user fixture rotatably attachable to the post position can optionally include horizontally-extending and substantially parallel extended support members mounted to the frame below the cranldng assembly. Such a device (with the support members) can optionally include a seat, facing the cranking assembly, and mounted on the support members such that it can slide, and such that if a user were to sit on the seat, her symmetric plane would be aligned with the force transmission plane ofthe cranldng assembly. In another embodiment ofthe invention, a recumbent exercise device includes a support structure, a cranking assembly mounted to the support structure having a cranking arm and a mounting position on the end ofthe cranldng arm to which an extended user fixture can be attached, and a user seat which has an adjustable backrest and is located and oriented in such a way as to allow a seated user to align her symmetric plane with the force transmission plane ofthe cranldng assembly. Such a recumbent exercise device can optionally include a rigid extended user fixture with a handle end, and another end attached to the mounting position ofthe cranldng arm.
In another embodiment ofthe invention, a way of exercising is described in which a user engages a handle end of an extended user fixture and rotates a cranking assembly by applying force tlπough the extended user fixture to a cranking arm ofthe cranking assembly. The handle-engaging part of such a way of exercising can optionally include one or more ofthe following methods of engaging the handle: grasping the handle end with both hands, grasping the handle end with one hand, fastening the lower portions of both legs of an exercising user to the handle end, and fastening the lower part of one leg of an exercising user to the handle end. Such a way of exercising (including one ofthe ways of engaging the handle) can include aligning the symmetric plane ofthe exercising user with the force transmission plane ofthe cranking assembly prior to rotating the cranldng assembly. Also, such a way of exercising can include aligning the symmetric plane ofthe exercising user with a vertical plane including the axis of rotation ofthe cranking assembly. And in a further embodiment ofthe invention, a way of exercising is described in which a user binds only one foot to a pedal of a cranking assembly, and rotates the cranking assembly with the one bound foot. Such an exercise can include aligning the leg ofthe bound foot with the force transmission plane ofthe cranldng assembly. Also, such an exercise can include aligning the upper leg ofthe bound foot with a vertical plane containing the axis of rotation ofthe cranking assembly.
The details of one or more embodiments ofthe invention are set forth in the accompanying drawings and the description below. Other features, objects, and advantages ofthe invention will be apparent from the description and drawings, and from the claims. DESCRIPTION OF DRAWINGS
FIG. 1 shows an exercise machine in accordance with the present invention.
FIG. 2 shows some basic components of an exercise machine in accordance with the present invention, including a flywheel and a cranking assembly, as well as selectably attachable weights. FIG. 3 illustrates a user fixture in accordance with the present invention that is attachable to a pedal position on a cranldng assembly.
FIG. 4 illustrates a user fixture in accordance with the present invention.
FIG. 5 illustrates a user fixture in accordance with the present invention. FIG. 6 illustrates a clip pedal in accordance with the present invention that is attachable to a pedal position on a crankshaft, and a user fixture in accordance with the present invention that is selectively attachable to the clip pedal.
FIG. 7 illustrates a clip pedal in accordance with the present invention that is attachable to a pedal position on a cranlcshaft, an adapter in accordance with the present invention that is selectably attachable to the clip pedal, and a user fixture in accordance with the present invention that is selectively attachable to the adapter.
FIG. 8 illustrates a side view of an implementation of an exercise machine according to the present invention having a telescoping frame. FIG. 9 illustrates a side view of an implementation of an exercise machine according to the present invention having a recumbent orientation and a crankshaft that is configured to receive a plurality of user fixtures.
FIG. 10A illustrates a side view of an implementation of an exercise machine according to the present invention that includes a flywheel and selectably attachable weights that are attachable to posts on the flywheel.
FIG. 10B illustrates the flywheel ofthe exercise machine of FIG. 10 A.
FIG. IOC illustrates a cross-sectional view ofthe flywheel ofthe exercise machine of FIG. 10 A.
FIG. 11 shows an exercise machine according to the present invention with a user fixture attached to the cranking assembly and a device attached to the frame of the exercise machine for securing the user fixture in a convenient position and orientation.
FIG. 12 shows a shielding guard according to the present invention, placed on a post to protect the hand or foot of an individual from contacting the portion ofthe cranldng assembly near the continuous drive loop.
FIGS. 13 through 39, and FIGS. 46 and 47 show an individual using a user fixture and an exercise device in accordance with the present invention to perform methods of exercise. FIGS. 40 through 45 show an individual using an exercise device in accordance with the present invention to perform methods of exercise.
Like reference symbols in the various drawings indicate like elements. DETAILED DESCRIPTION
FIG. 1 shows an implementation of an exercise machine (150) according to the present invention. Pedals (152, 154) are attached to the cranking arms (160, 162), which form part ofthe cranldng assembly (164), the sprocket portion of which (not shown) is within the machine enclosure. The posts (166, 168) ofthe pedals (152, 154) of the cranking assembly (164) necessarily travel in a circle.
In common cycling, forces transmitted from the bottom ofthe user's foot to the pedal will be observed to be distributed across a portion ofthe top surface ofthe pedal. When a user grasps a user fixture with her hand and transmits forces through the user fixture to the pedal of a cranking assembly of an exercise machine as disclosed herein, a distribution of forces across the interface between the user fixture and the pedal will also be seen. It is the nature ofthe cranking assemblies of bicycles and ofthe exercise machine disclosed herein that the forces distributed about the top surface ofthe pedal can be resolved, for purposes of analysis, to a single force vector, directed parallel to the sprocket ofthe cranldng assembly. The force vector acts on a point located on the axis ofthe pedal post, a small distance from the connection between the pedal post and the cranking arm. It can be shown that a good approximation ofthe position of this point, in the case of normal cycling, is about half the distance that the post projects from the end ofthe cranlcshaft, since that point will be directly underneath the user's foot. In the event a user fixture is utilized in conjunction with a pedal, that point will often be aligned with a longitudinal extension ofthe user fixture. A similar force transmission point can be established in the event the pedal and the pedal post are not present, and a user fixture with an extension is attached to the pedal position ofthe cranking arm in their place. The force transmission point on the axis ofthe pedal must traverse through a circle. This circle defines an important reference plane for that cranking arm, which reference plane will hereinafter be referred to as the force transmission plane.
Another reference plane, hereinafter referred to as the user's symmetric plane, is useful to consider when an exercise does not require the user to twist his trunk. The symmetric plane is herein defined as that plane which bisects the user's body into his left and his right sides, and about which plane he may be said to be approximately bilaterally symmetrical.
Referring again to FIG. 1, a resistance-offering element (not shown), such as a flywheel system, is also contained within the machine enclosure (170). The machine enclosure may also include a post mounting location (172) for adjustably accommodating an inserted seat post (174), flat portions (176, 178, 180) ofthe base (182) suitable for a user to stand or kneel upon, and two support mounting locations (184, 186). Each support mounting location may include two support mounting holes (188 and 189, 190 and 191), each support mounting hole being adapted to accommodate the insertion of a support (e.g., 192, 194) and hold it in place. Two supports (192, 194) are shown installed in mating support mounting holes (188, 189). The construction ofthe mating holes (188, 189) cause the two supports (192, 194) to be parallel, one to the other. They are also arranged such that they are equidistant from and straddling the force transmission plane ofthe cranking assembly (164). End portions (196, 198) ofthe supports are suitably configured for a user to grasp them, or to utilize them for support. A seat (200) is shown attached to each of two supports (192, 194), and may be permitted to slide along elongated straight portions (202, 204) ofthe two supports, which due to the construction ofthe mounting holes are held substantially parallel, one to the other. The user can sit in this seat (200) when he desires to perform certain exercises (see FIGS. 28 and 29) and his symmetric plane will be aligned with the force transmission plane. Furthermore, the seat (200) can be placed atop the post (174) (see, e.g., FIG. 13).
FIG. 2 illustrates a flywheel (2) coupled to a cranking assembly (4) of an exercise machine (not shown in its entirety) through a continuous drive loop (16), such as a chain or belt. The cranking assembly has two crankshafts (6, 8). First (10) and second (12) pedal positions ofthe respective crankshafts (6, 8) are shown, and a weight (18) can be attached to an unused pedal position (10) to provide a unique exercise experience for the user. Weights (20, 22, 24, 26) may also be attached to the flywheel to increase its inertia and rotational momentum. FIG. 3 shows an example of a user fixture (30) that has a projection (38) that can connect with the pedal position of a cranlcshaft. The user fixture has a handle end (32) for the user to grip that provides two gripping extensions (34, 36) so the user may grip the handle end (32) with both hands. Those skilled in the art will recognize that, through the user fixture, a user can apply force to the pedal position of a crankshaft, and thereby turn the cranking assembly (4), activate the continuous drive loop (16), and urge the flywheel (2) to spin.
FIGS. 4 and 5 show examples of user fixtures (84, 86) that can be attached to the cranldng assembly (4). One (84) ofthe user fixtures has a handle end (88) which is convenient for one-handed gripping. The other (86) user fixture had a handle end (90) which is convenient for two-hand gripping.
FIG. 6 shows a clip pedal (44) is shown, which can be attached to the pedal position ofthe cranlcshaft. An example of a user fixture (46) is shown which can be selectably attached to the clip pedal (44) by the user.
An adapter (52) is shown in FIG. 7 which can be used to adapt a clip pedal (54) so that a user can selectably attach a user fixture (56) to the clip pedal (54). Those skilled in the art will recognize that user fixtures with connecting ends of widely-differing geometries can be attached to the same clip pedal by the user of a compatible adapter.
FIG. 8 illustrates a stationary bike (64), equipped with a flywheel (66), and with a telescoping frame (68) that allows the front ofthe bike to be raised or lowered to simulate uphill or downhill riding. The telescoping frame also raises the height of the pedal positions (70).
A recumbent position machine (78) is shown in FIG. 9. The seat (80) ofthe recumbent machine (78) may recline for flat or inclined exercises. The cranking assembly (82) can rotate through 360 degrees. FIGS. 10 A, 10B and IOC illustrate that weights, such as ten pound weights (94, 96, 98, 100), can be selectably attached to pegs (104, 106, 108, 110) on the flywheel (102) to increase the amount of rotating mass. Ten pound weights are shown, but other weights could also be used to give the user the ability to consume more calories during exercising. In addition, it may be possible to distribute weights of different values on pegs (104, 106, 108, 110) to provide an asymmetric rotating mass.
FIG. 11 depicts an exercise device which includes a user fixture (122) having a handle (130) and a flexible cord or cable (124). A pulley support and guide attacliment (126) is attached by a bracket (127) to the frame (125) ofthe device. The pulley support and guide attachment (126) permits exercises including the user fixture (122) to be done smoothly and safely by eliminating the tendency for the cable (124) and the handle (130) to become entangled, or to whip wildly if the user should drop the fixture during an exercise session. FIG. 12 is an enlarged view of a cranldng assembly (144). A guard plate
(138), having a hole (140) through which a pedal post or user fixture post can be passed, is shown interposed between the pedal (or user fixture) and the cranldng assembly (144). During exercise, the guard plate protects the users hands or feet from the portion ofthe cranking assembly (144) near the continuous drive loop (135). According to the present invention, such exercises as are shown in FIGS. 13
^through 47 are beneficially done in a cyclic fashion by which the user causes the cranking assembly to rotate rhythmically in one direction, as it would if rotated by a user seated on the seat and pedaling both pedals with his feet in an overturning fashion (the typical use of a stationary bike). The level of intensity required to achieve the benefits inherent in a variable rotational technology program is relatively low. One works comfortably within 65%- 75% of one's maximum heart rate which will 1) strengthen the heart, 2) develop the aerobic system, 3) preserve blood sugar, 4) maximize fat consumption and 5) develop endurance. Referring to FIGS. 13, 14, 15, 16 and 17, an individual (250), standing erect with feet on the floor at approximately shoulder width, is shown performing exercises with the present device. Using both hands, he grasps a user fixture (252) (overhand grip in FIGS. 13, 14 and 16; underhand grip in FIGS. 15 and 17), which is attached to the pedal (152) of an exercise machine (150) as disclosed herein. (It will be understood that the interface between the user fixture and the cranldng assembly may, but need not, include a pedal as such.) Through the user fixture (252), the user in FIGS. 13, 14, 15, 16, and 17 causes the cranldng assembly (164) within the exercise machine (150) to rotate about its axis of rotation, and the user fixture (252), grasped at points equidistant from and astride the force transmission plane, preferably remains substantially aligned with the force transmission plane during the exercise depicted.
For purposes of understanding certain ofthe exercises described below, another reference plane, herein termed the user's symmetric plane, is useful to consider when an exercise does not require the user to twist his trunlc. The symmetric plane is defined as that plane which bisects the user's body into his left and his right sides, and about which plane he may be said to display bilateral symmetry.
Referring again to FIG. 13, the user (250), feet pointing away from the cranking assembly (164), the points of placement of his feet on the floor defining a line which is perpendicular to the force transmission plane defined above, is seen to exercise those muscles that turn his torso in a particular direction. In FIG. 14, the user (250), feet pointing toward the cranldng assembly (164), symmetric plane remaining aligned with the force transmission plane during the exercise depicted, is seen to exercise those muscles that cause his arms, evenly extended before him, to rotate forward and down evenly at the shoulder joint. In FIG. 15, the user (250), feet pointing away from the cranldng assembly (164), symmetric plane remaining aligned with the force transmission plane during the exercise depicted, is seen to exercise those muscles that cause his arms, initially extended downward and slightly behind him, to flex up and down, elbows extending out then in, hands moving up and in, then down and away. In FIG. 16, the user (250), feet pointing toward the cranking assembly (164), symmetric plane remaining perpendicular to the force transmission plane during the exercise depicted, is seen to exercise those muscles which cause his arms, initially extended evenly before him, to rotate forward and down at the shoulder joint, in an uneven fashion, involving a wider range of muscles than those involved in the exercise of FIG. 12. In FIG. 17, the user (250), feet pointed away from the cranldng assembly (164), the points of placement of his feet on the floor defining a line which is aligned with the force transmission plane, and his torso rotated 90 degrees, is seen to exercise, in cooperation, both those muscles which hold his torso in a static rotated position, as well as those muscles which permit him to pull his arms back from a position where they are extended forward at approximately chest level to a position where they are flexed, hands closer to his chest.
It should be understood that many ofthe exercises described herein may be performed by a user in a smooth, uninterrupted manner. For example, the user (250) may change foot positions to move between the exercises shown in FIGS. 13 to 17 without stopping, and the resistance element ofthe device may be in constant motion throughout.
Referring to FIGS. 18 and 19, an individual, standing erect with an exercise machine (150) at his side, torso straight and untwisted, feet approximately at shoulder width, the points of placement of his feet on the floor defining a line that is parallel to and roughly directly below the axis of rotation ofthe cranldng assembly (164), symmetric plane parallel to and offset from the force transmission plane, is shown performing exercises utilizing an exercise machine (150) as disclosed herein. Using one hand, he grasps a user fixture (254) that is attached at its far end to the pedal (152) of an exercise machine (150) as disclosed herein. The user fixture (254), grasped at a point that is aligned with the force transmission plane, remains substantially aligned with the force transmission plane dming the exercise depicted. Through the user fixture (254), the user (250) in FIGS. 18 and 19 causes the cranldng assembly (164) within the exercise machine (150) to rotate about its axis of rotation. In FIG. 18, the user (250), is seen to exercise those muscles that cause his left arm to rotate down at the shoulder joint, as well as those muscles which cause his left arm to rotate forward and backward at the shoulder joint, the latter due to the changing angle ofthe force vector. In FIG. 19, the user (250) is seen to exercise those muscles that cause his right arm to rotate downward at the shoulder joint, as well as those muscles which cause his right arm to rotate forward and backward at the shoulder joint, the latter due to the changing angle ofthe force vector. Muscles that tend to keep the user's torso from being flexed or turned at the waist are also exercised in the methods of exercise depicted in FIGS. 18 and 19.
Referring to FIGS. 20, 21, 22 and 23, an individual, bending forward at the waist with feet shoulder- width apart or wider, is shown performing exercises utilizing an exercise machine (150) as disclosed herein. In FIGS. 20 and 21, the user (250), the points of placement of his feet on the floor defining a line that is parallel to and offset from the force transmission plane, is situated so that the line of his shoulders is aligned with the force transmission plane. In FIGS. 22 and 23, the user's symmetric plane remains aligned with the force transmission plane during the exercise. In FIGS. 20 and 21, the user (250) extends his left (FIG. 20) or his right (FIG. 21) arm away from his torso, and grasps with the hand of his extended arm a user fixture (254) at a point aligned with the force transmission plane. In FIGS. 22 and 23, the user (250) extends both arms away from his chest and grasps a user fixture with both hands at points equidistant from and astride the force transmission plane. Through the user fixture (252 or 254), the user (250) in FIGS. 20, 21, 22 and 23 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation, the user fixture (252 or 254) remaining substantially aligned with the force transmission plane during exercise. In FIG. 20 and 21, the user (250) is seen to exercise those muscles that cause either his left arm (FIG. 20) or his right arm (FIG. 21), which during the applicable exercise is extended downward from the torso, to rotate inward at the shoulder joint toward the center of his body. In FIG. 22, the user (250), feet facing away from the cranlcmg assembly (164), is seen to exercise those muscles that cause his right and left arms, extended downward from the torso, to rotate up and down in unison at the shoulder joint. In FIG. 23, the user (250), feet facing the cranlcmg assembly (164), is seen to exercise those muscles that cause his right and left arms, extended downward from the torso, to rotate down in unison at the shoulder joint. Muscles that tend to maintain the user' s bent-at-the-waist postm-e, with torso straight, are also exercised by the user (250) performing the exercises shown in FIGS. 20, 21, 22 and 23.
Referring to FIGS. 24, 25, 26 and 27, an individual is shown, legs folded, sitting on his feet with his knees pointing forward and his torso erect and untwisted, grasping a user fixture (252) with both hands and performing exercises utilizing an exercise machine (150) as disclosed herein. In FIG. 24, the user (250) faces toward the cranking assembly (164), his symmetric plane remaining perpendicular to the force transmission plane and remaining aligned with the axis of rotation ofthe cranking assembly (164) during the exercise depicted. In FIG. 25, the user (250) faces toward the cranldng assembly (164), his symmetric plane remaining aligned with the force transmission plane during the exercise depicted. In FIGS. 26 and 27, the user (250) faces away from the cranking assembly (164), his symmetric plane remaining aligned with the force transmission plane during the exercise depicted. Through the user fixture (252), the user (250) in FIGS. 24, 25, 26 and 27 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation. In FIGS. 25, 26, and 27, moreover, the user fixture (252), grasped at points equidistant and astride the force transmission plane, remains substantially aligned with the force transmission plane dming the exercise depicted.
Referring again to FIG. 24, the user (250) is seen to exercise those muscles that cause his right and left arms, initially extended evenly above his head, to rotate forward and downward in an uneven fashion at the shoulder joint. The uneven rate of rotation is due to the changing angle ofthe force vector between the user's hands and the pedal (152) ofthe exercise machine (150), which causes the user fixture (252) to periodically assume a shallow angle to the vertical. Specifically of note in the exercise motion shown in FIG. 24 is that from the user's point of view, the end ofthe user fixture (252) attached to the pedal moves not just up and down, but also side-to- side, because ofthe circular traverse ofthe pedal. This side-to-side cyclical motion translates to the imposition of forces upon the user's torso that would cause it to bend it left or right at the waist if not opposed. Thus the user (250) in FIG. 24 must exercise those muscles that tend to hold the torso erect when exposed to such lateral forces. In FIG. 25, the user (250) is seen to exercise those muscles which cause his right and left arms to cycle between a position in which they are bent at the elbows, with elbows roughly at his side and arms pointing forward, and a position in which they are straight at the elbows, and extended in front ofthe user (250), slightly above shoulder level. In FIG. 26, the user (250) is seen to exercise those muscles which cause his right and left arms to move from a position in which they are extended downward and behind the user (250) (and toward the exercise machine (150)), to a position in which they are flexed, with elbows outward, and hands near his shoulderblades. In FIG. 27, the user (250) is seen to exercise those muscles which cause his right and left arms to cycle between a position in which they are extended upward above the user's head and a position in which they are flexed at the elbow, with elbows out, with hands near the tops ofthe user's shoulders. The user (250) in FIGS. 24, 25, 26 and 27 must also exercise muscles that function to support the erect torso when it is subjected to forces tending to bend the torso backward or forward at the waist. Referring to FIGS. 28 and 29, an individual is shown, legs folded, sitting on his feet, knees together and pointing forward, torso erect, symmetric plane perpendicular to the force transmission plane and offset from the axis of rotation of the cranking assembly (164), grasping the user fixtme (254) with one hand at a point aligned with the force transmission plane, and performing exercises utilizing an exercise machine (150) as disclosed herein. Through the user fixtme (254), the user (250) in FIGS. 28 and 29 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also in FIGS. 28 and 29, the user fixture (254) remains substantially aligned with the force transmission plane dming the exercise depicted. In FIGS. 28 and 29, the user (250) is seen to exercise those muscles that cause either his left arm (FIG. 28) or his right arm (FIG. 29), which dming the applicable exercise is extended forward from the torso and held approximately at shoulder level, to rotate inward at the shoulder joint toward the center of his body. Muscles that tend to maintain the user's upright posture, spine straight and untwisted, are also exercised by the user (250) performing the exercises shown in FIGS. 28 and 29. Referring to FIGS. 30 and 31, an individual is shown sitting on a sliding seat (200) of an exercise machine (150) as disclosed herein, facing the exercise machine (150) with legs extended in front of him in the direction ofthe exercise machine (150), symmetric plane remaining aligned with the force transmission plane dming the exercise depicted, knees bent and feet resting on the floor, grasping a user fixtme (252) with both hands at points that are equidistant from and astride the force transmission plane, and performing an exercise. The user (250) cycles between the postures shown in FIGS. 30 and 31 while performing the exercise. Dming the exercise depicted in FIG. 30 and 31, the user fixture (252) remains substantially aligned with the force transmission plane. The user (250) arrives at the posture in
FIG. 30 by exercising those muscles that extend his legs, causing the seat upon which he sits to ride backward (away from the cranking assembly (164)) along the supports (192, 194). At the same time, the user (250) is causing the user fixture (252) to move forward with the pedal (152) by exercising those muscles that pivot his torso forward at the waist as well as those that extend his arms forward, approximately shoulder level. The user (250) moves from the post e in FIG. 30 to the posture of FIG. 31 by exercising those muscles that cause his legs to flex at the knee, drawing his lower body closer to the cranldng assembly (164), causing the seat (200) to ride forward along the supports (192, 194). At the same time, the user (250) is causing the user fixture (252) to move backward with the pedal (152) by exercising those muscles that pivot his torso from the forward bend posture to an erect posture, and by exercising those muscles that cause his arms to flex at the elbow.
Referring to FIGS. 32 and 33, an individual is shown laying on his back, head pointed toward and legs extended away from an exercise machine (150) as disclosed herein, symmetric plane remaining aligned with the force transmission plane during the exercise depicted, knees bent and feet resting on the floor, grasping a user fixture (252) with both hands at points equidistant from and astride the force transmission plane, and performing exercises. Through the user fixtme (252), the user (250) in FIGS. 32 and 33 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, dming the exercises depicted in FIGS. 32 and 33, the user fixtme (252) remains substantially aligned with the force transmission plane. In FIG. 32, the user (250) grasps the user fixtme (252) with arms fully extended above his torso, and exercises those muscles that cause his extended arms to rotate up and down at the shoulder joint, cycling between a position in which his hands are somewhat above shoulder level, and a position in which his hands are somewhat below shoulder level. In FIG. 33 the user (250) grasps the user fixture (252) with arms flexed at the elbow, and exercises those muscles that cause his upper arm to rotate up and down at the shoulder joint, cycling between a position in which his elbow is extended and his forearms parallel to the floor, and a position in which his elbow and upper arm lay against the floor. Referring to FIGS. 34 and 35, an individual is shown laying on his back, head pointed toward and legs extended away from an exercise machine (150) as disclosed herein, symmetric plane remaining perpendicular to the force transmission plane and offset from the axis of rotation during the exercise depicted, knees bent and feet resting on the floor, grasping a user fixture (254) with one hand at a point aligned with the force transmission plane, and performing exercises. Tlirough the user fixtme (254), the user (250) in FIGS. 34 and 35 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, during the exercises depicted in FIGS. 34 and 35, the user fixture (254) remains substantially aligned with the force transmission plane. In FIGS. 34 and 35, the user (250) is seen to exercise those muscles that cause either his right arm (FIG. 34) or his left arm (FIG. 35), which during the applicable exercise is extended forward from the torso and held approximately at shoulder level, to rotate inward at the shoulder joint toward the center of his body
Referring to FIG. 36, an individual is shown laying on his side, spine twisted approximately 90 degrees so that his shoulders rest on the floor, head pointed toward and legs extended away from the cranldng assembly (164), spine substantially straight (though twisted) and remaining aligned with the force transmission plane dming the exercise depicted, knees bent, grasping the user fixtme (252) with both hands, performing exercises utilizing an exercise machine (150) as disclosed herein. In FIG. 36, the user (250) grasps the user fixture (252) with both hands at points equidistant from and astride the force transmission plane with arms fully extended above his torso. Through the user fixture (252), the user (250) in FIG. 36 causes the cranldng assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, dming the exercise depicted in FIG. 36 the user fixtme (252) remains substantially aligned with the force transmission plane. In FIG. 36, the user (250) is seen to exercise those muscles that cause his extended amis to rotate up and down at the shoulder joint, cycling between a position in which his hands are somewhat above shoulder level, and a position in which his hands are somewhat below shoulder level. At the same time the user (250) is exercising those muscles that hold his spine in a 90- degree twist. Referring to FIG. 37, an individual is shown laying on his side, right shoulder directly above left shoulder, head pointed toward and legs extended away from the cranking assembly (164), spine untwisted and substantially straight and remaining substantially aligned with the force transmission plane during the exercise depicted, knees bent, grasping the user fixtme (254) with one hand at a point aligned with the force transmission plane, and performing exercises utilizing an exercise machine (150) as disclosed herein. Through the user fixtme (254), the user (250) in FIG. 37 causes the cranldng assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, during the exercise depicted in FIG. 37 the user fixtme (254) remains substantially aligned with the force transmission plane. In FIG. 37, the user (250) grasps the user fixtme (254) with right arm fully extended and rotated up from his right side, and is seen to exercise those muscles that cause his extended ight arm to rotate out and up at the shoulder joint from a position in which his right hand is somewhat below shoulder level to a position in which his right hand is approximately at shoulder level. Referring to FIG. 38, an individual is shown, initially laying on his back, feet extended toward and head pointed away from the cranldng assembly (164), symmetric plane remaining aligned with the force transmission plane dming the exercise depicted, knees bent and feet resting on the floor, grasping a user fixtme (252) with both hands at points equidistant from and astride the force transmission plane, and performing an exercise utilizing an exercise machine (150) as disclosed herein, which exercise periodically causes him to rise from the position described above to an erect sitting posture. Through the user fixture (252), the user (250) in FIG. 38 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, during the exercise depicted in FIG. 38 the user fixtme (252) remains substantially aligned with the force transmission plane. In FIG. 38, the user (250) grasps the user fixture (252) with both arms extended, evenly rotated up at the shoulder joint so that the left and right hands are even and below chest level, and is seen to exercise those muscles that cause his torso to bend upward and forward at the waist, and his extended arms to further rotate up at the shoulder joint so that the user's hands are even with the user's shoulders, causing the user fixture (252) to move forward and rotate the cranking assembly (164).
Referring to FIG. 39, an individual is shown, legs folded, sitting on his feet with his knees pointing away from the cranking assembly (164), torso generally erect, symmetric plane aligned with the force transmission plane, grasping the user fixtme (252) with both hands at points equidistant from and astride the force transmission plane, and performing an exercise utilizing an exercise machine (150) as disclosed herein, which exercise causes his torso and head to cycle between a position in which his torso and head are closer to, and a position in which his torso and head are farther from, the exercise machine (150). Tlirough the user fixture (252), the user (250) in FIG. 39 causes the cranldng assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, dming the exercise depicted in FIG. 39 the user fixture (252) remains substantially aligned with the force transmission plane. In FIG. 39, the user (250) grasps the user fixtme (252) and holds it against his neck with both arms flexed, elbows pointing downward and hands held closely near the shoulders, and is seen to exercise those muscles that cause his torso to cycle between two positions in which the torso is rotated somewhat short ofthe fully upright posture, one biasing forward ofthe fully upright posture, one biasing backward. At the same time the user (250) is exercising torso muscles, he is exercising those muscles that rotate the head and neck forward (when the torso is biasing forward) and backward (when the torso is biasing backward). Referring to FIG. 40, an individual is shown facing an exercise machine (150) as disclosed herein, symmetric plane perpendicular to the force transmission plane but offset from the axis of rotation ofthe cranking assembly (164). The individual stands erect on his left foot in front ofthe cranldng assembly (164), his right leg remaining flexed at the knee and extended toward the cranking assembly (164), his upper right leg remaining substantially aligned with a vertical plane defined by it and the axis of rotation ofthe cranking assembly (164) during the exercise depicted, his right foot attached to the pedal (152) ofthe exercise machine (150), bracing himself at arm's length from the exercise machine (150) by grasping a support (192) ofthe exercise machine (150) with arms extended, and performing exercises causing the cranking assembly (164) ofthe exercise machine (150) to rotate about its axis of rotation. No user fixture is utilized. In FIG. 40 the user (250) is seen to exercise those muscles that cause his foot to traverse in a vertically- and laterally-oriented circle, and that cause his upper right leg to twist at the hip joint and to rotate up and down at the hip joint in cooperation with the circular traverse ofthe right foot and lower right leg. Also of note in the exercise motion shown in FIG. 40 is that from the user's point of view, the pedal (152), because of its circular traverse, moves not just up and down, but also left- to-right. This side-to-side cyclical motion translates to the imposition of forces upon the user's right leg and his torso that work against the maintenance of erect posture. Thus the user (250) in FIG. 40 must also exercise muscles that tend to hold his torso erect and resist lateral forces dming the course of exercising muscles related to leg movement.
Referring to FIG. 41, an individual is shown standing to one side of an exercise machine (150) as disclosed herein, symmetric plane perpendicular to the force transmission plane but offset from the axis of rotation ofthe cranking assembly (164), standing erect on his left foot next to the cranldng assembly (164), his right leg remaining flexed at the knee and extended sideward toward the cranldng assembly (164), his upper right leg remaining substantially aligned with the force transmission plane during the exercise depicted, his right foot attached to the pedal (154) ofthe exercise machine (150), bracing himself close to the exercise machine (150) by grasping a support (194) ofthe exercise machine (150) with arms flexed at the elbow, and performing exercises that cause the cranking assembly (164) ofthe exercise machine (150) to rotate about its axis of rotation. No user fixture is utilized. In FIG. 41 the user (250) is seen to exercise those muscles that cause his foot to traverse in a lateral circle, and his upper right leg to move up and down in the hip joint in cooperation with the circular traverse ofthe right foot. At the same time the user (250) is exercising those muscles that maintain the user's erect standing posture. Referring to FIG. 42, an individual is shown standing to one side of an exercise machine (150) as disclosed herein, symmetric plane parallel to but offset from the force transmission plane, standing erect on his right foot, right foot on a flat portion (176) ofthe exercise machine (150) with the cranldng assembly (164) in front of his left leg, and the remainder ofthe exercise machine (150) next to his left shoulder. With his left leg remaining flexed at the knee and extending forward toward the cranldng assembly (164), his left leg remaining substantially aligned with the force transmission plane during the exercise depicted, his left foot attached to the pedal (154) ofthe exercise machine (150), bracing himself close to the exercise machine (150) by grasping a support (194) ofthe exercise machine (150) with his left arm flexed at the elbow, he performs exercises causing the cranking assembly (164) ofthe exercise machine (150) to rotate about its axis of rotation. No user fixture is utilized. In FIG. 42 the user (250) is seen to exercise those muscles that cause his left foot to traverse in a forward circle, and his upper left leg to move up and down in the hip joint in cooperation with the circular traverse ofthe left foot. At the same time the user (250) is exercising those muscles that maintain the user's erect standing posture.
Referring to FIG. 43, an individual is shownJαieeling to one side of an exercise machine (150) as disclosed herein, symmetric plane parallel to but offset from the force transmission plane, kneeling erect on his right knee with the cranldng assembly (164) in front of his left leg, and the remainder ofthe exercise machine (150) next to his left shoulder. With his left leg remaining flexed at the knee and extended toward the cranking assembly (164), his left leg remaining substantially aligned with the force transmission plane during the exercise depicted, his left foot attached to the pedal (152) ofthe exercise machine (150), and bracing himself close to the exercise machine (150) by grasping the seat (200) ofthe exercise machine (150) with his left arm flexed at the elbow, he performs exercises that cause the cranldng assembly (164) ofthe exercise machine (150) to rotate about its axis of rotation. No user fixture is utilized. In FIG. 43 the user (250) is seen to exercise those muscles that cause his left foot to traverse in a forward circle, and his upper left leg to move up and down in the hip joint in cooperation with the circular traverse ofthe left foot. At the same time the user (250) is exercising those muscles that maintain the user's erect kneeling posture.
Referring to FIG. 44, an individual is shown, laying on his back, legs extended toward and head pointed away the cranldng assembly (164) of an exercise machine (150) as disclosed herein, symmetric plane perpendicular to the force transmission plane and offset from the axis of rotation ofthe cranking assembly (164). With his left knee bent, his left foot resting on a flat portion (180) ofthe exercise machine (150), his right leg remaining flexed at the knee and extended toward the cranldng assembly (164), his upper right leg remaining substantially aligned with a vertical plane containing the axis of rotation ofthe cranldng assembly (164) during the exercise depicted, and his right foot attached to the pedal (152) ofthe exercise machine (150), he performs exercises that cause the cranldng assembly (164) ofthe exercise machine (150) to rotate about its axis of rotation. In FIG. 44 the user (250) is seen to exercise those muscles that cause his foot to traverse in a horizontally- and laterally-oriented circle, and that cause his upper right leg to twist at the hip joint in cooperation with the circular traverse ofthe right foot and lower right leg. Also of note in the exercise motion shown in FIG. 44 is that from the user's point of view, the pedal (152), because of its circular traverse, moves not just forward and backward, but also left-to-right. This side-to-side cyclical motion translates to the imposition of torquing forces upon the user's right leg and his torso that work against the desired alignment ofthe upper right leg and the axis of rotation ofthe cranking assembly (164) in the same vertical plane. Thus the user (250) in FIG. 44 must also exercise muscles that tend to resist torquing forces and to keep his torso straight and in the proper orientation dming the he course of exercising muscles related to leg movement.
Referring to FIG. 45, an individual is shown laying on his back, legs extended toward and head pointed away the cranldng assembly (164) of an exercise machine (150) as disclosed herein. With the exercise machine (150) located between his legs, his symmetric plane remaining parallel to and offset from the force transmission plane during the exercise disclosed, his left knee bent with his left foot resting on a flat portion (176) ofthe exercise machine (150), his right leg remaining flexed at the knee and extended toward the cranldng assembly (164), and his right foot attached to the pedal (152) ofthe exercise machine (150), he performs exercises that cause the cranldng assembly (164) ofthe exercise machine (150) to rotate about its axis of rotation. No user fixtme is utilized. In FIG. 45 the user (250) is seen to exercise those muscles that cause his right foot to traverse in a forward circle, and his upper right leg to move up and down in the hip joint in cooperation with the circular traverse of his right foot.
Referring to FIG. 46, an individual is shown laying on his back, head pointed away from the cranking assembly (164) of an exercise machine (150) as disclosed herein, symmetric plane remaining aligned with the force transmission plane dming the exercise depicted, legs being together and having knees flexed, extended together upward, and with both feet attached to a user fixture (256) at points equidistant from and straddling the force transmission plane, performing exercises. Tlirough the user fixture (256), the far end of which is attached to the pedal (152) ofthe cranldng assembly (164), the user (250) in FIG. 46 causes the cranking assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, during the exercise depicted in FIG. 46, the user fixture (256) remains substantially aligned with the force transmission plane. In FIG. 46, the user (250) is seen to exercise those muscles that cause his extended legs to rotate up and down at the hip joints, cycling between a position in which his feet are somewhat above waist level, and a position in which his feet are somewhat below waist level. Referring to FIG. 47, an individual is shown laying on his back, head pointed away from the cranldng assembly (164) of an exercise machine (150) as disclosed herein. With his symmetric plane remaining parallel to and offset from the force transmission plane during the exercise depicted, his left leg flexed with his left foot resting on a flat portion (178) ofthe exercise machine (150), his right leg remaining flexed at the knee and extended upward, his right leg aligned with the force transmission plane, and his right foot attached to a user fixtme (256) at points equidistant and straddling the force transmission plane, he performs exercises. Through the user fixture (256), which is attached to the pedal (152) ofthe cranldng assembly (164), the user (250) in FIG. 47 causes the cranldng assembly (164) within the exercise machine (150) to rotate about its axis of rotation. Also, dming the exercise depicted in FIG. 47, the user fixture (256) remains substantially aligned with the force transmission plane. In FIG. 47, the user (250) is seen to exercise those muscles that cause his extended right leg to rotate up and down at the hip joints, cycling between a position in which his right foot is somewhat above waist level, and a position in which his right foot is somewhat below waist level. A number of embodiments of the invention have been described.
Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope ofthe invention. Accordingly, other embodiments are within the scope ofthe following claims.

Claims

What is claimed is:
1. An exercise device, comprising: a frame; a cranldng assembly mounted to the frame having a first cranldng arm; a flywheel mounted to the frame; a continuous drive loop rotatably linking the cranking assembly and the flywheel; and an extended user fixture having a first end rotatably attachable to a distal end ofthe first cranldng arm.
2. The apparatus of claim 1 wherein the extended user fixtme has a second end that includes a handle.
3. The apparatus of claim 1 , further comprising a plurality of supplemental weights attachable to the flywheel.
4. The apparatus of claim 3, the supplemental weights being attachable to respective radially-arrayed posts extending from the flywheel.
5. The apparatus of claim 1, wherein the cranldng assembly further comprises a second cranldng arm.
6. The apparatus of claim 5 further comprising a weight attached to a distal end ofthe second cranlcmg arm.
7. An exercise device, comprising: a frame; - - a cranldng assembly mounted to the frame having a first cranldng arm with a first post position at a distal end ofthe first cranldng arm; and an extended user fixtme rotatably attachable to the first post position ofthe first cranldng arm.
8. The apparatus of claim 7, further comprising a resistance-offering element mounted to the frame that resists rotation ofthe cranking assembly.
9. The apparatus of claim 8, wherein a continuous drive loop engages the resistance-offering element and the cranldng assembly.
10. The apparatus of claim 7, further comprising a flat guard plate momited adjacent to the first post position ofthe first cranldng arm.
11. The apparatus of claim 7, wherein the frame is adapted to selectably elevate the cranldng assembly.
12. The apparatus of claim 7, wherein the extended user fixtme is rigid.
13. The apparatus of claim 12, wherein the rotatable attacliment between the rigid extended user fixtme and the first cranking arm is a rotatable attachment between the extension and the first post position.
14. The apparatus of claim 13, wherein the rigid extended user fixture includes a pivot j oint adj acent the rotatable attachment.
15. The apparatus of claim 7, wherein the rotatable attacliment between the extended user fixtme and the first post position includes a first post fixed to the first cranking arm at the first post position, a first pedal rotatably attached to the first post, and a connection between the extended user fixture and the first pedal.
16. The apparatus of claim 15, wherein the extended user fixtme is laterally flexible, and the exercise device further comprises a roller attacliment mounted to the frame distal the first pedal, supporting and guiding a portion ofthe laterally-flexible extended user fixture adjacent a distal handle end thereof.
17. The apparatus of claim 15, wherein the extended user fixtme is rigid, and the connection between the rigid extended user fixtme and the pedal includes a pivot joint.
18. The apparatus of claim 15, further comprising a flat guard plate mounted adjacent to the first post position.
19. The apparatus of claim 15, the attachment between the extended user fixture and the pedal including a pedal adapter having a first side attached to the extended user fixture and a second side attached to the pedal.
20. The apparatus of claim 7, further comprising horizontally-extending and substantially parallel extended support members momited to the frame below the cranking assembly.
21. The apparatus of claim 20 further comprising a user seat, facing the cranking assembly and slidably momited on the support members such that a symmetric plane of a user seated on the seat is aligned with a force transmission plane ofthe cranking assembly.
22. A recumbent exercise device, comprising: a support structure; a cranldng assembly momited to the support structure having a cranking arm and a first mounting position on a distal end ofthe cranking arm adapted to accept an extended user fixture; and a user seat mounted to the support having an adjustable backrest, the location and orientation ofthe seat being such that a symmetric plane of a user seated on the seat is substantially aligned with a force transmission plane ofthe cranking assembly.
23. The apparatus of claim 22, further comprising a rigid extended user fixture rotatably attachable to the cranking arm at the first mounting position thereon, having a handle end distal the cranking arm.
24. A method of exercising, comprising: engaging a handle end of an extended user fixture; and rotating a cranking assembly by applying force through the extended user fixture to a cranldng arm ofthe cranking assembly.
25. The method of claim 24, wherein engaging the handle end includes at least one of grasping the handle end ofthe extended user fixture with both hands, grasping the handle end ofthe extended user fixture with the hand of a first arm, fastening the lower portions of both legs of an exercising user to the handle end ofthe extended user fixture, and fastening the lower portion of a first leg of an exercising user to the handle end ofthe extended user fixture.
26. The method of claim 24, further comprising aligning a symmetric plane ofthe exercising user with a force transmission plane ofthe cranlcmg assembly prior to rotating the cranking assembly.
27. The method of claim 26, further comprising reorienting the symmetric plane ofthe exercising user, after the cranldng assembly has begun rotating but before it stops rotating, so that the symmetric plane ofthe exercising user is aligned with a vertical plane containing the axis of rotation ofthe cranking assembly, then continuing to rotate the cranking assembly in the same direction by again applying force through the extended user fixtme.
28. A method of exercising, comprising: binding the foot of only one leg of an exercising user to a first pedal of a first cranldng arm of a cranldng assembly; and rotating the cranking assembly with the bound foot.
29. The method of claim 28, further comprising aligning the leg ofthe bound foot with a force transmission plane ofthe cranldng assembly prior to rotating the cranldng assembly.
30. The method of claim 28, further comprising aligning the upper leg of the bound foot with a vertical plane containing the axis of rotation ofthe cranldng assembly.
PCT/US2001/048681 2000-11-01 2001-10-30 Rotational exercise system, device and method WO2002036210A2 (en)

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US7935027B2 (en) * 2002-10-09 2011-05-03 The Shifter, Inc Spontaneous symmetrical weight shifting trainer device
US7618348B2 (en) * 2004-06-21 2009-11-17 Hakooz Joe S Compact multimode device for low impact therapeutic exercise
US7156794B2 (en) * 2004-06-21 2007-01-02 Hakooz Joe S Ergonomic contact element for holding a hand or a foot
US7559878B2 (en) * 2004-06-21 2009-07-14 Hakooz Joe S Compact multimode device and method for low impact therapeutic exercise
US8419597B2 (en) 2009-08-17 2013-04-16 Emily L. Cooper Systems and methods for a hill training apparatus for a bicycle trainer

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US6270466B1 (en) * 1996-05-24 2001-08-07 Bruxcare, L.L.C. Bruxism biofeedback apparatus and method including acoustic transducer coupled closely to user's head bones
US5944638A (en) * 1997-04-26 1999-08-31 Maresh; Joseph D. Exercise apparatus and methods involving a flywheel

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US20020107114A1 (en) 2002-08-08
WO2002036210A2 (en) 2002-05-10
WO2002036210A3 (en) 2002-08-29

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