An electric scooter includes: a scooter body; a front fork pivotally arranged on a front side of the scooter body; a front wheel mounted on the front fork; a rear wheel arranged on a rear side of the scooter body; a handlebar including a crossbar and a riser, the crossbar being arranged at an upper end of the riser, and a lower end of the riser being coupled to the front fork; and a left steering light and a right steering light mounted on at least one of the scooter body, the front fork or the handlebar.

An electric scooter includes: a scooter body; a front fork pivotally arranged on a front side of the scooter body; a front wheel mounted on the front fork; a rear wheel arranged on a rear side of the scooter body; a handlebar including a crossbar and a riser, the crossbar being arranged at an upper end of the riser, and a lower end of the riser being coupled to the front fork; and a left steering light and a right steering light mounted on at least one of the scooter body, the front fork or the handlebar.

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 method for forming a bicycle frame assembly having a number of elongate tubes is disclosed. A two part mold can be used to form a hollow finish part as part of the assembly. The assembly includes a passage that is defined by the elongate member, a partition, and a bridge. The partition isolates the passage from an interior volume of the elongate tube. The bridge extends in a direction normal to an elongate direction of the passage and defines an inlet and an outlet of the passage. The inlet, outlet, and bridge are generally flush with an exterior surface of the elongate tube and provide a passage that cooperates with a flexible connector, such as a cable tie, for securing supplemental structures, such as brake and shift control cables, to the elongate tube of the bicycle frame assembly.

A method for forming a bicycle frame assembly having a number of elongate tubes is disclosed. A two part mold can be used to form a hollow finish part as part of the assembly. The assembly includes a passage that is defined by the elongate member, a partition, and a bridge. The partition isolates the passage from an interior volume of the elongate tube. The bridge extends in a direction normal to an elongate direction of the passage and defines an inlet and an outlet of the passage. The inlet, outlet, and bridge are generally flush with an exterior surface of the elongate tube and provide a passage that cooperates with a flexible connector, such as a cable tie, for securing supplemental structures, such as brake and shift control cables, to the elongate tube of the bicycle frame assembly.

A bike includes a frame elongated in a longitudinal direction, a front fork rotatably engaged with a front wheel at a front end of the bike, a rear fork rotatably engaged with a rear wheel at a rear end of the bike, a handlebar supported for rotation at the front end of the frame for steering the bike, and a drive module configured to drive the rear wheel of the bike when operated selectively with power. The frame includes a down tube extending downward and rearward from the front end of the bike and a drive module enclosure formed at a second end of the down tube. The drive module enclosure defines a drive module receptacle that is open along the longitudinal direction of the bike. The drive module receptacle is sized to receive the drive module along the longitudinal direction of the bike.

An ergonomic device to provide a removable tray assembly to be attached to a bicycle via one or more means is described, wherein the removable tray assembly may comprise: a tray; an interface element that attaches the tray to a mount via a locking mechanism, such as a quarter turn locking mechanism, wherein the mount comprises a clamping mechanism to attach the mount to the bicycle. According to certain embodiments, the tray may be configured for attachment to a handlebar of a bicycle, such as a stationary bicycle, to provide a platform to hold or place one or more objects.

An ergonomic device to provide a removable tray assembly to be attached to a bicycle via one or more means is described, wherein the removable tray assembly may comprise: a tray; an interface element that attaches the tray to a mount via a locking mechanism, such as a quarter turn locking mechanism, wherein the mount comprises a clamping mechanism to attach the mount to the bicycle. According to certain embodiments, the tray may be configured for attachment to a handlebar of a bicycle, such as a stationary bicycle, to provide a platform to hold or place one or more objects.

A foldable electric scooter and a manufacture method of the same. The foldable electric scooter includes a main body assembly, a front fork assembly located at the front end of the main body assembly, a rear fork assembly located at the rear end of the main body assembly, a telescoping plate assembly located on top of the front fork assembly and a handlebar assembly located on top of the telescoping plate assembly. The foldable electric scooter has a double headset design that increases a rake angle for more steering stability while still keeping the steering upright for an upright holding of the handlebars. The foldable electric scooter is manufactured by stamping of flat plate material.

A network-enabled bicycle comprising a bicycle frame and an electronic device mounted to said bicycle frame is provide. The electronic device of network-enabled bicycle is configured to communicating with other network-enabled bicycles and/or a server via a wireless network access point. In general, a set of network-enabled bicycles are equipped with respective electronic devices which are programmed for allowing the bicycles in the set of bicycles to exchange data directly or indirectly with each other and/or exchange data directly or indirectly with the server via one or more of the wireless network access points connected to the server through a data network. In accordance with one specific example of implementation, the network-enabled bicycle connects to the wireless network access point over an open Wi-Fi connection.