Patent Grant
11065495
The present disclosure is directed to exercise equipment and more particularly to an anchor bar and carriage stop assembly for use in a reformer exercise apparatus.
Joseph H. Pilates, in U.S. Pat. No. 1,621,477, originally developed the concept of using a wheeled platform carriage connected to a resistance device such as a set of weights in conjunction with a stationary frame to provide a variable resistance against which a user could push with his/her feet or pull with the arms while in a sitting or recumbent position in order to exercise the major muscle groups of the user's trunk, legs and/or arms. Since that time many changes and improvements in the design of such an apparatus were developed by Joseph Pilates, and more recently, have been evolved by his students and others. One current apparatus is commonly referred to as a “reformer” which includes a wheeled platform carriage which rides on parallel rails or tracks on or forming part of a rectangular wooden or metal frame. The carriage is connected to a series of parallel springs or elastic members which are in turn connected to a foot end of the rectangular frame. My U.S. Pat. Nos. 6,120,425, 7,163,500 and 7,288,053 reflect some of the evolutionary developments that have taken place since 1927.
These patents disclose anchor bar and carriage stop assemblies that maintain a constant minimum distance between the carriage and the spring anchor bar while a user adjusts the distance between the anchor bar and the foot end of the reformer frame. Each of these assemblies involves the use of a number of separate component parts each of which adds to the cost of manufacture. Therefore there is a need for a simplified structure that can be utilized in a reformer exercise apparatus to maintain a predetermined minimum distance between the carriage and the anchor bar while changing the anchor bar position from the end of the reformer frame.
An embodiment of an apparatus in accordance with the present disclosure may be utilized in a reformer exercise apparatus that includes a frame having a head end, a foot end and two spaced parallel side members, a movable carriage mounted to the side members for movement between the head end and foot end of the frame, and one or more resilient biasing members each having one end fastened between the carriage and the foot end of the frame. An anchor bar and carriage stop assembly is fastened to the side members adjacent the foot end. This assembly includes a pair of anchor bar support brackets each fastened to one of the side members adjacent the foot end of the frame. Each bracket has a plurality of spaced apart upright curved slots therein that open and curve downward from a top side of the bracket to a closed end adjacent the bottom edge of the bracket. An elongated anchor bar plate member having opposite ends, commonly referred to as a “springbar” is adapted to be carried in a matching pair of the slots in the support brackets in order to secure one or more of the resilient biasing members to the foot end of the frame.
The anchor bar plate member is an elongated sheet metal body that has opposing ends and has a flat planar portion in a longitudinal direction spanning between the ends. The planar portion merges with a first curved straight portion spanning between the opposing ends. This first curved portion is shaped complementary to the upright curved slots in the support brackets. The plate member carries one or more carriage stops projecting outward from the planar portion for engaging the carriage to maintain a predetermined minimum distance between the carriage and the anchor bar plate member when the plate member is positioned in or moved between different matching pairs of the slots in the support brackets.
The anchor plate member preferably has a central cutout forming a plurality of spaced apart upwardly protruding anchor tabs each for receiving and holding a free end of one of the resilient biasing members. The anchor plate member also has a second curved straight portion merging with the first curved portion. This second curved straight portion curves in an opposite direction from the first curved portion and provides rigidity to the structure of the anchor plate member.
An exemplary embodiment of an apparatus in accordance with the present disclosure may also be viewed as an apparatus for fastening one or more resilient biasing members extending from a movable carriage to an anchor bar located at one of a plurality of different anchor positions spaced from a foot end of a reformer frame while maintaining a common predetermined minimum distance between the carriage mounted on the reformer frame and the anchor position. One embodiment incudes a pair of anchor bar support brackets each fastened to one of a pair of parallel side members of the frame adjacent the foot end of the frame. Each bracket has a plurality of linearly spaced apart upright curved open slots. Each slot corresponds to an anchor position spaced from the foot end of the frame.
An elongated anchor bar plate member having a longitudinal axis and opposite ends is adapted to be carried in a matching pair of the slots in the support brackets. This plate member has a planar portion extending straight along an axis spanning between the ends of the member and has a first curved portion parallel to the axis and also spanning between the ends. The first curved portion is shaped complementary to the upright curved open slots in the support brackets. A pair of carriage stops project outward from the straight portion of the anchor bar plate member for engaging the carriage to maintain a common predetermined minimum distance between the carriage and the anchor bar plate member when the plate member is positioned in any matching pair of slots in the support brackets.
An exemplary embodiment in accordance with the present disclosure may alternatively be viewed as a coil spring anchor bar and carriage stop for use in a reformer exercise apparatus having a rectangular frame and a movable carriage mounted for reciprocal movement on the frame to fasten ends of one or more coil springs extending from the movable carriage to a location near a foot end of the reformer frame. This anchor bar and carriage stop incudes an elongated metal plate having a first longitudinally straight portion extending between first and second ends, a second longitudinally straight portion curved in a first direction and extending between and forming part of the first and second ends, and a third portion that is curved and which between the first and second ends is curved in a direction opposite the first direction. The plate has a cutout within the straight and first curved portions that defines a plurality of spaced spring anchor projections or tabs. Preferably the spring anchor projections each has a stem portion and a mushroom head portion extending upward from the stem portion into the cutout.
A pair of spaced apart carriage stops extend orthogonally outward from the straight portion for engaging the movable carriage to maintain a predetermined minimum distance between the anchor bar and the carriage when the anchor bar and carriage stop is supported from the foot end of the reformer frame in corresponding bracket slots.
Each carriage stop in an exemplary embodiment is a cylindrical body fastened to one of the first and second ends of the straight portion of the elongated metal plate. Each of the carriage stops preferably includes a cushion to absorb impact with the carriage. Further, the distal end of each carriage stop preferably includes a transverse notch to receive and engage a corresponding feature on the reformer carriage. Preferably this feature may be a part of the carriage frame.
The first curved portion of the plate is preferably curved on a radius forming an axis parallel to the longitudinally straight portion of the plate and which axis preferably passes through the notches formed in the distal ends of the carriage stops. The second curved portion is curved about a second axis spaced from and parallel to the longitudinally straight portion of the plate. The third curved portion is curved about a third axis parallel to and spaced from both the longitudinal straight portion and the second axis.
Further features, advantages and characteristics of the embodiments of this disclosure will be apparent from reading the following detailed description when taken in conjunction with the drawing figures.
An exemplary embodiment of a reformer exercise apparatus 100 incorporating an anchor bar and carriage stop assembly 110 in accordance with the present disclosure is shown in a perspective view of a foot end 104 of the reformer 100 in
The anchor bar and carriage stop assembly 110 is fastened to the side members 106 and includes a pair of anchor bar support brackets 112. A separate perspective view of an exemplary bracket 112 is shown in
This support bracket 112 is preferably either an extruded aluminum or polymer elongated block shaped body separated into four contiguous segments 113 by three vertically open curved slots 114 that open through a top side 118 of the bracket 112. Each slot 114 has a closed bottom end adjacent a bottom side 119 of the bracket 112 such that the bracket 112 is a one-piece structure. Each of the segments 113 along the top side 118 is slightly slanted downward by several degrees toward the bottom side 119 rather than being parallel to the bottom side 119. This structure permits the upper side 118 to provide a resting guide point for the carriage stop 130 as is shown in
The anchor bar plate member 120 is an elongated generally straight sheet metal plate having a longitudinal axis and opposite ends 122 adapted to be carried in a pair of the slots 114 in the support brackets 112. This plate member 120 has a straight planar portion 124 that extends along the longitudinal axis of the plate member 120 spanning between and including ends 122. The plate member 120 also has a longitudinally straight first curved portion 126 that extends parallel to the axis 140 between the ends 122. The curved portion 126 at each end 122 is shaped complementary to and slips into the curved slot 114 in each of the support brackets 112. The planar portion 124 at each end 122 of the plate member 120 extends above the brackets 112 when the plate member 120 is fully inserted into one matched pair of slots 114 as is shown in
Extending orthogonally outward from each end 122 of the plate member 120 is a carriage stop 130. The carriage stop 130 preferably is fastened to the end 122 of the plate member 120 and includes a resilient stopper cushion 136 at its distal end for contacting a portion of the carriage 108. This cushion 136 may include a groove 138 for engaging a part of the carriage 108, such as a carriage frame member, such that the anchor bar plate member 120 can rotate about the engaging groove as will be further described below. The carriage stop 130 and the cushion 136 are preferably cylindrical in shape, and separately fastened, riveted, or otherwise bonded to the plate member 120. However, other shapes of carriage stop 130 are envisioned such as rectangular, a sheet metal L strip, or the stop 130 may be integrally formed from an elongated bent end portion of the plate member 120, bent so as to extend orthogonally to the straight portion 124.
The anchor bar plate member 120 preferably has an elongated central cutout 128 that forms a plurality of spaced apart anchor tabs 132, each for receiving and holding a free end of one of the resilient biasing members such as coil spring 107 shown in
The anchor bar and carriage stop 110 including plate member 120 with carriage stops 130 with cushions 136 is a single structure separately shown in
When the anchor bar and carriage stop 110, including plate member 120 with the two carriage stops 130 and cushions 136, is fastened to the carriage 108 via a biasing member (spring) 107, the carriage stop cushions 136 engage the carriage 108. The anchor bar plate member 120 and carriage stops 130 can be raised by a user lifting the stop 110 up and out of the bracket slots 114. When so raised, the anchor bar plate member 120 and carriage stops 130 will move together along with the carriage 108 as it rolls along the tracks 116 in the reformer frame 102. If the user then releases the anchor bar plate member 120 while the plate member 120 is riding along the top 118 of one of the segments 113, when a matching pair of slots 114 is encountered, the plate member 120 will simply drop into the slots 114 as is shown in
This movement is also shown in
Many changes may be made to the apparatus, which will become apparent to a reader of this disclosure. For example, instead of cylindrical carriage stops attached to the ends 122 of the straight portion 124 of the plate member 120, the ends 122 may be further elongated and bent at right angle to the longitudinal axis of the plate member 120 so as to project orthogonally to the plate 120 and form the carriage stop 130. An additional extension may be formed at the end of the end 122 to engage the corresponding feature on the carriage 108 rather than the grooved cushion 136 shown. All such changes, alternatives and equivalents in accordance with the features and benefits described herein, are within the scope of the present disclosure. Any or all of such changes and alternatives may be introduced without departing from the spirit and broad scope of my disclosure and invention as defined by the claims below and their equivalents.
This application claims the benefit of priority of U.S. Provisional Patent Application Ser. No. 62/331,360, filed May 3, 2016 entitled Spring Anchor Bar And Carriage Stop Assembly, the content of which is hereby incorporated by reference in its entirety.
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|---|---|---|---|
| 1621477 | Pilates | Aug 1925 | A |
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| 10046193 | Aronson | Aug 2018 | B1 |
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| Number | Date | Country | |
|---|---|---|---|
| 62331360 | May 2016 | US |
