US20160229486A1 - Bicycle sprocket assembly and bicycle rear sprocket assembly - Google Patents
Bicycle sprocket assembly and bicycle rear sprocket assembly Download PDFInfo
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- US20160229486A1 US20160229486A1 US14/615,364 US201514615364A US2016229486A1 US 20160229486 A1 US20160229486 A1 US 20160229486A1 US 201514615364 A US201514615364 A US 201514615364A US 2016229486 A1 US2016229486 A1 US 2016229486A1
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- sprocket
- bicycle
- intervening member
- assembly according
- intervening
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Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62M—RIDER PROPULSION OF WHEELED VEHICLES OR SLEDGES; POWERED PROPULSION OF SLEDGES OR SINGLE-TRACK CYCLES; TRANSMISSIONS SPECIALLY ADAPTED FOR SUCH VEHICLES
- B62M9/00—Transmissions characterised by use of an endless chain, belt, or the like
- B62M9/04—Transmissions characterised by use of an endless chain, belt, or the like of changeable ratio
- B62M9/06—Transmissions characterised by use of an endless chain, belt, or the like of changeable ratio using a single chain, belt, or the like
- B62M9/10—Transmissions characterised by use of an endless chain, belt, or the like of changeable ratio using a single chain, belt, or the like involving different-sized wheels, e.g. rear sprocket chain wheels selectively engaged by the chain, belt, or the like
- B62M9/12—Transmissions characterised by use of an endless chain, belt, or the like of changeable ratio using a single chain, belt, or the like involving different-sized wheels, e.g. rear sprocket chain wheels selectively engaged by the chain, belt, or the like the chain, belt, or the like being laterally shiftable, e.g. using a rear derailleur
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62M—RIDER PROPULSION OF WHEELED VEHICLES OR SLEDGES; POWERED PROPULSION OF SLEDGES OR SINGLE-TRACK CYCLES; TRANSMISSIONS SPECIALLY ADAPTED FOR SUCH VEHICLES
- B62M9/00—Transmissions characterised by use of an endless chain, belt, or the like
- B62M9/04—Transmissions characterised by use of an endless chain, belt, or the like of changeable ratio
- B62M9/06—Transmissions characterised by use of an endless chain, belt, or the like of changeable ratio using a single chain, belt, or the like
- B62M9/10—Transmissions characterised by use of an endless chain, belt, or the like of changeable ratio using a single chain, belt, or the like involving different-sized wheels, e.g. rear sprocket chain wheels selectively engaged by the chain, belt, or the like
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H55/00—Elements with teeth or friction surfaces for conveying motion; Worms, pulleys or sheaves for gearing mechanisms
- F16H55/02—Toothed members; Worms
- F16H55/06—Use of materials; Use of treatments of toothed members or worms to affect their intrinsic material properties
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H55/00—Elements with teeth or friction surfaces for conveying motion; Worms, pulleys or sheaves for gearing mechanisms
- F16H55/02—Toothed members; Worms
- F16H55/30—Chain-wheels
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H55/00—Elements with teeth or friction surfaces for conveying motion; Worms, pulleys or sheaves for gearing mechanisms
- F16H55/02—Toothed members; Worms
- F16H55/30—Chain-wheels
- F16H55/303—Chain-wheels for round linked chains, i.e. hoisting chains with identical links
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H55/00—Elements with teeth or friction surfaces for conveying motion; Worms, pulleys or sheaves for gearing mechanisms
- F16H55/02—Toothed members; Worms
- F16H55/06—Use of materials; Use of treatments of toothed members or worms to affect their intrinsic material properties
- F16H2055/065—Moulded gears, e.g. inserts therefor
Definitions
- the present invention relates to a bicycle sprocket assembly and a bicycle rear sprocket assembly.
- Bicycling is becoming an increasingly more popular form of recreation as well as a means of transportation. Moreover, bicycling has become a very popular competitive sport for both amateurs and professionals. Whether the bicycle is used for recreation, transportation or competition, the bicycle industry is constantly improving the various components of the bicycle.
- One bicycle component that has been extensively redesigned is a bicycle sprocket assembly.
- a bicycle sprocket assembly has a rotational center axis.
- the bicycle sprocket assembly comprises a first sprocket, a second sprocket, a first intervening member, and a second intervening member.
- the first sprocket includes a first sprocket body and a first chain-engagement structure configured to engage with a bicycle chain
- the first sprocket body has a first hub engagement profile configured to engage with a bicycle hub assembly.
- the second sprocket includes a second sprocket body and a second chain-engagement structure configured to engage with the bicycle chain
- the second sprocket body has a second hub engagement profile configured to engage with the bicycle hub assembly.
- the first intervening member is positioned between the first sprocket and the second sprocket in an axial direction parallel to the rotational center axis.
- the second intervening member is positioned between the first sprocket and the second sprocket in the axial direction.
- the second intervening member is provided radially outwardly from the first intervening member with respect to the rotational center axis.
- the second intervening member is attached to at least one of the first sprocket and the second sprocket and has an elongated shape extending along a first reference plane perpendicular to the rotational center axis.
- the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member has an annular shape.
- the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member is a separate member from the second intervening member.
- the bicycle sprocket assembly according to the first aspect is configured so that the first sprocket is adjacent to the second sprocket without another sprocket intervening between the first sprocket and the second sprocket in the axial direction.
- the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member has a hub engagement profile configured to engage with the bicycle hub assembly.
- the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member and the second intervening member are spaced apart from each other in a radial direction with respect to the rotational center axis.
- the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member is attached to at least one of the first sprocket and the second sprocket by adhesive.
- the second intervening member is attached to at least one of the first sprocket and the second sprocket by adhesive.
- the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member is attached to at least one of the first sprocket and the second sprocket by diffusion bonding.
- the second intervening member is attached to at least one of the first sprocket and the second sprocket by diffusion bonding.
- the bicycle sprocket assembly according to the first aspect is configured so that the first chain-engagement structure includes a plurality of first teeth having a first total number.
- the second chain-engagement structure includes a plurality of second teeth having a second total number. The first total number is larger than the second total number.
- the bicycle sprocket assembly according to the first aspect is configured so that the first chain-engagement structure includes a first annular member and a plurality of first teeth circumferentially arranged on an outer periphery of the first annular member.
- the first annular member and the plurality of first teeth are made of a metallic material.
- the first sprocket body is made of a non-metallic material.
- the bicycle sprocket assembly according to the tenth aspect is configured so that the first sprocket body is made of a resin material.
- the bicycle sprocket assembly according to the tenth aspect is configured so that the first annular member is attached to the first sprocket body by integral molding.
- the bicycle sprocket assembly according to the tenth aspect is configured so that the first annular member is attached to the first sprocket body by adhesive.
- the bicycle sprocket assembly according to the first aspect is configured so that the second intervening member is integral with one of the first sprocket and the second sprocket as a single unitary member.
- the bicycle sprocket assembly according to the first aspect is configured so that the second intervening member is attached to the first sprocket and the second sprocket.
- the bicycle sprocket assembly according to the first aspect further comprises a third sprocket, a third intervening member, and a fourth intervening member.
- the third sprocket includes a third sprocket body and a third chain-engagement structure configured to engage with the bicycle chain.
- the third sprocket body has a third hub engagement profile configured to engage with the bicycle hub assembly.
- the second sprocket is positioned between the first sprocket and the third sprocket in the axial direction.
- the third intervening member is positioned between the second sprocket and the third sprocket in the axial direction.
- the fourth intervening member is positioned between the second sprocket and the third sprocket in the axial direction.
- the fourth intervening member is provided radially outwardly from the third intervening member with respect to the rotational center axis.
- the fourth intervening member is attached to at least one of the second sprocket and the third sprocket.
- the bicycle sprocket assembly according to the sixteenth aspect is configured so that the fourth intervening member having an elongated shape extending along a second reference plane perpendicular to the rotational center axis.
- the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member has an annular shape.
- the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member is a separate member from the fourth intervening member.
- the bicycle sprocket assembly according to the sixteenth aspect is configured so that the second sprocket is adjacent to the third sprocket without another sprocket intervening between the second sprocket and the third sprocket in the axial direction.
- the bicycle sprocket assembly according to the sixteenth aspect is configured so that the fourth intervening member is attached to the second sprocket and the third sprocket.
- the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member has a hub engagement profile configured to engage with the bicycle hub assembly.
- the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member and the fourth intervening member are spaced apart from each other in a radial direction with respect to the rotational center axis.
- the bicycle sprocket assembly according to the sixteenth aspect is configured so that the fourth intervening member is positioned radially inwardly from the second intervening member with respect to the rotational center axis.
- the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member is attached to at least one of the second sprocket and the third sprocket by adhesive.
- the fourth intervening member is attached to at least one of the second sprocket and the third sprocket by adhesive.
- the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member is attached to at least one of the second sprocket and the third sprocket by diffusion bonding.
- the fourth intervening member is attached to at least one of the second sprocket and the third sprocket by diffusion bonding.
- the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member has an annular shape and is disposed to be coaxial with respect to the rotational center axis of the bicycle sprocket assembly.
- the bicycle sprocket assembly according to the twenty-seventh aspect is configured so that the second intervening member has an annular shape and is disposed to be coaxial with respect to the rotational center axis of the bicycle sprocket assembly.
- the bicycle sprocket assembly according to the first aspect is configured so that the first sprocket has a first opening and a first inner periphery.
- the first opening is provided on the first sprocket body.
- the first inner periphery defines the first opening.
- the second intervening member includes a first elongated portion at least partly extending along the first inner periphery.
- the bicycle sprocket assembly according to the first aspect is configured so that the first sprocket has first openings and first inner peripheries.
- the first openings are provided on the first sprocket body.
- the first inner peripheries respectively define the first openings.
- the second intervening member includes first elongated portions and first additional elongated portions.
- the first elongated portions each at least partly extend along one of the first inner peripheries.
- the first additional elongated portions each at least partly extending along another of the first inner peripheries which is adjacent to the one of the first inner peripheries.
- the bicycle sprocket assembly according to the twenty-ninth aspect further comprises a third sprocket, a third intervening member, and a fourth intervening member.
- the third sprocket includes a third sprocket body and a third chain-engagement structure configured to engage with the bicycle chain.
- the third sprocket body has a third hub engagement profile configured to engage with the bicycle hub assembly.
- the second sprocket is positioned between the first sprocket and the third sprocket in the axial direction.
- the third intervening member is positioned between the second sprocket and the third sprocket in the axial direction.
- the fourth intervening member is positioned between the second sprocket and the third sprocket in the axial direction.
- the fourth intervening member is provided radially outwardly from the third intervening member with respect to the rotational center axis.
- the fourth intervening member is attached to at least one of the second sprocket and the third sprocket.
- the second sprocket has a second opening and a second inner periphery.
- the second opening is provided on the second sprocket body.
- the second inner periphery defines the second opening.
- the first opening is aligned with the second opening in the axial direction.
- the fourth intervening member includes a second elongated portion at least partly extending the second inner periphery.
- the bicycle sprocket assembly according to the thirtieth aspect further comprises a third sprocket, a third intervening member, and a fourth intervening member.
- the third sprocket includes a third sprocket body and a third chain-engagement structure configured to engage with the bicycle chain.
- the third sprocket body has a third hub engagement profile configured to engage with the bicycle hub assembly.
- the second sprocket is positioned between the first sprocket and the third sprocket in the axial direction.
- the third intervening member is positioned between the second sprocket and the third sprocket in the axial direction.
- the fourth intervening member is positioned between the second sprocket and the third sprocket in the axial direction.
- the fourth intervening member is provided radially outwardly from the third intervening member with respect to the rotational center axis.
- the fourth intervening member is attached to at least one of the second sprocket and the third sprocket.
- the second sprocket has second openings and second inner peripheries.
- the second openings are provided on the second sprocket body.
- the second inner peripheries respectively define the second opening.
- the fourth intervening member includes second elongated portions and second additional elongated portions.
- the second elongated portions each at least partly extend along one of the second inner peripheries.
- the second additional elongated portions each at least partly extend along another of the second inner peripheries which is adjacent to the one of the second inner peripheries.
- a bicycle rear sprocket assembly has a rotational center axis.
- the bicycle rear sprocket assembly comprises a first sprocket and a second sprocket.
- the first sprocket includes a first sprocket body and a first chain-engagement structure.
- the first sprocket body is made of a non-metallic material.
- the first chain-engagement structure is made of a metallic material and is configured to engage with a bicycle chain.
- the second sprocket includes a second sprocket body and a second chain-engagement structure.
- the second sprocket body is made of a non-metallic material and attached to the first sprocket body.
- the second chain-engagement structure is made of a metallic material and is configured to engage with the bicycle chain.
- the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the first sprocket body and the second sprocket body provide a base portion having a truncated conical shape
- the bicycle rear sprocket assembly is configured so that the first chain-engagement structure of the first sprocket includes a first annular member and a plurality of first teeth circumferentially arranged on an outer periphery of the first annular member.
- the second chain-engagement structure of the second sprocket includes a second annular member and a plurality of second teeth circumferentially arranged on an outer periphery of the second annular member.
- the first annular member is at least partly embedded in the first sprocket body.
- the second annular member is at least partly embedded in the second sprocket body.
- the bicycle rear sprocket assembly according to the thirty-fifth aspect is configured so that the first annular member is at least partly embedded in the first sprocket body by integral molding.
- the second annular member is at least partly embedded in the second sprocket body by integral molding.
- the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the first sprocket body is attached to the second sprocket body by adhesive.
- the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the first sprocket body is attached to the second sprocket body through a concavo-convex structure.
- the bicycle rear sprocket assembly according to the thirty-third aspect further comprises a tubular member positioned coaxially with the rotational center axis.
- the tubular member has a hub engagement profile configured to engage with a bicycle hub assembly.
- the bicycle rear sprocket assembly according to the thirty-ninth aspect further comprises an internal space provided between the base portion and the tubular member in a radial direction with respect to the rotational center axis.
- the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the first sprocket body and the second sprocket body are integral with each other as a single unitary member.
- the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the second sprocket body is directly attached to the first sprocket body.
- the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the second sprocket body is attached to the first sprocket body via an intervening member.
- FIG. 1 is a perspective view of a bicycle sprocket assembly in accordance with a first embodiment
- FIG. 2 is an elevational view of a first sprocket, a first intervening member and a second intervening member of the bicycle sprocket assembly illustrated in FIG. 1 ;
- FIG. 3 is an exploded perspective view of the first sprocket, the first intervening member and the second intervening member of the bicycle sprocket assembly illustrated in FIG. 1 ;
- FIG. 4 is a partial cross-sectional view of the bicycle sprocket assembly taken along line IV-IV of FIG. 1 ;
- FIG. 5 is an enlarged side elevational view of the first sprocket and the first intervening member of the bicycle sprocket assembly illustrated in FIG. 1 ;
- FIG. 6 is an elevational view of a second sprocket, a third intervening member and a fourth intervening member of the bicycle sprocket assembly illustrated in FIG. 1 ;
- FIG. 7 is an exploded perspective view of the second sprocket, the third intervening member and the fourth intervening member of the bicycle sprocket assembly illustrated in FIG. 1 ;
- FIG. 8 is an exploded perspective view of the first sprocket, the first intervening member, the second intervening member, the second sprocket, the third intervening member and the fourth intervening member of the bicycle sprocket assembly illustrated in FIG. 1 ;
- FIG. 9 is an elevational view of a third sprocket and other intervening members of the bicycle sprocket assembly illustrated in FIG. 1 ;
- FIG. 10 is a partial cross-sectional view of a bicycle sprocket assembly in accordance with a second embodiment
- FIG. 11 is an elevational view of a first sprocket, a first intervening member and a second intervening member of the bicycle sprocket assembly illustrated in FIG. 10 ;
- FIG. 12 is an exploded perspective view of the first sprocket, the first intervening member and the second intervening member of the bicycle sprocket assembly illustrated in FIG. 10 ;
- FIG. 13 is a perspective view of a bicycle sprocket assembly in accordance with a third embodiment
- FIG. 14 is an elevational view of a first sprocket, a first intervening member and a second intervening member of the bicycle sprocket assembly illustrated in FIG. 13 ;
- FIG. 15 is an exploded perspective view of the first sprocket, the first intervening member and the second intervening member of the bicycle sprocket assembly illustrated in FIG. 13 ;
- FIG. 16 is a partial cross-sectional view of the bicycle sprocket assembly taken along line XVI-XVI of FIG. 13 ;
- FIG. 17 is an elevational view of a second sprocket, a third intervening member and a fourth intervening member of the bicycle sprocket assembly illustrated in FIG. 13 ;
- FIG. 18 is an exploded perspective view of the second sprocket, the third intervening member and the fourth intervening member of the bicycle sprocket assembly illustrated in FIG. 13 ;
- FIG. 19 is an elevational view of the second sprocket of the bicycle sprocket assembly illustrated in FIG. 13 ;
- FIG. 20 is a perspective view of a bicycle sprocket assembly in accordance with a fourth embodiment
- FIG. 21 is an elevational view of a first sprocket of the bicycle sprocket assembly illustrated in FIG. 20 ;
- FIG. 22 is an elevational view of a second sprocket of the bicycle sprocket assembly illustrated in FIG. 20 ;
- FIG. 23 is a partial cross-sectional view of the bicycle sprocket assembly taken along line XXIII-XXIII of FIG. 20 ;
- FIG. 24 is a partial perspective cross-sectional view of the bicycle sprocket assembly illustrated in FIG. 20 ;
- FIG. 25 is a perspective view of the bicycle sprocket assembly illustrated in FIG. 20 ;
- FIG. 26 is a partial perspective cross-sectional view of a bicycle sprocket assembly in accordance with a modified embodiment.
- a bicycle sprocket assembly 10 in accordance with a first embodiment comprises a plurality of bicycle sprockets.
- the bicycle sprocket assembly 10 is configured to engage with a bicycle chain C.
- the bicycle sprocket assembly 10 comprises eleven bicycle sprockets Si to S 11 .
- the bicycle sprocket assembly 10 has a rotational center axis A.
- the bicycle sprocket assembly 10 is configured to be rotated about the rotational center axis A in a rotational driving direction D 11 during pedaling.
- the rotational driving direction D 11 is defined along a circumferential direction D 1 of the bicycle sprocket assembly 10 .
- the bicycle sprockets Si to S 11 are arranged in an axial direction D 2 parallel to the rotational center axis A.
- bicycle sprocket assembly 10 is a bicycle rear sprocket assembly in the illustrated embodiment, constructions of the bicycle sprocket assembly 10 can be applied to a bicycle front sprocket assembly if needed and/or desired.
- the bicycle sprocket assembly 10 is configured to be mounted on a bicycle hub assembly 2 .
- the following directional terms “front”, “rear”, “forward”, “rearward”, “left”, “right”, “transverse”, “upward” and “downward” as well as any other similar directional terms refer to those directions which are determined on the basis of a user (e.g., a rider) who sits on a saddle (not shown) of a bicycle with facing a handlebar (not shown). Accordingly, these terms, as utilized to describe the bicycle sprocket assembly 10 , should be interpreted relative to the bicycle equipped with the bicycle sprocket assembly 10 as used in an upright riding position on a horizontal surface.
- the bicycle sprocket assembly 10 comprises a first sprocket and a second sprocket.
- the bicycle sprocket S 2 is also referred to as the first sprocket S 2
- the bicycle sprocket S 3 is also referred to as the second sprocket S 3
- the bicycle sprocket assembly 10 further comprises a third sprocket.
- the bicycle sprockets S 4 is also referred to as the third sprocket S 4 .
- other sprockets of the bicycle sprocket assembly 10 can be referred to as the first sprocket, the second sprocket, and the third sprocket if needed and/or desired.
- the first sprocket S 2 includes a first sprocket body 12 and a first chain-engagement structure 14 .
- the first sprocket body 12 has a first hub engagement profile 16 configured to engage with the bicycle hub assembly 2 ( FIG. 1 ).
- the first chain-engagement structure 14 is configured to engage with the bicycle chain C.
- the first chain-engagement structure 14 includes a first annular member 18 and a plurality of first teeth 20 .
- the plurality of first teeth 20 circumferentially are arranged on an outer periphery of the first annular member 18 .
- the first annular member 18 and the plurality of first teeth 20 are made of a metallic material. While the first teeth 20 is integral with the first annular member 18 in the illustrated embodiment, at least one of the first teeth 20 can be a separate member from the first annular member 18 if needed and/or desired.
- the first sprocket body 12 is made of a non-metallic material.
- the first sprocket body 12 is made of a resin material.
- the first annular member 18 is attached to the first sprocket body 12 by integral molding. In the illustrated embodiment, the first annular member 18 is attached to the first sprocket body 12 by integral molding such as insert molding. However, the first annular member 18 can be attached to the first sprocket body 12 by adhesive if needed and/or desired.
- the first sprocket body 12 can be made of non-metallic materials other than the resin material if needed and/or desired. Furthermore, the first sprocket body 12 can be made of a metallic material same as or different from the material of the first teeth 20 and the first annular member 18 if needed and/or desired. For example, the first sprocket body 12 can be made of a light weight metallic material such as aluminum whereas the first teeth 20 and the first annular member 18 can be made of a rigid metallic material such as iron or titanium.
- the bicycle sprocket assembly 10 comprises a first intervening member 22 . While the first intervening member 22 has an annular shape in the illustrated embodiment, the first intervening member 22 can have other shapes if needed and/or desired.
- the first intervening member 22 preferably has a hub engagement profile 24 configured to engage with the bicycle hub assembly 2 ( FIG. 1 ).
- the hub engagement profile 24 of the first intervening member 22 has substantially the same as the first hub engagement profile 16 of the first sprocket body 12 when viewed from the axial direction D 2 .
- the first intervening member 22 is disposed to be coaxial with respect to the rotational center axis A of the bicycle sprocket assembly 10 .
- the bicycle sprocket assembly 10 comprises a second intervening member 26 .
- the second intervening member 26 is provided radially outwardly from the first intervening member 22 with respect to the rotational center axis A.
- the first intervening member 22 and the second intervening member 26 are spaced apart from each other in a radial direction with respect to the rotational center axis A.
- the second intervening member 26 includes a plurality of separate parts in the illustrated embodiment, the second intervening member 26 can be integrally provided as a single unitary member if needed and/or desired.
- the first intervening member 22 is a separate member from the second intervening member 26 in the illustrated embodiment, the first intervening member 22 can be integrally provided with the second intervening member 26 as a single unitary member if needed and/or desired.
- the second intervening member 26 has an elongated shape extending along a first reference plane P 1 ( FIG. 4 ) perpendicular to the rotational center axis A.
- the first sprocket S 2 includes a side surface 28 provided on the first sprocket body 12 to face the second sprocket S 3 in the axial direction D 2 ( FIG. 3 ).
- the first reference plane P 1 is defined on the side surface 28 of the first sprocket S 2 .
- the second intervening member 26 has an elongated shape extending along the side surface 28 perpendicular to the rotational center axis A. The second intervening member 26 extends from the first sprocket body 12 in the axial direction D 2 .
- the first intervening member 22 is positioned between the first sprocket S 2 and the second sprocket S 3 in the axial direction D 2 parallel to the rotational center axis A.
- the second intervening member 26 is positioned between the first sprocket S 2 and the second sprocket S 3 in the axial direction D 2 .
- the first sprocket S 2 is adjacent to the second sprocket S 3 without another sprocket intervening between the first sprocket S 2 and the second sprocket S 3 in the axial direction D 2 .
- the second sprocket S 3 is adjacent to the third sprocket S 4 without another sprocket intervening between the second sprocket S 3 and the third sprocket S 4 in the axial direction D 2 .
- the second sprocket S 3 is positioned between the first sprocket S 2 and the third sprocket S 4 in the axial direction D 2 .
- the first intervening member 22 is a separate member from the first sprocket S 2 and the second sprocket S 3 .
- the first intervening member 22 can be integrally provided with at least one of the first sprocket S 2 and the second sprocket S 3 if needed and/or desired.
- the first intervening member 22 is attached to at least one of the first sprocket S 2 and the second sprocket S 3 by adhesive.
- the first intervening member 22 is attached to the first sprocket S 2 and the second sprocket S 3 by adhesive.
- the first intervening member 22 can be attached to at least one of the first sprocket S 2 and the second sprocket S 3 via other structures if needed and/or desired.
- the first intervening member 22 can be attached to at least one of the first sprocket S 2 and the second sprocket S 3 by diffusion bonding if needed and/or desired.
- the first intervening member 22 and the at least one of the first sprocket S 2 and the second sprocket S 3 are at least partly made of a metallic material.
- the second intervening member 26 is attached to at least one of the first sprocket S 2 and the second sprocket S 3 .
- the second intervening member 26 is attached to at least one of the first sprocket S 2 and the second sprocket S 3 by adhesive.
- the second intervening member 26 is integral with one of the first sprocket S 2 and the second sprocket S 3 as a single unitary member.
- the second intervening member 26 is integral with the first sprocket S 2 as a single unitary member and is a separate member from the second sprocket S 3 .
- the second intervening member 26 is attached to the second sprocket S 3 by adhesive.
- the second intervening member 26 can be a separate member from the first sprocket S 2 if needed and/or desired. In such an embodiment, the second intervening member 26 is attached to the first sprocket S 2 and the second sprocket S 3 . Furthermore, the second intervening member 26 can be attached to at least one of the first sprocket S 2 and the second sprocket S 3 by diffusion bonding if needed and/or desired. In such an embodiment, the second intervening member 26 and the at least one of the first sprocket S 2 and the second sprocket S 3 are at least partly made of a metallic material.
- the first sprocket S 2 has a first opening 30 and a first inner periphery 32 .
- the first opening 30 is provided on the first sprocket body 12 .
- the first inner periphery 32 defines the first opening 30 .
- the first sprocket S 2 has first openings 30 and first inner peripheries 32 .
- the first openings 30 are provided on the first sprocket body 12 .
- the first inner peripheries 32 respectively define the first openings 30 .
- a total number of the first openings 30 is not limited to the illustrated embodiment. While the first openings 30 has the same shape in the illustrated embodiment, at least one of the first openings 30 can have other shapes different from each other if needed and/or desired.
- the second intervening member 26 includes a first elongated portion 34 at least partly extending along the first inner periphery 32 .
- the second intervening member 26 includes first elongated portions 34 and first additional elongated portions 36 .
- the first elongated portions 34 each at least partly extend along one of the first inner peripheries 32 .
- the first additional elongated portions 36 each at least partly extend along another of the first inner peripheries 32 which is adjacent to the one of the first inner peripheries 32 .
- first elongated portions 34 are provided radially outward of the first additional elongated portions 36 in the illustrated embodiment, the first elongated portions 34 can be provided radially inward of the first additional elongated portions 36 or provided at radial positions equal to radial positions of the first additional elongated portions 36 if needed and/or desired.
- a total number of each of the first elongated portions 34 and the first additional elongated portions 36 is not limited to the illustrated embodiment.
- the second intervening member 26 includes a first intermediate portion 37 coupling the first elongated portion 34 to the first additional elongated portion 36 .
- the second intervening member 26 includes first intermediate portions 37 respectively coupling the first elongated portions 34 to the first additional elongated portions 36 .
- the first sprocket body 12 includes first arm portions 12 a radially extending relative to the rotational center axis A. Each of the first arm portions 12 a is provided between adjacent two of the first openings 30 .
- the first intermediate portions 37 are respectively provided on the first arm portions 12 a.
- the first elongated portion 34 extends in the circumferential direction D 1 .
- the first additional elongated portion 36 extends in the circumferential direction D 1 .
- the first intermediate portion 37 substantially radially extends relative to the rotational center axis A.
- the second sprocket S 3 includes a second sprocket body 38 and a second chain-engagement structure 40 .
- the second chain-engagement structure 40 is configured to engage with the bicycle chain C.
- the second sprocket body 38 has a second hub engagement profile 42 configured to engage with the bicycle hub assembly 2 ( FIG. 1 ).
- the second chain-engagement structure 40 includes a second annular member 44 and a plurality of second teeth 46 .
- the plurality of second teeth 46 circumferentially are arranged on an outer periphery of the second annular member 44 .
- the second annular member 44 and the plurality of second teeth 46 are made of a metallic material. While the second teeth 46 is integral with the second annular member 44 in the illustrated embodiment, at least one of the second teeth 46 can be a separate member from the second annular member 44 if needed and/or desired.
- the second sprocket body 38 is made of a non-metallic material.
- the second sprocket body 38 is made of a resin material.
- the second annular member 44 is attached to the second sprocket body 38 by integral molding. However, the second annular member 44 can be attached to the second sprocket body 38 by adhesive if needed and/or desired.
- the second sprocket body 38 can be made of non-metallic materials other than the resin material if needed and/or desired. Furthermore, the second sprocket body 38 can be made of a metallic material same as or different from the material of the second teeth 46 the second annular member 44 if needed and/or desired. For example, the second sprocket body 38 can be made of a light weight metallic material such as aluminum whereas the second teeth 46 and the second annular member 44 can be made of a rigid metallic material such as iron or titanium.
- the second sprocket body 38 is attached to the first sprocket body 12 .
- the second sprocket body 38 is attached to the first sprocket body 12 via an intervening member.
- the second sprocket body 38 is attached to the first sprocket body 12 via the first intervening member 22 and the second intervening member 26 .
- the second sprocket body 38 can be directly attached to the first sprocket body 12 if needed and/or desired.
- the plurality of first teeth 20 have a first total number.
- the plurality of second teeth 46 have a second total number.
- the first total number is larger than the second total number.
- the first total number can be smaller than the second total number if needed and/or desired.
- the bicycle sprocket assembly 10 further comprises a third intervening member 48 .
- the third intervening member 48 has an annular shape in the illustrated embodiment, the third intervening member 48 can have other shapes if needed and/or desired.
- the third intervening member 48 preferably has a hub engagement profile 50 configured to engage with the bicycle hub assembly ( FIG. 1 ).
- the hub engagement profile 50 of the third intervening member 48 has substantially the same as the second hub engagement profile 42 of the second sprocket body 38 when viewed from the axial direction D 2 .
- the third intervening member 48 is disposed to be coaxial with respect to the rotational center axis A of the bicycle sprocket assembly 10 .
- the bicycle sprocket assembly 10 further comprises a fourth intervening member 52 .
- the fourth intervening member 52 is provided radially outwardly from the third intervening member 48 with respect to the rotational center axis A.
- the third intervening member 48 and the fourth intervening member 52 are spaced apart from each other in a radial direction with respect to the rotational center axis A.
- the fourth intervening member 52 includes a plurality of separate parts in the illustrated embodiment, the fourth intervening member 52 can be integrally provided as a single unitary member if needed and/or desired.
- the third intervening member 48 is a separate member from the fourth intervening member 52 in the illustrated embodiment, the third intervening member 48 can be integrally provided with the fourth intervening member 52 if needed and/or desired.
- the fourth intervening member 52 has an elongated shape extending along a second reference plane P 2 ( FIG. 4 ) perpendicular to the rotational center axis A.
- the second sprocket S 3 includes a side surface 54 provided on the second sprocket body 38 to face the third sprocket S 4 in the axial direction D 2 ( FIG. 7 ).
- the second reference plane P 2 is defined on the side surface 54 of the second sprocket S 3 .
- the fourth intervening member 52 has an elongated shape extending along the side surface 54 perpendicular to the rotational center axis A. The fourth intervening member 52 extends from the second sprocket body 38 in the axial direction D 2 .
- the third intervening member 48 is positioned between the second sprocket S 3 and the third sprocket S 4 in the axial direction D 2 .
- the fourth intervening member 52 is positioned between the second sprocket S 3 and the third sprocket S 4 in the axial direction D 2 .
- the third intervening member 48 is a separate member from the second sprocket S 3 and the third sprocket S 4 .
- the third intervening member 48 can be integrally provided with at least one of the second sprocket S 3 and the third sprocket S 4 if needed and/or desired.
- the third intervening member 48 is attached to at least one of the second sprocket S 3 and the third sprocket S 4 by adhesive.
- the third intervening member 48 is attached to the second sprocket S 3 and the third sprocket S 4 by adhesive.
- the third intervening member 48 can be attached to at least one of the second sprocket S 3 and the third sprocket S 4 by other structures if needed and/or desired.
- the third intervening member 48 can be attached to at least one of the second sprocket S 3 and the third sprocket S 4 by diffusion bonding if needed and/or desired.
- the third intervening member 48 and the at least one of the second sprocket S 3 and the third sprocket S 4 are made of a metallic material.
- the fourth intervening member 52 is attached to at least one of the second sprocket S 3 and the third sprocket S 4 .
- the fourth intervening member 52 is attached to at least one of the second sprocket S 3 and the third sprocket S 4 by adhesive.
- the fourth intervening member 52 is integral with one of the second sprocket S 3 and the third sprocket S 4 as a single unitary member.
- the fourth intervening member 52 is integral with the second sprocket S 3 as a single unitary member and is a separate member from the third sprocket S 4 .
- the fourth intervening member 52 can be a separate member from the second sprocket S 3 if needed and/or desired.
- the fourth intervening member 52 is attached to the second sprocket S 3 and the third sprocket S 4 . Furthermore, the fourth intervening member 52 can be attached to the at least one of the second sprocket S 3 and the third sprocket S 4 by diffusion bonding if needed and/or desired. In such an embodiment, the fourth intervening member 52 and the at least one of the second sprocket S 3 and the third sprocket S 4 are at least partly made of a metallic material.
- the second sprocket S 3 has a second opening 56 and a second inner periphery 58 .
- the second opening 56 is provided on the second sprocket body 38 .
- the second inner periphery 58 defines the second opening 56 .
- the second sprocket S 3 has second openings 56 and second inner peripheries 58 .
- the second openings 56 are provided on the second sprocket body 38 .
- the second inner peripheries 58 respectively define the second openings 56 .
- a total number of the second openings 56 is not limited to the illustrated embodiment. While the second openings 56 has the same shape in the illustrated embodiment, at least one of the second openings 56 can have other shapes different from each other if needed and/or desired.
- the fourth intervening member 52 includes a second elongated portion 60 at least partly extending along the second inner periphery 58 .
- the fourth intervening member 52 includes second elongated portions 60 and second additional elongated portions 62 .
- the second elongated portions 60 each at least partly extend along one of the second inner peripheries 58 .
- the second additional elongated portions 62 each at least partly extend along another of the second inner peripheries 58 which is adjacent to the one of the second inner peripheries 58 .
- the second elongated portions 60 are provided radially outward of the second additional elongated portions 62 in the illustrated embodiment, the second elongated portions 60 can be provided radially inward of the second additional elongated portions 62 or provided at radial positions equal to radial positions of the second additional elongated portions 62 if needed and/or desired.
- a total number of each of the second elongated portions 60 and the second additional elongated portions 62 is not limited to the illustrated embodiment.
- the fourth intervening member 52 includes a second intermediate portion 63 coupling the first elongated portion 60 to the first additional elongated portion 62 .
- the fourth intervening member 52 includes second intermediate portions 63 respectively coupling the second elongated portions 60 to the second additional elongated portions 62 .
- the second sprocket body 38 includes second arm portions 38 a radially extending relative to the rotational center axis A. Each of the second arm portions 38 a is provided between adjacent two of the first openings 30 .
- the second intermediate portions 63 are respectively provided on the second arm portions 38 a.
- the second elongated portion 60 extends in the circumferential direction D 1 .
- the second additional elongated portion 62 extends in the circumferential direction D 1 .
- the second intermediate portion 63 substantially radially extends relative to the rotational center axis A.
- the first opening 30 is aligned with the second opening 56 in the axial direction D 2 . While the first openings 30 has the same shape as the shape of the second openings 56 in the illustrated embodiment, the shapes of the first openings 30 and the second openings 56 can be different from each other if needed and/or desired.
- the fourth intervening member 52 of the second sprocket S 3 has the same shape as that of the second intervening member 26 of the first sprocket S 2 . However, the shape of the fourth intervening member 52 can be different from the shape of the second intervening member 26 if needed and/or desired.
- the third sprocket S 4 includes a third sprocket body 64 and a third chain-engagement structure 66 .
- the third chain-engagement structure 66 is configured to engage with the bicycle chain C.
- the third sprocket body 64 has a third hub engagement profile 68 configured to engage with the bicycle hub assembly 2 ( FIG. 1 ).
- the third chain-engagement structure 66 includes a third annular member 70 and a plurality of third teeth 72 .
- the plurality of third teeth 72 circumferentially are arranged on an outer periphery of the third annular member 70 .
- the third annular member 70 and the plurality of third teeth 72 are made of a metallic material. While the third teeth 72 is integral with the third annular member 70 in the illustrated embodiment, at least one of the third teeth 72 can be a separate member from the third annular member 70 if needed and/or desired.
- the third sprocket body 64 is made of a non-metallic material.
- the third sprocket body 64 is made of a resin material.
- the third annular member 70 is attached to the third sprocket body 64 by integral molding. However, the third annular member 70 can be attached to the third sprocket body 64 by adhesive if needed and/or desired.
- the third sprocket body 64 can be made of non-metallic materials other than the resin material if needed and/or desired. Furthermore, the third sprocket body 64 can be made of a metallic material same as or different from the material of the third teeth 72 and the third annular member 70 if needed and/or desired, For example, the third sprocket body 64 can be made of a light weight metallic material such as aluminum whereas the third teeth 72 and the third annular member 70 can be made of a rigid metallic material such as iron or titanium.
- the third sprocket S 4 and/or other sprockets has substantially the same structures as those of the first and second sprockets S 2 and S 3 , they will not be described and/or illustrated in detail here for the sake of brevity.
- the second intervening member 26 is attached to at least one of the first sprocket S 2 and the second sprocket S 3 and has an elongated shape extending along the first reference plane P 1 perpendicular to the rotational center axis A. Accordingly, it is possible to obtain the desired strength of the bicycle sprocket assembly 10 while it is also possible to achieve desired weight saving of each sprocket.
- a bicycle sprocket assembly 210 in accordance with a second embodiment will be described below referring to FIGS. 10 to 12 .
- the bicycle sprocket assembly 210 has the same configuration as the bicycle sprocket assembly 10 except for the second intervening member.
- elements having substantially the same function as those in the first embodiment will be numbered the same here, and will not be described and/or illustrated again in detail here for the sake of brevity.
- the bicycle sprocket assembly 210 comprises a first sprocket S 202 and a second sprocket S 203 instead of the first sprocket S 2 and the second sprocket S 3 .
- the bicycle sprocket assembly 210 further comprises a third sprocket S 204 instead of the third sprocket S 4 .
- Other sprockets of the bicycle sprocket assembly 210 can be referred to as the first sprocket S 202 , the second sprocket S 203 , and the third sprocket S 204 if needed and/or desired.
- the bicycle sprocket assembly 210 comprises the first intervening member 22 and a second intervening member 226 .
- the second intervening member 226 is provided radially outwardly from the first intervening member 22 with respect to the rotational center axis A.
- the first intervening member 22 and the second intervening member 226 are spaced apart from each other in a radial direction with respect to the rotational center axis A.
- the second intervening member 226 includes a plurality of separate parts in the illustrated embodiment, the second intervening member 226 can be integrally provided as a single unitary member if needed and/or desired.
- the first intervening member 22 is a separate member from the second intervening member 226 in the illustrated embodiment, the first intervening member 22 can be integrally provided with the second intervening member 226 if needed and/or desired.
- the second intervening member 226 has an elongated shape extending along the first reference plane P 1 ( FIG. 10 ) perpendicular to the rotational center axis A.
- the second intervening member 226 has an elongated shape extending along the side surface 28 perpendicular to the rotational center axis A.
- the second intervening member 226 includes a first elongated portion 234 at least partly extending along the first inner periphery 32 .
- the first elongated portion 234 entirely extends along the first inner periphery 32 and surrounds the first opening 30 .
- the second intervening member 226 includes first elongated portions 234 .
- the first elongated portions 234 entirely extend along the first inner peripheries 32 , respectively.
- a total number of each of the first elongated portions 234 is not limited to the illustrated embodiment.
- the second intervening member 226 extends from the second sprocket S 202 in the axial direction D 2 .
- the second intervening member 226 is positioned between the first sprocket S 202 and the second sprocket S 203 in the axial direction D 2 .
- the second intervening member 226 is attached to at least one of the first sprocket S 202 and the second sprocket S 203 .
- the second intervening member 226 is attached to at least one of the first sprocket S 202 and the second sprocket S 203 by adhesive.
- the second intervening member 226 is integral with one of the first sprocket S 202 and the second sprocket S 203 as a single unitary member.
- the second intervening member 226 is integral with the first sprocket S 202 as a single unitary member and is a separate member from the second sprocket S 203 .
- the second intervening member 226 is attached to the second sprocket S 203 by adhesive.
- the second intervening member 226 can be a separate member from the first sprocket S 202 if needed and/or desired.
- the second intervening member 226 is attached to the first sprocket S 202 and the second sprocket S 203 .
- the second intervening member 226 can be attached to at least one of the first sprocket S 202 and the second sprocket S 203 by diffusion bonding if needed and/or desired.
- the second intervening member 226 and the at least one of the first sprocket body 12 and the second sprocket body 38 are at least partly made of a metallic material.
- the second sprocket S 203 and the third sprocket S 204 has substantially the same structures as those of the first sprocket S 202 , they will not be described and/or illustrated in detail here for the sake of brevity.
- Other sprockets can have substantially the same structures as those of the first sprocket S 202 if needed and/or desired.
- a bicycle sprocket assembly 310 in accordance with a third embodiment will be described below referring to FIGS. 13 to 19 .
- the bicycle sprocket assembly 310 has the same configuration as the bicycle sprocket assembly 10 except for the second intervening member.
- elements having substantially the same function as those in the above embodiments will be numbered the same here, and will not be described and/or illustrated again in detail here for the sake of brevity.
- the bicycle sprocket assembly 310 is configured to engage with the bicycle chain C.
- the bicycle sprocket assembly 310 comprises five bicycle sprockets S 301 to S 305 and other smaller sprockets. The other smaller sprockets are omitted from the bicycle sprocket assembly 310 as illustrated in FIG. 13 .
- the bicycle sprocket assembly 310 has the rotational center axis A.
- the bicycle sprockets S 301 to S 305 are arranged in the axial direction D 2 parallel to the rotational center axis A.
- the bicycle sprocket assembly 310 comprises a first sprocket and a second sprocket.
- the bicycle sprocket S 301 is also referred to as the first sprocket S 301
- the bicycle sprocket S 302 is also referred to as the second sprocket S 302 .
- the bicycle sprocket assembly 310 further comprises a third sprocket.
- the bicycle sprockets S 303 is also referred to as the third sprocket S 303 .
- other sprockets of the bicycle sprocket assembly 310 can be referred to as the first sprocket, the second sprocket, and the third sprocket if needed and/or desired.
- the bicycle sprocket assembly 310 comprises the first intervening member 22 and a second intervening member 326 .
- the second intervening member 326 is provided radially outwardly from the first intervening member 22 with respect to the rotational center axis A.
- the first intervening member 22 and the second intervening member 326 are spaced apart from each other in a radial direction with respect to the rotational center axis A.
- the second intervening member 326 has an elongated shape extending along the first reference plane P 1 ( FIG. 16 ) perpendicular to the rotational center axis A.
- the second intervening member 326 has an elongated shape extending along the side surface 28 perpendicular to the rotational center axis A.
- the first intervening member 22 has an annular shape and is disposed to be coaxial with respect to the rotational center axis A of the bicycle sprocket assembly 310 .
- the second intervening member 326 has an annular shape and is disposed to be coaxial with respect to the rotational center axis A of the bicycle sprocket assembly 310 . While the first intervening member 22 is a separate member from the second intervening member 326 in the illustrated embodiment, the first intervening member 22 can be integrally provided with the second intervening member 326 if needed and/or desired.
- the first intervening member 22 is positioned between the first sprocket S 301 and the second sprocket S 302 in the axial direction D 2 parallel to the rotational center axis A.
- the second intervening member 326 is positioned between the first sprocket S 301 and the second sprocket S 302 in the axial direction D 2 .
- the first sprocket S 301 is adjacent to the second sprocket S 302 without another sprocket intervening between the first sprocket S 301 and the second sprocket S 302 in the axial direction D 2 .
- the second sprocket S 302 is adjacent to the third sprocket S 303 without another sprocket intervening between the second sprocket S 302 and the third sprocket S 303 in the axial direction D 2 .
- the second sprocket S 302 is positioned between the first sprocket S 301 and the third sprocket S 303 in the axial direction D 2 .
- the second intervening member 326 is attached to at least one of the first sprocket S 301 and the second sprocket S 302 .
- the second intervening member 326 is attached to at least one of the first sprocket S 301 and the second sprocket S 302 by adhesive.
- the second intervening member 326 is a separate member from the first sprocket S 301 and the second sprocket S 302 .
- the second intervening member 326 is attached to the first sprocket S 301 and the second sprocket S 302 .
- the second intervening member 326 can be integral with at least one of the first sprocket S 301 and the second sprocket S 302 as a single unitary member if needed and/or desired.
- the first sprocket body 12 includes an attachment groove 327 .
- the second intervening member 326 is provided in the attachment groove 327 .
- the first sprocket body 12 includes attachment holes 329 provided in the attachment groove 327 .
- the second intervening member 326 includes an annular body 326 a and protrusions 326 b protruding from the annular body 326 a in the axial direction D 2 .
- the protrusions 326 b are provided to mate with the attachment holes 329 respectively.
- the bicycle sprocket assembly 310 further comprises the third intervening member 48 and a fourth intervening member 352 .
- the fourth intervening member 352 is provided radially outwardly from the third intervening member 48 with respect to the rotational center axis A.
- the third intervening member 48 and the fourth intervening member 352 are spaced apart from each other in the radial direction with respect to the rotational center axis A.
- the fourth intervening member 352 has an elongated shape extending along the second reference plane P 2 ( FIG. 16 ) perpendicular to the rotational center axis A.
- the fourth intervening member 352 has an elongated shape extending along the side surface 54 perpendicular to the rotational center axis A.
- the third intervening member 48 is positioned between the second sprocket S 302 and the third sprocket S 303 in the axial direction D 2 .
- the fourth intervening member 352 is positioned between the second sprocket S 302 and the third sprocket S 303 in the axial direction D 2 .
- the fourth intervening member 352 is positioned radially inwardly from the second intervening member 326 with respect to the rotational center axis A.
- the second intervening member 326 has an inner diameter larger than an outer diameter of the fourth intervening member 352 .
- the fourth intervening member 352 can be positioned at the radial position equal to the second intervening member 326 or positioned radially outwardly from the second intervening member 326 with respect to the rotational center axis A if needed and/or desired.
- the third intervening member 48 is a separate member from the second sprocket S 302 and the third sprocket S 303 .
- the third intervening member 48 is attached to at least one of the second sprocket S 302 and the third sprocket S 303 by adhesive.
- the third intervening member 48 can be integrally provided with at least one of the second sprocket S 302 and the third sprocket S 303 if needed and/or desired.
- the third intervening member 48 is attached to the second sprocket S 302 and the third sprocket S 303 by adhesive.
- the third intervening member 48 can be attached to at least one of the second sprocket S 302 and the third sprocket S 303 by other structures.
- the fourth intervening member 352 is attached to at least one of the second sprocket S 302 and the third sprocket S 303 .
- the fourth intervening member 352 is attached to at least one of the second sprocket S 302 and the third sprocket S 303 by adhesive.
- the fourth intervening member 352 is attached to the second sprocket S 302 and the third sprocket S 303 .
- the fourth intervening member 352 is a separate member from the second sprocket S 302 and the third sprocket S 303 .
- the fourth intervening member 352 can be integral with at least one of the second sprocket S 302 and the third sprocket S 303 if needed and/or desired.
- the third intervening member 48 is a separate member from the fourth intervening member 352 in the illustrated embodiment, the third intervening member 48 can be integrally provided with the fourth intervening member 352 if needed and/or desired.
- the second sprocket body 38 includes an attachment groove 353 .
- the fourth intervening member 352 is provided in the attachment groove 353 .
- the second sprocket body 38 includes an additional attachment groove 355 .
- the additional attachment groove 355 is provided on an additional side surface 357 opposite to the side surface 54 ( FIG. 18 ) in the axial direction D 2 .
- the second intervening member 326 is provided in the additional attachment groove 355 .
- the third sprocket S 303 and/or other sprockets has substantially the same structures as those of the second sprocket S 302 , they will not be described and/or illustrated in detail here for the sake of brevity.
- a bicycle sprocket assembly 410 in accordance with a fourth embodiment will be described below referring to FIGS. 20 to 26 .
- the bicycle sprocket assembly 410 has the same configuration as the bicycle sprocket assembly 10 except for sprocket bodies and intervening members.
- elements having substantially the same function as those in the above embodiments will be numbered the same here, and will not be described and/or illustrated again in detail here for the sake of brevity.
- the bicycle sprocket assembly 410 is a bicycle rear sprocket assembly configured to engage with the bicycle chain C.
- the bicycle sprocket assembly 410 is also referred to as a bicycle rear sprocket assembly 410 .
- the bicycle rear sprocket assembly 410 comprises five bicycle sprockets S 401 to S 405 .
- the bicycle rear sprocket assembly 410 has the rotational center axis A.
- the bicycle sprockets S 401 to S 405 are arranged in the axial direction D 2 parallel to the rotational center axis A.
- the bicycle rear sprocket assembly 410 comprises a first sprocket and a second sprocket.
- the bicycle sprocket S 401 is also referred to as the first sprocket S 401
- the bicycle sprocket S 402 is also referred to as the second sprocket S 402 .
- Other sprockets can be referred to as the first sprocket and the second sprocket if needed and/or desired.
- the first sprocket S 401 includes a first sprocket body 412 and a first chain-engagement structure 414 .
- the first chain-engagement structure 414 is configured to engage with the bicycle chain C.
- the first chain-engagement structure 414 of the first sprocket S 401 includes a first annular member 418 and a plurality of first teeth 420 .
- the plurality of first teeth 420 are circumferentially arranged on an outer periphery of the first annular member 418 .
- the first sprocket body 412 is made of a non-metallic material.
- the first sprocket body 412 is made of a resin material.
- the first chain-engagement structure 414 is made of a metallic material.
- the first annular member 418 is at least partly embedded in the first sprocket body 412 .
- the first annular member 418 is at least partly embedded in the first sprocket body 412 by integral molding.
- the first chain-engagement structure 414 is partly embedded in the first sprocket body 412 by integral molding such as insert molding.
- the first chain-engagement structure 414 can be attached to the first sprocket body 412 by adhesive if needed and/or desired.
- the second sprocket S 402 includes a second sprocket body 438 and a second chain-engagement structure 440 .
- the second chain-engagement structure 440 is configured to engage with the bicycle chain C.
- the second chain-engagement structure 440 of the second sprocket S 402 includes a second annular member 444 and a plurality of second teeth 446 .
- the plurality of second teeth 446 are circumferentially arranged on an outer periphery of the second annular member 444 .
- the second sprocket body 438 is made of a non-metallic material.
- the second sprocket body 438 is made of a resin material.
- the second sprocket body 438 is attached to the first sprocket body 412 .
- the second sprocket body 438 is directly attached to the first sprocket body 412 .
- the second sprocket body 438 can be attached to the first sprocket body 412 via an intervening member such as the first intervening member and the second intervening member in accordance with the above embodiments if needed and/or desired.
- the second chain-engagement structure 440 is made of a metallic material.
- the second annular member 444 is at least partly embedded in the second sprocket body 438 .
- the second annular member 444 is at least partly embedded in the second sprocket body 438 by integral molding.
- the second chain-engagement structure 440 is partly embedded in the second sprocket body 438 by integral molding such as insert molding.
- the second chain-engagement structure 440 can be attached to the second sprocket body 438 by adhesive if needed and/or desired.
- each of the bicycle sprockets S 403 to S 405 includes sprocket bodies 462 , 464 and 466 .
- the first sprocket body 412 , the second sprocket body 438 , and the sprocket bodies 462 , 464 and 466 of the bicycle sprockets S 401 to S 405 provide the base portion 460 having a tapered inner peripheral surface 468 .
- the first sprocket body 412 is attached to the second sprocket body 438 by adhesive.
- the first sprocket body 412 is attached to the second sprocket body 438 through a concavo-convex structure for the purpose of better torque transmission.
- the first sprocket body 412 includes a first axial surface 470 and a first radial surface 472 .
- the first axial surface 470 has an annular shape and faces in the axial direction D 2 .
- the first radial surface 472 has an annular shape and radially inwardly faces relative to the rotational center axis A.
- the second sprocket body 438 includes a second axial surface 474 and a second radial surface 476 .
- the second axial surface 474 has an annular shape and faces in the axial direction D 2 .
- the second radial surface 476 has an annular shape and radially outwardly faces relative to the rotational center axis A.
- the first axial surface 470 is attached to the second axial surface 474 by adhesive.
- the first radial surface 472 is attached to the second radial surface 476 by adhesive.
- the concavo-convex structure may comprise a protrusion formed on one of the first axial surface 470 and the second axial surface 474 , and a recess formed on the other of the first axial surface 470 and the second axial surface 474 .
- the concavo-convex structure may also comprise a protrusion formed on one of the first radial surface 472 and the second radial surface 476 , and a recess formed on the other of the first radial surface 472 and the second radial surface 476 .
- the concavo-convex structure can be omitted from the bicycle rear sprocket assembly 410 if needed and/or desired.
- the bicycle rear sprocket assembly 410 further comprises a tubular member 478 positioned coaxially with the rotational center axis A.
- the tubular member 478 has a hub engagement profile 480 configured to engage with the bicycle hub assembly 2 ( FIG. 23 ).
- the tubular member 478 is secured to the base portion 460 .
- the tubular member 478 is integrally provided with the base portion 460 as a single unitary member.
- the tubular member 478 is integrally provided with the sprocket body 466 of the bicycle sprocket S 405 .
- the tubular member 478 can be a separate member from the base portion 460 if needed and/or desired.
- the bicycle rear sprocket assembly 410 further comprises an internal space 482 provided between the base portion 460 and the tubular member 478 in a radial direction with respect to the rotational center axis A.
- the tubular member 478 is spaced apart from the tapered inner peripheral surface 468 of the base portion 460 in the radial direction with respect to the rotational center axis A.
- the internal space 482 is provided between the tapered inner peripheral surface 468 and an outer peripheral surface of the tubular member 478 .
- the first sprocket body 412 is made of a non-metallic material.
- the second sprocket body 438 is made of a non-metallic material and is attached to the first sprocket body 412 .
- the base portion 460 is made of a non-metallic material. Accordingly, it is possible to save weight of the bicycle rear sprocket assembly 410 .
- the first sprocket body 412 and the second sprocket body 438 can be integral with each other as a single unitary member if needed and/or desired.
- the first chain-engagement structure 414 and the second chain-engagement structure 440 are at least partly embedded in the first sprocket body 412 and the second sprocket body 438 by integral molding such as insert molding.
- the base portion 460 is integrally provided as a single unitary member in the illustrated embodiment, at least part of the base portion 460 can be a separate member from other part of the base member 460 .
- the term “attached” or “attaching”, as used herein, can encompass configurations in which an element is directly attached to the other element by affixing the element directly to the other element; configurations in which the element is indirectly attached to the other element via the intermediate member(s); and configurations in which one element is integral with another element, i.e. one element is essentially part of the other element.
- This concept also applies to words of similar meaning, for example, “joined”, “connected”, “coupled”, “mounted”, “bonded”, “fixed” and their derivatives.
- first and second recited in the present application are merely identifiers, but do not have any other meanings, for example, a particular order and the like. Moreover, for example, the term “first element” itself does not imply an existence of “second element”, and the term “second element” itself does not imply an existence of “first element.”
- pair of can encompass the configuration in which the pair of elements have different shapes or structures from each other in addition to the configuration in which the pair of elements have the same shapes or structures as each other.
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Abstract
Description
- 1. Field of the Invention
- The present invention relates to a bicycle sprocket assembly and a bicycle rear sprocket assembly.
- 2. Discussion of the Background
- Bicycling is becoming an increasingly more popular form of recreation as well as a means of transportation. Moreover, bicycling has become a very popular competitive sport for both amateurs and professionals. Whether the bicycle is used for recreation, transportation or competition, the bicycle industry is constantly improving the various components of the bicycle. One bicycle component that has been extensively redesigned is a bicycle sprocket assembly.
- In accordance with a first aspect of the present invention, a bicycle sprocket assembly has a rotational center axis. The bicycle sprocket assembly comprises a first sprocket, a second sprocket, a first intervening member, and a second intervening member. The first sprocket includes a first sprocket body and a first chain-engagement structure configured to engage with a bicycle chain The first sprocket body has a first hub engagement profile configured to engage with a bicycle hub assembly. The second sprocket includes a second sprocket body and a second chain-engagement structure configured to engage with the bicycle chain The second sprocket body has a second hub engagement profile configured to engage with the bicycle hub assembly. The first intervening member is positioned between the first sprocket and the second sprocket in an axial direction parallel to the rotational center axis. The second intervening member is positioned between the first sprocket and the second sprocket in the axial direction. The second intervening member is provided radially outwardly from the first intervening member with respect to the rotational center axis. The second intervening member is attached to at least one of the first sprocket and the second sprocket and has an elongated shape extending along a first reference plane perpendicular to the rotational center axis.
- In accordance with a second aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member has an annular shape.
- In accordance with a third aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member is a separate member from the second intervening member.
- In accordance with a fourth aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first sprocket is adjacent to the second sprocket without another sprocket intervening between the first sprocket and the second sprocket in the axial direction.
- In accordance with a fifth aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member has a hub engagement profile configured to engage with the bicycle hub assembly.
- In accordance with a sixth aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member and the second intervening member are spaced apart from each other in a radial direction with respect to the rotational center axis.
- In accordance with a seventh aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member is attached to at least one of the first sprocket and the second sprocket by adhesive. The second intervening member is attached to at least one of the first sprocket and the second sprocket by adhesive.
- In accordance with an eighth aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member is attached to at least one of the first sprocket and the second sprocket by diffusion bonding. The second intervening member is attached to at least one of the first sprocket and the second sprocket by diffusion bonding.
- In accordance with a ninth aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first chain-engagement structure includes a plurality of first teeth having a first total number. The second chain-engagement structure includes a plurality of second teeth having a second total number. The first total number is larger than the second total number.
- In accordance with a tenth aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first chain-engagement structure includes a first annular member and a plurality of first teeth circumferentially arranged on an outer periphery of the first annular member. The first annular member and the plurality of first teeth are made of a metallic material. The first sprocket body is made of a non-metallic material.
- In accordance with an eleventh aspect of the present invention, the bicycle sprocket assembly according to the tenth aspect is configured so that the first sprocket body is made of a resin material.
- In accordance with a twelfth aspect of the present invention, the bicycle sprocket assembly according to the tenth aspect is configured so that the first annular member is attached to the first sprocket body by integral molding.
- In accordance with a thirteenth aspect of the present invention, the bicycle sprocket assembly according to the tenth aspect is configured so that the first annular member is attached to the first sprocket body by adhesive.
- In accordance with a fourteenth aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the second intervening member is integral with one of the first sprocket and the second sprocket as a single unitary member.
- In accordance with a fifteenth aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the second intervening member is attached to the first sprocket and the second sprocket.
- In accordance with a sixteenth aspect of the present invention, the bicycle sprocket assembly according to the first aspect further comprises a third sprocket, a third intervening member, and a fourth intervening member. The third sprocket includes a third sprocket body and a third chain-engagement structure configured to engage with the bicycle chain. The third sprocket body has a third hub engagement profile configured to engage with the bicycle hub assembly. The second sprocket is positioned between the first sprocket and the third sprocket in the axial direction. The third intervening member is positioned between the second sprocket and the third sprocket in the axial direction. The fourth intervening member is positioned between the second sprocket and the third sprocket in the axial direction. The fourth intervening member is provided radially outwardly from the third intervening member with respect to the rotational center axis. The fourth intervening member is attached to at least one of the second sprocket and the third sprocket.
- In accordance with a seventeenth aspect of the present invention, the bicycle sprocket assembly according to the sixteenth aspect is configured so that the fourth intervening member having an elongated shape extending along a second reference plane perpendicular to the rotational center axis.
- In accordance with an eighteenth aspect of the present invention, the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member has an annular shape.
- In accordance with a nineteenth aspect of the present invention, the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member is a separate member from the fourth intervening member.
- In accordance with a twentieth aspect of the present invention, the bicycle sprocket assembly according to the sixteenth aspect is configured so that the second sprocket is adjacent to the third sprocket without another sprocket intervening between the second sprocket and the third sprocket in the axial direction.
- In accordance with a twenty-first aspect of the present invention, the bicycle sprocket assembly according to the sixteenth aspect is configured so that the fourth intervening member is attached to the second sprocket and the third sprocket.
- In accordance with a twenty-second aspect of the present invention, the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member has a hub engagement profile configured to engage with the bicycle hub assembly.
- In accordance with a twenty-third aspect of the present invention, the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member and the fourth intervening member are spaced apart from each other in a radial direction with respect to the rotational center axis.
- In accordance with a twenty-fourth aspect of the present invention, the bicycle sprocket assembly according to the sixteenth aspect is configured so that the fourth intervening member is positioned radially inwardly from the second intervening member with respect to the rotational center axis.
- In accordance with a twenty-fifth aspect of the present invention, the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member is attached to at least one of the second sprocket and the third sprocket by adhesive. The fourth intervening member is attached to at least one of the second sprocket and the third sprocket by adhesive.
- In accordance with a twenty-sixth aspect of the present invention, the bicycle sprocket assembly according to the sixteenth aspect is configured so that the third intervening member is attached to at least one of the second sprocket and the third sprocket by diffusion bonding. The fourth intervening member is attached to at least one of the second sprocket and the third sprocket by diffusion bonding.
- In accordance with a twenty-seventh aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first intervening member has an annular shape and is disposed to be coaxial with respect to the rotational center axis of the bicycle sprocket assembly.
- In accordance with a twenty-eighth aspect of the present invention, the bicycle sprocket assembly according to the twenty-seventh aspect is configured so that the second intervening member has an annular shape and is disposed to be coaxial with respect to the rotational center axis of the bicycle sprocket assembly.
- In accordance with a twenty-ninth aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first sprocket has a first opening and a first inner periphery. The first opening is provided on the first sprocket body. The first inner periphery defines the first opening. The second intervening member includes a first elongated portion at least partly extending along the first inner periphery.
- In accordance with a thirtieth aspect of the present invention, the bicycle sprocket assembly according to the first aspect is configured so that the first sprocket has first openings and first inner peripheries. The first openings are provided on the first sprocket body. The first inner peripheries respectively define the first openings. The second intervening member includes first elongated portions and first additional elongated portions. The first elongated portions each at least partly extend along one of the first inner peripheries. The first additional elongated portions each at least partly extending along another of the first inner peripheries which is adjacent to the one of the first inner peripheries.
- In accordance with a thirty-first aspect of the present invention, the bicycle sprocket assembly according to the twenty-ninth aspect further comprises a third sprocket, a third intervening member, and a fourth intervening member. The third sprocket includes a third sprocket body and a third chain-engagement structure configured to engage with the bicycle chain. The third sprocket body has a third hub engagement profile configured to engage with the bicycle hub assembly. The second sprocket is positioned between the first sprocket and the third sprocket in the axial direction. The third intervening member is positioned between the second sprocket and the third sprocket in the axial direction. The fourth intervening member is positioned between the second sprocket and the third sprocket in the axial direction. The fourth intervening member is provided radially outwardly from the third intervening member with respect to the rotational center axis. The fourth intervening member is attached to at least one of the second sprocket and the third sprocket. The second sprocket has a second opening and a second inner periphery. The second opening is provided on the second sprocket body. The second inner periphery defines the second opening. The first opening is aligned with the second opening in the axial direction. The fourth intervening member includes a second elongated portion at least partly extending the second inner periphery.
- In accordance with a thirty-second aspect of the present invention, the bicycle sprocket assembly according to the thirtieth aspect further comprises a third sprocket, a third intervening member, and a fourth intervening member. The third sprocket includes a third sprocket body and a third chain-engagement structure configured to engage with the bicycle chain. The third sprocket body has a third hub engagement profile configured to engage with the bicycle hub assembly. The second sprocket is positioned between the first sprocket and the third sprocket in the axial direction. The third intervening member is positioned between the second sprocket and the third sprocket in the axial direction. The fourth intervening member is positioned between the second sprocket and the third sprocket in the axial direction. The fourth intervening member is provided radially outwardly from the third intervening member with respect to the rotational center axis. The fourth intervening member is attached to at least one of the second sprocket and the third sprocket. The second sprocket has second openings and second inner peripheries. The second openings are provided on the second sprocket body. The second inner peripheries respectively define the second opening. The fourth intervening member includes second elongated portions and second additional elongated portions. The second elongated portions each at least partly extend along one of the second inner peripheries. The second additional elongated portions each at least partly extend along another of the second inner peripheries which is adjacent to the one of the second inner peripheries.
- In accordance with a thirty-third aspect of the present invention, a bicycle rear sprocket assembly has a rotational center axis. The bicycle rear sprocket assembly comprises a first sprocket and a second sprocket. The first sprocket includes a first sprocket body and a first chain-engagement structure. The first sprocket body is made of a non-metallic material. The first chain-engagement structure is made of a metallic material and is configured to engage with a bicycle chain. The second sprocket includes a second sprocket body and a second chain-engagement structure. The second sprocket body is made of a non-metallic material and attached to the first sprocket body. The second chain-engagement structure is made of a metallic material and is configured to engage with the bicycle chain.
- In accordance with a thirty-fourth aspect of the present invention, the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the first sprocket body and the second sprocket body provide a base portion having a truncated conical shape
- In accordance with a thirty-fifth aspect of the present invention, the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the first chain-engagement structure of the first sprocket includes a first annular member and a plurality of first teeth circumferentially arranged on an outer periphery of the first annular member. The second chain-engagement structure of the second sprocket includes a second annular member and a plurality of second teeth circumferentially arranged on an outer periphery of the second annular member. The first annular member is at least partly embedded in the first sprocket body. The second annular member is at least partly embedded in the second sprocket body.
- In accordance with a thirty-sixth aspect of the present invention, the bicycle rear sprocket assembly according to the thirty-fifth aspect is configured so that the first annular member is at least partly embedded in the first sprocket body by integral molding. The second annular member is at least partly embedded in the second sprocket body by integral molding.
- In accordance with a thirty-seventh aspect of the present invention, the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the first sprocket body is attached to the second sprocket body by adhesive.
- In accordance with a thirty-eighth aspect of the present invention, the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the first sprocket body is attached to the second sprocket body through a concavo-convex structure.
- In accordance with a thirty-ninth aspect of the present invention, the bicycle rear sprocket assembly according to the thirty-third aspect further comprises a tubular member positioned coaxially with the rotational center axis. The tubular member has a hub engagement profile configured to engage with a bicycle hub assembly.
- In accordance with a fortieth aspect of the present invention, the bicycle rear sprocket assembly according to the thirty-ninth aspect further comprises an internal space provided between the base portion and the tubular member in a radial direction with respect to the rotational center axis.
- In accordance with a forty-first aspect of the present invention, the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the first sprocket body and the second sprocket body are integral with each other as a single unitary member.
- In accordance with a forty-second aspect of the present invention, the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the second sprocket body is directly attached to the first sprocket body.
- In accordance with a forty-third aspect of the present invention, the bicycle rear sprocket assembly according to the thirty-third aspect is configured so that the second sprocket body is attached to the first sprocket body via an intervening member.
- A more complete appreciation of the invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:
-
FIG. 1 is a perspective view of a bicycle sprocket assembly in accordance with a first embodiment; -
FIG. 2 is an elevational view of a first sprocket, a first intervening member and a second intervening member of the bicycle sprocket assembly illustrated inFIG. 1 ; -
FIG. 3 is an exploded perspective view of the first sprocket, the first intervening member and the second intervening member of the bicycle sprocket assembly illustrated inFIG. 1 ; -
FIG. 4 is a partial cross-sectional view of the bicycle sprocket assembly taken along line IV-IV ofFIG. 1 ; -
FIG. 5 is an enlarged side elevational view of the first sprocket and the first intervening member of the bicycle sprocket assembly illustrated inFIG. 1 ; -
FIG. 6 is an elevational view of a second sprocket, a third intervening member and a fourth intervening member of the bicycle sprocket assembly illustrated inFIG. 1 ; -
FIG. 7 is an exploded perspective view of the second sprocket, the third intervening member and the fourth intervening member of the bicycle sprocket assembly illustrated inFIG. 1 ; -
FIG. 8 is an exploded perspective view of the first sprocket, the first intervening member, the second intervening member, the second sprocket, the third intervening member and the fourth intervening member of the bicycle sprocket assembly illustrated inFIG. 1 ; -
FIG. 9 is an elevational view of a third sprocket and other intervening members of the bicycle sprocket assembly illustrated inFIG. 1 ; -
FIG. 10 is a partial cross-sectional view of a bicycle sprocket assembly in accordance with a second embodiment; -
FIG. 11 is an elevational view of a first sprocket, a first intervening member and a second intervening member of the bicycle sprocket assembly illustrated inFIG. 10 ; -
FIG. 12 is an exploded perspective view of the first sprocket, the first intervening member and the second intervening member of the bicycle sprocket assembly illustrated inFIG. 10 ; -
FIG. 13 is a perspective view of a bicycle sprocket assembly in accordance with a third embodiment; -
FIG. 14 is an elevational view of a first sprocket, a first intervening member and a second intervening member of the bicycle sprocket assembly illustrated inFIG. 13 ; -
FIG. 15 is an exploded perspective view of the first sprocket, the first intervening member and the second intervening member of the bicycle sprocket assembly illustrated inFIG. 13 ; -
FIG. 16 is a partial cross-sectional view of the bicycle sprocket assembly taken along line XVI-XVI ofFIG. 13 ; -
FIG. 17 is an elevational view of a second sprocket, a third intervening member and a fourth intervening member of the bicycle sprocket assembly illustrated inFIG. 13 ; -
FIG. 18 is an exploded perspective view of the second sprocket, the third intervening member and the fourth intervening member of the bicycle sprocket assembly illustrated inFIG. 13 ; -
FIG. 19 is an elevational view of the second sprocket of the bicycle sprocket assembly illustrated inFIG. 13 ; -
FIG. 20 is a perspective view of a bicycle sprocket assembly in accordance with a fourth embodiment; -
FIG. 21 is an elevational view of a first sprocket of the bicycle sprocket assembly illustrated inFIG. 20 ; -
FIG. 22 is an elevational view of a second sprocket of the bicycle sprocket assembly illustrated inFIG. 20 ; -
FIG. 23 is a partial cross-sectional view of the bicycle sprocket assembly taken along line XXIII-XXIII ofFIG. 20 ; -
FIG. 24 is a partial perspective cross-sectional view of the bicycle sprocket assembly illustrated inFIG. 20 ; -
FIG. 25 is a perspective view of the bicycle sprocket assembly illustrated inFIG. 20 ; and -
FIG. 26 is a partial perspective cross-sectional view of a bicycle sprocket assembly in accordance with a modified embodiment. - The embodiments will now be described with reference to the accompanying drawings, wherein like reference numerals designate corresponding or identical elements throughout the various drawings.
- Referring initially to
FIG. 1 , abicycle sprocket assembly 10 in accordance with a first embodiment comprises a plurality of bicycle sprockets. Thebicycle sprocket assembly 10 is configured to engage with a bicycle chain C. In the illustrated embodiment, thebicycle sprocket assembly 10 comprises eleven bicycle sprockets Si to S11. Thebicycle sprocket assembly 10 has a rotational center axis A. Thebicycle sprocket assembly 10 is configured to be rotated about the rotational center axis A in a rotational driving direction D11 during pedaling. The rotational driving direction D11 is defined along a circumferential direction D1 of thebicycle sprocket assembly 10. The bicycle sprockets Si to S11 are arranged in an axial direction D2 parallel to the rotational center axis A. - While the
bicycle sprocket assembly 10 is a bicycle rear sprocket assembly in the illustrated embodiment, constructions of thebicycle sprocket assembly 10 can be applied to a bicycle front sprocket assembly if needed and/or desired. In the illustrated embodiment, thebicycle sprocket assembly 10 is configured to be mounted on abicycle hub assembly 2. - In the present application, the following directional terms “front”, “rear”, “forward”, “rearward”, “left”, “right”, “transverse”, “upward” and “downward” as well as any other similar directional terms refer to those directions which are determined on the basis of a user (e.g., a rider) who sits on a saddle (not shown) of a bicycle with facing a handlebar (not shown). Accordingly, these terms, as utilized to describe the
bicycle sprocket assembly 10, should be interpreted relative to the bicycle equipped with thebicycle sprocket assembly 10 as used in an upright riding position on a horizontal surface. - As seen in
FIG. 1 , thebicycle sprocket assembly 10 comprises a first sprocket and a second sprocket. In the illustrated embodiment, the bicycle sprocket S2 is also referred to as the first sprocket S2, and the bicycle sprocket S3 is also referred to as the second sprocket S3. Thebicycle sprocket assembly 10 further comprises a third sprocket. In the illustrated embodiment, the bicycle sprockets S4 is also referred to as the third sprocket S4. However, other sprockets of thebicycle sprocket assembly 10 can be referred to as the first sprocket, the second sprocket, and the third sprocket if needed and/or desired. - As seen in
FIGS. 2 and 3 , the first sprocket S2 includes afirst sprocket body 12 and a first chain-engagement structure 14. Thefirst sprocket body 12 has a firsthub engagement profile 16 configured to engage with the bicycle hub assembly 2 (FIG. 1 ). The first chain-engagement structure 14 is configured to engage with the bicycle chain C. The first chain-engagement structure 14 includes a firstannular member 18 and a plurality offirst teeth 20. The plurality offirst teeth 20 circumferentially are arranged on an outer periphery of the firstannular member 18. - In the illustrated embodiment, for example, the first
annular member 18 and the plurality offirst teeth 20 are made of a metallic material. While thefirst teeth 20 is integral with the firstannular member 18 in the illustrated embodiment, at least one of thefirst teeth 20 can be a separate member from the firstannular member 18 if needed and/or desired. - The
first sprocket body 12 is made of a non-metallic material. Thefirst sprocket body 12 is made of a resin material. The firstannular member 18 is attached to thefirst sprocket body 12 by integral molding. In the illustrated embodiment, the firstannular member 18 is attached to thefirst sprocket body 12 by integral molding such as insert molding. However, the firstannular member 18 can be attached to thefirst sprocket body 12 by adhesive if needed and/or desired. - The
first sprocket body 12 can be made of non-metallic materials other than the resin material if needed and/or desired. Furthermore, thefirst sprocket body 12 can be made of a metallic material same as or different from the material of thefirst teeth 20 and the firstannular member 18 if needed and/or desired. For example, thefirst sprocket body 12 can be made of a light weight metallic material such as aluminum whereas thefirst teeth 20 and the firstannular member 18 can be made of a rigid metallic material such as iron or titanium. - As seen in
FIGS. 2 and 3 , thebicycle sprocket assembly 10 comprises a first interveningmember 22. While the first interveningmember 22 has an annular shape in the illustrated embodiment, the first interveningmember 22 can have other shapes if needed and/or desired. The first interveningmember 22 preferably has ahub engagement profile 24 configured to engage with the bicycle hub assembly 2 (FIG. 1 ). Thehub engagement profile 24 of the first interveningmember 22 has substantially the same as the firsthub engagement profile 16 of thefirst sprocket body 12 when viewed from the axial direction D2. The first interveningmember 22 is disposed to be coaxial with respect to the rotational center axis A of thebicycle sprocket assembly 10. - The
bicycle sprocket assembly 10 comprises a second interveningmember 26. Thesecond intervening member 26 is provided radially outwardly from the first interveningmember 22 with respect to the rotational center axis A. The first interveningmember 22 and the second interveningmember 26 are spaced apart from each other in a radial direction with respect to the rotational center axis A. While the second interveningmember 26 includes a plurality of separate parts in the illustrated embodiment, the second interveningmember 26 can be integrally provided as a single unitary member if needed and/or desired. Furthermore, while the first interveningmember 22 is a separate member from the second interveningmember 26 in the illustrated embodiment, the first interveningmember 22 can be integrally provided with the second interveningmember 26 as a single unitary member if needed and/or desired. - As seen in
FIGS. 3 and 4 , the second interveningmember 26 has an elongated shape extending along a first reference plane P1 (FIG. 4 ) perpendicular to the rotational center axis A. In the illustrated embodiment, the first sprocket S2 includes aside surface 28 provided on thefirst sprocket body 12 to face the second sprocket S3 in the axial direction D2 (FIG. 3 ). The first reference plane P1 is defined on theside surface 28 of the first sprocket S2. Namely, the second interveningmember 26 has an elongated shape extending along theside surface 28 perpendicular to the rotational center axis A. Thesecond intervening member 26 extends from thefirst sprocket body 12 in the axial direction D2. - As seen in
FIG. 4 , the first interveningmember 22 is positioned between the first sprocket S2 and the second sprocket S3 in the axial direction D2 parallel to the rotational center axis A. Thesecond intervening member 26 is positioned between the first sprocket S2 and the second sprocket S3 in the axial direction D2. The first sprocket S2 is adjacent to the second sprocket S3 without another sprocket intervening between the first sprocket S2 and the second sprocket S3 in the axial direction D2. The second sprocket S3 is adjacent to the third sprocket S4 without another sprocket intervening between the second sprocket S3 and the third sprocket S4 in the axial direction D2. The second sprocket S3 is positioned between the first sprocket S2 and the third sprocket S4 in the axial direction D2. - The first intervening
member 22 is a separate member from the first sprocket S2 and the second sprocket S3. However, the first interveningmember 22 can be integrally provided with at least one of the first sprocket S2 and the second sprocket S3 if needed and/or desired. - As seen in
FIG. 4 , the first interveningmember 22 is attached to at least one of the first sprocket S2 and the second sprocket S3 by adhesive. In the illustrated embodiment, the first interveningmember 22 is attached to the first sprocket S2 and the second sprocket S3 by adhesive. However, the first interveningmember 22 can be attached to at least one of the first sprocket S2 and the second sprocket S3 via other structures if needed and/or desired. Furthermore, the first interveningmember 22 can be attached to at least one of the first sprocket S2 and the second sprocket S3 by diffusion bonding if needed and/or desired. In such an embodiment, the first interveningmember 22 and the at least one of the first sprocket S2 and the second sprocket S3 are at least partly made of a metallic material. - The
second intervening member 26 is attached to at least one of the first sprocket S2 and the second sprocket S3. Thesecond intervening member 26 is attached to at least one of the first sprocket S2 and the second sprocket S3 by adhesive. Thesecond intervening member 26 is integral with one of the first sprocket S2 and the second sprocket S3 as a single unitary member. In the illustrated embodiment, the second interveningmember 26 is integral with the first sprocket S2 as a single unitary member and is a separate member from the second sprocket S3. Thesecond intervening member 26 is attached to the second sprocket S3 by adhesive. However, the second interveningmember 26 can be a separate member from the first sprocket S2 if needed and/or desired. In such an embodiment, the second interveningmember 26 is attached to the first sprocket S2 and the second sprocket S3. Furthermore, the second interveningmember 26 can be attached to at least one of the first sprocket S2 and the second sprocket S3 by diffusion bonding if needed and/or desired. In such an embodiment, the second interveningmember 26 and the at least one of the first sprocket S2 and the second sprocket S3 are at least partly made of a metallic material. - As seen in
FIGS. 2 and 3 , the first sprocket S2 has afirst opening 30 and a firstinner periphery 32. Thefirst opening 30 is provided on thefirst sprocket body 12. The firstinner periphery 32 defines thefirst opening 30. In the illustrated embodiment, the first sprocket S2 hasfirst openings 30 and firstinner peripheries 32. Thefirst openings 30 are provided on thefirst sprocket body 12. The firstinner peripheries 32 respectively define thefirst openings 30. A total number of thefirst openings 30 is not limited to the illustrated embodiment. While thefirst openings 30 has the same shape in the illustrated embodiment, at least one of thefirst openings 30 can have other shapes different from each other if needed and/or desired. - As seen in
FIG. 5 , the second interveningmember 26 includes a firstelongated portion 34 at least partly extending along the firstinner periphery 32. In the illustrated embodiment, the second interveningmember 26 includes firstelongated portions 34 and first additionalelongated portions 36. The firstelongated portions 34 each at least partly extend along one of the firstinner peripheries 32. The first additionalelongated portions 36 each at least partly extend along another of the firstinner peripheries 32 which is adjacent to the one of the firstinner peripheries 32. While the firstelongated portions 34 are provided radially outward of the first additionalelongated portions 36 in the illustrated embodiment, the firstelongated portions 34 can be provided radially inward of the first additionalelongated portions 36 or provided at radial positions equal to radial positions of the first additionalelongated portions 36 if needed and/or desired. A total number of each of the firstelongated portions 34 and the first additionalelongated portions 36 is not limited to the illustrated embodiment. - The
second intervening member 26 includes a firstintermediate portion 37 coupling the firstelongated portion 34 to the first additionalelongated portion 36. In the illustrated embodiment, the second interveningmember 26 includes firstintermediate portions 37 respectively coupling the firstelongated portions 34 to the first additionalelongated portions 36. Thefirst sprocket body 12 includesfirst arm portions 12 a radially extending relative to the rotational center axis A. Each of thefirst arm portions 12 a is provided between adjacent two of thefirst openings 30. The firstintermediate portions 37 are respectively provided on thefirst arm portions 12 a. - In the illustrated embodiment, the first
elongated portion 34 extends in the circumferential direction D1. The first additionalelongated portion 36 extends in the circumferential direction D1. The firstintermediate portion 37 substantially radially extends relative to the rotational center axis A. - As seen in
FIGS. 6 and 7 , the second sprocket S3 includes asecond sprocket body 38 and a second chain-engagement structure 40. The second chain-engagement structure 40 is configured to engage with the bicycle chain C. Thesecond sprocket body 38 has a secondhub engagement profile 42 configured to engage with the bicycle hub assembly 2 (FIG. 1 ). The second chain-engagement structure 40 includes a secondannular member 44 and a plurality ofsecond teeth 46. The plurality ofsecond teeth 46 circumferentially are arranged on an outer periphery of the secondannular member 44. - In the illustrated embodiment, for example, the second
annular member 44 and the plurality ofsecond teeth 46 are made of a metallic material. While thesecond teeth 46 is integral with the secondannular member 44 in the illustrated embodiment, at least one of thesecond teeth 46 can be a separate member from the secondannular member 44 if needed and/or desired. Thesecond sprocket body 38 is made of a non-metallic material. For example, thesecond sprocket body 38 is made of a resin material. The secondannular member 44 is attached to thesecond sprocket body 38 by integral molding. However, the secondannular member 44 can be attached to thesecond sprocket body 38 by adhesive if needed and/or desired. - The
second sprocket body 38 can be made of non-metallic materials other than the resin material if needed and/or desired. Furthermore, thesecond sprocket body 38 can be made of a metallic material same as or different from the material of thesecond teeth 46 the secondannular member 44 if needed and/or desired. For example, thesecond sprocket body 38 can be made of a light weight metallic material such as aluminum whereas thesecond teeth 46 and the secondannular member 44 can be made of a rigid metallic material such as iron or titanium. - As seen in
FIG. 4 , thesecond sprocket body 38 is attached to thefirst sprocket body 12. In the illustrated embodiment, thesecond sprocket body 38 is attached to thefirst sprocket body 12 via an intervening member. Thesecond sprocket body 38 is attached to thefirst sprocket body 12 via the first interveningmember 22 and the second interveningmember 26. However, thesecond sprocket body 38 can be directly attached to thefirst sprocket body 12 if needed and/or desired. - As seen in
FIGS. 2 and 6 , the plurality offirst teeth 20 have a first total number. The plurality ofsecond teeth 46 have a second total number. The first total number is larger than the second total number. However, the first total number can be smaller than the second total number if needed and/or desired. - As seen in
FIGS. 6 and 7 , thebicycle sprocket assembly 10 further comprises a third interveningmember 48. While the third interveningmember 48 has an annular shape in the illustrated embodiment, the third interveningmember 48 can have other shapes if needed and/or desired. Thethird intervening member 48 preferably has ahub engagement profile 50 configured to engage with the bicycle hub assembly (FIG. 1 ). Thehub engagement profile 50 of the third interveningmember 48 has substantially the same as the secondhub engagement profile 42 of thesecond sprocket body 38 when viewed from the axial direction D2. Thethird intervening member 48 is disposed to be coaxial with respect to the rotational center axis A of thebicycle sprocket assembly 10. - As seen in
FIGS. 6 and 7 , thebicycle sprocket assembly 10 further comprises a fourth interveningmember 52. The fourth interveningmember 52 is provided radially outwardly from the third interveningmember 48 with respect to the rotational center axis A. Thethird intervening member 48 and the fourth interveningmember 52 are spaced apart from each other in a radial direction with respect to the rotational center axis A. While the fourth interveningmember 52 includes a plurality of separate parts in the illustrated embodiment, the fourth interveningmember 52 can be integrally provided as a single unitary member if needed and/or desired. Furthermore, while the third interveningmember 48 is a separate member from the fourth interveningmember 52 in the illustrated embodiment, the third interveningmember 48 can be integrally provided with the fourth interveningmember 52 if needed and/or desired. - As seen in
FIGS. 4 and 7 , the fourth interveningmember 52 has an elongated shape extending along a second reference plane P2 (FIG. 4 ) perpendicular to the rotational center axis A. In the illustrated embodiment, the second sprocket S3 includes aside surface 54 provided on thesecond sprocket body 38 to face the third sprocket S4 in the axial direction D2 (FIG. 7 ). The second reference plane P2 is defined on theside surface 54 of the second sprocket S3. Namely, the fourth interveningmember 52 has an elongated shape extending along theside surface 54 perpendicular to the rotational center axis A. The fourth interveningmember 52 extends from thesecond sprocket body 38 in the axial direction D2. - As seen in
FIG. 4 , the third interveningmember 48 is positioned between the second sprocket S3 and the third sprocket S4 in the axial direction D2. The fourth interveningmember 52 is positioned between the second sprocket S3 and the third sprocket S4 in the axial direction D2. - The
third intervening member 48 is a separate member from the second sprocket S3 and the third sprocket S4. However, the third interveningmember 48 can be integrally provided with at least one of the second sprocket S3 and the third sprocket S4 if needed and/or desired. - As seen in
FIG. 4 , the third interveningmember 48 is attached to at least one of the second sprocket S3 and the third sprocket S4 by adhesive. In the illustrated embodiment, the third interveningmember 48 is attached to the second sprocket S3 and the third sprocket S4 by adhesive. However, the third interveningmember 48 can be attached to at least one of the second sprocket S3 and the third sprocket S4 by other structures if needed and/or desired. Furthermore, the third interveningmember 48 can be attached to at least one of the second sprocket S3 and the third sprocket S4 by diffusion bonding if needed and/or desired. In such an embodiment, the third interveningmember 48 and the at least one of the second sprocket S3 and the third sprocket S4 are made of a metallic material. - The fourth intervening
member 52 is attached to at least one of the second sprocket S3 and the third sprocket S4. The fourth interveningmember 52 is attached to at least one of the second sprocket S3 and the third sprocket S4 by adhesive. The fourth interveningmember 52 is integral with one of the second sprocket S3 and the third sprocket S4 as a single unitary member. In the illustrated embodiment, the fourth interveningmember 52 is integral with the second sprocket S3 as a single unitary member and is a separate member from the third sprocket S4. However, the fourth interveningmember 52 can be a separate member from the second sprocket S3 if needed and/or desired. In such an embodiment, the fourth interveningmember 52 is attached to the second sprocket S3 and the third sprocket S4. Furthermore, the fourth interveningmember 52 can be attached to the at least one of the second sprocket S3 and the third sprocket S4 by diffusion bonding if needed and/or desired. In such an embodiment, the fourth interveningmember 52 and the at least one of the second sprocket S3 and the third sprocket S4 are at least partly made of a metallic material. - As seen in
FIGS. 6 and 7 , the second sprocket S3 has asecond opening 56 and a secondinner periphery 58. Thesecond opening 56 is provided on thesecond sprocket body 38. The secondinner periphery 58 defines thesecond opening 56. In the illustrated embodiment, the second sprocket S3 hassecond openings 56 and secondinner peripheries 58. Thesecond openings 56 are provided on thesecond sprocket body 38. The secondinner peripheries 58 respectively define thesecond openings 56. A total number of thesecond openings 56 is not limited to the illustrated embodiment. While thesecond openings 56 has the same shape in the illustrated embodiment, at least one of thesecond openings 56 can have other shapes different from each other if needed and/or desired. - As seen in
FIG. 5 , the fourth interveningmember 52 includes a secondelongated portion 60 at least partly extending along the secondinner periphery 58. In the illustrated embodiment, the fourth interveningmember 52 includes secondelongated portions 60 and second additionalelongated portions 62. The secondelongated portions 60 each at least partly extend along one of the secondinner peripheries 58. The second additionalelongated portions 62 each at least partly extend along another of the secondinner peripheries 58 which is adjacent to the one of the secondinner peripheries 58. While the secondelongated portions 60 are provided radially outward of the second additionalelongated portions 62 in the illustrated embodiment, the secondelongated portions 60 can be provided radially inward of the second additionalelongated portions 62 or provided at radial positions equal to radial positions of the second additionalelongated portions 62 if needed and/or desired. A total number of each of the secondelongated portions 60 and the second additionalelongated portions 62 is not limited to the illustrated embodiment. - The fourth intervening
member 52 includes a secondintermediate portion 63 coupling the firstelongated portion 60 to the first additionalelongated portion 62. In the illustrated embodiment, the fourth interveningmember 52 includes secondintermediate portions 63 respectively coupling the secondelongated portions 60 to the second additionalelongated portions 62. Thesecond sprocket body 38 includessecond arm portions 38 a radially extending relative to the rotational center axis A. Each of thesecond arm portions 38 a is provided between adjacent two of thefirst openings 30. The secondintermediate portions 63 are respectively provided on thesecond arm portions 38 a. - In the illustrated embodiment, the second
elongated portion 60 extends in the circumferential direction D1. The second additionalelongated portion 62 extends in the circumferential direction D1. The secondintermediate portion 63 substantially radially extends relative to the rotational center axis A. - As seen in
FIG. 8 , thefirst opening 30 is aligned with thesecond opening 56 in the axial direction D2. While thefirst openings 30 has the same shape as the shape of thesecond openings 56 in the illustrated embodiment, the shapes of thefirst openings 30 and thesecond openings 56 can be different from each other if needed and/or desired. In the illustrated embodiment, the fourth interveningmember 52 of the second sprocket S3 has the same shape as that of the second interveningmember 26 of the first sprocket S2. However, the shape of the fourth interveningmember 52 can be different from the shape of the second interveningmember 26 if needed and/or desired. - As seen in
FIGS. 9 and 10 , the third sprocket S4 includes athird sprocket body 64 and a third chain-engagement structure 66. The third chain-engagement structure 66 is configured to engage with the bicycle chain C. Thethird sprocket body 64 has a thirdhub engagement profile 68 configured to engage with the bicycle hub assembly 2 (FIG. 1 ). The third chain-engagement structure 66 includes a thirdannular member 70 and a plurality ofthird teeth 72. The plurality ofthird teeth 72 circumferentially are arranged on an outer periphery of the thirdannular member 70. - In the illustrated embodiment, for example, the third
annular member 70 and the plurality ofthird teeth 72 are made of a metallic material. While thethird teeth 72 is integral with the thirdannular member 70 in the illustrated embodiment, at least one of thethird teeth 72 can be a separate member from the thirdannular member 70 if needed and/or desired. Thethird sprocket body 64 is made of a non-metallic material. For example, thethird sprocket body 64 is made of a resin material. The thirdannular member 70 is attached to thethird sprocket body 64 by integral molding. However, the thirdannular member 70 can be attached to thethird sprocket body 64 by adhesive if needed and/or desired. - The
third sprocket body 64 can be made of non-metallic materials other than the resin material if needed and/or desired. Furthermore, thethird sprocket body 64 can be made of a metallic material same as or different from the material of thethird teeth 72 and the thirdannular member 70 if needed and/or desired, For example, thethird sprocket body 64 can be made of a light weight metallic material such as aluminum whereas thethird teeth 72 and the thirdannular member 70 can be made of a rigid metallic material such as iron or titanium. - Since the third sprocket S4 and/or other sprockets has substantially the same structures as those of the first and second sprockets S2 and S3, they will not be described and/or illustrated in detail here for the sake of brevity.
- With the
bicycle sprocket assembly 10, the second interveningmember 26 is attached to at least one of the first sprocket S2 and the second sprocket S3 and has an elongated shape extending along the first reference plane P1 perpendicular to the rotational center axis A. Accordingly, it is possible to obtain the desired strength of thebicycle sprocket assembly 10 while it is also possible to achieve desired weight saving of each sprocket. - A
bicycle sprocket assembly 210 in accordance with a second embodiment will be described below referring toFIGS. 10 to 12 . Thebicycle sprocket assembly 210 has the same configuration as thebicycle sprocket assembly 10 except for the second intervening member. Thus, elements having substantially the same function as those in the first embodiment will be numbered the same here, and will not be described and/or illustrated again in detail here for the sake of brevity. - As seen in
FIG. 10 , thebicycle sprocket assembly 210 comprises a first sprocket S202 and a second sprocket S203 instead of the first sprocket S2 and the second sprocket S3. Thebicycle sprocket assembly 210 further comprises a third sprocket S204 instead of the third sprocket S4. Other sprockets of thebicycle sprocket assembly 210 can be referred to as the first sprocket S202, the second sprocket S203, and the third sprocket S204 if needed and/or desired. - As seen in
FIGS. 11 and 12 , thebicycle sprocket assembly 210 comprises the first interveningmember 22 and asecond intervening member 226. Thesecond intervening member 226 is provided radially outwardly from the first interveningmember 22 with respect to the rotational center axis A. The first interveningmember 22 and thesecond intervening member 226 are spaced apart from each other in a radial direction with respect to the rotational center axis A. While thesecond intervening member 226 includes a plurality of separate parts in the illustrated embodiment, thesecond intervening member 226 can be integrally provided as a single unitary member if needed and/or desired. Furthermore, while the first interveningmember 22 is a separate member from thesecond intervening member 226 in the illustrated embodiment, the first interveningmember 22 can be integrally provided with thesecond intervening member 226 if needed and/or desired. - As seen in
FIGS. 10 and 12 , thesecond intervening member 226 has an elongated shape extending along the first reference plane P1 (FIG. 10 ) perpendicular to the rotational center axis A. Thesecond intervening member 226 has an elongated shape extending along theside surface 28 perpendicular to the rotational center axis A. - As seen in
FIGS. 11 and 12 , thesecond intervening member 226 includes a firstelongated portion 234 at least partly extending along the firstinner periphery 32. In the illustrated embodiment, the firstelongated portion 234 entirely extends along the firstinner periphery 32 and surrounds thefirst opening 30. Thesecond intervening member 226 includes firstelongated portions 234. The firstelongated portions 234 entirely extend along the firstinner peripheries 32, respectively. A total number of each of the firstelongated portions 234 is not limited to the illustrated embodiment. Thesecond intervening member 226 extends from the second sprocket S202 in the axial direction D2. - As seen in
FIG. 10 , thesecond intervening member 226 is positioned between the first sprocket S202 and the second sprocket S203 in the axial direction D2. Thesecond intervening member 226 is attached to at least one of the first sprocket S202 and the second sprocket S203. Thesecond intervening member 226 is attached to at least one of the first sprocket S202 and the second sprocket S203 by adhesive. Thesecond intervening member 226 is integral with one of the first sprocket S202 and the second sprocket S203 as a single unitary member. - In the illustrated embodiment, the
second intervening member 226 is integral with the first sprocket S202 as a single unitary member and is a separate member from the second sprocket S203. Thesecond intervening member 226 is attached to the second sprocket S203 by adhesive. However, thesecond intervening member 226 can be a separate member from the first sprocket S202 if needed and/or desired. In such an embodiment, thesecond intervening member 226 is attached to the first sprocket S202 and the second sprocket S203. Furthermore, thesecond intervening member 226 can be attached to at least one of the first sprocket S202 and the second sprocket S203 by diffusion bonding if needed and/or desired. In such an embodiment, thesecond intervening member 226 and the at least one of thefirst sprocket body 12 and thesecond sprocket body 38 are at least partly made of a metallic material. - Since the second sprocket S203 and the third sprocket S204 has substantially the same structures as those of the first sprocket S202, they will not be described and/or illustrated in detail here for the sake of brevity. Other sprockets can have substantially the same structures as those of the first sprocket S202 if needed and/or desired.
- With the
bicycle sprocket assembly 210, it is possible to obtain substantially the same advantageous effect as that of thebicycle sprocket assembly 10 in accordance with the first embodiment. - A
bicycle sprocket assembly 310 in accordance with a third embodiment will be described below referring toFIGS. 13 to 19 . Thebicycle sprocket assembly 310 has the same configuration as thebicycle sprocket assembly 10 except for the second intervening member. Thus, elements having substantially the same function as those in the above embodiments will be numbered the same here, and will not be described and/or illustrated again in detail here for the sake of brevity. - As seen in
FIG. 13 , thebicycle sprocket assembly 310 is configured to engage with the bicycle chain C. In the illustrated embodiment, thebicycle sprocket assembly 310 comprises five bicycle sprockets S301 to S305 and other smaller sprockets. The other smaller sprockets are omitted from thebicycle sprocket assembly 310 as illustrated inFIG. 13 . Thebicycle sprocket assembly 310 has the rotational center axis A. The bicycle sprockets S301 to S305 are arranged in the axial direction D2 parallel to the rotational center axis A. - The
bicycle sprocket assembly 310 comprises a first sprocket and a second sprocket. In the illustrated embodiment, the bicycle sprocket S301 is also referred to as the first sprocket S301, and the bicycle sprocket S302 is also referred to as the second sprocket S302. Thebicycle sprocket assembly 310 further comprises a third sprocket. In the illustrated embodiment, the bicycle sprockets S303 is also referred to as the third sprocket S303. However, other sprockets of thebicycle sprocket assembly 310 can be referred to as the first sprocket, the second sprocket, and the third sprocket if needed and/or desired. - As seen in
FIGS. 14 and 15 , thebicycle sprocket assembly 310 comprises the first interveningmember 22 and asecond intervening member 326. Thesecond intervening member 326 is provided radially outwardly from the first interveningmember 22 with respect to the rotational center axis A. The first interveningmember 22 and thesecond intervening member 326 are spaced apart from each other in a radial direction with respect to the rotational center axis A. - As seen in
FIGS. 15 and 16 , thesecond intervening member 326 has an elongated shape extending along the first reference plane P1 (FIG. 16 ) perpendicular to the rotational center axis A. Thesecond intervening member 326 has an elongated shape extending along theside surface 28 perpendicular to the rotational center axis A. - As seen in
FIGS. 14 and 15 , the first interveningmember 22 has an annular shape and is disposed to be coaxial with respect to the rotational center axis A of thebicycle sprocket assembly 310. Thesecond intervening member 326 has an annular shape and is disposed to be coaxial with respect to the rotational center axis A of thebicycle sprocket assembly 310. While the first interveningmember 22 is a separate member from thesecond intervening member 326 in the illustrated embodiment, the first interveningmember 22 can be integrally provided with thesecond intervening member 326 if needed and/or desired. - As seen in
FIG. 16 , the first interveningmember 22 is positioned between the first sprocket S301 and the second sprocket S302 in the axial direction D2 parallel to the rotational center axis A. Thesecond intervening member 326 is positioned between the first sprocket S301 and the second sprocket S302 in the axial direction D2. The first sprocket S301 is adjacent to the second sprocket S302 without another sprocket intervening between the first sprocket S301 and the second sprocket S302 in the axial direction D2. The second sprocket S302 is adjacent to the third sprocket S303 without another sprocket intervening between the second sprocket S302 and the third sprocket S303 in the axial direction D2. The second sprocket S302 is positioned between the first sprocket S301 and the third sprocket S303 in the axial direction D2. - The
second intervening member 326 is attached to at least one of the first sprocket S301 and the second sprocket S302. Thesecond intervening member 326 is attached to at least one of the first sprocket S301 and the second sprocket S302 by adhesive. In the illustrated embodiment, thesecond intervening member 326 is a separate member from the first sprocket S301 and the second sprocket S302. Thesecond intervening member 326 is attached to the first sprocket S301 and the second sprocket S302. However, thesecond intervening member 326 can be integral with at least one of the first sprocket S301 and the second sprocket S302 as a single unitary member if needed and/or desired. - As seen in
FIGS. 15 and 16 , thefirst sprocket body 12 includes anattachment groove 327. Thesecond intervening member 326 is provided in theattachment groove 327. Thefirst sprocket body 12 includes attachment holes 329 provided in theattachment groove 327. Thesecond intervening member 326 includes anannular body 326a andprotrusions 326 b protruding from theannular body 326 a in the axial direction D2. Theprotrusions 326 b are provided to mate with the attachment holes 329 respectively. - As seen in
FIGS. 17 and 18 , thebicycle sprocket assembly 310 further comprises the third interveningmember 48 and afourth intervening member 352. Thefourth intervening member 352 is provided radially outwardly from the third interveningmember 48 with respect to the rotational center axis A. Thethird intervening member 48 and the fourth interveningmember 352 are spaced apart from each other in the radial direction with respect to the rotational center axis A. - As seen in
FIGS. 16 and 18 , the fourth interveningmember 352 has an elongated shape extending along the second reference plane P2 (FIG. 16 ) perpendicular to the rotational center axis A. Thefourth intervening member 352 has an elongated shape extending along theside surface 54 perpendicular to the rotational center axis A. - As seen in
FIG. 16 , the third interveningmember 48 is positioned between the second sprocket S302 and the third sprocket S303 in the axial direction D2. Thefourth intervening member 352 is positioned between the second sprocket S302 and the third sprocket S303 in the axial direction D2. In the illustrated embodiment, the fourth interveningmember 352 is positioned radially inwardly from thesecond intervening member 326 with respect to the rotational center axis A. Thesecond intervening member 326 has an inner diameter larger than an outer diameter of the fourth interveningmember 352. However, the fourth interveningmember 352 can be positioned at the radial position equal to thesecond intervening member 326 or positioned radially outwardly from thesecond intervening member 326 with respect to the rotational center axis A if needed and/or desired. - In the illustrated embodiment, the third intervening
member 48 is a separate member from the second sprocket S302 and the third sprocket S303. For example, the third interveningmember 48 is attached to at least one of the second sprocket S302 and the third sprocket S303 by adhesive. However, the third interveningmember 48 can be integrally provided with at least one of the second sprocket S302 and the third sprocket S303 if needed and/or desired. In the illustrated embodiment, the third interveningmember 48 is attached to the second sprocket S302 and the third sprocket S303 by adhesive. However, the third interveningmember 48 can be attached to at least one of the second sprocket S302 and the third sprocket S303 by other structures. - As seen in
FIG. 16 , the fourth interveningmember 352 is attached to at least one of the second sprocket S302 and the third sprocket S303. Thefourth intervening member 352 is attached to at least one of the second sprocket S302 and the third sprocket S303 by adhesive. Thefourth intervening member 352 is attached to the second sprocket S302 and the third sprocket S303. In the illustrated embodiment, the fourth interveningmember 352 is a separate member from the second sprocket S302 and the third sprocket S303. However, the fourth interveningmember 352 can be integral with at least one of the second sprocket S302 and the third sprocket S303 if needed and/or desired. - As seen in
FIGS. 16 and 18 , while the third interveningmember 48 is a separate member from the fourth interveningmember 352 in the illustrated embodiment, the third interveningmember 48 can be integrally provided with the fourth interveningmember 352 if needed and/or desired. - As seen in
FIGS. 16 and 18 , thesecond sprocket body 38 includes anattachment groove 353. Thefourth intervening member 352 is provided in theattachment groove 353. As seen inFIG. 19 , thesecond sprocket body 38 includes anadditional attachment groove 355. Theadditional attachment groove 355 is provided on anadditional side surface 357 opposite to the side surface 54 (FIG. 18 ) in the axial direction D2. As seenFIG. 16 , thesecond intervening member 326 is provided in theadditional attachment groove 355. - Since the third sprocket S303 and/or other sprockets has substantially the same structures as those of the second sprocket S302, they will not be described and/or illustrated in detail here for the sake of brevity.
- With the
bicycle sprocket assembly 310, it is possible to obtain substantially the same advantageous effect as that of thebicycle sprocket assembly 10 in accordance with the first embodiment. - A
bicycle sprocket assembly 410 in accordance with a fourth embodiment will be described below referring toFIGS. 20 to 26 . Thebicycle sprocket assembly 410 has the same configuration as thebicycle sprocket assembly 10 except for sprocket bodies and intervening members. Thus, elements having substantially the same function as those in the above embodiments will be numbered the same here, and will not be described and/or illustrated again in detail here for the sake of brevity. - As seen in
FIG. 20 , thebicycle sprocket assembly 410 is a bicycle rear sprocket assembly configured to engage with the bicycle chain C. Thebicycle sprocket assembly 410 is also referred to as a bicyclerear sprocket assembly 410. In the illustrated embodiment, the bicyclerear sprocket assembly 410 comprises five bicycle sprockets S401 to S405. The bicyclerear sprocket assembly 410 has the rotational center axis A. The bicycle sprockets S401 to S405 are arranged in the axial direction D2 parallel to the rotational center axis A. - The bicycle
rear sprocket assembly 410 comprises a first sprocket and a second sprocket. In the illustrated embodiment, the bicycle sprocket S401 is also referred to as the first sprocket S401, and the bicycle sprocket S402 is also referred to as the second sprocket S402. Other sprockets can be referred to as the first sprocket and the second sprocket if needed and/or desired. - As seen in
FIG. 21 , the first sprocket S401 includes afirst sprocket body 412 and a first chain-engagement structure 414. The first chain-engagement structure 414 is configured to engage with the bicycle chain C. The first chain-engagement structure 414 of the first sprocket S401 includes a firstannular member 418 and a plurality offirst teeth 420. The plurality offirst teeth 420 are circumferentially arranged on an outer periphery of the firstannular member 418. - The
first sprocket body 412 is made of a non-metallic material. For example, thefirst sprocket body 412 is made of a resin material. The first chain-engagement structure 414 is made of a metallic material. The firstannular member 418 is at least partly embedded in thefirst sprocket body 412. In the illustrated embodiment, the firstannular member 418 is at least partly embedded in thefirst sprocket body 412 by integral molding. The first chain-engagement structure 414 is partly embedded in thefirst sprocket body 412 by integral molding such as insert molding. However, the first chain-engagement structure 414 can be attached to thefirst sprocket body 412 by adhesive if needed and/or desired. - As seen in
FIG. 22 , the second sprocket S402 includes asecond sprocket body 438 and a second chain-engagement structure 440. The second chain-engagement structure 440 is configured to engage with the bicycle chain C. The second chain-engagement structure 440 of the second sprocket S402 includes a secondannular member 444 and a plurality ofsecond teeth 446. The plurality ofsecond teeth 446 are circumferentially arranged on an outer periphery of the secondannular member 444. - The
second sprocket body 438 is made of a non-metallic material. For example, thesecond sprocket body 438 is made of a resin material. Thesecond sprocket body 438 is attached to thefirst sprocket body 412. In the illustrated embodiment, as seen inFIG. 23 , thesecond sprocket body 438 is directly attached to thefirst sprocket body 412. However, thesecond sprocket body 438 can be attached to thefirst sprocket body 412 via an intervening member such as the first intervening member and the second intervening member in accordance with the above embodiments if needed and/or desired. - The second chain-
engagement structure 440 is made of a metallic material. The secondannular member 444 is at least partly embedded in thesecond sprocket body 438. In the illustrated embodiment, the secondannular member 444 is at least partly embedded in thesecond sprocket body 438 by integral molding. The second chain-engagement structure 440 is partly embedded in thesecond sprocket body 438 by integral molding such as insert molding. However, the second chain-engagement structure 440 can be attached to thesecond sprocket body 438 by adhesive if needed and/or desired. - As seen in
FIG. 23 , thefirst sprocket body 412 and thesecond sprocket body 438 provide abase portion 460 having a truncated conical shape. In the illustrated embodiment, each of the bicycle sprockets S403 to S405 includessprocket bodies first sprocket body 412, thesecond sprocket body 438, and thesprocket bodies base portion 460 having a tapered innerperipheral surface 468. - As seen in
FIG. 24 , thefirst sprocket body 412 is attached to thesecond sprocket body 438 by adhesive. In the illustrated embodiment, thefirst sprocket body 412 is attached to thesecond sprocket body 438 through a concavo-convex structure for the purpose of better torque transmission. More specifically, thefirst sprocket body 412 includes a firstaxial surface 470 and a firstradial surface 472. The firstaxial surface 470 has an annular shape and faces in the axial direction D2. The firstradial surface 472 has an annular shape and radially inwardly faces relative to the rotational center axis A. Thesecond sprocket body 438 includes a secondaxial surface 474 and a secondradial surface 476. The secondaxial surface 474 has an annular shape and faces in the axial direction D2. The secondradial surface 476 has an annular shape and radially outwardly faces relative to the rotational center axis A. The firstaxial surface 470 is attached to the secondaxial surface 474 by adhesive. The firstradial surface 472 is attached to the secondradial surface 476 by adhesive. For example, the concavo-convex structure may comprise a protrusion formed on one of the firstaxial surface 470 and the secondaxial surface 474, and a recess formed on the other of the firstaxial surface 470 and the secondaxial surface 474. Similarly, the concavo-convex structure may also comprise a protrusion formed on one of the firstradial surface 472 and the secondradial surface 476, and a recess formed on the other of the firstradial surface 472 and the secondradial surface 476. However, the concavo-convex structure can be omitted from the bicyclerear sprocket assembly 410 if needed and/or desired. - As seen in
FIGS. 23 and 25 , the bicyclerear sprocket assembly 410 further comprises atubular member 478 positioned coaxially with the rotational center axis A. Thetubular member 478 has ahub engagement profile 480 configured to engage with the bicycle hub assembly 2 (FIG. 23 ). In the illustrated embodiment, thetubular member 478 is secured to thebase portion 460. Thetubular member 478 is integrally provided with thebase portion 460 as a single unitary member. Thetubular member 478 is integrally provided with thesprocket body 466 of the bicycle sprocket S405. However, thetubular member 478 can be a separate member from thebase portion 460 if needed and/or desired. - As seen in
FIGS. 23 and 25 , the bicyclerear sprocket assembly 410 further comprises aninternal space 482 provided between thebase portion 460 and thetubular member 478 in a radial direction with respect to the rotational center axis A. In the illustrated embodiment, thetubular member 478 is spaced apart from the tapered innerperipheral surface 468 of thebase portion 460 in the radial direction with respect to the rotational center axis A. Theinternal space 482 is provided between the tapered innerperipheral surface 468 and an outer peripheral surface of thetubular member 478. - With the bicycle
rear sprocket assembly 410, thefirst sprocket body 412 is made of a non-metallic material. Thesecond sprocket body 438 is made of a non-metallic material and is attached to thefirst sprocket body 412. In other words, thebase portion 460 is made of a non-metallic material. Accordingly, it is possible to save weight of the bicyclerear sprocket assembly 410. - As seen in
FIG. 26 , thefirst sprocket body 412 and thesecond sprocket body 438 can be integral with each other as a single unitary member if needed and/or desired. In such an embodiment, the first chain-engagement structure 414 and the second chain-engagement structure 440 are at least partly embedded in thefirst sprocket body 412 and thesecond sprocket body 438 by integral molding such as insert molding. While thebase portion 460 is integrally provided as a single unitary member in the illustrated embodiment, at least part of thebase portion 460 can be a separate member from other part of thebase member 460. - It will be apparent to those skilled in the bicycle field from the present disclosure that the constructions of the above embodiments can be at least partly combined with each other.
- In the present application, the term “attached” or “attaching”, as used herein, can encompass configurations in which an element is directly attached to the other element by affixing the element directly to the other element; configurations in which the element is indirectly attached to the other element via the intermediate member(s); and configurations in which one element is integral with another element, i.e. one element is essentially part of the other element. This concept also applies to words of similar meaning, for example, “joined”, “connected”, “coupled”, “mounted”, “bonded”, “fixed” and their derivatives.
- The term “comprising” and its derivatives, as used herein, are intended to be open ended terms that specify the presence of the stated features, elements, components, groups, integers, and/or steps, but do not exclude the presence of other unstated features, elements, components, groups, integers and/or steps. This concept also applies to words of similar meaning, for example, the terms “have”, “include” and their derivatives.
- The terms “member”, “section”, “portion”, “part”, “element”, “body” and “structure” when used in the singular can have the dual meaning of a single part or a plurality of parts.
- The ordinal numbers such as “first” and “second” recited in the present application are merely identifiers, but do not have any other meanings, for example, a particular order and the like. Moreover, for example, the term “first element” itself does not imply an existence of “second element”, and the term “second element” itself does not imply an existence of “first element.”
- The term “pair of”, as used herein, can encompass the configuration in which the pair of elements have different shapes or structures from each other in addition to the configuration in which the pair of elements have the same shapes or structures as each other.
- Finally, terms of degree such as “substantially”, “about” and “approximately” as used herein mean a reasonable amount of deviation of the modified term such that the end result is not significantly changed.
- Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.
Claims (38)
Priority Applications (8)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US14/615,364 US9403578B1 (en) | 2015-02-05 | 2015-02-05 | Bicycle sprocket assembly and bicycle rear sprocket assembly |
TW107136015A TWI680910B (en) | 2015-02-05 | 2015-12-07 | Bicycle rear sprocket assembly |
TW104140977A TWI651239B (en) | 2015-02-05 | 2015-12-07 | Bicycle sprocket assembly and bicycle rear sprocket assembly |
CN201610007306.9A CN105857505B (en) | 2015-02-05 | 2016-01-06 | Bicycle chain wheel assembly and bicycle rear sprocket assembly |
CN201811276056.4A CN110027665B (en) | 2015-02-05 | 2016-01-06 | Bicycle rear sprocket assembly |
DE102016000514.9A DE102016000514A1 (en) | 2015-02-05 | 2016-01-19 | Bicycle sprocket assembly and rear bicycle chain assembly |
ITUB2016A000528A ITUB20160528A1 (en) | 2015-02-05 | 2016-02-04 | Bicycle sprocket assembly and rear sprocket bike assembly |
US15/168,214 US9932090B2 (en) | 2015-02-05 | 2016-05-30 | Bicycle rear sprocket assembly |
Applications Claiming Priority (1)
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US14/615,364 US9403578B1 (en) | 2015-02-05 | 2015-02-05 | Bicycle sprocket assembly and bicycle rear sprocket assembly |
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US15/168,214 Continuation US9932090B2 (en) | 2015-02-05 | 2016-05-30 | Bicycle rear sprocket assembly |
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US9403578B1 US9403578B1 (en) | 2016-08-02 |
US20160229486A1 true US20160229486A1 (en) | 2016-08-11 |
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US14/615,364 Active US9403578B1 (en) | 2015-02-05 | 2015-02-05 | Bicycle sprocket assembly and bicycle rear sprocket assembly |
US15/168,214 Active US9932090B2 (en) | 2015-02-05 | 2016-05-30 | Bicycle rear sprocket assembly |
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US15/168,214 Active US9932090B2 (en) | 2015-02-05 | 2016-05-30 | Bicycle rear sprocket assembly |
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US (2) | US9403578B1 (en) |
CN (2) | CN110027665B (en) |
DE (1) | DE102016000514A1 (en) |
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TW (2) | TWI680910B (en) |
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-
2015
- 2015-02-05 US US14/615,364 patent/US9403578B1/en active Active
- 2015-12-07 TW TW107136015A patent/TWI680910B/en active
- 2015-12-07 TW TW104140977A patent/TWI651239B/en active
-
2016
- 2016-01-06 CN CN201811276056.4A patent/CN110027665B/en active Active
- 2016-01-06 CN CN201610007306.9A patent/CN105857505B/en active Active
- 2016-01-19 DE DE102016000514.9A patent/DE102016000514A1/en active Pending
- 2016-02-04 IT ITUB2016A000528A patent/ITUB20160528A1/en unknown
- 2016-05-30 US US15/168,214 patent/US9932090B2/en active Active
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US20160272279A1 (en) * | 2015-02-05 | 2016-09-22 | Shimano Inc. | Bicycle rear sprocket assembly |
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Also Published As
Publication number | Publication date |
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DE102016000514A1 (en) | 2016-08-11 |
CN110027665A (en) | 2019-07-19 |
CN105857505A (en) | 2016-08-17 |
ITUB20160528A1 (en) | 2017-08-04 |
CN110027665B (en) | 2021-08-06 |
TW201628918A (en) | 2016-08-16 |
CN105857505B (en) | 2019-03-08 |
US9932090B2 (en) | 2018-04-03 |
US9403578B1 (en) | 2016-08-02 |
TWI651239B (en) | 2019-02-21 |
TWI680910B (en) | 2020-01-01 |
TW201902778A (en) | 2019-01-16 |
US20160272279A1 (en) | 2016-09-22 |
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