A bicycle frame is discussed having a battery fully contained within a down tube of the bicycle frame. The battery may be inserted into or removed from the down tube via a through opening through a bottom bracket housing of the bicycle frame. Weakness in the bottom bracket housing due to the through opening may be compensated for, fully or partially, by utilizing a bottom bracket bearing assembly that has a structural component, or structural component assembly, that extends completely through the bottom bracket housing and removably couples to the bottom bracket housing.

A bicycle and frame is disclosed including a rear frame structure including a seat tube, a bottom bracket shell and a chainstay terminating in a rear wheel mount. A forward end of the chainstay, a lower end of the seat tube, and the bottom bracket shell are rigidly connected. A front frame structure includes a down tube rigidly connected to a forwardly disposed head tube and connected to the rear frame at a pivot proximate the bottom bracket shell facilitating pivoting of the front frame with respect to the rear frame in a common vertical plane. A frame lock when engaged substantially immobilizes the pivot to place the frame in a riding condition and when disengaged facilitates relative movement of the down tube and the seat tube towards each other about the pivot in the common vertical plane to place the frame in a collapsed condition such that the down tube lies alongside the seat tube.

A system and bicycle incorporating same mounts a heat-generating component such as a motor, motor controller, or battery pack, inside a frame tube using a thermally conductive and compliant elastomeric device comprising a base portion having a relatively smooth first side and regularly-repeating protrusions extending away from a second side, wherein the relatively smooth side of the elastomeric device is wrapped around the heat-generating component such that the regularly-repeating protrusions will be in an interference fit with the interior surface of the tubular frame when the heat-generating component is mounted in the frame tube, thereby conducting heat to the frame to exhaust to the environment, providing compliance that allows for dimensional variation of assembled parts, and muting noise and vibration.

A system and bicycle incorporating same mounts a heat-generating component such as a motor, motor controller, or battery pack, inside a frame tube using a thermally conductive and compliant elastomeric device comprising a base portion having a relatively smooth first side and regularly-repeating protrusions extending away from a second side, wherein the relatively smooth side of the elastomeric device is wrapped around the heat-generating component such that the regularly-repeating protrusions will be in an interference fit with the interior surface of the tubular frame when the heat-generating component is mounted in the frame tube, thereby conducting heat to the frame to exhaust to the environment, providing compliance that allows for dimensional variation of assembled parts, and muting noise and vibration.

A chainless bicycle for child includes a frame and a power gearing device. The frame has a seat tube between the front wheel and the rear wheel, with a passive gear axially disposed on a hub of the rear wheel. The power gearing device is disposed on the frame between the seat tube and the rear wheel. The power gearing device includes an active gear and a transmission gear meshed with the active gear. The transmission gear is meshed between the active gear and the passive gear. The power gearing device further includes a crank set disposed on two sides of the active gear for driving the active gear to rotate. Therefore, the passive gear is driven through the transmission gear to rotate in an identical direction with the active gear. Thus, the meshing structure of the present invention improves the safety of children.

A bicycle has a bicycle body, a bicycle component, and a battery. The bicycle body has a frame including a down tube, a component mounting portion, and a seat tube. The bicycle component includes a bicycle drive unit. At least a portion of the bicycle component is arranged inside the frame. The battery is mounted on the bicycle to supply the bicycle component with electrical power. The frame further includes a first open portion that is provided on the component mounting portion and opens toward an upper side of the bicycle. At least a portion of the bicycle drive unit is disposed inside the frame and is exposed through the first open portion.

A bicycle has a bicycle body, a bicycle component, and a battery. The bicycle body has a frame including a down tube, a component mounting portion, and a seat tube. The bicycle component includes a bicycle drive unit. At least a portion of the bicycle component is arranged inside the frame. The battery is mounted on the bicycle to supply the bicycle component with electrical power. The frame further includes a first open portion that is provided on the component mounting portion and opens toward an upper side of the bicycle. At least a portion of the bicycle drive unit is disposed inside the frame and is exposed through the first open portion.

A bicycle component includes a housing that supports a crankshaft of a bicycle and a first mounting portion that mounts the housing on a frame of the bicycle. The first mounting portion is configured to apply force to the housing and the frame that moves the housing and the frame away from each other.

A bicycle component includes a housing that supports a crankshaft of a bicycle and a first mounting portion that mounts the housing on a frame of the bicycle. The first mounting portion is configured to apply force to the housing and the frame that moves the housing and the frame away from each other.

A bicycle comprises a frame assembly and a hydration system. The frame assembly includes a main frame and a fork assembly pivotally coupled to the main frame. The hydration system includes a reservoir supported by the frame assembly, a collapsible bladder positioned in the reservoir, and a hose coupled to the bladder and extending through a reservoir opening. The hose enters the main frame through a frame opening and passes through an inside of the main frame above a bottom bracket. The hose exits the main frame through a front opening and enters the fork assembly through a fork opening facing toward the front opening. The fork assembly can also include a nose piece in front of the headset bearing, wherein the hose passes between headset bearing and the nose piece. The fork assembly can also include a handlebar and a riser supporting the handlebar, wherein the hose passes through the riser.