1. Field of the Invention
The present invention relates to elliptical machines and more particularly, to a pedal motion path adjustable elliptical trainer, which allows change of pedal motion paths.
2. Description of the Related Art
Elliptical trainer is a stationary exercise machine used to simulate walking that move along a smooth, elliptical path. Elliptical trainers offer a non-impact cardiovascular workout that can help you reach your health and fitness goals. The pedal motion paths of conventional elliptical trainers are constant, hence, the entire exercise will seem tedious, and will be unable to train all different muscles of the legs.
Taiwan Patent 1294294 discloses an elliptical trainer entitled “LEG-TRAINING ELLIPTICAL MACHINE”, which uses a screw rod of a slope control mechanism to control movement of a female screw member, causing the female screw member to bias a drag bar, When biasing the drag bar, the angle of a rail holder is changed relative to the floor to adjust the slope of the pedal motion paths. Further, Taiwan Patent M403355 discloses a lifting mechanism for elliptical trainer, which uses a retractable rod of a linear actuator to adjust the angular position of a lift frame relative to the floor, thereby changing the pedal motion paths. The aforesaid two prior art patents allow control of the elevation of pedals to change the motion paths of sliding bars subject different requirements from different users. However, the axis of rotation of each pedal is kept in parallel to the reference axis of the rotating mechanism assembly. When viewed from the top side, the left and right pedals can simply biased in a front-rear direction. Thus, only a small part of the muscles of the legs can be trained during exercise, resulting in poor effects of exercise. In order to improve the drawbacks of the aforesaid two prior art designs, Taiwan Patent M407086 discloses an elliptical trainer, entitled “Improved structure of fitness elliptical machine”, which uses two sliding guide rails to control variation of the sliding motion path. The two sliding guide rails are formed of one single tubular member that is bent into a predetermined shape defining a parallel part and a splayed part. However, this design simply allows the machine to perform one specific motion model. If the user wishes to change the outward expansion angle, the user must purchase a different model of elliptical trainer or a different type of sliding rails, causing so much inconvenience.
The present invention has been accomplished under the circumstances in view. It is the main Object of the present invention to provide a pedal motion path adjustable elliptical trainer, which allows quick adjustment of the pedal motion paths, so that the user can pedal the pedals to move along respective front and back-biased motion paths and respective left and right-biased motion paths, training different muscles of the legs.
To achieve this object of the present invention, a pedal motion path adjustable elliptical trainer comprises a base frame, a rotating mechanism assembly, a lifting mechanism, a support link set, a control mechanism, and a sliding mechanism. The base frame is mounted on a support surface. The rotating mechanism assembly comprises two cranks coaxially pivoted to the base frame for performing a closed-path motion. The lifting mechanism comprises a rail holder, a support member, and two sliding rails. The rail holder is pivotally connected to the base frame, and biasable relative to the base frame. The rail holder comprises two first stop portions and two second stop portions. Each sliding rail comprises a pivot portion and a sliding portion. The pivot portion is pivoted to the support member. The sliding portion is coupled to the rail holder and movable between one respective first stop portion and one respective second stop portion. Each support link comprises a first end portion and a second end portion. The first end portion is pivoted to one respective crank. The second end portion is slidably coupled to one respective sliding rail. The linkage mechanism set comprises two handlebars and two links. The handlebars are respectively pivotally mounted at opposite left and right sides of the base frame. The links have the respective two opposite ends thereof respectively pivotally coupled between the handlebars and the second end portions of the support link set. The control mechanism is mounted between the base frame and the rail holder, and adapted to control the angle of deflection of the lifting mechanism. The sliding mechanism is pivotally coupled between the control mechanism and the rail holder for enabling the sliding portions of the sliding rails to move on the rail holder relative to each other.
Thus, subject to vertical swinging motion of the lifting mechanism and lateral displacement of the sliding mechanism, the pedal motion path adjustable elliptical trainer enables the user's legs to move along respective front and back-biased motion paths and respective left and right-biased motion paths, training different muscles of the legs.
Other advantages and features of the present invention will be fully understood by reference to the following specification in conjunction with the accompanying drawings, in which like reference signs denote like components of structure.
Referring to
The base frame 20 is mounted at a support surface G.
The rotating mechanism assembly 30 comprises two opposing cranks 32 coaxially pivoted to the base frame 20 to perform a closed-path motion.
The lifting mechanism 40 comprises a rail holder 42, two sliding rails 44, a support member 46, and a bracket 48. The rail holder 42 is pivotally connected to the base frame 20 and biasable relative to the base frame 20, comprising two first stop portions 422 and two second stop portions 424. Each sliding rail 44 comprises a pivot portion 442 and a sliding portion 444. The pivot portion 442 is pivoted to the support member 46. The sliding portion 444 is movable on the rail holder 42 between one respective first stop portion 422 and one respective second stop portion 424. The bracket 48 comprises a frame rod 482, a wheel axle 484, and two rollers 486. The frame rod 482 is pivotally connected to the support member 46 of the lifting mechanism 40 and the front end of the linking-up member 90. The wheel axle 484 is connected to the bottom end of the frame rod 482. The two rollers 486 are rotatably mounted at the two opposite ends of the wheel axle 484 for stopping against the support surface G.
The support link set 50 comprises two opposing first end portions 52 and two second end portions 54. Each of the two first end portions 52 is pivoted to one respective crank 32. Each of the two second end portions 54 is mounted with a pulley block 542 that is supported on one respective sliding rail 44, enabling the second end portion 54 to move along the respective sliding rail 44. The support link set 50 further comprises two pedals 544 respectively arranged at the top side of the second end portion 54 and biasable on the longitudinal axis thereof in a left-right direction.
The linkage mechanism set 60 comprises two handlebars 62 and two links 64. The two handlebars 62 are respectively disposed at left and right sides relative to the base frame 20. The links 64 are respectively pivotally connected between the handlebars 62 and the second end portions 54 of the support link set 50.
The control mechanism 70 is mounted between the base frame 20 and the rail holder 42, comprising a motor 72 and a drive rod 74. The motor 72 is mounted at the support member 46 of the lifting mechanism 40. The drive rod 74 is mounted at the rear side of the motor 72, and movable forwards and backwards relative to the motor 72.
The sliding mechanism 80 is pivotally mounted between the control mechanism 70 and the rail holder 42, comprising a locating block 82, a slide 84 and two connection members 86. The locating block 82 is fixedly mounted at the support member 46 of the lifting mechanism 40. The slide 84 is affixed to the drive rod 74 and movably supported on the locating block 82. The connection members 86 have the front ends thereof pivotally connected to the slide 84, and the rear ends thereof slidably coupled to the rail holder 42 and movable relative to each other for moving the sliding portions 444 of the sliding rails 44 on the rail holder 42 relative to each other.
The linking-up member 90 has the two opposite ends thereof respectively pivotally connected to the support member 46 of the lifting mechanism 40 and the slide 84 of the sliding mechanism 80, and adapted to bias the support member 46 up and down relative to the support surface G subject to change of the length of the drive rod 74 and to simultaneously drive the sliding rails 44 to turn about the axes of the respective pivot portions 442 in performing a scissor action.
Referring to
Although a particular embodiment of the invention has been described in detail for purposes of illustration, various modifications and enhancements may be made without departing from the spirit and scope of the invention. Accordingly, the invention is not to be limited except as by the appended claims.
Number | Date | Country | Kind |
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102100458 | Jan 2013 | TW | national |