Exercise apparatus generally include a frame and a user support configured and arranged to support a user for performing various exercises such as inversion and core training (e.g., hip supported inversion, back extensions, dips, abdominal crunches, bicep curls, stretches, etc.). An example of a known exercise apparatus is the DEX II inversion and core training system by TEETER of Bonney Lake, Washington. This exercise apparatus can be used as an inversion apparatus by pivoting from an upright position into an inverted position and, to pivot back into the upright position, the user can push on the cane-shaped handles to “walk” back into the upright position. While inverted, the user can push on the traction handles to attain a deeper decompressive stretch. The user can also use the handles for various core training exercises. Such exercise apparatus can take up valuable space and, therefore, it is desirable to reconfigure the apparatus into a more compact configuration so that it can be slid under a bed, couch, or the like for storage during nonuse.
For the reasons stated above and for other reasons stated below, which will become apparent to those skilled in the art upon reading and understanding the present specification, there is a need in the art for exercise apparatus and methods of storing same.
The above-mentioned problems associated with prior devices are addressed by embodiments of the disclosure and will be understood by reading and understanding the present specification. The following summary is made by way of example and not by way of limitation. It is merely provided to aid in understanding some of the aspects of the invention.
In one embodiment, a method of storing an exercise apparatus by moving the exercise apparatus from an apparatus use position into an apparatus storage position comprises releasing a mast relative to a frame and moving the mast from an upward, mast use position to a downward, mast storage position proximate the frame positioned on a support surface.
In one embodiment, a method of storing an exercise apparatus by moving the exercise apparatus from a use position into a storage position comprises releasing a mast relative to a frame and moving the mast from an upward, mast use position to a downward, mast storage position proximate the frame positioned on a support surface; releasing a post relative to the mast from a post use position to a post storage position; and releasing a handle relative to the frame and moving the handle from a handle use position to a handle storage position proximate the frame.
The accompanying drawings are included to provide a further understanding of embodiments and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments and together with the description serve to explain principles of embodiments. Other embodiments and many of the intended advantages of embodiments will be readily appreciated as they become better understood by reference to the following detailed description. In accordance with common practice, the various described features are not drawn to scale but are drawn to emphasize specific features relevant to the present disclosure. Reference characters denote like elements throughout the Figures and the text.
In the following detailed description, reference is made to the accompanying drawings, which form a part hereof, and in which is shown by way of illustration embodiments in which the disclosure may be practiced. In this regard, directional terminology, such as “top,” “bottom,” “front,” “back,” “leading,” “trailing,” etc., is used with reference to the orientation of the Figure(s) being described. Because components of embodiments can be positioned in a number of different orientations, the directional terminology is used for purposes of illustration and is in no way limiting. It is to be understood that other embodiments may be utilized and structural or logical changes may be made without departing from the scope of the present invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined by the appended claims.
It is to be understood that other embodiments may be utilized and mechanical changes may be made without departing from the spirit and scope of the present disclosure. The following detailed description is, therefore, not to be taken in a limiting sense.
Embodiments of the disclosure generally provide an exercise apparatus configured and arranged to be easily reconfigured between a use position and a storage position for storage, for example under a bed, a couch, etc. For example, one or more frame components can be reconfigured (e.g., pivot downward) from a use position into a more compact configuration proximate a support surface, such as a floor, for storage. In one example, a method of storing an exercise apparatus by moving the exercise apparatus from an apparatus use position into an apparatus storage position comprises releasing a mast relative to a frame and moving the mast from an upward, mast use position to a downward, mast storage position proximate the frame positioned on a support surface. The method can also include releasing a post relative to the mast from a post use position to a post storage position, and/or releasing a handle relative to the frame and moving the handle from a handle use position to a handle storage position proximate the frame.
In one embodiment, illustrated in
The frame also includes handles 120 and 140 connected to respective legs 104 and 112, a mast 168 connected to the support 375 and the platform 160, user supports (lap pad assembly 176 and bolster pad assembly 199) connected to the mast 168, and a handle assembly 181 connected to the lap pad assembly 176.
A first cane-shaped handle 120 is connected to the first leg 104 with a connector assembly 127. The first handle 120 includes a proximal end 121 through which bores 122 and 123 extend. Bore 123 is configured and arranged to receive a detent assembly (not shown) that preferably partially extends outward from an outer-facing side of the first handle 120. A handle grip 125 is connected to a distal end 124 of the first handle 120. The connector assembly 127 includes a bracket 128, which is generally U-shaped to form a cavity 133 and includes an outer side 129 with bores 129a and 129b and notches 130a and 130b and an inner side 131 with bores 131a and 131b and notches 132a and 132b. The proximal end 121 of the first handle 120 is received within the cavity 133. A derattler assembly 135 includes a threaded fastener 136 that extends through the bores 129a, 122, and 131a to pivotally connect the first handle 120 to the bracket 128, and a knob 137 includes a threaded receiver 138 that threadably mates with the threaded fastener 136 to secure the threaded fastener 136 to the bracket 128 and the first handle 120. Preferably, the bracket 128 is configured and arranged to deflect so that, as the knob 137 is tightened, the bracket 128 tightens against the first handle 120 to reduce rattling. Optionally, a bushing 328 can be used between the bracket 128 and the first handle 120 to reduce wear on the first handle 120 when the knob 137 is loosened and increase friction on the first handle 120 when the knob 137 is tightened. The bushing 328, which is also generally U-shaped to form a cavity 333 in which the proximal end 121 of the first handle 120 is received, includes an outer side 329 with a bore 329a and an inner side 331 with a bore 331a corresponding to those of the bracket 128. The bushing 328 can also include notches 332a and 332b corresponding with those of the bracket 128. The detent assembly selectively engages the notch 130a to position the first handle 120 in a use position or selectively engages the notch 130b to position the first handle 120 in a storage position. A fastener extends through the bores 129b, 107, and 131b to connect the bracket to the first leg 104.
A second cane-shaped handle 140 is connected to the second leg 112 with a connector assembly 147. The second handle 140 includes a proximal end 141 through which bores 142 and 143 extend. Bore 143 is configured and arranged to receive a detent assembly 143a that preferably partially extends outward from an outer-facing side of the second handle 140. A handle grip 145 is connected to a distal end 144 of the second handle 140. The connector assembly 147 includes a bracket 148, which is generally U-shaped to form a cavity 153 and includes an outer side 149 with bores 149a and 149b and notches 150a and 150b and an inner side 151 with bores 151a and 151b and notches 152a and 152b. The proximal end 141 of the second handle 140 is received within the cavity 153. A derattler assembly 155 includes a threaded fastener 156 that extends through the bores 149a, 142, and 151a to pivotally connect the second handle 140 to the bracket 148, and a knob 157 includes a threaded receiver 158 that threadably mates with the threaded fastener 156 to secure the threaded fastener 156 to the bracket 148 and the second handle 140. Preferably, the bracket 148 is configured and arranged to deflect so that, as the knob 157 is tightened, the bracket 148 tightens against the second handle 140 to reduce rattling. Optionally, a bushing 348 can be used between the bracket 148 and the second handle 140 to reduce wear on the second handle 140 when the knob 157 is loosened and increase friction on the second handle 140 when the knob 157 is tightened. The bushing 348, which is also generally U-shaped to form a cavity 353 in which the proximal end 141 of the second handle 140 is received, includes an outer side 349 with a bore 349a and an inner side 351 with a bore 351a corresponding to those of the bracket 148. The bushing 348 can also include notches corresponding with those of the bracket 148. The detent assembly 143a selectively engages the notch 150a to position the second handle 140 in a use position or selectively engages the notch 150b to position the second handle 140 in a storage position. A fastener extends through the bores 149b, 115, and 151b to connect the bracket to the second leg 112.
The platform 160 is configured and arranged to support a user's feet and is preferably reinforced by a support 375 interconnecting legs 120 and 140. Bracket 161 interconnects the support 375 and the mast 168. The bracket 161 is generally U-shaped and includes a first side 162 with aperture 163 and a second side 164 with aperture 165. The sides 162 and 164 form a cavity 166 therebetween configured and arranged to receive the mast 168. Optionally, a bushing 361 can be positioned within the cavity 166. The bushing 361 is generally U-shaped and includes a first side 362 with aperture 363, which aligns with aperture 163, and a second side 364 with aperture 365, which aligns with aperture 165. The sides 362 and 364 form a cavity 366 therebetween configured and arranged to receive the mast 168. A plate 368 is positioned between the sides 162 and 164, and is preferably welded to the sides 162 and 164, and includes an aperture 369. A spring plunger 370 is operatively connected to the plate 368 and a spring-biased shaft 371 of the spring plunger 370 extends through the aperture 369.
The mast 168 preferably includes a base portion 168a and an extension portion 168c. Optionally, a bushing portion 168b can be used. The bushing portion 168b is inserted into a bore 174 of the base portion 168a proximate the base portion's distal end 172 and assists the extension portion 168c in moving within the bore 174 relative to the base portion 168a. The proximal end 169 of the base portion 168a includes a slot 170 extending through opposing sides that align with the apertures 163, 363, 365, and 165 and a fastener 170a extends therethrough to connect the base portion 168a to the bracket 161 and optional bushing 361.
The proximal end 169 also includes an aperture 175 in a rear side interconnecting the opposing sides including the slot 170. The aperture 175 is configured and arranged to selectively receive the shaft 371 of the spring plunger 370. An intermediate portion 171 of the base portion 168a includes an aperture 173 in the rear side proximate the distal end 172. The aperture 173 is configured and arranged to receive a shaft of an adjuster knob 374, which extends therethrough to selectively extend through a desired aperture of the extension portion 168c.
A lap pad assembly 176 is operatively connected to the extension portion 168c, a handle bar 182, and a post 186. The lap pad assembly 176 includes opposing notches 177 and 178 through which portions of the handle bar 182 extend, and a bracket assembly 181 interconnects the lap pad assembly 176 and the handle bar 182. Distal ends of the handle bar 182 include grips 183 and 184. A bottom of the lap pad assembly 176 includes a notch 179 through which the mast 168 extends. A bracket assembly 180 is operatively connected to the lap pad assembly 176 and a shaft 180a pivotally interconnects the bracket assembly 180 and the distal end of the extension portion 168c.
A bracket 188 is operatively connected, preferably by welding, to the bracket assembly 180. The bracket 188 includes opposing sides forming a cavity therebetween, and the sides form a bore 191 proximate their distal ends and a bore 189 proximate their proximal ends. A post 186 includes a first portion 186a positioned within the cavity and operatively connected to the bracket 188. A proximal end 187 of the first portion 186a includes a slot 186c, which aligns with bore 191, and an aperture 186e, which selectively aligns with bore 189. A fastener 192 extends through the bore 191 and the slot 186c, slidably interconnecting the first portion 186a to the bracket 188, and a spring plunger 190 is operatively connected to the bracket 188 and includes a shaft configured and arranged to extend through the bore 189 and selectively extend through the aperture 186e to secure the first portion 186a to the bracket 188.
The first portion 186a includes a plurality of apertures 198 on a bottom side proximate its distal end 197. The post 186 also includes a second portion 186b configured and arranged to receive and slide relative to the first portion 186a. A bottom side of the second portion 186b includes an aperture 186d, and a knob 195 includes a shaft configured and arranged to extend through the aperture 186d and a desired one of the apertures 198 to secure the second portion 186b in a desired position relative to the first portion 186a. A bolster pad assembly 199 is operatively connected to the second portion 186b.
In use, the first and second cane-shaped handles 120 and 140 are preferably positioned so that the detent assemblies are positioned within notches 130a and 150a, the mast 168 is positioned so that the spring plunger 370 extends through the aperture 175, and the first portion 186a is positioned so that the spring plunger 190 extends through the aperture 186e. The user may perform a variety of exercises, including inversion by pivoting the lap pad assembly 176 about the shaft 180a relative to the mast 168.
To position the exercise apparatus 100 from a use position 401 into a storage position 403, a first connector assembly 405 is moved from a secure position 406 into a release position 407. In this embodiment, the first connector assembly 405 includes the shaft 371 of the spring plunger 370 extending through the aperture 369 of the plate 368 and selectively extending through the aperture 175 of the mast 168. As illustrated in
A second connector assembly 415 is moved from a secure position 416 into a release position 417. In this embodiment, the second connector assembly 415 includes the shaft (not shown) of the spring plunger 190 extending through the aperture 189 of the bracket 188 and selectively extending through the aperture 186e of the first post portion 186a. As illustrated in FIGS.
A third connector assembly 425 is moved from a secure position 426 into a release position 427. In this embodiment, the third connector assembly 425 includes a detent assembly operatively connected to each cane-shaped handle 120 and 140 selectively extending through notches 130a or 130b and 150a or 150b in the brackets 128 and 148. As illustrated in
To position the exercise apparatus 100 from the storage position 403 into the use position 401, the detent assembly 143a is pushed inward, out of notch 150b, so that the handle 140 can be pivoted upward, and then the detent assembly 143a is spring biased to extend through notch 150a. The handle 120 is similarly moved. The post 186 is pivoted upward and then pushed downward so that the shaft of the spring plunger 190 extends into the slot 186c. The mast 168 is pivoted upward and then pushed downward so that the shaft 371 of the spring plunger 370 extends into the aperture 175.
It is recognized that the connector assemblies can be any suitable connector assemblies and can be repositioned between the secure positions and the release positions in any order.
Although specific embodiments have been illustrated and described herein, it will be appreciated by those of ordinary skill in the art that a variety of alternate and/or equivalent implementations may be substituted for the specific embodiments shown and described without departing from the scope of the present invention. This application is intended to cover any adaptations or variations of the specific embodiments discussed herein. Therefore, it is intended that this invention be limited only by the claims and the equivalents thereof.
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Entry |
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Teeter, Dex II Decompression & Extension Assembly & Use Instructions, 16 pages, 2021. |
Number | Date | Country | |
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20230398424 A1 | Dec 2023 | US |