BENCH EXERCISE DEVICE WITH ADJUSTABLE COMPONENTS FOR TARGETED EXERCISE

INCORPORATION BY REFERENCE

The parent co-pending U. S. utility patent application filed on May 3, 2022, as Ser. No. 17/803,309, titled “Adjustable Bench-Cycling Exercise Device” is incorporated herein in its entirety.

BACKGROUND OF INVENTION
a. Field of Invention

The present invention relates to exercise devices that have been created for bench exercises, including some preferred cycling embodiments, wherein a central torso support frame is used for the stomach-down position, and alternatively, for the stomach-up position (also referred to herein as “on your stomach” and “on your back” bench exercises). Specifically, the present invention encompasses three different variations of the devices set forth in the parent application, incorporated by reference above. The three specific variations of the present invention are: a) an exercise device to provide a user with advanced bench-cycle exercises for face-down, stomach down use for glute toning and muscle development; b) an exercise device to provide a user with advanced bench-cycle exercises for face-up, stomach up use for glute and hip toning and muscle development; and, c) an exercise device to provide a user with advanced bench-cycle exercises for face-up, stomach up use for abs and hip toning and muscle development. The present invention three variation s of exercise devices have adjustable pedal positions and/or pedaling capabilities to accommodate users of different sizes and who seek different achievements. The pedals are connected to cranks that are supported by extendable (adjustable) lower support bars that extend from the torso support frame. The lower support bars are, in preferred embodiments, dual support bars that are independently mounted, and, in some embodiments, each are articulated, such as hinged in the middle, for folding up or down, and each may separately be moved horizontally and vertically and shortened or lengthened (via telescoping of articulated folding). In these embodiments, the dual lower support bars may be brought toward each other or spread apart from one another. This collectively affords for X-plane, Y-plane and Z-plane adjustments in some embodiments. In other embodiments, one or more of the preceding features may be rigid or fixed. The distance between the torso support frame and the pedals or rests are adjustable, and in some preferred embodiments, the distance of the pedals from the cranks are also adjustable. Utilizing the present invention exercise devices enables an exerciser to target the full range of gluteus muscles, as well as abdominal muscles and hip toning, and in some embodiments, conventional cycling muscular development and toning.

b. Description of Related Art

The following patents are representative of the field pertaining to the present invention:

U.S. Pat. No. 10,029,143 B1 to Milstein et al. describes a stationary exercise bicycle pedal system that can be easily manually modified during an exercise routine to greatly expand the number of different muscle groups that are stimulated during the exercise routine. The stationary exercise bicycle pedal system includes laterally adjustable and selectively positionable pedals received on elongated support shafts. Adjustable pedal stops are received on each elongated support shaft and are provided on each side of each pedal to lock or hold the respective pedal in a specific location along the respective elongated support shaft. The adjustable pedal stops are manually adjustable along a length of the respective elongated support shaft so that the respective pedal can be selectively positioned anywhere along the respective elongated support shaft and varied during the exercise routine.

U.S. Pat. No. 9,162,104 B1 to Lee et al. describes an inverted exercise cycling assembly that allows a user to exercise their lower body while lying with a back to a ground surface. The assembly includes a support assembly configured for positioning upon a ground surface. A post is coupled to the support assembly. A cycling frame is coupled to the post. A flywheel is rotatably coupled to the cycling frame. A pair of pedals is coupled to the cycling frame and mechanically coupled to the flywheel such that rotation of the pedals rotates the flywheel. A rear axle is coupled to the cycling frame and extends between the pedals. The rear axle is operationally coupled to the pedals wherein the pedals urge the rear axle to rotate. A front axle is coupled to the cycling frame and extends through the flywheel. The front axle is operationally coupled to the pedals wherein the pedals urge the front axle to rotate.

U.S. Pat. No. 8,647,240 B2 to Heidecke describes an exercise device which includes a surface for supporting a body of a user and a frame(s) for supporting the surface(s) above a floor. Resistance device(s) are connected to the device for providing resistance to movement of the user. Device(s) for adjusting the surface(s) relative in distance to the resistance device(s) during an exercise routine. Device(s) may be provided for adjusting the surface(s) relative in distance to the resistance device(s) during an exercise routine and or relative to the floor. Device(s) may be provided for adjusting the surface(s) closer in relative distance to the resistance device(s) while the orientation of the surface changes from vertical thru horizontal and for adjusting the surface(s) further in relative distance to the resistance device(s) while the orientation of the surface changes from horizontal thru vertical during an exercise routine and or relative to the floor.

U.S. Pat. No. 6,551,219 B1 to Brown describes an exercise or physical therapy apparatus that provides both tonic and phasic exercise to selected muscle groups of a user, such as the muscles of the arms or legs. The phasic exercise may be accomplished by a cycle. The tonic exercise is accomplished by subjecting the muscle group to a constant load, such as a user or therapist-selected portion of the user's body weight, by springs, or by weights. A measurement device measures the degree of displacement of the user's torso, it being an objective of the user to keep the torso stationary.

U.S. Pat. No. 6,547,702 B1 to Heidecke describes an exercise device which includes a surface for supporting a body of a user and a frame(s) for supporting the surface(s) above a floor. Resistance device(s) are connected to the device for providing resistance to movement of the user. A mechanism(s) may be provided for changing the orientation of the surface relative to the floor during an exercise routine. Also, mechanism(s) may be provided for changing the orientation of the resistance devise(s) relative to the floor during an exercise routine. And mechanism(s) may be provided for changing the orientation of the surface(s) and the resistance devise(s) relative to the floor and to each other during an exercise routine. The resistance devise(s) may include component(s) for converting user motion into energy, electricity, etc. to power the exercise devise. Display device(s) may be provided to display various information relating to an exercise routine(s) to the user and to other(s). Computer control(s) may be included for controlling the amount of resistance provided by the resistance device(s) and for controlling the orientation of the support surface(s) relative to the floor and to hip extension and flexion. Memory device(s) may be associated with the computer control for storing exercise routine(s), recording the results of performed exercise routines and other information. Input device(s) may be provided with the computer control for user input information and output device(s) may also be associated with the computer control for outputting the results of performed exercise routine(s) and other information.

U.S. Pat. No. 6,379,285 B1 to Maresh et al. describes an exercise apparatus that has (a) a bi-modal seat that readily transforms between a first configuration, which is adapted for conventional cycling, and a second configuration, which is adapted for recumbent cycling; (b) a bi-modal flywheel assembly that readily switches between a direct drive configuration and a free-wheel configuration; and/or (c) a braking assembly which readily stops rotation of the flywheel at the discretion of a user.

U.S. Pat. No. 6,270,446 B1 to Abelbeck et al. describes an exercise device capable of providing aerobic exercise and abdominal muscle conditioning. The device is comprised of an upper frame and a lower frame. The upper frame includes a seat back which supports the upper portion of the torso of a user. The lower frame includes a pelvis support and a bicycle pedaling mechanism. The preferred embodiment includes a linkage system that connects the upper frame to the lower frame. This linkage is capable of providing a translating center of rotation when the upper frame rotates with respect to the lower frame. This is done to follow the body's translating center of rotation during trunk flexion. An alternative to the preferred embodiment includes a arcuate roller attached to the upper frame. This arcuate roller is preferably received by a track on the lower frame, and though preferable, the track is not necessary in order to achieve a translating center of rotation and therefore not necessary to the function of the invention. The upper frame and the lower frame are pivotally mounted one to another thus allowing the device to fold onto itself for easy storage.

U.S. Pat. No. 6,071,215 to Raffo et al. describes a multi-mode exercise machine that has a re-configurable arm member operable in alternate upstanding and recumbent configurations that allows the machine to be used, when the re-configurable arm member is configured in its upright configuration, to provide a first mode of exercise where the user is supported in such an upright position as to be able to exercise at least his/her lower body, and that allows the machine to be used, when the re-configurable arm member is configured in its recumbent configuration, to provide a second mode of exercise, where the user is supported in such a recumbent position as to allow the user to exercise at least his/her upper body. In the presently preferred embodiment, the re-configurable arm member includes a pivotally mounted and self-locking arm member movable between a first, upright position and a second, recumbent position. In the presently preferred embodiment, the first and second exercise modes include cycling and rowing exercise modes.

U.S. Pat. No. 5,785,631 to Heidecke describes an exercise device which includes a surface for supporting a body of a user and a frame for supporting the surface above a floor. Mechanism(s) may be provided for changing the orientation of the surface relative to the floor during an exercise routine. Resistance device(s) are connected to the device for providing resistance to movement of the user. Display device(s) may be provided to display various information relating to an exercise routine to the user and to others. Computer control(s) may be included for controlling the amount of resistance provided by the resistance devices and for controlling the orientation of the support surface relative to the floor. Memory device(s) may be associated with the computer control for storing exercise routines, recording the results of performed exercise routines and other information. Input device(s) may be provided with the computer control for user input information and output device(s) may also be associated with the computer control for outputting the results of performed exercise routines and other information.

U.S. Pat. No. 5,636,554 to Amey describes a variable length crank arm assembly for transferring energy to the power train of a bicycle, the assembly including a primary crank arm attached to a secondary crank arm by a rotatable coupling. The rotatable coupling enables the secondary crank arm to be rotated to extended and retracted positions during the power and unloading strokes of a pedal cycle. The variable length crank arm is biased to impart a continuous force to rotate the secondary crank arm toward its retracted position, and a stop limits the rotation of the secondary crank arm to establish the extended and retracted positions.

U.S. Pat. No. 5,569,128 to Dalebout describes a multipurpose pedal-type exercise device comprising a frame having a seat thereon, a pedal assembly having an adjustable resistance, and a multiposition adjustment mechanism connecting the pedal assembly to the frame to provide the user the capability of adjusting the position of the pedal assembly to compensate for the variation in the user's position during use of the pedal assembly.

U.S. Pat. No. 5,556,589 to Sibal describes a device for spinning fibers, especially bicomponent fibers having a sheath/core configuration. The device has, in a preferred embodiment, disposed in the spinneret orifices a grooved pin with an axial bore (a hollow pin). A polymer distribution assembly is provided for directing separate sheath and core compositions to the grooves and the bore, respectively, such that the sheath and core compositions are co-spun from the spinneret orifice. The device can be easily disassembled and a different pin configuration inserted to alter the geometry and/or ratio of the sheath and/or core sections of the fiber.

U.S. Pat. No. 5,470,295 to Wang describes a rowing exercise machine that comprises a base, a first swinging member, a second swinging member, a seat tube, a seat, a third swinging member, a first pulley, a second pulley, a pull cable, a hand grip, and two pedals. A rowing exercise is brought about by a person sitting on the seat of the rowing exercise machine, with the person's feet pedaling the pedals and the person's hands holding the hand grip to pull rearwards the pull cable to cause the first swinging member and the third swinging member to move closer so as to actuate the seat tube to move upwards and rearwards. As the pull cable is relieved of the pressure exerting thereon, the seat tube is caused by the person's weight to move forwards and downwards so as to actuate the first swinging member and the third swinging member to move away from each other in opposite directions.

U.S. Pat. No. 5,449,334 to Kingsbury describes a rotatable exercise apparatus for rotating a user in such a manner that the user's center of gravity is offset with respect to the user's center of rotation, while simultaneously exercising the user's arms, legs, stomach, back, side and neck. The rotatable exercise apparatus generally comprises a rotatable frame having an outwardly facing user support for offsetting the user's center of gravity from the user's center of rotation, a frame support structure, and a means for rotating the frame. The rotatable exercise apparatus provides a strenuous, low impact, complete physical work out which simulates the exercise and exertion which may be experienced by the human body, while participating in sailing-type activities.

U.S. Pat. No. 5,160,305 to Lin describes a multifunctional gym exerciser with an adjustable table having a semicircular set plate on a front edge of the main body of the multifunctional exerciser and a plurality of set holes on the circumference of the set plate, so that, by utilizing a combination of a set bolt with the set plate, a user can optionally secure various exercise attachments, such as a pedal assembly, a leg lift assembly and a sit up support according to different exercise requirements. Furthermore, through the use of a movable supporting stand located at the bottom edge of the main body, the table position can be widely adjusted, and a seat and rest seat can also be adjusted to a desired slope in order to achieve the best exercise effect.

U.S. Pat. No. 5,114,391 to Pitzen et al. describes an exercise device providing mechanical actions for independent or simultaneous exercise of the upper and lower body of a human user. Each action incorporates a mechanical movement converting output of the user to rotational motion and thereby powering one of two electrical generators. An exercise controller selects loads to be applied to the generators. The loads are coupled by the mechanical movements back to the user to provide resistance to the exercise effort. The exercise controller drives an electronic display which informs the user of his or her intensity of effort as well as the proportion of that effort being met through exercise of the upper body and the part being met through exercise of the lower body.

U.S. Pat. No. 4,976,426 to Szabo, deceased, et al. describes an exercise device that offers different levels of exercise to an individual and can be arranged as an exercise device for bedridden patients and those in different stages of rehabilitation. The device comprises an exercise head having at least one pair of crank arms for rotation of limbs of the individual about an axial shaft. A hydraulic motor is linked to the axial shaft to rotate the crank arms with hydraulic power source for the motor. Rotational speed of the axial shaft is set by a speed adjustment arrangement associated with the hydraulic motor. A force adjustment system adjusts the force applied to the limbs through the crank arms to rotate the axial shaft beyond a set rotational speed. Variation in the speed of the axial shaft is sensed by a speed sensing arrangement. A system for sensing force to sense variation in force applied to the crank arms by the limbs of the individual.

U.S. Pat. No. 4,973,046 to Maxwell describes an exercise device for active or passive therapeutic exercise of human lower extremities that provides a portable base structure supporting a housing that journals a laterally similar adjustable pedal crank rotatably carrying pedals on its outer arms. Motor and drive mechanism carried by the housing power the pedal crank for rotary motion and a brake structure selectively restrains its motion. The housing is adjustably positionable relative the base about three perpendicular intersecting axes and each of the laterally opposed pedal crank arms are compound elements interconnected by adjustment structures allowing positioning of each of three elements forming each pedal crank arm about two mutually perpendicularly axes. Pedal structures, adjustable for foot size, are rotatably mounted on the opposed lateral elements of the pedal crank. Each pedal structure mounts a pedal plate for universally adjustable motion relative to the pedal crank to adjust the plane of contact of a user's foot therewith.

U.S. Pat. No. 4,673,178 to Dwight describes an exercise machine assembly (10) that includes a body portion (12), handlebars (16) mounted on the body portion (12) and a seat (18). A pair of crank arms (26) are supported by the body portion (12) for rotational movement. A foot pedal (28) is mounted on an axle member (30) extending from each of the crank arms (26). The foot pedals (28) are mounted on adjustable supports for adjustably supporting each of the foot pedals (28) at any one of a plurality of positions along the entire length of the crank arm (26).

U.S. Pat. No. 4,519,604 to Arzounian describes an exercise machine that includes a set of pedals which are rotatable by the user, and a crib for supporting the user in the supine position. The crib and pedals oscillate simultaneously in opposite directions under motive power of the pedals.

U.S. Pat. No. 3,888,136 to Lapeyre describes a pedal and crank arm system for bicycles and the like to provide rugged yet safe and easy means for adjusting the effective length of the pedal arms in one quick step if preferred to whatever extent desired within the limits of the full adjustment range, while automatically maintaining the two pedals an equal distance from the axis of the drive shaft at all times. The system further provides simple and positive locking means for insuring fixed effective pedal arm length during pedaling. The locking means may be easily and quickly disengaged and pedal position adjusting means actuated by the feet of the cyclist either when bicycle is at a standstill or in motion, thereby leaving both hands of cyclist available for guiding and braking. The devices of this disclosure may be installed as original equipment or provided in kit form for modifying bicycles which have other pedal and sprocket arrangements.

U.S. Pat. No. 3,750,479 to Gause et al. describes an apparatus for testing the human body in a variety of positions, ranging from the vertical to the supine, while exercising on an ergometer; and can also be used for angular positioning of other biomedical devices. It includes a floor plate and a hinged plate upon which to fix the ergometer, a back rest and a head rest attached at right angles to said hinged plate and behind the seat of the ergometer, dual hydraulic cylinders for raising and lowering the hinged plate through 90.degree. by means of a self contained hydraulic system, with valve means for control and positive stops on the apparatus to prevent over travel. Tests can be made with the subject positioned on the seat of the ergometer, through the various angles, with a substantially normal body attitude relative to said seat and ergometer.

U.S. Pat. No. 2,316,530 to Nilsen describes, in a bicycle drive unit, the combination with a pedal shaft having a sprocket gear secured thereto and mounted for rotation and a pair of rigid pedal arms each having secured to one end a foot pedal, of an elongated member secured intermediate its ends to said shaft and having the other end of one of the arms pivoted to one end thereof, the other end of the other pedal arm being pivoted on the sprocket gear eccentrically of the axis of rotation of the shaft, and spring tensioned devices pivoted to said arms closer to said pedals than to the pivots of the arms and one of said tensioned devices pivoted on the sprocket gear eccentrically of the axis of rotation of the sprocket gear and the shaft and the other tensioned device pivoted on the other end of said elongated member eccentrically of the axis of rotation of the shaft, said spring tensioned devices each including a stop nut and a spring tension adjusting nut, said nuts being manually adjustable to render the tensioned devices operable and inoperative.

U.S. Pat. No. 597,911 to Morris describes, in a velocipede-crank, the combination of a crank-arm, a leverage-increasing arm pivotally connected with the crank-arm between the ends thereof and provided with a pedal, and a spring between the outer end of the crank-arm and the leverage-increasing arm whereby the leverage of the crank may be increased against the resistance of the spring and the outer end of the crank-arm will form a positive stop to farther forward swing of the leverage-increasing arm when the resistance of the spring is overcome.

Notwithstanding the prior art, the present invention is neither taught nor rendered obvious thereby.

SUMMARY OF INVENTION

The present invention relates to an exercise device to provide a user with advanced bench and bench-cycling exercises as well as glute toning, hip toning and abs toning, for use in either the stomach-down and stomach-up position. The present invention encompasses three different variations (Modules). The three specific Modules of the present invention are: a) Module A, an exercise device to provide a user with advanced bench-cycle exercises for face-down, stomach down use for glute toning and muscle development; b) Module B, an exercise device to provide a user with advanced bench-cycle exercises for face-up, stomach up use for glute and hip toning and muscle development; and, c) Module C, an exercise device to provide a user with advanced bench-cycle exercises for face-up, stomach up use for abs and hip toning and muscle development.

Thus, the present invention Module A device is an exercise device to provide a user with advanced bench-cycling exercises for face-down, stomach down use for glute toning and muscle development. The Module A device includes: a) a bottom support with at least one main support stem extending upwardly therefrom; b) an upper support bar, functioning as a main body support, connected in a fixed position to said at least one main support stem, said upper support bar including having a support area for supporting a user's shoulders area, a user's hips area, or both, said fixed position being at an angle with said shoulders area positioned being lower, equal to or higher than said hips area; c) at least one lower support bar, that is adjustable in length, said at least one lower support bar having a top portion connected to at least one of said main support stem and said upper support bar, and having a bottom portion extended away from said upper support bar; d) two cranks, one of each located on bottom portions of said lower support bar wherein lock of said cranks is adjustable in length; e) at least one resistance device, located on said exercise device and functionally connected to said cranks to create resistance on at least upward strokes of said cranks when in use; and f) a pair of pedals, one of each separately connected to one of said two cranks.

In some most preferable embodiments of the Module A present invention, the main body support frame is connected to the at least one main support stem so as create an angle of at least 20% above horizon. In this module, some embodiments have an upper support bar that includes at least one of: a) expandable, contractable sides, and b) an expandable top. Some preferred embodiments will include both of these features. Likewise, the upper support bar of this module may include extended arm components with hand grips. Additionally, the upper support bar includes at least one of: a) a hip support, extended arm components with hand grips and b) forearm-elbow support pads. In some preferred embodiments, the at least one lower support bar is two lower support bars that are lockably, rotatably connected at their top portions and open at their bottom portions to be moveable relative to one another to create open and closed V-shaped formation for spreading and adjoining legs of a user in a single plane. Further, the lower support stems are lockably rotatable to pitch up or down relative to the angle of the upper body support.

In some embodiments of the present invention, the exercise device is a Module B exercise device that provides a user with advanced bench-cycling exercises for face-up, stomach up use for glute and hip toning and muscle development. This Module B device includes: a) a bottom support with at least one main support stem extending upwardly therefrom; b) an upper support bar connected to said main support stem in a substantially horizontal fixed position, and having sufficient size to support at least a portion of a human torso of said user, including head, shoulders and lower back and buttocks, said fixed position being at an angle no greater than 15% up and no greater than 30% down; c) at least one lower support bar that is adjustable in length, said at least one lower support bar having a top portion connected to one of said upper support bar and said at least one support stem, and having a bottom portion extended away from said upper support bar and said at least one support stem; d) two footrests for at least one of downward push movement and upward movement, one of each located on said bottom portions of said lower support bar, said footrests being selected from the group consisting of unmovable protrusions, moveable protrusions and cranks with pedals, wherein said two footrests are fixedly positioned relative to one another to be parallel to one another instead of standard cycling pedals that are 180 degrees apart; and; e) at least one resistance device, functionally connected to said at least one lower support bar and is connected to said at least one of two footrests to create resistance on at least one of downstrokes and upstrokes of said footrests when in use; f) wherein said at least one lower support bar bottom portion is positioned in an elevated position relative to said upper support bar such that a user may be positioned in a knee crunch position to initiate parallel footrest movement.

In some embodiments of the Module B present invention, the following may be included: The at least one lower support bar is two lower support bars that are lockably, rotatably connected at their top portions and open at their bottom portions so as to be moveable relative to one another to create open and closed V-shaped formation for spreading and adjoining legs of a user in a single plane. The main body support frame is fixedly connected to the at least one main support stem, so as to prohibit rotational movement of upper support bar. The upper support bar is articulated with a head, shoulders and low back support segment and a separate butt segment and includes a lockable hinge between them so that the butt segment is adjustable relative to the low back support segment to accommodate comfortable butt support and positioning. The upper support bar is one long support member for head, shoulders, low back and butt. The upper support bar has a first segment that is flat for head, shoulders and low back, and has a second segment that is fixedly pitched downward away from first segment to accommodate butt support and positioning. There are two lower bar segment(s) that can be extended in length for both different size users, and to change the rotational size of the movement. The exercise device further includes a seat belt connected to at least one of: the at least one main support stem; the main body support frame; and the upper support bar. The exercise device further includes an on-board computer for storing, retrieving and displaying information about the workout. The at least one lower support bar is articulated with a first segment and a second segment rotatably and lockably connected to one another to create a knee joint and to permit complex angles and positions at the knee joint.

In some embodiments of the present invention, the exercise device is a Module C exercise device that provides a user with advanced bench-cycling exercises for face-up, stomach up use for abs and hip toning and muscle development. Module C includes: a) a bottom support with at least one main support stem extending upwardly therefrom; b) an upper support bar connected to said main support stem in a substantially horizontal fixed position, and having sufficient size to support at least a portion of a human torso of said user, including head, shoulders and lower back and buttocks, said upper support bar being in a fixed position being at an angle no greater than 20% up and no greater than 20% down; c) at least one lower support bar, that is adjustable in length, said at least one lower support bar having a top portion connected to at least one of said upper support bar and said at least one support stem, and having a bottom portion extended away from said main joint; d) two expandable or contractable cranks, one of each located on said bottom portion of said lower support bar; c) at least one resistance device, functionally connected to one of said at least one lower support bar, connected to said two cranks to create resistance on at least one of downstrokes and upstrokes of said cranks when in use; and f) a pair of pedals, one of each separately connected to one of said two cranks.

In some embodiments of the Module C present invention, the following may be included: There are two lower support bars that are lockably, rotatably connected at their top portions and open at their bottom portions so as to be moveable relative to one another to create open and closed V-shaped formation for spreading and adjoining legs of a user in a single plane. The main body support frame is connected to the at least one main support stem so as create an angle of no greater than 10% above the horizon, and no greater than 10% below the horizon. The main body support frame is fixedly connected to the at least one main support stem, so as to prohibit rotational movement of the at least one lower support and the upper support bar. The upper support bar includes at least one of a) a headrest, and b) an extended arm components with hand grips. The lower support has two sections that are lockably articulated relative to the thigh position as a knee joint and to permit complex angles and positions between the thigh and shin sections. The lower support has two sections that are fixed at the knee joint and lockably articulated at the hip or main joint relative the upper support to permit complex angles and positions. The Module C device further includes an on-board for computer for storing, retrieving use data.

In all embodiments of the present invention, that is, Modules A, B and C, two optional but preferred features are: the resistance device(s) includes variable rotary resistance to allow the resistance to be adjustable to be more difficult during portions of the rotation; and the present invention devices further include on-board computers for storing, retrieving, displaying, and controlling pedal distance and resistance.

In some preferred embodiments of the present invention, the exercise device further includes pedal distance and resistance monitoring, display and control. In some embodiments, the exercise device further includes a memory for storying, retrieving and displaying pedal distance and resistance history, crank positions, crank rotary resistance in fixed or variable increments and powering down either of the cranks independently before, during, or after use.

In some preferred embodiments of the present invention devices that include cranks, each crank is lockably telescopic and each pedal and crank may be independently lockable at any angle, relative to the other pedal or crank. In some embodiments, each of said cranks includes a variable resistance mechanism.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate preferred embodiments of the invention and together with the detail description serve to explain the principles of the invention. In the drawings:

FIGS. 2, 3 and 4 are block diagrams illustrating the essential features and other features of the present invention exercise devices, specifically Modules A, B and C;

FIG. 5 shows a side view of a preferred Module A present invention exercise device with its fixed, significantly tilted torso support, and FIG. 6 shows an oblique front view thereof;

FIG. 7 shows a side view of a Module B preferred present invention exercise device with a substantially horizontal torso support and footrests for leg presses; and,

FIG. 8 shows a side view of a Module C preferred present invention exercise device with a substantially horizontal torso support and adjustable cranks and pedals.

Additional features, advantages, and embodiments of the invention may be set forth or apparent from consideration of the following detailed description, drawings, and claims. Moreover, it is to be understood that both the foregoing summary of the invention and the following detailed description are exemplary and intended to provide further explanation without limiting the scope of the invention as claimed.

DETAILED DESCRIPTION OF THE EMBODIMENTS

The present invention exercise device is an advancement in glute exercise, as well as torso, and leg muscle exercise. Further, the present invention exercise device may be utilized with the stomach/face facing the floor (on your stomach) or facing the ceiling (on your back). Due to its many unique features, the present invention exercise equipment offers optional headrest, handles that may be fixed or adjustable, and a lower support member(s) for both legs. The overview from the parent application cited above and incorporated by reference, includes general considerations that are important to the three Modules (A, B and C). Thus, one or more of the following features as used in or essential to one or more of the present invention Modules A, B and C, such as: The lower support member(s) may be a single member for both legs or two separate lower support members, one for each leg. These lower support members, when dual components, can be fixed parallel, and spread to incrementally adjustable angles between the two lower support members. In some embodiments spread and close smoothly as an added moment to the main exercise on any given module A, B, and C, set manually or, as in a automated program. It is an ergonomic, adjustable machine that's capable of full range motion in at least two axis planes, and preferably in three axis planes, as well as introduces the pulling motion to the glute. The “Opus” has a multiple of different settings and adjustments to target the glutes in a complete way that no other machine can. The Opus can be adjusted to fit any sized person and be used alternatively to target the abs. The preferred individual (at-home, office, gym, rehab clinic or physical therapy clinic) model is computerized to keep track of and to control statistics, to control resistance, and has the capability to connect wirelessly to other Opus devices for competition and comparing stats. It is designed both for strength training purposes, toning, cardio enhancement and/or rehabilitation purposes.

This invention is a flat to inclined, laydown, fully adjustable, in-place exercise bike “bench cycle” designed to be utilized in three use positions and is used by pedaling or “cycling” in-place, and in some cases, leg pressing.

The invention is coined the “OPUS” and will enhance and strengthen many muscles, but especially the butt (glutes) and stomach (abs) very specifically, and separately, in two very different use positions. The primary use position is face down and targets the glutes, as well as other muscles, but particularly emphasizes glute strength and enhancement. The secondary use position is face up and targets the abs, as well as other muscles. Given the many adjustment possibilities, the user will not only be able to make adjustments to fit the size of the user, but will also be able to increase or decrease muscle extension, direction, range of motion, and adjust resistance. Fully computerized, the Opus will keep track and control of all movements and statistics and is capable of connecting to other Opus wirelessly for competition and pairing. In an alternative analog version, resistance, positioning, locking and adjusting would be performed manually.

Thus, in the parent application invention, the device is made up of six main parts: the base, main support stem, main joint/body support, upper support bar, lower support bar, and the cranks/pedals. These six parts are elaborated on below, as features of one or more of the present invention detailed Modules.

The Base—The base is a sturdy support platform that may come in many forms. It could have any top view profile or footprint and must provide sufficient support for a pedestal or other upwardly extending stem. It may take one of three general functional formats—one being portable and thus requiring a broad or elongated member to prevent accidental tipping of the device; one being permanent, and thus could be smaller in footprint but includes attachment means (such as orifices for screwing to a floor or other substrate, or flanges for embedding in structural materials, or flanges that may be kept in place by overbraces). Or bent steel structures that form a sturdy foundation for the main joint/body support, upper support bar, lower support bar, and the cranks/pedals, to be held up by, with or without the need of the main support stem, or being affixed to the ground.

The Main Support Stem—The main support stem is one or more uprights that support the functional components of the present invention devices. Multiple uprights, dual uprights, or a single support pedestal may be used, although dual and single are preferred to afford maximum space and movement for the adjustable components. In one preferred example, the stem is a single vertical support which runs vertically from the base upwards to the main joint/torso support. The bottom of the stem is fixed to the base. The other end, the upper end, ends in a cylinder which is the foundation of the main joint. The main support stem is not adjustable itself.

The Main Joint/Body Support Frame—The main joint sits directly on top of the main support stem and, in some preferred embodiments, is made up of multiple adjustment mechanisms that constitute the primary body support frame (it is the component set that keeps the user above the stem, via the upper and lower support bars). These multiple adjustment mechanisms are positioned so that the upper support bar (torso support bar) and the lower support bar(s) (legs and feet support(s)) are at least independently rotatable and lockable, and in some preferred embodiments, also afford spreading of dual lower support bars. In one example, the main joint is made up of three rotatable sandwiched rings about a central, stem-supported axle or cylinder. The rings slide onto the cylinder at the top of the stem and are able to pivot on the cylinder. The middle ring is attached to the upper support bar and allows the support to pivot parallel to the ground and downwardly below horizontal and upwardly above horizontal (e.g., 90 degrees to the main stem to perpendicular to the ground (in alignment with the main stem)). The middle ring also allows the upper support bar to fold over itself for storage. The two outer rings are attached to the lower support bars, left and right separately. The rings allow the supports to pivot together or separately in the full range of motion from the ground up to, for example, 135 degrees from the main stem. These rings both have hinges on them that allow the left and right sections of the lower support bars to also spread to the desired width. All actions can be made in increments and can be locked into any desired position, or in some embodiment the left and right sections of the lower support bars can move smoothly in and out horizontally, manually or automated, as in a programmed exercise while also doing the main movement function of module. In some preferred embodiments, the lower support bar(s) may be swiveled relative to the upper support bar to have a user twisted left or right, at the hips, during pedaling.

The Upper Support Bar (Torso Support)—The upper support bar, readily and safely supports the main body, i.e., the torso of the user, or in another embodiment, specifically the hips of the user, and hence supports most of the weight of the user. The angle of the upper support in conjunction with the angles of the two lower supports allows the Opus to target different areas of the muscles. There are preferably two different “handles” attached to the upper support positioned specifically for each of the main use positions, or, alternatively there are built in grips on the upper support bar, such as ergonomically correct hand grip cut outs (which are included herein as meant by “handles”). As another alternative, there may be one set of handles that is adjustable for comfortable use in both the stomach-down and the stomach-up exercise positions, such as ones that swing over for a higher and lower position, or ones that can slide at right or other angles up and down the upper support bar. In the preferred embodiments, the upper hand grip position is used for the primary face down glute position, and the lower grip position is used for the secondary face up abs position.

The upper support bar also holds the support pads, and in some embodiments, elbow pads, that hold the body torso comfortably in either main use position. The pad's connection to the upper support bar, preferably, may sit in the channel of a track that runs down the middle of the bar which allows the pads to be adjusted to any height or length, and therefore, accommodates different size (height and span or width) users and their ergonomics, depending on their size and on the specific exercise being performed. In some preferred embodiments, the handles are positioned and adapted to hold elbow supports (padded), and thus the torso weight maybe distributed between the hip pads and the elbow pads in the stomach-down mode.

The lower section of the support pads may also expand laterally to relieve the stomach of any resistance while using the primary use position, and/or fit the ergonomics of the different size users' buttocks when the present invention device is used in the stomach-up, abs enhancing position. There may be a hinge or other headrest connection mechanism at or near the top of the upper support bar to hold a collapsible or removable headrest sitting on its own support bar. When the headrest support bar is extended or engaged (open), its track also lines up with the track of the upper support bar for full sliding range of adjustment. In some preferred embodiments, the headrest bar can be released at the hinge, folded back, and latched to the back of the upper support bar when not in use, or for the primary use position. In some other embodiments the support pads are one pad that hold the whole human torso and head during the exercise.

The Lower Support bar—The lower support bar may be a single bar (central, for both legs, or may be dual bars (for separate positions of each leg) or may be a hybrid lower support that is two bars that may move independently of one another or alternatively be clamped or otherwise be connected together to act as a single bar. Preferably, the lower support bar is made up of two, articulated main legs, left and right. Both legs are attached to the main joint in their corresponding sides (left and right) and can both move on two planes, X and Y, and can pivot and spread. If they are also telescopic, they can each move independently in three planes. The rings allow the supports to pivot on the Y axis together or separately the full range of motion from the ground, up to 135 degrees from the main stem. The support legs can also move on the X axis from the hinges on the main joint allowing them to spread to the desired width, targeting the outer buttocks, outer abs if face up, or inner thigh if doing leg strength training/glutes in the face up position. The lower support bar may be made up of two sections, upper, and lower, or in some embodiments the “upper” and “lower” sections are one. The lower support bar is telescopic in either one or two separate sections allowing for ergonomics and fitting different size users.

The Lower Support bar (upper)—The upper section of the lower support bar can expand or contract in size to accommodate any user size.

The Lower Support bar (lower) The lower support bar can, in some embodiments expand or contract in size (length), e.g., by telescoping. The cranks are attached to Opus at the bottom of the lower support bar(s).

The Cranks/Pedals—The term “crank or cranks” as used herein refer to the crankarm(s) (sometimes referred to as cranks) with their attachments for connection to the lower support bar, as well as to the pedals. There are two cranks, one left and one right, and they are opposite each other like a bicycle, meaning that they are on opposite sides of the lower support bar. However, unlike a bicycle set of cranks, these may be set or fixed at 180 degrees off from each other, for traditional cycling rotation, or may be exactly 0 degree off so that the turn in parallel (ankles are always “looking at each other”). In some preferred embodiments, the Opus cranks telescope to adjust the desired radius motion, i.e., change the distance from the axis of crank rotation to the pedal axle. For example, measuring from where the cranks are connected to the lower support bar down to the axle of connection of the pedal to the crank, what applicant coins as “cranking radius”, this distance could be adjusted from 7″ to 14″. While this feature is essentially for body size and comfort adjustment, it can also be used to afford a user different cranking radii for different purposes, i.e., for targeting different muscles and extending and/or contracting range of motion. Longer cranking radii allow for more extended workouts on the muscles. Shorter cranking radii may increase the rotations per minute. The cranks work independently of each other (unlike a bicycle) so that when the lower support legs are spread to various widths by lower support bar adjustments, the cranks still work. Also, development of range of motion increases are readily achieved with these unique present invention features. The cranks hold The Opus pedals, which are available in two models. One has adjustable clips to allow any size foot or shoe to slip in, yet be snug enough for cycling use, the other holds a standard bicycle shoe clip that clips into any standard bicycle shoes. The pedals can be interchangeable, and, thus, easily removed to accommodate any standard pedals for personal customization.

Resistance may be “computer controlled” on the cranks so that a user may build up strength over time. In one version, this adjustment feature may be totally controlled by the user, wherein the user sets the resistance and changes it as desired. In another version, programs are included that set graduated resistances over usage or time (such as is measured in miles pedaled or hours used). In a third, preferred version, the user is offered both preprogrammed regimens and self-controlled resistance adjustments. The details of controlled resistance on exercise bikes are well known, and the same arrangements may be used with the present invention devices. In addition, variable resistance may be controlled on a cycle-by cycle basis, i.e., the resistance on the uphill movement of dual pedals might be lower than the resistance on a downhill portion of a stroke or cycle, or vice versa. Such changes in resistance (by tension or compression) may be smoothly transitioned or done in step functions. The cranks also have the ability to produce “radial resistance increments” that can be controlled either manually or via the computer. Radial resistance increments can be looked at like resistance applied to the movement of clock hands, standard resistance like a standard stationary bike would be resistance equally all the way around the clock. Radial resistance increments would be resistance from 12 pm-6 pm, and then none, or little resistance from 6 pm back to 12 am, or any desired increment(s) throughout the rotation. The phrase, “radial resistance increments” is used here to explain this feature. In some embodiments resistance may achieved without a computer using analogue methods found in common exercise machines. Radial resistance may be achieved using different shaped ellipsis also found in common exercise machines. In some embodiments where the lower support bar(s) are two members, the resistance works equally in both members so as they the exercise is symmetrical as the members spread out to the side.

The cranks could also be set to have snap back resistance (or reverse resistance) when the pedals are in unison and being used in the face up position like a leg press (unlike or opposite that of a bike). The user would push on the crank arms like a leg press, instead of the movement continuing like a bicycle would, at the end of the movement, legs extended at the top of the press, the cranks would rewind to the start position again, ready for another rep. The phase, “snap back resistance” or “reverse resistance” is used here to explain this feature.

The accompanying drawings, which are included to provide a detailed understanding of the three present invention Modules, and are incorporated in and constitute a part of this specification, illustrate preferred embodiments of the invention and together with the detail description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a block diagram illustrating the essential features and other features of the parent application invention exercise device to provide a user with advanced bench-cycling exercises as well as glute toning and abs toning, for use in both the stomach-down and stomach-up position. In this FIG. 1, the parent application invention exercise device is to provide a user with advanced bench-cycling exercises as well as glute toning and abs toning, for use in both the stomach-down and stomach-up positions is illustrated from the bottom up. There is a base, which is indicated as portable or attachable, bottom support 1. By “portable” is meant that the device base moveable yet is large enough to prevent tipping in normal usage without being attached, strapped or otherwise connected or held in place; by “attachable” is meant that it is designed and structures to be attached, by any means, to a substrate, such as screwing, bolting, strapping, welding, etc. to a floor, pad or other substrate. The bottom support may extend all the way up to a pivot mechanism, shown as joint/body support 9, so the bottom support might be a table with 3 or 4 or more legs. However, in the preferred embodiments, there is a base (bottom support 1) and a main support stem 7 as shown in FIG. 1. There is a torso support frame 5, also designated elsewhere herein as an upper support bar. It includes optional hip pads and chest pad 15, an optional but preferred separate headrest 17 and, as generically shown in FIG. 1, handles (fixed or adjustable) 13. Not shown, the handles may be extendable arms with hand grips. This upper support bar (frame 5) may also have adjustable front, sides and back 11. These adjustable sections are expressly for the pads mentioned above. That is, while the pads are adjustable, it is understood that the underlying infrastructure itself must be adjustable so that the supporting frame of the pads will adjust.)

In FIG. 1, this embodiment has a single lower support for both legs of the user 19, yet, alternatively, the lower support bar is a dual set of two. Correspondingly, in FIG. 1 there is one crank for each leg 27, both attached on opposing sides to the same, single lower support; alternatively, in FIG. 2 there is one crank on each of the lower support bars. This difference will be further illustrated below in conjunction with the drawings that follow. In FIG. 1, the lower supports have adjustable angles and lengths and are preferably articulated, i.e., are segmented with rotational connections, much like the human leg with a knee joint.

In FIG. 1, the lower support is most preferably adjustable in three planes. In these embodiments, the single lower support may preferably be rotated up and down (joint rotation), back and forth for side rotation, and telescopic for extension-contraction, hence three-dimensional rotation. Alternatively, each of the two lower supports are three dimensionally rotatable and, hence, can be spread apart from one another. Also shown in both Figures are articulated lower support members, enabling use of a “knee joint”, as well as adjustable length pedals, which are achieved with telescopic crank shafts 29. All of these features just described are used in one or more embodiments of the present invention.

Module A-Face and Stomach Down (Glute Toning, Etc.) FIG. 2

FIG. 2 shows a block diagram of the features of present invention Module A for face/stomach down exercises with maximum effectiveness on the glutes. There is a bottom support 201, with extended base and/or multiple support legs 203, and an upper support bar and main body support frame 205 (note that there is no pivot mechanism as in FIG. 1). Upper support bar and main body support frame 205 are positioned for at least torso support and together have a fixed position at a non-horizontal angle, here, specifically tilted so that the torso, head and shoulders are higher than the user's hips and feet. (As mentioned above, in some Module A embodiments, this may be reversed, i.e., the torso, head and shoulders may be lower than the hips and feet.) The side, front and back of the upper support bar and main frame may be adjustable 211, and handles are included that may be fixed or adjustable 213. There are optional hip pads and optional chest pad 215, and the upper support bar and main frame 205 is preferably adjustable as to its width and separately, its length 231. There is an on-board computer 207 that is optional but preferred. There is at least one lower support for the user's legs 219, with adjustable angles and lengths 223, that extend below the torso 225, and are most preferably adjustable in 3 planes, that is, in the X, Y and Z planes 221. There is at least 1 crank for each leg 227, and one or more resistance devices 209 attached to the cranks or, alternatively, to the at least one lower support 219. There are pedals and shafts that have adjustable lengths, such as telescopic adjustments, at the ends of the at least one lower support 219. Further details of Module A are set forth in the discussion of FIGS. 5 and 6, below.

Module B-Face and Stomach Up (Glute and Hip Toning) FIG. 3

This Module B is not a cycling exercise device, but rather includes pushing (push down reps) with feet and legs. FIG. 3 shows a block diagram of the features of present invention Module B for face/stomach up exercises with maximum effectiveness on the hips and glutes. There is a bottom support 301, with extended base and/or multiple support legs 303, and an upper support bar and main body support frame 305 (note again that there is no pivot mechanism as in FIG. 1). Upper support bar and main body support frame 305 are positioned for at least torso support and together have a fixed position at a substantially horizontal angle, plus 15 degrees to minus 30 degrees, and preferably, plus or minus 10 degrees. The side, front and back of the upper support bar and main frame may be adjustable 311, and handles are included that may be fixed or adjustable 313. There is an optional head rest 317, and the upper support bar and main frame 305 is preferably adjustable as to its width and separately, its length 331. There is an on-board computer 307 that is optional but preferred. As with all embodiments, this on-board computer may be used to set programs, to secure activity history, to chart progress, to issue alarms and/or reminders, to modify programs, to add background such as music or simulated activity sounds, nature sounds (ocean, birds, wind, etc), and to provide product updates, upsells, and any other use that a user or manufacturer may desire. These on-board units may be wirelessly connected to the internet or dedicated to a particular wireless connection.

In this Module B, there is at least one lower support for the user's legs 319, with adjustable angles and lengths 323, that may extend at, above or below the torso 325, and are most preferably adjustable in 3 planes, that is, in the X, Y and Z planes 321. There are no functional rotating cranks in this embodiment, although fixed pedals and cranks could be utilized as the adjustable length fixed footrests 329. These footrests could be stationary pedals, plates, a single platform or otherwise, but are preferably with optional straps or foot inserts (cups or slips to receive the feet). There are one or more resistance devices 309 attached to the footrests directly or indirectly. cranks or, alternatively, to at least one lower support 219. Further details of Module B are set forth in the discussion of FIG. 7, below.

Module C-Face and Stomach Up (Abs and Hip Toning) FIG. 4

This Module C is a cycling exercise device like Module A, but is not tilted and is used oppositely, that is face up instead of face down as in Module A. FIG. 4 shows a block diagram of the features of present invention Module C for face/stomach up exercises in an essentially horizontal position, with maximum effectiveness on the hips and abs. There is a bottom support 401, with extended base and/or multiple support legs 403, and an upper support bar and main body support frame 405 (note again that there is no pivot mechanism as in FIG. 1). Upper support bar and main body support frame 405 are positioned for at least torso support and together have a fixed position at a substantially horizontal angle, plus or minus 20 degrees, and preferably, plus or minus 10 degrees. The side, front and back of the upper support bar and main frame may be adjustable 411, and handles are included that may be fixed or adjustable 413. There is an optional head rest 417, and the upper support bar and main frame 405 is preferably adjustable as to its width and separately, its length 431. There is an on-board computer 307 that is optional but preferred, with all of the possibilities and advantages set forth in the discussion of the on-board computer regarding Module B above.

In this Module C, there is at least one lower support for the user's legs 419, with adjustable angles and lengths 423, that may extend at, above or below the torso 425, and are most preferably adjustable in 3 planes, that is, in the X, Y and Z planes 421. There are functional rotating cranks 427 and pedals 429 in this embodiment. These pedals, as in all embodiments, are preferably with optional straps or foot inserts (cups or slips to receive the feet). There are one or more resistance devices 409 attached directly or indirectly to the cranks. Further details of Module C are set forth in the discussion of FIG. 8, below.

Example 1: Structural Presentation of Module A

FIG. 5 shows a side view of a preferred Module A present invention exercise device 500 with its fixed angle, significantly tilted torso support, and FIG. 6 shows an oblique front view thereof. Both FIGS. 5 and 6 are discussed here collectively, and in some instances, one or the other view may not show all numbered components. The stem 503 and upper support bar 505 are in a fixed (non-rotational) position and fixed at a relatively steep angle, e. g., at a 35-to-45-degree angle with horizontal. It is the positioning of the torso support that creates the exceptional toning of the glutes. There is shown a bottom support 501 and a main support stem 503. Connected to stem 503 is upper support bar 505. Connected to upper support bar 505 and the support stem 503 is the main hinge 529 also connected to lower support bar 521. There section of the lower support bar 521 that is telescopic and labeled 523. Hinge 529 is shown as a shaft and pin for rotation, with stops (not shown) to define the arc in which lower support bar 521 may be rotated up and down. Hinge 529 also includes a secondary hinge, the horizontal spread hinge 530 that allow separate lower support bars (in some embodiments, shown in main patent) to spread horizontally in a ‘V’-like movement out to the sides while always connected at the top to hinge 529. This device 500 has an optional but preferred set of hip pads, namely, hip pads 507 and 509, shown in an open position, but adjustable on sliding support frames, to be movable toward and away from center to accommodate larger and small users, as well as up and down on the main track 508 (head toc) to adjust for ergonomics. There are also chest shoulders pads 511 and 512 that move toward and away from center as well as up and down (head to toe) on the main track 508 to accommodate larger and small users and ergonomics. There is also right upper handle 531, left upper handle 533 connected to the chest pad 511 and/or the upper support bar 505. The handles 531 and 533 may be created of a single tubular member.

In this preferred embodiment of FIGS. 5 and 6, there are dual lower supports for the user's legs. Thus, lower support bar 521 is composed of two parts, a first lower support bar left 515, and second lower support bar right 513. Lower support bars 513 and 515 are articulated vertically by hinge 529, and horizontally by hinge 530, and both sections of lower support bars 513, and 515 are telescopic/locking. At the lower ends of these dual lower support bars 513 and 515, are telescopic right crank 539, telescopic left crank 541, right pedal 545 and left pedal 543. Also shown in FIG. 5, is optional but preferred stiff and adjustable monitor screen cord 549 monitor device/screen 551.

Example 2: Structural Presentation of Module B

FIG. 7 shows a side view of a preferred Module B present invention exercise device 700 with its fixed, substantially horizontal torso support, for face up use. Device 700 has a bottom support 701, a main support stem 703, and an upper support bar 705. These components are in a fixed (non-rotational) position and fixed at a substantially horizontal angle, e.g., at plus 15 to minus 30 degree angle with horizontal, and preferably within ten degrees of horizontal. This is an on your back, face up device that creates exceptional toning of the glutes and the hips. Connected to stem 703 is the upper support bar 705 that is connected to the main body support pad 709. This device 700 has a left lower handle (not shown), and a right lower handle 737, both connected to the upper body support pad 709 and/or the upper support bar 705. Note that both the right lower handle 737 and left lower handle (not shown) may be created of a single tubular member or as separate components.

In this preferred embodiment of FIG. 7, there is a single lower support for the user's legs, but this could be an alternative device with dual lower supports for the user's legs. Thus, there is shown a single unit lower support bar 721 hinged at its upper end at hinge 739. Hinge 739 is shown as a shaft and pin for rotation, with stops (not shown) to define the arc in which lower support bar 721 may be rotated. Any equivalent rotational mechanism, such as an arcuated claw on a central shaft, may be used here and throughout the various embodiments, at any of the points of rotation, without exceeding the scope of the present invention. Hinge 739 also includes a secondary hinge, the horizontal spread hinge 730 that allow separate lower support bars (not shown) to spread horizontally in a ‘V’-like movement out to the sides while always connected at the top to hinge 739. The lower support bar is dog-legged as shown, and has a telescopic section 723, as well as a footrest 731. There are no rotational pedals, although the footrests may be embodied by any functional structure, including pedal-like components that may pivot for ease of use throughout the movement.

Also shown in FIG. 7, is optional but preferred monitor screen cord 749 monitor device/screen 751. As with all embodiments herein, this is used for various purposes—music, communications, television, movies, etc. but essentially may serve one, two or preferably three purposes that relate directly to the present invention exercise device-control, monitoring and data storage. The controller function may relate to positional adjustments (doing or tracking), resistance adjustments, and controlling other functions as well. Monitoring may include display of various variables, such as resistance level, distance, time, distance/time, etc. data storage may enable a user to check on progress over multiple usages and over longer periods. And the screen may also be part of an intranet system, an internet system or both, with local and/or LD interaction. (Although this monitor device is shown as wired to the exercise device, it could be wireless and use any known mechanism for connectivity).

Example 3: Structural Presentation of Module C

FIG. 8 shows a side view of a preferred Module C present invention exercise device 800 with its fixed, substantially horizontal body support, for face up use. Present invention Module C device 800 has a bottom support 801, a main support stem 803, and upper support bar 807. These components are in a fixed (non-rotational) position and fixed at a substantially horizontal angle, e. g., at plus 20 to minus 20 degree angle with horizontal, and preferably within ten degrees of horizontal. This is an on your back device using a horizontal body support that creates the exceptional toning of the abs and the hips. Connected to stem 803 is upper support bar 807, and body support pad 811. This device 800 has a head pad 835 that is attached to head pad shaft 833 that moves toward and away from the upper body support frame 807 (head to toe), to accommodate larger and small users. There is a right lower handle 809 and left lower handle (not shown), connected to the upper support bar 807.

In this preferred Modular C embodiment of FIG. 8, there is a single lower support for the user's legs, but this could be an alternative device with dual lower supports for the user's legs. Thus, there is shown a single unit lower support bar 821 pitched upwardly in a fixed position. At its upper end is hinge 829. Hinge 829 is shown as a shaft and pin for rotation, with stops (not shown) to define the arc in which lower support bar section 821 may be rotated. Any equivalent rotational mechanism, such as an arcuated claw on a central shaft, may be used here and throughout the various embodiments, at any of the points of rotation, without exceeding the scope of the present invention. Hinge 829 also includes a secondary hinge, the horizontal spread hinge 830 that allow separate lower support bars to spread horizontally in a ‘V’-like movement out to the sides while always connected at the top to hinge 829. Hinge 829 connects lower support bar 821 to main stem 803 and upper support bar 807. It is shown dog-legged upwardly and has a telescopic section 823, as shown. Connected to the lower support bar 821 are rotational pedals 843 and 845 on telescopically adjustable cranks 839 and 841. There is a right lower handle 809 and left lower handle (not shown), connected to the upper support bar 807 and/or the upper support pad 811. Note that the handles 809 left and right may be created of a single tubular member or as separate components. Also shown in FIG. 8, is optional but preferred stiff and adjustable monitor screen cord 849 monitor device/screen 851.

Resistance may be “computer controlled” on the pedals/cranks so that a user may build up strength over time. In one version, this adjustment feature may be totally controlled by the user, wherein the user sets the resistance and changes it as desired. In another version, programs are included that set graduated resistances over usage or time (such as is measured in miles pedaled or hours used). In a third, preferred version, the user is offered both preprogrammed regimens and self-controlled resistance adjustments. The details of controlled resistance on exercise bikes are well known, and the same arrangements may be used with the present invention devices. In addition, variable resistance may be controlled on a cycle-by cycle basis, i.e., the resistance on the uphill movement of dual pedals might be lower than the resistance on a downhill portion of a stroke or cycle, or vice versa. Such changes in resistance (by tension or compression) may be smoothly transitioned or done in step functions.

Although particular embodiments of the invention have been described in detail herein with reference to the accompanying drawings, it is to be understood that the invention is not limited to those particular embodiments, and that various changes and modifications may be used herein by one skilled in the art without departing from the scope or spirit of the invention as defined in the appended claims. For example, while resistance adjustment may be done “on the pad”, i.e., computer controlled, alternatively, manual adjustments could be used, such as a rotatable handle and spring-rotating down tightens the spring to increase resistance and rotating up loosens the spring to reduce resistance. Also, while the claimed invention references various components to be connected to one another, the term “connected” shall be taken to mean “directly or indirectly connected”. As an example, the claimed invention, in some embodiments, has the upper support bar connected to the main support stem. However, it may be directly connected to the stem or it may be connected to the stem indirectly by some intermediate component, such as a main support bar, plate or other connecting structure that would have no affect on the functionality of the upper support bar. Similarly, the lower support bar may have an intermediary connection. Similarly, other components or parts of components may have intermediary components or parts that do no interfere with its functionality.

	Number	Date	Country
Parent	17803309	May 2022	US
Child	18603833		US

BENCH EXERCISE DEVICE WITH ADJUSTABLE COMPONENTS FOR TARGETED EXERCISE

Information

Publication Number

Date Filed

Date Published

Inventors

CPC

International Classifications

Abstract

Description

Claims

REFERENCE TO RELATED APPLICATIONS

Continuation in Parts (1)