1. Field of the Invention
The present invention relates to fitness machine technology, and more particularly to an incline angle adjustable stair climbing machine.
2. Description of the Related Art
Because modern people are busy with work and do not have much time to engage in outdoor sports and outdoor sport activities are susceptible to weather, in order not to be constrained by time and weather, office workers who love to exercise usually will prepare a fitness machine at home for use any time when desired to achieve the effect of fitness. In order to meet the needs of different users, various fitness machines with different functions are commercially available for selection, such as treadmills, steppers, elliptical machines, or stair climbing machines. In a stair climbing machine, the circulation of tread boards enables the user to simulate a stair climbing exercise, strengthening the muscle strength and improving the functions of the heart and the lungs. However, the climb gradient of regular stair climbing machines it normally fixed, not adjustable according to user training needs. Therefore, the fitness effect the user can get from a conventional stair climbing machine is very limited.
The present invention has been accomplished under the circumstances in view. It is the main object of the present invention to provide a stair climbing machine, which allows adjustment of the incline angle to change the climb gradient, satisfying different training needs.
To achieve this and other objects of the present invention, an incline angle adjustable stair climbing machine comprises a base frame, a tilting seat, a tilting seat adjuster, a staircase, and a tread board adjuster. The tilting seat has a rear end thereof pivotally connected to a rear end of the base frame. The tilting seat adjuster is mounted between an opposing front end of the base frame and an opposing front end of the tilting seat, and adapted for adjusting the incline angle of the tilting seat. The staircase is mounted at the tilting seat, comprising a plurality of tread boards biasable relative to the tilting seat. The tread board adjuster is mounted at the tilting seat and connected with the tread boards of the staircase, and adapted for adjusting the angle of each tread board relative to the tilting seat, maintaining each tread board constantly in horizontal. Thus, when using the incline angle adjustable stair climbing machine, operate the tilting seat adjuster to adjust the incline angle of the tilting seat and then operate the tread board adjuster to adjust the angle of each tread board, enabling the user to conduct stair-climbing exercises at different climb gradients accurately and comfortably.
Preferably, the incline angle adjustable stair climbing machine further comprises a handrail and a handrail adjuster. The handrail has a rear end thereof pivotally connected to the rear end of the base frame. The handrail adjuster is mounted between the front end of the tilting seat and an opposing front end of the handrail, and adapted to adjust the incline angle of the handrail, enabling the handrail to be synchronously adjusted with the tilting seat.
Preferably, the staircase further comprises a tread board adjustment frame. The tread board adjustment frame is vertically movably mounted at the tilting seat and connected with each tread board. The tread board adjuster is mounted between the tilting seat and the tread board adjustment frame for enabling the tread board adjuster to adjust the angle of each tread board via the tread board adjustment frame.
Other and further benefits, advantages and features of the present invention will be understood by reference to the following specification in conjunction with the accompanying drawings, in which like reference characters denote like elements of structure.
Referring to
The base frame 20 is adapted to be positioned on a floor to provide a supporting effect.
The tilting seat 30 has a rear end thereof pivotally connected to a rear end of the base frame 20.
The tilting seat adjuster 40 comprises a first motor 41, a first screw rod 42, and a first sleeve 43. The first motor 41 is pivotally mounted at an opposing front end of the tilting seat 30. The first screw rod 42 has a top end thereof connected to the first motor 41. The first sleeve 43 is threaded onto the first screw rod 42 with a bottom end thereof affixed to the base frame 20. Thus, when the first motor 41 is started to rotate the first screw rod 42 clockwise or counter-clockwise, the first screw rod 42 causes the first motor 41 to move axially upward or downward along the first screw rod 42, thereby turning the tilting seat 30 upward or downward relative to the base frame 20.
The handrail 50 has a rear end thereof pivotally connected to an opposing rear end of the base frame 20 for holding by user's both hands.
The handrail adjuster 60 comprises a second motor 61, a second screw rod 62, and a second sleeve 63. The second motor 61 is pivotally connected to an opposing front end of the handrail 50. The second screw rod 62 has a top end thereof connected to the second motor 61. The second sleeve 63 is threaded onto the second screw rod 62 with a bottom end thereof pivotally connected to the front end of the tilting seat 30. Thus, as shown in
The staircase 70 comprises two opposing front chain wheels 72, two opposing rear chain wheels 73, two chains 74, and a plurality of tread boards 75 that are arranged in a front-rear parallel manner. The two front chain wheels 72 are mounted at the front end of the tilting seat 30 in opposing left and right positions with a front wheel axle 722. The two rear chain wheels 73 are mounted at the rear end of the tilting seat 30 in opposing left and right positions with a rear wheel axle 732. Each chain 74 is mounted around one respective front chain wheel 72 and one respective rear chain wheel 73 at one same side, enabling the respective chain wheels 72,73 to be rotated synchronously. Each tread board 75 is pivotally connected between the two chains 74 with a respective tread board axle 752 so that each tread board 75 can be carried by the chains 74 to cycle, and can also be biased up and down relative to the tilting seat 30. The staircase 70 further comprises a tread board adjustment frame 76 (see
Referring to
Based on the above-described structural composition, if the user wishes to adjust the climb gradient, start up the first motor 41 to rotate the first screw rod 42, thereby biasing the tilting seat 30 relative to the base frame 20. At this time, subject to angular position change of the tilting seat 30, the climb gradient is relatively changed. After reached the desired angle, turn off the first motor 41 to keep the tilting seat 30 in the adjusted angular position, and the user can thus step on the tread boards 75 to perform stair-climbing exercises on the desired climb gradient.
Because the angular position of the tilting seat 30 can be changed relative to the base frame 20, in order to let the user hold the handrail 50 with the two hands under the ergonomic posture during the process the user is stepping on the tread boards 75, the second motor 61 can be started up to rotate the second screw rod 62 in biasing the handrail 50 relative to the tilting seat 30 to a suitable angular position. After the tilting seat 30 reaches the desired angular position, turn off the second motor 61, keeping the handrail 50 in the optimal angular position suitable for holding by the user's both hands.
On the other hand, the tread boards 75 can be slightly tilted with the change of the tilting seat 30 in the incline angle. In order to let the tread boards 75 to be constantly maintained in horizontal for stepping by the user as the angle of the tilting seat 30 is changed, the third motor 81 can be started up to rotate the third screw rod 82 in moving the lower sliding seat 93 via the interlocking seat 83. When the lower sliding seat 93 is moved, the first link 94 and the second link 95 are biased relative to each other to move the bracket 89 upwards. At this time, the bracket 89 moves the tread board adjustment frame 76 upwards relative to the tilting seat 30 subject to matching between the front sliding seat 87 and the front sliding rail 85 and matching between the rear sliding seat 88 and the rear sliding rail 86. During movement of the tread board adjustment frame 76, the slide plates 77 are forced to bias the tread boards 75 relative to the tilting seat 30, enabling the tread boards 75 to be maintained in horizontal after change of the incline angle of the tilting seat 30, and allowing the user to conduct a stepping exercise with less effort.
In order to let the stair climbing machine 10 to be operated efficiently and conveniently, the tilting seat adjuster 40, the handrail adjuster 60 and the tread board adjuster 80 can be controlled to work synchronously through an electronic control measure so that when changing the incline angle of the tilting seat 30, the tread boards 75 or the handrail 50 can be relatively biased to the optimal angular position suitable for exercise.
In conclusion, the stair climbing machine 10 of the invention uses the tilting seat adjuster 40 to adjust the incline angle of the tilting seat 30 and the tread board adjuster 80 to adjust the horizontal angle of the tread boards 75, enabling the user to conduct stair-climbing exercises at different climb gradients accurately and comfortably. Further, the stair climbing machine 10 uses the handrail adjuster 60 to adjust the incline angle of the handrail 50, or employs an electronic control measure to actuate the tilting seat adjuster 40, the tread board adjuster 80 and the handrail adjuster 60 synchronously, enabling the user to get good support in the operation, and achieving the objects of the present invention.
Number | Date | Country | Kind |
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104108022 | Mar 2015 | TW | national |