Patent application number | Description | Published |
20080238026 | AERODYNAMIC BICYCLE FRAME - A bicycle that includes a main frame, a front wheel mounted for rotation relative to the main frame, a rear dropout, and a rear wheel mounted for rotation relative to the rear dropout. The rear wheel defines a center plane of the bicycle. The bicycle further includes a rear stay that couples the rear dropout to the main frame. The rear stay has an inner surface facing the rear wheel and an outer surface facing away from the rear wheel. The rear stay includes a steep portion having an outer surface at a steep angle of between about 25 degrees and about 75 degrees relative to the center plane. | 10-02-2008 |
20090191996 | COGSET ASSEMBLY FOR A BICYCLE - A bicycle hub assembly comprises a shaft, a first load bearing adjacent said shaft, a hub main body surrounding said shaft, and a cogset. The cogset can define an inner surface, and the inner surface can define a seat configured to receive the first load bearing. Further, the inner surface can define an opening of variable size. The cogset can also define an inner end and an outer end, and the opening can generally increase in size from the outer end to the inner end. | 07-30-2009 |
20100050810 | BICYCLE GEAR CRANK - A bicycle gear crank that allows easy and proper circumferential position adjustment of the gear plate with respect to the crank arm. The bicycle gear crank includes a crank arm having a base end provided with a boss for mounting to a crank shaft an annular intermediate member non-rotatably around the boss | 03-04-2010 |
20100236873 | BICYCLE BRAKE ASSEMBLY - Various bicycle brake assemblies are described. In some embodiments, a bicycle brake assembly comprises a multi-lever linkage assembly comprising an input link and an output link coupled with a brake pad, wherein the multi-lever linkage assembly is configured to provide a greater mechanical advantage when the brake assembly is in a second activated position in which the brake pad is contacting a wheel than when the brake assembly is in a first unactivated position. | 09-23-2010 |
20110049832 | BICYCLE FRAME WITH IMPROVED WELD JOINT - A bicycle frame comprising a first tubular member having a first interface portion, and a second tubular member having a second interface portion engaged with the first interface portion to create a joint. The joint includes a peripheral channel having a depth that is greater than a wall thickness of the first tubular member, and a weld is positioned in the peripheral channel. To enhance the transition from the first main portion to the second main portion, the second tubular member can include a fillet surface between the second main portion and the second interface portion. The fillet surface is contoured to provide a smooth transition between the top tube and the head tube. An outer surface of the first interface portion can be offset from an outer surface of the first main portion to thereby create a shoulder. | 03-03-2011 |
20110210231 | BICYCLE SEAT WITH RESILIENT SUPPORT - A bicycle seat support that resiliently supports a bicycle seat. The support comprises an upper engagement member adapted to support a bicycle seat, a lower engagement member adapted to engage a bicycle frame, and a compliant support assembly coupling the upper engagement member to the lower engagement member. The compliant support assembly includes a first and second cantilevered springs defining a gap, and a resilient member (e.g., an elastomer) positioned in the gap. The bicycle seat support can include an elbow joint coupling the lower engagement member to the compliant support assembly. Preferably, the elbow joint comprises an upper portion that sandwiches the first and second cantilevered springs, and a lower portion positioned in a recess in the lower engagement member. The lower engagement member can also include a resilient bump stop adapted to limit downward movement of the upper engagement portion. | 09-01-2011 |
20110248469 | BICYCLE DAMPING SYSTEM - A bicycle damping system is arranged to reduce vibrations that originate at the bicycle wheel and are transmitted to the rider of the bicycle. Desirably, a front fork assembly is configured to be supported by a bicycle frame and includes a pair of fork legs, which extend in a downward direction along opposing sides of a front wheel of the bicycle. Preferably, the fork legs are configured to support the front wheel at their lower ends. Each of the fork legs can define a cavity and a damping member is positioned within the cavity. The damping member can be forced into contact with a surface of the fork leg. Seat stays, chain stays, the seat post and other components of the bicycle can also include a damping system. | 10-13-2011 |
20120038129 | BICYCLE FRAME WITH IMPROVED WELD JOINT - A bicycle frame comprising a first tubular member having a first main portion and a first interface portion (e.g., a rounded taper), and a second tubular member having a second main portion and a second interface portion engaged with the first interface portion to create a joint. The joint includes a peripheral channel defined between the first interface portion and the second interface portion, and a weld is positioned in the peripheral channel. The second interface portion is defined at least partially by a substantially flat face wall. Preferably, the first tubular member includes an open end at the first interface portion, while the flat face wall at the second interface portion is substantially closed. In addition, it is preferred that the face wall lies in a plane that is substantially parallel to a longitudinal axis of the head tube (e.g., within ten degrees of the longitudinal axis). | 02-16-2012 |
20120200060 | BICYCLE FRAME - A bicycle frame that supports a front wheel and a rear wheel defining a central plane. The bicycle frame includes a head tube, a bottom bracket configured to support a crank assembly, and a bicycle frame portion. The bicycle frame portion includes a leading edge and a trailing edge oriented such that a chord line between the leading edge and the trailing edge defines an angle of incidence greater than zero degrees relative to the central plane. | 08-09-2012 |
20120200061 | DUAL SHIFTER FOR A BICYCLE - A bicycle having at least two wheels, a frame supported on the two wheels, a brake, a gear shift mechanism (e.g., a chain derailleur), a shifter (e.g., a shift lever), and a brake mechanism coupled to the brake and also coupled to the gear mechanism (e.g., via an auxiliary shift cable between a brake lever and a shift lever). Preferably, the shifter and brake mechanism are mounted on a handlebar assembly (e.g., the shifter mounted on an extension and the brake mechanism mounted on a base bar). In one embodiment, the brake mechanism comprises a brake support fixedly secured to the handlebar assembly, a lever base pivotally mounted to the brake support for rotation about a first axis, and a brake lever pivotally mounted to the lever base for rotation about a second axis. Preferably, the lever base is rotationally biased relative to the brake support. | 08-09-2012 |
20120220402 | COGSET ASSEMBLY FOR A BICYCLE - A bicycle hub assembly comprises a shaft, a first load bearing adjacent said shaft, a hub main body surrounding said shaft, and a cogset. The cogset can define an inner surface, and the inner surface can define a seat configured to receive the first load bearing. Further, the inner surface can define an opening of variable size. The cogset can also define an inner end and an outer end, and the opening can generally increase in size from the outer end to the inner end. | 08-30-2012 |
20120260767 | BICYCLE WITH BEARING PRELOAD MECHANISM - A crankset for a bicycle that includes a first crank, a second crank, a spindle, a bearing, and a preload mechanism. Each of the first crank and the second crank has an end adapted to engage a pedal. The spindle defines an axis and includes a first end that is coupled to the first crank and a second end that is coupled to the second crank. The bearing positioned around the spindle between the first crank and the second crank to permit rotation of the spindle. The preload mechanism is coupled to the spindle between the bearing and the first crank. The preload mechanism includes a washer that extends circumferentially around the spindle and a cam member that is engageable with the washer to move the washer along the axis to preload the bearing. | 10-18-2012 |
20120261896 | MODULAR TRAILING EDGE FOR BICYCLE STEM - A bicycle including a front wheel, a rear wheel, and a frame supported on the front and rear wheels, the frame having a frame member. The bicycle further includes a first fairing member protruding outward from the frame member and having a side surface defining an aerodynamic trailing edge and a second fairing member detachably mounted on the first fairing member such that the side surface is exposed. | 10-18-2012 |
20120261897 | BICYCLE WITH INTERNAL STORAGE SYSTEM - A bicycle including a front wheel, a rear wheel, and a frame supported on the front and rear wheels. The frame includes a hollow frame member having a wall with an opening, and a flexible bladder positioned in the hollow frame member. A stiffening member is positioned along at least a portion of the bladder to facilitate insertion of the bladder through the opening and into the frame member. The bicycle further includes a collar coupled to the open end of the bladder with at least a portion of the collar being positioned on an outer surface of the frame member. The bladder includes a first portion adjacent the open end and generally aligned with a first axis and a second portion distal to the open end and generally aligned with a second axis that is non-parallel to the first axis. | 10-18-2012 |
20120297922 | ADJUSTABLE HANDLEBAR STEM FOR A BICYCLE - A bicycle including a frame that has a head tube. The bicycle also includes a fork that is rotationally coupled to the head tube and that has a steerer tube extending upward through the head tube, a wheel rotationally coupled to the fork, a handlebar, and a stem assembly. The stem assembly is coupled to and extends from the steerer tube to attach the handlebar to the fork. The stem assembly includes a stem, a shim that is coupled to the stem, and a clamp contacting both the shim and the handlebar to secure the handlebar to the stem assembly. | 11-29-2012 |
20130076001 | BICYCLE FRAME - A bicycle frame including a head tube and a bottom bracket adapted to support a crankset. The frame also includes a tubular frame member that is coupled to the head tube and that has a concave section disposed on an underside of the frame member and spaced from the head tube. | 03-28-2013 |
20130147152 | BICYCLE ASSEMBLY WITH BOTTOM BRACKET SHELL - A bicycle assembly can include a main frame having a bottom bracket shell to receive a bottom bracket. The bottom bracket shell can be made of carbon fiber with one or more metal rings to serve as bearing surfaces within the bottom bracket shell. The metal rings may also be split metal rings with a gap between two spaced apart ends. | 06-13-2013 |
20130214505 | METHOD OF MANUFACTURING A GROUP OF BICYCLES - A method of designing and manufacturing a model of bicycles in such a manner that the size (e.g., diameter) of the head tube bearings and/or the stiffness of the forks varies between frame sizes. The method includes selecting a first and second lower headset bearing sizes for the first and second frame sizes, respectively, wherein the first lower headset bearing size is different size than the second lower headset bearing size. The method further includes manufacturing first bicycles of the first frame size and second bicycles of the second frame size, and coupling the first and second lower headset bearings to the first and second bicycles, respectively. The same model designations are then attached to each of the first and second bicycles. The difference in size of the lower headset bearings and/or fork steerer tubes can be substantially proportional to the difference in length of the seat tube. | 08-22-2013 |
20130228668 | BICYCLE SEAT WITH RESILIENT SUPPORT - A bicycle seat support that resiliently supports a bicycle seat and comprises an upper engagement member adapted to support a bicycle seat, a lower engagement member adapted to engage a bicycle frame, and a compliant support assembly coupling the upper engagement member to the lower engagement member. The compliant support assembly includes a first cantilevered beam cantilevered to the lower engagement member, and a second cantilevered beam cantilevered to the first cantilevered beam. The first and second cantilevered beams define a gap, and a resilient member is positioned in the gap. Preferably, the cantilevered beams include convex surfaces, and the resilient member includes concave surfaces shaped to receive the convex surfaces. The resilient member can include a body portion and a strut (e.g., two struts). The resilient member can also include a side surface and a recess in the side surface (e.g., extending all the way through the resilient member). | 09-05-2013 |
20130249187 | BICYCLE DAMPING SYSTEM - A bicycle damping system is arranged to reduce vibrations that originate at the bicycle wheel and are transmitted to the rider of the bicycle. A portion of a bicycle frame and/or bicycle fork can include define a cavity and a damping member is positioned within the cavity. The damping member can be forced into contact with a surface of the cavity. Fork legs, seat stays, chain stays, the seat post are all examples portions of the bicycle frame that may include a damping system. | 09-26-2013 |
20130264794 | BICYCLE DAMPING SYSTEM - A bicycle damping system is arranged to reduce vibrations that originate at the bicycle wheel and are transmitted to the rider of the bicycle. Desirably, a front fork assembly is configured to be supported by a bicycle frame and includes a pair of fork legs, which extend in a downward direction along opposing sides of a front wheel of the bicycle. Preferably, the fork legs are configured to support the front wheel at their lower ends. Each of the fork legs can define a cavity and a damping member is positioned within the cavity. The damping member can be forced into contact with a surface of the fork leg. Seat stays, chain stays, the seat post and other components of the bicycle can also include a damping system. | 10-10-2013 |
20130313804 | AERODYNAMIC BICYCLE FRAME - A bicycle including a main frame, a front wheel mounted for rotation relative to the main frame. a rear dropout, and a rear wheel mounted for rotation relative to the rear dropout about an axis. The rear wheel defines a center plane of the bicycle and is driven by a chain. The bicycle also includes a seat stay coupling the rear dropout to the main frame. The seat stay has an inner surface facing the rear wheel and an outer surface facing away from the rear wheel. The seat stay includes a steep portion having an outer surface disposed at a steep angle of between about 25 degrees and about 75 degrees relative to the center plane, and at least a portion of the steep portion is disposed outboard of the chain. | 11-28-2013 |
20140001728 | SENSOR APPARATUS FOR DETERMINING FORCES APPLIED TO A PEDAL OF A BICYCLE | 01-02-2014 |
20140151975 | METHOD OF MANUFACTURING A GROUP OF BICYCLES - A method of designing and manufacturing a model of bicycles in such a manner that the size (e.g., diameter) of the head tube bearings and/or the stiffness of the forks varies between frame sizes. The method includes selecting first and lower headset bearing sizes for the first and second frame sizes, respectively, wherein the first lower headset bearing size is different than the second lower headset bearing size. The method further includes manufacturing first bicycles of the first frame size and second bicycles of the second frame size, and coupling first and second lower headset bearings to the first and second bicycles, respectively. The same model designations are then attached to each of the first and second bicycles. This same method can also be used with models having more than two frame sizes. The difference in size of the lower headset bearings and/or fork steerer tubes can be substantially proportional to the difference in length of the seat tube. | 06-05-2014 |
20140252744 | BICYCLE FRAME WITH INTERNAL STRUT - A bicycle including a front wheel, a rear wheel, and a bicycle frame assembly supported on the front and rear wheels. The bicycle frame assembly includes a front fork supported by the front wheel, and a main frame that has a head tube and a down tube extending rearward and downwardly relative to the head tube. The down tube has a front wall, a rear wall, and an internal strut connecting the front wall and the rear wall. | 09-11-2014 |
20140265221 | BICYCLE BRAKE ASSEMBLY - Various bicycle brake assemblies are described. In some embodiments, a bicycle brake assembly for applying a braking force to a wheel comprises a brake arm comprising a frame pivot joint and a brake pad pivot joint, the frame pivot joint configured to pivotally connect the brake arm to a bicycle frame to enable pivoting of the brake arm about a first axis of rotation; and a brake pad pivotally coupled to the brake arm at the brake pad pivot joint to enable pivoting of the brake pad about a second axis of rotation, the brake pad comprising a braking surface for engaging a wheel rim to apply a frictional force to the wheel rim, the frictional force having a frictional direction, wherein the first axis of rotation is not parallel to the frictional direction of the frictional force. | 09-18-2014 |
20140265222 | HYDRAULIC RIM BRAKE - The present invention provides a bicycle having front and rear wheels, a frame supported by the wheels, and a brake system. The brake system includes a caliper arm pivotally coupled to the frame at a pivot point, a pad secured to the caliper arm at a location spaced from the pivot point by a first distance, and an actuator (e.g., a hydraulic piston) positioned to apply a force to the caliper arm at a location that is spaced from the pivot point by a second distance less than the first distance. Preferably, the actuating location is positioned between the pivot axis and the pad. In addition, it is preferred to have a ratio of the first distance to the second distance be at least 4.0, preferably at least 6.0, and more preferably about 8.0. | 09-18-2014 |
20140265225 | BICYCLE FORK WITH COMPLIANT TIP - The present invention provides a bicycle comprising front and rear wheels, a frame supported on the front and rear wheels and including a front fork. The front fork comprises a steerer tube defining a steering axis, a fork blade coupled to and extending downward relative to the steerer tube, and a fork tip coupled between the fork blade and the front wheel. The fork tip includes a first arm extending at an angle of 40-85 degrees relative to the steering axis, a second arm extending at an angle of 70-120 degrees relative to the steering axis, and an axle support coupled between the second arm and the front wheel. In one embodiment, the first arm and second arm define a gap, and the fork tip further includes a resilient member positioned in the gap. | 09-18-2014 |
20140265228 | BICYCLE WITH AERODYNAMIC UPPER HEAD TUBE - The present invention provides a bicycle comprising front and rear wheels and a frame including a main frame having a head tube and a top tube secured to the head tube at an intersection spaced from an upper end of the head tube. The intersection has a first lateral width, and the head tube above the intersection includes a tapered portion that tapers to a second lateral width narrower than the first lateral width. For example, the first lateral width can be at least three percent wider than the second lateral width. In one embodiment, the head tube above the tapered portion includes a flared portion that flares to a third lateral width wider (e.g., at least ten percent wider) than the second lateral width. In addition, the tapered portion can include a length that is larger (e.g., at least one hundred percent larger) than the second lateral width. | 09-18-2014 |
20140265231 | BICYCLE WITH COMPLIANT REAR STRUCTURE - The present invention provides a bicycle comprising wheels and a frame supported on the wheels. The frame includes a seatstay assembly defining a seatstay axis and including a spring assembly having a spring member (e.g., a leaf spring) at an angle of at least 5 degrees relative to the seatstay axis. The spring member has a width that is at least 4 times larger than its thickness. The present invention also provides a bicycle comprising a frame that includes a seat tube and a seatstay assembly defining a seatstay axis. The seatstay assembly includes a spring member offset from the seatstay axis and non-parallel to the seatstay axis. In one embodiment, the seatstay assembly further includes a seatstay tube, and the spring member includes a rear portion secured to the seastay tube. The spring member can also include a front portion secured to a seat tube of the bicycle frame. | 09-18-2014 |