This disclosure relates to exercise equipment and, more particularly, to a resistive pull assembly for resisting movement of a rope, belt, or some other length of material.
Individuals perform various exercises for the purpose of developing and training their bodies. Exercises can be performed using free weights, such as barbells, or with machines providing resistance. Many individuals prefer machines that provide a natural motion while utilizing body leverage in performing the exercise. This facilitates isolation of particular parts of the individual's body. Adjusting the resistance of such machines is often complicated.
An example resistive pull exercise device includes a support housing having a first passageway and an opposing, second passageway, and a tension member to selectively impart a resistive force to a length of material spanning the first and second passageways.
Another example resistive pull exercise device includes a first plate, a second plate spaced from the first plate to define an interior space therebetween, a plurality of first rollers establishing a perimeter of a first passageway from outside the interior space to the interior space, a plurality of second rollers establishing a perimeter of a second passageway from outside the interior space to the interior space, the first and second passageways positioned along an axis, a length of material having a portion extending through the interior space from the first passageway to the second passageway, and a tension member adjustably mounted to at least one of the first and second plate and contacting a portion of the length of material to move the portion away from the axis.
An example method of resisting movement of a length of material in a resistive pull device, where the length of material extends between a first and second passageway in a support housing, includes increasing a curvature of the length of material to increase the resistive force, and decreasing the curvature of the length of material to decrease the resistive force.
The various features and advantages of this disclosure will become apparent to those skilled in the art from the following detailed description of an example embodiment. The drawings that accompany the detailed description can be briefly described as follows:
Referring to
The frame rack 12 includes multiple openings 16 along an upright frame member 18, which receives the rope pull assembly 14. The rope pull assembly 14 is received into selected openings 16 so that the rope pull assembly 14 may be located at various positions along the upright frame member 18. Each opening 16 is separated from the next by approximately four inches to provide significant incremental adjustment, however, any separation will be usable with the present invention.
Referring to
Each opening 16a, 16b is generally L-shaped and spans the intersection of the front face 20 and one of the side faces 22, 24. In this non-limiting embodiment, the first opening 16a spans the front face 20 and the side face 22, and the second opening 16b spans the front face 20 and the side face 24. In other words, each opening 16 cuts through the corner of the upright frame member 18.
The first opening portion 16′ in the front face 20 generally transverse to the longitudinal axis A along a transverse opening axis T and a second opening portion 16″ through the respective side face 22, 24 generally parallel to the longitudinal axis A along a parallel opening axis P. In this non-limiting embodiment, the first opening portion 16′ of the opening 16a extends through the front face 20 generally transverse to the longitudinal axis A along the transverse opening axis T. A second first opening portion 16″ of the opening 16a extends through the first side face 22 generally parallel to the longitudinal axis A along the parallel axis P. The second opening 16b defines the first second opening portion 16′ through the front face 20 generally transverse to the longitudinal axis A along the transverse opening axis T. A second second opening portion 16″ of the second opening 16b extends through the second side face 24 generally parallel to the longitudinal axis A along the parallel axis P. That is, the portions 16′ of the openings 16a and 16b are generally perpendicular and portions 16′ are generally parallel if laid flat (
The openings 16 are arranged in horizontally opposed pairs of openings 16a, 16b perpendicular to the longitudinal axis A. That is, each pair of openings 16 includes a first opening 16a located through the front face 20 and the first side face 22 and a second opening 16b located through the front face 20 and the second side face 24 such that the openings 16a, 16b are aligned when viewed from one of the side faces 22, 24.
A lock opening 26 is located through the front face 20 between each vertically separated pair of openings 16a, 16b. Each lock opening 26 is displaced parallel to the longitudinal axis A and is generally square in shape. It should be understood that other shapes will also be readily usable with the example embodiment. The example lock opening 26 is longitudinally staggered above each pair of openings 16a, 16b.
Referring to
An attachment support 40 includes a first attachment plate 42 opposed to and generally parallel with a second attachment plate 44. The first attachment plate 42 and the second attachment plate 44 extend from the main support 30 to form a U-shaped opening for accepting a support housing 54. The first attachment plate 42 and the second attachment plate 44 include corresponding pivot openings 46 for pivotably attaching a post 60 that extends from the support housing 54 to the attachment support 40. A removable pivot pin 52 extends through pivot openings 46 on the first and second attachment plates 42, 44 and through two of the post pivot openings 61 on the post 60 to pivotably connect the support housing 54 to the attachment support 40. The support housing 54 is locked in a fixed rotational position relative to the attachment support 40 by a support pin 50 that extends through a pair of adjustment openings 48a, 48b, 48c, 48d located on the first and second attachment plates 42, 44 and two of the post pivot openings 63 on the post 60.
The support housing 54 includes a first housing member 56 and a second housing member 58, which together form halves of the support housing 54. The support housing 54 includes a tension member 62, or tension member, for controlling the force required to pull a rope 28 or belt through the support housing 54 by a user. The rope 28 or belt may be a continuous loop, or may terminate at distinct ends as shown.
The example tension member 62 includes a handle 64 fixedly attached to a rotatable threaded shaft 66 that extends from a tension member 68 to a guide member 72. The guide member 72 extends from the second housing member 58 to support the rotatable threaded shaft 66. The threads on the rotatable threaded shaft 66 engage the tension member 68 but moves freely relative to the guide member 72.
A first end of a spring 70 engages the tension member 68 and a second end of the spring 70 engages the guide member 72 to provide a separation force between the tension member 68 and the guide member 72. The spring 70 provides a biasing force that moves the tension member 68 away from contact with the rope 28. Although the example tension 62 includes a single threaded rotatable shaft 66, a second threaded rotatable shaft could be located on the opposite side of the support housing 54 or a clamp mechanism could be used.
A length of material M of the rope 28 extends through the support housing 54 in a serpentine or curved manner through a pair of rope passageways 78 on opposing sides of the support housing 54 and between the tension member 68 and the guide member 72. The pair of rope passageways 78 are positioned along an axis. The length of material M is considered the portion of the rope 28 within an interior of the support housing 54.
Because the length of material M is curved or serpentine, the length of material M may be considered to be displaced relative to the axis. The tension member 68 moves in a direction that is generally perpendicular to the axis in this example to selectively increase or decrease the curvature, which increase or decreases the resistive force.
Each of the pair of rope passageways 78 includes a first pair of rollers 80 that are generally transverse to a second pair of rollers 82. The first and second pair of rollers 80, 82 decrease the chance of the rope 28 snagging or fraying while passing through the support housing 54. The tension member 68 in this example does not roll relative to the first or second housing member 56, 58, but is fixed in order to provide increased resistance for pulling the rope 28 through the support housing 54. The tension member 68 may roll in some examples and still provide increased resistance.
The tension member 68 is generally positioned to contact a side of the rope 28 to deflect the rope 28 into the serpentine orientation as it passes through the support housing 54 to increase the force necessary to pass the rope through the support housing 54. The example tension member 68 contacts the length of material at a position that is approximately equidistant from the pair of rope passageways 78.
The amount of force needed to pull the rope 28 through the support housing 54 can be varied by repositioning the tension member 68. As the handle 64 on the tension member 62 is rotated in a first direction, the tension member 68 moves in a first direction through grooves 74, 75 located on the first and second housing members 56, 58, respectively, to increase the force required to pull the rope 28 through the support housing 54 by increasing the friction and deflection experienced by the rope 28. As the handle 64 is rotated in a second direction, the tension member 68 moves in a second direction opposite the first direction through grooves 74, 75 located on the first and second housing members 56, 58, respectively, to decrease the force required to pull the rope 28 through the support housing 54 by decreasing the friction and deflection experienced by the rope 28.
The first and second directions extend along an axis that is transverse, and perpendicular in this example, to and axis defined by the passageways 78.
The force needed to pull the rope 28 through the support housing 54 will vary depending on the dimensions and type of the rope 28 and the position of the tension member 68. For example, stiffer ropes 28 with a large diameter will require more force to pull through the support housing 54 than more flexible ropes when the tension member 68 is in the same position. Forces for belts and other structures may similarly vary.
A first, a second, a third, and a fourth stud 33a-33d (
Referring to
Referring to
Although an example embodiment of this disclosure has been disclosed, a worker of ordinary skill in this art would recognize that certain modifications would come within the scope of this disclosure. For that reason, the following claims should be studied to determine the true scope and content of this disclosure.
This application claims priority to U.S. Provisional Application No. 61/640,911, which was filed on 1 May 2012 and is incorporated herein by reference.
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