Flywheel exerciser having a hybrid resistance system

Abstract

A flywheel exerciser having a hybrid resistance system includes: a body having a flywheel unit; a wind resistance system disposed on the flywheel unit; and a magnetic resistance system disposed on the flywheel unit. The wind resistance system is a conventional wind resistance which provides segmental adjustment, the present invention is additionally provided with a magnetic resistance system. When the resistance generated by the wind resistance system is insufficient or excessive, the resistance can be further finely increased or decreased by adjusting the magnetic resistance system to provide the resistance that best meets the user's needs.

Claims

1. A flywheel exerciser having a hybrid resistance system, comprising: a body having a flywheel unit and a bracket unit, wherein the flywheel unit is fixed on the bracket unit, and the bracket unit is further provided with a pedaling unit for a user to pedal; a wind resistance system disposed on the flywheel unit, wherein the wind resistance system is drivingly connected to the pedaling unit; and a magnetic resistance system disposed on the flywheel unit, wherein the magnetic resistance system has a magnet attracting member, an adjustment member, a magnetic member, and a pivot member, the magnet attracting member is fixed to the flywheel unit, the adjustment member is fixed to the flywheel unit and has a first hole, the magnetic member has one end pivotally connected to the flywheel unit and is provided with a second hole, the pivot member has one end pivotally connected to the flywheel unit and includes a first portion and a second portion, a first bolt is inserted through the first portion and disposed in the first hole, and a second bolt is inserted through the second portion and disposed in the second hole, when the first bolt changes position in the first hole, the second bolt also changes position in the second hole, which causes a distance between the magnetic member and the magnet attracting member to be changed, thus adjusting a magnetic resistance generated by the magnetic resistance system.

2. The flywheel exerciser having the hybrid resistance system as claimed in claim 1, wherein the magnetic member is provided with a plurality of magnetic blocks.

3. The flywheel exerciser having the hybrid resistance system as claimed in claim 1, wherein the pivot member is T-shaped and has three ends, one of which is pivotally connected to the flywheel unit, another of which is the first portion, and the last one of which is the second portion.

4. The flywheel exerciser having the hybrid resistance system as claimed in claim 1, wherein the flywheel unit has a through hole which is arc-shaped, and the first bolt is inserted through the first hole and the through hole.

5. The flywheel exerciser having the hybrid resistance system as claimed in claim 1, wherein the body has a bracket unit, the flywheel unit is fixed on the bracket unit, the flywheel unit has a first outer casing and a second outer casing, the first outer casing is fixed on the bracket unit, the second outer casing is detachably assembled to the first outer casing and provided with a plurality of ventilation holes, and the first outer casing and the second outer casing are combined to form a space for accommodating the wind resistance system and the magnetic resistance system.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective view of the present invention in a preferred embodiment;

(2) FIG. 2 is an exploded view of the flywheel unit, the wind resistance system, and the magnetic resistance system of the present invention in accordance with a preferred embodiment;

(3) FIG. 3 is an exploded view of the magnetic resistance system of the present invention in a preferred embodiment;

(4) FIG. 4 is an operational view of the magnetic resistance system in a first state in a preferred embodiment of the present invention;

(5) FIG. 5 is an operational view of the magnetic resistance system in a second state in a preferred embodiment of the present invention; and

(6) FIG. 6 is an operational view of the magnetic resistance system in a third state in a preferred embodiment of the present invention.

DETAILED DESCRIPTION

(7) The present invention will be clearer from the following description when viewed together with the accompanying drawings, which show, for purpose of illustrations only, the preferred embodiment in accordance with the present invention.

(8) Referring to FIGS. 1-4, a flywheel exerciser having a hybrid resistance system in accordance with the present invention is provided, and comprises: a body 10, a wind resistance system 20, and a magnetic resistance system 30.

(9) The body 10 has a bracket unit 11 and a flywheel unit 12 fixed on the bracket unit 11. The bracket unit 11 is further provided with a pedaling unit 111 for the user to pedal. In this embodiment, the pedaling unit 111 is a flywheel pedal. The wind resistance system 20 is disposed on the flywheel unit 12, and drivingly connected to the pedaling unit 111. The wind resistance system 20 can be rotated by the pedaling unit 111. Since the wind resistance system 20 provides a first resistance, the user feels resistance when pedaling the pedaling unit 111.

(10) The magnetic resistance system 30 is disposed on the flywheel unit 12, and provides a second resistance. With the wind resistance system 20 and the magnetic resistance system 30, the user feels the combined resistance of the first resistance and the second resistance when pedaling the pedaling unit 111.

(11) In this embodiment, the flywheel unit 12 has a first outer casing 121 and a second outer casing 122. The first outer casing 121 is fixed on the bracket unit 11 and provided with a through hole 1211 which is arc-shaped, and the second outer casing 122 is detachably assembled to the first outer casing 121 and provided with a plurality of ventilation holes 1221. The first outer casing 121 and the second outer casing 122 are combined to form a space for accommodating the wind resistance system 20 and the magnetic resistance system 30.

(12) In this embodiment, the magnetic resistance system 30 has a magnet attracting member 31, an adjustment member 32, a magnetic member 33, and a pivot member 34. The magnet attracting member 31 is fixed to the flywheel unit 12. The adjustment member 32 is fixed to the flywheel unit 12 and has a first hole 321. The magnetic member 33 has one end pivotally connected to the flywheel unit 12 and is provided with a second hole 331. The pivot member 34 has one end pivotally connected to the flywheel unit 12, and includes a first portion 341 and a second portion 342. A first bolt 91 is inserted through the first portion 341 and disposed in the first hole 321, and a second bolt 92 is inserted through the second portion 342 and disposed in the second hole 331.

(13) The pivot member 34 is T-shaped and has three ends, one of which is pivotally connected to the first outer casing 121 of the flywheel unit 12, another of which is the first portion 341, and the last one of which is the second portion 342. Preferably, the magnetic member 33 is provided with a plurality of magnetic blocks 332 which are disposed on the first outer casing 121 in an annular manner.

(14) In this embodiment, the first bolt 91 is inserted through the first hole 321 and the through hole 1211 and extended out of the space, so that the user can adjust the first bolt 91 to change the distance between the magnet attracting member 31 and the magnetic member 33, thereby adjusting the magnetic resistance generated between the magnet attracting member 31 and the magnetic member 33.

(15) The above is the structural configuration and the connection relationship of the preferred embodiment of the present invention, and the usage of the invention explained as follows:

(16) When the user wants to adjust the resistance, the wind resistance system 20 can be adjusted first. Since the adjustment method of the wind resistance system 20 is the same as the conventional method, it will not be described here. After adjusting the resistance of the wind resistance system 20, the user then adjusts the magnetic resistance system 30.

(17) Referring to FIGS. 4-6, when the user adjusts the magnetic resistance system 30, the first bolt 91 can be adjusted first. When the first bolt 91 changes position in the first hole 321, the second bolt 92 also changes position in the second hole 331, which changes the distance between the magnetic member 33 and the magnet attracting member 31, thereby adjusting the magnetic resistance generated by the magnetic resistance system 30. The closer the magnetic member 33 is to the magnet attracting member 31, the greater the resistance will be generated, and the farther the magnetic member 33 is from the magnet attracting member 31, the smaller the resistance will be generated.

(18) The wind resistance system 20 is a conventional wind resistance which provides segmental adjustment, the present invention is additionally provided with a magnetic resistance system 30. When the resistance generated by the wind resistance system 20 is insufficient or excessive, the resistance can be further finely increased or decreased by adjusting the magnetic resistance system 30 to provide the resistance that best meets the user's needs.

(19) More preferably, after the wind resistance system 20 is adjusted to the maximum level, the user can further adjust the magnetic resistance system 30 to the maximum level, so that the total resistance produced by the present invention is greater than the prior art having only the wind resistance system 20.

(20) While we have shown and described various embodiments in accordance with the present invention, it is clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.