Hub for A Bicycle
20250303791 ยท 2025-10-02
Inventors
Cpc classification
B60B2200/47
PERFORMING OPERATIONS; TRANSPORTING
B60B27/023
PERFORMING OPERATIONS; TRANSPORTING
International classification
Abstract
A hub for a bicycle has a body (10) which is hollow and tubular, an inner gear (14) which is formed on an inner surface at an end of the body (10). A gear set (20) is engaged with the inner gear (14), and a wheel base (30) is rotatably engaged with the gear set (20) unidirectionally. Two shock-absorbing gaskets (40) are attached respectively to two sides of the gear set (20).
Claims
1. A hub of a bicycle comprising: a body (10) which is hollow and tubular, an inner gear (14) which is formed on an inner surface at an end of the body (10); a gear set (20) held in the end of the body (10) and engaged with the inner gear (14); and a wheel base (30) rotatably connected with the end of the body (10) corresponding to the gear set (20), an annular gear (32) is mounted in the wheel base (30) and is engaged with the gear set (20) unidirectionally, characterized in that, two shock-absorbing gaskets (40) are attached respectively to two sides of the gear set (20).
2. The hub as claimed in claim 1, characterized in that, two receiving grooves (22) for placing at least one the shock-absorbing gasket (40) are respectively defined in two sides of the gear set (20).
3. The hub as claimed in claim 2, characterized in that, two annular plates (12) are mounted respectively on positions near two ends of the body (10) and are applied to be connected with the spokes of the wheel.
4. The hub as claimed in claim 1, characterized in that, two bearings (16) are respectively arranged at two ends of the body (10).
5. The hub as claimed in claim 2, characterized in that, two bearings (16) are respectively arranged at two ends of the body (10).
6. The hub as claimed in claim 3, characterized in that, two bearings (16) are respectively arranged at two ends of the body (10).
7. The hub as claimed in claim 4, characterized in that, two wheel bearings (34) are placed and spaced apart from each other in the wheel base (30), and a spacer (36) is provided in the wheel base 30 and is located between the two wheel bearings (34).
8. The hub as claimed in claim 5, characterized in that, two wheel bearings (34) are placed and spaced apart from each other in the wheel base (30), and a spacer (36) is provided in the wheel base 30 and is located between the two wheel bearings (34).
9. The hub as claimed in claim 6, characterized in that, two wheel bearings (34) are placed and spaced apart from each other in the wheel base (30), and a spacer (36) is provided in the wheel base 30 and is located between the two wheel bearings (34).
10. The hub as claimed in claim 7, characterized in that, a shock-absorbing ring (42) is mounted around the spacer (36), and an outer surface of the shock-absorbing ring (42) abuts the wheel base (30).
11. The hub as claimed in claim 8, characterized in that, a shock-absorbing ring (42) is mounted around the spacer (36), and an outer surface of the shock-absorbing ring (42) abuts the wheel base (30).
12. The hub as claimed in claim 9, characterized in that, a shock-absorbing ring (42) is mounted around the spacer (36), and an outer surface of the shock-absorbing ring (42) abuts the wheel base (30).
13. The hub as claimed in claim 1, characterized in that, two wheel bearings (34) are placed and spaced apart from each other in the wheel base (30), and a spacer (36) is provided in the wheel base 30 and is located between the two wheel bearings (34).
14. The hub as claimed in claim 2, characterized in that, two wheel bearings (34) are placed and spaced apart from each other in the wheel base (30), and a spacer (36) is provided in the wheel base 30 and is located between the two wheel bearings (34).
15. The hub as claimed in claim 3, characterized in that, two wheel bearings (34) are placed and spaced apart from each other in the wheel base (30), and a spacer (36) is provided in the wheel base 30 and is located between the two wheel bearings (34).
16. The hub as claimed in claim 13, characterized in that, a shock-absorbing ring (42) is mounted around the spacer (36), and an outer surface of the shock-absorbing ring (42) abuts the wheel base (30).
17. The hub as claimed in claim 14, characterized in that, a shock-absorbing ring (42) is mounted around the spacer (36), and an outer surface of the shock-absorbing ring (42) abuts the wheel base (30).
18. The hub as claimed in claim 15, characterized in that, a shock-absorbing ring (42) is mounted around the spacer (36), and an outer surface of the shock-absorbing ring (42) abuts the wheel base (30).
19. The hub as claimed in claim 1, characterized in that, multiple bearings (16) are arranged in the body.
20. The hub as claimed in claim 2, characterized in that, multiple bearings (16) are arranged in the body.
Description
IN THE DRAWINGS
[0012]
[0013]
[0014]
[0015] In order to make purposes, technical solutions, and advantages of the present invention to be clearer, the following content provides some preferred embodiments in accordance with the present invention. With reference to
[0016] The gear set 20 is held in one of ends of the body 10 and is engaged with the inner gear 14 in the body 10. The wheel base 30 is rotatably connected with the body 10 at the end corresponding to the gear set 20, and is connected to a flywheel/sprocket set of the bicycle. An annular gear 32 is mounted in the wheel base 30 and is engaged with the gear set 20 unidirectionally. Two wheel bearings 34 are placed and spaced apart from each other in the wheel base 30, and the two wheel bearings 34 are also mounted around the axle 60. In addition, a spacer 36 is provided in the wheel base 30, is mounted around the axle 60, and is located between the two wheel bearings 34. Two ends of the spacer 36 respectively abut against the two wheel bearings 34. An elastic member 38 abuts against one side of the gear set 20. The elastic member 38 can be a spring, and the other end of the elastic member 38 can abut against one of the wheel bearings 34.
[0017] The hub in accordance with this invention also has two shock-absorbing gaskets 40 which are attached respectively to two sides of the gear set 20. Each shock-absorbing gasket 40 is made of soft material such as rubber. In addition, two grooves 22 for receiving the shock-absorbing gasket 40 respectively are defined in two sides of the gear set 20. A shock-absorbing ring 42 is mounted around the spacer 36 of the wheel base 30, and the outer surface of the shock-absorbing ring 42 abuts the wheel base 30.
[0018] Thus, when a rider stepping the pedals of the bicycle to move forward, the flywheel/sprocket set may drive the wheel base 30 to rotate, and the body 10 is driven to rotate through a unidirectional engagement between the annular gear 32 and the gear set 20. Accordingly, the bicycle wheel may be rotate around the axle 60. If the rider reverses a stepping direction of the pedals, a gear skipping may be formed between the ring gear 32 and the gear set 20, and the body 10 and the wheel are remained in an idling state.
[0019] With such arrangement, the two shock-absorbing gaskets 40 are attached respectively to two sides of the gear set 20. If a lubricating oil filled in the gear set 20, the ring gear 32 or inner gear 14 is lost due to long-term riding, the bicycle can use the soft shock-absorbing gasket 40 to absorb the vibration generated by gear engaging or gear skipping between the gear set 20 and the annular gear 32. Therefore, the hub in accordance with the present invention not only can prevent the vibration from being transmitted to the body 10 and the bicycle frame, but also can avoid the noise be generated to improve the smoothness when bicycle riding.
[0020] Secondly, the shock-absorbing ring 42 provided on the spacer 36 of the wheel seat 30 also can present the shock-absorbing and noise-preventing effects to improve the smoothness when bicycle riding.