Resistance adjusting apparatus with wind resistance and magnetic resistance

Abstract

A resistance adjusting apparatus is disposed on a frame and has a rotating member, a magnetic resistance member, and a wind resistance member. The rotating member has an axle rotatably disposed on the frame, an assembly seat fixedly disposed on the axle, and a magnetic wheel detachably disposed on the assembly seat. The magnetic resistance member is disposed on the frame, is located out of the magnetic wheel, and has an adjusting seat disposed on the frame and multiple magnetic elements. The magnetic wheel is inserted into an inner space of the adjusting seat. The magnetic elements are disposed in the adjusting seat and are located in the inner space of the adjusting seat. The wind resistance member is detachably disposed on an outer surface of the magnetic wheel. The wind resistance member and the magnetic resistance member are independent and can be detached individually.

Claims

1. A resistance adjusting apparatus with wind resistance and magnetic resistance, adapted to be disposed on a frame, and comprising: a rotating member having an axle rotatably disposed on the frame; an assembly seat fixedly disposed on the axle; and a magnetic wheel detachably disposed on the assembly seat and having an outer surface; a magnetic resistance member swingably disposed on the frame, located out of the magnetic wheel, and having an adjusting seat swingably disposed on the frame and having an inner space formed in the adjusting seat, wherein the magnetic wheel is inserted into the inner space of the adjusting seat; and multiple magnetic elements disposed in the adjusting seat and located in the inner space of the adjusting seat; and a wind resistance member detachably disposed on the outer surface of the magnetic wheel; wherein the wind resistance member comprises a fan having multiple wings annularly disposed around the magnetic wheel at spaced intervals.

2. The resistance adjustment apparatus with wind resistance and magnetic resistance as claimed in claim 1, wherein the magnetic wheel has two sides and the fan is disposed on one of the two sides of the magnetic wheel.

3. The resistance adjusting apparatus with wind resistance and magnetic resistance as claimed in claim 2, wherein the adjusting seat has two side plates and a connecting block, the two side plates are spaced apart from each other at an interval and are swingably disposed on the frame beside the magnetic wheel, and the connecting block is disposed between and is connected to the side plates above the magnetic wheel.

4. The resistance adjustment apparatus with wind resistance and magnetic resistance as claimed in claim 1, wherein the magnetic wheel has two sides, the wind resistance member further comprising another fan having multiple wings annularly disposed on the magnetic wheel at spaced intervals, the fans are respectively disposed on the two sides of the magnetic wheel.

5. The resistance adjusting apparatus with wind resistance and magnetic resistance as claimed in claim 4, wherein the adjusting seat has two side plates and a connecting block, the two side plates are spaced apart from each other at an interval and are swingably disposed on the frame beside the magnetic wheel, and the connecting block is disposed between and is connected to the side plates above the magnetic wheel.

6. The resistance adjusting apparatus with wind resistance and magnetic resistance as claimed in claim 1, wherein the adjusting seat has two side plates and a connecting block, the two side plates are spaced apart from each other at an interval and are swingably disposed on the frame beside the magnetic wheel, and the connecting block is disposed between and is connected to the side plates above the magnetic wheel.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective view of a first embodiment of a resistance adjusting apparatus with wind resistance and magnetic resistance in accordance with the present invention;

(2) FIG. 2 is a front side view of the resistance adjusting apparatus with wind resistance and magnetic resistance in FIG. 1;

(3) FIG. 3 is a front side view of a second embodiment of a resistance adjusting apparatus with wind resistance and magnetic resistance in accordance with the present invention;

(4) FIG. 4 is a perspective view of a third embodiment of a resistance adjusting apparatus with wind resistance and magnetic resistance in accordance with the present invention;

(5) FIG. 5 is a front side view of the resistance adjusting apparatus with wind resistance and magnetic resistance in FIG. 4;

(6) FIG. 6 is a front side view of a fourth embodiment of a resistance adjusting apparatus with wind resistance and magnetic resistance in accordance with the present invention;

(7) FIG. 7 is an operational perspective view of the resistance adjusting apparatus with wind resistance and magnetic resistance in FIG. 1, showing the resistance adjusting apparatus is disposed on an exercise bike; and

(8) FIG. 8 is another operational perspective view of the resistance adjusting apparatus with wind resistance and magnetic resistance in FIG. 1, showing the resistance adjusting apparatus is disposed on the exercise bike.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(9) With reference to FIGS. 1 and 2, a first embodiment of a resistance adjusting apparatus with wind resistance and magnetic resistance in accordance with the present invention is disposed on a frame 41, and comprises a rotating member 10, a magnetic resistance member 20, and a wind resistance member 30a.

(10) The rotating member 10 has an axle 11, an assembly seat 12, and a magnetic wheel 13. The axle 11 is rotatably disposed on and inserted through the frame 11. The assembly seat 12 is fixedly disposed on the axle 11. The magnetic wheel 13 is detachably disposed on the assembly seat 12 and has an outer surface.

(11) The magnetic resistance member 20 is swingably disposed on the frame 41, is located out of the magnetic wheel 13, and has an adjusting seat 21 and multiple magnetic elements 22. The adjusting seat 21 is swingably disposed on the frame 41 and has an inner space 23 formed in the adjusting seat 21. The magnetic wheel 13 is inserted into the inner space 23 of the adjusting seat 21. The magnetic elements 22 are disposed in the adjusting seat 21 and are located in the inner space 23 of the adjusting seat 21. In addition, the adjusting seat 21 has two side plates 24 and a connecting block 25. The two side plates 24 are spaced apart from each other at an interval and are swingably disposed on the frame 41 beside the magnetic wheel 13. The connecting block 25 is disposed between and is connected to the side plates 24 above the magnetic wheel 13. Furthermore, the magnetic elements 22 are detachably disposed in the adjusting seat 21.

(12) The wind resistance member 30a is detachably disposed on the outer surface of the magnetic wheel 13. With reference to FIGS. 1 and 2, the wind resistance member 30a has a turbine 31a. The turbine 31a is disposed on one of two sides of the magnetic wheel 13, and has a base 32a, multiple wings 33a, and a pressurized plate 34a. The base 32a is disposed on said one of the two sides of the magnetic wheel 13 by screws. The wings 33a are annularly disposed on the base 32a at spaced intervals. The pressurized plate 34a is disposed on the wings 33a and is opposite to the base 32a. Then, the wings 33a are disposed between the base 32a and the pressurized plate 34a.

(13) With reference to FIG. 3, in the second embodiment, the wind resistance member 30b has two turbines 31b. The two turbines 31b are respectively disposed on the two sides of the magnetic wheel 13. Each turbine 31b has a base 32b, multiple wings 33b, and a pressurized plate 34b. The base 32b is disposed on one of the two sides of the magnetic wheel 13 by screws. The wings 33b are annularly disposed on the base 32b at spaced intervals. The pressurized plate 34b is disposed on the wings 33b and is opposite to the base 32b.

(14) With reference to FIGS. 4 and 5, in the third embodiment, the wind resistance member 30c has a fan 35c. The fan 35c is disposed on one of the two sides of the magnetic wheel 13 and has multiple wings 36c. The wings 36c are annularly disposed on the magnetic wheel 13 at spaced intervals by screws.

(15) With reference to FIG. 6, in the fourth embodiment, the wind resistance member 30d has two fans 35d. The two fans 35d are respectively disposed on the two sides of the magnetic wheel 13. Each fan 35d has multiple wings 36d. The wings 36d are annularly disposed on the magnetic wheel 13 at spaced intervals by screws.

(16) With reference to FIGS. 2, 7, and 8, in the first embodiment, the resistance adjusting apparatus with wind resistance and magnetic resistance is disposed on the frame 41 of an exercise bike 40. The exercise bike 40 has the frame 41, a pedal assembly 42, an adjusting rod 43, and a connecting member 44. The pedal assembly 42 is disposed on the frame 41. The adjusting rod 43 is moveably disposed on the frame 41 and is connected to the connecting block 25 of the adjusting seat 21. The connecting member 44 is disposed on the pedal assembly 42 and is connected to the assembly seat 12. The connecting block 25 may be moved toward or away from the magnetic wheel 13 by controlling the adjusting rod 43 for adjusting a distance between the magnetic elements 22 and the magnetic wheel 13 to adjust magnetic resistance provided by the magnetic resistance member 20. A rotating speed of the magnetic wheel 13 can be adjusted by the magnetic resistance provided by the magnetic resistance member 20.

(17) In use, the pedal assembly 42 is pedaled by a user for driving the assembly seat 12 to rotate by the connecting member 44. The axle 11 and the magnetic wheel 13 are rotated together with the assembly seat 12. The wind resistance member 30a is rotated with the magnetic wheel 13. When the wind resistance member 30a and the magnetic wheel 13 are rotated, the wind resistance of the wind resistance member 30a is increased by the wings 33a of the wind resistance member 30a. The rotating speed of the magnetic wheel 13 may be decreased. A rotating speed of the assembly seat 12 is decreased, too. Simultaneously, the magnetic wheel 13 can be attracted by the magnetic elements 22 on the adjusting seat 21 for decreasing the rotating speed of the magnetic wheel 13 to decrease the rotating speed of the assembly seat 12 and increase the magnetic resistance. The magnetic resistance acts on the pedal assembly 42 by the connecting member 44. The user can feel the magnetic resistance that is provided by pedaling the pedal assembly 42.

(18) The wind resistance member 30a is detachably disposed on the outer surface of the magnetic wheel 13. When the wind resistance member 30a is damaged after a long time of use, the wind resistance member 30a can be detached from the outer surface of the magnetic wheel 13. In addition, the magnetic wheel 13 is detachably disposed on the assembly seat 12. When the magnetic wheel 13 is damaged, the magnetic wheel 13 can be directly detached from the assembly seat 12. In addition, the magnetic resistance member 20 is located out of the magnetic wheel 13, and the magnetic elements 22 are detachably disposed in the adjusting seat 21. When the magnetic elements 22 are damaged, the magnetic elements 22 can be detached from the adjusting seat 21 for convenience in repair or replacement.

(19) The wind resistance member 30a, the magnetic wheel 13, and the magnetic elements 22 can be detached individually. It is not necessary to replace the whole resistance adjusting apparatus. Therefore, the assembly flexibility of the resistance adjusting apparatus in the present invention is good, and a replacement cost of the resistance adjusting apparatus is decreased. In addition, the magnetic resistance member 20 can be located around and out of the magnetic wheel 13 for decreasing the assembly limitation of the magnetic resistance member 20.

(20) Accordingly, in the resistance adjusting apparatus with wind resistance and magnetic resistance, the wind resistance member 30a, 30b, 30c, 30d is detachably disposed on the outer surface of the magnetic wheel 13. The wind resistance member 30a, 30b, 30c, 30d is conveniently detached from the magnetic wheel 13 for ease in repair and replacement. Furthermore, the magnetic resistance member 20 is disposed on the frame 41 and is located out of the magnetic wheel 13 for convenience in repair, replacement, and assembly. The wind resistance member 30a, 30b, 30c, 30d and the magnetic resistance member 20 are independent, and can be detached and assembled individually. The replacement cost of the wind resistance member 30a, 30b, 30c, 30d and the magnetic resistance member 20 is decreased effectively.