A handguard system for a handlebar of a bicycle is provided and includes a handguard article having a handguard first end communicated with a handguard second end via a handguard center portion, wherein the handguard second end is configured to associate with the handlebar. The handguard system also includes a handguard collar, wherein the handguard collar includes a handguard collar structure which defines a collar cavity configured to contain the handlebar and having a collar cavity diameter CCD which is configurable between a first collar cavity diameter CC.sub.D1 and a second collar cavity diameter CC.sub.D2. and Additionally, the handguard system further includes a handguard mounting device, wherein the handguard mounting device is configured to securingly associate with the handguard first end and the handlebar, wherein when the handguard article is securingly associated with the handlebar, the handguard center portion is configured to cover a portion of the handlebar.

An armrest handlebar and a bicycle handlebar assembly having the armrest handlebar are disclosed. The bicycle handlebar assembly includes a steering handlebar, the armrest handlebar, and two armrest pads. The steering handlebar is pivotally engaged with a frame. The armrest handlebar includes two extending tubes which are engaged with the steering handlebar. Each of the extending tubes includes a combining segment, a lifting segment, a leaned segment, and a holding segment which are sequentially disposed. The lifting segment is raised above the combining segment at a first angle, and the leaned segment is raised above the combining segment at a second angle. A curved surface is formed by recessing from a top surface of each of the leaned segments. Each of the two armrest pads is engaged with the steering handlebar and has a concave surface for a rider to lean on.

An integrated bicycle control device has a handlebar portion of a bicycle handlebar assembly. The handlebar portion has a body with a gripping portion adjacent a distal end of the body and a transition portion spaced from the gripping portion. A compartment may be formed in the transition portion and an opening in the body may permit access to the compartment. An actuator is disposed near the distal end of the gripping portion. A control element and/or other elements or circuitry may be disposed within the compartment. The control device may include integrated accessory attachment structure.

A bicycle armrest handlebar, designed to be used in pairs and connected to a bicycle steeling handlebar near a middle portion of the bicycle steeling handlebar, includes a coupling segment, a supporting segment, and a holding segment. The coupling segment is coupled to the bicycle steeling handlebar. The supporting segment is located at a front end of the coupling segment and has an upper surface that is a concave curved surface. The supporting segment has an outwardly expanded portion, an inwardly reduced and upwardly inclined portion and a downwardly inclined portion that are arranged in sequence from its rear end to its front end. The holding segment is located at a front end of the downwardly inclined portion of the supporting segment.

The disclosure relates to a bicycle handlebar support, which is suitable in particular for time trial or triathlon bicycles and has a central holding element which in the fitted state points in the direction of travel. Furthermore, in addition to the holding element two arm supports are provided for the lower arms. According to the disclosure a common grip element is provided in a front region of the holding element for gripping jointly with both hands.

Embodiments described herein provide container mounts for mounting water bottles, bento boxes, tool holders or other containers in an aerodynamic position. According to one embodiment, the container mount can include an attachment member to attach to the bicycle frame or aerobars. One or more container support members are coupled to the attachment member in a fixed orientation or in a manner that allows the position of the support member to be adjusted. The container mounts can be configured so that the container is positioned within the aerodynamic profile of the rider's torso between the rider's arms (when viewed from the front) and is accessible by the rider while the rider maintains aerodynamic form.

A bottle assembly includes a bottle and a supporting device. The bottle has opposite top and bottom and a bottle wall extending from the top to the bottom. An outer surface of the bottle wall has first positioning portions. The bottle wall has first and second sides. The supporting device includes a base and a bottle holder connected to the base and accommodating the bottle. The bottle holder has corresponding second positioning portions. The bottle has first and second installation modes. When in the first installation mode, the second side faces the base, and the second positioning portions and some of first positioning portions are fixed to each other. When in the second installation mode, the first side faces the base, and the second positioning portions and some of the first positioning portions are fixed to each other. The bottle and the supporting device are also provided.

A simulated bicycle brake hood attachment may be attached to handlebars of a stationary bicycle, such as Echelon, Bowflex, Keiser, Schwinn or PELETON® indoor stationary bicycles, and allow the user to mimic real road bike riding positions. The simulated bicycle brake hood attachment includes a base portion for attaching to the handlebars, a post portion extending from the base portion and a head portion a top of the post portion. The post portion and the head portion provide rounded surfaces to allow a comfortable grip and provide a more ergonomic riding position and improve riding comfort.

An electromechanical control system for a bicycle has a switch device, the switch device operating a switch between at least three positions. A control communication device transmits signals responsive to operation of the switch. The electromechanical control system includes an operation device configured to respond to signals transmitted by the control communication device. Signals transmitted by the control communication device include commands to listen and commands to operate.

An auxiliary handle assembly for an exercise bike includes an extension handle, a first clamp, a second clamp, a first positioning unit, a second positioning unit, a grip and a bar end. The auxiliary handle assembly is removably mounted to the handlebar of the exercise bike. The user holds the grip and contacts the bar end to feel like holding a bicycle handlebar.