US20080026920A1 - Weightlifting apparatus for pronation and supination exercises - Google Patents
Weightlifting apparatus for pronation and supination exercises Download PDFInfo
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- US20080026920A1 US20080026920A1 US11/493,175 US49317506A US2008026920A1 US 20080026920 A1 US20080026920 A1 US 20080026920A1 US 49317506 A US49317506 A US 49317506A US 2008026920 A1 US2008026920 A1 US 2008026920A1
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- handle
- assembly
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- pulleys
- bar
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Classifications
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/06—User-manipulated weights
- A63B21/072—Dumb-bells, bar-bells or the like, e.g. weight discs having an integral peripheral handle
- A63B21/0724—Bar-bells; Hand bars
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/06—User-manipulated weights
- A63B21/062—User-manipulated weights including guide for vertical or non-vertical weights or array of weights to move against gravity forces
- A63B21/0626—User-manipulated weights including guide for vertical or non-vertical weights or array of weights to move against gravity forces with substantially vertical guiding means
- A63B21/0628—User-manipulated weights including guide for vertical or non-vertical weights or array of weights to move against gravity forces with substantially vertical guiding means for vertical array of weights
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B23/00—Exercising apparatus specially adapted for particular parts of the body
- A63B2023/003—Exercising apparatus specially adapted for particular parts of the body by torsion of the body part around its longitudinal axis
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/06—User-manipulated weights
- A63B21/072—Dumb-bells, bar-bells or the like, e.g. weight discs having an integral peripheral handle
- A63B21/075—Dumb-bells, bar-bells or the like, e.g. weight discs having an integral peripheral handle with variable weights, e.g. weight systems with weight selecting means for bar-bells or dumb-bells
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/40—Interfaces with the user related to strength training; Details thereof
- A63B21/4001—Arrangements for attaching the exercising apparatus to the user's body, e.g. belts, shoes or gloves specially adapted therefor
- A63B21/4017—Arrangements for attaching the exercising apparatus to the user's body, e.g. belts, shoes or gloves specially adapted therefor to the upper limbs
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B2208/00—Characteristics or parameters related to the user or player
- A63B2208/02—Characteristics or parameters related to the user or player posture
- A63B2208/0228—Sitting on the buttocks
- A63B2208/0233—Sitting on the buttocks in 90/90 position, like on a chair
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B23/00—Exercising apparatus specially adapted for particular parts of the body
- A63B23/035—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously
- A63B23/12—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously for upper limbs or related muscles, e.g. chest, upper back or shoulder muscles
- A63B23/1281—Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously for upper limbs or related muscles, e.g. chest, upper back or shoulder muscles primarily by articulating the elbow joint
Definitions
- the present invention relates to a weightlifting apparatus operative to provide a continuous adjustable resistant force to a muscle-generated force produced by an exerciser that performs supination of biceps simultaneously with other exercise motions or pronation of triceps simultaneously with other exercise motions.
- Weightlifting apparatus for performing simultaneously two exercise motions are well known in prior art.
- a typical structure representative of these apparatus includes a bar with rotatably attached handles and changeable weights which are suspended on the opposite ends of the bar.
- the structure is configured to allow an exerciser to simultaneously perform, for example, flexing and supination of biceps or extension and pronation of triceps, wherein the supination motion is characterized by turning the palm upward, whereas the pronation motion is performed by turning palm downward.
- such a structure is operative to generate a controllable force resistant only to a force generated by flexing/extending motion, but not to a torque generated by supination/pronation motion. Accordingly, muscle development controlled by the supination and/or pronation motions may be not as effective as desired.
- weightlifting devices operative to simultaneously perform the supination/pronation exercises in combination with other exercises is operative to utilize weightlifting resistance to, for example, simultaneously perform biceps flexing biceps supination exercises.
- the resistance to flexing motion is provided by using changeable weights, which can be easily selected from a very wide range to correspond to the muscle development level of the exerciser
- the resistance to supination is caused by friction between the rotatable and not-rotatable parts of a handle assembly.
- Such a structure does not provide for an easy adjustment of resistance.
- the adjustments range from near-zero to locking is very small and cannot be consistently reproduced, since there is no quantifiable indication of actual resistance.
- the level of resistance in such an apparatus is dependent on geometrical tolerances, the surface finishes and wears resistance of the involved parts and, therefore, may vary greatly from one apparatuses to the other or during usable life of the same apparatus.
- Another disadvantage of these apparatus is determined by the fact that if the motion is stopped, for example, at the point where the direction is changed from lifting to lowering the apparatus, a friction force provides no resistance to the supination motion of muscles.
- a force resistant to a torque which is generated during supination motion, is generated only when the exerciser lifts the apparatus, but not when the apparatus is being lowered, since during that part of the motion (to the starting position) the hands of the exerciser are exposed to pronation resistance. As a result, the intended muscles are loaded only during 50% of the exercise motion.
- a spring-loaded supination/pronation motion unit is operative to generate a variable resistant depending whether a spring is in a contracted state or an expanded state during an exercise.
- a constant resistant force that is particularly beneficial the desired muscle development.
- a force created by the spring is directed through the center of rotation of both rotatable handles and totally equals to its normal component, whereas the tangential component is equal to zero.
- the spring force no longer passes through the center of both of the rotatable handles.
- the normal component of the resultant force is gradually decreasing and the tangential component is increasing until the handles are rotated at 90° from the initial position. At this point the resultant force is equal to its tangential component, and the normal component is equal to zero.
- the resistance to be overcome by the muscles during the supination or pronation motion depends only upon the tangential component responsible for the generation of the resistant torque. Since this component constantly changes, the apparatus does not provide for constant resistance which, as discussed above, is critical to the muscle development.
- Yet another type of known apparatus for simultaneously performing two exercise motions which utilize weightlifting resistance to multiple motions, allows performing only one or a very limited number of exercises and has a complex structure. Furthermore, the motion trajectory is strictly restricted by the device.
- FIG. 1 is a perspective view of a weightlifting apparatus configured in accordance with one embodiment of the invention
- FIG. 2 is a longitudinal view of the weightlifting apparatus of FIG. 1 ;
- FIG. 3 is a top plan view of the weightlifting apparatus of FIG. 1 ;
- FIG. 4 is a partial sectional view of the left portion of the weightlifting apparatus, which is set for supination exercise motion;
- FIG. 5 is a partial sectional view of the left portion of the weightlifting apparatus of FIG. 1 , which is set for pronation exercise motion;
- FIG. 6 is a sectional view taken along the line A-A of FIG. 2 ;
- FIG. 7 is a sectional view taken along the line B-B of FIG. 2 ;
- FIG. 8 is a perspective view the weightlifting apparatus configured in accordance with a further embodiment of the invention.
- FIG. 9 is a perspective view of the weightlifting apparatus of FIG. 8 set for simultaneously performing a combination of supination and flexing exercises;
- FIG. 10 is a perspective view the weightlifting apparatus configured in accordance with still another embodiment of the invention.
- FIG. 11 is a perspective view of still of the weightlifting apparatus of FIG. 10 set for simultaneously performing a combination of pronation and flexing exercises.
- a weightlifting apparatus 20 is configured in accordance with a first embodiment of the invention and operative to simultaneously perform at least two different exercises involving flexing and supination motions as well as extending and pronation motions. Accordingly, apparatus 20 is configured with two operatively interconnected units including a muscle flexing/extending assembly and a muscle supination/pronation assembly.
- the apparatus 20 is configured with an elongated carrying bar 22 having generally C-shaped opposite end regions each provided with spaced apart flanks which are bent approximately at a 90° angle relative to the longitudinal axis of bar 22 .
- the end regions of bar 22 are provided with respective handle units explained in detail hereinbelow and each generally including a yoke 26 , a handle 28 and a pulley 30 which lies in a plane extending perpendicular to a plane of yoke 26 .
- the handle units operate independently from each other and each are configured to selectively provide supination and pronation motions in response to a torque generated by the exerciser's forearm.
- rods 58 mounted to the opposite ends of bar 22 and coaxial therewith are rods 58 coupled to weight units 60 .
- the weight units 60 define a load factoring in a biceps/triceps flexing exercise during which the exerciser applies a pulling force to handles 28 causing bar 22 to reciprocally rotate about elbow joints of the exerciser as will be explained in detail hereinbelow.
- a pair of weight units of the supination/pronation assembly each including weights 64 and coupled to the respective end region of bar 22 between weights 60 provides a resistant force to a torque generated by the exerciser and applied to handles 28 during supination and/or pronation exercises simultaneously with biceps/triceps flexing motion.
- the supination/pronation weight units each have a pair of spaced guide shafts 48 extending perpendicular to the longitudinal axis of bar 22 so that their respective upper ends are coupled to a bracket 46 while the lower ends secured together by a plate 49 .
- the guide shafts 48 each are configured to guide weights 64 along a linear vertical path in response to a torque applied by the exerciser to handle 28 .
- the linear motion of weights 64 is realized by means of a carriage 50 displaceably fixed to weights 64 by a rod 62 and slidably mounted to shafts 48 by a sliding bearings 52 ( FIG. 7 ).
- the supination/pronation assembly includes a force transmission unit which is operative to convert rotational motion of handle 28 to linear motion of weights 64 and is configured with a system of flexible elements and pulleys.
- One or more flexible elements 54 of the force transmission unit are secured at one of its ends to handle 28 with screws 55 .
- the other end of flexible elements 54 is secured inside respective carriages 50 with screws 56 .
- the flexible element 54 is guided through a combination of pulleys at least partially housed in a housing 34 which is connected to the extreme bent end of carrying bar 22 ( FIG. 1 ).
- the housing 34 has a central channel which receives a bearing 36 , rotatably supporting a hollow shaft 40 , and is displaceably fixed to bar 22 .
- the rotatable hollow shaft 40 is traversed by a stretch of flexible element 54 guidable so that, regardless of the angular position of bar 22 , weights 64 are driven in a plane perpendicular to the longitudinal axis of bar 22 .
- One end of housings 34 has a U-shaped portion rotatably supporting a pulley 38 .
- the end of hollow shaft 40 protrudes outside bearing 36 and is attached to a yoke 42 .
- a pulley 44 is rotatably mounted inside yoke 42 , which, in turn, is coupled to bracket 46 .
- the flexible element 54 is trained through a groove of pulley 44 , hollow shaft 40 , a groove of pulley 38 , and further through a groove 32 ( FIG. 1 ) of pulley 30 , which, in turn, is coupled to yoke 26 that is rotatably mounted to handle 28 by means of axle 24 .
- yoke 26 of the handle assembly has a central opening configured to receive coaxially disposed bearing 25 and axle 24 which extends transversely to bar 22 and is displaceably fixed thereto. Since bearing 25 is juxtaposed between yoke 26 and axle 24 , handle 28 , displaceably fixed to yoke 26 , is rotatable about axle 24 in response to a torque applied by the exerciser. Concomitantly, pulley 30 , displaceably fixed to handle 28 and having a central axis which extends substantially perpendicular to axle 24 and parallel to the axis of bar 22 , rotates about axle 24 in response to the exerciser-generated torque.
- the groove 32 ( FIG.
- pulley 30 may have a variety of configurations including a round shape or semi-circle shape or any other irregular shape with a curved stretch.
- pulley 30 may have the shape of a complete circle or a partial circle, with the central angle of the partial circle generally larger than the angle of the user's hand rotation during the pronation or supination phase of the exercise.
- weightlifting apparatus 20 may be utilized in one of two modes: for primary flexion and supination of the biceps muscles; for extension and pronation of triceps muscles.
- weightlifting apparatus 20 For exercises that involve flexion and supination of biceps, such as curl, preacher curl, upright row, bent-over row, etc., weightlifting apparatus 20 must be set in the position shown in FIG. 2 and FIG. 4 where the ends of flexible elements 54 , attached to the handles 28 , are located below the central axis of rotation of pulleys 30 .
- the exerciser places his/her hands on handles 28 while rotating bar 22 upwards by bending the arms at the elbow, where weights 60 and the total weight of the apparatus provide the resistance to the flexing motion of the biceps. Simultaneously with flexing motion, the exerciser rotates handles 28 around respective axels 24 in a direction of arrow 66 ( FIG. 4 ).
- weights 64 This motion generates a pulling force causing weights 64 to move upwards along with carriages 50 and respective flexible elements 54 and to provide resistance to a torque generated by the exerciser during the supination motion of the biceps. Since the transition region between pulleys 38 and 30 remains spatially fixed, as explained above, regardless of the angular positions of bar 22 and handle 28 , weight unit 64 always runs along the desired linear path witch includes the vertical and horizontal stretches so as to provide maximum effectiveness of the supination motion regardless of a rotational sense of handle 28 and bar 22 .
- weightlifting apparatus 20 For exercises that involve extension and pronation of triceps, such as barbell triceps extension, lying triceps extension, bench press, incline bench press, military press, behind neck press, etc., weightlifting apparatus 20 must be set in the position shown on FIG. 5 . In this position, housing 34 along with pulley 38 are rotated at a 180° angle relative to the longitudinal axis of bar 22 to position the ends of flexible elements 54 , which are attached to respective handles 28 , above the central axis of rotation of pulleys 30 . Having placed the hands on respective handles 28 , the exerciser applies a pulling force to bar 22 by extending the arms at the elbows.
- housing 34 along with pulley 38 are rotated at a 180° angle relative to the longitudinal axis of bar 22 to position the ends of flexible elements 54 , which are attached to respective handles 28 , above the central axis of rotation of pulleys 30 .
- weight plates 60 and the total weight of the apparatus provide the resistance to the extension motion of the triceps.
- the exerciser Simultaneously with the pulling force, the exerciser generates a torque applied to handles 28 so as to rotate the handles around respective axels 24 in the direction of arrow 68 .
- This motion causes weight plates 64 to be pulled up through flexible elements 54 and carriages 50 , providing resistance to the pronation motion of the triceps.
- a transition region between pulleys 38 and 30 does no change its location regardless of the angular position of bar 22 as well as that one of handle 28 .
- This provides effective pronation motion accompanied by a resistant force which is generated by weight plates 64 and always directed perpendicular to the longitudinal axis of bar 22 .
- FIG. 8 illustrates a further embodiment a weightlifting apparatus 70 which only allows exercises involving simultaneous flexion and supination of biceps.
- the apparatus 70 has a base frame 72 supporting a seat 74 and an arm support 76 slanted downwards, as shown in FIG. 8 .
- Arms 94 and 96 extending parallel to one another are fixed to the respective opposite sides of frame 72 and have their respective distal ends each pivotally coupled to an arm 98 which extends angularly upwards from the distal end of arms 94 .
- the distal ends of arms 98 are displaceably fixed to the respective bent ends of carrying bar 22 .
- Spaced apart handle units configured analogously to the handle unit of FIGS.
- a muscle flexing assembly configured to provide resistance to the flexion of biceps includes a stack of weight plates 78 , a flexible element 82 with one end displaceably fixed to the top weight plate and the other end trained through upper segments of respective pulleys 86 , 88 and fixed to a lower segment of a pulley 84 . All three pulleys 84 , 86 and 88 have respective axes of rotation extending parallel to one another and generally parallel to a longitudinal axis of bar 22 .
- a supination assembly includes a stack of weight plates 80 , which provides a continuous and adjustable force resistant to a torque generated by the exerciser and applied to handles 28 .
- weights 80 move along a path including vertical and horizontal stretches regardless of the angular position of handles 28 and bar 22 .
- a force-transmitting assembly of the supination assembly is operative to convert the exerciser-generated torque to a linear motion of weight plates 80 . It includes a combination of pulleys and a flexible element trained through the pulleys and coupled to weights 80 , as explained hereinbelow.
- a pulley 110 of the supination assembly is rotatably mounted to the top plate of weights 80 and is wrapped around by a flexible element 102 opposite ends of which are secured to respective yokes 30 of the handle assembly.
- Mounted concentrically with and displaceably fixed to pulley 84 are spaced pulleys 90 and 92 which are engaged by respective stretches of flexible element 102 .
- One of the stretches of flexible element 102 is further trained through a grooved pulley 108 , which rotates about an axis parallel to the axes of respective grooved pulleys 90 and 92 , and further through spaced grooved pulleys 44 and 38 .
- the pulleys 38 and 44 rotate about respective parallel axes which extend perpendicular to the axis of pulley 108 .
- Such a configuration allows the end of flexible element 102 to locate below the central axis of pulley 30 regardless of the position of the latter which changes as handle 28 rotates in response to the exerciser-generated torque.
- the other stretch of flexible element 102 extends from pulley 90 through a grooved pulley 106 rotatable about an axis perpendicular to the axes of respective pulleys 44 and 38 and to pulley 108 and further to a grooved pulley 104 rotatable about an axis parallel to the axes of respective pulleys 38 and 44 .
- the pulleys 104 and 106 defining therebetween a portion of the flexible element's stretch parallel to bar 22 , are positioned to define respective 90° turns along the path. Further, flexible element 102 extends parallel to the longitudinal axis of bar 22 through a grooved pulley 104 .
- this stretch of flexible element 102 is trained through spaced pulleys 44 and 38 located on the end of bar 22 so that the end of element 102 leaving pulley 38 and entering grooved pulley 30 of handle 28 is spatially fixed regardless of the handle's position.
- the pulleys 44 and 38 rotate about respective axes parallel to the axis of pulley 104 and flank housing 34 configured to receive hollow shaft 40 ( FIG. 9 ).
- the housing 34 has a central hole shaped and dimensioned to receive bearing 36 , which surrounds shaft 40 rotatable relative to housing 34 , and a U-shaped portion receiving pulley 38 .
- the ends of hollow shaft 40 protrude outside respective bearings 36 and each coupled to yoke 42 ( FIG. 8 ) housing pulley 44 .
- the user places hands on the handles 28 with arms resting on arm support 76 . While pivoting the apparatus in a direction of arrow 116 ( FIG. 9 ) so that weight plates 78 provide the resistance to the flexing motion of the biceps, the exerciser simultaneously rotates handles 28 around respective axels 24 in the direction of arrows 114 . This motion causes the weight plates of weight stack 80 to be pulled up through flexible elements 102 , always traveling along a vertical linear path and providing resistance to the supination motion of the biceps.
- FIGS. 10 and 11 show an apparatus 120 operative to simultaneously perform flexing and pronation of triceps exercises.
- the basic structure of this apparatus is similar to the one shown in FIG. 9 .
- a flexible element 136 of the flexing assembly of apparatus 120 has one end fixed a stack of weights 130 , whereas the opposite end is trained through opposite upper and lower stretches of respective pulleys 140 and 142 and fixed to the upper curved segment of pulley 138 .
- Still a further structural distinction of apparatus 120 is characterized by a position of pulley 38 which is juxtaposed with pulley 30 of the handle unit so that it is located above the central axis of pulley 30 .
- the exerciser places hands on the handles 28 and rests his elbows on arm support configured analogously the arm support of FIGS. 8 and 9 . While pushing bar 22 in the direction of arrow 76 ( FIG. 10 ) so that the weight plates of weight stack 130 provide the resistance to the extension motion of the triceps, user simultaneously rotates the handles around the axis of the axels 24 in the direction of arrows 172 .
- This motion causes a flexible element 162 trained through grooved pulleys 30 , 38 , 36 , 76 , 158 , 144 134 , 146 , 160 , 44 , 38 and 30 in a manner explained above to guide weight plates of weight stack 132 along a vertical path in response to a torque applied by the exerciser to handles 28 .
- the inventive apparatus is suitable for a variety of body building exercises, such as barbell exercises that involve movement of hands and arms of the exerciser.
- barbell exercises that involve movement of hands and arms of the exerciser.
- a non-exclusive list of such as barbell exercise includes barbell biceps curl, barbell reverse curl, preacher curl, upright row, bent-over row, barbell triceps extension, lying triceps extension, flat bench press, incline bench press, decline bench press, military press, behind neck press, barbell front raises, barbell pullover, and barbell bent arm pullover.
Abstract
A weightlifting apparatus is operative to continuously provide and adjust a force resistant to a torque produced by an exerciser that performs supination of biceps simultaneously with other exercise motions or pronation of triceps simultaneously with other exercise motions.
Description
- 1. Field of the Invention
- The present invention relates to a weightlifting apparatus operative to provide a continuous adjustable resistant force to a muscle-generated force produced by an exerciser that performs supination of biceps simultaneously with other exercise motions or pronation of triceps simultaneously with other exercise motions.
- 2. Discussion of the Prior Art
- Weightlifting apparatus for performing simultaneously two exercise motions are well known in prior art. A typical structure representative of these apparatus includes a bar with rotatably attached handles and changeable weights which are suspended on the opposite ends of the bar. The structure is configured to allow an exerciser to simultaneously perform, for example, flexing and supination of biceps or extension and pronation of triceps, wherein the supination motion is characterized by turning the palm upward, whereas the pronation motion is performed by turning palm downward. Typically, such a structure is operative to generate a controllable force resistant only to a force generated by flexing/extending motion, but not to a torque generated by supination/pronation motion. Accordingly, muscle development controlled by the supination and/or pronation motions may be not as effective as desired.
- Another type of the known weightlifting devices operative to simultaneously perform the supination/pronation exercises in combination with other exercises is operative to utilize weightlifting resistance to, for example, simultaneously perform biceps flexing biceps supination exercises. While the resistance to flexing motion is provided by using changeable weights, which can be easily selected from a very wide range to correspond to the muscle development level of the exerciser, the resistance to supination is caused by friction between the rotatable and not-rotatable parts of a handle assembly. Such a structure does not provide for an easy adjustment of resistance. Moreover, the adjustments range from near-zero to locking is very small and cannot be consistently reproduced, since there is no quantifiable indication of actual resistance. The level of resistance in such an apparatus is dependent on geometrical tolerances, the surface finishes and wears resistance of the involved parts and, therefore, may vary greatly from one apparatuses to the other or during usable life of the same apparatus. Another disadvantage of these apparatus is determined by the fact that if the motion is stopped, for example, at the point where the direction is changed from lifting to lowering the apparatus, a friction force provides no resistance to the supination motion of muscles. Also, a force resistant to a torque, which is generated during supination motion, is generated only when the exerciser lifts the apparatus, but not when the apparatus is being lowered, since during that part of the motion (to the starting position) the hands of the exerciser are exposed to pronation resistance. As a result, the intended muscles are loaded only during 50% of the exercise motion.
- Still in another example of known apparatus for simultaneously performing two exercise motions, a spring-loaded supination/pronation motion unit is operative to generate a variable resistant depending whether a spring is in a contracted state or an expanded state during an exercise. However, it is a constant resistant force that is particularly beneficial the desired muscle development. In thus configured apparatus, during early stages of the lifting operation, a force created by the spring is directed through the center of rotation of both rotatable handles and totally equals to its normal component, whereas the tangential component is equal to zero. When the positions of the rotatable handles changes during the exercise, the spring force no longer passes through the center of both of the rotatable handles. During the rotational motion of the handles the normal component of the resultant force is gradually decreasing and the tangential component is increasing until the handles are rotated at 90° from the initial position. At this point the resultant force is equal to its tangential component, and the normal component is equal to zero. The resistance to be overcome by the muscles during the supination or pronation motion depends only upon the tangential component responsible for the generation of the resistant torque. Since this component constantly changes, the apparatus does not provide for constant resistance which, as discussed above, is critical to the muscle development. Yet another type of known apparatus for simultaneously performing two exercise motions, which utilize weightlifting resistance to multiple motions, allows performing only one or a very limited number of exercises and has a complex structure. Furthermore, the motion trajectory is strictly restricted by the device.
- A need, therefore, exists for a weightlifting apparatus that allows the development of muscles by carrying out at least two exercise motions simultaneously under consistent, continuous and adjustable load.
- The above and other features and advantages of the disclosed apparatus will become more readily apparent from a specific description accompanied by the following drawings, in which:
-
FIG. 1 is a perspective view of a weightlifting apparatus configured in accordance with one embodiment of the invention; -
FIG. 2 is a longitudinal view of the weightlifting apparatus ofFIG. 1 ; -
FIG. 3 is a top plan view of the weightlifting apparatus ofFIG. 1 ; -
FIG. 4 is a partial sectional view of the left portion of the weightlifting apparatus, which is set for supination exercise motion; -
FIG. 5 is a partial sectional view of the left portion of the weightlifting apparatus ofFIG. 1 , which is set for pronation exercise motion; -
FIG. 6 is a sectional view taken along the line A-A ofFIG. 2 ; -
FIG. 7 is a sectional view taken along the line B-B ofFIG. 2 ; -
FIG. 8 is a perspective view the weightlifting apparatus configured in accordance with a further embodiment of the invention; -
FIG. 9 is a perspective view of the weightlifting apparatus ofFIG. 8 set for simultaneously performing a combination of supination and flexing exercises; -
FIG. 10 is a perspective view the weightlifting apparatus configured in accordance with still another embodiment of the invention; and -
FIG. 11 is a perspective view of still of the weightlifting apparatus ofFIG. 10 set for simultaneously performing a combination of pronation and flexing exercises. - Reference will now be made in detail to several embodiments of the invention that are illustrated in the accompanying drawings. Wherever possible, same or similar reference numerals are used in the drawings and the description to refer to the same or like parts or steps. The drawings are in simplified form and are not to precise scale. For purposes of convenience and clarity only, directional terms, such as top, bottom, up and down may be used with respect to the drawings. These and similar directional terms should not be construed to limit the scope of the invention in any manner. The words “connect,” “couple,” and similar terms with their inflectional morphemes do not necessarily denote direct and immediate connections, but also include connections through mediate elements or devices.
- Referring to
FIG. 1 , aweightlifting apparatus 20 is configured in accordance with a first embodiment of the invention and operative to simultaneously perform at least two different exercises involving flexing and supination motions as well as extending and pronation motions. Accordingly,apparatus 20 is configured with two operatively interconnected units including a muscle flexing/extending assembly and a muscle supination/pronation assembly. - The
apparatus 20 is configured with anelongated carrying bar 22 having generally C-shaped opposite end regions each provided with spaced apart flanks which are bent approximately at a 90° angle relative to the longitudinal axis ofbar 22. The end regions ofbar 22 are provided with respective handle units explained in detail hereinbelow and each generally including ayoke 26, ahandle 28 and apulley 30 which lies in a plane extending perpendicular to a plane ofyoke 26. The handle units operate independently from each other and each are configured to selectively provide supination and pronation motions in response to a torque generated by the exerciser's forearm. Mounted to the opposite ends ofbar 22 and coaxial therewith arerods 58 coupled toweight units 60. Theweight units 60 define a load factoring in a biceps/triceps flexing exercise during which the exerciser applies a pulling force to handles 28 causingbar 22 to reciprocally rotate about elbow joints of the exerciser as will be explained in detail hereinbelow. A pair of weight units of the supination/pronation assembly each includingweights 64 and coupled to the respective end region ofbar 22 betweenweights 60 provides a resistant force to a torque generated by the exerciser and applied to handles 28 during supination and/or pronation exercises simultaneously with biceps/triceps flexing motion. - Referring further to
FIGS. 2 and 7 , the supination/pronation weight units each have a pair of spacedguide shafts 48 extending perpendicular to the longitudinal axis ofbar 22 so that their respective upper ends are coupled to abracket 46 while the lower ends secured together by aplate 49. Theguide shafts 48 each are configured to guideweights 64 along a linear vertical path in response to a torque applied by the exerciser to handle 28. The linear motion ofweights 64 is realized by means of acarriage 50 displaceably fixed toweights 64 by arod 62 and slidably mounted toshafts 48 by a sliding bearings 52 (FIG. 7 ). - Referring to
FIG. 4 in addition toFIG. 1 , the supination/pronation assembly includes a force transmission unit which is operative to convert rotational motion ofhandle 28 to linear motion ofweights 64 and is configured with a system of flexible elements and pulleys. One or moreflexible elements 54 of the force transmission unit are secured at one of its ends to handle 28 withscrews 55. The other end offlexible elements 54 is secured insiderespective carriages 50 withscrews 56. Theflexible element 54 is guided through a combination of pulleys at least partially housed in ahousing 34 which is connected to the extreme bent end of carrying bar 22 (FIG. 1 ). Thehousing 34 has a central channel which receives abearing 36, rotatably supporting ahollow shaft 40, and is displaceably fixed to bar 22. The rotatablehollow shaft 40 is traversed by a stretch offlexible element 54 guidable so that, regardless of the angular position ofbar 22,weights 64 are driven in a plane perpendicular to the longitudinal axis ofbar 22. One end ofhousings 34 has a U-shaped portion rotatably supporting apulley 38. The end ofhollow shaft 40 protrudes outside bearing 36 and is attached to ayoke 42. Apulley 44 is rotatably mounted insideyoke 42, which, in turn, is coupled tobracket 46. Theflexible element 54 is trained through a groove ofpulley 44,hollow shaft 40, a groove ofpulley 38, and further through a groove 32 (FIG. 1 ) ofpulley 30, which, in turn, is coupled toyoke 26 that is rotatably mounted to handle 28 by means ofaxle 24. - Turning to
FIG. 6 in addition toFIG. 1 ,yoke 26 of the handle assembly has a central opening configured to receive coaxially disposedbearing 25 andaxle 24 which extends transversely to bar 22 and is displaceably fixed thereto. Since bearing 25 is juxtaposed betweenyoke 26 andaxle 24, handle 28, displaceably fixed toyoke 26, is rotatable aboutaxle 24 in response to a torque applied by the exerciser. Concomitantly,pulley 30, displaceably fixed to handle 28 and having a central axis which extends substantially perpendicular toaxle 24 and parallel to the axis ofbar 22, rotates aboutaxle 24 in response to the exerciser-generated torque. The groove 32 (FIG. 1 ) ofpulley 30 and the groove ofpulley 38 are aligned whilepulley 30 rotates. As a consequence a transition region in whichflexible element 54 leavespulley 38 and enterspulley 30 remains spatially fixed so as to maintain the desirable vertical linear path ofweights 64 providing, thus, a continuous load on biceps during supination motion. All of the pulleys may have a variety of configurations including a round shape or semi-circle shape or any other irregular shape with a curved stretch. For example,pulley 30 may have the shape of a complete circle or a partial circle, with the central angle of the partial circle generally larger than the angle of the user's hand rotation during the pronation or supination phase of the exercise. - In operation,
weightlifting apparatus 20 may be utilized in one of two modes: for primary flexion and supination of the biceps muscles; for extension and pronation of triceps muscles. - For exercises that involve flexion and supination of biceps, such as curl, preacher curl, upright row, bent-over row, etc.,
weightlifting apparatus 20 must be set in the position shown inFIG. 2 andFIG. 4 where the ends offlexible elements 54, attached to thehandles 28, are located below the central axis of rotation ofpulleys 30. The exerciser places his/her hands onhandles 28 while rotatingbar 22 upwards by bending the arms at the elbow, whereweights 60 and the total weight of the apparatus provide the resistance to the flexing motion of the biceps. Simultaneously with flexing motion, the exerciser rotateshandles 28 aroundrespective axels 24 in a direction of arrow 66 (FIG. 4 ). This motion generates a pullingforce causing weights 64 to move upwards along withcarriages 50 and respectiveflexible elements 54 and to provide resistance to a torque generated by the exerciser during the supination motion of the biceps. Since the transition region betweenpulleys bar 22 and handle 28,weight unit 64 always runs along the desired linear path witch includes the vertical and horizontal stretches so as to provide maximum effectiveness of the supination motion regardless of a rotational sense ofhandle 28 andbar 22. - For exercises that involve extension and pronation of triceps, such as barbell triceps extension, lying triceps extension, bench press, incline bench press, military press, behind neck press, etc.,
weightlifting apparatus 20 must be set in the position shown onFIG. 5 . In this position,housing 34 along withpulley 38 are rotated at a 180° angle relative to the longitudinal axis ofbar 22 to position the ends offlexible elements 54, which are attached torespective handles 28, above the central axis of rotation ofpulleys 30. Having placed the hands onrespective handles 28, the exerciser applies a pulling force to bar 22 by extending the arms at the elbows. As a result,weight plates 60 and the total weight of the apparatus provide the resistance to the extension motion of the triceps. Simultaneously with the pulling force, the exerciser generates a torque applied tohandles 28 so as to rotate the handles aroundrespective axels 24 in the direction ofarrow 68. This motion causesweight plates 64 to be pulled up throughflexible elements 54 andcarriages 50, providing resistance to the pronation motion of the triceps. Here, like in the structure ofFIG. 4 , a transition region betweenpulleys bar 22 as well as that one ofhandle 28. This, in turn, provides effective pronation motion accompanied by a resistant force which is generated byweight plates 64 and always directed perpendicular to the longitudinal axis ofbar 22. -
FIG. 8 illustrates a further embodiment aweightlifting apparatus 70 which only allows exercises involving simultaneous flexion and supination of biceps. Theapparatus 70 has abase frame 72 supporting aseat 74 and anarm support 76 slanted downwards, as shown inFIG. 8 .Arms frame 72 and have their respective distal ends each pivotally coupled to anarm 98 which extends angularly upwards from the distal end ofarms 94. The distal ends ofarms 98 are displaceably fixed to the respective bent ends of carryingbar 22. Spaced apart handle units, configured analogously to the handle unit ofFIGS. 1-7 , are rotatably mounted to carryingbar 22 and each includehandle 28,yoke 26 rotatably mounted to bar 22 andpulley 30 having a central axis which extends perpendicular toaxles 24. Upon loweringbar 22 to it lowermost position, it rests on asupport 112, as shown inFIG. 8 . - A muscle flexing assembly configured to provide resistance to the flexion of biceps includes a stack of
weight plates 78, aflexible element 82 with one end displaceably fixed to the top weight plate and the other end trained through upper segments ofrespective pulleys pulley 84. All threepulleys bar 22. - A supination assembly includes a stack of
weight plates 80, which provides a continuous and adjustable force resistant to a torque generated by the exerciser and applied to handles 28. As in the previously disclosed embodiment,weights 80 move along a path including vertical and horizontal stretches regardless of the angular position ofhandles 28 andbar 22. A force-transmitting assembly of the supination assembly is operative to convert the exerciser-generated torque to a linear motion ofweight plates 80. It includes a combination of pulleys and a flexible element trained through the pulleys and coupled toweights 80, as explained hereinbelow. - Referring to
FIG. 9 in addition toFIG. 8 , apulley 110 of the supination assembly is rotatably mounted to the top plate ofweights 80 and is wrapped around by aflexible element 102 opposite ends of which are secured torespective yokes 30 of the handle assembly. Mounted concentrically with and displaceably fixed topulley 84 are spacedpulleys flexible element 102. One of the stretches offlexible element 102 is further trained through a groovedpulley 108, which rotates about an axis parallel to the axes of respectivegrooved pulleys grooved pulleys pulleys pulley 108. Such a configuration allows the end offlexible element 102 to locate below the central axis ofpulley 30 regardless of the position of the latter which changes ashandle 28 rotates in response to the exerciser-generated torque. - The other stretch of
flexible element 102 extends frompulley 90 through a groovedpulley 106 rotatable about an axis perpendicular to the axes ofrespective pulleys pulley 108 and further to a groovedpulley 104 rotatable about an axis parallel to the axes ofrespective pulleys pulleys flexible element 102 extends parallel to the longitudinal axis ofbar 22 through a groovedpulley 104. Finally, this stretch offlexible element 102 is trained through spacedpulleys bar 22 so that the end ofelement 102 leavingpulley 38 and entering groovedpulley 30 ofhandle 28 is spatially fixed regardless of the handle's position. Thepulleys pulley 104 andflank housing 34 configured to receive hollow shaft 40 (FIG. 9 ). - The
housing 34, as disclosed in detail in reference toFIGS. 1-7 , has a central hole shaped and dimensioned to receivebearing 36, which surroundsshaft 40 rotatable relative tohousing 34, and a U-shapedportion receiving pulley 38. The ends ofhollow shaft 40 protrude outsiderespective bearings 36 and each coupled to yoke 42 (FIG. 8 )housing pulley 44. - To perform the exercise, the user places hands on the
handles 28 with arms resting onarm support 76. While pivoting the apparatus in a direction of arrow 116 (FIG. 9 ) so thatweight plates 78 provide the resistance to the flexing motion of the biceps, the exerciser simultaneously rotateshandles 28 aroundrespective axels 24 in the direction ofarrows 114. This motion causes the weight plates ofweight stack 80 to be pulled up throughflexible elements 102, always traveling along a vertical linear path and providing resistance to the supination motion of the biceps. -
FIGS. 10 and 11 show anapparatus 120 operative to simultaneously perform flexing and pronation of triceps exercises. The basic structure of this apparatus is similar to the one shown inFIG. 9 . However, in contrast to the previously disclosed embodiment for a supination exercise, aflexible element 136 of the flexing assembly ofapparatus 120 has one end fixed a stack ofweights 130, whereas the opposite end is trained through opposite upper and lower stretches ofrespective pulleys pulley 138. Still a further structural distinction ofapparatus 120 is characterized by a position ofpulley 38 which is juxtaposed withpulley 30 of the handle unit so that it is located above the central axis ofpulley 30. - To perform the exercise, the exerciser places hands on the
handles 28 and rests his elbows on arm support configured analogously the arm support ofFIGS. 8 and 9 . While pushingbar 22 in the direction of arrow 76 (FIG. 10 ) so that the weight plates ofweight stack 130 provide the resistance to the extension motion of the triceps, user simultaneously rotates the handles around the axis of theaxels 24 in the direction ofarrows 172. This motion causes aflexible element 162 trained through groovedpulleys weight stack 132 along a vertical path in response to a torque applied by the exerciser to handles 28. - The inventive apparatus is suitable for a variety of body building exercises, such as barbell exercises that involve movement of hands and arms of the exerciser. A non-exclusive list of such as barbell exercise includes barbell biceps curl, barbell reverse curl, preacher curl, upright row, bent-over row, barbell triceps extension, lying triceps extension, flat bench press, incline bench press, decline bench press, military press, behind neck press, barbell front raises, barbell pullover, and barbell bent arm pullover.
- The invention is not limited to the disclosed examples or particular use of the inventive model. Many additional modifications are intended in the foregoing disclosure, and it will be appreciated by those of ordinary skill in the art that in some instances some features of the invention will be employed in the absence of a corresponding use of other features. For example, various components of the disclosed structures may be fixed to one another or detachably attached. The illustrative examples, therefore, do not define the metes and bounds of the invention and the legal protection afforded by the invention as recited in the following claims.
Claims (20)
1. A weightlifting apparatus, comprising:
an elongated bar operative to rotate about a longitudinal axis in response to an exerciser-generated pulling force;
a handle assembly coupled to and displaceable with the bar, the handle assembly being operative to rotate about a handle axis extending transversely to the longitudinal axis in response to an exerciser-generated torque applied to the handle assembly;
a muscle flexing assembly coupled to the elongated bar and operative to generate a counter-pulling force resistant to the exerciser-generated pulling force; and
a muscle rotating assembly coupled to the handle assembly and operative to continuously and adjustably generate a counter-torque force resistant to the torque regardless of a rotational direction of the handle assembly about the handle axis.
2. The apparatus of claims 1 , wherein the muscle rotating assembly is configured with a weight unit and a force transmitting unit operable to translate rotational motion of the handle assembly into linear motion of the weight unit.
3. The apparatus of claim 2 , wherein the force transmitting unit is configured with:
a flexible element having opposite ends coupled to the weight unit and to the handle assembly, respectively, the flexible element having vertical and substantially horizontal stretches extending perpendicular to and substantially parallel to the longitudinal axis of the bar, respectively; and
a hollow element operatively connected to the bar so that the bar and hollow element are rotatable relative to one another, the hollow element being traversed by the horizontal stretch of the flexible element and operatively coupled to the muscle flexing assembly.
4. The apparatus of claim 3 , wherein the force transmitting unit further has:
a housing mounted to the bar and receiving the hollow element, and
a plurality of pulleys for displacing the flexible element in response to the torque applied to the handle assembly, one of the pulleys being rotatably mounted to the housing and juxtaposed with the handle assembly so that a sub-stretch of the horizontal stretch of the flexible element, extending between the one pulley and the handle assembly, lies in a plane extending at a constant angle during rotation of the bar and the handle assembly to maintain a vertical position of the weight unit.
5. The apparatus of claim 4 , wherein the housing has:
a U-shaped portion facing the handle assembly and configured to receive the one pulley rotatable about a pulley axis parallel to the handle axis of the handle assembly, and
a bearing surrounding the hollow element in the housing, wherein the plurality of pulleys each have a grooved periphery dimensioned to receive the flexible element.
6. The apparatus of claim 4 , wherein the force transmitting unit further has:
a yoke coupled to an end of the hollow element facing away from the handle assembly, the housing being displaceable relative to the yoke during rotation of the bar;
a bracket coupled to the muscle flexing assembly; and
a second one of the plurality of pulleys rotatably mounted to the yoke and positioned between the vertical and horizontal stretches of the of the flexible element, the one and second pulleys being rotatable about parallel axes when the bar is displaced to a rest position.
7. The apparatus of claim 3 , wherein the weight unit has:
a pair of spaced vertical rods flanking the vertical stretch of the flexible element;
a slider coupled to the flexible element and slidable along the rods in response to the torque applied to the handle assembly; and
a plurality of weight plates removably coupled to and displaceable the slider.
8. The apparatus of claim 6 , wherein the bar has a central portion and two substantially U- or C-shaped end portions facing away from an exerciser in the rest position of the bar, the central portion, the housing, the yoke and the muscle-flexing assembly being coaxial.
9. The apparatus of claim 1 , wherein the handle assembly includes spaced apart handle units, each handle unit having
an axle centered on the handle axis and mounted to the bar,
a yoke rotatably mounted to the axle and rotatable about the handle axis,
a handle extending between and rotatably fixed to opposite ends of the yoke, and
a handle pulley fixed to the opposite ends of the yoke and centered along a pulley axis extending perpendicular the handle axis.
10. The apparatus of claim 4 , wherein the housing is operative to rotate relative to the bar between a first position, in which the flexible element enters the handle assembly below the handle axis of the handle assembly to allow an exerciser to simultaneously perform supination and muscle flexing motions, and a second position in which the flexible element enters the handle assembly above the handle axis of the handle assembly to allow the exerciser to simultaneously perform pronation and muscle flexing motions.
11. A weightlifting apparatus for performing supination and flexing of biceps comprising:
a biceps flexing assembly operative to generate a counter-pulling force resistant to an exerciser-generated pulling force; and
a biceps supination assembly coupled to the biceps flexing assembly and operative to constantly and adjustably generate a counter-torque force in response to an exerciser-generated torque regardless of a direction in which the torque is applied, wherein the biceps flexing and supination assemblies are operable to generate the respective counter-pulling force and the counter-torque force simultaneously.
12. The apparatus of claim 11 , further comprising:
an elongated C-shaped bar operative to rotate about a longitudinal axis in response to the exerciser-generated pulling force and configured to support the biceps flexing and supination assemblies; and
a pair of spaced handle units coupled to and displaceable with the bar, the handle units each being operative to rotate about a handle axis extending transversely to the longitudinal axis to actuate the biceps supination assembly in response to the exerciser-generated torque.
13. The apparatus of claim 12 , wherein the biceps supination assembly is configured with:
a weight unit; and
a force transmitting unit coupled to the bar and operable to translate rotational motion of the handle assembly into linear motion of the weight unit.
14. The apparatus of claim 13 , wherein the force transmitting unit comprises:
a flexible element having opposite ends coupled to the weight unit and to the handle assembly, respectively;
a housing displaceably fixed to the bar;
a hollow element traversed by the flexible element and mounted in the housing so that the housing and hollow element are rotatable relative to one another;
a plurality of pulleys guiding the flexible element between the weight unit and the handle units and arranged so that opposite end regions of the flexible element are coupled to the respective handle units and an intermediate region of the flexible element is looped around a weight unit pulley displaceably fixed to the weight unit.
15. The apparatus of claim 14 , wherein the plurality of the pulleys includes:
a first pair of coaxial pulleys extending along an axis parallel to the longitudinal axis and spaced from the weight unit pulley to define a vertical stretch of the flexible element;
a second pair of spaced pulleys spaced substantially horizontally from the first pair of pulleys and rotatable about respective axes extending perpendicular to one another;
a third pair of pulleys rotatable about parallel axes and spaced from one another across the bar so that the axes of the third pair extend transversely to the axes of the first and second pairs of pulleys, wherein the third pair of pulleys are spaced vertically from the second pair of pulleys to define a further vertical stretch of each end region of the flexible element; and
a fourth pair of spaced pulleys rotatable about respective parallel axes parallel to the axes of the third pair of pulleys and spaced horizontally therefrom to define respective horizontal stretches of the flexible elements, each pulley of the fourth pair being mounted to the housing and juxtaposed with the handle unit so as to maintain a transition region of the flexible element defined between the housing and the handle unit in a constant plan providing vertical displacement of the weight unit during rotation of the handle units.
16. The apparatus of claim 15 , wherein the biceps flexing assembly comprises:
a weight unit;
a flexible element having one end displaceably fixed to the weight unit; and
a succession of spaced pulleys including a first pulley spaced upwards from the weight unit, a second pulley configured identical to the first pulley, and a third pulley configured to support the first pair of spaced pulleys of the supination assembly, the flexible element being trained over upper segments of the respective first and second pulleys and having an end opposite to the one end fixed to a lower segment of the downstream pulley so that the spaced pulleys rotate about respective axes parallel to one another in response to the exerciser-generated pulling force.
17. A weightlifting apparatus for performing pronation and flexing of triceps comprising:
a triceps flexing assembly operative to generate a counter-pulling force resistant to an exerciser-generated pushing force; and
a pronation assembly coupled to the triceps flexing assembly and operative to constantly and adjustably generate a counter-torque force in response to an exerciser-generated torque regardless of a direction in which the torque is applied, wherein the biceps flexing and supination assemblies are operable to simultaneously generate the respective counter-pulling force and the counter-torque force.
18. The apparatus of claim 17 , further comprising:
a frame provided with an elongated C-shaped bar operative to rotate about a longitudinal axis in response to the exerciser-generated pulling force and configured to support the triceps flexing and pronation assemblies; and
a pair of spaced handle units coupled to and displaceable with the bar, the handle units each being operative to rotate about a handle axis extending transversely to the longitudinal axis so as to actuate the pronation assembly in response to the exerciser-generated torque.
19. The apparatus of claim 18 , wherein the pronation assembly is configured with:
a weight unit; and
a force transmitting unit coupled to the bar and operable to translate rotational motion of the handle assembly into linear motion of the weight unit of the pronation assembly, the force transmitting unit comprises:
a flexible element having opposite ends coupled to the weight unit and to the handle assembly, respectively;
a housing displaceably fixed to the bar;
a hollow element traversed by the flexible element and mounted in the housing so that the housing and hollow element are rotatable relative to one another; and
a plurality of pulleys guiding the flexible element between the weight unit and the handle units and arranged so that opposite end regions of the flexible element are coupled to the respective handle units and an intermediate region of the flexible element supports the weight unit, the plurality of pulleys being rotatable to guide the flexible element so that the weight unit travels along a vertical path regardless of an angular position of the handle units.
20. The apparatus of claim 19 , wherein the biceps flexing assembly comprises:
a weight unit;
a flexible element having one end displaceably fixed to the weight unit; and
a succession of spaced pulleys including a first pulley spaced upwards from the weight unit, a second pulley configured identical to the first pulley, and a third pulley configured to support a pair of the plurality of pulleys of the pronation assembly, the flexible element being trained over an upper segment of the first pulley, a downstream segment of the second pulley and has an end opposite to the one end fixed to an upper segment of the third pulley.
Priority Applications (2)
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US12/636,347 US8047973B2 (en) | 2006-07-27 | 2009-12-11 | Weightlifting apparatus for pronation and supination exercises |
Applications Claiming Priority (1)
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US11/493,175 US20080026920A1 (en) | 2006-07-27 | 2006-07-27 | Weightlifting apparatus for pronation and supination exercises |
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