The application claims priority to Taiwan Application Serial Number 104204231, filed on Mar. 20, 2015, which is herein incorporated by reference.
Technical Field
The present disclosure relates to a stepper. More particularly, the present disclosure relates to a stepper that can swing left and right by raising or lowering the pedals.
Description of Related Art
A stepper is one kind of fitness equipment. The stepper can simulate behaviors while climbing the stairs by swinging the pedals thereof, thereby training muscle of the left and the right foot. Now, the pedal of the stepper can not only swing up and down, but also can rotate, thus waist strength can be enhanced, and sense of balance of a human body can also be increased.
However, a linking-up mechanism of a conventional stepper are usually complicated. For example, the conventional linking-up mechanism is commonly equipped with swingable lever under the left and the right pedal. By the lever principle, when one pedal is lowered by the gravity and resists one end of the lever, the other pedal is pushed by the other end of the lever and is raised. Another kind of linking-up mechanism is equipped with a V-shape swing arm under the left and the right pedal, and the V-shape swing arm can rotate around a circle center. In this kind of linking-up mechanism, since the diameter is equal in length and the angle is fixed, when one pedal is lowered by the gravity and resists one end of the V-shape swing arm, the other of the pedal is pushed by the other end of the V-shape swing arm and is raised.
Furthermore, in a conventional stepper, the rotating and the swinging of the left and the right pedals are performed by pivotally disposing the two pedals on a support by an axis, therefore the pedals can and rotate relative to the support.
However, in the linking-up mechanism of the conventional stepper, the working paths of the left and the right pedal sere fixed, thus the pedal stroke and the swinging angle cannot be adjusted to meet different users' requirements. Furthermore, the lowering, raising and swinging of the pedals are achieved through complicated linking-up mechanisms, thus the cost is high.
According to one aspect of the present disclosure, a stepper is provided. The stepper includes a base, a linking rod, two pedals and two adjusting mechanisms. The linking rod is disposed on the base, and the linking rod includes two ends that are concentrically rotated with each other. Each of the pedals includes a pedal member and a pedal arm. The pedal arm is connected to the pedal member, and the pedal arm is pivotally connected with one end of the linking rod for reciprocately raising or lowering the pedal member. Each of the adjusting mechanism includes a blocking member and a blocking block. The blocking member is disposed on the pedal arm, and the blocking member includes a first blocking surface. The blocking block is apart from the linking rod by a pre-determined distance. The blocking block includes at least one second blocking surface resisting the first blocking surface of the blocking member. When one of the pedals is lowered along a gravity direction, one of the first blocking surfaces and one of the second blocking surfaces are inclined along the gravity direction to link up one end of the linking rod thereby concentrically rotating the other end of the linking rod, and the other first blocking surface is resisted by the other second blocking surface thereby swinging and raising the other pedal.
The present disclosure can be more fully understood by reading the following detailed description of the embodiment, with reference made to the accompanying drawings as follows:
Reference will now be made in detail to the present embodiments of the disclosure, examples of which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers are used in the drawings and the description to refer to the same or like parts.
The present disclosure provides a stepper that avoids using complicated linking-up mechanism, and is capable of adjusting the pedal stroke and the swing angle in accordance with different users' requirements.
The base 200 is stably placed on a plane. The base 200 includes a central portion 210, an extension portion 220 and two side portions 230. The extension portion 200 is extended vertically and outwardly from the central portion 210. The two side portions 230 are connected to two ends of the central portion 210 respectively, and the two side portions 230 are hollow and are arranged in a shape of splayed arch.
The linking rod 300 is pivotally disposed on the base 200, and it has two ends 310 that are concentrically rotated with each other and a circle center portion 320. The circle center portion 320 is located at the center of the linking rod 300, and the center portion 320 is pivotally connected to an outer end of the extension portion 220 by an axis 330, thereby rotating the linking rod 300 relative to the base 200.
Each of the pedals 400 includes a pedal member 410, a pedal arm 420 and a pivoting portion 430. The pedal member 410 is used for stamping. The pedal arm 420 is “L” shaped and is connected to the pedal member 410. The pivoting portion 430 is integrally connected to the pedal arm 420, and each of the pivoting portions 430 is pivotally connected to two ends 310 of the linking rod 300, therefore the pedal arm 420 can be rotated relative to the linking rod 300 for reciprocately raising or lowering the pedal member 410.
Each of the adjusting mechanism 500 includes a blocking member 510 and a blocking block 520. The blocking member 510 is disposed on the pedal arm 420 and includes a first blocking surface 511. The first blocking surface 511 can be an arc surface 511′ and can be made from elastic material. Two blocking blocks 520 are apart from the linking 300 by a pre-determined distance. The blocking block 520 is disposed on the central portion 210. The blocking block 520 includes at least one second blocking surfaces 521 for rotatably resisting the first blocking surface 511 of the blocking member 510. In the embodiment, the blocking block 520 includes four second blocking surfaces 521, and each of the second blocking surfaces 521 can be an arc surface 521′.
Each of the recovering mechanism 600 is located in the two side portions 230. Each of the recovering mechanism 600 is connected to two ends 310 of the linking rod 300 and the base 200. In this embodiment, the recovering mechanism 600 includes a connecting lever 610 and a tension spring 620. One end of the connecting lever 610 is connected to one end 310 of the linking rod 300; the other end of the connecting lever 610 is connected to the tension spring 620.
When the pedal 400 is lowered along a gravity direction g, the first blocking surface 511 of the blocking member 510 disposed on the pedal 400 and the second blocking surface 521 of the blocking block 520 are inclined along the gravity direction, thereby concentrically rotating the two ends 310 of the linking rod 300. At the time, the first blocking surface 511 of the other blocking member 510 is rotatably resisted by the second blocking surface 521 of the other blocking block 520, thereby raising the other pedal 400. Therefore, the left pedal 400 or the right pedal 400 can swing up and down through concentrically rotating the linking rod 300 and the resisting between the blocking member 510 and the blocking block 520.
However, it should be mentioned that the pedal 400 of the stepper 100 is linked-up by the blocking block 520 and the blocking member 510, thus it can swing up-down and left-right simultaneously. Referring to
Since the blocking member 510 on the pedal arm 420 is always resisted by the blocking block 520 no matter the pedal arm 420 swings up or down, and the linking rod 300 is rotated around a circle center, the pedal arm 420 can not only swing up and down, but also can swing left and right b the linking rod 300. Assuming that the height of the pedal arm 420 and the height of the blocking block 520 are fixed, the up-down swing angle θα and the left-right swing angle θβ of the pedal arm 420 will become smaller when the pre-determined distance L between the blocking block 520 and the linking rod 300 becomes larger. Therefore, the user can adjust pedal stroke and the swing angle by adjusting the position of the blocking block 520. Furthermore, in the embodiment, the blocking block 520 includes four second blocking surfaces 521. When the four second blocking surfaces 521 include different contacting areas, the up-down swing angle θα and the left-right swing angle θβ of the pedal arm 420 can also be adjusted.
In
In
In sum up, the stepper of the present disclosure has advantages on:
(a) Reciprocately stamping functionalities can be achieved by the simple structure of the linking rod and the adjusting mechanism.
(b) To the up-down swing of the pedal, the structure of the linking rod and the adjusting mechanism of the present disclosure are more stable than the conventional linking structure utilizing lever principle or V-type swing.
(c) The pedal can swing up, down, left and right by incorporating the linking rod the inclined direction of the blocking member and the blocking block.
(d) The pedal stroke and the swing angle can be adjusted by exchanging the position of the blocking block and the blocking member, changing the number of the first blocking surface and the second blocking, surface, or changing the contacting area of the second blocking surface of the blocking block.
Although the present disclosure has been described in considerable detail with reference to certain embodiments thereof, other embodiments are possible. Therefore, the spirit and scope of the appended claims should not be limited to the description of the embodiments contained herein.
It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present disclosure without departing from the scope or spirit of the disclosure. In view of the foregoing, it is intended that the present disclosure cover modifications and variations of this disclosure provided they fall within the scope of the following claims.
Number | Date | Country | Kind |
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104204231 U | Mar 2015 | TW | national |
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