The present disclosure relates to a reformer exercise apparatus used in Pilates type exercise. In particular, it relates to a new lightweight foot bar that has a number of unique innovations.
Exercise machines utilized in the performance of physical exercises originated by Joseph Pilates typically are performed on a stationary apparatus called a reformer. An exemplary embodiment of such a reformer is disclosed in our U.S. Pat. No. 8,721,511 granted May 13, 2014 or one of its daughter patents, U.S. Pat. Nos. 8,915,829; 9,132,310; 9,132,311; and 9,289,645, the content of each of which is incorporated herein by reference in its entirety. One embodiment of this reformer is shown in
Reformer apparatus 400 has a generally rectangular frame 402 with a head end 404 and a foot end 406. The ends 404 and 406 are spaced apart by a pair of parallel rail members 408. A carriage 410 is movably supported on the rail members 408 for movement back and forth between the ends 404 and 406 of the frame 402. The head end 404 of the frame 402 preferably supports a removable pair of spaced upright arm cord support risers 412. These risers 412 direct arm cords 414 from the carriage 410 to cord end loops 416 or grips for a user's hands for use in various exercises. When not in use, the end loops 416 may be conveniently positioned on the shoulder stops 418.
A padded steel foot bar 411 is positioned near the foot end 406 of the frame 402. This foot bar 411 is carried by the rail members 408 and can be slid along the rail members 408 between a number of selected positions on the rail members 408 in order to accommodate users of different heights and provide support for different exercise regimens. In order to move the foot bar 411 between selected positions, the foot bar 411 must be lifted and rotated to a precise predetermined angular position over the frame 402 and then lowered into a pair of notches in the foot bar support structure as described in detail in any one of the above identified patents. The foot bar 411 is a heavy, rigid U shaped steel bar that has an overmolded polymeric cover to provide a padded surface to the foot bar 411 so as to be comfortable when a user pushes against the foot bar 411 to move the carriage 410 back and forth along the rail members 408 during exercise.
A separate perspective view of the foot bar 411 is shown in
The steel foot bar 411 weighs about 18 lbs., and its entire weight must be lifted in order for a user to change position of the foot bar 411. Thus a user has to exert a substantial lifting force on the foot bar 411 in order to evenly lift the foot bar 411 out of its existing position and rotate it to a new desired angular position. For many users, such a lifting force is awkward and difficult to generate and the user may have to sit up on the carriage, rather than lying on it, or stand adjacent or over the foot end of the frame 402 and lift the foot bar 411 straight up to rearrange its position. What is needed therefore is a lightweight foot bar structure that is easy to manipulate while still retaining the rigidity and strength necessary to provide a solid support structure for the user's feet during use.
A foot bar structure in accordance with the present disclosure addresses this need. One embodiment of a foot bar according the present disclosure includes an inverted U shape carbon fiber tube having ends each fixed to a foot bar support member. Each foot bar support member has a cylindrical base, a cylindrical post welded to the base, and a foot bar support arm welded to one end of the cylindrical base.
A reformer in accordance with the present disclosure may be viewed as a generally rectangular frame having a pair of parallel spaced side rail portions, a head end portion, and a foot end portion. The reformer includes a movable carriage supported by the side rail portions for movement of the carriage between the head and foot end portions, and a bias member connected between the carriage and the foot end portion of the frame for biasing the carriage toward the foot end of the frame.
The reformer has a foot support member supported by the side rail portions of the frame, wherein the foot support member has an inverted U shape carbon fiber tube having ends each fixed to a foot bar support member having a cylindrical base, a cylindrical post welded to the base, and a foot bar support arm welded to one end of the cylindrical base.
A reformer exercise apparatus in accordance with the present disclosure includes a generally rectangular frame having a pair of parallel spaced side rail portions, a head end portion, and a foot end portion, a movable carriage supported by the side rail portions for movement of the carriage between the head and foot end portions, a bias member connected between the carriage and the foot end portion of the frame for biasing the carriage toward the foot end of the frame, and a foot support member supported by the side rail portions of the frame. The foot support member has an inverted U shape carbon fiber tube having ends each fixed to a foot bar support member. This foot bar support member has a cylindrical base, a cylindrical post welded to the base, and a foot bar support arm welded to one end of the cylindrical base. Each end of the carbon fiber tube is telescopically received over one of the cylindrical posts of one of the foot bar support members and adhesively bonded thereto. Each cylindrical post includes a plurality of spaced annular grooves around the post. Each cylindrical post is preferably tubular. The foot bar support member preferably includes a tubular cushion over the carbon fiber tube and a zippered fabric cover over the tubular cushion over the carbon fiber tube.
An embodiment in accordance with the present disclosure may alternatively be viewed as a foot support member for use in a reformer exercise apparatus that includes a generally rectangular frame having a pair of parallel spaced side rail portions, a head end portion, and a foot end portion, and a movable carriage supported by the side rail portions for movement of the carriage between the head and foot end portions. The foot support member has a pair of foot bar support members movably attached to the side rail portions of the frame and an inverted U shape carbon fiber tube having opposite ends each telescopically received over and fixed to a cylindrical post of one of the pair of foot bar support members welded to a base of the foot bar support member. The carbon fiber tube has a foot support portion extending at a right angle to and between a pair of parallel leg portions extending between the foot support portion and the ends.
An embodiment according to the present disclosure may alternatively be viewed a reformer exercise apparatus including a generally rectangular frame having a pair of parallel spaced side rail portions, a head end portion, and a foot end portion, a movable carriage supported by the side rail portions for movement of the carriage between the head and foot end portions, a bias member connected between the carriage and the foot end portion of the frame for biasing the carriage toward the foot end of the frame. A foot support member is supported by the side rail portions of the frame. The foot support member has a pair of foot bar support members movably attached to the side rail portions of the frame and an inverted U shape carbon fiber tube having opposite ends each telescopically received over and fixed to a cylindrical post of one of the pair of foot bar support members welded to a base of the foot bar support member. The U shaped carbon fiber tube has a foot support portion extending at a right angle to and between a pair of parallel leg portions extending between the foot support portion and the ends. The foot support member preferably includes a tubular cushion over the carbon fiber tube and a zippered fabric cover over the tubular cushion over the carbon fiber tube.
An exploded perspective view of one exemplary embodiment of a lightweight foot bar 100 in accordance with the present disclosure is shown in
Each foot bar support member 108a and 108b is a single unitary steel body which has a short cylindrical base 110 having a cylindrical outer side and opposite ends, a tubular spud or post 112 welded into a radial bore in the cylindrical side of the cylindrical base 110 so as to extend radially from the base 110, and an elongated flat plate foot bar support arm 114 having one end welded at a right angle to one end of the cylindrical base 110 so that the support arm 114 extends parallel to the post 112. The other end of the elongated flat plate foot bar support arm 114 has an engaging pin 116 projecting out from the foot bar support arm 114 at a right angle to the arm 114 away from the post 112 for engaging a feature in a hook plate (not shown) in the foot support assembly described in detail in each of the patents mentioned above. The support arm 114 on member 108a is oriented in one direction on the base 110. The support arm 114 on member 108b is reversed as is shown in
The carbon fiber foot bar tube 102 has an inner diameter of about 1.07 inch and an outer diameter of about 1.25 inch, thus having a wall thickness of about 0.125 inch. The spud post 112 in this exemplary embodiment projects from the cylindrical base 110 about 3.6 inches and includes a series of axially spaced annular grooves 115 in its outer surface to facilitate distribution of epoxy adhesive. The post 112 may be a solid cylindrical body or may be tubular as shown and has an outer diameter preferably about 1.04 inch.
The distal end of the leg portion 106 of carbon fiber foot bar tube 102 is sized to telescopically fit over the post 112 of one of foot bar support members 108a and 108b and is secured thereto via an epoxy adhesive. Similarly, the distal end of the other leg portion 106 of the foot bar tube 102 is telescopically slipped over the other post 112 of the other foot bar support member 108a or 108b and bonded thereto with the epoxy adhesive.
Prior to joinder of the tube 102 to the foot bar support members 108a and 108b, a closed cell polymeric foam sleeve is slipped over the foot bar tube 102 which provides about a ⅜ inch thick cushion around the tube 102. Finally, after bonding the foot bar support members to the foot bar tube 102, a vinyl fabric zippered cover 118 is preferably wrapped around the sleeve covered foot bar tube 102 and zipped closed to complete the assembly of the foot bar 100 as is shown in
Many changes may be made to the foot bar of this disclosure. For example, the cushion sleeve may be dimensioned other than as above described and the vinyl fabric cover may be different than that shown in
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