1. Field of Invention
The invention relates to fitness equipment and, in particular, to an elliptical exercise machine in accord with human factors engineering.
2. Related Art
The conventional elliptical machine design, as shown in
In order for the elliptical machine to fit users of different sizes, one often has to adjust the length of the crank 95, thereby satisfying the different footstep spans. However, the conventional elliptical machine design fixes the stepping boards 97 on the stepping bars 96, and the two stepping bars 96 are directly connected with the swing arms 93 and the crank 95. Therefore, the higher the steps and the larger the footstep span, the angle of the stepping boards during the exercise is also larger. This affects the comfort and the force exerted on the joints of the user. This is because the design does not fit human factors engineering.
Moreover, the conventional elliptical machine has elliptical curves. When the motion reaches the left and right extremities, the tangential speed has the largest change. Therefore, the user may experience frustration when the two stepping boards 97 move to the extremities of the elliptical curves.
An objective of the invention is to provide an elliptical exercise machine that does not change the tilt angle of the pedals according to the height and span of footsteps. This fits better with human factors engineering.
Another objective of the invention is to provide an elliptical exercise machine which has a dragging mechanism to lead the elliptical motion when it reaches the left and right extremities of the elliptical path. This can significantly improve the frustration feeling of the user, making the elliptical motion smoother.
A third objective of the invention is to provide an elliptical exercise machine that can change the tilt angle of the major axis of the elliptical path, thereby simulating inclined motions.
To achieve the above-mentioned objectives, the disclosed elliptical exercise machine includes: a bottom frame, two swing arms, two transmission bars, a dragging mechanism, and two stepping bars.
One end of the bottom frame has a vertical bar. The end opposite to the vertical bar further extends upward with a first support. The first support has a rotating axis whose both ends have a crank, respectively.
The two swing arms are pivotally connected to the left and right sides of the vertical bar. The ends of the swing arms are formed with connecting parts that can swing back and forth relative to the vertical bar.
One end of the transmission bar is connected with the corresponding crank. The other end is connected with the connecting part of the corresponding swing arm. Moreover, the transmission bar is formed with a pivotal part near the swing arm.
The dragging mechanism is mounted on the bottom frame. The two stepping bars are pivotally installed on the pivotal parts of the transmission bars with one end, respectively. The other end of each of the stepping bars is a dragging end. The dragging end has a pivotal element to connect to the dragging mechanism. During the dragging process, the stepping bars simultaneously perform reciprocal motions of rotations and move. As a user steps on the stepping bars, the transmission bars drive the cranks to rotate. Driven by the swing arms and the transmission bars, the stepping bars perform elliptical motions.
These and other features, aspects and advantages of the invention will become apparent by reference to the following description and accompanying drawings which are given by way of illustration only, and thus are not limitative of the invention, and wherein:
The present invention will be apparent from the following detailed description, which proceeds with reference to the accompanying drawings, wherein the same references relate to the same elements.
Please refer to
The bottom frame 11 can be disposed on the ground stably. The bottom frame 11 has a front end 111 and a rear end 112. The front end 111 of the bottom frame 11 is installed with a vertical bar 13 extending upward. The rear end 112 is extended upward with a first support 114 and a second support 113. The first support 114 has a rotation axis 16 horizontally through it, protruding from the left and right sides of the first support 114. Both ends of the rotation axis 16 have a crank 15, respectively. There is a resistance mechanism 14 that includes a driving wheel 141 and a resistance wheel 142 connecting to the driving wheel 141 and providing resistance. The driving wheel 141 is mounted on the rotation axis 16 by its axis. The resistance wheel 142 is mounted on the second support 113.
The two swing arms 21 are pivotally connected to the left and right sides of the vertical bar 13 by their one end, respectively. The other ends of the two swing arms 21 extend downward and form respectively a connecting part 22 that can swing back and forth with respect to the vertical bar 13.
The two transmission bars 31 are pivotally connected to the two cranks 15 by their one end, respectively. Their other ends are pivotally connected with the connecting parts 22 of the two swing arms 21, respectively. A pivotal connecting part 32 is formed on the two transmission bars 31 near the two swing arms 21, respectively.
The two stepping bars 41 are pivotally connected to the pivotal connecting parts 32 of the corresponding transmission bars 31. The other end of each of the stepping bars 41 is a dragging end 411. Each of the dragging ends 411 has a pivotal rotation element 44 to connect to a dragging bar 42 pivotally. Each of the dragging bars 42 is pivotally connected downward to the bottom frame 11 near the resistance mechanism 14. The top surface of each of the stepping bars 41 is fixed with a pedal 43. Each of the dragging bars 42 consists of an outer tube 421 and an inner tube 422 mounted together. Each of the outer tubes 421 is provided with a positioning element 423 that fixes the position of the inner tube 422 relative to the outer tube 421. This configuration enables one to change the tilt angle of the stepping bar 41 by adjusting the length of the dragging bar 42. The tilt angle of the major axis of the elliptical path is thus modified to simulate the uphill and downhill motions.
According to the above description,
Moreover, the crank 15 in this embodiment consists of an outer tube 151 and an inner tube 152 linked together. A positioning element 153 is employed to adjust the length of the crank 15, thereby changing the stride height and length as the user performs the elliptical motion. Since the pedals 43 are disposed on the stepping bars 41 and the stepping bars 41 are pivotally connected to the dragging bars 42, the tilt angle of the transmission bars 31 changes as the length of the cranks 15 varies. Nevertheless, as the transmission bars 31 and the stepping bars 41 are pivotally connected via the pivotal connecting part 32, the tilt angle of the stepping bars 41 is not affected even when the tilt angle of the transmission bars 31 changes. Therefore, the stepping bars 41 are restricted to perform the reciprocal swing actions at the same predetermined angle. The tilt angle of the pedals 43 does not change with different stride heights and lengths. This is more compliant with human factors engineering.
When this embodiment performs the elliptical motion, the pivotal rotation element 44 of the stepping bar 41 drives the dragging bar 42 to perform a reciprocal dragging motion. When the two stepping bars 41 move to the left and right extremities of the elliptical path, the reciprocal dragging motion of the dragging bars 42 generates an inertial quick return effect on the two stepping bars 41. This mechanism improves user's frustrating feeling when the pedals 43 move to the two extremities of the elliptical path, making the elliptical exercise machine run smoother.
Please refer to
When a user steps on the pedals 43, they drive the transmission bars 31 to rotate the cranks 15 with respect to each other. At the same time, the stepping bars 41 are driven into motion. With the effect of the pivotal rotation element 44B, the pivotal rotation element 44B of the stepping bar 41 performs a dragging motion having two degrees of freedom in moving and rotating on the corresponding sliding rail 425 to lead the pedal 43 to form a corresponding elliptical motion. When the two stepping bars 41 move to the left and right extremities of the elliptical path, inertia of the reciprocal sliding leads the stepping bars 41 to produce a quick return effect. This mechanism improves user's frustrating feeling when the pedals 43 move to the two extremities of the elliptical path, making the elliptical exercise machine run smoother.
Moreover, in this embodiment, the first support 114, the second support 113, and the two cranks 15 consist of respectively an outer tube 114A, 113A, 151 and an inner tube 114B, 113B, 152 linked together. A positioning element 114C, 113C, 153 is provided on the outer tube 114A, 113A, 151 to position the corresponding inner tube 114B, 113B, 152, respectively. By changing the relative position between the inner and outer tubes, one can adjust the lengths of the first support 114, the second support 113, and the two cranks 15. The length adjustment of each of the above-mentioned components has three schemes. One is shown in
The second scheme is shown in
Finally, the third scheme is shown in
The above-mentioned three schemes all modify the elliptical path of the pedal 43 by adjusting the lengths of the first support 114, the second support 113, and the two cranks 15. They simulate various running states and suit users of different builds, compliant with human factors engineering.
Although the invention has been described with reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternative embodiments, will be apparent to people skilled in the art. Therefore, it is contemplated that the appended claims will cover all modifications that fall within the true scope of the invention.
This application is a Continuation-In-Part Application of Ser. No. 12/778,444, filed May 12, 2010, and entitled “Elliptical exercise machine”, now pending.
Number | Date | Country | |
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Parent | 12778444 | May 2010 | US |
Child | 13069557 | US |