WEIGHTLIFTING SYSTEM

Abstract

An exercise system includes a base structure including a first cross brace including first cross brace mounting plates disposed at each end of the first cross brace. A pair of base guide rail supports is secured to and extended substantially orthogonal from the first cross brace and includes a pair of base guide rail receivers. A pair of base pulley supports is secured to and extended substantially orthogonal from the first cross brace and further includes a pulley-support pulley housing. A pair of pulley-support pulleys is rotatably secured to the pulley-support pulley housing. A second cross brace includes a central portion substantially parallel to the first cross brace. The central portion is secured to the pair of base guide rail supports and the pair of base pulley supports. Two end portions are disposed at an angle to the central portion and terminate at second cross brace mounting plates disposed at each end of the two end portions and two central-portion pulley housings. A central-portion pulley is rotatably secured to each of the two central-portion pulley housings.

Description

INTRODUCTION

A variety of machines exist to train specific muscles or muscle groups. For example, leg curl machines may be used to exercise the hamstrings, while leg extension machines may be used to exercise the quadriceps. For the upper body, pull-down machines are used to exercise the latissimus dorsi, while so-called “pec decks” may be used to exercise the pectorals. Other specific machines for specific body parts are known. Functional trainers, however, may be used to exercise multiple body parts, but due to their versatility, these machines are often exceedingly large. Further, due to the complexity thereof, functional trainers are often very expensive pieces of exercise equipment, making them cost-prohibitive for home gym users or even commercial gyms with limited budgets.

SUMMARY

In one aspect, the technology relates to an exercise system including: a base structure including: a first cross brace including first cross brace mounting plates disposed at each end of the first cross brace; a pair of base guide rail supports secured to and extending substantially orthogonal from the first cross brace, wherein each of the pair of base guide rail supports includes a pair of base guide rail receivers; a pair of base pulley supports secured to and extending substantially orthogonal from the first cross brace, wherein each of the pair of base pulley supports further includes: a pulley-support pulley housing; and a pair of pulley-support pulleys rotatably secured to the pulley-support pulley housing; and a second cross brace including: a central portion substantially parallel to the first cross brace, wherein the central portion is secured to the pair of base guide rail supports and the pair of base pulley supports; two end portions disposed at an angle to the central portion, wherein each of the two end portions terminate at second cross brace mounting plates disposed at each end of the two end portions; two central-portion pulley housings; and a central-portion pulley rotatably secured to each of the two central-portion pulley housings. In an example, the exercise system further includes a pair of weight stack units, wherein each of the pair of weight stack units includes: a pair of weight stack guide rails, wherein each of the pair of weight stack guide rails are secured at lower ends to one of the pair of base guide rail receivers on a same one of the pair of base guide rail supports; a movable weight stack slidably engaged with the pair of weight stack guide rails; and a lifting rod selectively engageable with the movable weight stack. In another example, the exercise system further includes an upper structure including: a third cross brace including third cross brace mounting plates disposed at each end of the third cross brace; a pair of upper guide rail supports secured to and extending substantially orthogonal from the third cross brace, wherein each of the pair of upper guide rail supports includes a pair of upper guide rail receivers, and wherein each of the pair of weight stack guide rails are secured at upper ends to one of the pair of upper guide rail receivers on a same one of the pair of upper guide rail supports; a pulley support plate fixed to each of the pair of upper guide rail supports, wherein each pulley support plate includes a pair of pulley-support plate pulley housings and a pulley-support plate pulley rotatably secured to each of the pair of pulley-support plate pulley housings; and a fourth cross brace including: two end plates, wherein each of the two end plates is secured to a single one of the pair of upper guide rail supports; a spanner connected to each of the two end plates; two spanner pulley housings secured to the spanner; and a pulley rotatably secured to each of the two spanner pulley housings. In yet another example, the base structure further includes a foot plate slidably secured to the central portion of the base structure. In still another example, the exercise system further includes a pair of upper outer pulley bracket units, each including a bracket, a pair of upper outer pulley housings secured to the bracket, and an upper outer pulley rotatably secured to each of the pair of upper outer pulley bracket units.

In another example of the above aspect, the exercise system further includes a pair of lower outer pulley bracket units, each including a bracket, three lower outer pulley housings secured to the bracket, and a lower outer pulley rotatably secured to each of the three of the lower outer pulley housings. In an example, the exercise system further includes a floating pulley unit disposed between each of the upper outer pulley bracket units and lower outer pulley bracket units, wherein each floating pulley unit includes a pair of floating pulleys rotatably coupled to a floating pulley housing. In another example, the exercise system further includes a pair of front upper pulley brackets, wherein each of the front upper pulley bracket units includes a bracket, a housing secured to the bracket, and a front upper pulley rotatably secured to the housing; and a pair of front lower pulley brackets, wherein each of the front lower pulley bracket units includes a bracket, a housing secured to the bracket, and a front lower pulley rotatably secured to the housing. In yet another example, the exercise system further includes a trolley disposed between each of the pair of front upper pulley bracket units and each of the pair of front lower pulley bracket units, wherein each trolley includes: a receiver; a pin coupled to the receiver for selectively securing the receiver to a frame; a handle secured to the receiver; and a roller rotatably secured to the receiver. In still another example, the exercise system further includes a cable for rotatably coupling any two of the plurality of pulleys.

BRIEF DESCRIPTION OF THE DRAWINGS

The following drawing figures, which form a part of this application, are illustrative of described technology and are not meant to limit the scope of the disclosure as claimed in any manner, which scope shall be based on the claims appended hereto.

FIG. 1 depicts a perspective view of a weightlifting system, mounted to a frame.

FIG. 2 depicts a perspective view of the weightlifting system of FIG. 1, without the frame.

FIG. 3 depicts an enlarged upper perspective view of an upper structure of the weightlifting system of FIG. 2.

FIG. 4 depicts an enlarged lower perspective view of the upper structure of FIG. 3.

FIG. 5 depicts a partially exploded, enlarged upper perspective view of a base structure of the weightlifting system of FIG. 2.

FIG. 6 depicts an enlarged upper perspective view of a trolley and a front lower pulley bracket unit of the weightlifting system of FIG. 2.

FIG. 7 depicts a partial enlarged upper perspective view of a base structure and a lower outer pulley bracket unit of the weightlifting system of FIG. 2.

FIG. 8 depicts a partial enlarged upper perspective view of an upper structure, upper outer pulley bracket unit, and a floating pulley unit of the weightlifting system of FIG. 2.

FIG. 9 depicts an enlarged upper perspective view of a weight system of the weightlifting system of FIG. 2.

FIG. 10 depicts an enlarged upper perspective view of a front upper pulley bracket unit of the weightlifting system of FIG. 2.

FIG. 11 depicts a schematic drawing of a cable routing configuration for the weightlifting system of FIG. 2.

DETAILED DESCRIPTION

FIGS. 1-5 depict various views of a weightlifting system 100, which may also be referred to herein as a functional trainer or exercise system, as well as components thereof. The figures are described concurrently and not all components of the weightlifting system 100 are depicted or labeled in every figure. In FIG. 1, a frame structure Fr is depicted. The frame structure Fr may be formed of steel or other robust metal tubing sized as required or desired for a particular application, e.g., 1-½″, 2″, 3″ and larger. Tubing formed of 12G, 10G, 8G, and larger gauge materials are contemplated. The steel tubing of the frame is perforated at regular intervals with openings sized to receive bolts, pins, screws, or other elongate elements that project from the various components that make up the weightlifting system 100. For clarity, the components of the weightlifting system 100 that are described elsewhere herein are depicted in solid line.

The various components of the weightlifting system 100 may be attached to the frame Fr or other components of the weightlifting system 100 with one or more of mounting plates, brackets, or receivers. As used herein, the term “mounting plate” refers to a flat plate or multiple plates defining one or more openings for receiving a bolt, pin, or other elongate element that may be used to secure the mounting plate to the frame Fr. In examples, mounting plates are attached to ends of components and are secured via bolts to adjacent components or the frame Fr; in other examples, mounting plates may be welded to adjacent components or the frame Fr. Brackets are similar to mounting plates and may include one or more flat plates to secure components to adjacent components or the frame Fr. In other examples, brackets may be welded to other components or the frame Fr. Finally, in examples, the term “receiver” contemplates two or more flat plates into which a portion of the frame Fr are received or inserted. Certain of the mounting plates, brackets, or receivers may be selectively movable and/or positionable. In examples, it may be advantageous to utilize bolts or pins or other removable elements to secure the mounting plates, brackets, and receivers to the frame Fr or other components of the weightlifting system 100. Use of mechanical fasteners may enable an end user to install the weightlifting system on their own frame Fr. Welded components may typically be more appropriate for components shipped fully assembled from a manufacturer. Regardless, the type of connection elements (mounting plate, bracket, receiver, etc.) and the type of connection to an adjacent element (bolt, weld, pin, etc.) should not be considered limiting. The functional trainer described herein is depicted for illustrative purposes only for certain contemplated configurations; other configurations would be apparent to a person of skill in the art.

The exercise or weightlifting system 100 includes a base structure 200, a weight system 300 including pair of weight stacks, and an upper structure 400, along with a number of pulleys located remote therefrom. The base structure 200 includes a first cross brace 202 having first cross brace mounting plates 204 disposed at each end of the first cross brace 202. These mounting plates 204 are secured to the frame Fr, with bolts or other fasteners (not shown). A pair of base guide rail supports 206 are secured to and extending substantially orthogonal from the first cross brace 202. Each of the pair of base guide rail supports 206 define a pair of base guide rail receivers 208. The base guide rail receivers 208 may be openings in the base guide rail supports 206, or may be a separate structure (e.g., tubing, plate, or other structure) that may receive a bottom end of the guide rails of the weight stacks (described in more detail below). A pair of base pulley supports 210 are secured to and extend substantially orthogonal from the first cross brace 202. As such, each of the base pulley supports 210 are substantially parallel to the base guide rail supports 206. Each of the pair of base pulley supports 210 include a pulley-support pulley housing 212, which extends from the base pulley support 210, generally away from an axis X, as depicted, e.g., in FIG. 5. A pair of pulley-support pulleys 214 are rotatably secured to the pulley-support pulley housing 212, generally about axles that are skew relative to each other. The pulley-support pulleys 214 allow for redirection of a cable (not depicted in this figure), as do the other pulleys in weightlifting system 100.

Secured to opposite ends of the base pulley supports 210 and the base guide rail supports 206 is a second cross brace 216. The second cross brace 216 includes a central portion 218 that is substantially parallel to the first cross brace 202. The central portion 218 is secured to the pair of base guide rail supports 206 and the pair of base pulley supports 210. Further, two central-portion pulley housings 220 each have rotatably attached thereto a central-portion pulley 222. The second cross brace 216 also includes two end portions 224 disposed at an angle to the central portion 218. In examples, the angle may be about 105°, about 110° about 115°, about 120°, about 125°, and about 130°. In examples, the angle may be between about 110° and about 130°, or between about 115° and about 125°. In other examples, the angle may be about 121° , about 122°, about 123°, and about 124°. The angled offset from the central portion 218 allows the major components of the weightlifting system 100 to be more compact, and to be set farther back within the frame Fr depicted in FIG. 1, while still being attachable to a vertical portion of the frame Fr at second cross brace mounting plates 226 disposed at each end of the two end portions 224. A receiver 228 may be configured to receive a post 230 extending from a foot plate 232, which may enable additional exercises with the weightlifting system 100. A distance between the central portion 218 and the foot plate 232 may be adjustable by selective operation of an adjustment pin 234.

Resistance to exercises performed with the weightlifting system 100 is provided by the weight system 300. The depicted weight system 300 includes two movable weight stack units 302. The weight stack units 302 may include selectively removable pins (not shown) for selecting a desired weight for a particular exercise. The pin projects into a lifting rod 304 and a lifting force of a cable around a weight stack pulley 306 lifts the selected portion of the weight stack unit 302 during exercise. When lifted and lowered, each weight stack unit 302 slides along a pair of weight stack guide rails 308. Each of the weight stack guide rails 308 are secured at lower ends to one of the pair of base guide rail receivers 208 on a same one of the pair of base guide rail supports 206. One or more shrouds 310 may substantially surround the weight stack units 302 to prevent inadvertent contact between a user and the moving weight stacks units 302 during movement.

The weightlifting system 100 also includes an upper structure 400, which includes a third cross brace 402. Third cross brace mounting plates 404 are disposed at each end of the third cross brace 402, for securing the third cross brace 402 to an upright or other portion of the frame Fr. A pair of upper guide rail supports 406 are secured to and extend substantially orthogonal from the third cross brace 402. In the depicted example, the upper guide rail supports 406 are secured to the third cross brace 402 with mounting plates 408. Each of the pair of upper guide rail supports 406 include a pair of upper guide rail receivers 410, which may be similar in configuration to the base guide rail receivers 208, into which each of the pair of weight stack guide rails 308 are secured at upper ends thereof, e.g., on a same one of the pair of upper guide rail supports 406. A pulley support plate or bracket 412 is fixed to each of the pair of upper guide rail supports 406. Each pulley support plate 412 includes a pair of pulley-support plate pulley housings 414. Each pulley support housing 414 has rotatably secured thereto a pulley-support plate pulley 416. In examples, the pairs of pulley support housings 414 on a single one of the upper guide rail supports 406 may be constructed as a single housing, such as the pulley-support pulley housing 212, depicted above. The upper structure 400 further includes a fourth cross brace 418 that, in this example, is constructed of a number of parts. Here, two end plates 420 are secured to individual ends of each of the upper guide rail supports 406. These two end plates 420 are joined via a spanner 422. The spanner 422 is configured as a bracket to substantially surround a portion of tubing that forms a part of the frame Fr. Two spanner pulley housings 424 are secured to the spanner 422 and each include a pulley 426 rotatably secured thereto.

The base structure 200, weight system 300, and upper structure 400 form the majority of the components of the weightlifting system 100. A plurality of pulleys are also utilized to guide a plurality of cables to enable a wide range of range exercises. A pair of upper outer pulley bracket units 500 are disposed proximate and on each side of the upper structure 400. Each upper outer pulley bracket unit 500 includes a bracket 502, and a pair of upper outer pulley housings 504 secured to the bracket 502. In examples, the pairs of upper outer pulley housings 504 on a single one of the brackets 502 may be constructed as a single housing, such as the pulley-support pulley housing 212, depicted above. Regardless, two upper outer pulleys 506 are rotatably secured to each of the brackets 502, via one or more housings 504. Disposed below each upper outer pulley bracket unit 500 is a floating pulley unit 520. Each floating pulley unit 520 includes a pair of floating pulleys 522 rotatably coupled to a floating pulley housing 524. Disposed below each floating pulley unit 520 is a lower outer pulley bracket unit 540, each of which includes a bracket 542. Depending on configuration, one, two or three lower outer pulley housings 544 may be secured to the bracket 542. A lower outer pulley 546 is rotatably secured to each of the brackets 542, via the lower outer pulley housings 544.

Proximate a front of the frame Fr are a pair of front upper pulley bracket units 560 and a pair of front lower pulley bracket units 580. Each of the front upper pulley bracket units 560 includes a bracket 562 and a housing 564 secured to the bracket 562. A front upper pulley 566 is rotatably secured to the housing 564. Similarly, each of the front lower pulley bracket units 580 includes a bracket 582 and a housing 584 secured to the bracket 582. A front lower pulley 586 is rotatably secured to the housing 584. Disposed between each of the pair of front upper pulley bracket units 560 and each of the pair of front lower pulley bracket units 580 is a trolley 600, which is positionable vertically along from the frame Fr, in examples, as high as the front upper pulley bracket unit 560 and as low as front lower pulley bracket unit 580. Each trolley 600 includes a receiver 602 that is positionable along a portion of the frame Fr to which it is mounted. A pin 604 is coupled to the receiver 602 for selectively securing the receiver 602 to the frame Fr. A handle 606 is secured to the receiver 602 to aid in allowing a user of the weightlifting system 100 in positioning the trolley 600 vertically between the front upper pulley bracket units 560 and the front lower pulley bracket units 580. At least one roller 608 is rotatably secured to the receiver 602, e.g., via a housing 610. In examples, multiple rollers 608 may be rotatably secured to each housing 610. A cable anchor 612 projects from the receiver 602.

FIGS. 6-10 depict, in relevant part, enlarged views of various pulleys of the weightlifting system of FIG. 2. The numbering used in FIGS. 6-10 is consistent with that used in FIGS. 1-5, except specific pulleys and rollers are designated by letters A-R. FIGS. 6-10 depict pulleys and rollers A-R, as described in the context of the cable routing configuration 700 depicted in FIG. 11. FIG. 11 depicts a schematic cable routing configuration 700 on a single side of the weightlifting system 100, connecting pulleys A-R. A mirror image of the cable routing configuration 700 is present on the opposite side of the weightlifting system 100. Only certain other components are depicted and described. Further, the cable routing configuration 700 is for illustrative purposes only; that is, a person of ordinary skill in art, upon reading this disclosure, would understand whether a cable wraps around a certain perimeter portion of a particular pulley or roller, based on the entrance position and exit position of the cable, relative to the pulley or roller. The cable routing configuration 700 includes a lower cable LC and an upper cable UC.

Lower cable LC is anchored at one end to anchor 612, which is secured to trolley housing 610. It then is passed around pulleys A, B, and C, before being passed around pulley D, in the floating pulley unit housing 524, which also includes therein pulley M. Lower cable LC is then passed around pulleys E, F, G, and H. After pulley H, a second end of lower cable LC may be connected to a first handle 702. A second handle 704 is at a first end of upper cable UC. Upper cable passes between pulleys I and J in trolley housing 610, then passes around pulleys K and L, before being passed around pulley M, in the floating pulley unit housing 524. Upper cable UC is then passed around pulleys N and 0, before passing around pulley P, the actuation of which raises and lowers the weight stack unit 302. Thereafter, the upper cable passes around pulleys Q and R. A second end of upper cable UC is connected to a third handle 706. Since the lower cable LC is anchored at an anchor 612 to the trolley housing 610, movement of the trolley 600 up or down on the frame Fr causes a corresponding movement of the floating pulley unit 520, to take up the slack of either cable LC, UC. Pulling of any handle 702, 704, 706 moves the weight stack unit 302 up, providing resistance to a user of the weightlifting system 100.

It is to be understood that this disclosure is not limited to the particular structures, process steps, or materials disclosed herein, but is extended to equivalents thereof as would be recognized by those ordinarily skilled in the relevant arts. It should also be understood that terminology employed herein is used for the purpose of describing particular examples only and is not intended to be limiting. It must be noted that, as used in this specification, the singular forms “a,” “an,” and “the” include plural referents unless the context clearly dictates otherwise.

It will be clear that the systems and methods described herein are well adapted to attain the ends and advantages mentioned as well as those inherent therein. Those skilled in the art will recognize that the methods and systems within this specification may be implemented in many manners and as such is not to be limited by the foregoing exemplified examples and examples. In this regard, any number of the features of the different examples described herein may be combined into one single example and alternate examples having fewer than or more than all of the features herein described are possible.

While various examples have been described for purposes of this disclosure, various changes and modifications may be made which are well within the scope contemplated by the present disclosure. Numerous other changes may be made which will readily suggest themselves to those skilled in the art and which are encompassed in the spirit of the disclosure.

Claims

1. An exercise system comprising: a base structure comprising: a first cross brace comprising first cross brace mounting plates disposed at each end of the first cross brace;a pair of base guide rail supports secured to and extending substantially orthogonal from the first cross brace, wherein each of the pair of base guide rail supports comprise a pair of base guide rail receivers;a pair of base pulley supports secured to and extending substantially orthogonal from the first cross brace, wherein each of the pair of base pulley supports further comprises: a pulley-support pulley housing; anda pair of pulley-support pulleys rotatably secured to the pulley-support pulley housing; anda second cross brace comprising: a central portion substantially parallel to the first cross brace, wherein the central portion is secured to the pair of base guide rail supports and the pair of base pulley supports;two end portions disposed at an angle to the central portion, wherein each of the two end portions terminate at second cross brace mounting plates disposed at each end of the two end portions;two central-portion pulley housings; anda central-portion pulley rotatably secured to each of the two central-portion pulley housings.

2. The exercise system of claim 1, further comprising: a pair of weight stack units, wherein each of the pair of weight stack units comprises: a pair of weight stack guide rails, wherein each of the pair of weight stack guide rails are secured at lower ends to one of the pair of base guide rail receivers on a same one of the pair of base guide rail supports;a movable weight stack slidably engaged with the pair of weight stack guide rails; anda lifting rod selectively engageable with the movable weight stack.

3. The exercise system of claim 2, further comprising: an upper structure comprising: a third cross brace comprising third cross brace mounting plates disposed at each end of the third cross brace;a pair of upper guide rail supports secured to and extending substantially orthogonal from the third cross brace, wherein each of the pair of upper guide rail supports comprise a pair of upper guide rail receivers, and wherein each of the pair of weight stack guide rails are secured at upper ends to one of the pair of upper guide rail receivers on a same one of the pair of upper guide rail supports;a pulley support plate fixed to each of the pair of upper guide rail supports, wherein each pulley support plate comprises a pair of pulley-support plate pulley housings and a pulley-support plate pulley rotatably secured to each of the pair of pulley-support plate pulley housings; anda fourth cross brace comprising: two end plates, wherein each of the two end plates is secured to a single one of the pair of upper guide rail supports;a spanner connected to each of the two end plates;two spanner pulley housings secured to the spanner; anda pulley rotatably secured to each of the two spanner pulley housings.

4. The exercise system of claim 1, wherein the base structure further comprises a foot plate slidably secured to the central portion of the base structure.

5. The exercise system of claim 3, further comprising a pair of upper outer pulley bracket units, each comprising a bracket, a pair of upper outer pulley housings secured to the bracket, and an upper outer pulley rotatably secured to each of the pair of upper outer pulley bracket units.

6. The exercise system of claim 5, further comprising a pair of lower outer pulley bracket units, each comprising a bracket, three lower outer pulley housings secured to the bracket, and a lower outer pulley rotatably secured to each of the three of the lower outer pulley housings.

7. The exercise system of claim 6, further comprising a floating pulley unit disposed between each of the upper outer pulley bracket units and lower outer pulley bracket units, wherein each floating pulley unit comprises a pair of floating pulleys rotatably coupled to a floating pulley housing.

8. The exercise system of claim 7, further comprising: a pair of front upper pulley brackets, wherein each of the front upper pulley bracket units comprises a bracket, a housing secured to the bracket, and a front upper pulley rotatably secured to the housing; anda pair of front lower pulley brackets, wherein each of the front lower pulley bracket units comprises a bracket, a housing secured to the bracket, and a front lower pulley rotatably secured to the housing.

9. The exercise system of claim 8, further comprising: a trolley disposed between each of the pair of front upper pulley bracket units and each of the pair of front lower pulley bracket units, wherein each trolley comprises: a receiver;a pin coupled to the receiver for selectively securing the receiver to a frame;a handle secured to the receiver; anda roller rotatably secured to the receiver.

10. The exercise system of claim 8, further comprising a cable for rotatably coupling any two of the plurality of pulleys.