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The present invention relates to a stepper, and more particularly to an elliptical stepper.
In various exercisers, an elliptical trainer is popular because the elliptical trainer can imitate motions of feet and legs during walking. However, the original elliptical trainer has a great volume such that the original elliptical is not suitable for indoors operation in many family spaces. Consequently, some small-sized elliptical steppers are marketed.
However, whatever the great original elliptical trainer or the small-sized elliptical stepper, they have a mature structure and are manufactured along an immutable skill such that more and more users feel that elliptical exercisers, including the great original elliptical trainer or the small-sized elliptical stepper, are boring machines. It is a serious bottleneck for manufacturers to develop new elliptical exercisers.
The present invention has arisen to mitigate and/or obviate the disadvantages of the conventional elliptical exercisers.
The main objective of the present invention is to provide an improved elliptical stepper that has two roller sets moved along a corresponding one of the two guiding structures.
To achieve the objective, the elliptical stepper in accordance with the present invention comprises a base divided into a front section and a rear section. Two guiding structures are respectively disposed on two opposite sides of the base. Each guiding structure includes at least one rail having a front end outwardly extending relative to a center line of the base, wherein the route of the at least one rail is selected from a group consisted of linear and curved. A damping device is mounted on the base. Two crank devices are respectively laterally mounted to two opposite sides of the damping device. Each crank device has a stepping device mounted thereon and each stepping device has a roller set mounted to a bottom thereof. Each roller set is guided by a corresponding one of the rails for provides a wiggling effect to the stepping device when moved along the corresponding rail.
Further benefits and advantages of the present invention will become apparent after a careful reading of the detailed description with appropriate reference to the accompanying drawings.
Referring to the drawings and initially to
The base 10 is divided into a front section 11 and a rear section 12 detachably connected to each other. In the preferred embodiment of the present invention, each guiding structure 60 includes at least two rails 61, wherein at least one rail 61 has a front end outwardly extending relative to a center line of the base 10. A rail 61, adjacent to the center line of the base 10, is parallel to the center line of the base 10 and the other at least one rail 61 is curved. A handle 13 is disposed on the front section 11 of the base 10.
The damping device 20 is mounted onto the rear section 12 of the base 10. The damping device 20 includes a drive wheel 21 and a flying wheel 22 rotatably mounted onto the rear section 12 of the base 10, wherein the driver wheel 21 has an axle 23 centrally extending therethrough. The drive wheel 21 and the flying wheel 22 are simultaneously rotated with each other for providing resistance by using speed ratio and the weight of the flying wheel 22.
Each crank device 30 has an L-shaped crank 31 secured on a corresponding one of two opposite ends of the axle 23. The L-shaped crank 31 includes a horizontal section 32 having a sleeve 33 rotatably sleeved thereon. The sleeve 33 has two ears 34 extending therefrom.
Each stepping device 40 includes a bottom plate 41 pivotally connected to the two ears 34 of a corresponding one the two sleeves 33 and a pedal 42 mounted on the bottom plate 41.
Each roller set 50 includes a seat 51 pivotally mounted to a front end of a corresponding one of the two bottom plates 41 and a roller 52 rotatably mounted on the seat 51 such that the roller 52 is universally rotated relative to a corresponding one of the two stepping devices 40 and the moving route is limited by a corresponding one of the two guiding structures 60.
In the preferred embodiment of the present invention, the rail 61 is concaved and the roller 52 is partially received in the rail 61. However, the rail 61 also provides the guiding function when the rail 61 is convex and the roller 52 defines a groove (not shown) to partially received the rail 61.
With reference to
With reference to
With reference to
As described above, the front section 11 of the base 10 is detachably connected to the rear section 12 such that the operator changes the sport mold when changing the section 11 with different guiding structures 60.
Each roller set 50 is moved along a corresponding one of the two guiding structures 60 with at least one rail 61 having a front end outwardly extending relative to the center ling of the base 10 such that each stepping device 40 provides a wiggling effect when moved along an elliptical route. Consequently, the function and moving route of the elliptical stepper in accordance with the present invention is different from that of the conventional steppers. The guiding structure 60 has rails 61 with different guiding molds and the guiding mold is changed when lifting the front portion of the stepping device 40 and easily moving the roller 52 from one rail 61 to another rail 61. In addition, the front section 11 of the base 10 is detachably connected to the rear section 12 such that the operator changes the sport mold for providing various sporting routes when changing the section 11 with different guiding structures 60.
Although the invention has been explained in relation to its preferred embodiment, it is to be understood that many other possible modifications and variations can be made without departing from the spirit and scope of the invention as hereinafter claimed.