A support device for a bicycle includes a support structure, a fixing group supported on the support structure and also includes a movable element and a retention element configured to hold the front fork of the bicycle. The support device also includes a lifting/lowering device of the fixing group, in which the retention element is integral in translation with the movable element. The support device further includes connection means configured for slidingly fixing said fixing group to the support structure in such a way as to allow displacements of the fixing group with respect to the support structure along a compensation direction transverse to the vertical direction.

A support device for a bicycle includes a support structure, a fixing group supported on the support structure and a movable element and a retention element configured to retain the front fork of the bicycle. The support device further includes a raising/lowering device of the fixing group, the retention element is translatable jointly with the movable element, and the retention element is rotatably connected to the movable element.

A towing equipment used to train athletes' speed, strength and agility is disclosed to include a training unit, a magnetic resistance unit and a transmission mechanism. By an elastic training belt of the training unit, the towing equipment is connected to the human body. The kinetic energy generated by the human body pulling the elastic training belt is transmitted to the magnetic resistance unit through the transmission mechanism to generate resistance. The magnetic resistance unit includes a magnetic device set and an adjustment device set. The user can adjust the resistance generated by the magnetic device set through the adjustment device set. The magnetic device set includes a resistance wheel set on the frame body and a bearing block set corresponding to the resistance wheel. Use the overlap area of a magnetic field in the resistance wheel and the bearing block to generate magnetic flux.

The present disclosure relates to a multi-track exercise fitness apparatus, including a main frame, and a hypocycloid movement mechanism. The hypocycloid movement mechanism includes an internal gear, an external gear and a force applying member; the internal gear is fixedly connected to the main frame, the external gear internally is engaged with the internal gear, the force applying member is rotatably connected with the external gear, and the force applying member applies force to drive the external gear to roll in the internal gear, such that a movement track of the force applying member forms a hypocycloid. The multi-track exercise fitness apparatus can realize the combination of multiple exercise postures, so that the user can have a more comprehensive exercise effect and a more interesting exercise during fitness.

A dual-turntable training device includes a base, two turntable units, and a resistance unit. Each turntable unit includes a rotating shaft, a turntable, and a grip. The rotating shaft is pivoted to the base. The turntable is secured to the rotating shaft. The two turntables of the two turntable units are horizontally arranged side by side. The grip is vertically disposed on the turntable. The resistance unit includes a control member and two resistance members. The control member is disposed on the base. The control member is connected to the two resistance members. The two resistance members correspond to the two turntables and are configured to apply rotation resistance to the two turntables. By operating the control member, the two resistance members are moved closer to or away from the two turntables for adjusting the rotation resistance.

A dual resistance structure includes a rotating shaft, a wind resistance unit, and a magnetic resistance unit. The wind resistance unit is fixed to the rotating shaft and includes blades arranged annularly. The magnetic resistance unit includes a magnetic resistance member and a magnetic resistance wheel. The magnetic resistance wheel is fixed to the rotating shaft. The magnetic resistance wheel is spaced apart from the wind resistance unit by a distance in an axial direction of the rotating shaft to form a moving space. The magnetic resistance member is selectively moved into or away from the moving space in a radial direction of the magnetic resistance wheel to adjust a magnetic resistance of the magnetic resistance wheel. Part of the magnetic resistance member is movable in the moving space when the magnetic resistance member is moved in the radial direction. The dual resistance structure is mounted on an exercise machine.

A magnetic resistance structure and an exercise machine having the same are disclosed. The magnetic resistance structure includes a seat body, a turning disc unit, a movable seat, a control unit, and a magnetic field component. The turning disc unit is pivotally connected to the seat body in an axial direction. The turning disc unit has a non-magnetic induction part extending in a radial direction. The control unit is connected with the movable seat for controlling the movable seat to approach or move away from the non-magnetic induction part. The magnetic field component includes a first component and a second component. The first component is located on the seat body. The second component is located on the movable seat. The first component and the second component selectively generate a magnetic field by changing their relative positions.

An exercise machine having a force transmission assembly rotatable in first and second directions, first and second wheels rotatable in first and second directions, a first directional coupler that couples the force transmission assembly to the first wheel when the force transmission assembly rotates in the first direction, and a second directional coupler that couples the force transmission assembly to the second wheel when the force transmission assembly rotates in the second direction. The first directional coupler allows the force transmission assembly to rotate with respect to the first wheel when the force transmission assembly moves in the second direction, and the second directional coupler allows the force transmission assembly to rotate with respect to the second wheel when the force transmission assembly moves in the first direction. A resistance mechanism may be configured to resist rotation of the first and second wheels independently from each other.

Embodiments of a strength training apparatus and related methods are provided. In one embodiment, a strength training apparatus may include a tower, a first arm and a second arm each pivotally coupled with the tower and each being configured to be selectively positionable independent of each other at multiple angles relative to each other, a first pulley coupled to an end of the first arm, a first cable extending through the first arm and the first pulley, a second pulley coupled to an end of the second arm, a second cable extending through the second arm and the second pulley, a magnetic mechanism coupled to the first cable and the second cable and configured to provide multiple levels of resistance to a user pulling on the first cable and/or the second cable, and a control panel located on the tower.

The present disclosure relates to an exercise apparatus. More particularly, the present disclosure relates to an apparatus operated by hand which comprises a base upon which extend frame supports for the seat unit, resistance unit, crank unit, and guide unit. Embodiments provide for a crank to be mounted to the base and frame and wherein the crank is connected to first and second actuating rods via a coupling. The actuating rods are slidably connected at one end via a guide pivotally mounted to the frame and have a free end for a user to grip.