Not applicable to this application.
1. Field of the Invention
The present invention relates generally to an exercise machine and more specifically it relates to an exercise machine cable adjustment system for providing efficient adjustment of the effective length of one or more cables.
2. Description of the Related Art
Any discussion of the related art throughout the specification should in no way be considered as an admission that such related art is widely known or forms part of common general knowledge in the field.
Exercise machines have been in use for many years. One common exercise machine that has enjoyed increasing popularity is the Pilates machine. A conventional Pilates machine generally includes a frame, a track extending across the frame, one or more platforms at the end of the frame, one or more handles extending from the frame, a carriage movably connected to the track, one or more biasing members (e.g. springs, elastic bands) connected between the frame and the carriage to apply a resistance biasing force to the carriage, and a pair of cables with handles connected to the carriage via pulleys. An individual positions their body upon the carriage and then grasps the handles of the cables to pull themselves along with the carriage towards an end of the exercise machine. Moving the carriage away from the end of the frame towards the opposite end of the frame results in the biasing members applying the resistance biasing force which therapeutic or fitness exercises can be effectively performed. U.S. Pat. Nos. 7,803,095 and 8,641,585 to Sebastien Lagree both disclose exemplary exercise machines suitable for Pilates exercises and additional exercises.
One of the core principles for Pilates is control. “Contrology” was Joseph Pilates' preferred name for his method. All Pilates exercises should be performed with authoritative control of the muscles working to lift against gravity as well as the resistance of the springs, thereby controlling the movement of the body and the apparatus.
Another core principle in Pilates is centering. For exercisers to fully control their bodies, they must have a starting place: the center. The center is the focal point of the Pilates Method, and incorporates the major centering muscle groups, such as abdominal and back muscles, gluteal and lower back muscles, hips, and inner thighs. Centering also requires central placement on the apparatus.
Yet another founding principle in Pilates is precision. Precision is essential to correctly practicing the Pilates methods. Without concentration on performing movements with precision each time, and with each exercise repetition on a Pilates apparatus, all the vital benefits of their Pilates routine will be lost.
One key advantage of the Pilates method over other forms of exercise is that throughout an entire session, and more importantly, throughout the lifelong practicing of Pilates, exercisers perform smooth, flowing exercise forms, and do not experience the damaging effects of exercises such as running that subjects the exerciser to continual spinal and joint impact, or weight power lifting that often strains and injures joints, muscles and connective tissue. In some instances, contemporary Pilates apparatuses incorporate various accessories that allow for the performance of exercises that cannot be reasonably performed on traditional apparatuses, for instance foot bars, handles, and cable and pulley systems. Although many contemporary accessories were not components of Joseph Pilates original apparatuses nearly 100 years ago, the addition of such accessories must remain true to the design principles that allow the Pilates method to be performed with control, centering, and precision.
Therefore, contemporary accessories that are incorporated into a Pilates apparatus must not only support the tenets of the Pilates method, but must also maximize user safety by minimizing injury to joints, muscles and connective tissue. In some instances, cables and pulleys are arranged on a Pilates apparatus to allow for the performance of pulling exercises. Handles attached to cables allow exercisers to use their arms to overcome the spring resistance force, thereby exercising shoulders, upper back, chest muscles, and arm muscles. Foot straps attached to cables allow exercisers to overcome the spring resistance through leg movements, for instance, leg adductor and abductor exercises that exercise the inner and outer thigh muscles.
Cables and pulleys are nearly always arranged in pairs such that an exerciser can grasp one handle in each hand, and work the arms simultaneously. By pulling on the handles, the exerciser can start, perform, and finish the exercises of the left and right arms in mirror fashion.
There are many factors unforeseen and unpredictable that cause a pair of pull cables on a Pilates apparatus to be unequal lengths. More specifically, a pull cable of a Pilates apparatus is preferably described as a pull cable assembly, comprising a first connector affixed to a first end of the cable allowing the cable to be attached to the Pilates apparatus, a length of cable, a second connector affixed to a second end of the cable, and a gripping handle or foot strap attached to the second connector.
In some cases, connectors simply break, and the Pilates instructor will find other connectors within the facility, and conduct a fast repair. For instance, a large oblong carabineer connector may be replaced with a short hook in order to return the apparatus to operational status.
In other cases, prolonged use of the pull cables will cause the cables to stretch in length, or fray where the cables pass through pulleys. Cables in disrepair are replaced with new cables, and often, only the most badly damaged cable of a pair of cables is replaced. After replacement, the new cable is not stretched to the same length as the older cable, causing the cables to be different lengths.
In yet other practical circumstances, a handle attached to one cable may break or come into disrepair. Over time, Pilates studios amass an inventory of spare parts scavenged from other apparatuses, and will find an acceptable replacement handle, although not of original equipment design. There is no dimensional standard for pull cable handles, therefore there is high likelihood that the replacement handle has a pull length different from the original equipment handle.
Still further, even if purchased from the original equipment manufacturer at a later date, subcontracted manufacturers' tolerances, engineering changes for cost reduction or reliability improvements, or material changes typically mean that replacement parts are not exact replicas of the original equipment, usually resulting in a total pull cable assembly length that is different from the pull cables installed on the Pilates apparatus.
Each and every one of these disadvantages to pull cable assemblies of a Pilates apparatus are well known in the industry, and each can result in different functional lengths of the two pull cables on one Pilates apparatus.
In each of these cases where exercisers are performing Pilates exercises on an apparatus with different length cables, exercisers are forced into positions that violate each of the foundational Pilates principles of control, centering and precision. Even a slightly modified position that the body naturally assumes to adjust to the different length cables subjects the muscles, joints and connective tissue on one side of the body to more force than the opposite side of the body. The additional and unbalanced force can cause injury to the exerciser.
Unequal length pull cable assemblies creates forces against the spring resistance that are biased towards one side of the body rather than balancing the forces equally, or cause the left and right hands, or left and fight feet to be positioned at different locations when the left and right sides are exerting equal forces against the resistance.
Further, use of pull cables of unequal lengths that bias forces unequally on the body can result injury. Still further, applying unequal forces on the outside corners of the slidable carriage of a Pilates apparatus can cause skewing of the carriage on the parallel rails, thereby causing accelerated or excessive wear on rollers and rails.
Those skilled in the art will immediately appreciate the need for, and the significant commercial value of a novel an improved cable and pulley system of a Pilates apparatuses that incorporate a fast, precise method of evening cable lengths such that the user can remain centered and in precise control throughout an exercise on the apparatus, and further ensures that the resistance force is balanced evenly between the first and left sides of the body.
The invention generally relates to an exercise machine cable adjustment system which includes a frame, a carriage movably positioned upon the frame and a pair of cables adjustably connected to the carriage to allow for adjustment of the effective length for each of the cables.
There has thus been outlined, rather broadly, some of the features of the invention in order that the detailed description thereof may be better understood, and in order that the present contribution to the art may be better appreciated. There are additional features of the invention that will be described hereinafter and that will form the subject matter of the claims appended hereto. In this respect, before explaining at least one embodiment of the invention in detail, it is to be understood that the invention is not limited in its application to the details of construction or to the arrangements of the components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments and of being practiced and carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein are for the purpose of the description and should not be regarded as limiting.
Various other objects, features and attendant advantages of the present invention will become fully appreciated as the same becomes better understood when considered in conjunction with the accompanying drawings, in which like reference characters designate the same or similar parts throughout the several views, and wherein:
Turning now descriptively to the drawings, in which similar reference characters denote similar elements throughout the several views,
The frame 22 includes one or more support rails 24a-b that extend along the length of the frame 22 to movably support the carriage 30. The support rails 24a-b are preferably parallel with respect to the longitudinal axis of the frame 22 and spaced apart from one another. The carriage 30 may include roller that slidably support the carriage 30 upon the support rails 24a-b thereby allowing the individual exercising to move the carriage 30 back and forth between the distal ends of the frame 22. One or more biasing members 21 (e.g. springs, elastic bands, actuators) extend between one end of the frame 22 and the carriage 30 to provide a biasing force to the carriage 30 during an exercise movement. U.S. Pat. Nos. 7,803,095 and 8,641,585 to Sebastien Lagree both disclose exemplary exercise machines 20 suitable for Pilates exercises and are hereby incorporated by reference herein.
The carriage 30 movably positioned upon the frame 22 to move between the first distal end and the second distal end of the frame 22 along at least a portion of the longitudinal axis. The carriage 30 includes an upper surface, a lower surface, a first end 32 facing towards the first distal end of the frame 22, a second end 34 facing the second distal end of the frame 22, a first side 36, a second side 38 opposite of the first side 36 as best illustrated in
The carriage 30 may have various shapes, sizes and configurations.
The present invention utilizes a cable and pulley system to allow an individual to cause movement of the carriage 30 along the longitudinal axis of the frame 22. The cable and pulley system of the present invention may be comprised of a single cable 60 but it is preferable to have two cables that are connected on opposing portions of the carriage 30 and movably supported on opposing sides of the frame 22. The discussion herein will discuss the usage of two cables but this should not limit the number of cables used on the present invention.
The cable and pulley system includes a first pulley 28a and a second pulley 28b 28a-b connected to the frame 22 between the first distal end and the first end 32 of the carriage 30. The pulleys 28a-b are directly connected to the frame 22 or indirectly connected to the frame 22 via stanchions 26a-b as illustrated in
The first cable 60 includes a first engaging end 62 adapted for engagement by an exerciser and a first engaging member 64 opposite of the first engaging end 62 that is connected to the carriage 30. The first engaging end 62 may be comprised of a handle, a strap, a looped strap, a first foot strap or other device capable of being engaged by the hands, arms, feet and/or legs of the exerciser to cause movement of the first cable 60.
The first cable 60 may be comprised of any elongated flexible structure that has a length and capable of being used upon the first pulley 28a. The first cable 60 may be constructed of various material types. For example, the first cable 60 may be comprised of a length of rope, wire rope (coated or uncoated), straps, or belting (e.g. KEVLAR belting). The first cable 60 may have various thicknesses and flexibility commonly utilized with Pilates machines. The first cable 60 is preferably not stretchable or elastic.
The first cable 60 has a first length between the first engaging end 62 and the first engaging member 64. The first length may vary based upon the size of the exercise machine 20, age of the first cable 60, wearing of the first cable 60 and/or the amount of usage of the first cable 60. Over time during usage, the first cable 60 may extend or contract in length. The present invention allows for adjustment of the effective length of the first cable 60 to ensure that the exerciser is always centered and symmetrical with respect to the cables during an exercise.
The first cable 60 includes a first run between the first pulley 28a and the carriage 30 as illustrated in
The first engaging member 64 is adapted to be adjustably connected to the carriage 30 in one of a plurality of positions. Each of the positions the first engaging member 64 is connectable to preferably provides a different length for the first run of the first cable 60. The plurality of positions include at least a first position (e.g. shortest length position) and a last position (e.g. a longest length position). When the first engaging member 64 is connected to the shortest length position the first run is shorter than when the first engaging member 64 is connected to the longest length position. There may be any number of middle positions between the first position and the last position (e.g. 0, 1, 2, 3, 4) which provide a length for the first run of the first cable 60 that is between the lengths created by the first position and the last position.
The second cable 70 preferably is identical or similar to the first cable 60 (e.g. length, width, flexibility, material type, etc.). It is preferable that the first cable 60 and the second cable 70 have the same length. However, the present invention is designed to accommodate the usage of a first cable 60 that has a different length (e.g. shorter or longer) than the second cable 70 via the adjustment system thereby maintaining a centered position for the exerciser during the exercise movement.
The second cable 70 includes a second engaging end 72 adapted for engagement by an exerciser and a second engaging member 74 opposite of the second engaging end 72 that is connected to the carriage 30. The second engaging end 72 may be comprised of a handle, a strap, a looped strap, a second foot strap or other device capable of being engaged by the hands, arms, feet and/or legs of the exerciser to cause movement of the second cable 70.
The second cable 70 may be comprised of any elongated flexible structure that has a length and capable of being used upon the second pulley 28b. The second cable 70 may be constructed of various material types. For example, the second cable 70 may be comprised of a length of rope, wire rope (coated or uncoated), straps, or belting (e.g. KEVLAR belting). The second cable 70 may have various thicknesses and flexibility commonly utilized with Pilates machines. The second cable 70 is preferably not stretchable or elastic.
The second cable 70 has a second length between the second engaging end 72 and the second engaging member 74. The second length may vary based upon the size of the exercise machine 20, age of the second cable 70, wearing of the second cable 70 and/or the amount of usage of the second cable 70. Over time during usage, the second cable 70 may extend or contract in length. The present invention allows for adjustment of the effective length of the second cable 70 to ensure that the exerciser is always centered and symmetrical with respect to the cables during an exercise.
The second cable 70 includes a first run between the second pulley 28b and the carriage 30 as illustrated in
The second cable 70 continues to wrap around the second pulley 28b wherein the second cable 70 includes a second run between the second pulley 28b and the second engaging end 72 of the second cable 70. The second run of the first cable 60 is preferably equal in length to the second run of the second cable 70 thereby ensuring that the portions of the cables engaged by the user have the same length from the pulleys 28a-b to the user.
The second length of the second cable 70 is equal to the first run plus the second run added together. For example, if the first run has a length of 3 feet and the second run has a length of 4 feet, the second length of the second cable 70 is 7 feet. As the user exercises and pulls upon the second run of the second cable 70, the second run increases in length and the first run correspondingly decreases in length as illustrated in
The second engaging member 74 is adapted to be adjustably connected to the carriage 30 in one of a plurality of positions. The plurality of positions for the second engaging member 74 preferably mirror the plurality of positions for the first engaging member 64. Each of the positions the second engaging member 74 is connectable to preferably provides a different length for the second run of the second cable 70. The plurality of positions include at least a first position (e.g. shortest length position) and a last position (e.g. a longest length position). When the second engaging member 74 is connected to the shortest length position the first run is shorter than when the second engaging member 74 is connected to the longest length position. There may be any number of middle positions between the second position and the last position (e.g. 0, 1, 2, 3, 4) which provide a length for the first run of the second cable 70 that is between the lengths created by the second position and the last position.
The plurality of positions for the first engaging member 64 and the second engaging member 74 are preferably comprised of first eyelets 42 and second eyelets 52 respectively within the carriage 30. The first engaging member 64 and the second engaging member 74 selectively each engage one of the first eyelets 42 and second eyelets 52. The first eyelets 42 are preferably positioned on a side of the carriage 30 opposite of the second eyelets 52 equidistantly spaced from the center longitudinal axis of the frame 22.
The number of first eyelets 42 is preferably the same as the number of second eyelets 52, but the number may differ. The positions of the first eyelets 42 preferably mirrors the positions of the second eyelets 52 as illustrated in
The increase or decrease in distance from the pulleys 28a-b for the eyelets 42, 52 may increase various amounts (e.g. 0.1 inches, 0.2 inches, 0.3 inches, 0.4 inches, 0.5 inches) thereby allowing the user to accurately adjust the length of the second run of the cables. The distance gained or lost to the pulleys 28a-b for each of the cables may be the same or vary. The distance gained or lost to the pulleys 28a-b from the carriage 30 for the first run of the cables varies based on the position with the distance increasing more as the eyelets 42, 52 on the sides 36, 38 of the carriage 30 are used.
The first eyelets 42 and the second eyelets 52 preferably are positioned near the first end 32 and/or the sides 36, 38 of the carriage 30. The eyelets 42, 52 may extend through the portions of the carriage 30 the user positions their body upon or through an extended structure such as the connectors 40, 50.
The first engaging member 64 and the second engaging member 74 may be comprised of any structure capable of catchably engaging the carriage 30. The first engaging member 64 and the second engaging member 74 are illustrated as having a hook structure to allow for convenient removal and attachment to the various eyelets 42, 52. The first engaging member 64 and the second engaging member 74 are inserted in a catchable manner into the eyelets 42, 52 which allows for removal and adjustment thereof based on the current length of the second run of the corresponding cable 60, 70.
The carriage 30 includes a first connector 40 near the first side 36 and a second connector 50 near the second side 38. The first engaging member 64 is adjustably connected to the first connector 40 and the second engaging member 74 is adjustably connected to the second connector 50 as illustrated in
The first connector 40 includes a plurality of first eyelets 42 that the first engaging member 64 selectively engages and the second connector 50 includes a plurality of second eyelets 52 that the second engaging member 74 selectively engages. The first connector 40 and the second connector 50 may be comprised of a bracket extending outwardly from the carriage 30.
The connectors 40, 50 extend preferably outwardly from the first end 32 and/or the sides 36, 38 of the carriage 30 as illustrated in
In use, the user connects the first run for each of the cables to the same position on the respective connector 40, 50 assuming that the cables each have the same length as illustrated in
For example, if the second run of the first cable 60 is longer than the second run of the second cable 70, the user would move the first engaging member 64 to the next position that increases the length of the first run and decreases the length of the second run of the first cable 60. The user then compares the respective lengths of the second runs of the cables again. If the second runs are now equal, the user does not make any further adjustments. However, if the second run of the first cable 60 is still longer, the user then moves the first engaging member 64 to the next position that increases the length of the first run and decreases the length of the second run of the first cable 60. This process continues until the lengths of the second runs of the cables are equal to one another. Because the initial inward positions of the eyelets 42, 52 provide a smaller incremental change in length than the outer eyelets, if the second run of the first cable 60 becomes slightly shorter than the second run of the second cable 70 during adjustment, the user may move the second engaging member 74 by a position to slightly shorten the second run of the second cable 70. After the second runs of the cables are equal, the individual is able to use the exercise machine 20 in an effective manner without one side of their body encountering more stress than the other side of their body when centered.
Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Although methods and materials similar to or equivalent to those described herein can be used in the practice or testing of the present invention, suitable methods and materials are described above. All publications, patent applications, patents, and other references mentioned herein are incorporated by reference in their entirety to the extent allowed by applicable law and regulations. The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it is therefore desired that the present embodiment be considered in all respects as illustrative and not restrictive. Any headings utilized within the description are for convenience only and have no legal or limiting effect.
I hereby claim benefit under Title 35, United States Code, Section 120 of U.S. patent application Ser. No. 13/924,088 filed Jun. 21, 2013. This application is a continuation-in-part of the Ser. No. 13/924,088 application. The Ser. No. 13/924,088 application is currently pending and claims priority to U.S. Provisional Patent Application No. 61/719,757. The Ser. No. 13/924,088 application is hereby incorporated by reference into this application. I hereby claim benefit under Title 35, United States Code, Section 119(e) of U.S. provisional patent application Ser. No. 61/719,757 filed Oct. 29, 2012. The 61/719,757 application is now abandoned. The 61/719,757 application is hereby incorporated by reference into this application. I hereby claim benefit under Title 35, United States Code, Section 119(e) of U.S. provisional patent application Ser. No. 61/905,503 filed Nov. 18, 2013. The 61/905,503 application is currently pending. The 61/905,503 application is hereby incorporated by reference into this application.
Number | Date | Country | |
---|---|---|---|
61719757 | Oct 2012 | US | |
61905503 | Nov 2013 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 13924088 | Jun 2013 | US |
Child | 14543407 | US |