1. Fieled of the Invention
The present invention relates to rehabilitation equipment and, more particularly, to a rehabilitation exercising equipment.
2. Description of the Related Art
Conventional rehabilitation equipment comprises a support frame, a pedal portion mounted on the support frame, and a handle portion mounted on the support frame and connected with the pedal portion to move in concert with the pedal portion. Thus, when a user holds the handle portion and treads the pedal portion, the handle portion is driven by the pedal portion to move upward and downward so as to provide a rehabilitating function to the user's two hands. However, when the user's legs are injured, he/she cannot tread the pedal portion to drive the handle portion easily, thereby causing inconvenience to the user, and thereby decreasing the rehabilitating effect of the rehabilitation equipment.
A conventional exercising bike is available for a user to provide an exercising or rehabilitating function so that the user can exercise his/her two legs. However, the user has to tread and move the pedals along a circular track so that when the user's legs are injured, he/she cannot finish the circular track easily, thereby causing disturbance to the user, and thereby decreasing the exercising or rehabilitating effect of the exercising bike.
In accordance with the present invention, there is provided rehabilitation exercising equipment, comprising a main frame, a seat unit mounted on the main frame, a first geared member rotatably mounted on the main frame, a second geared member rotatably mounted on the main frame, a connecting mechanism mounted between the first geared member and the second geared member to connect the first geared member and the second geared member so that the first geared member and the second geared member are movable in concert with each other, and two pivot mechanisms connected with the first geared member and the second geared member to rotate in concert with the first geared member and the second geared member respectively.
The primary objective of the present invention is to provide rehabilitation exercising equipment that can extend a user's legs.
According to the primary advantage of the present invention, when the two pivot mechanisms are driven by the user's feet, the two pivot mechanisms are pivoted relative to the main frame in two opposite directions by connection of the connecting mechanism and are moved forward and backward in a reciprocal manner so as to exercise or rehabilitate the user's legs, thereby achieving an exercising or rehabilitating function.
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 main frame 1 includes a transverse bar 10, an upright support post 11 mounted on the transverse bar 10, an extension bar 12 connected with the transverse bar 10, a crossbar 17 mounted between the support post 11 and the extension bar 12, and a control panel 20 mounted on the extension bar 12. The control panel 20 of the main frame 1 is preferably an electronic instrument panel.
The main frame 1 further includes a first support rod 113 mounted on the support post 11 to support the first geared member 15 and one of the two pivot mechanisms 5, a second support rod 114 mounted on the support post 11 to support the second geared member 16 and the other one of the two pivot mechanisms 5, a third support rod 111 mounted on the support post 11 to support the first idle geared member 13, and a fourth support rod 112 mounted on the support post 11 to support the second idle geared member 14.
The first geared member 15 and the second geared member 16 are parallel with each other and are rotated in two opposite directions by connection of the connecting mechanism 30. The first geared member 15 is rotatably mounted on the first support rod 113 of the support post 11. The second geared member 16 is rotatably mounted on the second support rod 114 of the support post 11. The first idle geared member 13 and the second idle geared member 14 are parallel with each other and are perpendicular to the first geared member 15 and the second geared member 16. The first idle geared member 13 and the second idle geared member 14 are located under the first geared member 15 and the second geared member 16. The first idle geared member 13 is rotatably mounted on the third support rod 111 of the support post 11. The second idle geared member 14 is rotatably mounted on the fourth support rod 112 of the support post 11.
The connecting mechanism 30 is connected between the first geared member 15, the second geared member 16, the first idle geared member 13 and the second idle geared member 14. The connecting mechanism 30 includes a first connecting portion 33 meshing with the first geared member 15, a second connecting portion 34 meshing with the second geared member 16, a third connecting portion 31 meshing with the first idle geared member 13 and a fourth connecting portion 32 meshing with the second idle geared member 14.
The first connecting portion 33 and the second connecting portion 34 of the connecting mechanism 30 are parallel with each other. Each of the first connecting portion 33 and the second connecting portion 34 of the connecting mechanism 30 has a substantially inverted U-shaped profile and has a first distal end connected with the third connecting portion 31 and a second distal end connected with the fourth connecting portion 32. The third connecting portion 31 and the fourth connecting portion 32 of the connecting mechanism 30 are parallel with each other. Each of the third connecting portion 31 and the fourth connecting portion 32 of the connecting mechanism 30 traverses and connects the first connecting portion 33 and the second connecting portion 34 so that the third connecting portion 31 and the fourth connecting portion 32 of the connecting mechanism 30 are perpendicular to the first connecting portion 33 and the second connecting portion 34. Each of the third connecting portion 31 and the fourth connecting portion 32 of the connecting mechanism 30 has a substantially U-shaped profile and has a first distal end connected with the first connecting portion 33 and a second distal end connected with the second connecting portion 34.
The two pivot mechanisms 5 are pivoted in two opposite directions by connection of the connecting mechanism 30. Each of the two pivot mechanisms 5 includes a pivot lever 50 having a first end connected with one of the first geared member 15 and the second geared member 16 to rotate in concert with one of the first geared member 15 and the second geared member 16, a pedal 51 mounted on a second end of the pivot lever 50, a mounting bracket 52 mounted on a mediate portion of the pivot lever 50, and a leg support cushion 53 mounted on the mounting bracket 52. The pedal 51 of each of the two pivot mechanisms 5 is a rod. The mounting bracket 52 of each of the two pivot mechanisms 5 has a substantially L-shaped profile.
In the preferred embodiment of the present invention, the connecting mechanism 30 is a toothed belt. Alternatively, each of the first geared member 15, the second geared member 16, the first idle geared member 13 and the second idle geared member 14 is a sprocket, while the connecting mechanism 30 is a chain meshing with the sprocket.
In operation, referring to
Referring to
Referring to
In the preferred embodiment of the present invention, the drive unit 60 of the transmission mechanism 70 is a magnetically controlled resistance device. Alternatively, the drive unit 60 of the transmission mechanism 70 is a powered motor. In addition, the linking member 71 of the transmission mechanism 70 is a toothed belt. Alternatively, each of the driving geared member 67 and the drive geared member 66 of the transmission mechanism 70 is a sprocket, while the linking member 71 of the transmission mechanism 70 is a chain meshing with the sprocket.
In operation, when the drive unit 60 of the transmission mechanism 70 is a magnetically controlled resistance device, the drive unit 60 provides a damping force to the driving geared member 67 and the drive geared member 66 by connection of the linking member 71 to damp rotation of the second geared member 16 and to damp rotation of the first geared member 15 by connection of the connecting mechanism 30 so as to provide a resistance to the two pivot mechanisms 5 so that the user has to apply a larger force to tread and pivot the two pivot mechanisms 5 relative to the main frame 1, thereby enhancing the exercising or rehabilitating effect. At this time, the damping force of the drive unit 60 is controlled by the control panel 20 of the main frame 1.
Alternatively, when the drive unit 60 of the transmission mechanism 70 is a powered motor, the drive unit 60 drives the driving geared member 67 which drives the linking member 71 which drives the drive geared member 66 which drives the drive geared member 66 which drives the second geared member 16 which drives the connecting mechanism 30 which drives the first geared member 15 so that the two pivot mechanisms 5 are moved by the first geared member 15 and the second geared member 16 and are pivoted in two opposite directions by connection of the connecting mechanism 30 to move the user's two feet so as to achieve a rehabilitating function automatically.
Accordingly, when the two pivot mechanisms 5 are driven by the user's feet, the two pivot mechanisms 5 are pivoted relative to the main frame 1 in two opposite directions by connection of the connecting mechanism 30 and are moved forward and backward in a reciprocal manner so as to exercise or rehabilitate the user's legs, thereby achieving an exercising or rehabilitating function. In addition, the drive unit 60 of the transmission mechanism 70 functions as a magnetically controlled resistance device to provide a resistance to the two pivot mechanisms 5 so that the user has to apply a larger force to tread and pivot the two pivot mechanisms 5 relative to the main frame 1, thereby enhancing the exercising or rehabilitating effect. Further, the drive unit 60 of the transmission mechanism 70 functions as a powered motor to drive the two pivot mechanisms 5 relative to the main frame 1 and to move the user's two feet so as to achieve a rehabilitating function automatically.
Although the invention has been explained in relation to its preferred embodiment(s) as mentioned above, it is to be understood that many other possible modifications and variations can be made without departing from the scope of the present invention. It is, therefore, contemplated that the appended claim or claims will cover such modifications and variations that fall within the true scope of the invention.
Number | Name | Date | Kind |
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3213852 | Zent | Oct 1965 | A |
5310392 | Lo | May 1994 | A |
6852070 | Herbert | Feb 2005 | B1 |
20100130331 | Hu | May 2010 | A1 |
Number | Date | Country | |
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20130005549 A1 | Jan 2013 | US |