The present invention relates to a device for performing strength exercises using a continuous, flexible pulling member with user-adjustable resistance.
An exercise apparatus with a device for performing strength exercises using a continuous pulling member is known from U.S. Pat. No. 8,025,608 B2. This apparatus has a supporting framework, a continuous rope, and a means for a resistance to be applied to the rope by the user. A plurality of pulleys is provided on the device in order to apply a particular resistance to the continuous pulling member. A drawback of this apparatus is its technically complex design and its size. The exercise apparatus cannot easily be transported, if at all, and is not suited for mobile use.
A transportable exercise apparatus is known from US 2005/0148437 A1 which has a device that can be vertically adjusted and fixed to a vertical support and with which a pulling motion can be simulated using a continuous pulling member. A variable resistance can be applied to the pulling member using a setting screw and a pressure exerted on the guide channel by screwing in the setting screw. During operation, the user sits on a vertically and horizontally adjustable surface to the support the exercise apparatus. The exercise apparatus can be folded up and repositioned, but can nonetheless be transported only with difficulty due to its weight and size. Due to its technically complex design, and due to the design of the means for generating the resistance on the continuous pulling member, the device itself is also not well suited for mobile use.
The present disclosure describes an exercise device which eliminates the aforementioned drawbacks and is constructed in such a way that it can be comfortably transported, e.g. in a bag or backpack. The device may be transported by any other suitable mobile means of transport and storage, or in some other manner. The disclosed device is designed to be technically simple and compact in its construction.
The device comprises a guide member mounted rotatably on a shaft. The guide member is driven by a continuous pulling member which wraps around the guide member. A brake is provided by which a variably adjustable resistance can be applied to the continuous pulling member.
At least one variably adjustable eddy current brake is provided at the guide member. The eddy current may be induced in at least one metal disc rotating in a magnetic field for braking or for generating the resistance on the guide member.
The advantage of positioning an eddy current brake directly on the guide member which interacts with the continuous pulling member is that, in contrast to the previous solutions discussed above, this provides a highly compact construction. The exercise device is highly efficient and variably adjustable, and thus requires no elaborate mechanical aids to generate resistance directly on the pulling member. A further advantage of this device is that, due to its small number of components in comparison with the devices of the prior art, it can be manufactured very cost-effectively. A further advantage of using an eddy current brake is that this brake is free from wear.
The device may be designed so that it can easily be attached to different suspension points, such as a tree branch, door frame, or other suitable fixed structures. A mounting is provided on the device for this purpose.
In addition to the exemplary applications of the device described above, the device may also function as part of a larger exercise apparatus in which it serves as the primary working element, e.g. where the continuous pulling member is led along pulleys or other elements that guide the pulling member.
Additional objectives, features, advantages, and possible applications of the device can be gleaned from the following description of an exemplary embodiment on the basis of the drawings.
The device depicted schematically in
As shown in
On either side of the guide member 2 are positioned a carrier plate 13 and a support plate 14. By means of a bearing 15 and an opposing bearing (not shown), the shaft 9 is supported in the carrier plate 13 and the support plate 14 while being able to turn freely.
A pressure roller (pressing means) 17 is provided on the front, which pushes the pulling member 1 into the guide member 2 in order to prevent slippage between the pulling member 1 and the guide member 2. The pressure roller 17 is mounted on the gear shaft 5 by bearing 18 and its opposing bearing (not shown) so as to be freely rotatable. The bearings 18 are positioned one on either side of the pressure roller 17. The pressure roller 17 can be driven in such a manner as to rotate at almost precisely the speed of the pulling member 1, and whereby slippage of the pulling member 1 is prevented by the addition of more traction area on the pulling member 1 and less pressure. The benefit of this is less wear on the pulling member 1.
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Number | Date | Country | Kind |
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102013103510.8 | Apr 2013 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/DE2013/100428 | 12/17/2013 | WO | 00 |