ISOMETRIC EXERCISE APPARATUS AND STORAGE RACK THEREFOR
The present invention relates generally to exercise equipment and more specifically, to an isometric exercise apparatus and a storage rack therefor. The isometric exercise apparatus includes a frame which has a base and a sidewall joined to the base. The base has an exercise platform for supporting a user's body. Also provided is a restraint arm assembly connected to the frame. The arm restraint assembly includes a swing arm pivotally connected to the base, a restraint arm carried by the swing arm and positionable above the exercise platform to inhibit movement of a portion of the user's body so as to allow the user to perform isometric exercises. An indexing assembly is provided to fix the swing arm in a predetermined angular position selected from a set of discrete angular positions relative to the base. At least one limb restraint accessory is positionable at predetermined locations along the base for inhibiting movement of the user's limb so as to allow the user to perform isometric exercises. The apparatus can rapidly be adapted or configured to target a plurality of joint angles to work different muscle groups (or different muscles within the same muscle group) for an enhanced isometric workout.
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This application is a continuation of U.S. patent application Ser. No. 15/433,820 filed on Feb. 24, 2017, which is a continuation of U.S. patent application Ser. No. 14/297,203 filed on Jun. 5, 2014, now issued to U.S. Pat. No. 9,592,416, which is a continuation of U.S. patent application Ser. No. 13/750,305 filed on Jan. 25, 2013, now issued as U.S. Pat. No. 8,758,203, which is a continuation of U.S. patent application Ser. No. 13/137,686 filed on Sep. 2, 2011, now issued as U.S. Pat. No. 8,376,917, which is a continuation of U.S. patent application Ser. No. 12/385,079 filed on Mar. 30, 2009, now issued to U.S. Pat. No. 8,029,423.
FIELD OF THE INVENTIONThe present invention relates generally to exercise equipment and more specifically, to an isometric exercise apparatus and a storage rack therefor.
BACKGROUND OF THE INVENTIONA growing segment of the population suffers from obesity, hypertension and diabetes and other related health conditions, commonly referred to as lifestyle ailments or diseases. Such lifestyle ailments can be treated or avoided altogether with adequate exercise and a proper diet. As a result, people are increasingly seeking to maintain or achieve a healthy body weight and get fit through increased exercise. Such exercise may be obtained through participation in team or individual sports, or alternatively, by performing any of a variety of exercise regimens, protocols or programs which may include aerobic and/or anaerobic exercises.
Many exercise programs include strength training routines designed to stimulate muscle growth and increase muscular strength. Such routines have been shown to confer on the exercising individual several health benefits including: (1) increasing cardiovascular efficiency resulting in lower blood pressure and a decrease in heart disease; (2) increasing bone density resulting in a reduced risk of osteoporosis and arthritis; and (3) increasing metabolic activity resulting in sustainable fat loss. Some strength training routines require the exercising individual to perform certain dynamic or isotonic movements using free weights or specialized machines which target a specific muscle or muscle group and work it through a range of motion. During these dynamic movements, the length of the targeted muscle changes as the muscle is being contracted through the range of motion. The popularity of such routines has resulted in a great number of dynamic exercise machines having been developed and manufactured. Such equipment can now be seen in almost every health and fitness club across the country.
However, under certain circumstances, resistance training which involves dynamic movements (and the equipment employed to perform such exercises) can pose an increased risk of physical injury to the individual due to the inertia effect exerted by the equipment. Moreover, this type of resistance training may not be suitable for certain individuals, particularly those who are recovering from an existing injury or illness and are being rehabilitated.
Another type of strength training involves the performance of isometric exercises (also referred to as isometrics). During such exercises the joint angle and the length of the associated muscle do not change during contraction. Studies have shown that training with isometrics can increase peak muscle power up to thirty-two percent (32%) more than with dynamic movements and can increase muscular endurance up to one-hundred-and-twelve percent (112%) over what can be achieved with dynamic movements. Moreover, since isometrics tend to be inertia free, the risk of physical injury to the individual tends to be substantially mitigated thereby making such exercises more suitable for rehabilitative applications.
While the benefits of isometrics have been recognized for over fifty years, this form of training has not had the same popularity as that of dynamic resistance training. This may be due in part to the fact that very little equipment has been developed specifically for the performance of isometrics. Isometrics are usually performed by working the joint and muscle against an immovable force or restraint. Traditionally, this restraint has been provided by a structural item, such as a floor or a wall. However, while these types of restraints tend to be adequate for certain joint angles and muscles, it may be more difficult to properly work other joint angles and muscles isometrically using these restraints. Based on the foregoing, there is a real need for exercise equipment specifically designed for isometrics.
In light of the foregoing, it would be advantageous to have an isometric exercise apparatus which provides an external restraint source for a plurality of joint motions. Preferably, such an apparatus could be configured easily and quickly to create different types of restraint for enhanced versatility thereby offering the exercising individual the option to perform a variety of isometric exercises.
SUMMARY OF THE INVENTIONIn accordance with one broad embodiment of the present invention, there is provided an isometric exercise apparatus includes a frame which has a base and a sidewall joined to the base. The base has an exercise platform for supporting a user's body. Also provided is a restraint arm assembly connected to the frame. The arm restraint assembly includes a swing arm pivotally connected to the base, a restraint arm carried by the swing arm and positionable above the exercise platform to inhibit movement of a portion of the user's body so as to allow the user to perform isometric exercises. An indexing assembly is provided to fix the swing arm in a predetermined angular position selected from a set of discrete angular positions relative to the base. At least one limb restraint accessory is positionable at predetermined locations along the base for inhibiting movement of the user's limb so as to allow the user to perform isometric exercises.
In another feature, the frame is collapsible. The base is hingedly connected to the sidewall. Additionally, the sidewall is moveable between a first, in-use position and a second, out-of-use position. When in the first, in-use position, the sidewall is oriented at least substantially perpendicular to the base. When in the second, out-of use position, the sidewall is collapsed against the base. In a further feature, the apparatus further includes locking means engageable with the base and the sidewall for maintaining the sidewall in the first, in-use position.
In yet another feature, the sidewall has a front face oriented towards the base and an opposing back face. The apparatus further includes at least one pad carried on the front face of the sidewall for cushioning a portion of the user's body. The at least one pad includes a first pad and a second pad spaced apart from the first pad.
In still a further feature, the base has a first side, a second side opposite the first side, a third side extending between the first and second sides, and a fourth side opposite the third side and extending between the first and second sides. The first side is provided with a first handle and the second side is provided with a first pair of spaced apart castors. Additionally, the third side is provided with a second handle and the fourth side is provided with a second pair of spaced apart castors.
In an additional feature, the at least one limb restraint attachment is a first limb restraint attachment. The apparatus includes a second limb restraint attachment releasably mounted to the exercise platform. In one feature, the second limb restraint attachment is a dual foot restraint attachment. In another feature, the second limb restraint attachment is a footpad.
In a further feature, the restraint arm assembly is releasably connected to the frame.
In yet another feature, the indexing assembly includes an indexing plate mounted to the base and an indexing pin releasably engageable with a portion of the indexing plate and a portion of the swing arm to fix the swing arm to the indexing plate. The indexing plate has a plurality of indexing apertures defined therein. Each indexing aperture corresponds to one of the predetermined angular positions. The swing arm has a first end pivotally connected to the base, a second end attached to the restraint arm and includes at a location intermediate the first and second ends a bore. The bore of the swing arm is alignable with one of the indexing apertures to allow insertion of the indexing pin therethrough. The plurality of indexing apertures is disposed in a semi-circular arrangement along the indexing plate. In still another feature, the indexing assembly is provided with locking means to prevent disengagement of the indexing pin from the indexing plate and the swing arm.
In an additional feature, the base has a length and width. The restraint arm extends generally parallel to the width of the base. Moreover, the restraint arm has a first portion attached to the swing arm and a second portion releasably connected to the sidewall. In a further feature, the sidewall has defined therein a plurality of indexing bores. Each indexing bore corresponds to one of the predetermined angular positions and is configured to receive the second portion of the restraint arm. The restraint arm includes a tubular body and a retractable locking pin assembly housed within the tubular body. The locking pin assembly includes a locking pin provided with a tip. The tip defines the second portion of the restraint arm configured for insertion into one of the indexing bores of the sidewall. The locking pin is moveable between an engaged position and a retracted position. When in the engaged position, the locking pin engages the sidewall and its tip is received within one of the indexing bores and when in the retracted position, the locking pin is disengaged from the sidewall. In an additional feature, the locking pin is biased in the engaged position.
In still another feature, the base includes a plurality of slots defined into the outer margins of the base. Each slot is disposed at one of the predetermined locations and configured to receive a portion of the at least one limb restraint attachment therein. Additionally, the base has a first side, a second side opposite the first side, a third side extending between the first and second sides, and a fourth side opposite the third side and extending between the first and second sides. The plurality of slots includes at least one slot disposed along the first side of the base, at least one slot disposed along the second side of the base and at least one slot disposed along the third side of the base.
In yet another feature, the base has a longitudinal axis and a transverse axis perpendicular to the longitudinal axis. At least some of the slots of the plurality are oriented generally perpendicular to the longitudinal axis of the base. In one additional feature, at least some of the slots of the plurality are oriented generally perpendicular to the transverse axis of the base. In another additional feature, at least some of the slots of the plurality are canted relative to the longitudinal axis of the base.
In still another feature, the at least one limb restraint attachment includes a connector arm and a retaining member. The connector arm has a first end and a second end for insertion into one of the plurality of slots. The retaining member is supported on the first end of the connector arm for restraining a portion of the user's limb. The retainer member has a shape selected from the group consisting of: (a) a U-shape; and (b) a C-shape. In an alternative feature, the retainer member may be formed with one of a partially open cuff and a fully closed cuff.
In a further feature, the retainer member is releasably connected to the connector arm. The retainer member is positionable on the connector arm in a first orientation and in a second orientation. The first orientation is substantially perpendicular to the second orientation. In an additional feature, the at least one limb restraint attachment further includes means for securing the second end of the connector within one of the plurality of slots. In yet another feature, the at least one limb restraint attachment is an arm restraint attachment.
In accordance with another broad embodiment of the present invention, there is provided an isometric exercise apparatus includes a frame which has a base and a sidewall joined to the base. The base has an exercise platform for supporting a user's body. Also provided, is a restraint arm assembly connectable to the frame. The restraint assembly includes a swing arm pivotally connectable to the base. A restraint arm is mountable to the swing arm and positionable above the exercise platform to inhibit movement of a portion of the user's body so as to allow the user to perform isometric exercises. An indexing assembly is provided for fixing the swing arm in a predetermined angular position selected from a set of discrete angular positions relative to the base. At least one limb restraint accessory is positionable at predetermined locations along the base for inhibiting movement of the user's limb so as to allow the user to perform isometric exercises.
In accordance with yet another broad embodiment of the present invention, there is provided a kit for an isometric exercise apparatus and storage rack therefor. The kit includes a collapsible frame having a base and a sidewall joined to the base. The base has an exercise platform for supporting a user's body. Also provided is a restraint arm assembly connectable to the frame. The restraint assembly includes a swing arm pivotally connectable to the base. A restraint arm is mountable to the swing arm and positionable above the exercise platform to inhibit movement of a portion of the user's body so as to allow the user to perform isometric exercises. An indexing assembly is provided for fixing the swing arm in a predetermined angular position selected from a set of discrete angular positions relative to the base. At least one limb restraint accessory is positionable at predetermined locations along the base for inhibiting movement of the user's limb so as to allow the user to perform isometric exercises. The kit further includes a rack structure for suspending the frame when in a collapsed state.
The embodiments of the present invention shall be more clearly understood with reference to the following detailed description of the embodiments of the invention taken in conjunction with the accompanying drawings, in which:
The description which follows, and the embodiments described therein are provided by way of illustration of an example, or examples of particular embodiments of principles and aspects of the present invention. These examples are provided for the purposes of explanation and not of limitation, of those principles of the invention. In the description that follows, like parts are marked throughout the specification and the drawings with the same respective reference numerals.
Referring to
The base 24 includes a substantially rectangular panel 27 provided with a top face 28 (see
The panel 27 may be constructed of a relatively rigid, ABS plastic. It will however be appreciated that other materials selected for their relatively light weight and their enhanced stiffness, strength and wear resistance characteristics, may be used to make the base 24 as well, for instance, polyvinylchloride (PVC) or polypropylene. The panel 27 may be fabricated with a number of weight reducing holes or apertures defined therein to facilitate transport and handling of the isometric exercise apparatus 20 and to enhance its portability.
In the preferred embodiment, the base 24 has a length L1 which measures seventy-two (72) inches, and a width W1 which measures thirty-three (33) inches, wherein the length L1 is measured between the outer edges 48 and 50 at the second and fourth corners 42 and 46 and the W1 is measured between the outer edges 62 and 64 at the third and fourth corners 44 and 46. The length L1 and the width W1 of the base 24 are selected to accommodate the body shape and size of a plurality of different users of the isometric exercise apparatus 20. Of course, the dimensions of the base 24 could be adjusted to suit a particular application or type of user.
As best shown in
The frame 22 is further provided with a second handle 60 incorporated into the first long side 36 midway between the first and third corners 40 and 44. In like fashion to the first handle 58, the second handle 60 is formed by the outer edge 62 of the first long side 36 and a generally rectangular aperture 70 extending between the top and bottom faces 28 and 30 of the base 24. A pair of castors 72 and 74 disposed opposite the second handle 60 is attached to the outer 64 of the second long side 38. Thus arranged, the second handle 60 can be used in conjunction with the castors 72 and 74 to roll the apparatus 20 to a desired location.
Relatively large, first and second bores 76 and 78 are located on either side of the second handle 60 at spaced apart locations. The first bore 76 is disposed near the first corner 40, while the second bore 78 is formed near the third corner 44. Each bore 76, 78 is sized to receive a support arm 82, 84 of a rack 80 (as best shown in
As shown in
In this embodiment, the bands 90, 92, 94 and 96 are fixed to the bottom face of the base 24 with an adhesive. However, this need not be the case in every application. In other embodiments, the grip-enhancing bands could be attached to the base using hook and loop fasteners or other types of fasteners.
Referring now to
Defined in, and extending through, the top and bottom faces of the exercise platform 122 is an aperture 126 (visible in
As best shown in
Referring now to
Slot 150a is formed in the second short side 34 between the fourth corner 46 and the castor 66 (but closer to the castor 66) and extends perpendicular to the outer edge 50. Slot 150b is also formed in the short side 34, but it is disposed very close to the fourth corner 46 and is cut on a slant. More specifically, slot 150b is oriented at an angle of approximately 30 degrees as measured from the outer edge 50. Slots 150c, 150d and 150e are positioned adjacent to each other on the second long side 38 proximate the fourth corner 46. Slot 150c is canted away from the fourth corner 46 and forms an angle of 60 degrees with the outer edge 64. Slot 150d lies between slots 150c and 150e and has a perpendicular orientation relative to the outer edge 64. Slot 150e is disposed furthest from the fourth corner 46. In like fashion to slot 150c, slot 150e also extends at angle of 60 degrees as measured from the outer edge 64. However, in the case of slot 150e, the direction of inclination is toward the fourth corner 46. Still moving away from the fourth corner 46 along the outer edge 64, there is slot 150f. Slot 150f is oriented toward the fourth corner and has an angle of inclination relative to the outer edge 64 of 30 degrees.
The arrangement of slots 150g, 150h, 150i, 150j, 150k and 150l along the first short side 32 and the second long side 38 is the mirror image of the layout of slots 150f, 150e, 150d, 150c, 150b and 150a (respectively) along the second short side 34 and the second long side 38, such that the arrangement of slots 150g through 150l requires no further description.
The arrangement and orientation of slots 150a to 150l affords a user the opportunity to perform many different exercises using the apparatus 20. Simply by changing the placement of the accessory (generically identified with reference numeral 152) from one slot to another, the user can rapidly adapt the apparatus 20 to target a plurality of joint angles to work different muscle groups (or different muscles within the same muscle group) for an enhanced isometric workout. As will be apparent to a person skilled in the art, this feature tends to make the isometric exercise apparatus 20 very versatile. To illustrate this versatility, a plurality of accessories 152a, 152c, 152d, 152f, 152i, 152j, 152k and 152l mounted within their respective slots 150a, 150c, 150d, 150f, 150i, 150j, 150k and 150l are shown in dashed lines in
While in the preceding paragraphs an arrangement of twelve slots was described, it should be appreciated that this need not be the case in every application. In other embodiments, a different number of slots could be used. Moreover, the slots could be laid out differently along the outer edges of the panel and/or could have a different orientation (i.e. perpendicular or slanted relative to the outer edge with varying angles).
But for differences arising from their varying orientations, the slots 150 all have a generally similar structure, such that a description of one representative slot—slot 150i—will suffice for the others. Referring now to
In the preferred embodiment, the lower arm portion 76 is provided with three cutaways 178a, 178b and 178c; each cutaway giving access to a corresponding locking recess 180a, 180b, 180c, respectively. The first cutaway 178a and its corresponding locking recess 180a is located closest to the throat 154 while the third cutaway 178c and its corresponding locking recess 180c is located furthest away from it. The second cutaway 178b and its corresponding locking recess 180b is disposed intermediate the first and third cutaways 178a and 178c and their respective locking recesses 180a and 180c. In alternative embodiments, the number of cutaways and locking recesses could be varied to suit the particular application.
Each locking recess 180 is defined by a relatively short, substantially vertical wall portion 181, a downwardly sloping wall portion 182, a horizontal wall portion 184, a vertical wall portion 186 and an overhanging lip portion 188. The substantially wall portion 181 extends from the cutaway 178 to connect to the downwardly sloping wall portion 182. The wall portion 182 joins the horizontal wall portion 184 at the first end 190 thereof. At the opposite second end 192, the horizontal wall portion 184 meets the lower end 194 of the vertical wall portion 186. The overhanging lip portion 188 is connected to the upper end 196 of the vertical wall portion 186 and runs back toward the cutaway 178 generally parallel to horizontal wall portion 184.
When the locking pins 166 and 168 of the connector arm 154 are received within the locking recesses 180a, the accessory 152 is at its most extended position 200 (see the accessory 152c shown in
As will be appreciated by a person skilled in the art, the provision of a plurality of cutaways 178 and locking recesses 180 allows the user to adjust the distance by which an accessory 152 protrudes beyond the outer edge 64. This functionality permits the user to customize the isometric exercise apparatus 20 to suit his/her body shape or size. Moreover, by modifying this distance, the apparatus 20 can be adapted to allow the user to isolate different joint angles and perform different exercises or cause different muscles to be contracted.
Referring now to
The panel 212 may be constructed of a material similar to that used for panel 27 of the base 24. For reasons of enhanced visibility or aesthetics, the panel may be made transparent or translucent. In the preferred embodiment, the sidewall 26 has a length L2 equal to the length L1 of the base 24 and the width W2 (as measured between the outer edges 300 and 302 of the long sides 222 and 224) of 26.5 inches.
As best shown in
Thus formed, the hinge connection between the base 24 and the sidewall 26 allows the sidewall 26 to be moved between a collapsed position 250 (shown in
While it is generally preferred for purposes of storage and minimizing the footprint occupied by the isometric exercise apparatus 20 (i.e. enhancing the compactness of the apparatus) that the frame 22 be collapsible, it will appreciated that this need not be the case in every application. In an alternative embodiment, the frame could be configured such that the sidewall is maintained in a fixed position relative to the base. In such an embodiment, the sidewall could extend perpendicular to the base and be permanently joined to the base along an edge thereof.
Referring to
In like fashion to the first short arm 260, the second long arm 262 also has a proximal end 270 and a distal or free end 272. The proximal end 270 is connected to the proximal end 264 of the first short arm 260. The second long arm 262 is also provided with a second flange portion 274 formed inwardly of the free end 272 and extending about the periphery of the second long arm 262.
The first and second flange portions 268 and 274 are configured to be retained within receiving stations (identified generically as) 276 formed respectively in the sidewall 26 and the base 24. The sidewall 26 has two receiving stations 276a and 276b—one to accommodate the first flange portion 268 of each side locking bar 254, 256. Station 276a is defined in the outer edge 280 of the first short side 218 of panel 212 and is disposed roughly midway between the first and second corners 226 and 228. Station 276b is similarly formed in the outer edge 282 of the second short side 220 midway between the third and fourth corners 230 and 232.
Referring to
In the preferred embodiment the plate 284 is secured to panel 212 by three fasteners 287. In alternative embodiments, the plate could be attached differently. For instance, it could be welded onto the panel.
In like fashion to the sidewall 26, the base 24 is provided with two receiving stations 278a and 278b—one to accommodate the second flange portion 274 of each side locking bar 254, 256. Station 278a is defined in the outer edge 48 of the first short side 32 of panel 27 and is disposed adjacent the corner 40. Station 278b is similarly formed in the outer edge 50 of the second short side 34 near the corner 44.
As best shown in
In other embodiments, the locking bars could be placed at different locations or configured differently. Alternatively, a single locking bar may be used. In a further alternative, the sidewall could be secured in the in-use position using other locking means.
Referring now to
Each pad 304, 306 has a first end 312 carried a short distance away from the outer edge 222 and a second end 314 which projects beyond the outer edge 224. When the base 24 and the sidewall 26 are connected to each other, the second end 314 abuts or nearly abuts the top face 28 of the base 24. Preferably, the pads 304 and 306 have a core made of a resilient material, for example, memory foam or the like, and are sheathed in vinyl. However, it should be appreciated that other materials could be used to fabricate the pads. The location and shape of the pads 304 and 306 are selected to allow a user to comfortably urge a portion of his/her body against the pads while performing an exercise using the apparatus 20. In alternative embodiments, the pads could have a different shape and could be disposed differently on the first face 214 of the panel 212.
The panel 212 is further provided with a plurality of spaced apart blind bores generically identified with reference numeral 310, extending into the first face 214 of the panel 212. Preferably, the plurality of blind bores 310 include eleven bores—bores 310a, 310b, 310c, 310d, 310e, 310f, 310g, 310h, 310i, 310j and 310k—which are disposed across the panel 212 in a semi-circular arrangement. The bores 310a, 310b, 310c, 310d, 310e, 310f, 310g, 310h, 310i, 310j and 310k are each radially displaced from the plane of the base 24 by an angle θa, θb, θc, θd, θe, θf, θg, θh, θi, θj, θk and θl, respectively. Angles θg, θh, θi, θj, θk and θl correspond to angles θa, θb, θc, θd, θe and θf, respectively. In the preferred embodiment, θa measures 20 degrees; θb measures 40 degrees; θc measures 55 degrees; θd measures 70 degrees; θe measures 80 degrees; θf measures 90 degrees; θg measures 90 degrees, θh measures 80 degrees; θi measures 70 degrees; θj measures 55 degrees; θk measures 40 degrees; and θl measures 20 degrees.
As will be explained in greater detail, the purpose of bores 310 is to receive and captively retain a portion of the restraint or support arm 320 in order to hold the restraint arm 320 above the exercise platform 122 at different predetermined angular positions relative to the plane of base 24. It will thus be appreciated that the particular arrangement of the bores 310 along the panel 212 corresponds to specific, predetermined angular settings for the restraint arm 320. By virtue of the number of bores 310 provided, a user is afforded the opportunity to move the restraint arm 320 to a plurality of positions thereby allowing different joint angles to be isolated and different exercises to be performed or different muscle groups to be worked.
While the provision of eleven bores is generally preferred, in other embodiments, the panel 212 could be provided with more or less bores depending on the needs of the user. Similarly, the bores could be disposed differently than in the preferred embodiment. For example, the radial spacing between adjacent bores could be varied (i.e. increased or decreased).
Referring now to
In this embodiment, the swing arm 332 is an elongate rod 336 having a first end 338 pivotally connected to the base 24 and a second opposed end 340 attached to the restraint arm 320. The pivot connection between the swing arm 332 and the base 24 is formed by a pivot pin 342 having a knob 344 at one end and threading at the other. The pivot pin 342 extends through an aperture (not shown) defined in the first end 338 and is received in a threaded blind bore (not shown) formed in the outer edge 64 of the second long side 38 roughly midway between corners 42 and 46.
Defined in the rod 336 at a location closer to the first end 338 than to the second end 340, is a keyhole 346. As shown in
The indexing assembly 334 includes an indexing plate 360 attached to the base 24 and an indexing pin or key 362 engageable with at least a portion of the indexing plate 360. The indexing plate 360 is substantially semi-circular, its shape being defined by an arcuate edge 364 with two opposed ends and a straight edge 366 extending between the two ends of the arcuate edge 364. Extending from the straight edge 366 in the plane of the indexing plate 348, are two spaced apart mounting tabs 368 and 370; each provided with a laterally extending finger-like projection 372. The mounting tabs 368 and 370 are designed to be snugly received within corresponding recesses 371 and 373 formed within the outer edge 64 of the second long side 38 (shown in
The indexing plate 360 is further provided with a plurality of keyholes generically identified with reference numeral 374. The number of keyholes 374 corresponds to the number of blind bores 310 defined in the panel 212. In the embodiment shown in
Each keyhole 374 extends between the first face 376 (which is oriented away from the panel 212) and the second face 378 (which is positioned opposite the first face 214 of the panel 212) and is configured similarly to the keyhole 346 defined in the rod 336. In particular, each keyhole 374 also includes a centrally disposed, circular opening 380 provided with a rectangular slot 382, 384 positioned on either side of, and opening onto, the circular opening 380 (see
Associated with each keyhole 374 is a stop member 386 for preventing rotation of the indexing key 354 when the indexing key 354 is inserted into the keyhole 374 and pivoted to its locking position 388. In this embodiment and as shown in
Referring now to
When the indexing key 354 is inserted into the keyhole 374 and pivoted to its locking position 388, the locking tabs 400 and 402 are misaligned with the rectangular slots 382 and 384 thereby preventing the indexing key 354 from being removed from the keyhole 374. Moreover, in the locking position 388, one of the tabs 400 or 402 abuts the stop member 386.
Referring now to
Machined through the body 410 is a longitudinal bore 416 which partially accommodates a retractable locking pin assembly 418. The locking pin assembly 418 includes a relatively thin, elongate rod or locking pin 420 captively retained within the bore 416, but capable of limited movement along the longitudinal axis of the bore 416, and a helical spring member 422 wrapped loosely about the pin 420. The pin 420 extends through a relatively short bore 424 formed at the second end 340 of the swing arm 332 and passes through the bore 416. The first end 426 of the pin 420 extends beyond the edge of the swing arm 332 and terminates with a relatively small, first stop member 428. This stop member serves a dual function. It limits the longitudinal displacement of the pin 420 in the direction of the panel 212 and also doubles as a pull for retracting the pin 420. Similarly, the second end 428 of the pin 420 protrudes beyond the end 414 of the restraint arm 320 and terminates with a second stop member 430. The second stop member 430 is sized generally larger than the first stop member 428, but is configured to fit into the blind bores 310 defined in face 214 of the panel 212. The second stop member 430 is operable to limit the longitudinal displacement of the pin 420 in the direction moving away from the side panel 212.
The locking pin 420 is moveable between an engaged position 432 (shown in
The typical mode of operation of the restraint arm assembly 330 and the locking pin assembly 418 is now described in greater detail.
Next, the user releases the restraint arm 320 from engagement with the panel 212 by pulling on the first stop member 428 to overcome the biasing effect of the spring member 422. This urges the locking pin 420 to move from its engaged position 432 to its disengaged position 434. With the locking pin 420 in the disengaged position 434, the swing arm 332 and the restraint arm 320 are now free to pivot relative to the base 24. While holding onto the first stop member 428 the user grasps the stubby handle 413 and uses it to direct the restraint arm 320 to the blind bore 310f which corresponds to the desired final angular position. The user then releases the first stop member 428 to cause the locking pin 420 to return to its engaged position 432. With the restraint arm 320 locked in place, the swing arm 332 is now secured against rotation by inserting the key portion 396 of the indexing key 354 through the aligned keyholes 348 and 374f. The indexing key 354 is then rotated until one of the locking tabs 400 and 402 abuts the rectangular projection 390.
The isometric exercise apparatus 20 can be used with a plurality of attachments or accessories for enhanced versatility and comfort. Examples of such attachments are the first arm restraint attachment 152 shown in
Referring now to
The socket member 448 has an upper end 454 which is carried above the bar 446 and a lower end 456 which depends downwardly from the bar 446. Formed in the upper end 454 is a blind bore 458. The bore 458 defines a female socket 460 for receiving the male connector pin 462 of the retaining member 442. Two indexing apertures 464 and 466 extend inwardly from the outer face 472 of the socket member 448 and open onto the female socket 460. Each indexing apertures 464, 466 has a shape generally similar to the keyhole 374 in that each includes a centrally disposed, circular opening 467 provided with a rectangular slot 468, 470 positioned on either side of, and opening onto, the circular opening 467. The indexing apertures 464 and 466 are sized to receive a portion of the locking key 444 inserted therethrough.
Referring specifically to
The inner horizontal face 480 of the back portion 474, the inner vertical face 482 of the arm portion 476, the inner vertical face (not shown) of the arm portion 478 which bound the space S1, are provided with cushioning to enhance the user's comfort during exercise. The cushioning could take the form of a memory foam sheathed in a durable cover, such as vinyl.
A generally rectangular rebate 481 is cut into the back portion 474 at the juncture between the outer horizontal face 482 and the outer vertical face 483. When the first arm restraint attachment 152 is mounted to the base 24 in proximity to one of the casters 66, 72 or 74 (see for instance, arm restraint attachment 152i shown in
Projecting downwardly from the outer horizontal face 482 of the back portion 474 is the male connector pin 462. The connector pin 462 is generally cylindrical and has a proximal end 486 joined to the back portion 474 and a distal or free end 488 which can be inserted into the female socket 460. In the preferred embodiment, three indexing openings 490, 492 and 494 are cut into the connector pin 462 at spaced apart locations disposed between the proximal end 486 and the free end 488. The first indexing opening 490 is located closest to the proximal end 486. The second indexing opening 492 is disposed further down the connector pin 462, while the third indexing opening 494 is located furthest from the proximal end 486 close to the free end 488. When the male connector pin 462 is inserted within the female socket 460, one of the indexing openings 490, 492 and 494 is alignable with one of the indexing apertures 464 and 466 defined in the socket member 460. By inserting the locking key 444 through the aligned indexing opening and aperture the retaining member 442 can be secured to the connector arm 154.
As best shown in
This arrangement of indexing grooves 490, 492 and 494 serves a dual purpose. First, it permits a slight adjustment of the height at which the retaining member 442 is carried above the bar 446 and second, it allows the retaining member 442 to adopt a different orientation. By aligning the first indexing opening 490 with the first indexing aperture 464 when inserting the male connector pin 462 into the female socket member, the retaining member 442 is carried at its shortest height above the bar 446. However, it will be appreciated that the height of the retaining member 442 relative to the bar 446 can be increased by aligning the third indexing opening 494 with the first indexing aperture 464. The ability to adjust the height of the retaining member 442 tends to be very desirable because it further adds to the versatility of the apparatus 20. It may allow additional joint angles to be isolated and exercises to be performed at different angles for the recruitment of different muscles. Additionally, it may permit the apparatus 20 to be better adapted for the specific body of a user.
In
Referring to
Referring to
The provision of C-shaped retaining member 520 is advantageous and enhances the versatility of the apparatus 20 in that it allows the user to perform isometric exercises that include a vertical force vector. The C-shaped retaining member 520 and more specifically the arm portion 526 thereof, acts as a restraint against a portion of the user's arm during the performance of such isometric exercises.
Referring now to
In like fashion to the connector arm 154, the connector arm 541 is formed by a bar 546 having an upstanding socket member 548 integrally formed therewith. The bar 546 has first end 550 adapted for insertion into a slot 150 and a second end 552 which carries the socket member 548. Projecting outward from the lateral edges of the first end 550 are the locking pins 551 and 553 (seen on
The socket member 548 is generally similar to the socket member 448 in that it too has an upper end 554 which is carried above the bar 546 and a lower end 556 which depends downwardly from the bar 546. Formed in the upper end 554 is a blind bore 558. The bore 558 defines a female socket 560 for receiving the male connector pin 562 of the retaining member 542. However, in contrast to the socket member 448 which has only two indexing apertures 466 and 468, the socket member 548 has four indexing apertures 564, 566, 568 and 570 which extend inwardly from the outer face 572 of the socket member 548 and open onto the female socket 560. Moreover, instead of having a keyhole shape, the indexing apertures 464, 466, 468 and 470 are generally rectangular and are sized to receive a portion of the locking key 444 inserted therethrough.
Referring specifically to
Projecting downwardly from the outer face 582 of the back portion 574 is the male connector pin 562. The pin 562 is generally cylindrical and has a proximal end 586 joined to the back portion 574 and a distal or free end 588 which can be inserted into the female socket 560. However, instead of having indexing apertures open at both ends similar to indexing apertures 490, 492 and 444, the connector pin 562 in this embodiment, has four indexing grooves or notches 590, 592, 594 and 596 disposed at spaced apart locations between the proximal end 586 and the free end 588. The first indexing groove 590 is located closest to the proximal end 586. The second indexing groove 592 is disposed further down the connector pin 562, while the third indexing groove 594 is located still further from the proximal end 586. Lastly, the fourth indexing groove is located furthest from the proximal end 586 close to the free end 588. When the male connector pin 562 is inserted within the female socket 560, one or more of the indexing grooves 590, 592, 594 and 596 is alignable with one or more of the indexing apertures 564, 566, 568 and 570 defined in the socket member 560. By inserting the locking key 544 through the aligned indexing groove and aperture the retaining member 542 can be secured to the connector arm 541.
As best shown in
This arrangement of indexing grooves 590, 592, 594 and 596 serves a dual purpose. First, it permits adjustment of the height at which the retaining member 542 is carried above the bar 546 and second, it allows the retaining member 542 to adopt a different orientation. By aligning the first indexing groove 590 with the first indexing aperture 564 when inserting the male connector pin 562 into the female socket member, the retaining member 542 is carried at its shortest height above the bar 546. However, it will be appreciated that the height of the retaining member 542 relative to the bar 546 can be increased by aligning the third indexing groove 594 with the first indexing aperture 564.
In
Referring back to
Extending from the bottom face 656 of the rigid plate 652 is a threaded connector 658 which is used to secure the footpad 128 to the base 24. More specifically, when mounting the footpad 128 to the base 24, the threaded connector 658 is inserted through the aperture 126 defined in the exercise platform 122 and into the threaded blind bore formed in the top face 28 of the base 24 (see
With reference to
As best shown in
The dual arch structure 660 can be fabricated of hard plastic or metal, but preferably it is coated with a resilient material such as rubber to enhance the comfort of the user. It should be appreciated that in other embodiments, the dual foot restraint accessory could be configured differently. For instance, in an alternative embodiment, the dual foot restraint accessory could replace the dual arch structure with a pair of foot straps connected to each other.
Exemplary uses of the isometric exercise apparatus 20 are now described with reference to
The examples described above are not intended to be exhaustive or limiting in any way and are merely provided to illustrate only some of the possible ways in which the isometric exercise apparatus 20 may be used.
Once the user has completed performing exercises on the isometric exercise apparatus 20, the frame 22 of the apparatus 20 could be collapsed to facilitate storage of the apparatus 20. The procedure for moving the apparatus 20 from its in-use position 253 to its out-use position 251 is now described with reference to
Next the swing assembly 330 is partially disassembled. The indexing key 354 is disengaged the from the indexing plate 360 and the rod 336 by rotating the indexing key 354 until it tabs 400 and 402 are aligned with the slots 382 and 384 of the indexing aperture 374 defined in the indexing plate 360 and the slots 350 and 352 of the keyhole 346 defined in the rod 336 and then pulling out the indexing key 354. The pivot pin 342 is then unfastened from the base 24 and the locking pin 420 of the restraint arm 320 is moved to its retracted or disengaged position 434, thereby releasing the swing arm 332 from the frame 22.
Subsequently, the threaded connector 658 of the footpad 128 is unfastened from the base 24. If the dual foot restraint 660 is mounted on the apparatus 20, it can be detached by unfastening its threaded connector 672. To detach the arm restraint accessory 152 from the base, the connector arm 154 is pulled outwardly and upwardly to release the locking pins 166 and 168 from the locking recesses 180. With locking pins released, the connector arm 154 can be pulled out of the slot 150.
The order of removal described above was provided as an example only. It is not intended to be limiting. In other embodiments, the order of removal for the accessories could be modified. For instance, the arm restraint accessories could be removed first, followed by the foot pad and culminating with the arc-shaped pads.
Next, the lock bars 254 and 256 are removed from the frame 22 by removing the locking pins 303 and sliding the first and second flange portions 268 and 274 of each lock bar 254, 256 out from their respective stations 276a, 276b or 278a, 278b (as the case may be) (see
Referring now to
Each structural side member 808, 810 extends between a first end 816 and an opposed second end 818. Formed in each structural side member 808, 810 starting at the first end 816 and extending toward the second end 818, is an elongate channel 820. However, the channel 820 does not extend all the way to the second end 818. At a location closer to the second end 818 than to the first end 816, the channel 820 is closed off by an abutment face 822. As will be explained in greater detail below, the elongate channel 820 acts a guide means for directing and retaining the castors 72 and 74 of the apparatus 20, as the apparatus 20 is placed on the storage rack 800. A tapered throat 822 (widest at the outermost edge and narrowing in the direction of the second end 818) provides access to the channel 820 and tends to facilitate insertion of the castors 72 and 74 into the channel 820. As best shown in
The tie member 812 is mounted to the first and second structural side members 808 and 810 at locations closer to the first ends 816 than to the second ends 818 thereof. In this embodiment, the tie member 812 is provided with front and rear flange portions 830 at either end for placement against the inner vertical faces 831 of the structural side members 808 and 810. Fasteners 832 attach the flange portions 830 to the structural side members 808 and 810. In an alternative embodiment, the tie member 812 could be secured to the structural side member 808 and 810 by welding.
The cross-member 814 is disposed between the structural side members 808 and 810 adjacent the second ends 818 thereof. The cross-member 814 has at each end a pair of front and rear flange portions or tabs 834. In like fashion to the flange portions 830, the flange portions 834 are placed against the inner vertical faces 831 of the structural side members 808 and 810 and secured in place by fasteners 836.
The support structure 806 includes a pair of spaced apart, first and second, tubular support arms 82 and 84 and a transverse reinforcement member 844 connecting the support arms 82 and 84 to each other. The reinforcement member 844 is attached to the support arms 82 and 84 by fasteners 845. However, in other embodiments, the reinforcement member could be welded to the support arms.
Each support arm 82, 84 has a proximal end 844 provided with a circular flange portion 846 and a distal or free end 848. The circular flange portion 846 abuts the top face 850 of the cross-member 814 and is secured in place by fasteners 852. In other embodiments, the support arms could be welded to the base. Each support arm 82, 84 further includes a first vertically extending portion 854 which runs from the first end 844 to a transition zone or bend 856, and a second horizontally extending portion 858 which runs from the bend 856 to the free end 846. The reinforcement member 844 is secured to the first vertically extending portions 854 at a location closer to the bend 856 than to the first end 844.
As best shown in
A pair of aligned bores 862 are defined in the second horizontally extending portion 854 adjacent the free end 846. The bores 862 are configured to accommodate a generally T-shaped locking pin 864.
Placement of the apparatus 20 onto the storage rack 80 is now described in greater detail with reference to
In
Referring to
The base 904 includes a substantially rectangular panel 908 provided with a top face 910 (see
In like fashion to the panel 27, the panel 908 is also provided with first and second handles 940 and 942 which are generally similar in structure and location to the handles 58 and 60 defined in the panel 27 and castors 944, 946, 948 and 950 which correspond generally to castors 66, 68, 72 and 74, respectively. Bores 952 and 954 resembling bores 76 and 78 in size and location are defined in the panel 27. The isometric exercise apparatus 900 can be hung onto the support arms 82 and 84 of the rack 80 from the bores 952 and 954.
As shown in
Referring now to
In contrast to the panel 27 shown in
Referring now to
But for differences arising from their varying orientations, the slots 990 all have a generally similar structure, such that a description of one representative slot—slot 990d—will suffice for the others. Referring now to
Disposed along the margins 974, 976 and 978 at locations corresponding to each slot 990, are a plurality of circular rebates generically identified with reference numeral 986 that are defined into the top face 910 of the panel 908. More specifically, there are twelve rebates 986a, 986b, 986c, 986d, 986e, 986f, 986g, 986h, 986i, 986j, 986k and 986l. At the center of each rebate 986 is an aperture 988 which opens onto an associated slot 990. As explained in greater detail below, each aperture 988 is sized to receive a locking pin 999 to secure the connecting arm 994 of an arm restraint attachment 996 into a slot 990.
Referring now to
In contrast to panel 212 shown in
Referring now to
The second hinge bracket 1034 includes a base plate 1050 and a single hinge knuckle 1052 standing proud of the base plate 1050. The base plate 1050 is secured to the top face 910 of the base panel 908 by fasteners 1054. When first hinge bracket 1032 is engaged with the second hinge bracket 1034, the hinge knuckle 1052 is positioned between the hinge knuckles 1042 and 1044 with the aperture (not shown) defined in the hinge knuckle 1052 aligned with the apertures 1046 defined in the hinge knuckles 1042 and 1044 and the hinge pin 1036 inserted therethrough.
Thus formed, the hinge connection between the base 904 and the sidewall allows the sidewall 906 to be moved between a collapsed position (not shown) and an upstanding position 1054 (shown in
Except as set out above, the panel 1000 of the sidewall 906 is otherwise configured similar to the panel 212 of the sidewall 27 is all respects.
Along the same vein, the apparatus 900 is provided with a support or restraint arm assembly 1060 which is similar to the support arm assembly 330 employed by the apparatus 20 in all respects including structure and functionality, such that no additional description is required.
Much like the apparatus 20, the apparatus 900 can be used with a plurality of attachments or accessories for enhanced versatility and comfort. Examples of such attachments are the third arm restraint attachment 996 shown in
Referring now to
The connector arm 994 is generally similar to the connector arm 154 in that it too is formed with a bar 1066 having upstanding socket member 1068 integrally formed therewith. The bar 1066 has a first end 1070 adapted for insertion into a slot 990 and a second end 1072 which carries the socket member 1068. However, unlike the bar 446, the bar 1066 does not have any locking pins projecting from the lateral edges of the first end 1070. Additionally, adjacent the first end 1070, the bar 1066 has three bores 1074, 1076 and 1078 extending between the top and bottom faces of the bar 1066. Except as described above, the connector arm 994 is otherwise similar to the connector arm 154 in all respects, such that no additional description is required.
It will be appreciated by a person skilled in the art that the attachment 996 is attached to the base 904 in a different manner than that employed by the attachment 152 of the apparatus 20. With specific reference to
The arm restraint attachment 1090 is now described with reference to
Turning now to the extension rod 1094, it has a generally cylindrical body 1104 that extends between the upper and lower ends 1100 and 1096. The lower end 1096 is configured similarly to the male connector pin 462 shown in
A short distance down from the upper end 1100, the body 1104 has a notch or groove 1120 defined therein. When the extension rod 1094 is inserted into the blind bore 1122 of the retaining member 1098 (shown in
In this embodiment, the extension rod 1094 measures approximately 12 inches. In other embodiments, the length of the rod could be modified to suit a particular application.
Referring to
The arcuate face 1132 defines a partial or open cuff 1142 which is sized to receive a portion of user's arm. The cuff 1142 acts as a restraint to prevent movement of the user's arm during the performance of an isometric exercise. In particular, it may be used advantageously to resist or restrain movements that have vertical force components. Additionally, the provision of extension rod 1094 further enhances the versatility of the apparatus 900 by enabling the user to perform isometric exercises that target different joint angles and muscles than those which would have otherwise been targeted using the arm restraint attachments 152, 540 and 996.
It should be appreciated that the extension rod 1094 and retaining member 1098 could be used to equal advantage with the connector arm 154 shown in
Referring now to
The arcuate wall 1176 and the interior face 1186 cooperate with each other to form a closed cuff 1188 which bounds a generally oval-shaped opening 1190. The opening 1190 is sized to receive a portion of the user's arm. The cuff 1188 acts as a restraint to prevent movement of the user's arm during the performance of an isometric exercise. In particular, it may be used advantageously to resist or restrain movements that have vertical force components. For enhanced versatility, the oval opening 1190 is oriented with its long axis 1192 disposed at an angle of 45 degrees from the vertical axis V-V. It will be appreciated that in other embodiments, the orientation of the opening could be modified to suit a particular application. In a further alternative, the shape of the opening could be changed to be circular or elliptical, for instance, or it could be configured with a different geometric shape altogether.
In each of the various arm restraint attachments described above, the retaining member and the connector arm are configured to be detachable from each other. This need not be the case in every application. In an alternate embodiment, the retaining member may be permanently fixed to the connector arm.
A preferred embodiment and several alternative embodiments of the present invention have been described above. However, it should be appreciated that the isometric exercise apparatus could be modified further still in accordance with the principles of the present invention. For instance, in the preferred embodiment, the isometric exercise apparatus 20 is configured for a single user. In an alternative embodiment, the apparatus could be modified by constructing a relatively larger base provided with two side-by-side exercise platforms sharing a common sidewall. In such a case, the common side wall would be provided with foam pads and bores on both of its faces. Each user would perform his/her exercises on his/her respective exercise platform. This modified apparatus could be used, for instance, in an exercise class setting.
Although the foregoing description and accompanying drawings relate to specific preferred embodiments of the present invention as presently contemplated by the inventor, it will be understood that various changes, modifications and adaptations, may be made without departing from the spirit of the invention.
Claims
1. An apparatus for performing isometric exercises comprising:
- a frame having a base and a sidewall joined to the base, the base having an exercise area within which a user's body is positionable; the base having a pair of opposed, first and second, spaced apart sides; the sidewall lying adjacent the first side of the base;
- a restraint arm assembly connected to the frame, the restraint assembly including: a swing arm pivotable relative to the base; a restraint arm carried by the swing arm and positionable above the exercise area to inhibit movement of a portion of the user's body so as to allow the user to perform isometric exercises; the restraint arm extending across the exercise area between the swing arm and the sidewall; an indexing assembly disposed adjacent the second side of the base opposite the sidewall for fixing the swing arm in a predetermined angular position selected from a set of discrete angular positions relative to the base; and
- at least one limb restraint accessory positionable at predetermined locations along the base for inhibiting movement of the user's limb so as to allow the user to perform isometric exercises.
2. The isometric exercise apparatus of claim 1 wherein the base is hingedly connected to the sidewall.
3. The isometric exercise apparatus of claim 2 wherein:
- the sidewall is moveable between a first, in-use position and a second, out-of-use position;
- when in the first, in-use position, the sidewall is oriented at least substantially perpendicular to the base; and
- when in the second, out-of use position, the sidewall is collapsed against the base.
4. The isometric exercise apparatus of claim 1 wherein the restraint arm assembly is releasably connected to the frame.
5. The isometric exercise apparatus of claim 1 wherein the indexing assembly includes an indexing plate mounted to the base and an indexing pin releasably engageable with a portion of the indexing plate and a portion of the swing arm to fix the swing arm to the indexing plate.
6. The isometric exercise apparatus of claim 5 wherein:
- the indexing plate has a plurality of indexing apertures defined therein, each indexing aperture corresponding to one of the predetermined angular positions;
- the swing arm has a first end pivotally connected to the base, a second end attached to the restraint arm and includes at a location intermediate the first and second ends a bore;
- the bore of the swing arm being alignable with one of the indexing apertures to allow insertion of the indexing pin therethrough.
7. The isometric apparatus of claim 6 wherein the plurality of indexing apertures are disposed in a semi-circular arrangement along the indexing plate.
8. The isometric exercise apparatus of claim 5 wherein the indexing assembly is provided with locking means to prevent disengagement of the indexing pin from the indexing plate and the swing arm.
9. The isometric exercise apparatus of claim 1 wherein the restraint arm has a first portion attached to the swing arm and a second portion releasably connected to the sidewall.
10. The isometric exercise apparatus of claim 1 wherein:
- the sidewall has defined therein a plurality of indexing bores;
- each indexing bore corresponds to one of the predetermined angular positions and is configured to receive the second portion of the restraint arm.
11. The isometric exercise apparatus of claim 10 wherein the indexing bores are disposed in a semi-circular arrangement along the sidewall.
12. The isometric exercise apparatus of claim 1 wherein the base includes a plurality of slots defined in the base, each slot being disposed at one of the predetermined locations and configured to receive a portion of the at least one limb restraint accessory therein.
13. The isometric exercise apparatus of claim 12 wherein:
- the base has a third side extending between the first and second sides, and a fourth side opposite the third side and extending between the first and second sides; and
- the plurality of slots includes at least one slot disposed along the first side, at least one slot disposed along the second side and at least one slot disposed along the third side.
14. The isometric exercise apparatus of claim 12 wherein:
- the base has a longitudinal axis and a transverse axis perpendicular to the longitudinal axis;
- at least some of the slots of the plurality being oriented generally perpendicular to the longitudinal axis of the base.
15. The isometric exercise apparatus of claim 14 wherein at least some of the slots of the plurality are oriented generally perpendicular to the transverse axis of the base.
16. The isometric exercise apparatus of claim 14 wherein at least some of the slots of the plurality are canted relative to the longitudinal axis of the base.
17. The isometric exercise apparatus of claim 12 wherein the at least one limb restraint accessory includes:
- a connector arm configured for insertion into one of the plurality of slots; and
- a retainer member supported by the connector arm for restraining a portion of the user's limb.
18. A kit for an isometric exercise apparatus comprising:
- a frame having a base and a sidewall joinable to the base, the base having an exercise area within which a user's body is positionable; the base having a pair of opposed, first and second, spaced apart sides; the sidewall positionable adjacent the first side of the base;
- a restraint arm assembly connectable to the frame, the restraint assembly including: a swing arm mountable for pivoting relative to the base; a restraint arm mountable to the swing arm and positionable above the exercise area to inhibit movement of a portion of the user's body so as to allow the user to perform isometric exercises; the restraint arm being positionable to extend across the exercise area between the swing arm and the sidewall; an indexing assembly being positionable adjacent the second side of the base opposite the sidewall for fixing the swing arm in a predetermined angular position selected from a set of discrete angular positions relative to the base; and
- at least one limb restraint accessory positionable at predetermined locations along the base for inhibiting movement of the user's limb so as to allow the user to perform isometric exercises.
19. A kit for an isometric exercise apparatus and storage rack therefor comprising:
- a collapsible frame having a base and a sidewall joinable to the base, the base having an exercise area within which a user's body is positionable; the base having a pair of opposed, first and second, spaced apart sides; the sidewall positionable adjacent the first side of the base;
- a restraint arm assembly connectable to the frame, the restraint assembly including: a swing arm mountable for pivoting relative to the base; a restraint arm mountable to the swing arm and positionable above the exercise area to inhibit movement of a portion of the user's body so as to allow the user to perform isometric exercises; the restraint arm being positionable to extend across the exercise area between the swing arm and the sidewall; an indexing assembly being positionable adjacent the second side of the base opposite the sidewall for fixing the swing arm in a predetermined angular position selected from a set of discrete angular positions relative to the base; at least one limb restraint accessory positionable at predetermined locations along the base for inhibiting movement of the user's limb so as to allow the user to perform isometric exercises; and a rack structure for suspending the frame when in a collapsed state.
Type: Application
Filed: Jul 22, 2019
Publication Date: Nov 7, 2019
Applicant: Isologex Corporation (Toronto)
Inventor: Brad Thorpe (Toronto)
Application Number: 16/518,549