US20130274074A1 - In-field kits and systems for self-directed theraputic pulley-based muscle rehabiliation methods - Google Patents
In-field kits and systems for self-directed theraputic pulley-based muscle rehabiliation methods Download PDFInfo
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- US20130274074A1 US20130274074A1 US13/859,996 US201313859996A US2013274074A1 US 20130274074 A1 US20130274074 A1 US 20130274074A1 US 201313859996 A US201313859996 A US 201313859996A US 2013274074 A1 US2013274074 A1 US 2013274074A1
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- tether
- ring
- end portion
- handle
- pulleys
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/06—User-manipulated weights
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B15/00—Clubs for gymnastics or the like, e.g. for swinging exercises
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/15—Arrangements for force transmissions
- A63B21/151—Using flexible elements for reciprocating movements, e.g. ropes or chains
- A63B21/154—Using flexible elements for reciprocating movements, e.g. ropes or chains using special pulley-assemblies
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/16—Supports for anchoring force-resisters
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/16—Supports for anchoring force-resisters
- A63B21/1618—Supports for anchoring force-resisters on a door or a door frame
- A63B21/1645—Supports for anchoring force-resisters on a door or a door frame for anchoring on a door
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/40—Interfaces with the user related to strength training; Details thereof
- A63B21/4027—Specific exercise interfaces
- A63B21/4033—Handles, pedals, bars or platforms
- A63B21/4035—Handles, pedals, bars or platforms for operation by hand
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/06—User-manipulated weights
- A63B21/0601—Special physical structures of used masses
- A63B21/0603—Fluid-like particles, e.g. gun shot or sand
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/06—User-manipulated weights
- A63B21/0601—Special physical structures of used masses
- A63B21/0604—Solid masses, e.g. concrete
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B21/00—Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
- A63B21/06—User-manipulated weights
- A63B21/0601—Special physical structures of used masses
- A63B21/0605—Special physical structures of used masses with boxes, baskets or the like for stacking loose weights therein
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B2102/00—Application of clubs, bats, rackets or the like to the sporting activity ; particular sports involving the use of balls and clubs, bats, rackets, or the like
- A63B2102/02—Tennis
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B2102/00—Application of clubs, bats, rackets or the like to the sporting activity ; particular sports involving the use of balls and clubs, bats, rackets, or the like
- A63B2102/18—Baseball, rounders or similar games
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B2102/00—Application of clubs, bats, rackets or the like to the sporting activity ; particular sports involving the use of balls and clubs, bats, rackets, or the like
- A63B2102/22—Field hockey
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B2102/00—Application of clubs, bats, rackets or the like to the sporting activity ; particular sports involving the use of balls and clubs, bats, rackets, or the like
- A63B2102/32—Golf
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B71/00—Games or sports accessories not covered in groups A63B1/00 - A63B69/00
- A63B71/02—Games or sports accessories not covered in groups A63B1/00 - A63B69/00 for large-room or outdoor sporting games
- A63B71/021—Stays or guy-ropes
Definitions
- This invention generally relates to exercise apparatus and methods and more particularly relates to in-field kits and systems for self-directed therapeutic pulley-based muscle rehabilitation methods.
- Regular physical exercise has been shown to decrease the likelihood of cardiovascular disease, diabetes and cancer. Regular physical exercise may also reduce stress by releasing brain chemicals, such as serotonin, dopamine and norepinephrine. In addition, regular physical exercise reduces the likelihood of obesity and the deleterious psychological effects on one's body image due to being overweight.
- regular physical exercise is often used to rehabilitate specific parts of the body after an injury or surgery.
- appropriate physical exercise is used during physical therapy after an injury to or surgery on a specific part of the body. More specifically, physical exercise can help prevent scar tissue formation that might otherwise inhibit recovery after an injury or surgery. Appropriate physical exercise can also reduce joint stiffness, such as in the case of adhesive capsulitis, which is a debilitating disease causing limited motion in the shoulder joint where scar tissue has formed.
- specific exercises promote cartilage lubrication, which helps in decreasing stiffness, increasing lubrication and Range of Motion (ROM).
- the hamstring muscle group is a group of muscles often over-strained by athletes, such as track runners and those who play football, hockey, basketball, soccer, baseball and other sports.
- the hamstring muscle group is found on the back of the hip and thigh and includes the biceps femonis, semitendinosus and semimembranosus. Damage to the hamstring muscle group is painful and there is often a prolonged recovery.
- appropriate and regular physical exercise targeting the hamstring muscle group when training prior to a sporting event can prevent or reduce likelihood of injury that might otherwise occur during the subsequent sporting event.
- regular physical exercise is often used by athletes to build muscle bulk, increase strength and enhance athletic performance.
- tennis players find it beneficial to perform the chest cross exercise for conditioning the pectoralis major muscle, the lateral raise exercise for conditioning the deltoids, the biceps curl exercise for conditioning the biceps, as well as other exercises.
- baseball players find it beneficial to perform exercises that condition transverse abdominal muscles, rotator cuff and lower back muscles —
- Body builders and strength trainers also find it beneficial to perform regular physical exercise that target specific muscle groups to enhance muscle bulk and strength.
- a gym is often used as a venue for regular physical exercise.
- gym membership is usually required to use the gym's facilities.
- Gym memberships can be expensive. For example, gym membership prices for an individual can average about $2,000 per year.
- a gym membership for a family costs even more.
- gym membership is location-specific. That is, gym membership requires the user to use a gym facility at a specific location.
- weights in a gym are typically heavy and possess limited adjustment. Further, a particular gym may not possess equipment necessary to perform a desired exercise routine. Therefore, cost of gym memberships may be financially prohibitive for some individuals and families, gym membership limits users to specific locations, weights are heavy and have limited adjustment and equipment in some gym facilities may be inadequate.
- a physical therapist is often required to supervise physical exercises that facilitate the rehabilitation process.
- the rehabilitation may be on an on-going basis for an extended period of time and possibly for more than one region of the body (e.g., neck and shoulders).
- the physical therapist will prescribe exercises that the accident victim or athlete should perform away from the physical therapist's facility, such as at home or at an athletic field.
- the current state of the art does not appear to provide suitable means for performing physical exercises away from the physical therapist's facility.
- U.S. Pat. No. 6,949,035 titled “Power Swing Training Bar and issued Sep. 27, 2005 in the name of Robert M. Halsworth discloses a power swing training device that is a tethered, truncated device attached by flexible elastic to a fixed anchor point, or to a pulley and weight system.
- a swivel attachment is attached to the distal end of the training device, a yoke is attached to the swivel attachment, and an elastic cord is attached to the yoke at one end and to a fixed point at the other.
- a cord is hung on a pulley attached to an anchor and a weight is placed at the other end of the cord.
- this patent appears to be directed to specifically developing a baseball batter's muscles and improving batting strength and velocity and not necessarily related to other sports.
- this patent does not appear concerned with rehabilitating an injured accident victim or injured athlete.
- a portable weightlifting device having a segmented, separable, tubular housing that can be quickly and easily assembled and disassembled by a single user.
- the housing contains a movable weight that is coupled to a user interface outside of the housing by an inelastic cable that traverses two pulleys.
- one of the pulleys can be adjustably positioned for allowing a user to perform a multitude of exercises.
- This published patent application document discloses an exercising apparatus for strengthening particular variable muscle groups comprising a handle member including a threaded attacher and an elastic tether with a first and a second anchor at each of its two ends.
- the handle member comprises an elongated tubular plastic shaft with a length of twelve inches or less and has a proximal end comprising a knob and a distal end.
- the attacher comprises a ferrous eye hook and is fixed to the distal end of the handle member.
- the first anchor is fixed to the first end of the elastic tether and is removably clip-connected to the threaded attacher so as to connect the elastic tether to the handle member.
- the second anchor is fixed to the second end of the elastic tether and is removably clip-connected to a stationary vertical structure comprising a fence.
- this published patent document does not appear to disclose use of pulleys that can provide consistent resistance. Also, this device appears inconvenient to use because it requires substantial space to mount the device. In addition, the lowest weight achievable appears to be one pound. Moreover, the elastic tether that is connected to the handle member might prove to be a relatively weak link. In addition, this published patent application document does not appear concerned with rehabilitating an injured accident victim or injured athlete.
- the present invention addresses the, shortcomings of the prior art approaches mentioned hereinabove by providing in-field kits and systems for self-directed therapeutic pulley-based muscle rehabilitation methods.
- Use of the present invention promotes wellness, prevention of injury, rehabilitation and performance optimization.
- the in-field kits and systems for self-directed therapeutic pulley-based muscle rehabilitation methods comprises annular ring-shaped fasteners that can be attached to preselected locations on a stationary structure, such as a chain link fence that includes a wire mesh.
- the ring-shaped fastener is a split first O-ring that defines a gap at the split in the first O-ring. At least one of the wires belonging to the wire mesh is passed through the gap, so that the wire is disposed within an open interior space defined by the first O-ring.
- the first O-ring includes an integrally connected screw-threaded latch near the location of the gap for opening and closing the gap.
- the screw-threaded latch is manually unthreaded to open the gap, so that the wire is received through the gap and into the open interior space defined by the first O-ring.
- the screw-threaded latch is manually threaded also to close the gap, so that the wire is enclosed, confined or captured within the open interior space defined by the first O-ring.
- the first O-ring is coupled to the fence when the wire is captured within the open interior space defined by the first O-ring.
- a first pulley includes a ribbon or cord. The ribbon or cord is used to tie the first pulley to the first O-ring, so that the first pulley is coupled to the first O-ring.
- the user can extend the ribbon or cord through the open interior space defined by the first O-ring, through an eyelet of an attachment belonging to the pulley and then tie the ribbon or cord into a knot.
- the first pulley is coupled to the first O-ring.
- a second O-ring and second pulley are coupled to the fence in a similar manner.
- in-field kits and systems for self-directed therapeutic pulley-based muscle rehabilitation methods also includes a tether, such as in the form of a rope, cord or the like for reasons provided presently.
- the tether is preferably an inelastic tether for reasons provided hereinbelow.
- the tether may be an elastic tether, if desired.
- the user extends the tether over each of the pulleys, so that the tether traverses or spans all of the pulleys.
- the tether has a proximal end portion to which a handle is coupled.
- the handle is an elongate member, such as a truncated baseball bat, truncated tennis racquet handle, truncated hockey stick, truncated golf club or the like.
- the handle may also be in the form of a baseball.
- the tether also has a distal end portion to which a weight is coupled.
- the weight may comprise a weight bag containing dense material (e.g., one or more metal objects) or aggregate (e.g., sand, gravel and/or crushed stones).
- the weight may alternatively comprise incremental metal weights of a type familiar to body builders and strength trainers.
- the plurality of O-rings is coupled to the fence in the manner provided hereinabove.
- the user grasps the handle and moves the handle in order to pull on the tether that is coupled to the handle.
- the pulling action performed by the user places the tether, which spans the plurality of pulleys, in tension in order to lift the weight.
- the pulleys and the weight provide constant resistance to the user's movements and the resistance provides physical exercise for the user.
- each O-ring and pulley is configured to allow the plurality of O-rings and associated pulleys to be located at virtually any location on the fence in order to obtain a particularized exercise routine.
- the invention provides an in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods that are versatile and convenient to use.
- the in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods are configured to be quickly deployed on and removed from a stationary structure, such as a chain link fence.
- a stationary structure such as a chain link fence.
- the O-ring and pulley combination can easily vary in number and location to achieve a particularized exercise routine, such as stretching of hamstring, deltoid and bicep muscle groups.
- use of the in-field kit and system does not require costly membership in a gym.
- the present invention is not limited to use with a chain link fence. Virtually any similar stationary structure is useable with the invention.
- the present invention allows exercises to be performed using doors.
- a specialized bracket is included that is adapted to removably connect to an edge of the door.
- the pulley, with or without the O-ring, is suspended from the bracket.
- Use of the invention enables an athlete to make a transition from a clinic rehabilitation environment to an indoor or in-field environment for continuing his or her rehabilitation exercise routine.
- Use of the invention also allows an accident victim to make a rehabilitation transition from a clinical setting to an indoor (e.g., home) setting.
- use of the invention obviates the need to have a physical therapist present at all times during rehabilitation.
- the invention is a pulley-based system that enables use of the invention at home or at an athletic field.
- an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation comprising: a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure; a plurality of pulleys adapted to be coupled to respective ones of the plurality of ring-shaped fasteners; a tether adapted to engage the pulleys, the tether having a proximal end portion and a distal end portion; and a handle adapted to be coupled to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
- an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation comprising: a plurality of O-ring clips adapted to be connected to respective ones of a plurality of preselected locations on a stationary structure, each of the plurality of O-ring clips being openable and closeable for selectively positioning each of the plurality of O-ring clips on the stationary structure; a plurality of pulleys adapted to be connected to respective ones of the plurality of O-ring clips; a flexible tether adapted to slidably engage the plurality of pulleys, the tether having a proximal end portion and a distal end portion, the distal end portion being adapted to connect to a weight; and a handle adapted to be connected to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
- an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation comprising: a plurality of split O-ring clips defining a gap therein adapted to be opened and closed for connecting each of the plurality of O-ring clips to respective ones of a plurality of preselected locations on a stationary structure, each of the plurality of O-ring clips including a latch mechanism associated with the gap for opening and closing the gap; a plurality of friction-free pulleys adapted to be connected to respective ones of the plurality of O-ring clips; a flexible tether adapted to slidably engageably span the plurality of pulleys, the tether having a proximal end portion and a distal end portion; a handle adapted to be connected to the proximal end portion of the tether, the handle including a hook member for engaging the proximal end portion of the tether, the handle being adapted for placing the tether in tension, so that an injured muscle group of
- an in-field kit system for self-directed therapeutic pulley-based muscle rehabilitation comprising: a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure; a plurality of pulleys adapted to be coupled to respective ones of the plurality of ring-shaped fasteners; a tether adapted to engage the pulleys, the tether having a proximal end portion and a distal end portion; and a handle adapted to be coupled to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
- a method of assembling an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation comprising: providing a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure; providing a plurality of pulleys adapted to be coupled to respective ones of the plurality of ring-shaped fasteners; providing a tether adapted to engage the pulleys, the tether having a proximal end portion and a distal end portion; and providing a handle adapted to be coupled to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
- an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation comprising: a bracket adapted to be mounted on a door; a pulley adapted to be coupled to the bracket; a tether adapted to engage the pulley, the tether having a proximal end portion and a distal end portion; and a handle adapted to be coupled to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
- a feature of the present invention is the provision of a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure.
- Another feature of the present invention is the provision of a plurality of tensioning supports adapted to be coupled to respective ones of the plurality of ring-shaped fasteners.
- An additional feature of the present invention is the provision of a tether spanning the tensioning supports, the tether having a proximal end portion connectable to a handle and a distal end portion connectable to a weight.
- Yet another feature of the present invention is the provision of a latch mechanism integrally connected to the ring-shaped fastener, the latch mechanism being either a screw-threaded latch, a slidable latch or a threaded coupler latch.
- a further feature of the present invention is the provision of a door bracket adapted to couple the pulleys, handle and tether combination to a door.
- FIG. 1 is a view in perspective showing a first embodiment in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods in operative condition to be used by a user, the first embodiment in-field kit and system employing a weight bag;
- FIG. 2 is a view in perspective showing the first embodiment in-field kit and system in operative condition to be used by the user, the first embodiment in-field kit and system employing a plurality of incremental weights;
- FIG. 3 is a view in perspective showing the first embodiment in-field kit and system being used by the user, the user performing a first exercise routine;
- FIG. 4 is a view in perspective showing the first embodiment in-field kit and system being used by the user, the user performing a second exercise routine;
- FIG. 5 is a view in perspective showing the first embodiment in-field kit and system being used by the user, the user performing a third exercise routine;
- FIG. 6 is a view in perspective showing a first embodiment ring-shaped fastener and integrally connected pulley, the first embodiment ring-shaped fastener being shown in an open position prior to the first embodiment ring-shaped fastener and integrally connected pulley being coupled to a wire mesh belonging to a chain link fence;
- FIG. 7 is a view in perspective showing the first embodiment ring-shaped fastener and integrally connected pulley, the first embodiment ring-shaped fastener being shown in a closed position after the first embodiment ring-shaped fastener and integrally connected pulley are coupled to the wire mesh belonging to the chain link fence;
- FIG. 8 is a view in elevation showing the first embodiment ring-shaped fastener in an open position prior to being coupled to the wire mesh belonging to the chain link fence;
- FIG. 9 is a view in elevation showing the first embodiment ring-shaped fastener and a wire belonging to the wire mesh of the chain link fence, the wire extending through an open interior space defined by the first embodiment ring-shaped fastener after the first embodiment ring-shaped fastener is coupled to the chain link fence, this view also showing a screw-threaded latch substantially closing the gap;
- FIG. 10 is a view in partial vertical section showing a second embodiment ring-shaped fastener, the second embodiment ring-shaped fastener comprising a slidable latch including a spring-biased gate shown in an open position prior to being coupled to the wire mesh belonging to the chain link fence;
- FIG. 11 is a view in partial vertical section showing the second embodiment ring-shaped fastener and the wire belonging to the wire mesh of the chain link fence, the wire extending through an open interior space defined by the second embodiment ring-shaped fastener, the second embodiment ring-shaped fastener comprising the slidable latch including the spring-biased gate shown in a closed position after the second embodiment ring-shaped fastener is coupled to the chain link fence;
- FIG. 12 is a view in elevation showing the second embodiment ring-shaped fastener defining an optional arcuate-shaped slot formed through a wall thereof for accommodating an optional movable tab for easier opening and closing of the second embodiment ring-shaped fastener;
- FIG. 12A is a view in elevation showing a third embodiment ring-shaped fastener including a rotatable threaded attachment member for opening and closing the third embodiment ring-shaped fastener;
- FIG. 126 is a view in elevation showing a fourth embodiment ring-shaped fastener including a resilient gate member for opening and closing the fourth embodiment ring-shaped fastener;
- FIG. 13 is a view in elevation showing a first embodiment handle including an integrally connected hook and a tether portion tied in a knot about the hook;
- FIG. 14 is a view in elevation showing a second embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook;
- FIG, 15 is a view in elevation showing a third embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook;
- FIG. 16 is a view in elevation showing a fourth embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook;
- FIG. 17 is a view in elevation showing a fifth embodiment handle including an integrally connected yoke and the tether portion tied in a knot about the yoke;
- FIG. 18 is a view taken along section line 18 - 18 of FIG. 17 ;
- FIG. 19 is a view in elevation showing a sixth embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook;
- FIG. 19A is a view in elevation showing a seventh embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook;
- FIG. 19B is a view in elevation showing an eighth embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook;
- FIG. 20 is a view in perspective showing a container in the form of a tote bag for containing and carrying the ring-shaped fasteners, pulleys, tether, weight bag and handle;
- FIG. 21 is view in perspective showing a second embodiment exercise kit and system deployed on a door, the second embodiment exercise kit and system including a bracket assembly removably mounted on the door;
- FIG. 21A is a view in elevation of an alternative bracket assembly adapted to be removably mountable on the door;
- FIG. 21B is a plan view of a tensioner for adjustably tensioning a tether
- FIG. 21C is a view taken along section line 21 C- 21 C of FIG. 21B ;
- FIG, 22 is a flowchart showing an illustrative method of assembling an in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods.
- first embodiment in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods in operative condition for use by a user 20 .
- first embodiment exercise kit and system 10 (hereinafter referred to as “first embodiment kit 10 ”) is beneficially used by user 20 to perform a plurality of exercise routines that selectively exercise desired muscle groups, such as the hamstring, deltoid, bicep and abdominal muscle groups.
- first embodiment kit 10 is particularly useful for allowing an accident victim or a professional athlete, who was injured because of his or her sport, to rehabilitate the injury in an on-going, self-directed process without need of a physical therapist being present to direct the process.
- the accident victim or injured professional athlete will begin rehabilitation first by working-out under the direction of the physical therapist at the facility of the physical therapist. While under the direction of the physical therapist, the accident victim or injured professional athlete will acquire an understanding from the physical therapist as to what is required to rehabilitate injured muscles and ligaments, learn what exercises to use for rehabilitating the injured muscles and ligaments and also learn how to use first embodiment kit 10 for regaining strength, flexibility and other physical attributes.
- the physical therapist After working-out under the direction of the physical therapist for a necessary period of time (e.g., two weeks, four weeks or one month), the physical therapist will instruct the accident victim or professional athlete to perform predetermined exercises “at home” (i.e., away from the physical therapist's facility) for accomplishing the desired rehabilitation using first embodiment kit 10 .
- predetermined exercises “at home” (i.e., away from the physical therapist's facility) for accomplishing the desired rehabilitation using first embodiment kit 10 .
- the exercises may be performed at home or at an athletic field (i.e., “in-field” exercising).
- first embodiment kit 10 is a pulley-based system that enables use of first embodiment kit 10 at home or in-field.
- first embodiment kit 10 is adapted to be coupled to a stationary structure, such as a chain link fence, generally referred to as 30 .
- Fence 30 is securely anchored in soil 35 , such as by a footing 37 , so that fence 30 is stationary.
- Fence 30 which forms no part of the present invention, includes a vertically oriented corner post or end post 40 having an upper end portion 50 and a lower end portion 60 , the lower end portion 60 thereof being embedded in soil 35 by means of footing 37 .
- a lower rail 70 is connected to and laterally extends from lower end portion 60 and includes a plurality of spaced-apart and aligned lower tension wire holders 80 .
- the lower tension wire holders 80 are adapted to securely retain a lower tension wire 90 that extends parallel to and above lower rail 70 for reasons disclosed momentarily.
- an upper rail 100 is connected to and laterally extends from upper end portion 50 and includes a plurality of spaced-apart and aligned upper tension wire holders 110 .
- the upper tension wire holders 110 are adapted to securely retain an upper tension wire 120 that extends parallel to and below upper rail 100 for reasons disclosed momentarily. In this manner, upper rail 100 and upper tension wire 120 run parallel to lower rail 70 and lower tension wire 90 .
- a chain link mesh, generally referred to as 130 is connected to lower tension wire 90 and upper tension wire 120 , so that chain link mesh 130 is secured in tension therebetween.
- Chain link mesh 130 includes a multiplicity of wires 140 , which may be arranged in a criss-cross pattern, as shown.
- first embodiment kit 10 comprises a plurality of first embodiment ring-shaped fasteners, such as a first O-ring clip 150 adapted to be coupled to a first preselected location on chain link mesh 130 and a second O-ring clip 160 adapted to be coupled to a second preselected location on chain link mesh 130 .
- first O-ring clip 150 adapted to be coupled to a first preselected location on chain link mesh 130
- second O-ring clip 160 adapted to be coupled to a second preselected location on chain link mesh 130 .
- applicant's O-ring clips 150 / 160 are “screw-type” O-ring clips and are openable and closeable for individually positioning and coupling O-ring clips 150 / 160 at any desired location on chain link mesh 130 .
- a first tensioning support such as a substantially friction-free first pulley 170
- a second tensioning support such as a substantially friction-free second pulley 180
- Pulleys 170 / 180 may each be a commercially available pulley, such as an “ESP Single Swivel Pulley With Becket” ball-bearing type pulley which may be available from Harken Industrial Company, Incorporated located in Pewaukee, Wis., U.S.A.
- a smooth, high quality ball bearing construction for pulleys 170 / 180 offers a large range of resistance that is particularly useful for exercising the cervical spine (i.e., neck) and lumbar spine (i.e., lower back).
- the friction-free feature of pulleys 170 / 180 which is due to the ball bearing construction, allows for a smooth, constant resistance throughout the range of motion performed by user 20 .
- a compliant or flexible tether 190 such as a flexible rope or cord, slidably engageably spans both pulleys 170 / 180 for reasons disclosed hereinbelow.
- Tether 190 is made of a synthetic material, such as polyethylene, aramid, carbon fiber or the polymer nylon.
- Tether 190 may be elastic, if desired, with a suitable elastic modulus for achieving a desired resistance to being pulled or tensioned.
- the elastic nature of tether 190 gradually increases resistance being experienced by user 20 . Such a gradual increase in resistance may be preferred by some users.
- tether 190 is substantially inelastic or non-recoil to avoid tether 190 snapping-back and hitting user 20 should tether 190 inadvertently break while being pulled.
- Tether 190 is also preferably substantially inelastic when performing the exercises to avoid any rebound effect on muscles, tendons and ligaments.
- Use of non-recoil or inelastic tether 190 obtains other benefits, as well.
- such a non-recoil or inelastic tether 190 facilitates rehabilitation, sports training, injury prevention and improves physical performance. More specifically, when using non-recoil or inelastic tether 190 , resistance is constant throughout range of motion from a shortened muscle position to a lengthened muscle position. Constant resistance, in turn, allows for specific dosage of exercises that obtains specific functional qualities, such as endurance, circulation, coordination and strength. Constant resistance also allows control of the range of motion and managing different types of exercises, such as concentric, isometric and eccentric exercises.
- first embodiment kit 10 which can be conveniently used in a home environment as described hereinbelow, is efficient and effective because the distance from pulleys 170 / 180 and the exercising components (e.g., weights, bats, and balls) is fixed by the length of inelastic tether 190 .
- the inelastic tether 190 unlike an elastic tether, which is used by most, if not all therapists, is fixed in length, and will not vary in length when repeatedly used or when subjected to heat and cold in an outdoor environment. Thus, a therapist need not be present to verify whether prescribed exercises are performed with a resulting expected outcome.
- tether 190 has a proximal end portion 200 and a distal end portion 210 .
- An elongate first embodiment dowel or handle 220 which is adapted to be connected to proximal end portion 210 , includes a hook member 230 for engaging proximal end portion 210 of tether 190 .
- Distal end portion 210 of tether 190 is adapted to be connected to a first embodiment weight, such as a weight bag 240 .
- the weight bag 240 contains a dense material (e.g., one or more metal objects) or aggregate (e.g., sand, gravel and/or crushed stones).
- distal end portion 210 of tether 190 may be adapted to be connected to a second embodiment weight, such as a plurality of incremental weights 250 stacked one upon the other and of a type familiar to body builders and strength trainers.
- a weight bag 240 or incremental weights 250 the weights need not be heavy and can be readily adjusted to suit the individual strength capabilities of user 20 .
- user 20 is shown performing a first exercise routine, a second exercise routine and a third exercise routine, respectively.
- first exercise routine user 20 has coupled O-ring clips 150 / 160 and associated pulleys 170 / 180 at preselected locations on chain link mesh 130 .
- Tether 190 has been placed by user 20 over pulleys 170 / 180 , such that tether 190 spans pulleys 170 / 180 .
- First embodiment handle 220 is connected to proximal end portion 200 of tether 190 and incremental weights 250 are removably connected to distal end portion 210 of tether 190 .
- User 20 moves first embodiment handle 220 in a desired manner and O-ring clips 150 / 160 in combination with pulleys 170 / 180 , incremental weights 250 and tether 190 provide resistance to user's 20 movement of first embodiment handle 220 .
- user 20 is shown with an arm 255 moving first embodiment handle 220 in a downward arc from user's 20 abdominal region in order to exercise user's 20 forearm and bicep muscle groups. Exercising and strengthening of the forearm and bicep muscle groups may enhance performance in athletic activities, such as tennis and baseball.
- O-ring clips 150 / 160 and associated pulleys 170 / 180 are located at other preselected locations on chain link mesh 130 for exercising some of the same muscle groups or completely different muscle groups.
- both arms 255 are outwardly horizontally extended and both hands are shown grasping first embodiment handle 220 .
- User 20 then moves first embodiment handle 220 either in an upward arc, laterally, and/or vertically in order to exercise user's 20 biceps and pectoral muscle groups. Exercising and strengthening of the bicep and pectoral muscle groups may enhance performance in athletic activities, such as baseball and hockey.
- O-ring clips 150 / 160 and associated pulleys 170 / 180 are located at yet other preselected locations on chain link mesh 130 for exercising some of the same muscle groups or completely different muscle groups.
- both arms 255 are outwardly horizontally extended to a side of user 20 and both hands are shown grasping first embodiment handle 220 .
- User 20 then moves first embodiment handle 220 in a horizontal arc from side-to-side in order to exercise user's 20 bicep, pectoral, abdominal, hamstring and back muscle groups. Exercising and strengthening of the bicep, pectoral, abdominal, hamstring and back muscle groups may enhance performance in athletic activities, such as tennis, baseball, hockey and golf.
- first embodiment kit 10 placement of O-ring clips 150 / 160 and associated pulleys 170 / 180 at various preselected locations on chain link mesh 130 can obtain any one of a multiplicity of exercise routines in order to benefit specific muscle groups.
- the first, second and third exercise routines mentioned hereinabove are but examples of the multiplicity of possible exercise routines achievable by using first embodiment kit 10 and should not be construed as limiting.
- use of first embodiment kit 10 for purposes of regular physical exercise may improve overall physical health, including weight control.
- first O-ring clip 150 comprises an annular wall 260 having an outer surface 270 and an inner surface 280 .
- the inner surface 280 defines an open interior space 290 within first O-ring clip 150 .
- the first O-ring clip 150 also comprises an integrally connected first embodiment “screw-type” or “screw-threaded” latch mechanism, generally referred to as 295 .
- First embodiment latch mechanism 295 comprises a pair of oppositely disposed parallel ledges 300 a and 300 b outwardly projecting from outer surface 270 .
- Ledges 300 a and 300 b define an opening, split, channel or gap 310 between ledges 300 a and 300 b
- Gap 310 extends through wall 260 such that gap 310 is in communication with open interior space 290 .
- Gap 310 facilitates coupling of first O-ring clip 150 to wire 140 that belongs to chain link mesh 130 . More specifically, gap 310 is sized to receive wire 140 therethrough, which wire 140 passes through gap 310 and into open interior space 290 .
- a pair of aligned internally threaded bores 315 a and 315 b transversely extend through ledges 300 a and 300 b, respectively.
- An externally threaded screw 320 is threadably received in internally threaded bores 310 a and 310 b.
- a wing nut 330 is threadably received onto an end portion of screw 320 and threaded thereon until wing nut 330 engages an underside surface of ledge 300 b. In this manner, gap 310 is closed to block escape of wire 140 from open interior space 290 .
- the process recited hereinabove is performed in reverse to remove first O-ring clip 150 from wire 140 .
- first pulley 170 is adapted to be connected to first O-ring dip 150 .
- first pulley 170 may be a commercially available pulley, such as the “ESP Single Swivel Pulley With Becker type pulley which may be available from Harken Industrial Company, Incorporated.
- pulley 170 may be of a different type according to applicant's design, which is described immediately hereinafter.
- first pulley 170 comprises an axle 340 on which a grooved wheel 350 is rotatably mounted.
- Wheel 350 defines a grooved or recessed surface 360 extending around wheel 350 .
- Previously mentioned tether 190 slidably engages recessed surface 360 as tether 190 spans first pulley 170 .
- a pulley arm 370 interconnects axle 340 to a coupling 380 defining an eyelet 390 therethrough.
- a connector 400 connects coupling 380 to first O-ring 150 and, thus, connects first pulley 170 to first O-ring 150 .
- Connector 400 may be a rope, ribbon or cord that extends through eyelet 390 and open interior space 290 and that is tied into a knot 405 for securely connecting first pulley 170 to first O-ring 150 .
- connector 400 may be ring-shaped fastener as described hereinbelow or a commercially available “BLACK DIAMOND OVAL carabiner clip which may be available from REI, Incorporated located in Summer, Wash., U.S.A.
- Second embodiment ring-shaped fastener 410 comprises a “gate-type” O-ring clip 420 and is distinguishable from applicant's previously mentioned “screw-type” O-ring clips 150 / 160 , More specifically, gate-type O-ring clip 420 comprises an annular wall 430 having an outer surface 440 and an inner surface 450 . The inner surface 450 defines an open interior space 460 within gate-type O-ring clip 420 . Wall 430 defines an entrance 470 therethrough that is in communication with open interior space 460 for reasons made apparent presently.
- Gate-type O-ring clip 420 defines an arcuate-shaped first chamber 480 therein having a closed rear portion 490 and an open front portion 500 .
- a resilient biasing member such as a coiled spring 510 , for purposes disclosed momentarily.
- Spring 510 engages an arcuate-shaped plug or gate 520 that is matingly slidably disposed in first chamber 480 and that extends from entrance 470 to spring 510 , such that spring 510 engages gate 520 .
- Gate-type O-ring clip 420 also defines an arcuate-shaped second chamber 530 therein having a closed rear portion 540 and an open front portion 550 .
- Open front portion 500 of first chamber 480 and open front portion 550 of second chamber 530 are aligned one to another and are in communication with entrance 470 .
- Entrance 470 facilitates coupling of gate-type O-ring clip 420 to wire 140 that belongs to chain link mesh 130 .
- entrance 470 is sized to receive wire 140 therethrough, which wire 140 passes through entrance 470 and into open interior space 460 .
- gate 520 is grasped by user 20 and manually moved in first chamber 480 in a direction of an arrow 555 toward rear portion 490 of first chamber 480 . As gate 520 moves in direction of arrow 555 , entrance 470 opens because entrance 470 is no longer blocked by gate 520 .
- gate 520 moves in direction of arrow 555 , spring 510 compresses.
- Gate-type O-ring clip 420 is thereafter coupled to wire 140 belonging to chain link mesh 130 in the manner described presently.
- wire 140 is passed through entrance 470 to be received into open interior space 460 .
- gate 520 is manually released by user 20 , so that gate 520 travels in a direction of an arrow 557 to be received into second chamber 530 . Travel of gate 520 in direction of arrow 557 is caused by expansion of spring 510 which expansion is, in turn, caused by user's 20 manual release of gate 520 .
- gate 520 manual release of gate 520 causes spring 510 to be released from spring's 510 compressed state, such that spring 510 expands to move gate 520 .
- entrance 470 is closed to block escape of wire 140 from open interior space 460 , so that gate-type O-ring clip 420 is removably coupled to wire 140 that belong to chain link mesh 130 .
- the process recited hereinabove is performed in reverse to remove gate-type O-ring clip 420 from wire 140 .
- wall 430 of gate-type O-ring clip 420 may optionally define an arcuate-shaped slot 560 therein aligned with and adjacent to gate 520 .
- Tab 570 may be grasped by user 20 and moved in the direction of previously mentioned arrow 555 for conveniently moving gate 520 toward rear portion 490 of first chamber 480 .
- entrance 470 is opened.
- previously mentioned spring 510 expands to move gate 520 , so that entrance 470 is closed by gate 520 .
- Third embodiment ring-shaped fastener 572 comprises a threaded “coupler latch” O-ring clip 574 a having a generally annular wall 574 b of circular transverse cross-section.
- Wall 574 b has an outer surface 574 c and an inner surface 574 d.
- the inner surface 574 d defines an open interior space 574 e within gate-type O-ring clip 574 a.
- Wall 574 b defines an entrance or gap 574 f therethrough that is in communication with open interior space 574 e for reasons made apparent presently.
- Entrance 574 f facilitates coupling of gate-type O-ring clip 572 to wire 140 that belongs to chain link mesh 130 .
- entrance 574 f is sized to receive wire 140 therethrough, which wire 140 passes through entrance 574 f and into open interior space 574 e when gate-type O-ring clip 574 a is opened.
- wall 574 b Due to presence of entrance 574 f, wall 574 b has a first end portion 574 g that is externally threaded and a second end portion 574 h that is also externally threaded.
- An adjustable, generally cylindrical coupler member 574 i is adapted to threadably engage first end portion 574 g and second end portion 574 h.
- coupler member 574 i defines a central, threaded internal bore 574 j therethrough for threadably engaging the external threads of first end portion 574 g and second end portion 574 h.
- Coupler member 574 i may also have a textured external surface 574 k for allowing user 20 to easily grip and turn coupler member 574 i, Turning coupler member 574 i, such as in the direction of an arrow 574 l, will cause coupler member 574 i to threadably advance along first end portion 574 g and threadably engage second end portion 574 h, thereby closing entrance 574 f.
- coupler member 574 i such as in the direction of an arrow 574 m, will cause coupler member 574 i to threadably retreat along first end portion 574 g and threadably disengage second end portion 574 h, thereby opening entrance 574 f.
- manipulation of coupler member 574 l allows wire 140 to be received through entrance 574 f, when entrance 574 f is opened, and captured within interior space 574 e when entrance 674 f is closed.
- Manipulation of coupler member 574 l also allows wire 140 to be received through entrance 574 f and released from interior space 574 e. In this manner, configuration of coupler member 574 i allows coupler member 574 i to be conveniently releasably attached to fence 30 .
- Fourth embodiment ring-shaped fastener 576 comprises a generally annular wall 578 a.
- Wall 578 a has an outer surface 578 b and an inner surface 578 c.
- the inner surface 578 c defines an open interior space 578 d within ring-shaped fastener 576 .
- Wall 578 a defines an entrance or gap 578 e therethrough that is in communication with open interior space 578 d for reasons made apparent presently.
- Entrance 578 e facilitates coupling of ring-shaped fastener 576 to wire 140 that belongs to chain link mesh 130 .
- entrance 578 e is sized to receive wire 140 therethrough, which wire 140 passes through entrance 578 e and into open interior space 578 d when ring-shaped fastener 576 is opened.
- Entrance 578 e of ring-shaped fastener 576 is opened and closed by means of a resilient gate member 578 f spanning entrance 578 a and that is bendable about a pin 578 g that couples gate member 578 f to wall 578 a.
- Gate member 578 f is capable of being manually bent to a bent state 578 h generally in the direction of an arrow 578 i, as shown, for opening entrance 578 e.
- Gate member 578 f will return to its original unbent state, in the direction of an arrow 578 j, upon manual release thereby closing entrance 578 e.
- a type of fastener suitable for this purpose can be a commercially available “TMS-CB156” carbiner clip that may be available from Qinfeng Electric Machinery Company, Ltd. located in Fuzhou City, Fujian province, China (venue).
- first embodiment handle 220 comprises a generally cylindrical and elongate shaft 580 having a proximal end portion 590 and a distal end portion 600 .
- Attached to distal end portion 600 is previously mentioned hook member 230 .
- the hook member 230 defines an eyelet 630 through which proximal end portion 200 of tether 190 passes. After being passed through eyelet 630 , proximal end portion 200 is tied by user 20 into a knot 615 for securing tether 190 to hook member 230 and therefore to shaft 580 .
- proximal end portion 590 of shaft 580 may include a bulbous, knob-like portion 620 to reduce likelihood of user's 20 hand inadvertently slipping from shaft 580 as user 20 utilizes first embodiment handle 220 for exercising.
- shaft 580 may have a textured outer surface (not shown), if desired, for facilitating gripping of shaft 580 by user 20 as user 20 utilizes first embodiment handle 220 for exercising.
- second embodiment handle 630 which can be utilized by user 20 who may prefer exercising with a simulated baseball bat.
- second embodiment handle 630 is configured as a lower portion of a truncated baseball bat and has a proximal end portion 640 and a distal end portion 650 . Attached to distal end portion 650 is previously mentioned hook member 230 , which defines eyelet 630 through which proximal end portion 200 of tether 190 passes and is tied into knot 615 .
- proximal end portion 640 of second embodiment handle 630 includes an outwardly projecting flange 650 to reduce likelihood of user's 20 hand inadvertently slipping from second embodiment handle 630 as user 20 utilizes second embodiment handle 630 for exercising.
- third embodiment handle 660 which can be utilized by user 20 , who may prefer exercising with a simulated tennis racquet.
- third embodiment handle 660 is configured as a lower portion of a truncated tennis racquet handle and has a proximal end portion 670 and a distal end portion 680 . Attached to distal end portion 680 is previously mentioned hook member 230 , which defines eyelet 630 through which proximal end portion 200 of tether 190 passes and is tied into knot 615 .
- proximal end portion 670 of third embodiment handle 660 includes an outwardly projecting flange 690 to reduce likelihood of user's 20 hand inadvertently slipping from third embodiment handle 660 as user 20 utilizes third embodiment handle 630 for exercising.
- fourth embodiment handle 700 which can be utilized by user 20 , who may prefer exercising with a simulated hockey stick.
- fourth embodiment handle 700 is configured as a lower portion of a truncated hockey stick handle and has a proximal end portion 710 and a distal end portion 720 . Attached to distal end portion 720 is previously mentioned hook member 230 , which defines eyelet 630 through which proximal end portion 200 of tether 190 passes and is tied into knot 615 .
- proximal end portion 710 of fourth embodiment handle 700 includes an outwardly projecting flange 730 to reduce likelihood of user's 20 hand inadvertently slipping from fourth embodiment handle 700 as user 20 utilizes fourth embodiment handle 700 for exercising.
- a fifth embodiment handle 740 having a proximal end portion 750 and a distal end portion 760 .
- Distal end portion 760 has a smooth, transverse bore 765 extending therethrough for reasons disclosed presently.
- Attached to distal end portion 760 is a swivable or pivotable yoke, generally referred to as 770 .
- the yoke 770 comprises a first bolt 780 that extends through bore 765 and further comprises a beam member 790 having arms 795 a and 795 b connected to opposing ends of first bolt 780 .
- a bridge member 800 is spaced-apart from and extends over beam member 790 and is connected to beam member 790 by means of a second bolt 810 .
- an eyelet 820 is defined between beam member 790 and bridge member 800 , such that proximal end portion 200 of tether 190 can pass through eyelet 820 and tied into a knot 825 .
- proximal end portion 750 of fifth embodiment handle 740 includes a bulbous, knob-like portion 830 to reduce likelihood of user's 20 hand inadvertently slipping from fifth embodiment handle 740 as user 20 utilizes fifth embodiment handle 740 for exercising.
- fifth embodiment handle 740 may have a textured outer surface (not shown), if desired, for facilitating gripping of fifth embodiment handle 740 by user 20 as user 20 utilizes fifth embodiment handle 740 for exercising.
- FIG. 19 there is shown a sixth embodiment handle 835 that is a simulated baseball.
- Sixth embodiment handle 835 is effective with overhead exercise activities requiring arm rotation for throwers and pitchers.
- Seventh embodiment handle 837 is effective for exercising a diversity of muscle groups, such as neck, shoulder, arm, ankle, leg, scapula and knee muscle groups.
- Seventh embodiment handle 837 includes an elongate grip 838 a that may have a plurality of integrally formed surface ridges or ribs 838 b spaced along the length of elongate grip 838 a, so that grip 838 a may be more easily gripped by the hand of user 20 as user 20 exercises.
- a strap 838 c extends through a central bore (not shown) of grip 838 a, the strap 838 c having a first end portion 838 d and a second end portion 838 e.
- First end portion 838 d and second end portion 838 e are joined by a clip 838 f for holding first end portion 838 d and second end portion 838 e together.
- Hook member 230 is also connected to clip 838 f.
- Proximal end portion 200 of tether 190 can pass through eyelet 610 and knotted in the manner described hereinabove, in order to connect tether 190 to seventh embodiment handle 837 .
- an eighth embodiment handle generally referred to as 839 , that is an alternative strap device.
- Eighth embodiment handle 839 is effective for exercising the previously mentioned diversity of muscle groups, such as the neck, shoulder, arm, ankle, leg, scapula and knee muscle groups.
- Eighth embodiment handle 839 is substantially similar to seventh embodiment handle 837 , except grip 838 a (see FIG. 19A ) is absent. Rather, eighth embodiment handle 839 comprises a strap portion 839 a, which may be a “Velcro®brand fastener” hook-and-loop material, configured to wrap about the head, neck, scapula or ankle of the user for exercising the afore-mentioned muscle groups.
- eighth embodiment handle 839 is flexible for conforming to various sizes of a user's neck, shoulder, arm, ankle, leg, scapula and knee muscle groups.
- Eighth embodiment handle 839 serves a multi-purpose function in the sense that eighth embodiment handle 839 can be used to exercise multiple portions of the body of the user, such as the various muscle groups mentioned hereinabove.
- a container such as a storage bag or tote bag 840 , defines an inner volume 850 therein for receiving any or all of O-rings clips 150 / 160 / 420 , pulleys 170 / 180 , tether 190 , handles 220 / 630 / 660 / 700 / 740 and weight bag 240 .
- the weight bag 240 may have had the weights emptied therefrom to enable weight bag 240 being folded and placed in tote bag 840 .
- tote bag 840 may serve as a weight bag, as well as a storage bag.
- Tote bag 840 defines an opening 860 for allowing access to inner volume 850 .
- Opening 860 may be opened and closed by any suitable means, such as by a zipper 870 .
- Tote bag 840 may be made from a pliable material, such as nylon, cloth or the like.
- tote bag 840 may be in the form of a metal case (not shown), made from a light weight metal that, for example, might be thin gauge aluminum.
- second embodiment kit 880 a second embodiment in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods, generally referred to as “second embodiment kit 880 ”), that may be used in an indoor environment (e.g., at home, at a hotel) or at an athletic field.
- second embodiment kit 880 When used in an indoor environment, second embodiment kit 880 is deployable on a conventional door 890 that may be hinged to an upright wall 900 by means of a hinged connection 910 .
- Door 890 has a first side edge portion 920 a, a second side edge portion 920 b, a top edge portion 920 c, a front surface 925 and a rear surface (not shown).
- a conventional upper door frame portion 927 is disposed opposite top edge portion 920 c of door 890 , such that a gap 929 is defined therebetween.
- Conventional door 890 , wall 900 , hinged connection 910 and upper door frame portion 927 form no part of the present invention.
- Previously mentioned first pulley 170 is removably suspended from first side edge portion by means of a flexible member, such as a flexible ribbon 930 that may be made of a thin gauge cloth. More specifically, ribbon 930 may be heavy duty double stitched webbing and has a distal attachment made of a plastic polymer material. Ribbon 930 is configured such that the distal attachment is securely wedged between first side edge portion 920 a and wall 900 when door 890 is closed.
- the distal attachment may be a commercially available component, such as a TRIGLIDETM metal or plastic buckle or fastener that allows for strap or webbing adjustments, such as may be available from ITW Nexus, Incorporated located in Des Plaines, Ill. U.S.A.
- Bracket assembly 940 is removably mounted on top edge portion 920 c of door 890 for removably suspending previously mentioned second pulley 180 therefrom.
- Bracket assembly 940 which may be steel for durability, is configured to fit virtually any thickness of door 890 .
- bracket assembly 940 is adjustable to fit most home doors and industrial size doors. This ability to adjust bracket assembly 940 to fit both size doors adds to the useable applications because bracket assembly 940 can fit on doors at home as well as most businesses and hotel rooms.
- bracket assembly 940 comprises a vertical first leg 950 a, a vertical second leg 950 b disposed parallel to and opposite first leg 950 a and a thin horizontal intermediate plate 950 c interconnecting first leg 950 a and second leg 950 b.
- first leg 950 a is disposed opposite front surface 925
- second leg 950 b is disposed on the rear surface of door 890
- thin intermediate plate 950 c spans top edge portion 920 c of door 890 .
- thin intermediate plate 950 c is thin enough to be disposed in gap 929 .
- Pin 960 is threadably received through an internally threaded bore (not shown) formed transversely through first leg 950 a.
- Pin 960 includes a protective felt-padded or rubber-padded end portion 970 for abutting against front surface 925 of door 890 .
- End portion 970 is felt-padded or rubber-padded to avoid damage or marring of front surface 925 while bracket assembly 940 is mounted on door 890 . In this manner, bracket assembly 940 is removably secured to door 890 without damaging or marring door 890 .
- an alternative bracket assembly 965 need not include pin 960 and the bore associated therewith.
- Alternative bracket assembly 965 is flexible enough, as illustrated by dotted lines in the figure, to adjustably fit various thicknesses or sizes of door 890 and has a felt-padded or rubber padded layer 965 a on an underside thereof for preventing damage or marring of door 890 .
- Alternative bracket assembly 965 a defines a through bore 965 b for attachment of either one of pulleys 170 / 180 .
- Tether 190 can then span pulleys 170 / 180 .
- Handle 220 and incremental weights 250 can then be connected to tether 190 and used to perform the previously mentioned exercise routines.
- a multipurpose strap may be coupled to an end portion of tether 190 , if desired.
- handle 839 having strap portion 839 a wraps about a portion of the head, leg, ankle or other body part of the user for exercising that body part of the user.
- second embodiment kit 880 enables an athlete to make a transition from a clinic rehabilitation environment to an indoor or in-field environment for continuing his or her rehabilitation exercise routine.
- Second embodiment kit 880 is constructed to provide such an athlete with a constant resistance routine, where a constant resistance level may not only be incrementally varied, but may also be adjusted over a wide and diverse range of exercise positions for exercising a given muscle group of the athlete.
- second embodiment kit 880 is constructed to enable an athlete to make a transition from a clinic rehabilitation environment to an indoor or in-field environment for continuing his or her rehabilitation exercise routine
- second embodiment kit 880 may also be utilized by an accident victim making a rehabilitation transition from a clinical setting to an indoor (e.g., home) setting.
- second embodiment kit 880 can be supported by any suitable stationary structure, such as previously mentioned wire fence 30 . Therefore, use of second embodiment kit 880 obviates the need to have a physical therapist present at all times during rehabilitation.
- second embodiment kit 880 is a pulley-based system that enables use of second embodiment kit 880 at home or in-field.
- second embodiment kit 880 which functions as a tensioning arrangement, may be mounted either to door 890 for exercising indoors, or to previously mentioned wire fence 30 for exercising outdoors.
- Second embodiment kit 880 includes handle 220 that serves as a body specific exercise attachment device and that is adapted to facilitate the exercise of a given muscle group of the athlete.
- Second embodiment kit 880 is adapted to be mounted to a variety of different types of door jambs of various door jamb widths at a fixed apex position and at a plurality of user selected exercise positions ranging from at or about another adjacent apex position at a floor level position and in between to provide the user with a diversity of exercise positions for facilitating the exercise and rehabilitation of a given muscle group of the user, such as an athlete.
- the body specific exercise attachment devices or handles 220 / 630 / 660 / 700 / 740 / 835 / 837 are examples of a variety of different forms and structures for the specific exercise attachment devices.
- the specific form and structure of the exercise attachment device is selected based upon the specific muscle group of the athlete that must be strengthened or rehabilitated.
- the body specific exercise attachment device is selected from a group of body specific exercise attachment devices, including but not limited to first embodiment handle 220 , second embodiment handle 630 (i.e., lower portion of a truncated baseball bat), third embodiment handle 660 (i.e., lower portion of a truncated tennis racquet), fourth embodiment handle 700 (i.e., lower portion of a truncated hockey stick), fifth embodiment handle 740 (i.e., handle with pivotable yoke), sixth embodiment handle 835 (i.e., baseball), and seventh embodiment handle 837 (i.e., strap device).
- first embodiment handle 220 i.e., lower portion of a truncated baseball bat
- third embodiment handle 660 i.e., lower portion of a truncated tennis racquet
- fourth embodiment handle 700 i.e., lower portion of a truncated hockey stick
- fifth embodiment handle 740 i.e., handle with pivotable yoke
- first embodiment handle 220 is for lifting and pulling constant weights ranging from about 200 grams (i.e., about 0.441 pounds) to about 9.072 kilograms (i.e., about 20 pounds);
- second embodiment handle 630 is utilized for exercising the muscle groups associated with swinging a club-like device, such as a baseball bat, a golf club, and the like;
- third embodiment handle 660 is utilized for exercising muscles associated with playing tennis;
- fourth embodiment handle 700 is utilized for exercising muscles associated with playing hockey;
- fifth embodiment handle 740 is utilized for exercising muscles requiring a pivotable yoke;
- sixth embodiment handle 835 is utilized for exercising the muscle groups associated with throwing a ball;
- the seventh embodiment handle 837 is utilized for exercising a diversity of muscle groups, such as a neck muscle group, a shoulder muscle group, an arm muscle group, an ankle muscle group, a leg muscle group, and a knee muscle group, as previously mentioned.
- first embodiment kit 10 is configured as an outdoor tensioning arrangement and second embodiment kit 880 is configured as an indoor tensioning arrangement or an outdoor tensioning arrangement.
- second embodiment kit 880 is adapted to be mounted to a door jamb, such as first edge portion 920 a that serves as a door jamb, while the outdoor tensioning arrangement or first embodiment kit 10 is adapted to be mounted to previously mentioned wire fence 30 , such as one would find anchored in soil 35 on an athletic field.
- first embodiment kit 10 and second embodiment kit 880 may both be configured to provide a plurality of different mounting configurations ranging from an apex position relative to the first edge portion 920 a that serves as the door jamb or wire fence 30 , to a floor or ground position, with a plurality of other mounting positions therebetween selected based upon how the athlete desires to exercise a given muscle group.
- second embodiment kit 880 includes either incremental weights 250 or weight bag 240 having a sufficient volume to hold a variety of weights ranging between about 200 grams 200 grams (i.e., about 0.441 pounds) and about 9.072 kilograms (i.e., about 20 pounds).
- Tether 190 is adapted for attachment at one of its ends to the weight bag 240 , weights 250 and to a selected one of the body specific exercise attachment devices or handles 220 / 630 / 660 / 700 / 740 / 835 / 837 at another one of its ends depending upon the type of exercise to be performed.
- the indoor tensioning arrangement or second embodiment kit 880 further includes previously mentioned bracket assembly 940 , first pulley 170 positioned on door 890 , and second pulley 180 positioned on door 890 at an apex position above first pulley 170 .
- Both first embodiment bracket assembly 940 and second embodiment bracket assembly 965 are provided with a protective lining or layer, such as felt-padded or rubber, so that the bracket assembly does not damage or mar door 890 .
- Second embodiment bracket assembly 965 is constructed of a sufficiently pliable material so that second embodiment bracket assembly 965 may be configured to snugly grip a wide door jamb or a narrow door jamb. In this regard, second embodiment bracket assembly 965 may be configured to be utilized with a door jamb having a maximum width of 1.5 inches to a minimum width of 3.5 millimeters.
- Tensioner 972 for adjustably tensioning tether 190 .
- Tensioner 972 defines a plurality of through-holes 972 a, such as three through-holes 972 a, for receiving an end portion of tether 190 .
- the end portion of tether 190 is interleaved through through-holes 972 a to a suitable extent in order to achieve the desired tension in tether 190 and tied into a knot 972 b to retain the end portion of tether 190 in tensioner 972 and to retain tether 190 at the desired tension.
- first embodiment kit 10 nor second embodiment kit 880 requires use of gym facilities. It may also be appreciated that first embodiment kit 10 and second embodiment kit 880 are convenient to use because these embodiments require less space in which to use them compared to some conventional exercise devices.
- the weights are readily adjustable so that the weights can be reduced to a minimum amount, such as 200 grams, if desired.
- tether 190 need not be elastic material in order to reduce the risk that tether 190 might become a weak link.
- tether 190 is inelastic for the reasons mentioned hereinabove.
- first embodiment kit 10 and second embodiment kit 880 offer accurate dosage of exercise in order to achieve functional qualities, such as vascularization, detonification, coordination, endurance, strength and power.
- First embodiment kit 10 and second embodiment kit 880 are versatile to accommodate different resistances to meet the specific needs of a relatively full range of exercise routines. Further, use of first embodiment kit 10 and second embodiment kit 880 obviates a need to have a physical therapist present at all times during rehabilitation.
- first embodiment kit 10 and second embodiment kit 880 are each a pulley-based system that enables use of first embodiment kit 10 and second embodiment kit 880 at home or in-field.
- an illustrative method 980 that is provided for assembling an exercise kit starts at a block 990 .
- a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure are provided.
- a plurality of tensioning supports adapted to be coupled to respective ones of the plurality of ring-shaped fasteners are provided.
- a tether adapted to engage the tensioning supports, the tether having a proximal end portion and a distal end portion is provided.
- a handle adapted to be coupled to the proximal end portion of the tether is provided. The method stops at a block 1040 .
- the exercise kit and system may be used with a variety of stationary structures in addition to fences and doors.
- the exercise kit and system may be used with walkway railings. Accordingly, the description hereinabove is not intended to limit the invention, except as indicated in the following claims.
Abstract
In-field kits and systems for self-directed therapeutic pulley-based muscle rehabilitation methods. The in-field kit and system comprises ring-shaped fasteners that can be removably coupled to preselected locations on a stationary structure, such as a chain link fence. Pulleys are coupled to the ring-shaped fasteners and an inelastic tether spans the pulleys. The tether has a proximal end portion to which a handle is coupled and a distal end portion to which a weight is coupled. The weight and pulleys provide resistance when a person uses the handle to perform any one of a multiplicity of exercise routines. Use of the invention obviates a need to have a physical therapist present at all times during rehabilitation of an injured user because the invention is a pulley-based system usable at home or at an athletic field.
Description
- This application claims the benefit of U.S. Provisional Application No. 61/623,171 filed Apr. 12, 2012.
- This invention generally relates to exercise apparatus and methods and more particularly relates to in-field kits and systems for self-directed therapeutic pulley-based muscle rehabilitation methods.
- Physical exercise on a regular basis obtains health benefits. For example, regular physical exercise has been shown to decrease the likelihood of cardiovascular disease, diabetes and cancer. Regular physical exercise may also reduce stress by releasing brain chemicals, such as serotonin, dopamine and norepinephrine. In addition, regular physical exercise reduces the likelihood of obesity and the deleterious psychological effects on one's body image due to being overweight.
- In addition to the general health benefits of regular physical exercise mentioned hereinabove, regular physical exercise is often used to rehabilitate specific parts of the body after an injury or surgery. In this regard, appropriate physical exercise is used during physical therapy after an injury to or surgery on a specific part of the body. More specifically, physical exercise can help prevent scar tissue formation that might otherwise inhibit recovery after an injury or surgery. Appropriate physical exercise can also reduce joint stiffness, such as in the case of adhesive capsulitis, which is a debilitating disease causing limited motion in the shoulder joint where scar tissue has formed. Additionally, specific exercises promote cartilage lubrication, which helps in decreasing stiffness, increasing lubrication and Range of Motion (ROM).
- Moreover, regular physical exercise is often used by athletes when training prior to a sporting event to avoid injury during the subsequent sporting event. For example, the hamstring muscle group is a group of muscles often over-strained by athletes, such as track runners and those who play football, hockey, basketball, soccer, baseball and other sports. The hamstring muscle group is found on the back of the hip and thigh and includes the biceps femonis, semitendinosus and semimembranosus. Injury to the hamstring muscle group is painful and there is often a prolonged recovery. However, appropriate and regular physical exercise targeting the hamstring muscle group when training prior to a sporting event can prevent or reduce likelihood of injury that might otherwise occur during the subsequent sporting event.
- Further, regular physical exercise is often used by athletes to build muscle bulk, increase strength and enhance athletic performance. For example, tennis players find it beneficial to perform the chest cross exercise for conditioning the pectoralis major muscle, the lateral raise exercise for conditioning the deltoids, the biceps curl exercise for conditioning the biceps, as well as other exercises. As another example, baseball players find it beneficial to perform exercises that condition transverse abdominal muscles, rotator cuff and lower back muscles— Body builders and strength trainers also find it beneficial to perform regular physical exercise that target specific muscle groups to enhance muscle bulk and strength.
- A gym is often used as a venue for regular physical exercise. However, gym membership is usually required to use the gym's facilities. Gym memberships can be expensive. For example, gym membership prices for an individual can average about $2,000 per year. A gym membership for a family costs even more. Also, gym membership is location-specific. That is, gym membership requires the user to use a gym facility at a specific location. In addition, weights in a gym are typically heavy and possess limited adjustment. Further, a particular gym may not possess equipment necessary to perform a desired exercise routine. Therefore, cost of gym memberships may be financially prohibitive for some individuals and families, gym membership limits users to specific locations, weights are heavy and have limited adjustment and equipment in some gym facilities may be inadequate.
- In addition, it may be necessary to rehabilitate an accident victim or a professional athlete, who was injured because of his or her sport. In order to accomplish the rehabilitation, a physical therapist is often required to supervise physical exercises that facilitate the rehabilitation process. The rehabilitation may be on an on-going basis for an extended period of time and possibly for more than one region of the body (e.g., neck and shoulders). Given that rehabilitation may need to be performed over an extended period of time, the physical therapist will prescribe exercises that the accident victim or athlete should perform away from the physical therapist's facility, such as at home or at an athletic field. However, the current state of the art does not appear to provide suitable means for performing physical exercises away from the physical therapist's facility.
- Approaches for obtaining the benefits of regular physical exercise not requiring gym membership have been proposed. In this regard, U.S. Pat. No. 6,949,035 titled “Power Swing Training Bar and issued Sep. 27, 2005 in the name of Robert M. Halsworth discloses a power swing training device that is a tethered, truncated device attached by flexible elastic to a fixed anchor point, or to a pulley and weight system. A swivel attachment is attached to the distal end of the training device, a yoke is attached to the swivel attachment, and an elastic cord is attached to the yoke at one end and to a fixed point at the other. In a second embodiment, a cord is hung on a pulley attached to an anchor and a weight is placed at the other end of the cord. However, this patent appears to be directed to specifically developing a baseball batter's muscles and improving batting strength and velocity and not necessarily related to other sports. In addition, this patent does not appear concerned with rehabilitating an injured accident victim or injured athlete.
- Another approach is disclosed by U.S. Pat. No, 7,572,212 B2 titled “Portable Weightlifting Apparatus” and issued Aug. 11, 2009 in the name of Daniel Cassidy, et al. According to the Cassidy, et al. patent, a portable weightlifting device is disclosed having a segmented, separable, tubular housing that can be quickly and easily assembled and disassembled by a single user. The housing contains a movable weight that is coupled to a user interface outside of the housing by an inelastic cable that traverses two pulleys. Also, according to the Cassidy, et al. patent, one of the pulleys can be adjustably positioned for allowing a user to perform a multitude of exercises. However, it appears that a user must assemble the segmented housing prior to use and disassemble the segmented housing after use. Assembling and disassembling the segmented housing can be inconvenient for a user of the equipment, especially for an elderly person. In addition, this patent does not appear concerned with rehabilitating an injured accident victim or injured athlete. Further, it appears that a limitation of the Cassidy, et al, device is it only has three increments of weights. Combination of these weights to achieve a specific weight resistance desired by a user may be limited.
- Yet another approach is disclosed by U.S. Patent Application Publication No. 2011/0130255 A1 titled “Hit Strong Power Trainer Systems” and published Jun. 2, 2011 in the name of Edward Carlton. This published patent application document discloses an exercising apparatus for strengthening particular variable muscle groups comprising a handle member including a threaded attacher and an elastic tether with a first and a second anchor at each of its two ends. The handle member comprises an elongated tubular plastic shaft with a length of twelve inches or less and has a proximal end comprising a knob and a distal end. The attacher comprises a ferrous eye hook and is fixed to the distal end of the handle member. The first anchor is fixed to the first end of the elastic tether and is removably clip-connected to the threaded attacher so as to connect the elastic tether to the handle member. The second anchor is fixed to the second end of the elastic tether and is removably clip-connected to a stationary vertical structure comprising a fence. However, this published patent document does not appear to disclose use of pulleys that can provide consistent resistance. Also, this device appears inconvenient to use because it requires substantial space to mount the device. In addition, the lowest weight achievable appears to be one pound. Moreover, the elastic tether that is connected to the handle member might prove to be a relatively weak link. In addition, this published patent application document does not appear concerned with rehabilitating an injured accident victim or injured athlete.
- Although the prior art approaches recited hereinabove may disclose a power swing training device, a portable weightlifting device, and an exercising apparatus for strengthening particular variable muscle groups, the prior art recited hereinabove do not appear to disclose the invention described and claimed hereinbelow.
- The present invention addresses the, shortcomings of the prior art approaches mentioned hereinabove by providing in-field kits and systems for self-directed therapeutic pulley-based muscle rehabilitation methods. Use of the present invention promotes wellness, prevention of injury, rehabilitation and performance optimization.
- The in-field kits and systems for self-directed therapeutic pulley-based muscle rehabilitation methods comprises annular ring-shaped fasteners that can be attached to preselected locations on a stationary structure, such as a chain link fence that includes a wire mesh. In one embodiment, the ring-shaped fastener is a split first O-ring that defines a gap at the split in the first O-ring. At least one of the wires belonging to the wire mesh is passed through the gap, so that the wire is disposed within an open interior space defined by the first O-ring. The first O-ring includes an integrally connected screw-threaded latch near the location of the gap for opening and closing the gap. The screw-threaded latch is manually unthreaded to open the gap, so that the wire is received through the gap and into the open interior space defined by the first O-ring. The screw-threaded latch is manually threaded also to close the gap, so that the wire is enclosed, confined or captured within the open interior space defined by the first O-ring. In this manner, the first O-ring is coupled to the fence when the wire is captured within the open interior space defined by the first O-ring. In addition, a first pulley includes a ribbon or cord. The ribbon or cord is used to tie the first pulley to the first O-ring, so that the first pulley is coupled to the first O-ring. More specifically, the user can extend the ribbon or cord through the open interior space defined by the first O-ring, through an eyelet of an attachment belonging to the pulley and then tie the ribbon or cord into a knot. In this manner, the first pulley is coupled to the first O-ring. A second O-ring and second pulley are coupled to the fence in a similar manner.
- In addition to O-rings and pulleys, in-field kits and systems for self-directed therapeutic pulley-based muscle rehabilitation methods also includes a tether, such as in the form of a rope, cord or the like for reasons provided presently. The tether is preferably an inelastic tether for reasons provided hereinbelow. However, the tether may be an elastic tether, if desired. In this regard, the user extends the tether over each of the pulleys, so that the tether traverses or spans all of the pulleys. The tether has a proximal end portion to which a handle is coupled. The handle is an elongate member, such as a truncated baseball bat, truncated tennis racquet handle, truncated hockey stick, truncated golf club or the like. The handle may also be in the form of a baseball. The tether also has a distal end portion to which a weight is coupled. The weight may comprise a weight bag containing dense material (e.g., one or more metal objects) or aggregate (e.g., sand, gravel and/or crushed stones). The weight may alternatively comprise incremental metal weights of a type familiar to body builders and strength trainers.
- In use, the plurality of O-rings is coupled to the fence in the manner provided hereinabove. The user grasps the handle and moves the handle in order to pull on the tether that is coupled to the handle. The pulling action performed by the user places the tether, which spans the plurality of pulleys, in tension in order to lift the weight. The pulleys and the weight provide constant resistance to the user's movements and the resistance provides physical exercise for the user. Thus, each O-ring and pulley is configured to allow the plurality of O-rings and associated pulleys to be located at virtually any location on the fence in order to obtain a particularized exercise routine.
- The invention provides an in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods that are versatile and convenient to use. In this regard, the in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods are configured to be quickly deployed on and removed from a stationary structure, such as a chain link fence. There may be a plurality of O-rings and pulleys coupled to the fence, each O-ring and pulley combination being locatable at any desired location on the fence. Thus, the O-ring and pulley combination can easily vary in number and location to achieve a particularized exercise routine, such as stretching of hamstring, deltoid and bicep muscle groups. In addition, use of the in-field kit and system does not require costly membership in a gym.
- Moreover, the present invention is not limited to use with a chain link fence. Virtually any similar stationary structure is useable with the invention. For example, the present invention allows exercises to be performed using doors. In the case of doors, a specialized bracket is included that is adapted to removably connect to an edge of the door. The pulley, with or without the O-ring, is suspended from the bracket.
- Use of the invention enables an athlete to make a transition from a clinic rehabilitation environment to an indoor or in-field environment for continuing his or her rehabilitation exercise routine. Use of the invention also allows an accident victim to make a rehabilitation transition from a clinical setting to an indoor (e.g., home) setting. In addition, use of the invention obviates the need to have a physical therapist present at all times during rehabilitation. The invention is a pulley-based system that enables use of the invention at home or at an athletic field.
- According to an aspect of the present invention, there is provided an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation, comprising: a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure; a plurality of pulleys adapted to be coupled to respective ones of the plurality of ring-shaped fasteners; a tether adapted to engage the pulleys, the tether having a proximal end portion and a distal end portion; and a handle adapted to be coupled to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
- According to another aspect of the present invention, there is provided an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation, comprising: a plurality of O-ring clips adapted to be connected to respective ones of a plurality of preselected locations on a stationary structure, each of the plurality of O-ring clips being openable and closeable for selectively positioning each of the plurality of O-ring clips on the stationary structure; a plurality of pulleys adapted to be connected to respective ones of the plurality of O-ring clips; a flexible tether adapted to slidably engage the plurality of pulleys, the tether having a proximal end portion and a distal end portion, the distal end portion being adapted to connect to a weight; and a handle adapted to be connected to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
- According to yet another aspect of the present invention there is provided an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation, comprising: a plurality of split O-ring clips defining a gap therein adapted to be opened and closed for connecting each of the plurality of O-ring clips to respective ones of a plurality of preselected locations on a stationary structure, each of the plurality of O-ring clips including a latch mechanism associated with the gap for opening and closing the gap; a plurality of friction-free pulleys adapted to be connected to respective ones of the plurality of O-ring clips; a flexible tether adapted to slidably engageably span the plurality of pulleys, the tether having a proximal end portion and a distal end portion; a handle adapted to be connected to the proximal end portion of the tether, the handle including a hook member for engaging the proximal end portion of the tether, the handle being adapted for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension; and a tote bag sized to contain the plurality of O-ring clips, the plurality of pulleys, the tether and the handle.
- According to still another aspect of the present invention there is provided an in-field kit system for self-directed therapeutic pulley-based muscle rehabilitation, comprising: a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure; a plurality of pulleys adapted to be coupled to respective ones of the plurality of ring-shaped fasteners; a tether adapted to engage the pulleys, the tether having a proximal end portion and a distal end portion; and a handle adapted to be coupled to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
- According to an additional aspect of the present invention there is provided a method of assembling an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation, comprising: providing a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure; providing a plurality of pulleys adapted to be coupled to respective ones of the plurality of ring-shaped fasteners; providing a tether adapted to engage the pulleys, the tether having a proximal end portion and a distal end portion; and providing a handle adapted to be coupled to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
- According to another aspect of the present invention, there is provided an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation, comprising: a bracket adapted to be mounted on a door; a pulley adapted to be coupled to the bracket; a tether adapted to engage the pulley, the tether having a proximal end portion and a distal end portion; and a handle adapted to be coupled to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
- A feature of the present invention is the provision of a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure.
- Another feature of the present invention is the provision of a plurality of tensioning supports adapted to be coupled to respective ones of the plurality of ring-shaped fasteners.
- An additional feature of the present invention is the provision of a tether spanning the tensioning supports, the tether having a proximal end portion connectable to a handle and a distal end portion connectable to a weight.
- Yet another feature of the present invention is the provision of a latch mechanism integrally connected to the ring-shaped fastener, the latch mechanism being either a screw-threaded latch, a slidable latch or a threaded coupler latch.
- A further feature of the present invention is the provision of a door bracket adapted to couple the pulleys, handle and tether combination to a door.
- In addition to the foregoing, various other method and/or device aspects and features are set forth and described in the teachings, such as text (e.g., claims and/or detailed description) and/or drawings of the present invention.
- The foregoing is a summary and thus may contain simplifications, generalizations, inclusions, and/or omissions of detail. Consequently, those skilled in the art will appreciate that the summary is illustrative only and is not intended to be in any way limiting. In addition to the illustrative aspects, embodiments, and features described hereinabove, further aspects, embodiments, and features will become apparent by reference to the drawings and the following detailed description.
- The invention will be more fully understood by reference to the detailed description in conjunction with the following figures, wherein:
-
FIG. 1 is a view in perspective showing a first embodiment in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods in operative condition to be used by a user, the first embodiment in-field kit and system employing a weight bag; -
FIG. 2 is a view in perspective showing the first embodiment in-field kit and system in operative condition to be used by the user, the first embodiment in-field kit and system employing a plurality of incremental weights; -
FIG. 3 is a view in perspective showing the first embodiment in-field kit and system being used by the user, the user performing a first exercise routine; -
FIG. 4 is a view in perspective showing the first embodiment in-field kit and system being used by the user, the user performing a second exercise routine; -
FIG. 5 is a view in perspective showing the first embodiment in-field kit and system being used by the user, the user performing a third exercise routine; -
FIG. 6 is a view in perspective showing a first embodiment ring-shaped fastener and integrally connected pulley, the first embodiment ring-shaped fastener being shown in an open position prior to the first embodiment ring-shaped fastener and integrally connected pulley being coupled to a wire mesh belonging to a chain link fence; -
FIG. 7 is a view in perspective showing the first embodiment ring-shaped fastener and integrally connected pulley, the first embodiment ring-shaped fastener being shown in a closed position after the first embodiment ring-shaped fastener and integrally connected pulley are coupled to the wire mesh belonging to the chain link fence; -
FIG. 8 is a view in elevation showing the first embodiment ring-shaped fastener in an open position prior to being coupled to the wire mesh belonging to the chain link fence; -
FIG. 9 is a view in elevation showing the first embodiment ring-shaped fastener and a wire belonging to the wire mesh of the chain link fence, the wire extending through an open interior space defined by the first embodiment ring-shaped fastener after the first embodiment ring-shaped fastener is coupled to the chain link fence, this view also showing a screw-threaded latch substantially closing the gap; -
FIG. 10 is a view in partial vertical section showing a second embodiment ring-shaped fastener, the second embodiment ring-shaped fastener comprising a slidable latch including a spring-biased gate shown in an open position prior to being coupled to the wire mesh belonging to the chain link fence; -
FIG. 11 is a view in partial vertical section showing the second embodiment ring-shaped fastener and the wire belonging to the wire mesh of the chain link fence, the wire extending through an open interior space defined by the second embodiment ring-shaped fastener, the second embodiment ring-shaped fastener comprising the slidable latch including the spring-biased gate shown in a closed position after the second embodiment ring-shaped fastener is coupled to the chain link fence; -
FIG. 12 is a view in elevation showing the second embodiment ring-shaped fastener defining an optional arcuate-shaped slot formed through a wall thereof for accommodating an optional movable tab for easier opening and closing of the second embodiment ring-shaped fastener; -
FIG. 12A is a view in elevation showing a third embodiment ring-shaped fastener including a rotatable threaded attachment member for opening and closing the third embodiment ring-shaped fastener; -
FIG. 126 is a view in elevation showing a fourth embodiment ring-shaped fastener including a resilient gate member for opening and closing the fourth embodiment ring-shaped fastener; -
FIG. 13 is a view in elevation showing a first embodiment handle including an integrally connected hook and a tether portion tied in a knot about the hook; -
FIG. 14 is a view in elevation showing a second embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook; - FIG, 15 is a view in elevation showing a third embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook;
-
FIG. 16 is a view in elevation showing a fourth embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook; -
FIG. 17 is a view in elevation showing a fifth embodiment handle including an integrally connected yoke and the tether portion tied in a knot about the yoke; -
FIG. 18 is a view taken along section line 18-18 ofFIG. 17 ; -
FIG. 19 is a view in elevation showing a sixth embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook; -
FIG. 19A is a view in elevation showing a seventh embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook; -
FIG. 19B is a view in elevation showing an eighth embodiment handle including an integrally connected hook and the tether portion tied in a knot about the hook; -
FIG. 20 is a view in perspective showing a container in the form of a tote bag for containing and carrying the ring-shaped fasteners, pulleys, tether, weight bag and handle; -
FIG. 21 is view in perspective showing a second embodiment exercise kit and system deployed on a door, the second embodiment exercise kit and system including a bracket assembly removably mounted on the door; -
FIG. 21A is a view in elevation of an alternative bracket assembly adapted to be removably mountable on the door; -
FIG. 21B is a plan view of a tensioner for adjustably tensioning a tether; -
FIG. 21C is a view taken alongsection line 21C-21C ofFIG. 21B ; and - FIG, 22 is a flowchart showing an illustrative method of assembling an in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods.
- In the following detailed description, reference is made to the accompanying drawings, which form a part hereof. In the drawings, similar symbols typically identify similar components, unless context dictates otherwise. The illustrative embodiments described in the detailed description, drawings, and claims are not meant to be limiting. Other embodiments may be utilized, and other changes may be made, without departing from either the spirit or scope of the invention.
- In addition, the present patent specification uses formal outline headings for clarity of presentation. However, it is to be understood that the outline headings are for presentation purposes, and that different types of subject matter may be discussed throughout the application (e.g., device(s)/structure(s) may be described under process(es)/operations heading(s) and/or process (es)/operations may be discussed under structure(s)/process(es) headings; and/or descriptions of single topics may span two or more topic headings). Hence, the use of the formal outline headings is not intended to be in any way limiting.
- Therefore, with reference to
FIG. 1 , there is shown a first embodiment in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods, generally referred to as 10, in operative condition for use by auser 20. In this regard, first embodiment exercise kit and system 10 (hereinafter referred to as “first embodiment kit 10”) is beneficially used byuser 20 to perform a plurality of exercise routines that selectively exercise desired muscle groups, such as the hamstring, deltoid, bicep and abdominal muscle groups. - It will be appreciated that
first embodiment kit 10 is particularly useful for allowing an accident victim or a professional athlete, who was injured because of his or her sport, to rehabilitate the injury in an on-going, self-directed process without need of a physical therapist being present to direct the process. However, the accident victim or injured professional athlete will begin rehabilitation first by working-out under the direction of the physical therapist at the facility of the physical therapist. While under the direction of the physical therapist, the accident victim or injured professional athlete will acquire an understanding from the physical therapist as to what is required to rehabilitate injured muscles and ligaments, learn what exercises to use for rehabilitating the injured muscles and ligaments and also learn how to usefirst embodiment kit 10 for regaining strength, flexibility and other physical attributes. After working-out under the direction of the physical therapist for a necessary period of time (e.g., two weeks, four weeks or one month), the physical therapist will instruct the accident victim or professional athlete to perform predetermined exercises “at home” (i.e., away from the physical therapist's facility) for accomplishing the desired rehabilitation usingfirst embodiment kit 10. In the case of the athlete, the exercises may be performed at home or at an athletic field (i.e., “in-field” exercising). - After the necessary period of time allotted for at-home or in-field exercising, the accident victim or professional athlete returns to the physical therapist for evaluation. If necessary, the physical therapist may modify the prescribed at-home or in-field treatment plan. Therefore, use of
first embodiment kit 10 obviates the need to have a physical therapist present at all times during rehabilitation. In addition, as described in detail hereinbelow,first embodiment kit 10 is a pulley-based system that enables use offirst embodiment kit 10 at home or in-field. - Referring again to
FIG. 1 , and as described in more detail hereinbelow,first embodiment kit 10 is adapted to be coupled to a stationary structure, such as a chain link fence, generally referred to as 30.Fence 30 is securely anchored insoil 35, such as by afooting 37, so thatfence 30 is stationary.Fence 30, which forms no part of the present invention, includes a vertically oriented corner post or endpost 40 having anupper end portion 50 and alower end portion 60, thelower end portion 60 thereof being embedded insoil 35 by means offooting 37. Alower rail 70 is connected to and laterally extends fromlower end portion 60 and includes a plurality of spaced-apart and aligned lowertension wire holders 80. The lowertension wire holders 80 are adapted to securely retain alower tension wire 90 that extends parallel to and abovelower rail 70 for reasons disclosed momentarily. In addition, anupper rail 100 is connected to and laterally extends fromupper end portion 50 and includes a plurality of spaced-apart and aligned uppertension wire holders 110. The uppertension wire holders 110 are adapted to securely retain anupper tension wire 120 that extends parallel to and belowupper rail 100 for reasons disclosed momentarily. In this manner,upper rail 100 andupper tension wire 120 run parallel tolower rail 70 andlower tension wire 90. A chain link mesh, generally referred to as 130, is connected to lowertension wire 90 andupper tension wire 120, so thatchain link mesh 130 is secured in tension therebetween.Chain link mesh 130 includes a multiplicity ofwires 140, which may be arranged in a criss-cross pattern, as shown. - Referring to
FIGS. 1 and 2 , and as described in detail hereinbelow,first embodiment kit 10 comprises a plurality of first embodiment ring-shaped fasteners, such as a first O-ring clip 150 adapted to be coupled to a first preselected location onchain link mesh 130 and a second O-ring clip 160 adapted to be coupled to a second preselected location onchain link mesh 130. As disclosed in detail hereinbelow, applicant's O-ring clips 150/160 are “screw-type” O-ring clips and are openable and closeable for individually positioning and coupling O-ring clips 150/160 at any desired location onchain link mesh 130. - Referring again to
FIGS. 1 and 2 , a first tensioning support, such as a substantially friction-freefirst pulley 170, is adapted to be coupled to first O-ring clip 150 and a second tensioning support, such as a substantially friction-freesecond pulley 180, is adapted to be coupled to second O-ring clip 160.Pulleys 170/180 may each be a commercially available pulley, such as an “ESP Single Swivel Pulley With Becket” ball-bearing type pulley which may be available from Harken Industrial Company, Incorporated located in Pewaukee, Wis., U.S.A. A smooth, high quality ball bearing construction forpulleys 170/180 offers a large range of resistance that is particularly useful for exercising the cervical spine (i.e., neck) and lumbar spine (i.e., lower back). The friction-free feature ofpulleys 170/180, which is due to the ball bearing construction, allows for a smooth, constant resistance throughout the range of motion performed byuser 20. - Referring yet again to
FIGS. 1 and 2 , a compliant orflexible tether 190, such as a flexible rope or cord, slidably engageably spans bothpulleys 170/180 for reasons disclosed hereinbelow. Tether 190 is made of a synthetic material, such as polyethylene, aramid, carbon fiber or the polymer nylon. Tether 190 may be elastic, if desired, with a suitable elastic modulus for achieving a desired resistance to being pulled or tensioned. The elastic nature oftether 190 gradually increases resistance being experienced byuser 20. Such a gradual increase in resistance may be preferred by some users. Preferably, however,tether 190 is substantially inelastic or non-recoil to avoidtether 190 snapping-back and hittinguser 20 should tether 190 inadvertently break while being pulled. Tether 190 is also preferably substantially inelastic when performing the exercises to avoid any rebound effect on muscles, tendons and ligaments. Use of non-recoil orinelastic tether 190 obtains other benefits, as well. In this regard, such a non-recoil orinelastic tether 190 facilitates rehabilitation, sports training, injury prevention and improves physical performance. More specifically, when using non-recoil orinelastic tether 190, resistance is constant throughout range of motion from a shortened muscle position to a lengthened muscle position. Constant resistance, in turn, allows for specific dosage of exercises that obtains specific functional qualities, such as endurance, circulation, coordination and strength. Constant resistance also allows control of the range of motion and managing different types of exercises, such as concentric, isometric and eccentric exercises. - Still referring to
FIGS. 1 and 2 ,first embodiment kit 10, which can be conveniently used in a home environment as described hereinbelow, is efficient and effective because the distance frompulleys 170/180 and the exercising components (e.g., weights, bats, and balls) is fixed by the length ofinelastic tether 190. Theinelastic tether 190, unlike an elastic tether, which is used by most, if not all therapists, is fixed in length, and will not vary in length when repeatedly used or when subjected to heat and cold in an outdoor environment. Thus, a therapist need not be present to verify whether prescribed exercises are performed with a resulting expected outcome. In this regard, it is difficult for elastic tethers to achieve expected outcomes because of the above-identified considerations associated with elastic tethers. When using an elastic tether, where the resistance changes with increased length of the elastic tether, one must take into consideration the age of the elastic tether and the possibility of the elastic tether “drying-up” (i.e., becoming stiff or brittle), decreased resistance capability and difficulty gauging progress because it is difficult to change and calculate a suitable weight/resistance. When using an elastic tether, resistance increases as muscle fibers move into an inefficient range of motion, thereby increasing risk of injury or leading to pathology if not closely monitored by a therapist. - Referring yet again to
FIGS. 1 and 2 ,tether 190 has aproximal end portion 200 and adistal end portion 210. An elongate first embodiment dowel or handle 220, which is adapted to be connected toproximal end portion 210, includes ahook member 230 for engagingproximal end portion 210 oftether 190.Distal end portion 210 oftether 190 is adapted to be connected to a first embodiment weight, such as aweight bag 240. Theweight bag 240 contains a dense material (e.g., one or more metal objects) or aggregate (e.g., sand, gravel and/or crushed stones). Alternatively,distal end portion 210 oftether 190 may be adapted to be connected to a second embodiment weight, such as a plurality ofincremental weights 250 stacked one upon the other and of a type familiar to body builders and strength trainers. In either case of aweight bag 240 orincremental weights 250, the weights need not be heavy and can be readily adjusted to suit the individual strength capabilities ofuser 20. - In
FIGS. 3 , 4 and 5,user 20 is shown performing a first exercise routine, a second exercise routine and a third exercise routine, respectively. In the first exercise routine,user 20 has coupled O-ring clips 150/160 and associatedpulleys 170/180 at preselected locations onchain link mesh 130. Tether 190 has been placed byuser 20 overpulleys 170/180, such thattether 190 spans pulleys 170/180. First embodiment handle 220 is connected toproximal end portion 200 oftether 190 andincremental weights 250 are removably connected todistal end portion 210 oftether 190.User 20 moves first embodiment handle 220 in a desired manner and O-ring clips 150/160 in combination withpulleys 170/180,incremental weights 250 andtether 190 provide resistance to user's 20 movement offirst embodiment handle 220. In the first exercise routine,user 20 is shown with anarm 255 moving first embodiment handle 220 in a downward arc from user's 20 abdominal region in order to exercise user's 20 forearm and bicep muscle groups. Exercising and strengthening of the forearm and bicep muscle groups may enhance performance in athletic activities, such as tennis and baseball. In the second exercise routine, O-ring clips 150/160 and associatedpulleys 170/180 are located at other preselected locations onchain link mesh 130 for exercising some of the same muscle groups or completely different muscle groups. In this second exercise routine, botharms 255 are outwardly horizontally extended and both hands are shown graspingfirst embodiment handle 220.User 20 then moves first embodiment handle 220 either in an upward arc, laterally, and/or vertically in order to exercise user's 20 biceps and pectoral muscle groups. Exercising and strengthening of the bicep and pectoral muscle groups may enhance performance in athletic activities, such as baseball and hockey. In the third exercise routine, O-ring clips 150/160 and associatedpulleys 170/180 are located at yet other preselected locations onchain link mesh 130 for exercising some of the same muscle groups or completely different muscle groups. In this third exercise routine, botharms 255 are outwardly horizontally extended to a side ofuser 20 and both hands are shown graspingfirst embodiment handle 220.User 20 then moves first embodiment handle 220 in a horizontal arc from side-to-side in order to exercise user's 20 bicep, pectoral, abdominal, hamstring and back muscle groups. Exercising and strengthening of the bicep, pectoral, abdominal, hamstring and back muscle groups may enhance performance in athletic activities, such as tennis, baseball, hockey and golf. Thus, based on applicant's teachings, it should be apparent to a person of ordinary skill in the art of exercise equipment design that placement of O-ring clips 150/160 and associatedpulleys 170/180 at various preselected locations onchain link mesh 130 can obtain any one of a multiplicity of exercise routines in order to benefit specific muscle groups. The first, second and third exercise routines mentioned hereinabove are but examples of the multiplicity of possible exercise routines achievable by usingfirst embodiment kit 10 and should not be construed as limiting. In addition to benefiting specific muscle groups, use offirst embodiment kit 10 for purposes of regular physical exercise may improve overall physical health, including weight control. - Referring to
FIGS. 6 , 7, 8 and 9, the previously mentioned first embodiment ring-shaped fasteners comprising O-ring clips 150/160 will now be described in detail. For reasons of brevity, the description hereinbelow is directed to first O-ring clip 150, it being understood that the description hereinbelow applies to identical second O-ring clip 160, as well. In this regard, first O-ring clip 150 comprises anannular wall 260 having anouter surface 270 and aninner surface 280. Theinner surface 280 defines an openinterior space 290 within first O-ring clip 150. The first O-ring clip 150 also comprises an integrally connected first embodiment “screw-type” or “screw-threaded” latch mechanism, generally referred to as 295. Firstembodiment latch mechanism 295 comprises a pair of oppositely disposedparallel ledges outer surface 270.Ledges gap 310 betweenledges Gap 310 extends throughwall 260 such thatgap 310 is in communication with openinterior space 290.Gap 310 facilitates coupling of first O-ring clip 150 to wire 140 that belongs tochain link mesh 130. More specifically,gap 310 is sized to receivewire 140 therethrough, whichwire 140 passes throughgap 310 and into openinterior space 290. A pair of aligned internally threadedbores ledges screw 320 is threadably received in internally threaded bores 310 a and 310 b. Awing nut 330 is threadably received onto an end portion ofscrew 320 and threaded thereon untilwing nut 330 engages an underside surface ofledge 300 b. In this manner,gap 310 is closed to block escape ofwire 140 from openinterior space 290. The process recited hereinabove is performed in reverse to remove first O-ring clip 150 fromwire 140. - Referring again to
FIGS. 6 , 7, 8 and 9,first pulley 170 is adapted to be connected to first O-ring dip 150. For reasons of brevity, the description hereinafter is directed to connection offirst pulley 170 to first O-ring clip 150. It being understood that the description hereinafter applies to an identical connection ofsecond pulley 180 to second O-ring clip 160, as well. As previously mentioned,pulley 170 may be a commercially available pulley, such as the “ESP Single Swivel Pulley With Becker type pulley which may be available from Harken Industrial Company, Incorporated. Alternatively, however,pulley 170 may be of a different type according to applicant's design, which is described immediately hereinafter. In this regard,first pulley 170 comprises anaxle 340 on which agrooved wheel 350 is rotatably mounted.Wheel 350 defines a grooved or recessedsurface 360 extending aroundwheel 350. Previously mentionedtether 190 slidably engages recessedsurface 360 astether 190 spansfirst pulley 170. Apulley arm 370interconnects axle 340 to acoupling 380 defining aneyelet 390 therethrough. Aconnector 400 connects coupling 380 to first O-ring 150 and, thus, connectsfirst pulley 170 to first O-ring 150.Connector 400 may be a rope, ribbon or cord that extends througheyelet 390 and openinterior space 290 and that is tied into aknot 405 for securely connectingfirst pulley 170 to first O-ring 150. Alternatively,connector 400 may be ring-shaped fastener as described hereinbelow or a commercially available “BLACK DIAMOND OVAL carabiner clip which may be available from REI, Incorporated located in Summer, Wash., U.S.A. - As best seen in
FIGS. 10 and 11 , there is shown a second embodiment ring-shaped fastener, generally referred to as 410. Second embodiment ring-shapedfastener 410 comprises a “gate-type” O-ring clip 420 and is distinguishable from applicant's previously mentioned “screw-type” O-ring clips 150/160, More specifically, gate-type O-ring clip 420 comprises anannular wall 430 having anouter surface 440 and aninner surface 450. Theinner surface 450 defines an openinterior space 460 within gate-type O-ring clip 420.Wall 430 defines anentrance 470 therethrough that is in communication with openinterior space 460 for reasons made apparent presently. Gate-type O-ring clip 420 defines an arcuate-shapedfirst chamber 480 therein having a closedrear portion 490 and an openfront portion 500. Disposed inrear portion 490 offirst chamber 480 is a resilient biasing member, such as acoiled spring 510, for purposes disclosed momentarily.Spring 510 engages an arcuate-shaped plug orgate 520 that is matingly slidably disposed infirst chamber 480 and that extends fromentrance 470 tospring 510, such thatspring 510 engagesgate 520. Gate-type O-ring clip 420 also defines an arcuate-shapedsecond chamber 530 therein having a closedrear portion 540 and an openfront portion 550.Open front portion 500 offirst chamber 480 and openfront portion 550 ofsecond chamber 530 are aligned one to another and are in communication withentrance 470.Entrance 470 facilitates coupling of gate-type O-ring clip 420 to wire 140 that belongs tochain link mesh 130. In this regard,entrance 470 is sized to receivewire 140 therethrough, whichwire 140 passes throughentrance 470 and into openinterior space 460. More specifically,gate 520 is grasped byuser 20 and manually moved infirst chamber 480 in a direction of anarrow 555 towardrear portion 490 offirst chamber 480. Asgate 520 moves in direction ofarrow 555,entrance 470 opens becauseentrance 470 is no longer blocked bygate 520. Also, asgate 520 moves in direction ofarrow 555,spring 510 compresses. Gate-type O-ring clip 420 is thereafter coupled towire 140 belonging tochain link mesh 130 in the manner described presently. In this regard,wire 140 is passed throughentrance 470 to be received into openinterior space 460. At this point,gate 520 is manually released byuser 20, so thatgate 520 travels in a direction of anarrow 557 to be received intosecond chamber 530. Travel ofgate 520 in direction ofarrow 557 is caused by expansion ofspring 510 which expansion is, in turn, caused by user's 20 manual release ofgate 520. In other words, manual release ofgate 520 causesspring 510 to be released from spring's 510 compressed state, such thatspring 510 expands to movegate 520. In this manner,entrance 470 is closed to block escape ofwire 140 from openinterior space 460, so that gate-type O-ring clip 420 is removably coupled towire 140 that belong tochain link mesh 130. The process recited hereinabove is performed in reverse to remove gate-type O-ring clip 420 fromwire 140. - As best seen in
FIG. 12 ,wall 430 of gate-type O-ring clip 420 may optionally define an arcuate-shapedslot 560 therein aligned with and adjacent togate 520. Anoptional tab 570 that is integrally connected togate 520 outwardly projects fromgate 520 and extends throughslot 560.Tab 570 may be grasped byuser 20 and moved in the direction of previously mentionedarrow 555 for conveniently movinggate 520 towardrear portion 490 offirst chamber 480. Astab 570 is moved in the direction ofarrow 555,entrance 470 is opened. Conversely, whentab 570 is released, previously mentionedspring 510 expands to movegate 520, so thatentrance 470 is closed bygate 520. - Referring to
FIG. 12A , there is shown a third embodiment ring-shaped fastener, generally referred to as 572. Third embodiment ring-shapedfastener 572 comprises a threaded “coupler latch” O-ring clip 574 a having a generallyannular wall 574 b of circular transverse cross-section.Wall 574 b has anouter surface 574 c and aninner surface 574 d. Theinner surface 574 d defines an openinterior space 574 e within gate-type O-ring clip 574 a.Wall 574 b defines an entrance orgap 574 f therethrough that is in communication with openinterior space 574 e for reasons made apparent presently.Entrance 574 f facilitates coupling of gate-type O-ring clip 572 to wire 140 that belongs tochain link mesh 130. In this regard,entrance 574 f is sized to receivewire 140 therethrough, whichwire 140 passes throughentrance 574 f and into openinterior space 574 e when gate-type O-ring clip 574 a is opened. Due to presence ofentrance 574 f,wall 574 b has afirst end portion 574 g that is externally threaded and asecond end portion 574 h that is also externally threaded. An adjustable, generally cylindrical coupler member 574 i is adapted to threadably engagefirst end portion 574 g andsecond end portion 574 h. For this purpose, coupler member 574 i defines a central, threadedinternal bore 574 j therethrough for threadably engaging the external threads offirst end portion 574 g andsecond end portion 574 h. Coupler member 574 i may also have a texturedexternal surface 574 k for allowinguser 20 to easily grip and turn coupler member 574 i, Turning coupler member 574 i, such as in the direction of an arrow 574 l, will cause coupler member 574 i to threadably advance alongfirst end portion 574 g and threadably engagesecond end portion 574 h, thereby closingentrance 574 f. Turning coupler member 574 i, such as in the direction of anarrow 574 m, will cause coupler member 574 i to threadably retreat alongfirst end portion 574 g and threadably disengagesecond end portion 574 h, thereby openingentrance 574 f. Thus, manipulation of coupler member 574 l allowswire 140 to be received throughentrance 574 f, whenentrance 574 f is opened, and captured withininterior space 574 e when entrance 674 f is closed. Manipulation of coupler member 574 l also allowswire 140 to be received throughentrance 574 f and released frominterior space 574 e. In this manner, configuration of coupler member 574 i allows coupler member 574 i to be conveniently releasably attached tofence 30. - Referring to
FIG. 12B , there is shown a fourth embodiment ring-shaped fastener, generally referred to as 576. Fourth embodiment ring-shapedfastener 576 comprises a generallyannular wall 578 a.Wall 578 a has anouter surface 578 b and aninner surface 578 c. Theinner surface 578 c defines an openinterior space 578 d within ring-shapedfastener 576.Wall 578 a defines an entrance orgap 578 e therethrough that is in communication with openinterior space 578 d for reasons made apparent presently.Entrance 578 e facilitates coupling of ring-shapedfastener 576 to wire 140 that belongs tochain link mesh 130. In this regard,entrance 578 e is sized to receivewire 140 therethrough, whichwire 140 passes throughentrance 578 e and into openinterior space 578 d when ring-shapedfastener 576 is opened.Entrance 578 e of ring-shapedfastener 576 is opened and closed by means of aresilient gate member 578f spanning entrance 578 a and that is bendable about apin 578 g that couplesgate member 578 f to wall 578 a.Gate member 578 f is capable of being manually bent to abent state 578 h generally in the direction of an arrow 578 i, as shown, for openingentrance 578 e.Gate member 578 f will return to its original unbent state, in the direction of anarrow 578 j, upon manual release thereby closingentrance 578 e. A type of fastener suitable for this purpose can be a commercially available “TMS-CB156” carbiner clip that may be available from Qinfeng Electric Machinery Company, Ltd. located in Fuzhou City, Fujian Province, China (Mainland). - Referring to FIG, 13, previously mentioned
first embodiment handle 220 comprises a generally cylindrical andelongate shaft 580 having aproximal end portion 590 and adistal end portion 600. Attached todistal end portion 600 is previously mentionedhook member 230. Thehook member 230 defines aneyelet 630 through whichproximal end portion 200 oftether 190 passes. After being passed througheyelet 630,proximal end portion 200 is tied byuser 20 into aknot 615 for securingtether 190 to hookmember 230 and therefore toshaft 580. In addition,proximal end portion 590 ofshaft 580 may include a bulbous, knob-like portion 620 to reduce likelihood of user's 20 hand inadvertently slipping fromshaft 580 asuser 20 utilizes first embodiment handle 220 for exercising. Moreover,shaft 580 may have a textured outer surface (not shown), if desired, for facilitating gripping ofshaft 580 byuser 20 asuser 20 utilizes first embodiment handle 220 for exercising. - Referring to
FIG. 14 , there is shown a second embodiment handle 630 which can be utilized byuser 20 who may prefer exercising with a simulated baseball bat. In this regard, second embodiment handle 630 is configured as a lower portion of a truncated baseball bat and has aproximal end portion 640 and adistal end portion 650. Attached todistal end portion 650 is previously mentionedhook member 230, which defineseyelet 630 through whichproximal end portion 200 oftether 190 passes and is tied intoknot 615. In addition,proximal end portion 640 of second embodiment handle 630 includes an outwardly projectingflange 650 to reduce likelihood of user's 20 hand inadvertently slipping from second embodiment handle 630 asuser 20 utilizes second embodiment handle 630 for exercising. - Referring to
FIG. 15 , there is shown a third embodiment handle 660 which can be utilized byuser 20, who may prefer exercising with a simulated tennis racquet. In this regard, third embodiment handle 660 is configured as a lower portion of a truncated tennis racquet handle and has aproximal end portion 670 and adistal end portion 680. Attached todistal end portion 680 is previously mentionedhook member 230, which defineseyelet 630 through whichproximal end portion 200 oftether 190 passes and is tied intoknot 615. In addition,proximal end portion 670 of third embodiment handle 660 includes an outwardly projectingflange 690 to reduce likelihood of user's 20 hand inadvertently slipping from third embodiment handle 660 asuser 20 utilizes third embodiment handle 630 for exercising. - Referring to
FIG. 16 , there is shown a fourth embodiment handle 700 which can be utilized byuser 20, who may prefer exercising with a simulated hockey stick. In this regard, fourth embodiment handle 700 is configured as a lower portion of a truncated hockey stick handle and has aproximal end portion 710 and adistal end portion 720. Attached todistal end portion 720 is previously mentionedhook member 230, which defineseyelet 630 through whichproximal end portion 200 oftether 190 passes and is tied intoknot 615. In addition,proximal end portion 710 of fourth embodiment handle 700 includes an outwardly projectingflange 730 to reduce likelihood of user's 20 hand inadvertently slipping from fourth embodiment handle 700 asuser 20 utilizes fourth embodiment handle 700 for exercising. - Referring to
FIGS. 17 and 18 , there is shown a fifth embodiment handle 740 having aproximal end portion 750 and adistal end portion 760.Distal end portion 760 has a smooth,transverse bore 765 extending therethrough for reasons disclosed presently. Attached todistal end portion 760 is a swivable or pivotable yoke, generally referred to as 770. Theyoke 770 comprises afirst bolt 780 that extends throughbore 765 and further comprises abeam member 790 havingarms first bolt 780. Abridge member 800 is spaced-apart from and extends overbeam member 790 and is connected tobeam member 790 by means of asecond bolt 810. In this manner, aneyelet 820 is defined betweenbeam member 790 andbridge member 800, such thatproximal end portion 200 oftether 190 can pass througheyelet 820 and tied into aknot 825. In addition,proximal end portion 750 of fifth embodiment handle 740 includes a bulbous, knob-like portion 830 to reduce likelihood of user's 20 hand inadvertently slipping from fifth embodiment handle 740 asuser 20 utilizes fifth embodiment handle 740 for exercising. Moreover, fifth embodiment handle 740 may have a textured outer surface (not shown), if desired, for facilitating gripping of fifth embodiment handle 740 byuser 20 asuser 20 utilizes fifth embodiment handle 740 for exercising. - Referring to
FIG. 19 , there is shown a sixth embodiment handle 835 that is a simulated baseball. Sixth embodiment handle 835 is effective with overhead exercise activities requiring arm rotation for throwers and pitchers. - Referring to
FIG. 19A , there is shown a seventh embodiment handle, generally referred to as 837, that is a strap device. Seventh embodiment handle 837 is effective for exercising a diversity of muscle groups, such as neck, shoulder, arm, ankle, leg, scapula and knee muscle groups. Seventh embodiment handle 837 includes anelongate grip 838 a that may have a plurality of integrally formed surface ridges orribs 838 b spaced along the length ofelongate grip 838 a, so thatgrip 838 a may be more easily gripped by the hand ofuser 20 asuser 20 exercises. Astrap 838 c extends through a central bore (not shown) ofgrip 838 a, thestrap 838 c having afirst end portion 838 d and asecond end portion 838 e.First end portion 838 d andsecond end portion 838 e are joined by aclip 838 f for holdingfirst end portion 838 d andsecond end portion 838 e together.Hook member 230 is also connected to clip 838 f.Proximal end portion 200 oftether 190 can pass througheyelet 610 and knotted in the manner described hereinabove, in order to connecttether 190 toseventh embodiment handle 837. - Referring to
FIG. 19B , there is shown an eighth embodiment handle, generally referred to as 839, that is an alternative strap device. Eighth embodiment handle 839 is effective for exercising the previously mentioned diversity of muscle groups, such as the neck, shoulder, arm, ankle, leg, scapula and knee muscle groups. Eighth embodiment handle 839 is substantially similar toseventh embodiment handle 837, exceptgrip 838 a (seeFIG. 19A ) is absent. Rather, eighth embodiment handle 839 comprises astrap portion 839 a, which may be a “Velcro®brand fastener” hook-and-loop material, configured to wrap about the head, neck, scapula or ankle of the user for exercising the afore-mentioned muscle groups. The mark “Velcro®brand fastener” is a registered trademark of Velcro Industries B.V. located in Amsterdam, The Netherlands. In addition,strap portion 839 a of eighth embodiment handle 839 is flexible for conforming to various sizes of a user's neck, shoulder, arm, ankle, leg, scapula and knee muscle groups. Eighth embodiment handle 839 serves a multi-purpose function in the sense that eighth embodiment handle 839 can be used to exercise multiple portions of the body of the user, such as the various muscle groups mentioned hereinabove. - In
FIG. 20 , a container, such as a storage bag ortote bag 840, defines an inner volume 850 therein for receiving any or all of O-rings clips 150/160/420,pulleys 170/180,tether 190, handles 220/630/660/700/740 andweight bag 240. Theweight bag 240 may have had the weights emptied therefrom to enableweight bag 240 being folded and placed intote bag 840. Alternatively,tote bag 840 may serve as a weight bag, as well as a storage bag.Tote bag 840 defines anopening 860 for allowing access to inner volume 850. Opening 860 may be opened and closed by any suitable means, such as by azipper 870.Tote bag 840 may be made from a pliable material, such as nylon, cloth or the like. Alternatively,tote bag 840 may be in the form of a metal case (not shown), made from a light weight metal that, for example, might be thin gauge aluminum. - Turning now to
FIG. 21 , there is shown a second embodiment in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods, generally referred to as 880 (hereinafter referred to as “second embodiment kit 880”), that may be used in an indoor environment (e.g., at home, at a hotel) or at an athletic field. When used in an indoor environment,second embodiment kit 880 is deployable on aconventional door 890 that may be hinged to an upright wall 900 by means of a hingedconnection 910.Door 890 has a firstside edge portion 920 a, a secondside edge portion 920 b, atop edge portion 920 c, afront surface 925 and a rear surface (not shown). A conventional upperdoor frame portion 927 is disposed oppositetop edge portion 920 c ofdoor 890, such that agap 929 is defined therebetween.Conventional door 890, wall 900, hingedconnection 910 and upperdoor frame portion 927 form no part of the present invention. Previously mentionedfirst pulley 170 is removably suspended from first side edge portion by means of a flexible member, such as aflexible ribbon 930 that may be made of a thin gauge cloth. More specifically,ribbon 930 may be heavy duty double stitched webbing and has a distal attachment made of a plastic polymer material.Ribbon 930 is configured such that the distal attachment is securely wedged between firstside edge portion 920 a and wall 900 whendoor 890 is closed. By way of example only, and not by way of limitation, the distal attachment may be a commercially available component, such as a TRIGLIDE™ metal or plastic buckle or fastener that allows for strap or webbing adjustments, such as may be available from ITW Nexus, Incorporated located in Des Plaines, Ill. U.S.A. - Referring again to
FIG. 21 , a bracket assembly, generally referred to as 940, is removably mounted ontop edge portion 920 c ofdoor 890 for removably suspending previously mentionedsecond pulley 180 therefrom.Bracket assembly 940, which may be steel for durability, is configured to fit virtually any thickness ofdoor 890. In this regard,bracket assembly 940 is adjustable to fit most home doors and industrial size doors. This ability to adjustbracket assembly 940 to fit both size doors adds to the useable applications becausebracket assembly 940 can fit on doors at home as well as most businesses and hotel rooms. In this regard,bracket assembly 940 comprises a verticalfirst leg 950 a, a verticalsecond leg 950 b disposed parallel to and oppositefirst leg 950 a and a thin horizontalintermediate plate 950 c interconnectingfirst leg 950 a andsecond leg 950 b. Whenbracket assembly 940 is deployed ontop edge portion 920 c ofdoor 890,first leg 950 a is disposed oppositefront surface 925,second leg 950 b is disposed on the rear surface ofdoor 890 and thinintermediate plate 950 c spanstop edge portion 920 c ofdoor 890. Thus, thinintermediate plate 950 c is thin enough to be disposed ingap 929. An externally threadedpin 960 is threadably received through an internally threaded bore (not shown) formed transversely throughfirst leg 950 a.Pin 960 includes a protective felt-padded or rubber-paddedend portion 970 for abutting againstfront surface 925 ofdoor 890.End portion 970 is felt-padded or rubber-padded to avoid damage or marring offront surface 925 whilebracket assembly 940 is mounted ondoor 890. In this manner,bracket assembly 940 is removably secured todoor 890 without damaging or marringdoor 890. - Referring to
FIG. 21A , analternative bracket assembly 965 need not includepin 960 and the bore associated therewith.Alternative bracket assembly 965 is flexible enough, as illustrated by dotted lines in the figure, to adjustably fit various thicknesses or sizes ofdoor 890 and has a felt-padded or rubber paddedlayer 965 a on an underside thereof for preventing damage or marring ofdoor 890.Alternative bracket assembly 965 a defines a throughbore 965 b for attachment of either one ofpulleys 170/180. Tether 190 can then spanpulleys 170/180. Handle 220 andincremental weights 250 can then be connected to tether 190 and used to perform the previously mentioned exercise routines. A multipurpose strap may be coupled to an end portion oftether 190, if desired. In this regard, the previously mentioned eighth embodiment handle 839 havingstrap portion 839 a wraps about a portion of the head, leg, ankle or other body part of the user for exercising that body part of the user. - Returning to
FIG. 21 , use and configuration ofsecond embodiment kit 880 will now be described in greater detail. In this regard,second embodiment kit 880 enables an athlete to make a transition from a clinic rehabilitation environment to an indoor or in-field environment for continuing his or her rehabilitation exercise routine.Second embodiment kit 880 is constructed to provide such an athlete with a constant resistance routine, where a constant resistance level may not only be incrementally varied, but may also be adjusted over a wide and diverse range of exercise positions for exercising a given muscle group of the athlete. Althoughsecond embodiment kit 880 is constructed to enable an athlete to make a transition from a clinic rehabilitation environment to an indoor or in-field environment for continuing his or her rehabilitation exercise routine, it should be understood by those skilled in the art, thatsecond embodiment kit 880 may also be utilized by an accident victim making a rehabilitation transition from a clinical setting to an indoor (e.g., home) setting. When used by an athlete in an in-field environment,second embodiment kit 880 can be supported by any suitable stationary structure, such as previously mentionedwire fence 30. Therefore, use ofsecond embodiment kit 880 obviates the need to have a physical therapist present at all times during rehabilitation. In addition,second embodiment kit 880 is a pulley-based system that enables use ofsecond embodiment kit 880 at home or in-field. - Considering now
second embodiment kit 880 in greater detail with reference toFIG. 21 ,second embodiment kit 880, which functions as a tensioning arrangement, may be mounted either todoor 890 for exercising indoors, or to previously mentionedwire fence 30 for exercising outdoors.Second embodiment kit 880 includes handle 220 that serves as a body specific exercise attachment device and that is adapted to facilitate the exercise of a given muscle group of the athlete. -
Second embodiment kit 880, as noted hereinabove, and as best seen inFIG. 21 , is adapted to be mounted to a variety of different types of door jambs of various door jamb widths at a fixed apex position and at a plurality of user selected exercise positions ranging from at or about another adjacent apex position at a floor level position and in between to provide the user with a diversity of exercise positions for facilitating the exercise and rehabilitation of a given muscle group of the user, such as an athlete. - Again, with reference to the body specific exercise attachment devices or handles 220/630/660/700/740/835/837, the body specific exercise attachment devices or handles 220/630/660/700/740/835/837 are examples of a variety of different forms and structures for the specific exercise attachment devices. The specific form and structure of the exercise attachment device is selected based upon the specific muscle group of the athlete that must be strengthened or rehabilitated. In this regard, the body specific exercise attachment device is selected from a group of body specific exercise attachment devices, including but not limited to
first embodiment handle 220, second embodiment handle 630 (i.e., lower portion of a truncated baseball bat), third embodiment handle 660 (i.e., lower portion of a truncated tennis racquet), fourth embodiment handle 700 (i.e., lower portion of a truncated hockey stick), fifth embodiment handle 740 (i.e., handle with pivotable yoke), sixth embodiment handle 835 (i.e., baseball), and seventh embodiment handle 837 (i.e., strap device). Each of these body specific exercise attachment devices were described in detail hereinabove. Thus, based on the description hereinabove,first embodiment handle 220 is for lifting and pulling constant weights ranging from about 200 grams (i.e., about 0.441 pounds) to about 9.072 kilograms (i.e., about 20 pounds); second embodiment handle 630 is utilized for exercising the muscle groups associated with swinging a club-like device, such as a baseball bat, a golf club, and the like; third embodiment handle 660 is utilized for exercising muscles associated with playing tennis; fourth embodiment handle 700 is utilized for exercising muscles associated with playing hockey; fifth embodiment handle 740 is utilized for exercising muscles requiring a pivotable yoke; sixth embodiment handle 835 is utilized for exercising the muscle groups associated with throwing a ball; and the seventh embodiment handle 837 is utilized for exercising a diversity of muscle groups, such as a neck muscle group, a shoulder muscle group, an arm muscle group, an ankle muscle group, a leg muscle group, and a knee muscle group, as previously mentioned. - Therefore, based on the description hereinabove, and with reference to
FIGS. 1 and 21 ,first embodiment kit 10 is configured as an outdoor tensioning arrangement andsecond embodiment kit 880 is configured as an indoor tensioning arrangement or an outdoor tensioning arrangement. In this regard,second embodiment kit 880 is adapted to be mounted to a door jamb, such asfirst edge portion 920 a that serves as a door jamb, while the outdoor tensioning arrangement orfirst embodiment kit 10 is adapted to be mounted to previously mentionedwire fence 30, such as one would find anchored insoil 35 on an athletic field. Regardless of the type of mounting that is selected for the tensioning arrangement,first embodiment kit 10 andsecond embodiment kit 880 may both be configured to provide a plurality of different mounting configurations ranging from an apex position relative to thefirst edge portion 920 a that serves as the door jamb orwire fence 30, to a floor or ground position, with a plurality of other mounting positions therebetween selected based upon how the athlete desires to exercise a given muscle group. - With reference to
FIG. 21 ,second embodiment kit 880 includes eitherincremental weights 250 orweight bag 240 having a sufficient volume to hold a variety of weights ranging between about 200grams 200 grams (i.e., about 0.441 pounds) and about 9.072 kilograms (i.e., about 20 pounds). Tether 190 is adapted for attachment at one of its ends to theweight bag 240,weights 250 and to a selected one of the body specific exercise attachment devices or handles 220/630/660/700/740/835/837 at another one of its ends depending upon the type of exercise to be performed. The indoor tensioning arrangement orsecond embodiment kit 880 further includes previously mentionedbracket assembly 940,first pulley 170 positioned ondoor 890, andsecond pulley 180 positioned ondoor 890 at an apex position abovefirst pulley 170. Both firstembodiment bracket assembly 940 and secondembodiment bracket assembly 965 are provided with a protective lining or layer, such as felt-padded or rubber, so that the bracket assembly does not damage or mardoor 890. Secondembodiment bracket assembly 965 is constructed of a sufficiently pliable material so that secondembodiment bracket assembly 965 may be configured to snugly grip a wide door jamb or a narrow door jamb. In this regard, secondembodiment bracket assembly 965 may be configured to be utilized with a door jamb having a maximum width of 1.5 inches to a minimum width of 3.5 millimeters. - Referring to
FIGS. 218 and 21C , there is shown atensioner 972 foradjustably tensioning tether 190.Tensioner 972 defines a plurality of through-holes 972 a, such as three through-holes 972 a, for receiving an end portion oftether 190. The end portion oftether 190 is interleaved through through-holes 972 a to a suitable extent in order to achieve the desired tension intether 190 and tied into aknot 972 b to retain the end portion oftether 190 intensioner 972 and to retaintether 190 at the desired tension. - Thus, it may be appreciated that neither
first embodiment kit 10 norsecond embodiment kit 880 requires use of gym facilities. It may also be appreciated thatfirst embodiment kit 10 andsecond embodiment kit 880 are convenient to use because these embodiments require less space in which to use them compared to some conventional exercise devices. In addition, the weights are readily adjustable so that the weights can be reduced to a minimum amount, such as 200 grams, if desired. In addition, if desired,tether 190 need not be elastic material in order to reduce the risk thattether 190 might become a weak link. Preferably,tether 190 is inelastic for the reasons mentioned hereinabove. Further,first embodiment kit 10 andsecond embodiment kit 880 offer accurate dosage of exercise in order to achieve functional qualities, such as vascularization, detonification, coordination, endurance, strength and power.First embodiment kit 10 andsecond embodiment kit 880 are versatile to accommodate different resistances to meet the specific needs of a relatively full range of exercise routines. Further, use offirst embodiment kit 10 andsecond embodiment kit 880 obviates a need to have a physical therapist present at all times during rehabilitation. In addition,first embodiment kit 10 andsecond embodiment kit 880 are each a pulley-based system that enables use offirst embodiment kit 10 andsecond embodiment kit 880 at home or in-field. - An illustrative method associated with an exemplary embodiment for a method of assembling an in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods will now be described.
- Referring to
FIG. 22 , anillustrative method 980 that is provided for assembling an exercise kit starts at ablock 990. At ablock 1000, a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure are provided. At ablock 1010, a plurality of tensioning supports adapted to be coupled to respective ones of the plurality of ring-shaped fasteners are provided. At ablock 1020, a tether adapted to engage the tensioning supports, the tether having a proximal end portion and a distal end portion is provided. At ablock 1030, a handle adapted to be coupled to the proximal end portion of the tether is provided. The method stops at ablock 1040. - Other modifications and implementations will occur to those skilled in the art without departing from the spirit and the scope of the invention as claimed. For example, the exercise kit and system may be used with a variety of stationary structures in addition to fences and doors. For example, the exercise kit and system may be used with walkway railings. Accordingly, the description hereinabove is not intended to limit the invention, except as indicated in the following claims.
- Therefore, provided herein are an in-field kit and system for self-directed therapeutic pulley-based muscle rehabilitation methods and method of assembling the in-field kit and system.
Claims (36)
1. An in-field kit for self-directed therapeutic pulley-based muscle rehabilitation methods, comprising:
a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure;
a plurality of pulleys adapted to be coupled to respective ones of said plurality of ring-shaped fasteners;
a tether adapted to engage said pulleys, said tether having a proximal end portion and a distal end portion; and
a handle adapted to be coupled to the proximal end portion of said tether for placing said tether in tension, so that an injured muscle group of a user is rehabilitated as said tether is placed in tension.
2. The in-field kit of claim 1 , wherein at least one of aid plurality of ring-shaped fasteners comprises an O-ring clip.
3. The in-field kit of claim 2 , wherein said O-ring clip comprises a screw-threaded latch.
4. The in-field kit of claim 2 , wherein said O-ring clip comprises a slideable latch.
5. The in-field kit of claim 1 , wherein the distal end portion of said tether is adapted to be coupled to a weight.
6. The in-field kit of claim 1 , further comprising a container adapted to contain at least one of said plurality of ring-shaped fasteners, said plurality of pulleys, said tether and said handle.
7. The in-field kit of claim 1 , wherein said tether is inelastic.
8. An in-field kit for self-directed therapeutic pulley-based muscle rehabilitation methods, comprising:
a plurality of O-ring clips adapted to be connected to respective ones of a plurality of preselected locations on a stationary structure, each of said plurality of O-ring clips being openable and closeable for selectively positioning each of said plurality of O-ring clips on the stationary structure;
a plurality of pulleys adapted to be connected to respective ones of said plurality of O-ring clips;
a flexible tether adapted to slidably engage said plurality of pulleys, said tether having a proximal end portion and a distal end portion, the distal end portion being adapted to connect to a weight; and
a handle adapted to be connected to the proximal end portion of said tether for placing said tether in tension, so that an injured muscle group of a user is rehabilitated as said tether is placed in tension.
9. The in-field kit of claim 8 , wherein each of said plurality of O-ring clips comprises a screw-threaded latch for opening and closing each of said plurality of said O-ring clips.
10. The in-field kit of claim 8 , wherein each of said plurality of O-ring clips comprises a slidable latch for opening and closing each of said plurality of said O-ring clips.
11. The in-field kit of claim 8 , wherein the distal end portion of said ether is adapted to be connected to a weight.
12. The in-field kit of claim 8 , further comprising a tote bag sized to contain said plurality of O-ring clips, said plurality of pulleys, said tether and said handle.
13. The in-field kit of claim 8 , wherein said tether is inelastic.
14. An in-field kit for self-directed therapeutic pulley-based muscle rehabilitation methods, comprising:
a plurality of split O-ring clips defining a gap therein adapted to be opened and closed for connecting each of said plurality of O-ring clips to respective ones of a plurality of preselected locations on a stationary structure, each of said plurality of O-ring clips including a latch mechanism associated with the gap for opening and closing the gap;
a plurality of friction-free pulleys adapted to be connected to respective ones of said plurality of O-ring clips;
a flexible tether adapted to slidably engageably span said plurality of pulleys, said tether having a proximal end portion and a distal end portion;
a handle adapted to be connected to the proximal end portion of said tether, said handle including a hook member for engaging the proximal end portion of said tether, said handle being adapted for placing said tether in tension, so that an injured muscle group of a user is rehabilitated as said tether is placed in tension; and
a tote bag sized to contain said plurality of O-ring clips, said plurality of pulleys, said tether and said handle.
15. The in-field kit of claim 14 , wherein said latch mechanism comprises a screw threaded latch.
16. The in-field kit of claim 14 , wherein said latch mechanism comprises a slidable latch.
17. The in-field kit of claim 14 , wherein the distal end portion of said tether is adapted to be connected to a weight.
18. The in-field kit of claim 14 , wherein said tether is inelastic.
19. An in-field system for self-directed therapeutic pulley-based muscle rehabilitation methods, comprising:
a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure;
a plurality of pulleys adapted to be coupled to respective ones of aid plurality of ring-shaped fasteners;
a tether adapted to engage said pulleys, said tether having a proximal end portion and a distal end portion; and
a handle adapted to be coupled to the proximal end portion of said tether for placing said tether in tension, so that an injured muscle group of a user is rehabilitated as said tether is placed in tension.
20. The in-field system of claim 19 , wherein at least one of aid plurality of ring-shaped fasteners comprises an O-ring clip.
21. The in-field system of claim 20 , wherein said O-ring clip comprises a screw-threaded latch.
22. The in-field system of claim 19 , wherein said O-ring clip comprises a slidable latch.
23. The in-field system of claim 19 , wherein the distal end portion of said tether is adapted to be coupled to a weight.
24. The in-field system of claim 19 , further comprising a container adapted to contain at least one of said plurality of ring-shaped fasteners, said plurality of pulleys, said tether and said handle.
25. The in-field system of claim 19 , wherein said tether is inelastic.
26. A method of assembling an in-field kit for self-directed therapeutic pulley-based muscle rehabilitation methods, comprising:
providing a plurality of ring-shaped fasteners adapted to be coupled to respective ones of a plurality of preselected locations on a stationary structure;
providing a plurality of pulleys adapted to be coupled to respective ones of the plurality of ring-shaped fasteners;
providing a tether adapted to engage the tensioning supports, the tether having a proximal end portion and a distal end portion; and
providing a handle adapted to be coupled to the proximal end portion of the tether for placing the tether in tension, so that an injured muscle group of a user is rehabilitated as the tether is placed in tension.
27. The method of claim 26 , wherein providing a plurality of ring-shaped fasteners comprises providing at least one ring-shaped fastener including an O-ring clip.
28. The method of claim 27 , wherein providing at least one ring-shaped fastener including an O-ring clip comprises providing a screw-threaded latch.
29. The method of claim 27 , wherein providing at least one ring-shaped fastener including an O-ring clip comprises providing a slidable latch.
30. The method of claim 26 , wherein providing a tether comprises providing a tether having a distal end portion adapted to be coupled to a weight.
31. The method claim 26 , further comprising providing a container adapted to contain at least one of the plurality of ring-shaped fasteners, the plurality of pulleys, the tether and the handle.
32. The method of claim 26 , wherein providing a tether comprises providing an inelastic tether.
33. An in-field kit for self-directed therapeutic pulley-based muscle rehabilitation methods, comprising:
a bracket adapted to be mounted on a door;
a pulley adapted to be coupled to said bracket;
a tether adapted to engage said pulley, said tether having a proximal end portion and a distal end portion; and
a handle adapted to be coupled to the proximal end portion of said tether for placing said tether in tension, so that an injured muscle group of a user is rehabilitated as said tether is placed in tension.
34. The in-field kit of claim 33 , wherein the distal end portion of said tether is adapted to be coupled to a weight.
35. The in-field kit of claim 33 , further comprising a container adapted to contain at least one of said plurality of ring-shaped fasteners, said plurality of pulleys, said tether and said handle.
36. The in-field kit of claim 33 , wherein said tether is an inelastic tether.
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