The present invention relates to an exercise apparatus, and more particularly, an apparatus which in use is adapted to simulate an athlete's natural skating or roller blading movement, whereby the user's legs travel simultaneously in a lateral and rearward motion.
Exercise apparatus which simulate walking, running and stair climbing are well known. Running and walking exercise apparatus typically comprise an inclined moving belt or treadmill upon which the user walks or runs. Stair climbing or stepping apparatus typically include a pair of hinged pedals upon which a user stands, and in which the pedals are moved up and down by the user shifting his or her weight to simulate stair climbing movement. While conventional exercise apparatus achieve the exercise and movement of the biceps femoris muscle, they are poorly suited to provide toning and exercise the remaining leg muscles used in skating, such as abductors and adductor muscles, the gastrocnemius muscle, the soleusmuscle the gracilis muscle and/or the sartorius muscle.
In an effort to provide an exercise apparatus better adapted to exercise muscles used in skating, U.S. Pat. No. 5,718,658 to Miller et al describes a skate training apparatus which includes a pair of cantilevered support arms which are adapted to support a user's legs in lateral movement. Similarly, U.S. Pat. No. 6,234,935 to Chu describes a skating exercise machine which is adapted to simulate skating movement by the use of a pair of cantilevered supports geared so as to move in an arcuate plane. The exercise apparatus of Chu and Miller, however, suffer the disadvantage in that in their operation, the user's feet are maintained in a generally forward oriented position while moving about a lateral horizontal arc. In contrast, in roller blading or ice skating, an individual typically performs a skating stride whereby the position of each foot during each stride moves so as to turn outwardly, to provide an increased thrust force.
Heretofore, conventional skate training apparatus suffer the further disadvantage in that they are poorly suited to mimic the forward motion achieved in skating movement. In particular, as prior art skating devices are adapted to provide lateral movement substantially in a horizontal plane, conventional skating exercise apparatus fail to account for the change in leg and foot position experienced by a skater during actual forward movement. Furthermore, conventional skating exercise devices which operate to move the user's leg only in a horizontal plane as the user's leg moves outwardly, may result in increased stressing on the user's Achilles and/or fibularis tendons.
Conventional skating exercise devices suffer a further disadvantage in that their complex design makes manufacture difficult, and the cantilevered arrangement of the user supporting pedals may be susceptible to premature wear and failure.
It is an object of the present invention to provide an exercise apparatus which, in use, permits toning and exercise to a wide variety of leg muscles, including one or more of the biceps femoris muscle, the gracilis muscle, the sartorius muscle, the gastrocnemius muscle and/or the soleus muscle.
Another object of the invention is to provide exercise apparatus which is designed to simulate an athlete's natural ice skating or roller blade movement during forward motion.
Another object of the invention is to provide an exercise apparatus which in use, imparts a lateral and rearward movement to a user's legs, while producing minimal stresses on the Achilles and/or Fibularis tendons.
Another object of the invention is to provide an ice or roller blade skating simulating apparatus which, in use, is adapted to guide a user's foot reciprocally in downwardly and outward or rearwardly curving movement so as to better simulate the forward gliding motion achieved in skating.
A further object of the invention is to provide a simplified exercise apparatus which may be easily and economically manufactured, and which in use provides to a user a leg motion which approximates the motion performed by ice skating.
Another object of the invention is to provide a robust exercise apparatus which is adapted to support a user's feet in movement during a natural skating motion.
The present invention provides an exercise apparatus used to simulate skating or roller blading movement in a user. The apparatus includes a pair of pedals adapted to support the foot of a user standing thereon in simulated skating movement. Each pedal may be coupled to or provided as part of an associated shuttle, which is movable along or by one or more respective guide assemblies adapted to guide the pedals and user's feet in a downwardly and/or rearwardly curving movement.
In one embodiment, the guide assembly includes a rail assembly which includes one or more rails having rail portions which curve away from each other. Each rail portion extends from a respective proximate forwardmost end, outwardly and rearwardly. More preferably, the curved rail portion of each of the rail assemblies is provided in a substantially mirror arrangement and curve downwardly from their respective forwardmost ends so as to slope downwardly and rearwardly to a lowermost distal portion. The slope of the rail assemblies may be constant along their length, or alternately may vary in degree between the proximate and distal portions.
A guide member or mechanism may be provided to assist in positioning and/or maintaining the shuttles in sliding movement along each guide assembly. More preferably, the guide member limits movement of the shuttles in reciprocal sliding movement along an associated rail assembly so as to guide the feet of the user in skating or roller blade movement. A resistance mechanism may also be provided to enable the user to vary the resistance to which the shuttles move along the rails as, for example, to provide a workout of increased or decreased difficulty.
In another embodiment, the guide assembly used to support and/or limit the pedals in movement along a respective downward and/or rearwardly curving path includes a pair of cantilevered support or swing arms. The swing arms are coupled to either a respective individual or a single common pivot. In one possible construction, each swing arm may, for example, consist of a rigid metal or composite bar which has an elongate length selected at between about 0.5 to 1 meter. Each swing arm is positioned so that a forward end of each swing arm is movable from a forward proximal position where the swing arm extends generally forwardly from the pivot, and is rotatable in a limited arcuate movement rearwardly outwardly therefrom. A shuttle supporting an associated pedal is coupled towards the forwardmost end of each respective swing arm. Although not essential, most preferably individual pedals are pivotally secured to an associated shuttle so as to be pivotable relative to the forwardmost end of the swing arms as the swing arms are rotated about the pivot or their respective pivots. The location of the pivots towards a rearward portion of the skating apparatus and more preferably rearwardly of a user standing on the pedals in use of the apparatus, enables the pedals to be reciprocally moved along respective predetermined paths of movement which curve outwardly and rearwardly away from each other.
To achieve downward curving movement of each pedal in use of the apparatus, in one construction the swing arms are pivotally mounted in an orientation oriented so that each swing arm is inclined in the front to back orientation of the skating machine. Preferably each swing arm is mounted so as to incline upwardly in the forward direction at an inclined angle of between about 5° and 40° and more preferably about 10° and 25° when the forwardmost end of the swing arm is moved to a forwardmost position. In an alternate construction, the shuttles may be mounted to each swing arm on a helically threaded mount or post. The helical threads of the shuttle post are used to threadedly engage a complementary threaded socket formed in or coupled to the swing arm. In this construction, pivotal movement of the swing arms in use of the exercise apparatus produces relative twisting movement of the helical threads of the post and socket. This relative movement in turn vertically raises or lowers the shuttles and pedals relative to each swing arm as it pivots. Again, a resistance mechanism and/or a linkage may be provided to permit return movement of each shuttle to the forwardmost position, as the other shuttle is moved.
In another embodiment, the apparatus may include a guide assembly for guiding the pedals in a rearwardly outward and downward curving movement which includes of a pair of outwardly and rearwardly extending support arms. Most preferably, the support arms extend rearwardly and outwardly from a forward axial center position of the skating machine at a height selected between about 0.4 and 1.4 meters above the ground. A rocker arm assembly suspended from each support arm in turn is used to pivotally support an associated shuttle. The rocker arm assemblies are mounted so as to be pivotally coupled to the respective support arm so as to extend vertically therefrom. An associated shuttle used to support a pedal is in turn mounted to the lower end of each rocker arm. More preferably, the shuttles are pivotally secured to an end portion of a respective rocker arm which is remote from the associated support arm. In this construction, the pivotal movement of the rocker arm relative to the support arms results in the downwardly curving movement of the pedals along a respective predetermined path from a raised forward position, rearwardly outward to a lower distal position, such that each shuttle path curves downwardly and rearwardly outward in a mirror arrangement away from the other.
In a further embodiment, the guide assembly used to mount and guide the foot pedals and/or shuttles in rearwardly and/or downwardly curving movement could, for example, comprise a rigid support which is journaled in part about a spherical joint. In one simplified construction, the guide assembly includes a pair of J-shaped steel frame members mounted symmetrically in a mirror arrangement to each side of the machine. Each J-shaped frame member is suspended at its upper end by a spherical bearing, and mounts a respective one of the shuttles at its lower end. A tensioning wire or cable coupled to the lower end of each J-shaped member is used to restrict movement of both the lower end of each frame member and the shuttle supported thereby in arcuate movement as the frame member is moved about the spherical bearing. More preferably, the tensioning wire most preferably extends in the generally horizontal orientation and is secured at one of its ends to the lower end of the J-shaped frame member, and at its other end towards a rearward pivot point spaced towards a rearward central portion of the skating machine, and which more preferably locates substantially rearward of a user in use of the apparatus.
In an alternate possible construction, the wire may be replaced by a second rigid horizontal frame member which extends in generally the same horizontal orientation as the tensioning wire. In such a construction the horizontal frame member may be mounted at each of its ends by spherical joints. It is to be appreciated that this construction enables the end of the support member and shuttle to move along a path of movement extending from a forwardmost raised position and which curves downwardly and rearwardly to a lower position.
In one aspect, the present invention resides in a skating exercise apparatus for simulating skating or roller blading movement in a user, said apparatus including,
a pair of shuttles, each of said shuttles including a frame for supporting a foot of said user standing in a generally forward facing position thereon,
a pair of guide assemblies, each guide assembly supporting a respective one of said shuttles in reciprocal movement along a predetermined path, said predetermined paths extending in a direction away from the other in a generally mirror arrangement from raised proximal upper position and curving downwardly and/or rearwardly to a lower distal position,
and whereby alternating reciprocal movement of said shuttles along said predetermined path moves the feet of a user thereon substantially in skating or roller blading movement.
More preferably, in said distal position said pedal is repositioned in an orientation generally transverse to said direction of said predetermined path at an angle of between about 15° and 30° relative to horizontal to position the toes of said user's foot thereon.
In another aspect, the present invention resides in an ice skating exercise apparatus comprising,
a pair of shuttles, each for movably supporting a foot of a user standing in a generally forward facing position thereon,
a guide assembly,
said guide assembly supporting and limiting each said shuttles in movement along a respective predetermined path, said predetermined paths oriented in a substantially mirror arrangement and each extending in a direction away from the other from a generally adjacent raised proximal upper end portion and curving downwardly and rearwardly to a lower distal end portion,
whereby the movement of said shuttles along said associated predetermined path substantially simulates the user's foot movement during skating.
In a further aspect, the present invention resides in an ice skating or roller blading exercise apparatus,
a pair of shuttles, each of said shuttles including a frame for movably supporting a foot of a user standing in a generally forward facing position thereon,
a guide assembly limiting movement of said shuttles in reciprocal movement along a respective predetermined path, each of said predetermined paths extending in a direction away from the other from a respective forward proximal end portion and curving rearwardly to a respective lower distal end portion,
and whereby movement of said shuttles along said associated predetermined path moves the user's feet in simulated skating or roller blading movement.
In another aspect, the present invention resides in an exercise apparatus for simulating skating or roller blading movement in a user, said apparatus including,
a pair of shuttles, each of said shuttles including a frame and for supporting a foot of said user in a generally forward facing position thereon, and a guiding mechanism,
a pair of guide rail assemblies, each said guide rail assembly extending in a direction away from the other in a substantially mirror arrangement from raised proximal upper ends and curving downwardly and rearwardly to a lower distal end portion,
each said guiding mechanism guiding said associated shuttle in movement along an associated one of said rail assemblies between the proximal end and distal end portion,
and whereby alternating reciprocal movement of said shuttles along said associated rail assemblies moves the feet of a user thereon substantially in skating or roller blading movement.
In another aspect, the present invention resides in an ice skating exercise apparatus comprising,
at least one pair of guide rails oriented in a substantially mirror arrangement and each extending from a substantially adjacent raised proximal upper end portion and curving downwardly and rearwardly to a lower distal end portion,
a pair of shuttles, each for movably supporting a foot of a user thereon and including a frame and a guide assembly for retaining said shuttle in sliding movement along an associated one of said pair of rails between the proximal end portion and the distal end portion, and
whereby the sliding movement of said shuttles along said associated pair of rails substantially simulates the user's foot movement during skating.
In a further aspect, the present invention resides in an ice skating or roller blading exercise apparatus,
a pair of shuttles, each of said shuttles including a frame for movably supporting a foot of a user therein, and a guiding mechanism,
a pair of guide rail assemblies, each said guide rail assembly extending in a direction away from the other from a respective forward proximal end and curving rearwardly to a respective lower distal end portion,
each said guiding mechanism guiding said associated shuttle in movement along an associated one of said rail assemblies between the proximal end and distal end portion,
and whereby movement of said shuttles along said associated rail assemblies moves the user's feet in simulated skating or roller blading movement.
In yet another aspect, the present invention resides in a method of using a skating exercise apparatus to simulate skating or roller blading movement in a user, said apparatus including,
a pair of shuttles, each of said shuttles supporting a foot of said user standing thereon,
a pair of guide assemblies, each guide assembly supporting and limiting an associated one of said shuttles in reciprocal movement along a respective associated predetermined path, and wherein said shuttles are movable along said associated predetermined path in a direction away from the other in a generally mirror arrangement from raised proximal upper position and curving downwardly and/or rearwardly to a lower distal position,
wherein, with said user standing with each foot on an associates shuttle in a generally forward facing position, said user pushing a first said foot against said associated shuttle so as to move therewith along said associated predetermined path from said proximal upper position to said lower distal position, and thereafter pushing the second other said foot against said associated shuttle to move therewith along said associated predetermined path from said proximal upper position to said lower distal position,
and whereby alternating reciprocal movement of said user's feet with said associated shuttles along said associated predetermined paths moves the feet of a user thereon in generally simulating skating or roller blading movement.
Reference is now made to the following detailed description taken together with the accompanying drawings in which:
a and 22b illustrate schematically a hydraulic clutch mechanism used for providing resistance in the apparatus of
The base 14 has a size selected to provide the apparatus 10 with sufficient stability to support the user 8 standing thereon in a forward facing position in using the apparatus 10 as part of a gym or health club exercise routine. While
The pedals 12a,12b are formed as a flat metal plate sized to support, respectively, the right and left feet of the user 8. The pedals 12a,12b are shown best in
It is to be further appreciated that as the frame 40 moves along its associated guide track 24 towards the distal end 27 in the direction of arrow 56, the orientation of the pedals 12a,12b rotate with the curvature of the rails 26,26′, moving from a generally forward orientation when the shuttle 32a,32b coupled thereto is spaced adjacent to the proximal end 25, and a position rotated therefrom in a general outward facing orientation when the shuttles 32 are moved to the track distal ends 27.
Most preferably, each of the shuttles 32a,32b are independently movable relative to each other against the tension of a return cable 70 (
As shown best in
A pair of elastomeric return cords or shock cords 102 are shown in
In operation, the user 8 stands on the apparatus 10 grasping the handle grips 17a,17b with his feet facing forward and resting on the pedals 12a,12b in the manner shown in
To initiate the exercise workout, the user 8 pushes outwardly and rearwardly with the right foot 110 (
As the shuttle 32a moves towards the distal end 27a of the track 24a, the tensioning cable 70 unwinds from the spool 84 and imparts a rotational force on the spool ratchet 84. In addition to stretching and causing the return cord 102 to wind about the spool ratchet 84, the movement of the spool ratchet 84 results in the engagement of the rack 88 with the cams 96 on the periphery of the rotary bushing 94. The engagement between the cams 96 and rack 88 causes the bushing 94 and axle 90 to rotate with the spool 84 producing a corresponding rotation in the sprocket 92, drive chain 98 and flywheel drive sprocket 100 against the friction of the tensioning strap 78. The rotation of the drive chain 98 operates to rotate the fly wheel 74 about the axle 76 providing additional power to the controlling dynamotor 22.
Following movement of the pedal 12a to the distal end 27a of track 24a, the user 8 shifts his weight onto the left foot 112 (
Furthermore, as the user 8 shifts his weight onto pedal 12b, the return cable 70 which is coupled to the shuttle 32a is wound about spool ratchet 84 associated therewith by the return elasticity of the cord 102. The winding of the cable 70 about the spool 84 draws the shuttle 32a in return movement along the track 24a to the start position adjacent to the axis A-A1 and proximal end 25a. As indicated, with the return movement of the elastomeric cord 102 and the rewinding of the cable 70 about the spool ratchet 84, the ratchet 84 rotates relative to the rotary bushing 94 without the engagement of cams 96 with the rack 88. In this manner, the axle 90 and drive sprocket 100 are driven in only one direction of rotation by the successive engagement of the spool ratchet 84 which is coupled to the return cable 70 secured to each of the two shuttles 32a,32b.
The skating motion is thus simulated by the apparatus 10 with the user sequentially shifting his or her weight between the pedals 12a,12b. In addition to more closely simulating a true skating motion, the rotational movement of the pedals 12a,12b as they move along the guide tracks 24a,24b optimizes the exercise of the user's 12 leg muscle groups, as the user shifts his weight between the pedals 12a,12b.
Optionally, the apparatus 10 could be provided with a motorized lift (not shown) which could be selectively activated to raise or lower the proximal ends 25a,25b of the tracks 24a, 24b at the plane A-A1 relative to their distal end providing a more varied workout. Similarly, the control display 18 could be used to alter the length of maximum movement of the shuttles 32a,32b along the tracks 24a,24b to simulate different stride lengths and/or provide either variable or constant tension to the cables 70 as the shuttles 32a,32b are moved.
Although the preferred embodiment illustrates the pedals 12a,12b as being mounted to a wheeled shuttle 32 or trolley which travels along pairs of tubular guide rails 26,26′ the invention is not so limited and other assemblies for guiding movement of the pedals in outwardly rearward and/or downward curving movement may also be used. Similarly, although the detailed description describes the guiding mechanism used to maintain each shuttle 32a,32b on its associated rail assembly 24a,24b as comprising a series of spaced guide wheels 62, other guide assemblies including, without restriction, the use of dovetail slide bearings, ball bearings, or the like, could also be used without departing from the spirit and scope of the invention. Other shuttle arrangements and guide configurations are also possible and will now become apparent. Reference may be had to
While
While the preferred embodiment of the invention discloses the tensioning mechanism as comprising a flywheel 74 and adjustable tensioning strap 78, it is to be appreciated that other tensioning devices could also be used, including without restriction, weights or pressure stacks, fan resistant mechanisms and electromagnetic resistance mechanisms.
Although the detailed description of the invention describes the shuttle frame 40 as configured to incline in a forward direction as the shuttles 32 move rearwardly along the tracks 24, the invention is not so limited. The shuttles 32 could include a platform which is maintained at a relatively constant angle relative to the horizontal as the shuttle 32 moves. Alternate shuttle frame configurations could also be used.
Similarly, while the use of elastomeric shock or bungee cords 102 are described as assisting in the return movement of the shuttles 32 and pedals 12 to the initial starting position, the shock cords 102 could be omitted in their entirety and the shuttles 32 moved in return movement through the exertions of the user 8 alone. Alternately, other return mechanisms, including, without limitation, resiliently extendable springs, could also be employed.
Although the Figures illustrate an exercise apparatus 10 in which the shuttles 32a,32b move along a respective rail assembly 24a,24b, which each comprise a pair of parallel curved rails 26,26′, the rail assemblies 24 could each consist of either a single rail or three or more rails configured to guide a shuttle 32 associated therewith in the desired degree of arcuate movement. While the detailed description describes and illustrates the tracks 24a,24b as curving downwardly rearward towards their respective distal ends 27a,27b, other track configurations are also possible. For example, the tracks 24a,24b could be formed either substantially flat, or the tracks 24a,24b could slope rearwardly to the distal ends 27a,27b at a constant angle.
Although the preferred embodiment of the invention describes the pedals 12a,12b as being movable along a set of tubular steel rails 26,26′, the invention is not so limited. It is to be appreciated that other constructions which do not incorporate a tubular frame 21 and/or guide tracks 24a,24b, are also envisioned by the inventor and will now become apparent. By way of non-limiting example,
In use, the apparatus 10 is adapted to supportingly move each foot of the user along respective predetermined paths which extend largely mirror arrangement about the plane A-A1 from a respective raised proximal upper position curving downwardly and extend rearwardly outward to a lower distal moved position. The apparatus 10 includes a lower frame 148 which is adapted to rest on the floor. The frame 148 includes an axially forward positioned vertical support 149 which extends to a height of approximately one meter above the floor. A pair of support arms 152a,152b are coupled to an upper end of the vertical support 149. The support arms 152a,152b extend in a mirror arrangement substantially horizontally and in an orientation angling rearwardly and outwardly relative to the mid-plane A-A1. As shown best in
The rocker arm assemblies 150a,150b are provided to guide the pedals 12a,12b in movement along a respective predetermined path which curves downwardly and extends rearwardly outward relative to the central mid-plane A-A1 of the apparatus 10 without tracks.
As shown in
The pivot arms 156a,156b are used to link the crank mechanism 158 to a respective rocker arm 154a,154b to provide for the reciprocal return movement of the shuttles 32a,32b. Furthermore, the pivoting movement of the pedals 12a,12b relative to the shuttles 32a,32b allows the user's foot to twist and point outwardly as each pedal 12a,12b moves rearwardly and downward, to assist in maintaining the user's foot in a more natural neutral position as is or her leg is extended.
As shown best in the profile of
Although
As with the construction shown in
Although the detailed description describes and illustrates a preferred apparatus construction, the invention is not so limited. Many variations and modifications will now appear to persons skilled in the art. For a definition of the invention reference may be had to the appended claims.
Number | Date | Country | Kind |
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2466543 | May 2004 | CA | national |
This application is a continuation-in-part of U.S. patent application Ser. No. 09/909,020, filed Jul. 20, 2001, and entitled “Exercise Apparatus for Simulating Skating Movement”, and which issued to U.S. Pat. No. 6,786,850 on Sep. 7, 2004, and which claims the benefit under 35 U.S.C. 119(e) to U.S. provisional application Ser. No. 60/237,387 filed 4 Oct. 2000.
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Number | Date | Country | |
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Parent | 09909020 | Jul 2001 | US |
Child | 10873254 | US |